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author | Imre Kaloz <kaloz@openwrt.org> | 2008-06-05 17:14:02 +0000 |
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committer | Imre Kaloz <kaloz@openwrt.org> | 2008-06-05 17:14:02 +0000 |
commit | 12d5244f2b95681f494b90e26e21d90e4bd88929 (patch) | |
tree | 24c34e6edb6d50c28a61df63b394818a7171bef0 /target/linux/storm/patches/1002-gmac.patch | |
parent | 6ca4659c4e3f5851d0c1ec7779ce34f339c925db (diff) | |
download | mtk-20170518-12d5244f2b95681f494b90e26e21d90e4bd88929.zip mtk-20170518-12d5244f2b95681f494b90e26e21d90e4bd88929.tar.gz mtk-20170518-12d5244f2b95681f494b90e26e21d90e4bd88929.tar.bz2 |
rename and renumber storm patches
SVN-Revision: 11368
Diffstat (limited to 'target/linux/storm/patches/1002-gmac.patch')
-rw-r--r-- | target/linux/storm/patches/1002-gmac.patch | 18615 |
1 files changed, 0 insertions, 18615 deletions
diff --git a/target/linux/storm/patches/1002-gmac.patch b/target/linux/storm/patches/1002-gmac.patch deleted file mode 100644 index d6632ba..0000000 --- a/target/linux/storm/patches/1002-gmac.patch +++ /dev/null @@ -1,18615 +0,0 @@ ---- /dev/null -+++ b/drivers/net/sl2312_emac.c -@@ -0,0 +1,4604 @@ -+#include <linux/module.h> -+#include <linux/kernel.h> -+#include <linux/compiler.h> -+#include <linux/pci.h> -+#include <linux/init.h> -+#include <linux/ioport.h> -+#include <linux/netdevice.h> -+#include <linux/etherdevice.h> -+#include <linux/rtnetlink.h> -+#include <linux/delay.h> -+#include <linux/ethtool.h> -+#include <linux/mii.h> -+#include <linux/completion.h> -+#include <asm/hardware.h> -+#include <asm/io.h> -+#include <asm/irq.h> -+#include <asm/semaphore.h> -+#include <asm/arch-sl2312/irqs.h> -+#include <asm/arch/it8712.h> -+#include <asm/arch/sl2312.h> -+#include <linux/mtd/kvctl.h> -+#include <linux/sysctl_storlink.h> -+ -+#define BIG_ENDIAN 0 -+ -+#define GMAC_DEBUG 0 -+ -+#define GMAC_PHY_IF 2 -+ -+/* define PHY address */ -+#define HPHY_ADDR 0x01 -+#define GPHY_ADDR 0x02 -+ -+#define CONFIG_ADM_6999 1 -+/* define chip information */ -+#define DRV_NAME "SL2312" -+#define DRV_VERSION "0.1.1" -+#define SL2312_DRIVER_NAME DRV_NAME " Fast Ethernet driver " DRV_VERSION -+ -+/* define TX/RX descriptor parameter */ -+#define MAX_ETH_FRAME_SIZE 1920 -+#define TX_BUF_SIZE MAX_ETH_FRAME_SIZE -+#define TX_DESC_NUM 128 -+#define TX_BUF_TOT_LEN (TX_BUF_SIZE * TX_DESC_NUM) -+#define RX_BUF_SIZE MAX_ETH_FRAME_SIZE -+#define RX_DESC_NUM 256 -+#define RX_BUF_TOT_LEN (RX_BUF_SIZE * RX_DESC_NUM) -+#define MAX_ISR_WORK 20 -+ -+unsigned int int_status = 0; -+ -+/* define GMAC base address */ -+#define GMAC_PHYSICAL_BASE_ADDR (SL2312_GMAC_BASE) -+#define GMAC_BASE_ADDR (IO_ADDRESS(GMAC_PHYSICAL_BASE_ADDR)) -+#define GMAC_GLOBAL_BASE_ADDR (IO_ADDRESS(SL2312_GLOBAL_BASE)) -+ -+#define GMAC0_BASE (IO_ADDRESS(SL2312_GMAC0_BASE)) -+#define GMAC1_BASE (IO_ADDRESS(SL2312_GMAC1_BASE)) -+ -+/* memory management utility */ -+#define DMA_MALLOC(size,handle) pci_alloc_consistent(NULL,size,handle) -+#define DMA_MFREE(mem,size,handle) pci_free_consistent(NULL,size,mem,handle) -+ -+//#define gmac_read_reg(offset) (readl(GMAC_BASE_ADDR + offset)) -+//#define gmac_write_reg(offset,data,mask) writel( (gmac_read_reg(offset)&~mask) |(data&mask),(GMAC_BASE_ADDR+offset)) -+ -+/* define owner bit */ -+#define CPU 0 -+#define DMA 1 -+ -+#define ACTIVE 1 -+#define NONACTIVE 0 -+ -+#define CONFIG_SL_NAPI -+ -+#ifndef CONFIG_SL2312_MPAGE -+#define CONFIG_SL2312_MPAGE -+#endif -+ -+#ifdef CONFIG_SL2312_MPAGE -+#include <linux/skbuff.h> -+#include <linux/ip.h> -+#include <linux/tcp.h> -+#endif -+ -+#ifndef CONFIG_TXINT_DISABLE -+//#define CONFIG_TXINT_DISABLE -+#endif -+ -+enum phy_state -+{ -+ LINK_DOWN = 0, -+ LINK_UP = 1 -+}; -+ -+ -+/* transmit timeout value */ -+#define TX_TIMEOUT (6*HZ) -+ -+/***************************************/ -+/* the offset address of GMAC register */ -+/***************************************/ -+enum GMAC_REGISTER { -+ GMAC_STA_ADD0 = 0x0000, -+ GMAC_STA_ADD1 = 0x0004, -+ GMAC_STA_ADD2 = 0x0008, -+ GMAC_RX_FLTR = 0x000c, -+ GMAC_MCAST_FIL0 = 0x0010, -+ GMAC_MCAST_FIL1 = 0x0014, -+ GMAC_CONFIG0 = 0x0018, -+ GMAC_CONFIG1 = 0x001c, -+ GMAC_CONFIG2 = 0x0020, -+ GMAC_BNCR = 0x0024, -+ GMAC_RBNR = 0x0028, -+ GMAC_STATUS = 0x002c, -+ GMAC_IN_DISCARDS= 0x0030, -+ GMAC_IN_ERRORS = 0x0034, -+ GMAC_IN_MCAST = 0x0038, -+ GMAC_IN_BCAST = 0x003c, -+ GMAC_IN_MAC1 = 0x0040, -+ GMAC_IN_MAC2 = 0x0044 -+}; -+ -+/*******************************************/ -+/* the offset address of GMAC DMA register */ -+/*******************************************/ -+enum GMAC_DMA_REGISTER { -+ GMAC_DMA_DEVICE_ID = 0xff00, -+ GMAC_DMA_STATUS = 0xff04, -+ GMAC_TXDMA_CTRL = 0xff08, -+ GMAC_TXDMA_FIRST_DESC = 0xff0c, -+ GMAC_TXDMA_CURR_DESC = 0xff10, -+ GMAC_RXDMA_CTRL = 0xff14, -+ GMAC_RXDMA_FIRST_DESC = 0xff18, -+ GMAC_RXDMA_CURR_DESC = 0xff1c, -+}; -+ -+/*******************************************/ -+/* the register structure of GMAC */ -+/*******************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_0004 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int sta_add2_l16 : 16; /* station MAC address2 bits 15 to 0 */ -+ unsigned int sta_add1_h16 : 16; /* station MAC address1 bits 47 to 32 */ -+#else -+ unsigned int sta_add1_h16 : 16; /* station MAC address1 bits 47 to 32 */ -+ unsigned int sta_add2_l16 : 16; /* station MAC address2 bits 15 to 0 */ -+#endif -+ } bits; -+} GMAC_STA_ADD1_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_000c -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int : 27; -+ unsigned int error : 1; /* enable receive of all error frames */ -+ unsigned int promiscuous : 1; /* enable receive of all frames */ -+ unsigned int broadcast : 1; /* enable receive of broadcast frames */ -+ unsigned int multicast : 1; /* enable receive of multicast frames that pass multicast filter */ -+ unsigned int unicast : 1; /* enable receive of unicast frames that are sent to STA address */ -+#else -+ unsigned int unicast : 1; /* enable receive of unicast frames that are sent to STA address */ -+ unsigned int multicast : 1; /* enable receive of multicast frames that pass multicast filter */ -+ unsigned int broadcast : 1; /* enable receive of broadcast frames */ -+ unsigned int promiscuous : 1; /* enable receive of all frames */ -+ unsigned int error : 1; /* enable receive of all error frames */ -+ unsigned int : 27; -+#endif -+ } bits; -+} GMAC_RX_FLTR_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_0018 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int : 10; -+ unsigned int inv_rx_clk : 1; /* Inverse RX Clock */ -+ unsigned int rising_latch : 1; -+ unsigned int rx_tag_remove : 1; /* Remove Rx VLAN tag */ -+ unsigned int ipv6_tss_rx_en : 1; /* IPv6 TSS RX enable */ -+ unsigned int ipv4_tss_rx_en : 1; /* IPv4 TSS RX enable */ -+ unsigned int rgmii_en : 1; /* RGMII in-band status enable */ -+ unsigned int tx_fc_en : 1; /* TX flow control enable */ -+ unsigned int rx_fc_en : 1; /* RX flow control enable */ -+ unsigned int sim_test : 1; /* speed up timers in simulation */ -+ unsigned int dis_col : 1; /* disable 16 collisions abort function */ -+ unsigned int dis_bkoff : 1; /* disable back-off function */ -+ unsigned int max_len : 3; /* maximum receive frame length allowed */ -+ unsigned int adj_ifg : 4; /* adjust IFG from 96+/-56 */ -+ unsigned int : 1; /* reserved */ -+ unsigned int loop_back : 1; /* transmit data loopback enable */ -+ unsigned int dis_rx : 1; /* disable receive */ -+ unsigned int dis_tx : 1; /* disable transmit */ -+#else -+ unsigned int dis_tx : 1; /* disable transmit */ -+ unsigned int dis_rx : 1; /* disable receive */ -+ unsigned int loop_back : 1; /* transmit data loopback enable */ -+ unsigned int : 1; /* reserved */ -+ unsigned int adj_ifg : 4; /* adjust IFG from 96+/-56 */ -+ unsigned int max_len : 3; /* maximum receive frame length allowed */ -+ unsigned int dis_bkoff : 1; /* disable back-off function */ -+ unsigned int dis_col : 1; /* disable 16 collisions abort function */ -+ unsigned int sim_test : 1; /* speed up timers in simulation */ -+ unsigned int rx_fc_en : 1; /* RX flow control enable */ -+ unsigned int tx_fc_en : 1; /* TX flow control enable */ -+ unsigned int rgmii_en : 1; /* RGMII in-band status enable */ -+ unsigned int ipv4_tss_rx_en : 1; /* IPv4 TSS RX enable */ -+ unsigned int ipv6_tss_rx_en : 1; /* IPv6 TSS RX enable */ -+ unsigned int rx_tag_remove : 1; /* Remove Rx VLAN tag */ -+ unsigned int rising_latch : 1; -+ unsigned int inv_rx_clk : 1; /* Inverse RX Clock */ -+ unsigned int : 10; -+#endif -+ } bits; -+} GMAC_CONFIG0_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_001c -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int : 28; -+ unsigned int buf_size : 4; /* per packet buffer size */ -+#else -+ unsigned int buf_size : 4; /* per packet buffer size */ -+ unsigned int : 28; -+#endif -+ } bits; -+} GMAC_CONFIG1_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_0020 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int rel_threshold : 16; /* flow control release threshold */ -+ unsigned int set_threshold : 16; /* flow control set threshold */ -+#else -+ unsigned int set_threshold : 16; /* flow control set threshold */ -+ unsigned int rel_threshold : 16; /* flow control release threshold */ -+#endif -+ } bits; -+} GMAC_CONFIG2_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_0024 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int : 16; -+ unsigned int buf_num : 16; /* return buffer number from software */ -+#else -+ unsigned int buf_num : 16; /* return buffer number from software */ -+ unsigned int : 16; -+#endif -+ } bits; -+} GMAC_BNCR_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_0028 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int : 16; -+ unsigned int buf_remain : 16; /* remaining buffer number */ -+#else -+ unsigned int buf_remain : 16; /* remaining buffer number */ -+ unsigned int : 16; -+#endif -+ } bits; -+} GMAC_RBNR_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_002c -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int : 25; -+ unsigned int mii_rmii : 2; /* PHY interface type */ -+ unsigned int phy_mode : 1; /* PHY interface mode in 10M-bps */ -+ unsigned int duplex : 1; /* duplex mode */ -+ unsigned int speed : 2; /* link speed(00->2.5M 01->25M 10->125M) */ -+ unsigned int link : 1; /* link status */ -+#else -+ unsigned int link : 1; /* link status */ -+ unsigned int speed : 2; /* link speed(00->2.5M 01->25M 10->125M) */ -+ unsigned int duplex : 1; /* duplex mode */ -+ unsigned int phy_mode : 1; /* PHY interface mode in 10M-bps */ -+ unsigned int mii_rmii : 2; /* PHY interface type */ -+ unsigned int : 25; -+#endif -+ } bits; -+} GMAC_STATUS_T; -+ -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_009 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int : 10; -+ unsigned int tx_fail : 1; /* Tx fail interrupt */ -+ unsigned int cnt_full : 1; /* MIB counters half full interrupt */ -+ unsigned int rx_pause_on : 1; /* received pause on frame interrupt */ -+ unsigned int tx_pause_on : 1; /* transmit pause on frame interrupt */ -+ unsigned int rx_pause_off : 1; /* received pause off frame interrupt */ -+ unsigned int tx_pause_off : 1; /* received pause off frame interrupt */ -+ unsigned int rx_overrun : 1; /* GMAC Rx FIFO overrun interrupt */ -+ unsigned int tx_underrun : 1; /* GMAC Tx FIFO underrun interrupt */ -+ unsigned int : 6; -+ unsigned int m_tx_fail : 1; /* Tx fail interrupt mask */ -+ unsigned int m_cnt_full : 1; /* MIB counters half full interrupt mask */ -+ unsigned int m_rx_pause_on : 1; /* received pause on frame interrupt mask */ -+ unsigned int m_tx_pause_on : 1; /* transmit pause on frame interrupt mask */ -+ unsigned int m_rx_pause_off : 1; /* received pause off frame interrupt mask */ -+ unsigned int m_tx_pause_off : 1; /* received pause off frame interrupt mask */ -+ unsigned int m_rx_overrun : 1; /* GMAC Rx FIFO overrun interrupt mask */ -+ unsigned int m_tx_underrun : 1; /* GMAC Tx FIFO underrun interrupt mask */ -+#else -+ unsigned int m_tx_underrun : 1; /* GMAC Tx FIFO underrun interrupt mask */ -+ unsigned int m_rx_overrun : 1; /* GMAC Rx FIFO overrun interrupt mask */ -+ unsigned int m_tx_pause_off : 1; /* received pause off frame interrupt mask */ -+ unsigned int m_rx_pause_off : 1; /* received pause off frame interrupt mask */ -+ unsigned int m_tx_pause_on : 1; /* transmit pause on frame interrupt mask */ -+ unsigned int m_rx_pause_on : 1; /* received pause on frame interrupt mask */ -+ unsigned int m_cnt_full : 1; /* MIB counters half full interrupt mask */ -+ unsigned int m_tx_fail : 1; /* Tx fail interrupt mask */ -+ unsigned int : 6; -+ unsigned int tx_underrun : 1; /* GMAC Tx FIFO underrun interrupt */ -+ unsigned int rx_overrun : 1; /* GMAC Rx FIFO overrun interrupt */ -+ unsigned int tx_pause_off : 1; /* received pause off frame interrupt */ -+ unsigned int rx_pause_off : 1; /* received pause off frame interrupt */ -+ unsigned int tx_pause_on : 1; /* transmit pause on frame interrupt */ -+ unsigned int rx_pause_on : 1; /* received pause on frame interrupt */ -+ unsigned int cnt_full : 1; /* MIB counters half full interrupt */ -+ unsigned int tx_fail : 1; /* Tx fail interrupt */ -+ unsigned int : 10; -+#endif -+ } bits; -+} GMAC_INT_MASK_T; -+ -+ -+/*******************************************/ -+/* the register structure of GMAC DMA */ -+/*******************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit2_ff00 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int : 7; /* reserved */ -+ unsigned int s_ahb_err : 1; /* Slave AHB bus error */ -+ unsigned int tx_err_code : 4; /* TxDMA error code */ -+ unsigned int rx_err_code : 4; /* RxDMA error code */ -+ unsigned int device_id : 12; -+ unsigned int revision_id : 4; -+#else -+ unsigned int revision_id : 4; -+ unsigned int device_id : 12; -+ unsigned int rx_err_code : 4; /* RxDMA error code */ -+ unsigned int tx_err_code : 4; /* TxDMA error code */ -+ unsigned int s_ahb_err : 1; /* Slave AHB bus error */ -+ unsigned int : 7; /* reserved */ -+#endif -+ } bits; -+} GMAC_DMA_DEVICE_ID_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit2_ff04 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int ts_finish : 1; /* finished tx interrupt */ -+ unsigned int ts_derr : 1; /* AHB Bus Error while tx */ -+ unsigned int ts_perr : 1; /* Tx Descriptor protocol error */ -+ unsigned int ts_eodi : 1; /* TxDMA end of descriptor interrupt */ -+ unsigned int ts_eofi : 1; /* TxDMA end of frame interrupt */ -+ unsigned int rs_finish : 1; /* finished rx interrupt */ -+ unsigned int rs_derr : 1; /* AHB Bus Error while rx */ -+ unsigned int rs_perr : 1; /* Rx Descriptor protocol error */ -+ unsigned int rs_eodi : 1; /* RxDMA end of descriptor interrupt */ -+ unsigned int rs_eofi : 1; /* RxDMA end of frame interrupt */ -+ unsigned int : 1; /* Tx fail interrupt */ -+ unsigned int cnt_full : 1; /* MIB counters half full interrupt */ -+ unsigned int rx_pause_on : 1; /* received pause on frame interrupt */ -+ unsigned int tx_pause_on : 1; /* transmit pause on frame interrupt */ -+ unsigned int rx_pause_off : 1; /* received pause off frame interrupt */ -+ unsigned int tx_pause_off : 1; /* received pause off frame interrupt */ -+ unsigned int rx_overrun : 1; /* GMAC Rx FIFO overrun interrupt */ -+ unsigned int link_change : 1; /* GMAC link changed Interrupt for RGMII mode */ -+ unsigned int : 1; -+ unsigned int : 1; -+ unsigned int : 3; -+ unsigned int loop_back : 1; /* loopback TxDMA to RxDMA */ -+ unsigned int : 1; /* Tx fail interrupt mask */ -+ unsigned int m_cnt_full : 1; /* MIB counters half full interrupt mask */ -+ unsigned int m_rx_pause_on : 1; /* received pause on frame interrupt mask */ -+ unsigned int m_tx_pause_on : 1; /* transmit pause on frame interrupt mask */ -+ unsigned int m_rx_pause_off : 1; /* received pause off frame interrupt mask */ -+ unsigned int m_tx_pause_off : 1; /* received pause off frame interrupt mask */ -+ unsigned int m_rx_overrun : 1; /* GMAC Rx FIFO overrun interrupt mask */ -+ unsigned int m_link_change : 1; /* GMAC link changed Interrupt mask for RGMII mode */ -+#else -+ unsigned int m_link_change : 1; /* GMAC link changed Interrupt mask for RGMII mode */ -+ unsigned int m_rx_overrun : 1; /* GMAC Rx FIFO overrun interrupt mask */ -+ unsigned int m_tx_pause_off : 1; /* received pause off frame interrupt mask */ -+ unsigned int m_rx_pause_off : 1; /* received pause off frame interrupt mask */ -+ unsigned int m_tx_pause_on : 1; /* transmit pause on frame interrupt mask */ -+ unsigned int m_rx_pause_on : 1; /* received pause on frame interrupt mask */ -+ unsigned int m_cnt_full : 1; /* MIB counters half full interrupt mask */ -+ unsigned int : 1; /* Tx fail interrupt mask */ -+ unsigned int loop_back : 1; /* loopback TxDMA to RxDMA */ -+ unsigned int : 3; -+ unsigned int : 1; -+ unsigned int : 1; -+ unsigned int link_change : 1; /* GMAC link changed Interrupt for RGMII mode */ -+ unsigned int rx_overrun : 1; /* GMAC Rx FIFO overrun interrupt */ -+ unsigned int tx_pause_off : 1; /* received pause off frame interrupt */ -+ unsigned int rx_pause_off : 1; /* received pause off frame interrupt */ -+ unsigned int tx_pause_on : 1; /* transmit pause on frame interrupt */ -+ unsigned int rx_pause_on : 1; /* received pause on frame interrupt */ -+ unsigned int cnt_full : 1; /* MIB counters half full interrupt */ -+ unsigned int : 1; /* Tx fail interrupt */ -+ unsigned int rs_eofi : 1; /* RxDMA end of frame interrupt */ -+ unsigned int rs_eodi : 1; /* RxDMA end of descriptor interrupt */ -+ unsigned int rs_perr : 1; /* Rx Descriptor protocol error */ -+ unsigned int rs_derr : 1; /* AHB Bus Error while rx */ -+ unsigned int rs_finish : 1; /* finished rx interrupt */ -+ unsigned int ts_eofi : 1; /* TxDMA end of frame interrupt */ -+ unsigned int ts_eodi : 1; /* TxDMA end of descriptor interrupt */ -+ unsigned int ts_perr : 1; /* Tx Descriptor protocol error */ -+ unsigned int ts_derr : 1; /* AHB Bus Error while tx */ -+ unsigned int ts_finish : 1; /* finished tx interrupt */ -+#endif -+ } bits; -+} GMAC_DMA_STATUS_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit2_ff08 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int td_start : 1; /* Start DMA transfer */ -+ unsigned int td_continue : 1; /* Continue DMA operation */ -+ unsigned int td_chain_mode : 1; /* Descriptor Chain Mode;1-Descriptor Chain mode, 0-Direct DMA mode*/ -+ unsigned int : 1; -+ unsigned int td_prot : 4; /* TxDMA protection control */ -+ unsigned int td_burst_size : 2; /* TxDMA max burst size for every AHB request */ -+ unsigned int td_bus : 2; /* peripheral bus width;0x->8 bits,10->16 bits,11->32 bits */ -+ unsigned int td_endian : 1; /* AHB Endian. 0-little endian; 1-big endian */ -+ unsigned int td_finish_en : 1; /* DMA Finish Event Interrupt Enable;1-enable;0-mask */ -+ unsigned int td_fail_en : 1; /* DMA Fail Interrupt Enable;1-enable;0-mask */ -+ unsigned int td_perr_en : 1; /* Protocol Failure Interrupt Enable;1-enable;0-mask */ -+ unsigned int td_eod_en : 1; /* End of Descriptor interrupt Enable;1-enable;0-mask */ -+ unsigned int td_eof_en : 1; /* End of frame interrupt Enable;1-enable;0-mask */ -+ unsigned int : 14; -+#else -+ unsigned int : 14; -+ unsigned int td_eof_en : 1; /* End of frame interrupt Enable;1-enable;0-mask */ -+ unsigned int td_eod_en : 1; /* End of Descriptor interrupt Enable;1-enable;0-mask */ -+ unsigned int td_perr_en : 1; /* Protocol Failure Interrupt Enable;1-enable;0-mask */ -+ unsigned int td_fail_en : 1; /* DMA Fail Interrupt Enable;1-enable;0-mask */ -+ unsigned int td_finish_en : 1; /* DMA Finish Event Interrupt Enable;1-enable;0-mask */ -+ unsigned int td_endian : 1; /* AHB Endian. 0-little endian; 1-big endian */ -+ unsigned int td_bus : 2; /* peripheral bus width;0x->8 bits,10->16 bits,11->32 bits */ -+ unsigned int td_burst_size : 2; /* TxDMA max burst size for every AHB request */ -+ unsigned int td_prot : 4; /* TxDMA protection control */ -+ unsigned int : 1; -+ unsigned int td_chain_mode : 1; /* Descriptor Chain Mode;1-Descriptor Chain mode, 0-Direct DMA mode*/ -+ unsigned int td_continue : 1; /* Continue DMA operation */ -+ unsigned int td_start : 1; /* Start DMA transfer */ -+#endif -+ } bits; -+} GMAC_TXDMA_CTRL_T; -+ -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit2_ff0c -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int td_first_des_ptr : 28;/* first descriptor address */ -+ unsigned int td_busy : 1;/* 1-TxDMA busy; 0-TxDMA idle */ -+ unsigned int : 3; -+#else -+ unsigned int : 3; -+ unsigned int td_busy : 1;/* 1-TxDMA busy; 0-TxDMA idle */ -+ unsigned int td_first_des_ptr : 28;/* first descriptor address */ -+#endif -+ } bits; -+} GMAC_TXDMA_FIRST_DESC_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit2_ff10 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int ndar : 28; /* next descriptor address */ -+ unsigned int eofie : 1; /* end of frame interrupt enable */ -+ unsigned int : 1; -+ unsigned int sof_eof : 2; -+#else -+ unsigned int sof_eof : 2; -+ unsigned int : 1; -+ unsigned int eofie : 1; /* end of frame interrupt enable */ -+ unsigned int ndar : 28; /* next descriptor address */ -+#endif -+ } bits; -+} GMAC_TXDMA_CURR_DESC_T; -+ -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit2_ff14 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int rd_start : 1; /* Start DMA transfer */ -+ unsigned int rd_continue : 1; /* Continue DMA operation */ -+ unsigned int rd_chain_mode : 1; /* Descriptor Chain Mode;1-Descriptor Chain mode, 0-Direct DMA mode*/ -+ unsigned int : 1; -+ unsigned int rd_prot : 4; /* DMA protection control */ -+ unsigned int rd_burst_size : 2; /* DMA max burst size for every AHB request */ -+ unsigned int rd_bus : 2; /* peripheral bus width;0x->8 bits,10->16 bits,11->32 bits */ -+ unsigned int rd_endian : 1; /* AHB Endian. 0-little endian; 1-big endian */ -+ unsigned int rd_finish_en : 1; /* DMA Finish Event Interrupt Enable;1-enable;0-mask */ -+ unsigned int rd_fail_en : 1; /* DMA Fail Interrupt Enable;1-enable;0-mask */ -+ unsigned int rd_perr_en : 1; /* Protocol Failure Interrupt Enable;1-enable;0-mask */ -+ unsigned int rd_eod_en : 1; /* End of Descriptor interrupt Enable;1-enable;0-mask */ -+ unsigned int rd_eof_en : 1; /* End of frame interrupt Enable;1-enable;0-mask */ -+ unsigned int : 14; -+#else -+ unsigned int : 14; -+ unsigned int rd_eof_en : 1; /* End of frame interrupt Enable;1-enable;0-mask */ -+ unsigned int rd_eod_en : 1; /* End of Descriptor interrupt Enable;1-enable;0-mask */ -+ unsigned int rd_perr_en : 1; /* Protocol Failure Interrupt Enable;1-enable;0-mask */ -+ unsigned int rd_fail_en : 1; /* DMA Fail Interrupt Enable;1-enable;0-mask */ -+ unsigned int rd_finish_en : 1; /* DMA Finish Event Interrupt Enable;1-enable;0-mask */ -+ unsigned int rd_endian : 1; /* AHB Endian. 0-little endian; 1-big endian */ -+ unsigned int rd_bus : 2; /* peripheral bus width;0x->8 bits,10->16 bits,11->32 bits */ -+ unsigned int rd_burst_size : 2; /* DMA max burst size for every AHB request */ -+ unsigned int rd_prot : 4; /* DMA protection control */ -+ unsigned int : 1; -+ unsigned int rd_chain_mode : 1; /* Descriptor Chain Mode;1-Descriptor Chain mode, 0-Direct DMA mode*/ -+ unsigned int rd_continue : 1; /* Continue DMA operation */ -+ unsigned int rd_start : 1; /* Start DMA transfer */ -+#endif -+ } bits; -+} GMAC_RXDMA_CTRL_T; -+ -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit2_ff18 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int rd_first_des_ptr : 28;/* first descriptor address */ -+ unsigned int rd_busy : 1;/* 1-RxDMA busy; 0-RxDMA idle */ -+ unsigned int : 3; -+#else -+ unsigned int : 3; -+ unsigned int rd_busy : 1;/* 1-RxDMA busy; 0-RxDMA idle */ -+ unsigned int rd_first_des_ptr : 28;/* first descriptor address */ -+#endif -+ } bits; -+} GMAC_RXDMA_FIRST_DESC_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit2_ff1c -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int ndar : 28; /* next descriptor address */ -+ unsigned int eofie : 1; /* end of frame interrupt enable */ -+ unsigned int : 1; -+ unsigned int sof_eof : 2; -+#else -+ unsigned int sof_eof : 2; -+ unsigned int : 1; -+ unsigned int eofie : 1; /* end of frame interrupt enable */ -+ unsigned int ndar : 28; /* next descriptor address */ -+#endif -+ } bits; -+} GMAC_RXDMA_CURR_DESC_T; -+ -+ -+/********************************************/ -+/* Descriptor Format */ -+/********************************************/ -+ -+typedef struct descriptor_t -+{ -+ union frame_control_t -+ { -+ unsigned int bits32; -+ struct bits_0000 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int own : 1; /* owner bit. 0-CPU, 1-DMA */ -+ unsigned int derr : 1; /* data error during processing this descriptor */ -+ unsigned int perr : 1; /* protocol error during processing this descriptor */ -+ unsigned int csum_state : 3; /* checksum error status */ -+ unsigned int vlan_tag : 1; /* 802.1q vlan tag packet */ -+ unsigned int frame_state: 3; /* reference Rx Status1 */ -+ unsigned int desc_count : 6; /* number of descriptors used for the current frame */ -+ unsigned int buffer_size:16; /* transfer buffer size associated with current description*/ -+#else -+ unsigned int buffer_size:16; /* transfer buffer size associated with current description*/ -+ unsigned int desc_count : 6; /* number of descriptors used for the current frame */ -+ unsigned int frame_state: 3; /* reference Rx Status1 */ -+ unsigned int vlan_tag : 1; /* 802.1q vlan tag packet */ -+ unsigned int csum_state : 3; /* checksum error status */ -+ unsigned int perr : 1; /* protocol error during processing this descriptor */ -+ unsigned int derr : 1; /* data error during processing this descriptor */ -+ unsigned int own : 1; /* owner bit. 0-CPU, 1-DMA */ -+#endif -+ } bits_rx; -+ -+ struct bits_0001 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int own : 1; /* owner bit. 0-CPU, 1-DMA */ -+ unsigned int derr : 1; /* data error during processing this descriptor */ -+ unsigned int perr : 1; /* protocol error during processing this descriptor */ -+ unsigned int : 6; -+ unsigned int success_tx : 1; /* successful transmitted */ -+ unsigned int desc_count : 6; /* number of descriptors used for the current frame */ -+ unsigned int buffer_size:16; /* transfer buffer size associated with current description*/ -+#else -+ unsigned int buffer_size:16; /* transfer buffer size associated with current description*/ -+ unsigned int desc_count : 6; /* number of descriptors used for the current frame */ -+ unsigned int success_tx : 1; /* successful transmitted */ -+ unsigned int : 6; -+ unsigned int perr : 1; /* protocol error during processing this descriptor */ -+ unsigned int derr : 1; /* data error during processing this descriptor */ -+ unsigned int own : 1; /* owner bit. 0-CPU, 1-DMA */ -+#endif -+ } bits_tx_in; -+ -+ struct bits_0002 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int own : 1; /* owner bit. 0-CPU, 1-DMA */ -+ unsigned int derr : 1; /* data error during processing this descriptor */ -+ unsigned int perr : 1; /* protocol error during processing this descriptor */ -+ unsigned int : 2; -+ unsigned int udp_csum_en: 1; /* TSS UDP checksum enable */ -+ unsigned int tcp_csum_en: 1; /* TSS TCP checksum enable */ -+ unsigned int ipv6_tx_en : 1; /* TSS IPv6 TX enable */ -+ unsigned int ip_csum_en : 1; /* TSS IPv4 IP Header checksum enable */ -+ unsigned int vlan_enable: 1; /* VLAN TIC insertion enable */ -+ unsigned int desc_count : 6; /* number of descriptors used for the current frame */ -+ unsigned int buffer_size:16; /* transfer buffer size associated with current description*/ -+#else -+ unsigned int buffer_size:16; /* transfer buffer size associated with current description*/ -+ unsigned int desc_count : 6; /* number of descriptors used for the current frame */ -+ unsigned int vlan_enable: 1; /* VLAN TIC insertion enable */ -+ unsigned int ip_csum_en : 1; /* TSS IPv4 IP Header checksum enable */ -+ unsigned int ipv6_tx_en : 1; /* TSS IPv6 TX enable */ -+ unsigned int tcp_csum_en: 1; /* TSS TCP checksum enable */ -+ unsigned int udp_csum_en: 1; /* TSS UDP checksum enable */ -+ unsigned int : 2; -+ unsigned int perr : 1; /* protocol error during processing this descriptor */ -+ unsigned int derr : 1; /* data error during processing this descriptor */ -+ unsigned int own : 1; /* owner bit. 0-CPU, 1-DMA */ -+#endif -+ } bits_tx_out; -+ -+ } frame_ctrl; -+ -+ union flag_status_t -+ { -+ unsigned int bits32; -+ struct bits_0004 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int priority : 3; /* user priority extracted from receiving frame*/ -+ unsigned int cfi : 1; /* cfi extracted from receiving frame*/ -+ unsigned int vlan_id :12; /* VLAN ID extracted from receiving frame */ -+ unsigned int frame_count:16; /* received frame byte count,include CRC,not include VLAN TIC */ -+#else -+ unsigned int frame_count:16; /* received frame byte count,include CRC,not include VLAN TIC */ -+ unsigned int vlan_id :12; /* VLAN ID extracted from receiving frame */ -+ unsigned int cfi : 1; /* cfi extracted from receiving frame*/ -+ unsigned int priority : 3; /* user priority extracted from receiving frame*/ -+#endif -+ } bits_rx_status; -+ -+ struct bits_0005 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int priority : 3; /* user priority to transmit*/ -+ unsigned int cfi : 1; /* cfi to transmit*/ -+ unsigned int vlan_id :12; /* VLAN ID to transmit */ -+ unsigned int frame_count:16; /* total tx frame byte count */ -+#else -+ unsigned int frame_count:16; /* total tx frame byte count */ -+ unsigned int vlan_id :12; /* VLAN ID to transmit */ -+ unsigned int cfi : 1; /* cfi to transmit*/ -+ unsigned int priority : 3; /* user priority to transmit*/ -+#endif -+ } bits_tx_flag; -+ } flag_status; -+ -+ unsigned int buf_adr; /* data buffer address */ -+ -+ union next_desc_t -+ { -+ unsigned int next_descriptor; -+ struct bits_000c -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int ndar :28; /* next descriptor address */ -+ unsigned int eofie : 1; /* end of frame interrupt enable */ -+ unsigned int : 1; -+ unsigned int sof_eof : 2; /* 00-the linking descriptor 01-the last descriptor of a frame*/ -+ /* 10-the first descriptor of a frame 11-only one descriptor for a frame*/ -+#else -+ unsigned int sof_eof : 2; /* 00-the linking descriptor 01-the last descriptor of a frame*/ -+ /* 10-the first descriptor of a frame 11-only one descriptor for a frame*/ -+ unsigned int : 1; -+ unsigned int eofie : 1; /* end of frame interrupt enable */ -+ unsigned int ndar :28; /* next descriptor address */ -+#endif -+ } bits; -+ } next_desc; -+} GMAC_DESCRIPTOR_T; -+ -+typedef struct gmac_conf { -+ struct net_device *dev; -+ int portmap; -+ int vid; -+ int flag; /* 1: active 0: non-active */ -+} sys_gmac_conf; -+ -+struct gmac_private { -+ unsigned char *tx_bufs; /* Tx bounce buffer region. */ -+ unsigned char *rx_bufs; -+ GMAC_DESCRIPTOR_T *tx_desc; /* point to virtual TX descriptor address*/ -+ GMAC_DESCRIPTOR_T *rx_desc; /* point to virtual RX descriptor address*/ -+ GMAC_DESCRIPTOR_T *tx_cur_desc; /* point to current TX descriptor */ -+ GMAC_DESCRIPTOR_T *rx_cur_desc; /* point to current RX descriptor */ -+ GMAC_DESCRIPTOR_T *tx_finished_desc; -+ GMAC_DESCRIPTOR_T *rx_finished_desc; -+ unsigned long cur_tx; -+ unsigned int cur_rx; /* Index into the Rx buffer of next Rx pkt. */ -+ unsigned int tx_flag; -+ unsigned long dirty_tx; -+ unsigned char *tx_buf[TX_DESC_NUM]; /* Tx bounce buffers */ -+ dma_addr_t tx_desc_dma; /* physical TX descriptor address */ -+ dma_addr_t rx_desc_dma; /* physical RX descriptor address */ -+ dma_addr_t tx_bufs_dma; /* physical TX descriptor address */ -+ dma_addr_t rx_bufs_dma; /* physical RX descriptor address */ -+ struct net_device_stats stats; -+ pid_t thr_pid; -+ wait_queue_head_t thr_wait; -+ struct completion thr_exited; -+ spinlock_t lock; -+ int time_to_die; -+ unsigned int tx_desc_hdr[GMAC_PHY_IF]; /* the descriptor which sw can fill */ -+ unsigned int tx_desc_tail[GMAC_PHY_IF]; /* the descriptor which is not cleaned yet */ -+}; -+ -+ -+struct reg_ioctl_data { -+ unsigned int reg_addr; /* the register address */ -+ unsigned int val_in; /* data write to the register */ -+ unsigned int val_out; /* data read from the register */ -+}; -+ -+#ifdef CONFIG_SL2312_MPAGE -+typedef struct tx_data_t { -+ int freeable; // 1 when it's skb. it can be freed in tx interrupt handler -+ struct sk_buff* skb; // skb -+ int desc_in_use; // 1 when the desc is in use. 0 when desc is available. -+ long end_seq; // to find out packets are in seq. -+ // so this value is the seq of next packet. -+} tx_data; -+#endif -+ -+/************************************************************* -+ * Global Variable -+ *************************************************************/ -+struct semaphore sem_gmac; /* semaphore for share pins issue */ -+ -+/************************************************************* -+ * Static Global Variable -+ *************************************************************/ -+// static unsigned int MAC_BASE_ADDR = GMAC0_BASE; -+static unsigned int gmac_base_addr[GMAC_PHY_IF] = {GMAC0_BASE,GMAC1_BASE}; -+static unsigned int gmac_irq[GMAC_PHY_IF] = {IRQ_GMAC0,IRQ_GMAC1}; -+static struct net_device *gmac_dev[GMAC_PHY_IF]; -+ -+static unsigned int FLAG_SWITCH=0; /* if 1-->switch chip presented. if 0-->switch chip unpresented */ -+static unsigned int flow_control_enable[GMAC_PHY_IF] = {1,1}; -+static unsigned int pre_phy_status[GMAC_PHY_IF] = {LINK_DOWN,LINK_DOWN}; -+static unsigned int tx_desc_virtual_base[GMAC_PHY_IF]; -+static unsigned int rx_desc_virtual_base[GMAC_PHY_IF]; -+static unsigned int full_duplex = 1; -+static unsigned int speed = 1; -+#ifdef CONFIG_SL2312_MPAGE -+static tx_data tx_skb[GMAC_PHY_IF][TX_DESC_NUM]; -+#else -+static struct sk_buff *tx_skb[GMAC_PHY_IF][TX_DESC_NUM]; -+#endif -+static struct sk_buff *rx_skb[GMAC_PHY_IF][RX_DESC_NUM]; -+static unsigned int tx_desc_start_adr[GMAC_PHY_IF]; -+static unsigned int rx_desc_start_adr[GMAC_PHY_IF]; -+static unsigned char eth0_mac[6]= {0x00,0x50,0xc2,0x2b,0xd3,0x25}; -+static unsigned char eth1_mac[6]= {0x00,0x50,0xc2,0x2b,0xdf,0xfe}; -+static unsigned int next_tick = 3 * HZ; -+ -+static unsigned int phy_addr[GMAC_PHY_IF] = {0x01,0x02}; /* define PHY address */ -+ -+DECLARE_WAIT_QUEUE_HEAD(gmac_queue); -+//static wait_queue_t wait; -+ -+struct gmac_conf VLAN_conf[] = { -+#ifdef CONFIG_ADM_6999 -+ { (struct net_device *)0,0x7F,1 }, -+ { (struct net_device *)0,0x80,2 } -+#endif -+#ifdef CONFIG_ADM_6996 -+ { (struct net_device *)0,0x0F,1 }, -+ { (struct net_device *)0,0x10,2 } -+#endif -+}; -+ -+#define NUM_VLAN_IF (sizeof(VLAN_conf)/sizeof(struct gmac_conf)) -+ -+ -+/************************************************/ -+/* GMAC function declare */ -+/************************************************/ -+ -+unsigned int mii_read(unsigned char phyad,unsigned char regad); -+void mii_write(unsigned char phyad,unsigned char regad,unsigned int value); -+static void gmac_set_phy_status(struct net_device *dev); -+static void gmac_get_phy_status(struct net_device *dev); -+static int gmac_phy_thread (void *data); -+static int gmac_set_mac_address(struct net_device *dev, void *addr); -+static void gmac_tx_timeout(struct net_device *dev); -+static void gmac_tx_packet_complete(struct net_device *dev); -+static int gmac_start_xmit(struct sk_buff *skb, struct net_device *dev); -+static void gmac_set_rx_mode(struct net_device *dev); -+static void gmac_rx_packet(struct net_device *dev); -+static int gmac_open (struct net_device *dev); -+static int gmac_netdev_ioctl(struct net_device *dev, struct ifreq *rq, int cmd); -+ -+static unsigned int gmac_get_dev_index(struct net_device *dev); -+static unsigned int gmac_select_interface(struct net_device *dev); -+ -+#ifdef CONFIG_SL2312_MPAGE -+int printk_all(int dev_index, struct gmac_private* tp); -+#endif -+ -+/****************************************/ -+/* SPI Function Declare */ -+/****************************************/ -+void SPI_write(unsigned char addr,unsigned int value); -+unsigned int SPI_read(unsigned char table,unsigned char addr); -+void SPI_write_bit(char bit_EEDO); -+unsigned int SPI_read_bit(void); -+void SPI_default(void); -+void SPI_reset(unsigned char rstype,unsigned char port_cnt); -+void SPI_pre_st(void); -+void SPI_CS_enable(unsigned char enable); -+void SPI_Set_VLAN(unsigned char LAN,unsigned int port_mask); -+void SPI_Set_tag(unsigned int port,unsigned tag); -+void SPI_Set_PVID(unsigned int PVID,unsigned int port_mask); -+unsigned int SPI_Get_PVID(unsigned int port); -+void SPI_mac_lock(unsigned int port, unsigned char lock); -+void SPI_get_port_state(unsigned int port); -+void SPI_port_enable(unsigned int port,unsigned char enable); -+unsigned int SPI_get_identifier(void); -+void SPI_get_status(unsigned int port); -+ -+/****************************************/ -+/* VLAN Function Declare */ -+/****************************************/ -+int getVLANfromdev (struct net_device *dev ); -+struct net_device * getdevfromVLAN( int VID); -+ -+ -+ -+/************************************************/ -+/* function body */ -+/************************************************/ -+#if 0 -+void hw_memcpy(void *to,const void *from,unsigned long n) -+{ -+ writel(from,SL2312_DRAM_CTRL_BASE+0x20); /* set source address */ -+ writel(to,SL2312_DRAM_CTRL_BASE+0x24); /* set destination address */ -+ writel(n,SL2312_DRAM_CTRL_BASE+0x28); /* set byte count */ -+ writel(0x00000001,SL2312_DRAM_CTRL_BASE+0x2c); -+ while (readl(SL2312_DRAM_CTRL_BASE+0x2c)); -+} -+#endif -+ -+static unsigned int gmac_read_reg(unsigned int addr) -+{ -+ unsigned int reg_val; -+// unsigned int flags; -+// spinlock_t lock; -+ -+// spin_lock_irqsave(&lock, flags); -+ reg_val = readl(addr); // Gary Chen -+// spin_unlock_irqrestore(&lock, flags); -+ return (reg_val); -+} -+ -+static void gmac_write_reg(unsigned int addr,unsigned int data,unsigned int bit_mask) -+{ -+ unsigned int reg_val; -+ //unsigned int *addr; -+// unsigned int flags; -+// spinlock_t lock; -+ -+// spin_lock_irqsave(&lock, flags); -+ reg_val = ( gmac_read_reg(addr) & (~bit_mask) ) | (data & bit_mask); -+ writel(reg_val,addr); -+// spin_unlock_irqrestore(&lock, flags); -+ return; -+} -+ -+ -+static void gmac_sw_reset(struct net_device *dev) -+{ -+ unsigned int index; -+ unsigned int reg_val; -+ -+ index = gmac_get_dev_index(dev); -+ if (index==0) -+ reg_val = readl(GMAC_GLOBAL_BASE_ADDR+0x0c) | 0x00000020; /* GMAC0 S/W reset */ -+ else -+ reg_val = readl(GMAC_GLOBAL_BASE_ADDR+0x0c) | 0x00000040; /* GMAC1 S/W reset */ -+ -+ writel(reg_val,GMAC_GLOBAL_BASE_ADDR+0x0c); -+ return; -+} -+ -+static void gmac_get_mac_address(void) -+{ -+#ifdef CONFIG_MTD -+ extern int get_vlaninfo(vlaninfo* vlan); -+ static vlaninfo vlan[2]; -+ -+ if (get_vlaninfo(&vlan[0])) -+ { -+ memcpy(eth0_mac,vlan[0].mac,6); -+ VLAN_conf[0].vid = vlan[0].vlanid; -+ VLAN_conf[0].portmap = vlan[0].vlanmap; -+ memcpy(eth1_mac,vlan[1].mac,6); -+ VLAN_conf[1].vid = vlan[1].vlanid; -+ VLAN_conf[1].portmap = vlan[1].vlanmap; -+ } -+#else -+ unsigned int reg_val; -+ -+ reg_val = readl(IO_ADDRESS(SL2312_SECURITY_BASE)+0xac); -+ eth0_mac[4] = (reg_val & 0xff00) >> 8; -+ eth0_mac[5] = reg_val & 0x00ff; -+ reg_val = readl(IO_ADDRESS(SL2312_SECURITY_BASE)+0xac); -+ eth1_mac[4] = (reg_val & 0xff00) >> 8; -+ eth1_mac[5] = reg_val & 0x00ff; -+#endif -+ return; -+} -+ -+static unsigned int gmac_get_dev_index(struct net_device *dev) -+{ -+ unsigned int i; -+ -+ /* get device index number */ -+ for (i=0;i<GMAC_PHY_IF;i++) -+ { -+ if (gmac_dev[i]==dev) -+ { -+ return(i); -+ } -+ } -+ return (0xff); -+} -+ -+static unsigned int gmac_select_interface(struct net_device *dev) -+{ -+ unsigned int index; -+ -+ index = gmac_get_dev_index(dev); -+ // MAC_BASE_ADDR = gmac_base_addr[index]; // Gary Chen -+ return (index); -+} -+ -+ -+static void gmac_dump_register(struct net_device *dev) -+{ -+#if 0 -+ unsigned int i,val,index; -+ -+ index = gmac_select_interface(dev); -+ -+ printk("========== GMAC%d ==========\n",index); -+ for (i=0;i<=0x7c;i=i+4) -+ { -+ val = gmac_read_reg(gmac_base_addr[index] + i); -+ printk("offset = %08x value = %08x\n",i,val); -+ } -+ for (i=0xff00;i<=0xff7c;i=i+4) -+ { -+ val = gmac_read_reg(gmac_base_addr[index] + i); -+ printk("offset = %08x value = %08x\n",i,val); -+ } -+#endif -+} -+ -+static int gmac_init_chip(struct net_device *dev) -+{ -+ GMAC_RBNR_T rbnr_val,rbnr_mask; -+ GMAC_CONFIG2_T config2_val; -+ GMAC_CONFIG0_T config0,config0_mask; -+ GMAC_CONFIG1_T config1; -+ struct sockaddr sock; -+ unsigned int status; -+ unsigned int phy_mode; -+ unsigned int index; -+ -+ index = gmac_get_dev_index(dev); -+ -+ /* set GMAC RMII mode */ -+ if (index==0) -+ phy_mode = 0; /* 0->MII 1->GMII 2->RGMII(10/100) 3->RGMII(1000) */ -+ else -+ phy_mode = 2; /* 0->MII 1->GMII 2->RGMII(10/100) 3->RGMII(1000) */ -+ -+ /* set PHY operation mode */ -+ status = (phy_mode<<5) | 0x11 | (full_duplex<<3) | (speed<<1); -+ gmac_write_reg(gmac_base_addr[index] + GMAC_STATUS,status ,0x0000007f); -+ -+ /* set station MAC address1 and address2 */ -+ if (index==0) -+ memcpy(&sock.sa_data[0],ð0_mac[0],6); -+ else -+ memcpy(&sock.sa_data[0],ð1_mac[0],6); -+ gmac_set_mac_address(dev,(void *)&sock); -+ -+ /* set RX_FLTR register to receive all multicast packet */ -+ gmac_write_reg(gmac_base_addr[index] + GMAC_RX_FLTR,0x0000001F,0x0000001f); -+ //gmac_write_reg(gmac_base_addr[index] + GMAC_RX_FLTR,0x00000007,0x0000001f); -+ -+ /* set per packet buffer size */ -+ config1.bits32 = 0; -+ config1.bits.buf_size = 11; /* buffer size = 2048-byte */ -+ gmac_write_reg(gmac_base_addr[index] + GMAC_CONFIG1,config1.bits32,0x0000000f); -+ -+ /* set flow control threshold */ -+ config2_val.bits32 = 0; -+ config2_val.bits.set_threshold = RX_DESC_NUM/4; -+ config2_val.bits.rel_threshold = RX_DESC_NUM*3/4; -+ gmac_write_reg(gmac_base_addr[index] + GMAC_CONFIG2,config2_val.bits32,0xffffffff); -+ -+ /* init remaining buffer number register */ -+ rbnr_val.bits32 = 0; -+ rbnr_val.bits.buf_remain = RX_DESC_NUM; -+ rbnr_mask.bits32 = 0; -+ rbnr_mask.bits.buf_remain = 0xffff; -+ gmac_write_reg(gmac_base_addr[index] + GMAC_RBNR,rbnr_val.bits32,rbnr_mask.bits32); -+ -+ /* disable TX/RX and disable internal loop back */ -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.max_len = 2; -+ if (flow_control_enable[index]==1) -+ { -+ config0.bits.tx_fc_en = 1; /* enable tx flow control */ -+ config0.bits.rx_fc_en = 1; /* enable rx flow control */ -+ printk("Enable MAC Flow Control...\n"); -+ } -+ else -+ { -+ config0.bits.tx_fc_en = 0; /* disable tx flow control */ -+ config0.bits.rx_fc_en = 0; /* disable rx flow control */ -+ printk("Disable MAC Flow Control...\n"); -+ } -+ config0.bits.dis_rx = 1; /* disable rx */ -+ config0.bits.dis_tx = 1; /* disable tx */ -+ config0.bits.loop_back = 0; /* enable/disable GMAC loopback */ -+ config0.bits.inv_rx_clk = 0; -+ config0.bits.rising_latch = 1; -+ config0.bits.ipv4_tss_rx_en = 1; /* enable H/W to check ip checksum */ -+ config0.bits.ipv6_tss_rx_en = 1; /* enable H/W to check ip checksum */ -+ -+ config0_mask.bits.max_len = 7; -+ config0_mask.bits.tx_fc_en = 1; -+ config0_mask.bits.rx_fc_en = 1; -+ config0_mask.bits.dis_rx = 1; -+ config0_mask.bits.dis_tx = 1; -+ config0_mask.bits.loop_back = 1; -+ config0_mask.bits.inv_rx_clk = 1; -+ config0_mask.bits.rising_latch = 1; -+ config0_mask.bits.ipv4_tss_rx_en = 1; -+ config0_mask.bits.ipv6_tss_rx_en = 1; -+ gmac_write_reg(gmac_base_addr[index] + GMAC_CONFIG0,config0.bits32,config0_mask.bits32); -+ -+ return (0); -+} -+ -+static void gmac_enable_tx_rx(struct net_device *dev) -+{ -+ GMAC_CONFIG0_T config0,config0_mask; -+ int dev_index; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ /* enable TX/RX */ -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.dis_rx = 0; /* enable rx */ -+ config0.bits.dis_tx = 0; /* enable tx */ -+ config0_mask.bits.dis_rx = 1; -+ config0_mask.bits.dis_tx = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_CONFIG0,config0.bits32,config0_mask.bits32); -+} -+ -+static void gmac_disable_tx_rx(struct net_device *dev) -+{ -+ GMAC_CONFIG0_T config0,config0_mask; -+ int dev_index; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ /* enable TX/RX */ -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.dis_rx = 1; /* disable rx */ -+ config0.bits.dis_tx = 1; /* disable tx */ -+ config0_mask.bits.dis_rx = 1; -+ config0_mask.bits.dis_tx = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_CONFIG0,config0.bits32,config0_mask.bits32); -+} -+ -+#ifdef CONFIG_SL_NAPI -+static int gmac_rx_poll_ga(struct net_device *dev, int *budget) -+{ -+ struct gmac_private *tp = dev->priv; -+ struct sk_buff *skb; -+ GMAC_RXDMA_CTRL_T rxdma_ctrl,rxdma_ctrl_mask; -+ GMAC_RXDMA_FIRST_DESC_T rxdma_busy; -+ GMAC_DESCRIPTOR_T *rx_desc; -+ unsigned int pkt_size; -+ unsigned int desc_count; -+ unsigned int vid; -+// unsigned int priority; -+ unsigned int own; -+ unsigned int good_frame = 0; -+ unsigned int index; -+ unsigned int dev_index; -+ int work = 0; -+ int work_done = 0; -+ int quota = min(dev->quota, *budget); -+ -+ dev_index = gmac_select_interface(dev); -+ -+ for (;;) -+ { -+ own = tp->rx_cur_desc->frame_ctrl.bits32 >> 31; -+ if (own == CPU) /* check owner bit */ -+ { -+ rx_desc = tp->rx_cur_desc; -+#if (GMAC_DEBUG==1) -+ /* check error interrupt */ -+ if ( (rx_desc->frame_ctrl.bits_rx.derr==1)||(rx_desc->frame_ctrl.bits_rx.perr==1) ) -+ { -+ printk("%s::Rx Descriptor Processing Error !!!\n",__func__); -+ } -+#endif -+ /* get frame information from the first descriptor of the frame */ -+ pkt_size = rx_desc->flag_status.bits_rx_status.frame_count - 4; /*total byte count in a frame*/ -+#if (GMAC_DEBUG==1) -+ priority = rx_desc->flag_status.bits_rx_status.priority; /* 802.1p priority */ -+#endif -+ vid = rx_desc->flag_status.bits_rx_status.vlan_id; /* 802.1q vlan id */ -+ if (vid == 0) -+ { -+ vid = 1; /* default vlan */ -+ } -+ desc_count = rx_desc->frame_ctrl.bits_rx.desc_count; /* get descriptor count per frame */ -+ -+ if (rx_desc->frame_ctrl.bits_rx.frame_state == 0x000) /* good frame */ -+ { -+ tp->stats.rx_bytes += pkt_size; -+ tp->stats.rx_packets++; -+ good_frame = 1; -+ } -+ else -+ { -+ tp->stats.rx_errors++; -+ good_frame = 0; -+ printk("RX status: 0x%x\n",rx_desc->frame_ctrl.bits_rx.frame_state); -+ } -+ } -+ else -+ { -+ work_done = 1; -+ break; /* Rx process is completed */ -+ } -+ -+ if (good_frame == 1) -+ { -+ /* get rx skb buffer index */ -+ index = ((unsigned int)tp->rx_cur_desc - rx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ if (rx_skb[dev_index][index]) -+ { -+ skb_reserve (rx_skb[dev_index][index], 2); /* 16 byte align the IP fields. */ -+ rx_skb[dev_index][index]->dev = dev; -+ rx_skb[dev_index][index]->ip_summed = CHECKSUM_UNNECESSARY; -+ skb_put(rx_skb[dev_index][index],pkt_size); -+ rx_skb[dev_index][index]->protocol = eth_type_trans(rx_skb[dev_index][index],dev); /* set skb protocol */ -+ netif_rx(rx_skb[dev_index][index]); /* socket rx */ -+ dev->last_rx = jiffies; -+ -+ /* allocate rx skb buffer */ -+ if ( (skb = dev_alloc_skb(RX_BUF_SIZE))==NULL) /* allocate socket buffer */ -+ { -+ printk("%s::skb buffer allocation fail !\n",__func__); -+ } -+ rx_skb[dev_index][index] = skb; -+ tp->rx_cur_desc->buf_adr = (unsigned int)__pa(skb->data) | 0x02; /* insert two bytes in the beginning of rx data */ -+ } -+ else -+ { -+ printk("%s::rx skb index error !\n",__func__); -+ } -+ } -+ -+ tp->rx_cur_desc->frame_ctrl.bits_rx.own = DMA; /* release rx descriptor to DMA */ -+ /* point to next rx descriptor */ -+ tp->rx_cur_desc = (GMAC_DESCRIPTOR_T *)((tp->rx_cur_desc->next_desc.next_descriptor & 0xfffffff0)+rx_desc_virtual_base[dev_index]); -+ -+ /* release buffer to Remaining Buffer Number Register */ -+ if (flow_control_enable[dev_index] ==1) -+ { -+// gmac_write_reg(gmac_base_addr[dev_index] + GMAC_BNCR,desc_count,0x0000ffff); -+ writel(desc_count,(unsigned int *)(gmac_base_addr[dev_index] + GMAC_BNCR)); -+ } -+ -+ if (work++ >= quota ) -+ { -+ break; -+ } -+ } -+ -+ /* if RX DMA process is stoped , restart it */ -+ rxdma_busy.bits.rd_first_des_ptr = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_FIRST_DESC); -+ if (rxdma_busy.bits.rd_busy == 0) -+ { -+ rxdma_ctrl.bits32 = 0; -+ rxdma_ctrl.bits.rd_start = 1; /* start RX DMA transfer */ -+ rxdma_ctrl.bits.rd_continue = 1; /* continue RX DMA operation */ -+ rxdma_ctrl_mask.bits32 = 0; -+ rxdma_ctrl_mask.bits.rd_start = 1; -+ rxdma_ctrl_mask.bits.rd_continue = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CTRL,rxdma_ctrl.bits32,rxdma_ctrl_mask.bits32); -+ } -+ -+ dev->quota -= work; -+ *budget -= work; -+ if (work_done==1) -+ { -+ /* Receive descriptor is empty now */ -+ netif_rx_complete(dev); -+ /* enable receive interrupt */ -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CTRL,0x0007c000,0x0007c000); /* enable rx interrupt */ -+ return 0; -+ } -+ else -+ { -+ return -1; -+ } -+} -+ -+static int gmac_rx_poll_gb(struct net_device *dev, int *budget) -+{ -+ struct gmac_private *tp = dev->priv; -+ struct sk_buff *skb; -+ GMAC_RXDMA_CTRL_T rxdma_ctrl,rxdma_ctrl_mask; -+ GMAC_RXDMA_FIRST_DESC_T rxdma_busy; -+ GMAC_DESCRIPTOR_T *rx_desc; -+ unsigned int pkt_size; -+ unsigned int desc_count; -+ unsigned int vid; -+// unsigned int priority; -+ unsigned int own; -+ unsigned int good_frame = 0; -+ unsigned int index; -+ unsigned int dev_index; -+ int work = 0; -+ int work_done = 0; -+ int quota = min(dev->quota, *budget); -+ -+ dev_index = gmac_select_interface(dev); -+ -+ for (;;) -+ { -+ own = tp->rx_cur_desc->frame_ctrl.bits32 >> 31; -+ if (own == CPU) /* check owner bit */ -+ { -+ rx_desc = tp->rx_cur_desc; -+#if (GMAC_DEBUG==1) -+ /* check error interrupt */ -+ if ( (rx_desc->frame_ctrl.bits_rx.derr==1)||(rx_desc->frame_ctrl.bits_rx.perr==1) ) -+ { -+ printk("%s::Rx Descriptor Processing Error !!!\n",__func__); -+ } -+#endif -+ /* get frame information from the first descriptor of the frame */ -+ pkt_size = rx_desc->flag_status.bits_rx_status.frame_count - 4; /*total byte count in a frame*/ -+#if (GMAC_DEBUG==1) -+ priority = rx_desc->flag_status.bits_rx_status.priority; /* 802.1p priority */ -+#endif -+ vid = rx_desc->flag_status.bits_rx_status.vlan_id; /* 802.1q vlan id */ -+ if (vid == 0) -+ { -+ vid = 1; /* default vlan */ -+ } -+ desc_count = rx_desc->frame_ctrl.bits_rx.desc_count; /* get descriptor count per frame */ -+ -+ if (rx_desc->frame_ctrl.bits_rx.frame_state == 0x000) /* good frame */ -+ { -+ tp->stats.rx_bytes += pkt_size; -+ tp->stats.rx_packets++; -+ good_frame = 1; -+ } -+ else -+ { -+ tp->stats.rx_errors++; -+ good_frame = 0; -+ printk("RX status: 0x%x\n",rx_desc->frame_ctrl.bits_rx.frame_state); -+ } -+ } -+ else -+ { -+ work_done = 1; -+ break; /* Rx process is completed */ -+ } -+ -+ if (good_frame == 1) -+ { -+ /* get rx skb buffer index */ -+ index = ((unsigned int)tp->rx_cur_desc - rx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ if (rx_skb[dev_index][index]) -+ { -+ skb_reserve (rx_skb[dev_index][index], 2); /* 16 byte align the IP fields. */ -+ rx_skb[dev_index][index]->dev = dev; -+ rx_skb[dev_index][index]->ip_summed = CHECKSUM_UNNECESSARY; -+ skb_put(rx_skb[dev_index][index],pkt_size); -+ rx_skb[dev_index][index]->protocol = eth_type_trans(rx_skb[dev_index][index],dev); /* set skb protocol */ -+ netif_rx(rx_skb[dev_index][index]); /* socket rx */ -+ dev->last_rx = jiffies; -+ -+ /* allocate rx skb buffer */ -+ if ( (skb = dev_alloc_skb(RX_BUF_SIZE))==NULL) /* allocate socket buffer */ -+ { -+ printk("%s::skb buffer allocation fail !\n",__func__); -+ } -+ rx_skb[dev_index][index] = skb; -+ tp->rx_cur_desc->buf_adr = (unsigned int)__pa(skb->data) | 0x02; /* insert two bytes in the beginning of rx data */ -+ } -+ else -+ { -+ printk("%s::rx skb index error !\n",__func__); -+ } -+ } -+ -+ tp->rx_cur_desc->frame_ctrl.bits_rx.own = DMA; /* release rx descriptor to DMA */ -+ /* point to next rx descriptor */ -+ tp->rx_cur_desc = (GMAC_DESCRIPTOR_T *)((tp->rx_cur_desc->next_desc.next_descriptor & 0xfffffff0)+rx_desc_virtual_base[dev_index]); -+ -+ /* release buffer to Remaining Buffer Number Register */ -+ if (flow_control_enable[dev_index] ==1) -+ { -+// gmac_write_reg(gmac_base_addr[dev_index] + GMAC_BNCR,desc_count,0x0000ffff); -+ writel(desc_count,(unsigned int *)(gmac_base_addr[dev_index] + GMAC_BNCR)); -+ } -+ -+ if (work++ >= quota ) -+ { -+ break; -+ } -+ } -+ -+ /* if RX DMA process is stoped , restart it */ -+ rxdma_busy.bits.rd_first_des_ptr = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_FIRST_DESC); -+ if (rxdma_busy.bits.rd_busy == 0) -+ { -+ rxdma_ctrl.bits32 = 0; -+ rxdma_ctrl.bits.rd_start = 1; /* start RX DMA transfer */ -+ rxdma_ctrl.bits.rd_continue = 1; /* continue RX DMA operation */ -+ rxdma_ctrl_mask.bits32 = 0; -+ rxdma_ctrl_mask.bits.rd_start = 1; -+ rxdma_ctrl_mask.bits.rd_continue = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CTRL,rxdma_ctrl.bits32,rxdma_ctrl_mask.bits32); -+ } -+ -+ dev->quota -= work; -+ *budget -= work; -+ if (work_done==1) -+ { -+ /* Receive descriptor is empty now */ -+ netif_rx_complete(dev); -+ /* enable receive interrupt */ -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CTRL,0x0007c000,0x0007c000); /* enable rx interrupt */ -+ return 0; -+ } -+ else -+ { -+ return -1; -+ } -+} -+ -+#endif -+ -+static void gmac_rx_packet(struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ struct sk_buff *skb; -+ GMAC_RXDMA_CTRL_T rxdma_ctrl,rxdma_ctrl_mask; -+ GMAC_RXDMA_FIRST_DESC_T rxdma_busy; -+ GMAC_DESCRIPTOR_T *rx_desc; -+ unsigned int pkt_size; -+ unsigned int desc_count; -+ unsigned int vid; -+// unsigned int priority; -+ unsigned int own; -+ unsigned int good_frame = 0; -+ unsigned int i,index; -+ unsigned int dev_index; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ for (i=0;i<256;i++) -+ { -+ own = tp->rx_cur_desc->frame_ctrl.bits32 >> 31; -+ if (own == CPU) /* check owner bit */ -+ { -+ rx_desc = tp->rx_cur_desc; -+#if (GMAC_DEBUG==1) -+ /* check error interrupt */ -+ if ( (rx_desc->frame_ctrl.bits_rx.derr==1)||(rx_desc->frame_ctrl.bits_rx.perr==1) ) -+ { -+ printk("%s::Rx Descriptor Processing Error !!!\n",__func__); -+ } -+#endif -+ /* get frame information from the first descriptor of the frame */ -+ pkt_size = rx_desc->flag_status.bits_rx_status.frame_count - 4; /*total byte count in a frame*/ -+#if (GMAC_DEBUG==1) -+ priority = rx_desc->flag_status.bits_rx_status.priority; /* 802.1p priority */ -+#endif -+ vid = rx_desc->flag_status.bits_rx_status.vlan_id; /* 802.1q vlan id */ -+ if (vid == 0) -+ { -+ vid = 1; /* default vlan */ -+ } -+ desc_count = rx_desc->frame_ctrl.bits_rx.desc_count; /* get descriptor count per frame */ -+ -+ if (rx_desc->frame_ctrl.bits_rx.frame_state == 0x000) /* good frame */ -+ { -+ tp->stats.rx_bytes += pkt_size; -+ tp->stats.rx_packets++; -+ good_frame = 1; -+ } -+ else -+ { -+ tp->stats.rx_errors++; -+ good_frame = 0; -+ printk("RX status: 0x%x\n",rx_desc->frame_ctrl.bits_rx.frame_state); -+ } -+ } -+ else -+ { -+ break; /* Rx process is completed */ -+ } -+ -+ if (good_frame == 1) -+ { -+ /* get rx skb buffer index */ -+ index = ((unsigned int)tp->rx_cur_desc - rx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ if (rx_skb[dev_index][index]) -+ { -+ skb_reserve (rx_skb[dev_index][index], 2); /* 16 byte align the IP fields. */ -+ rx_skb[dev_index][index]->dev = dev; -+ rx_skb[dev_index][index]->ip_summed = CHECKSUM_UNNECESSARY; -+ skb_put(rx_skb[dev_index][index],pkt_size); -+ rx_skb[dev_index][index]->protocol = eth_type_trans(rx_skb[dev_index][index],dev); /* set skb protocol */ -+ netif_rx(rx_skb[dev_index][index]); /* socket rx */ -+ dev->last_rx = jiffies; -+ -+ /* allocate rx skb buffer */ -+ if ( (skb = dev_alloc_skb(RX_BUF_SIZE))==NULL) /* allocate socket buffer */ -+ { -+ printk("%s::skb buffer allocation fail !\n",__func__); -+ } -+ rx_skb[dev_index][index] = skb; -+ tp->rx_cur_desc->buf_adr = (unsigned int)__pa(skb->data) | 0x02; /* insert two bytes in the beginning of rx data */ -+ } -+ else -+ { -+ printk("%s::rx skb index error !\n",__func__); -+ } -+ } -+ -+ tp->rx_cur_desc->frame_ctrl.bits_rx.own = DMA; /* release rx descriptor to DMA */ -+ /* point to next rx descriptor */ -+ tp->rx_cur_desc = (GMAC_DESCRIPTOR_T *)((tp->rx_cur_desc->next_desc.next_descriptor & 0xfffffff0)+rx_desc_virtual_base[dev_index]); -+ -+ /* release buffer to Remaining Buffer Number Register */ -+ if (flow_control_enable[dev_index] ==1) -+ { -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_BNCR,desc_count,0x0000ffff); -+ } -+ } -+ -+ /* if RX DMA process is stoped , restart it */ -+ rxdma_busy.bits.rd_first_des_ptr = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_FIRST_DESC); -+ if (rxdma_busy.bits.rd_busy == 0) -+ { -+ rxdma_ctrl.bits32 = 0; -+ rxdma_ctrl.bits.rd_start = 1; /* start RX DMA transfer */ -+ rxdma_ctrl.bits.rd_continue = 1; /* continue RX DMA operation */ -+ rxdma_ctrl_mask.bits32 = 0; -+ rxdma_ctrl_mask.bits.rd_start = 1; -+ rxdma_ctrl_mask.bits.rd_continue = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CTRL,rxdma_ctrl.bits32,rxdma_ctrl_mask.bits32); -+ } -+} -+ -+#ifdef CONFIG_SL2312_MPAGE -+static inline void free_tx_buf(int dev_index, int desc_index) -+{ -+ if (tx_skb[dev_index][desc_index].freeable && -+ tx_skb[dev_index][desc_index].skb) { -+ struct sk_buff* skb = tx_skb[dev_index][desc_index].skb; -+ //printk("free_skb %x, len %d\n", skb, skb->len); -+#ifdef CONFIG_TXINT_DISABLE -+ dev_kfree_skb(skb); -+#else -+ dev_kfree_skb_irq(skb); -+#endif -+ tx_skb[dev_index][desc_index].skb = 0; -+ } -+} -+ -+#ifdef CONFIG_TXINT_DISABLE -+static void gmac_tx_packet_complete(struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ GMAC_DESCRIPTOR_T *tx_hw_complete_desc, *next_desc; -+ unsigned int desc_cnt=0; -+ unsigned int i,index,dev_index; -+ unsigned int tx_current_descriptor = 0; -+ // int own_dma = 0; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ index = ((unsigned int)tp->tx_finished_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ if (tx_skb[dev_index][index].desc_in_use && tp->tx_finished_desc->frame_ctrl.bits_tx_in.own == CPU) { -+ free_tx_buf(dev_index, index); -+ tx_skb[dev_index][index].desc_in_use = 0; -+ } -+ next_desc = (GMAC_DESCRIPTOR_T*)((tp->tx_finished_desc->next_desc.next_descriptor & 0xfffffff0) + tx_desc_virtual_base[dev_index]); -+ -+ for (;;) { -+ tx_hw_complete_desc = (GMAC_DESCRIPTOR_T *)((gmac_read_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CURR_DESC) & 0xfffffff0)+ tx_desc_virtual_base[dev_index]); -+ if (next_desc == tx_hw_complete_desc) -+ break; -+ if (next_desc->frame_ctrl.bits_tx_in.own == CPU) { -+ if (next_desc->frame_ctrl.bits_tx_in.success_tx == 1) { -+ tp->stats.tx_bytes += next_desc->flag_status.bits_tx_flag.frame_count; -+ tp->stats.tx_packets ++; -+ } else { -+ tp->stats.tx_errors++; -+ } -+ desc_cnt = next_desc->frame_ctrl.bits_tx_in.desc_count; -+ for (i=1; i<desc_cnt; i++) { -+ /* get tx skb buffer index */ -+ index = ((unsigned int)next_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ next_desc->frame_ctrl.bits_tx_in.own = CPU; -+ free_tx_buf(dev_index, index); -+ tx_skb[dev_index][index].desc_in_use = 0; -+ tp->tx_desc_tail[dev_index] = (tp->tx_desc_tail[dev_index] +1) & (TX_DESC_NUM-1); -+ /* release Tx descriptor to CPU */ -+ next_desc = (GMAC_DESCRIPTOR_T *)((next_desc->next_desc.next_descriptor & 0xfffffff0)+tx_desc_virtual_base[dev_index]); -+ } -+ /* get tx skb buffer index */ -+ index = ((unsigned int)next_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ /* free skb buffer */ -+ next_desc->frame_ctrl.bits_tx_in.own = CPU; -+ free_tx_buf(dev_index, index); -+ tx_skb[dev_index][index].desc_in_use = 0; -+ tp->tx_desc_tail[dev_index] = (tp->tx_desc_tail[dev_index] +1) & (TX_DESC_NUM-1); -+ tp->tx_finished_desc = next_desc; -+// printk("finish tx_desc index %d\n", index); -+ next_desc = (GMAC_DESCRIPTOR_T *)((next_desc->next_desc.next_descriptor & 0xfffffff0)+tx_desc_virtual_base[dev_index]); -+ } -+ else -+ break; -+ } -+ if (netif_queue_stopped(dev)) -+ { -+ netif_wake_queue(dev); -+ } -+ -+} -+#else -+static void gmac_tx_packet_complete(struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ GMAC_DESCRIPTOR_T *tx_hw_complete_desc; -+ unsigned int desc_cnt=0; -+ unsigned int i,index,dev_index; -+ unsigned int tx_current_descriptor = 0; -+ // int own_dma = 0; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ index = ((unsigned int)tp->tx_finished_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ -+ /* check tx status and accumulate tx statistics */ -+ for (;;) -+ { -+ -+ for (i=0;i<1000;i++) -+ { -+ tx_current_descriptor = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CURR_DESC); -+ if ( ((tx_current_descriptor & 0x00000003)==0x00000003) || /* only one descriptor */ -+ ((tx_current_descriptor & 0x00000003)==0x00000001) ) /* the last descriptor */ -+ { -+ break; -+ } -+ udelay(1); -+ } -+ if (i==1000) -+ { -+// gmac_dump_register(dev); -+// printk("%s: tx current descriptor = %x \n",__func__,tx_current_descriptor); -+// printk_all(dev_index, tp); -+ continue; -+ } -+ -+ /* get tx H/W completed descriptor virtual address */ -+ tx_hw_complete_desc = (GMAC_DESCRIPTOR_T *)((tx_current_descriptor & 0xfffffff0)+ tx_desc_virtual_base[dev_index]); -+// tx_hw_complete_desc = (GMAC_DESCRIPTOR_T *)((gmac_read_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CURR_DESC) & 0xfffffff0)+ tx_desc_virtual_base[dev_index]); -+ if (tp->tx_finished_desc == tx_hw_complete_desc ) // || -+ //tx_skb[dev_index][index].desc_in_use ) /* complete tx processing */ -+ { -+ break; -+ } -+ -+ for (;;) -+ { -+ if (tp->tx_finished_desc->frame_ctrl.bits_tx_in.own == CPU) -+ { -+ #if (GMAC_DEBUG==1) -+ if ( (tp->tx_finished_desc->frame_ctrl.bits_tx_in.derr) || -+ (tp->tx_finished_desc->frame_ctrl.bits_tx_in.perr) ) -+ { -+ printk("%s::Descriptor Processing Error !!!\n",__func__); -+ } -+ #endif -+ if (tp->tx_finished_desc->frame_ctrl.bits_tx_in.success_tx == 1) -+ { -+ tp->stats.tx_bytes += tp->tx_finished_desc->flag_status.bits_tx_flag.frame_count; -+ tp->stats.tx_packets ++; -+ } -+ else -+ { -+ tp->stats.tx_errors++; -+ } -+ desc_cnt = tp->tx_finished_desc->frame_ctrl.bits_tx_in.desc_count; -+ for (i=1; i<desc_cnt; i++) /* multi-descriptor in one packet */ -+ { -+ /* get tx skb buffer index */ -+ index = ((unsigned int)tp->tx_finished_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ tp->tx_finished_desc->frame_ctrl.bits_tx_in.own = CPU; -+ free_tx_buf(dev_index, index); -+ tx_skb[dev_index][index].desc_in_use = 0; -+ /* release Tx descriptor to CPU */ -+ tp->tx_finished_desc = (GMAC_DESCRIPTOR_T *)((tp->tx_finished_desc->next_desc.next_descriptor & 0xfffffff0)+tx_desc_virtual_base[dev_index]); -+ } -+ /* get tx skb buffer index */ -+ index = ((unsigned int)tp->tx_finished_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ /* free skb buffer */ -+ tp->tx_finished_desc->frame_ctrl.bits_tx_in.own = CPU; -+ free_tx_buf(dev_index, index); -+ tx_skb[dev_index][index].desc_in_use = 0; -+ tp->tx_finished_desc = (GMAC_DESCRIPTOR_T *)((tp->tx_finished_desc->next_desc.next_descriptor & 0xfffffff0)+tx_desc_virtual_base[dev_index]); -+ -+ if (tp->tx_finished_desc == tx_hw_complete_desc ) -+ { -+ break; -+ } -+ } -+ else -+ { -+ break; -+ } -+ } -+ } -+ -+ if (netif_queue_stopped(dev)) -+ { -+ netif_wake_queue(dev); -+ } -+ -+} -+#endif -+#else -+ -+static void gmac_tx_packet_complete(struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ GMAC_DESCRIPTOR_T *tx_hw_complete_desc; -+ unsigned int desc_cnt=0; -+ unsigned int i,index,dev_index; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ /* get tx H/W completed descriptor virtual address */ -+ tx_hw_complete_desc = (GMAC_DESCRIPTOR_T *)((gmac_read_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CURR_DESC) & 0xfffffff0)+ tx_desc_virtual_base[dev_index]); -+ /* check tx status and accumulate tx statistics */ -+ for (;;) -+ { -+ if (tp->tx_finished_desc == tx_hw_complete_desc) /* complete tx processing */ -+ { -+ break; -+ } -+ if (tp->tx_finished_desc->frame_ctrl.bits_tx_in.own == CPU) -+ { -+#if (GMAC_DEBUG==1) -+ if ( (tp->tx_finished_desc->frame_ctrl.bits_tx_in.derr) || -+ (tp->tx_finished_desc->frame_ctrl.bits_tx_in.perr) ) -+ { -+ printk("%s::Descriptor Processing Error !!!\n",__func__); -+ } -+#endif -+ if (tp->tx_finished_desc->frame_ctrl.bits_tx_in.success_tx == 1) -+ { -+ tp->stats.tx_bytes += tp->tx_finished_desc->flag_status.bits_tx_flag.frame_count; -+ tp->stats.tx_packets ++; -+ } -+ else -+ { -+ tp->stats.tx_errors++; -+ } -+ desc_cnt = tp->tx_finished_desc->frame_ctrl.bits_tx_in.desc_count; -+ for (i=1; i<desc_cnt; i++) /* multi-descriptor in one packet */ -+ { -+ /* get tx skb buffer index */ -+ index = ((unsigned int)tp->tx_finished_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ /* free skb buffer */ -+ if (tx_skb[dev_index][index]) -+ { -+ dev_kfree_skb_irq(tx_skb[dev_index][index]); -+ } -+ /* release Tx descriptor to CPU */ -+ tp->tx_finished_desc = (GMAC_DESCRIPTOR_T *)((tp->tx_finished_desc->next_desc.next_descriptor & 0xfffffff0)+tx_desc_virtual_base[dev_index]); -+ tp->tx_finished_desc->frame_ctrl.bits_tx_in.own = CPU; -+ } -+ /* get tx skb buffer index */ -+ index = ((unsigned int)tp->tx_finished_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ /* free skb buffer */ -+ if (tx_skb[dev_index][index]) -+ { -+ dev_kfree_skb_irq(tx_skb[dev_index][index]); -+ } -+ tp->tx_finished_desc = (GMAC_DESCRIPTOR_T *)((tp->tx_finished_desc->next_desc.next_descriptor & 0xfffffff0)+tx_desc_virtual_base[dev_index]); -+ } -+ } -+ -+ if (netif_queue_stopped(dev)) -+ { -+ netif_wake_queue(dev); -+ } -+ -+} -+ -+ -+#endif -+ -+#if 0 -+static void gmac_weird_interrupt(struct net_device *dev) -+{ -+ gmac_dump_register(dev); -+} -+#endif -+ -+/* The interrupt handler does all of the Rx thread work and cleans up -+ after the Tx thread. */ -+static irqreturn_t gmac_interrupt (int irq, void *dev_instance, struct pt_regs *regs) -+{ -+ struct net_device *dev = (struct net_device *)dev_instance; -+ GMAC_RXDMA_FIRST_DESC_T rxdma_busy; -+// GMAC_TXDMA_FIRST_DESC_T txdma_busy; -+// GMAC_TXDMA_CTRL_T txdma_ctrl,txdma_ctrl_mask; -+ GMAC_RXDMA_CTRL_T rxdma_ctrl,rxdma_ctrl_mask; -+ GMAC_DMA_STATUS_T status; -+ unsigned int i,dev_index; -+ int handled = 0; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ handled = 1; -+ -+#ifdef CONFIG_SL_NAPI -+ disable_irq(gmac_irq[dev_index]); /* disable GMAC interrupt */ -+ -+ status.bits32 = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_DMA_STATUS); /* read DMA status */ -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_DMA_STATUS,status.bits32,status.bits32); /* clear DMA status */ -+ -+ if (status.bits.rx_overrun == 1) -+ { -+ printk("%s::RX Overrun !!!%d\n",__func__,gmac_read_reg(gmac_base_addr[dev_index] + GMAC_RBNR)); -+ gmac_dump_register(dev); -+ /* if RX DMA process is stoped , restart it */ -+ rxdma_busy.bits32 = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_FIRST_DESC) ; -+ if (rxdma_busy.bits.rd_busy == 0) -+ { -+ /* restart Rx DMA process */ -+ rxdma_ctrl.bits32 = 0; -+ rxdma_ctrl.bits.rd_start = 1; /* start RX DMA transfer */ -+ rxdma_ctrl.bits.rd_continue = 1; /* continue RX DMA operation */ -+ rxdma_ctrl_mask.bits32 = 0; -+ rxdma_ctrl_mask.bits.rd_start = 1; -+ rxdma_ctrl_mask.bits.rd_continue = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CTRL,rxdma_ctrl.bits32,rxdma_ctrl_mask.bits32); -+ } -+ } -+ -+ /* process rx packet */ -+ if (netif_running(dev) && ((status.bits.rs_eofi==1)||(status.bits.rs_finish==1))) -+ { -+ if (likely(netif_rx_schedule_prep(dev))) -+ { -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CTRL,0,0x0007c000); /* disable rx interrupt */ -+ __netif_rx_schedule(dev); -+ } -+ } -+#ifndef CONFIG_TXINT_DISABLE -+ /* process tx packet */ -+ if (netif_running(dev) && ((status.bits.ts_eofi==1)||(status.bits.ts_finish==1))) -+ { -+ gmac_tx_packet_complete(dev); -+ } -+#endif -+ -+ enable_irq(gmac_irq[dev_index]); /* enable GMAC interrupt */ -+ return IRQ_RETVAL(handled); -+#endif -+ -+ /* disable GMAC interrupt */ -+ disable_irq(gmac_irq[dev_index]); -+ for (i=0;i<MAX_ISR_WORK;i++) -+ { -+ /* read DMA status */ -+ status.bits32 = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_DMA_STATUS); -+int_status = status.bits32; -+ /* clear DMA status */ -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_DMA_STATUS,status.bits32,status.bits32); -+ -+ if ((status.bits32 & 0xffffc000)==0) -+ { -+ break; -+ } -+ -+ if (status.bits.rx_overrun == 1) -+ { -+ printk("%s::RX Overrun !!!%d\n",__func__,gmac_read_reg(gmac_base_addr[dev_index] + GMAC_RBNR)); -+ gmac_dump_register(dev); -+ /* if RX DMA process is stoped , restart it */ -+ rxdma_busy.bits32 = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_FIRST_DESC) ; -+ if (rxdma_busy.bits.rd_busy == 0) -+ { -+ /* restart Rx DMA process */ -+ rxdma_ctrl.bits32 = 0; -+ rxdma_ctrl.bits.rd_start = 1; /* start RX DMA transfer */ -+ rxdma_ctrl.bits.rd_continue = 1; /* continue RX DMA operation */ -+ rxdma_ctrl_mask.bits32 = 0; -+ rxdma_ctrl_mask.bits.rd_start = 1; -+ rxdma_ctrl_mask.bits.rd_continue = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CTRL,rxdma_ctrl.bits32,rxdma_ctrl_mask.bits32); -+ } -+ } -+ -+ /* receive rx interrupt */ -+ if (netif_running(dev) && ((status.bits.rs_eofi==1)||(status.bits.rs_finish==1))) -+ { -+ gmac_rx_packet(dev); -+// gmac_tx_packet_complete(dev); -+ } -+ -+ /* receive tx interrupt */ -+ // if (netif_running(dev) && (status.bits.ts_finish==1)) -+#ifndef CONFIG_TXINT_DISABLE -+ if (netif_running(dev) && ((status.bits.ts_eofi==1)|| -+ (status.bits.ts_finish==1))) -+ { -+ gmac_tx_packet_complete(dev); -+ } -+#endif -+ /* check uncommon events */ -+/* if ((status.bits32 & 0x632fc000)!=0) -+ { -+ printk("%s::DMA Status = %08x \n",__func__,status.bits32); -+ gmac_weird_interrupt(dev); -+ } -+*/ -+ } -+ -+ /* enable GMAC interrupt */ -+ enable_irq(gmac_irq[dev_index]); -+ //printk("gmac_interrupt complete!\n\n"); -+ return IRQ_RETVAL(handled); -+} -+ -+static void gmac_hw_start(struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ GMAC_TXDMA_CURR_DESC_T tx_desc; -+ GMAC_RXDMA_CURR_DESC_T rx_desc; -+ GMAC_TXDMA_CTRL_T txdma_ctrl,txdma_ctrl_mask; -+ GMAC_RXDMA_CTRL_T rxdma_ctrl,rxdma_ctrl_mask; -+ GMAC_DMA_STATUS_T dma_status,dma_status_mask; -+ int dev_index; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ /* program TxDMA Current Descriptor Address register for first descriptor */ -+ tx_desc.bits32 = (unsigned int)(tp->tx_desc_dma); -+ tx_desc.bits.eofie = 1; -+ tx_desc.bits.sof_eof = 0x03; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CURR_DESC,tx_desc.bits32,0xffffffff); -+ gmac_write_reg(gmac_base_addr[dev_index] + 0xff2c,tx_desc.bits32,0xffffffff); /* tx next descriptor address */ -+ -+ /* program RxDMA Current Descriptor Address register for first descriptor */ -+ rx_desc.bits32 = (unsigned int)(tp->rx_desc_dma); -+ rx_desc.bits.eofie = 1; -+ rx_desc.bits.sof_eof = 0x03; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CURR_DESC,rx_desc.bits32,0xffffffff); -+ gmac_write_reg(gmac_base_addr[dev_index] + 0xff3c,rx_desc.bits32,0xffffffff); /* rx next descriptor address */ -+ -+ /* enable GMAC interrupt & disable loopback */ -+ dma_status.bits32 = 0; -+ dma_status.bits.loop_back = 0; /* disable DMA loop-back mode */ -+// dma_status.bits.m_tx_fail = 1; -+ dma_status.bits.m_cnt_full = 1; -+ dma_status.bits.m_rx_pause_on = 1; -+ dma_status.bits.m_tx_pause_on = 1; -+ dma_status.bits.m_rx_pause_off = 1; -+ dma_status.bits.m_tx_pause_off = 1; -+ dma_status.bits.m_rx_overrun = 1; -+ dma_status.bits.m_link_change = 1; -+ dma_status_mask.bits32 = 0; -+ dma_status_mask.bits.loop_back = 1; -+// dma_status_mask.bits.m_tx_fail = 1; -+ dma_status_mask.bits.m_cnt_full = 1; -+ dma_status_mask.bits.m_rx_pause_on = 1; -+ dma_status_mask.bits.m_tx_pause_on = 1; -+ dma_status_mask.bits.m_rx_pause_off = 1; -+ dma_status_mask.bits.m_tx_pause_off = 1; -+ dma_status_mask.bits.m_rx_overrun = 1; -+ dma_status_mask.bits.m_link_change = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_DMA_STATUS,dma_status.bits32,dma_status_mask.bits32); -+ -+ /* program tx dma control register */ -+ txdma_ctrl.bits32 = 0; -+ txdma_ctrl.bits.td_start = 0; /* start TX DMA transfer */ -+ txdma_ctrl.bits.td_continue = 0; /* continue Tx DMA operation */ -+ txdma_ctrl.bits.td_chain_mode = 1; /* chain mode */ -+ txdma_ctrl.bits.td_prot = 0; -+ txdma_ctrl.bits.td_burst_size = 2; /* DMA burst size for every AHB request */ -+ txdma_ctrl.bits.td_bus = 2; /* peripheral bus width */ -+ txdma_ctrl.bits.td_endian = 0; /* little endian */ -+#ifdef CONFIG_TXINT_DISABLE -+ txdma_ctrl.bits.td_finish_en = 0; /* DMA finish event interrupt disable */ -+#else -+ txdma_ctrl.bits.td_finish_en = 1; /* DMA finish event interrupt enable */ -+#endif -+ txdma_ctrl.bits.td_fail_en = 1; /* DMA fail interrupt enable */ -+ txdma_ctrl.bits.td_perr_en = 1; /* protocol failure interrupt enable */ -+ txdma_ctrl.bits.td_eod_en = 0; /* disable Tx End of Descriptor Interrupt */ -+ //txdma_ctrl.bits.td_eod_en = 0; /* disable Tx End of Descriptor Interrupt */ -+#ifdef CONFIG_TXINT_DISABLE -+ txdma_ctrl.bits.td_eof_en = 0; /* end of frame interrupt disable */ -+#else -+ txdma_ctrl.bits.td_eof_en = 1; /* end of frame interrupt enable */ -+#endif -+ txdma_ctrl_mask.bits32 = 0; -+ txdma_ctrl_mask.bits.td_start = 1; -+ txdma_ctrl_mask.bits.td_continue = 1; -+ txdma_ctrl_mask.bits.td_chain_mode = 1; -+ txdma_ctrl_mask.bits.td_prot = 15; -+ txdma_ctrl_mask.bits.td_burst_size = 3; -+ txdma_ctrl_mask.bits.td_bus = 3; -+ txdma_ctrl_mask.bits.td_endian = 1; -+ txdma_ctrl_mask.bits.td_finish_en = 1; -+ txdma_ctrl_mask.bits.td_fail_en = 1; -+ txdma_ctrl_mask.bits.td_perr_en = 1; -+ txdma_ctrl_mask.bits.td_eod_en = 1; -+ //txdma_ctrl_mask.bits.td_eod_en = 1; -+ txdma_ctrl_mask.bits.td_eof_en = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CTRL,txdma_ctrl.bits32,txdma_ctrl_mask.bits32); -+ -+ /* program rx dma control register */ -+ rxdma_ctrl.bits32 = 0; -+ rxdma_ctrl.bits.rd_start = 1; /* start RX DMA transfer */ -+ rxdma_ctrl.bits.rd_continue = 1; /* continue RX DMA operation */ -+ rxdma_ctrl.bits.rd_chain_mode = 1; /* chain mode */ -+ rxdma_ctrl.bits.rd_prot = 0; -+ rxdma_ctrl.bits.rd_burst_size = 2; /* DMA burst size for every AHB request */ -+ rxdma_ctrl.bits.rd_bus = 2; /* peripheral bus width */ -+ rxdma_ctrl.bits.rd_endian = 0; /* little endian */ -+ rxdma_ctrl.bits.rd_finish_en = 1; /* DMA finish event interrupt enable */ -+ rxdma_ctrl.bits.rd_fail_en = 1; /* DMA fail interrupt enable */ -+ rxdma_ctrl.bits.rd_perr_en = 1; /* protocol failure interrupt enable */ -+ rxdma_ctrl.bits.rd_eod_en = 0; /* disable Rx End of Descriptor Interrupt */ -+ rxdma_ctrl.bits.rd_eof_en = 1; /* end of frame interrupt enable */ -+ rxdma_ctrl_mask.bits32 = 0; -+ rxdma_ctrl_mask.bits.rd_start = 1; -+ rxdma_ctrl_mask.bits.rd_continue = 1; -+ rxdma_ctrl_mask.bits.rd_chain_mode = 1; -+ rxdma_ctrl_mask.bits.rd_prot = 15; -+ rxdma_ctrl_mask.bits.rd_burst_size = 3; -+ rxdma_ctrl_mask.bits.rd_bus = 3; -+ rxdma_ctrl_mask.bits.rd_endian = 1; -+ rxdma_ctrl_mask.bits.rd_finish_en = 1; -+ rxdma_ctrl_mask.bits.rd_fail_en = 1; -+ rxdma_ctrl_mask.bits.rd_perr_en = 1; -+ rxdma_ctrl_mask.bits.rd_eod_en = 1; -+ rxdma_ctrl_mask.bits.rd_eof_en = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CTRL,rxdma_ctrl.bits32,rxdma_ctrl_mask.bits32); -+ return; -+} -+ -+static void gmac_hw_stop(struct net_device *dev) -+{ -+ GMAC_TXDMA_CTRL_T txdma_ctrl,txdma_ctrl_mask; -+ GMAC_RXDMA_CTRL_T rxdma_ctrl,rxdma_ctrl_mask; -+ int dev_index; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ /* program tx dma control register */ -+ txdma_ctrl.bits32 = 0; -+ txdma_ctrl.bits.td_start = 0; -+ txdma_ctrl.bits.td_continue = 0; -+ txdma_ctrl_mask.bits32 = 0; -+ txdma_ctrl_mask.bits.td_start = 1; -+ txdma_ctrl_mask.bits.td_continue = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CTRL,txdma_ctrl.bits32,txdma_ctrl_mask.bits32); -+ /* program rx dma control register */ -+ rxdma_ctrl.bits32 = 0; -+ rxdma_ctrl.bits.rd_start = 0; /* stop RX DMA transfer */ -+ rxdma_ctrl.bits.rd_continue = 0; /* stop continue RX DMA operation */ -+ rxdma_ctrl_mask.bits32 = 0; -+ rxdma_ctrl_mask.bits.rd_start = 1; -+ rxdma_ctrl_mask.bits.rd_continue = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RXDMA_CTRL,rxdma_ctrl.bits32,rxdma_ctrl_mask.bits32); -+} -+ -+static int gmac_init_desc_buf(struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ struct sk_buff *skb; -+ dma_addr_t tx_first_desc_dma=0; -+ dma_addr_t rx_first_desc_dma=0; -+ dma_addr_t rx_first_buf_dma=0; -+ unsigned int i,index; -+ -+ printk("Descriptor buffer init......\n"); -+ -+ /* get device index number */ -+ index = gmac_get_dev_index(dev); -+#ifdef CONFIG_SL2312_MPAGE -+ for (i=0; i<TX_DESC_NUM; i++) { -+ tx_skb[index][i].freeable = 0; -+ tx_skb[index][i].skb = 0; -+ tx_skb[index][i].desc_in_use = 0; -+ tx_skb[index][i].end_seq = 0; -+ } -+#else -+ for (i=0;i<TX_DESC_NUM;i++) -+ { -+ tx_skb[index][i] = NULL; -+ } -+#endif -+ for (i=0;i<RX_DESC_NUM;i++) -+ { -+ rx_skb[index][i] = NULL; -+ } -+ -+ /* allocates TX/RX descriptors */ -+ tp->tx_desc = DMA_MALLOC(TX_DESC_NUM*sizeof(GMAC_DESCRIPTOR_T),(dma_addr_t *)&tp->tx_desc_dma); -+ tx_desc_virtual_base[index] = (unsigned int)tp->tx_desc - (unsigned int)tp->tx_desc_dma; -+ memset(tp->tx_desc,0x00,TX_DESC_NUM*sizeof(GMAC_DESCRIPTOR_T)); -+ tp->rx_desc = DMA_MALLOC(RX_DESC_NUM*sizeof(GMAC_DESCRIPTOR_T),(dma_addr_t *)&tp->rx_desc_dma); -+ rx_desc_virtual_base[index] = (unsigned int)tp->rx_desc - (unsigned int)tp->rx_desc_dma; -+ memset(tp->rx_desc,0x00,RX_DESC_NUM*sizeof(GMAC_DESCRIPTOR_T)); -+ tx_desc_start_adr[index] = (unsigned int)tp->tx_desc; /* for tx skb index calculation */ -+ rx_desc_start_adr[index] = (unsigned int)tp->rx_desc; /* for rx skb index calculation */ -+ printk("tx_desc = %08x\n",(unsigned int)tp->tx_desc); -+ printk("rx_desc = %08x\n",(unsigned int)tp->rx_desc); -+ printk("tx_desc_dma = %08x\n",tp->tx_desc_dma); -+ printk("rx_desc_dma = %08x\n",tp->rx_desc_dma); -+ -+ if (tp->tx_desc==0x00 || tp->rx_desc==0x00) -+ { -+ free_irq(dev->irq, dev); -+ -+ if (tp->tx_desc) -+ DMA_MFREE(tp->tx_desc, TX_DESC_NUM*sizeof(GMAC_DESCRIPTOR_T),tp->tx_desc_dma); -+ if (tp->rx_desc) -+ DMA_MFREE(tp->rx_desc, RX_DESC_NUM*sizeof(GMAC_DESCRIPTOR_T),tp->rx_desc_dma); -+ return -ENOMEM; -+ } -+ -+ /* TX descriptors initial */ -+ tp->tx_cur_desc = tp->tx_desc; /* virtual address */ -+ tp->tx_finished_desc = tp->tx_desc; /* virtual address */ -+ tx_first_desc_dma = tp->tx_desc_dma; /* physical address */ -+ for (i = 1; i < TX_DESC_NUM; i++) -+ { -+ tp->tx_desc->frame_ctrl.bits_tx_out.own = CPU; /* set owner to CPU */ -+ tp->tx_desc->frame_ctrl.bits_tx_out.buffer_size = TX_BUF_SIZE; /* set tx buffer size for descriptor */ -+ tp->tx_desc_dma = tp->tx_desc_dma + sizeof(GMAC_DESCRIPTOR_T); /* next tx descriptor DMA address */ -+ tp->tx_desc->next_desc.next_descriptor = tp->tx_desc_dma | 0x0000000b; -+ tp->tx_desc = &tp->tx_desc[1] ; /* next tx descriptor virtual address */ -+ } -+ /* the last descriptor will point back to first descriptor */ -+ tp->tx_desc->frame_ctrl.bits_tx_out.own = CPU; -+ tp->tx_desc->frame_ctrl.bits_tx_out.buffer_size = TX_BUF_SIZE; -+ tp->tx_desc->next_desc.next_descriptor = tx_first_desc_dma | 0x0000000b; -+ tp->tx_desc = tp->tx_cur_desc; -+ tp->tx_desc_dma = tx_first_desc_dma; -+ -+ /* RX descriptors initial */ -+ tp->rx_cur_desc = tp->rx_desc; /* virtual address */ -+ rx_first_desc_dma = tp->rx_desc_dma; /* physical address */ -+ for (i = 1; i < RX_DESC_NUM; i++) -+ { -+ if ( (skb = dev_alloc_skb(RX_BUF_SIZE))==NULL) /* allocate socket buffer */ -+ { -+ printk("%s::skb buffer allocation fail !\n",__func__); -+ } -+ rx_skb[index][i-1] = skb; -+ tp->rx_desc->buf_adr = (unsigned int)__pa(skb->data) | 0x02; /* insert two bytes in the beginning of rx data */ -+ tp->rx_desc->frame_ctrl.bits_rx.own = DMA; /* set owner bit to DMA */ -+ tp->rx_desc->frame_ctrl.bits_rx.buffer_size = RX_BUF_SIZE; /* set rx buffer size for descriptor */ -+ tp->rx_bufs_dma = tp->rx_bufs_dma + RX_BUF_SIZE; /* point to next buffer address */ -+ tp->rx_desc_dma = tp->rx_desc_dma + sizeof(GMAC_DESCRIPTOR_T); /* next rx descriptor DMA address */ -+ tp->rx_desc->next_desc.next_descriptor = tp->rx_desc_dma | 0x0000000b; -+ tp->rx_desc = &tp->rx_desc[1]; /* next rx descriptor virtual address */ -+ } -+ /* the last descriptor will point back to first descriptor */ -+ if ( (skb = dev_alloc_skb(RX_BUF_SIZE))==NULL) /* allocate socket buffer */ -+ { -+ printk("%s::skb buffer allocation fail !\n",__func__); -+ } -+ rx_skb[index][i-1] = skb; -+ tp->rx_desc->buf_adr = (unsigned int)__pa(skb->data) | 0x02; /* insert two bytes in the beginning of rx data */ -+ tp->rx_desc->frame_ctrl.bits_rx.own = DMA; -+ tp->rx_desc->frame_ctrl.bits_rx.buffer_size = RX_BUF_SIZE; -+ tp->rx_desc->next_desc.next_descriptor = rx_first_desc_dma | 0x0000000b; -+ tp->rx_desc = tp->rx_cur_desc; -+ tp->rx_desc_dma = rx_first_desc_dma; -+ tp->rx_bufs_dma = rx_first_buf_dma; -+ -+ for (i=0; i<GMAC_PHY_IF; i++) { -+ tp->tx_desc_hdr[i] = 0; -+ tp->tx_desc_tail[i] = 0; -+ } -+ return (0); -+} -+ -+static int gmac_clear_counter (struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ unsigned int dev_index; -+ -+ dev_index = gmac_select_interface(dev); -+// tp = gmac_dev[index]->priv; -+ /* clear counter */ -+ gmac_read_reg(gmac_base_addr[dev_index] + GMAC_IN_DISCARDS); -+ gmac_read_reg(gmac_base_addr[dev_index] + GMAC_IN_ERRORS); -+ tp->stats.tx_bytes = 0; -+ tp->stats.tx_packets = 0; -+ tp->stats.tx_errors = 0; -+ tp->stats.rx_bytes = 0; -+ tp->stats.rx_packets = 0; -+ tp->stats.rx_errors = 0; -+ tp->stats.rx_dropped = 0; -+ return (0); -+} -+ -+static int gmac_open (struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ int retval; -+ -+ gmac_select_interface(dev); -+ -+ /* chip reset */ -+ gmac_sw_reset(dev); -+ -+ /* allocates tx/rx descriptor and buffer memory */ -+ gmac_init_desc_buf(dev); -+ -+ /* get mac address from FLASH */ -+ gmac_get_mac_address(); -+ -+ /* set PHY register to start autonegition process */ -+ gmac_set_phy_status(dev); -+ -+ /* GMAC initialization */ -+ if (gmac_init_chip(dev)) -+ { -+ printk (KERN_ERR "GMAC init fail\n"); -+ } -+ -+ /* start DMA process */ -+ gmac_hw_start(dev); -+ -+ /* enable tx/rx register */ -+ gmac_enable_tx_rx(dev); -+ -+ /* clear statistic counter */ -+ gmac_clear_counter(dev); -+ -+ netif_start_queue (dev); -+ -+ /* hook ISR */ -+ retval = request_irq (dev->irq, gmac_interrupt, SA_INTERRUPT, dev->name, dev); -+ if (retval) -+ return retval; -+ -+ if(!FLAG_SWITCH) -+ { -+ init_waitqueue_head (&tp->thr_wait); -+ init_completion(&tp->thr_exited); -+ -+ tp->time_to_die = 0; -+ tp->thr_pid = kernel_thread (gmac_phy_thread, dev, CLONE_FS | CLONE_FILES); -+ if (tp->thr_pid < 0) -+ { -+ printk (KERN_WARNING "%s: unable to start kernel thread\n",dev->name); -+ } -+ } -+ return (0); -+} -+ -+static int gmac_close(struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ unsigned int i,dev_index; -+ unsigned int ret; -+ -+ dev_index = gmac_get_dev_index(dev); -+ -+ /* stop tx/rx packet */ -+ gmac_disable_tx_rx(dev); -+ -+ /* stop the chip's Tx and Rx DMA processes */ -+ gmac_hw_stop(dev); -+ -+ netif_stop_queue(dev); -+ -+ /* disable interrupts by clearing the interrupt mask */ -+ synchronize_irq(); -+ free_irq(dev->irq,dev); -+ -+ DMA_MFREE(tp->tx_desc, TX_DESC_NUM*sizeof(GMAC_DESCRIPTOR_T),(unsigned int)tp->tx_desc_dma); -+ DMA_MFREE(tp->rx_desc, RX_DESC_NUM*sizeof(GMAC_DESCRIPTOR_T),(unsigned int)tp->rx_desc_dma); -+ -+#ifdef CONFIG_SL2312_MPAGE -+// kfree(tx_skb); -+#endif -+ -+ for (i=0;i<RX_DESC_NUM;i++) -+ { -+ if (rx_skb[dev_index][i]) -+ { -+ dev_kfree_skb(rx_skb[dev_index][i]); -+ } -+ } -+ if(!FLAG_SWITCH) -+ { -+ if (tp->thr_pid >= 0) -+ { -+ tp->time_to_die = 1; -+ wmb(); -+ ret = kill_proc (tp->thr_pid, SIGTERM, 1); -+ if (ret) -+ { -+ printk (KERN_ERR "%s: unable to signal thread\n", dev->name); -+ return ret; -+ } -+// wait_for_completion (&tp->thr_exited); -+ } -+ } -+ -+ return (0); -+} -+ -+#ifdef CONFIG_SL2312_MPAGE -+int printk_all(int dev_index, struct gmac_private* tp) -+{ -+ int i=0; -+ unsigned int tx_current_descriptor = 0; -+ int hw_index; -+ int fi; -+ GMAC_DESCRIPTOR_T* tmp_desc; -+ -+ GMAC_DESCRIPTOR_T* cur_desc=tp->tx_cur_desc; -+ fi = ((unsigned int)cur_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ printk("tmp_desc %x, id %d\n", (int)cur_desc, fi); -+ -+ tmp_desc = (GMAC_DESCRIPTOR_T*)((gmac_read_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CURR_DESC) & 0xfffffff0) + tx_desc_virtual_base[dev_index]); -+ hw_index = ((unsigned int)tmp_desc - tx_desc_start_adr[dev_index])/ sizeof(GMAC_DESCRIPTOR_T); -+ printk("hd_desc %x, ind %d, fin desc %x\n",(int)tmp_desc, hw_index, (int)tp->tx_finished_desc); -+ -+ for (i=0; i<TX_DESC_NUM; i++) { -+ printk("**id %4d, hw_index %4d ==> ", fi, hw_index); -+ printk("fc %8x ", tmp_desc->frame_ctrl.bits32); -+ printk("fs %8x ", tmp_desc->flag_status.bits32); -+ printk("fb %8x ", tmp_desc->buf_adr); -+ printk("fd %8x\n", tmp_desc->next_desc.next_descriptor); -+ tmp_desc = (GMAC_DESCRIPTOR_T*)((tmp_desc->next_desc.next_descriptor & 0xfffffff0) + tx_desc_virtual_base[dev_index]); -+ fi = ((unsigned int)tmp_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ } -+ tx_current_descriptor = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CURR_DESC); -+ printk("%s: tx current descriptor = %x \n",__func__,tx_current_descriptor); -+ printk("%s: interrupt status = %x \n",__func__,int_status); -+ return 0; -+} -+ -+int cleanup_desc(int dev_index, struct gmac_private* tp) -+{ -+ int i=0; -+ int index = ((unsigned int)tp->tx_cur_desc - tx_desc_start_adr[dev_index])/sizeof(GMAC_DESCRIPTOR_T); -+ GMAC_DESCRIPTOR_T* fill_desc = tp->tx_cur_desc; -+ -+ for (i=0; i< TX_DESC_NUM; i++) -+ { -+ fill_desc->frame_ctrl.bits_tx_out.own = CPU; -+ fill_desc->frame_ctrl.bits_tx_out.buffer_size = TX_BUF_SIZE; -+ tx_skb[dev_index][index].desc_in_use = 0; -+ free_tx_buf(dev_index, index); -+ printk("cleanup di %d\n", index); -+ fill_desc = (GMAC_DESCRIPTOR_T*)((fill_desc->next_desc.next_descriptor & 0xfffffff0) + tx_desc_virtual_base[dev_index]); -+ index++; -+ if (index > TX_DESC_NUM) -+ index = 0; -+ } -+ return 1; -+} -+ -+size_t get_available_tx_desc(struct net_device* dev, int dev_index) -+{ -+ struct gmac_private *tp = dev->priv; -+ unsigned int desc_hdr = tp->tx_desc_hdr[dev_index]; -+ unsigned int desc_tail = tp->tx_desc_tail[dev_index]; -+ int available_desc_num = (TX_DESC_NUM - desc_hdr + desc_tail) & (TX_DESC_NUM-1); -+ if (!available_desc_num) { -+ if (tx_skb[dev_index][desc_hdr].desc_in_use) -+ return 0; -+ else -+ return TX_DESC_NUM; -+ } -+ return available_desc_num; -+} -+ -+int check_free_tx_desc(int dev_index, int n, GMAC_DESCRIPTOR_T* desc) -+{ -+ int i,index; -+ GMAC_DESCRIPTOR_T* tmp_desc = desc; -+ -+ if (n > TX_DESC_NUM) -+ return 0; -+ -+ index = ((unsigned int)tmp_desc - tx_desc_start_adr[dev_index])/sizeof(GMAC_DESCRIPTOR_T); -+ for (i=0; i<n; i++) -+ { -+ if (tx_skb[dev_index][index].desc_in_use) -+ { -+ printk("sw desc %d is in use\n", index); -+ /* cleanup all the descriptors to check if DMA still running */ -+ return 0; -+ } -+ index++; -+ if (index == TX_DESC_NUM) -+ index = 0; -+ } -+ return 1; -+} -+ -+#define TCPHDRLEN(tcp_hdr) ((ntohs(*((__u16 *)tcp_hdr + 6)) >> 12) & 0x000F) -+ -+inline int fill_in_desc(int dev_index, GMAC_DESCRIPTOR_T *desc, char* data, int len, int total_len, int sof, int freeable, int ownership, struct sk_buff* skb) -+{ -+ int index = ((unsigned int)desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ -+ if (desc->frame_ctrl.bits_tx_in.own == CPU) -+ { -+ tx_skb[dev_index][index].freeable = freeable; -+ if ((sof & 0x01) && skb) { -+ tx_skb[dev_index][index].skb = skb; -+ } -+ else -+ tx_skb[dev_index][index].skb = 0; -+ -+ if (sof != 2) -+ tx_skb[dev_index][index].desc_in_use = 1; -+ else -+ tx_skb[dev_index][index].desc_in_use = 0; -+ -+ consistent_sync(data, len, PCI_DMA_TODEVICE); -+ desc->buf_adr = (unsigned int)__pa(data); -+ desc->frame_ctrl.bits_tx_out.buffer_size = len; -+ desc->flag_status.bits_tx_flag.frame_count = total_len; -+ desc->next_desc.bits.eofie = 1; -+ desc->next_desc.bits.sof_eof = sof; -+ desc->frame_ctrl.bits_tx_out.vlan_enable = 0; -+ desc->frame_ctrl.bits_tx_out.ip_csum_en = 1; /* TSS IPv4 IP header checksum enable */ -+ desc->frame_ctrl.bits_tx_out.ipv6_tx_en = 1; /* TSS IPv6 tx enable */ -+ desc->frame_ctrl.bits_tx_out.tcp_csum_en = 1; /* TSS TCP checksum enable */ -+ desc->frame_ctrl.bits_tx_out.udp_csum_en = 1; /* TSS UDP checksum enable */ -+ wmb(); -+ desc->frame_ctrl.bits_tx_out.own = ownership; -+// consistent_sync(desc, sizeof(GMAC_DESCRIPTOR_T), PCI_DMA_TODEVICE); -+ } -+ return 0; -+} -+#endif -+ -+static int gmac_start_xmit(struct sk_buff *skb, struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ GMAC_TXDMA_CTRL_T tx_ctrl,tx_ctrl_mask; -+ GMAC_TXDMA_FIRST_DESC_T txdma_busy; -+ unsigned int len = skb->len; -+ unsigned int dev_index; -+ static unsigned int pcount = 0; -+#ifdef CONFIG_SL2312_MPAGE -+ GMAC_DESCRIPTOR_T *fill_desc; -+ int snd_pages = skb_shinfo(skb)->nr_frags; /* get number of descriptor */ -+ int desc_needed = 1; // for jumbo packet, one descriptor is enough. -+ int header_len = skb->len; -+ struct iphdr *ip_hdr; -+ struct tcphdr *tcp_hdr; -+ int tcp_hdr_len; -+ int data_len; -+ int prv_index; -+ long seq_num; -+ int first_desc_index; -+ int ownership, freeable; -+ int eof; -+ int i=0; -+#endif -+#ifdef CONFIG_TXINT_DISABLE -+ int available_desc_cnt = 0; -+#endif -+ -+ dev_index = gmac_select_interface(dev); -+ -+#ifdef CONFIG_TXINT_DISABLE -+ available_desc_cnt = get_available_tx_desc(dev, dev_index); -+ -+ if (available_desc_cnt < (TX_DESC_NUM >> 2)) { -+ gmac_tx_packet_complete(dev); -+ } -+#endif -+ -+#ifdef CONFIG_SL2312_MPAGE -+ -+ fill_desc = tp->tx_cur_desc; -+ if(!fill_desc) { -+ printk("cur_desc is NULL!\n"); -+ return -1; -+ } -+ -+ if (storlink_ctl.recvfile==2) -+ { -+ printk("snd_pages=%d skb->len=%d\n",snd_pages,skb->len); -+ } -+ -+ if (snd_pages) -+ desc_needed += snd_pages; /* decriptors needed for this large packet */ -+ -+ if (!check_free_tx_desc(dev_index, desc_needed, fill_desc)) { -+ printk("no available desc!\n"); -+ gmac_dump_register(dev); -+ printk_all(dev_index, tp); -+ tp->stats.tx_dropped++; -+ if (pcount++ > 10) -+ { -+ for (;;); -+ } -+ return -1; -+ } -+ -+ first_desc_index = ((unsigned int)fill_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ -+ /* check if the tcp packet is in order*/ -+ ip_hdr = (struct iphdr*) &(skb->data[14]); -+ tcp_hdr = (struct tcphdr*) &(skb->data[14+ip_hdr->ihl * 4]); -+ tcp_hdr_len = TCPHDRLEN(tcp_hdr) * 4; -+ data_len = skb->len - 14 - ip_hdr->ihl *4 - tcp_hdr_len; -+ -+ prv_index = first_desc_index-1; -+ if (prv_index <0) -+ prv_index += TX_DESC_NUM; -+ seq_num = ntohl(tcp_hdr->seq); -+ -+ if (snd_pages) -+ { -+ // calculate header length -+ // check fragment total length and header len = skb len - frag len -+ // or parse the header. -+ for (i=0; i<snd_pages; i++) { -+ skb_frag_t* frag = &skb_shinfo(skb)->frags[i]; -+ header_len -= frag->size; -+ } -+ ownership = CPU; -+ freeable = 0; -+ /* fill header into first descriptor */ -+ fill_in_desc(dev_index, fill_desc, skb->data, header_len, len, 2, freeable, ownership, 0); -+ fill_desc = (GMAC_DESCRIPTOR_T*)((fill_desc->next_desc.next_descriptor & 0xfffffff0) + tx_desc_virtual_base[dev_index]); -+ tx_skb[dev_index][first_desc_index].end_seq = seq_num + data_len; -+ -+ eof = 0; -+ ownership = DMA; -+ for (i=0; i<snd_pages; i++) -+ { -+ skb_frag_t* frag = &skb_shinfo(skb)->frags[i]; -+ int start_pos = frag->page_offset; -+ char* data_buf = page_address(frag->page); -+ int data_size = frag->size; -+ int cur_index; -+ -+ if (i == snd_pages-1) -+ { -+ eof=1; -+ freeable = 1; -+ } -+ fill_in_desc(dev_index, fill_desc, data_buf+(start_pos), data_size, -+ len, eof, freeable, ownership, skb); -+ cur_index = ((unsigned int)fill_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ -+ fill_desc = (GMAC_DESCRIPTOR_T*)((fill_desc->next_desc.next_descriptor & 0xfffffff0) + tx_desc_virtual_base[dev_index]); -+ } -+ /* pass the ownership of the first descriptor to hardware */ -+// disable_irq(gmac_irq[dev_index]); -+ tx_skb[dev_index][first_desc_index].desc_in_use = 1; -+ wmb(); -+ tp->tx_cur_desc->frame_ctrl.bits_tx_out.own = DMA; -+// consistent_sync(tp->tx_cur_desc, sizeof(GMAC_DESCRIPTOR_T), PCI_DMA_TODEVICE); -+ tp->tx_cur_desc = fill_desc; -+ dev->trans_start = jiffies; -+// enable_irq(gmac_irq[dev_index]); -+ } -+ else if ( tp->tx_cur_desc->frame_ctrl.bits_tx_out.own == CPU ) -+ { -+// tx_skb[dev_index][first_desc_index].end_seq = seq_num + data_len; -+// disable_irq(gmac_irq[dev_index]); -+ fill_in_desc(dev_index, tp->tx_cur_desc, skb->data, skb->len, skb->len, 3, 1, DMA, skb); -+// enable_irq(gmac_irq[dev_index]); -+ //consistent_sync(tp->tx_cur_desc, sizeof(GMAC_DESCRIPTOR_T), PCI_DMA_TODEVICE); -+ tp->tx_cur_desc = (GMAC_DESCRIPTOR_T*)((tp->tx_cur_desc->next_desc.next_descriptor & 0xfffffff0) + tx_desc_virtual_base[dev_index]); -+ dev->trans_start = jiffies; -+ } -+ else -+ { -+ printk("gmac tx drop!\n"); -+ tp->stats.tx_dropped++; -+ return -1; -+ } -+ -+#ifdef CONFIG_TXINT_DISABLE -+ tp->tx_desc_hdr[dev_index] = (tp->tx_desc_hdr[dev_index] + desc_needed) & (TX_DESC_NUM-1); -+#endif -+ -+#else -+ if ((tp->tx_cur_desc->frame_ctrl.bits_tx_out.own == CPU) && (len < TX_BUF_SIZE)) -+ { -+ index = ((unsigned int)tp->tx_cur_desc - tx_desc_start_adr[dev_index]) / sizeof(GMAC_DESCRIPTOR_T); -+ tx_skb[dev_index][index] = skb; -+ consistent_sync(skb->data,skb->len,PCI_DMA_TODEVICE); -+ tp->tx_cur_desc->buf_adr = (unsigned int)__pa(skb->data); -+ tp->tx_cur_desc->flag_status.bits_tx_flag.frame_count = len; /* total frame byte count */ -+ tp->tx_cur_desc->next_desc.bits.sof_eof = 0x03; /*only one descriptor*/ -+ tp->tx_cur_desc->frame_ctrl.bits_tx_out.buffer_size = len; /* descriptor byte count */ -+ tp->tx_cur_desc->frame_ctrl.bits_tx_out.vlan_enable = 0; -+ tp->tx_cur_desc->frame_ctrl.bits_tx_out.ip_csum_en = 0; /* TSS IPv4 IP header checksum enable */ -+ tp->tx_cur_desc->frame_ctrl.bits_tx_out.ipv6_tx_en = 0 ; /* TSS IPv6 tx enable */ -+ tp->tx_cur_desc->frame_ctrl.bits_tx_out.tcp_csum_en = 0; /* TSS TCP checksum enable */ -+ tp->tx_cur_desc->frame_ctrl.bits_tx_out.udp_csum_en = 0; /* TSS UDP checksum enable */ -+ wmb(); -+ tp->tx_cur_desc->frame_ctrl.bits_tx_out.own = DMA; /* set owner bit */ -+ tp->tx_cur_desc = (GMAC_DESCRIPTOR_T *)((tp->tx_cur_desc->next_desc.next_descriptor & 0xfffffff0)+tx_desc_virtual_base[dev_index]); -+ dev->trans_start = jiffies; -+ } -+ else -+ { -+ /* no free tx descriptor */ -+ dev_kfree_skb(skb); -+ netif_stop_queue(dev); -+ tp->stats.tx_dropped++; -+ return (-1); -+ } -+#endif -+ /* if TX DMA process is stoped , restart it */ -+ txdma_busy.bits32 = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_FIRST_DESC); -+ if (txdma_busy.bits.td_busy == 0) -+ { -+ /* restart DMA process */ -+ tx_ctrl.bits32 = 0; -+ tx_ctrl.bits.td_start = 1; -+ tx_ctrl.bits.td_continue = 1; -+ tx_ctrl_mask.bits32 = 0; -+ tx_ctrl_mask.bits.td_start = 1; -+ tx_ctrl_mask.bits.td_continue = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CTRL,tx_ctrl.bits32,tx_ctrl_mask.bits32); -+ } -+ return (0); -+} -+ -+ -+struct net_device_stats * gmac_get_stats(struct net_device *dev) -+{ -+ struct gmac_private *tp = dev->priv; -+ unsigned long flags; -+ unsigned int pkt_drop; -+ unsigned int pkt_error; -+ unsigned int dev_index; -+ -+ dev_index = gmac_select_interface(dev); -+ -+// if (storlink_ctl.recvfile==3) -+// { -+// printk("GMAC_GLOBAL_BASE_ADDR=%x\n", readl(GMAC_GLOBAL_BASE_ADDR+0x30)); -+// gmac_dump_register(dev); -+// printk_all(0, dev); -+// } -+ -+ if (netif_running(dev)) -+ { -+ /* read H/W counter */ -+ spin_lock_irqsave(&tp->lock,flags); -+ pkt_drop = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_IN_DISCARDS); -+ pkt_error = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_IN_ERRORS); -+ tp->stats.rx_dropped = tp->stats.rx_dropped + pkt_drop; -+ tp->stats.rx_errors = tp->stats.rx_errors + pkt_error; -+ spin_unlock_irqrestore(&tp->lock,flags); -+ } -+ return &tp->stats; -+} -+ -+static unsigned const ethernet_polynomial = 0x04c11db7U; -+static inline u32 ether_crc (int length, unsigned char *data) -+{ -+ int crc = -1; -+ unsigned int i; -+ unsigned int crc_val=0; -+ -+ while (--length >= 0) { -+ unsigned char current_octet = *data++; -+ int bit; -+ for (bit = 0; bit < 8; bit++, current_octet >>= 1) -+ crc = (crc << 1) ^ ((crc < 0) ^ (current_octet & 1) ? -+ ethernet_polynomial : 0); -+ } -+ crc = ~crc; -+ for (i=0;i<32;i++) -+ { -+ crc_val = crc_val + (((crc << i) & 0x80000000) >> (31-i)); -+ } -+ return crc_val; -+} -+ -+static void gmac_set_rx_mode(struct net_device *dev) -+{ -+ GMAC_RX_FLTR_T filter; -+ unsigned int mc_filter[2]; /* Multicast hash filter */ -+ int bit_nr; -+ unsigned int i, dev_index; -+ -+ dev_index = gmac_select_interface(dev); -+ -+// printk("%s : dev->flags = %x \n",__func__,dev->flags); -+// dev->flags |= IFF_ALLMULTI; /* temp */ -+ filter.bits32 = 0; -+ filter.bits.error = 0; -+ if (dev->flags & IFF_PROMISC) -+ { -+ filter.bits.error = 1; -+ filter.bits.promiscuous = 1; -+ filter.bits.broadcast = 1; -+ filter.bits.multicast = 1; -+ filter.bits.unicast = 1; -+ mc_filter[1] = mc_filter[0] = 0xffffffff; -+ } -+ else if (dev->flags & IFF_ALLMULTI) -+ { -+ filter.bits.promiscuous = 1; -+ filter.bits.broadcast = 1; -+ filter.bits.multicast = 1; -+ filter.bits.unicast = 1; -+ mc_filter[1] = mc_filter[0] = 0xffffffff; -+ } -+ else -+ { -+ struct dev_mc_list *mclist; -+ -+ filter.bits.promiscuous = 1; -+ filter.bits.broadcast = 1; -+ filter.bits.multicast = 1; -+ filter.bits.unicast = 1; -+ mc_filter[1] = mc_filter[0] = 0; -+ for (i = 0, mclist = dev->mc_list; mclist && i < dev->mc_count;i++, mclist = mclist->next) -+ { -+ bit_nr = ether_crc(ETH_ALEN,mclist->dmi_addr) & 0x0000003f; -+ if (bit_nr < 32) -+ { -+ mc_filter[0] = mc_filter[0] | (1<<bit_nr); -+ } -+ else -+ { -+ mc_filter[1] = mc_filter[1] | (1<<(bit_nr-32)); -+ } -+ } -+ } -+ filter.bits32 = 0x1f; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_RX_FLTR,filter.bits32,0xffffffff); -+ -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_MCAST_FIL0,mc_filter[0],0xffffffff); -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_MCAST_FIL1,mc_filter[1],0xffffffff); -+ return; -+} -+ -+static int gmac_set_mac_address(struct net_device *dev, void *addr) -+{ -+ struct sockaddr *sock; -+ unsigned int reg_val; -+ unsigned int dev_index; -+ unsigned int i; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ sock = (struct sockaddr *) addr; -+ for (i = 0; i < 6; i++) -+ { -+ dev->dev_addr[i] = sock->sa_data[i]; -+ } -+ -+ reg_val = dev->dev_addr[0] + (dev->dev_addr[1]<<8) + (dev->dev_addr[2]<<16) + (dev->dev_addr[3]<<24); -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_STA_ADD0,reg_val,0xffffffff); -+ reg_val = dev->dev_addr[4] + (dev->dev_addr[5]<<8) ; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_STA_ADD1,reg_val,0x0000ffff); -+ memcpy(ð0_mac[0],&dev->dev_addr[0],6); -+ printk("Storlink %s address = ",dev->name); -+ printk("%02x",dev->dev_addr[0]); -+ printk("%02x",dev->dev_addr[1]); -+ printk("%02x",dev->dev_addr[2]); -+ printk("%02x",dev->dev_addr[3]); -+ printk("%02x",dev->dev_addr[4]); -+ printk("%02x\n",dev->dev_addr[5]); -+ -+ return (0); -+} -+ -+static void gmac_tx_timeout(struct net_device *dev) -+{ -+ GMAC_TXDMA_CTRL_T tx_ctrl,tx_ctrl_mask; -+ GMAC_TXDMA_FIRST_DESC_T txdma_busy; -+ int dev_index; -+ -+ dev_index = gmac_select_interface(dev); -+ -+ /* if TX DMA process is stoped , restart it */ -+ txdma_busy.bits32 = gmac_read_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_FIRST_DESC); -+ if (txdma_busy.bits.td_busy == 0) -+ { -+ /* restart DMA process */ -+ tx_ctrl.bits32 = 0; -+ tx_ctrl.bits.td_start = 1; -+ tx_ctrl.bits.td_continue = 1; -+ tx_ctrl_mask.bits32 = 0; -+ tx_ctrl_mask.bits.td_start = 1; -+ tx_ctrl_mask.bits.td_continue = 1; -+ gmac_write_reg(gmac_base_addr[dev_index] + GMAC_TXDMA_CTRL,tx_ctrl.bits32,tx_ctrl_mask.bits32); -+ } -+ netif_wake_queue(dev); -+ return; -+} -+ -+static int gmac_netdev_ioctl(struct net_device *dev, struct ifreq *rq, int cmd) -+{ -+ int rc = 0; -+ unsigned char *hwa = rq->ifr_ifru.ifru_hwaddr.sa_data; -+ -+ if (!netif_running(dev)) -+ { -+ printk("Before changing the H/W address,please down the device.\n"); -+ return -EINVAL; -+ } -+ -+ switch (cmd) { -+ case SIOCETHTOOL: -+ break; -+ -+ case SIOCSIFHWADDR: -+ gmac_set_mac_address(dev,hwa); -+ break; -+ -+ case SIOCGMIIPHY: /* Get the address of the PHY in use. */ -+ case SIOCDEVPRIVATE: /* binary compat, remove in 2.5 */ -+ break; -+ -+ case SIOCGMIIREG: /* Read the specified MII register. */ -+ case SIOCDEVPRIVATE+1: -+ break; -+ -+ case SIOCSMIIREG: /* Write the specified MII register */ -+ case SIOCDEVPRIVATE+2: -+ break; -+ -+ default: -+ rc = -EOPNOTSUPP; -+ break; -+ } -+ -+ return rc; -+} -+ -+static void gmac_cleanup_module(void) -+{ -+ int i; -+ -+ for (i=0;i<GMAC_PHY_IF;i++) -+ { -+ unregister_netdev(gmac_dev[i]); -+ } -+ return ; -+} -+ -+static int __init gmac_init_module(void) -+{ -+ struct gmac_private *tp; -+ struct net_device *dev[GMAC_PHY_IF]; -+ unsigned int i; -+ -+#ifdef MODULE -+ printk (KERN_INFO RTL8139_DRIVER_NAME "\n"); -+#endif -+// init_waitqueue_entry(&wait, current); -+ -+ printk("GMAC Init......\n"); -+ for(i = 0; i<GMAC_PHY_IF; i++) -+ { -+ dev[i] = alloc_etherdev(sizeof(struct gmac_private)); -+ if (dev[i] == NULL) -+ { -+ printk (KERN_ERR "Can't allocate ethernet device #%d .\n",i); -+ return -ENOMEM; -+ } -+ gmac_dev[i] = dev[i]; -+ -+ SET_MODULE_OWNER(dev[i]); -+ -+ tp = dev[i]->priv; -+ -+ dev[i]->base_addr = gmac_base_addr[i]; -+ dev[i]->irq = gmac_irq[i]; -+ dev[i]->open = gmac_open; -+ dev[i]->stop = gmac_close; -+ dev[i]->hard_start_xmit = gmac_start_xmit; -+ dev[i]->get_stats = gmac_get_stats; -+ dev[i]->set_multicast_list = gmac_set_rx_mode; -+ dev[i]->set_mac_address = gmac_set_mac_address; -+ dev[i]->do_ioctl = gmac_netdev_ioctl; -+ dev[i]->tx_timeout = gmac_tx_timeout; -+ dev[i]->watchdog_timeo = TX_TIMEOUT; -+ dev[i]->features |= NETIF_F_SG|NETIF_F_HW_CSUM|NETIF_F_TSO; -+#ifdef CONFIG_SL_NAPI -+ printk("NAPI driver is enabled.\n"); -+ if (i==0) -+ { -+ dev[i]->poll = gmac_rx_poll_ga; -+ dev[i]->weight = 64; -+ } -+ else -+ { -+ dev[i]->poll = gmac_rx_poll_gb; -+ dev[i]->weight = 64; -+ } -+#endif -+ -+ if (register_netdev(dev[i])) -+ { -+ gmac_cleanup_module(); -+ return(-1); -+ } -+ } -+ -+#ifdef CONFIG_SL3516_ASIC -+{ -+ unsigned int val; -+ -+ /* set GMAC global register */ -+ val = readl(GMAC_GLOBAL_BASE_ADDR+0x10); -+ val = val | 0x005a0000; -+ writel(val,GMAC_GLOBAL_BASE_ADDR+0x10); -+ writel(0x07f007f0,GMAC_GLOBAL_BASE_ADDR+0x1c); -+ writel(0x77770000,GMAC_GLOBAL_BASE_ADDR+0x20); -+ writel(0x77770000,GMAC_GLOBAL_BASE_ADDR+0x24); -+ val = readl(GMAC_GLOBAL_BASE_ADDR+0x04); -+ if((val&(1<<20))==0){ // GMAC1 enable -+ val = readl(GMAC_GLOBAL_BASE_ADDR+0x30); -+ val = (val & 0xe7ffffff) | 0x08000000; -+ writel(val,GMAC_GLOBAL_BASE_ADDR+0x30); -+ } -+ -+} -+#endif -+ -+// printk("%s: dev0=%x dev1=%x \n",__func__,dev[0],dev[1]); -+// FLAG_SWITCH = 0 ; -+// FLAG_SWITCH = SPI_get_identifier(); -+// if(FLAG_SWITCH) -+// { -+// printk("Configure ADM699X...\n"); -+// SPI_default(); //Add by jason for ADM699X configuration -+// } -+ return (0); -+} -+ -+ -+module_init(gmac_init_module); -+module_exit(gmac_cleanup_module); -+ -+static int gmac_phy_thread (void *data) -+{ -+ struct net_device *dev = data; -+ struct gmac_private *tp = dev->priv; -+ unsigned long timeout; -+ -+ daemonize("%s", dev->name); -+ allow_signal(SIGTERM); -+// reparent_to_init(); -+// spin_lock_irq(¤t->sigmask_lock); -+// sigemptyset(¤t->blocked); -+// recalc_sigpending(current); -+// spin_unlock_irq(¤t->sigmask_lock); -+// strncpy (current->comm, dev->name, sizeof(current->comm) - 1); -+// current->comm[sizeof(current->comm) - 1] = '\0'; -+ -+ while (1) -+ { -+ timeout = next_tick; -+ do -+ { -+ timeout = interruptible_sleep_on_timeout (&tp->thr_wait, timeout); -+ } while (!signal_pending (current) && (timeout > 0)); -+ -+ if (signal_pending (current)) -+ { -+// spin_lock_irq(¤t->sigmask_lock); -+ flush_signals(current); -+// spin_unlock_irq(¤t->sigmask_lock); -+ } -+ -+ if (tp->time_to_die) -+ break; -+ -+// printk("%s : Polling PHY Status...%x\n",__func__,dev); -+ rtnl_lock (); -+ gmac_get_phy_status(dev); -+ rtnl_unlock (); -+ } -+ complete_and_exit (&tp->thr_exited, 0); -+} -+ -+static void gmac_set_phy_status(struct net_device *dev) -+{ -+ GMAC_STATUS_T status; -+ unsigned int reg_val; -+ unsigned int i = 0; -+ unsigned int index; -+ -+ if (FLAG_SWITCH==1) -+ { -+ return; /* GMAC connects to a switch chip, not PHY */ -+ } -+ -+ index = gmac_get_dev_index(dev); -+ -+ if (index == 0) -+ { -+// mii_write(phy_addr[index],0x04,0x0461); /* advertisement 10M full duplex, pause capable on */ -+// mii_write(phy_addr[index],0x04,0x0421); /* advertisement 10M half duplex, pause capable on */ -+ mii_write(phy_addr[index],0x04,0x05e1); /* advertisement 100M full duplex, pause capable on */ -+// mii_write(phy_addr[index],0x04,0x04a1); /* advertisement 100M half duplex, pause capable on */ -+#ifdef CONFIG_SL3516_ASIC -+ mii_write(phy_addr[index],0x09,0x0300); /* advertisement 1000M full duplex, pause capable on */ -+// mii_write(phy_addr[index],0x09,0x0000); /* advertisement 1000M full duplex, pause capable on */ -+#endif -+ } -+ else -+ { -+// mii_write(phy_addr[index],0x04,0x0461); /* advertisement 10M full duplex, pause capable on */ -+// mii_write(phy_addr[index],0x04,0x0421); /* advertisement 10M half duplex, pause capable on */ -+ mii_write(phy_addr[index],0x04,0x05e1); /* advertisement 100M full duplex, pause capable on */ -+// mii_write(phy_addr[index],0x04,0x04a1); /* advertisement 100M half duplex, pause capable on */ -+#ifdef CONFIG_SL3516_ASIC -+// mii_write(phy_addr[index],0x09,0x0000); /* advertisement no 1000M */ -+ mii_write(phy_addr[index],0x09,0x0300); /* advertisement 1000M full duplex, pause capable on */ -+#endif -+ } -+ -+ mii_write(phy_addr[index],0x00,0x1200); /* Enable and Restart Auto-Negotiation */ -+ mii_write(phy_addr[index],0x18,0x0041); /* Enable Active led */ -+ while (((reg_val=mii_read(phy_addr[index],0x01)) & 0x00000004)!=0x04) -+ { -+ i++; -+ if (i > 30) -+ { -+ break; -+ } -+ msleep(100); -+ } -+ if (i>30) -+ { -+ pre_phy_status[index] = LINK_DOWN; -+ clear_bit(__LINK_STATE_START, &dev->state); -+ netif_stop_queue(dev); -+ storlink_ctl.link = 0; -+ printk("Link Down (%04x) ",reg_val); -+ } -+ else -+ { -+ pre_phy_status[index] = LINK_UP; -+ set_bit(__LINK_STATE_START, &dev->state); -+ netif_wake_queue(dev); -+ storlink_ctl.link = 1; -+ printk("Link Up (%04x) ",reg_val); -+ } -+ -+ status.bits32 = 0; -+ reg_val = mii_read(phy_addr[index],10); -+ printk("reg_val0 = %x \n",reg_val); -+ if ((reg_val & 0x0800) == 0x0800) -+ { -+ status.bits.duplex = 1; -+ status.bits.speed = 2; -+ printk(" 1000M/Full \n"); -+ } -+ else if ((reg_val & 0x0400) == 0x0400) -+ { -+ status.bits.duplex = 0; -+ status.bits.speed = 2; -+ printk(" 1000M/Half \n"); -+ } -+ else -+ { -+ reg_val = (mii_read(phy_addr[index],0x05) & 0x05E0) >> 5; -+ printk("reg_val1 = %x \n",reg_val); -+ if ((reg_val & 0x08)==0x08) /* 100M full duplex */ -+ { -+ status.bits.duplex = 1; -+ status.bits.speed = 1; -+ printk(" 100M/Full \n"); -+ } -+ else if ((reg_val & 0x04)==0x04) /* 100M half duplex */ -+ { -+ status.bits.duplex = 0; -+ status.bits.speed = 1; -+ printk(" 100M/Half \n"); -+ } -+ else if ((reg_val & 0x02)==0x02) /* 10M full duplex */ -+ { -+ status.bits.duplex = 1; -+ status.bits.speed = 0; -+ printk(" 10M/Full \n"); -+ } -+ else if ((reg_val & 0x01)==0x01) /* 10M half duplex */ -+ { -+ status.bits.duplex = 0; -+ status.bits.speed = 0; -+ printk(" 100M/Half \n"); -+ } -+ } -+ -+ reg_val = (mii_read(phy_addr[index],0x05) & 0x05E0) >> 5; -+ if ((reg_val & 0x20)==0x20) -+ { -+ flow_control_enable[index] = 1; -+ printk("Flow Control Enable. \n"); -+ } -+ else -+ { -+ flow_control_enable[index] = 0; -+ printk("Flow Control Disable. \n"); -+ } -+ full_duplex = status.bits.duplex; -+ speed = status.bits.speed; -+} -+ -+static void gmac_get_phy_status(struct net_device *dev) -+{ -+ GMAC_CONFIG0_T config0,config0_mask; -+ GMAC_STATUS_T status; -+ unsigned int reg_val; -+ unsigned int index; -+ -+ index = gmac_select_interface(dev); -+ -+ status.bits32 = 0; -+ status.bits.phy_mode = 1; -+ -+#ifdef CONFIG_SL3516_ASIC -+ status.bits.mii_rmii = 2; /* default value for ASIC version */ -+// status.bits.speed = 1; -+#else -+ if (index==0) -+ status.bits.mii_rmii = 0; -+ else -+ status.bits.mii_rmii = 2; -+#endif -+ -+ /* read PHY status register */ -+ reg_val = mii_read(phy_addr[index],0x01); -+ if ((reg_val & 0x0024) == 0x0024) /* link is established and auto_negotiate process completed */ -+ { -+ /* read PHY Auto-Negotiation Link Partner Ability Register */ -+ reg_val = mii_read(phy_addr[index],10); -+ if ((reg_val & 0x0800) == 0x0800) -+ { -+ status.bits.mii_rmii = 3; /* RGMII 1000Mbps mode */ -+ status.bits.duplex = 1; -+ status.bits.speed = 2; -+ } -+ else if ((reg_val & 0x0400) == 0x0400) -+ { -+ status.bits.mii_rmii = 3; /* RGMII 1000Mbps mode */ -+ status.bits.duplex = 0; -+ status.bits.speed = 2; -+ } -+ else -+ { -+ reg_val = (mii_read(phy_addr[index],0x05) & 0x05E0) >> 5; -+ if ((reg_val & 0x08)==0x08) /* 100M full duplex */ -+ { -+ status.bits.mii_rmii = 2; /* RGMII 10/100Mbps mode */ -+ status.bits.duplex = 1; -+ status.bits.speed = 1; -+ } -+ else if ((reg_val & 0x04)==0x04) /* 100M half duplex */ -+ { -+ status.bits.mii_rmii = 2; /* RGMII 10/100Mbps mode */ -+ status.bits.duplex = 0; -+ status.bits.speed = 1; -+ } -+ else if ((reg_val & 0x02)==0x02) /* 10M full duplex */ -+ { -+ status.bits.mii_rmii = 2; /* RGMII 10/100Mbps mode */ -+ status.bits.duplex = 1; -+ status.bits.speed = 0; -+ } -+ else if ((reg_val & 0x01)==0x01) /* 10M half duplex */ -+ { -+ status.bits.mii_rmii = 2; /* RGMII 10/100Mbps mode */ -+ status.bits.duplex = 0; -+ status.bits.speed = 0; -+ } -+ } -+ status.bits.link = LINK_UP; /* link up */ -+ netif_wake_queue(dev); -+ -+ reg_val = (mii_read(phy_addr[index],0x05) & 0x05E0) >> 5; -+ if ((reg_val & 0x20)==0x20) -+ { -+ if (flow_control_enable[index] == 0) -+ { -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.tx_fc_en = 1; /* enable tx flow control */ -+ config0.bits.rx_fc_en = 1; /* enable rx flow control */ -+ config0_mask.bits.tx_fc_en = 1; -+ config0_mask.bits.rx_fc_en = 1; -+ gmac_write_reg(gmac_base_addr[index] + GMAC_CONFIG0,config0.bits32,config0_mask.bits32); -+// printk("eth%d Flow Control Enable. \n",index); -+ } -+ flow_control_enable[index] = 1; -+ } -+ else -+ { -+ if (flow_control_enable[index] == 1) -+ { -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.tx_fc_en = 0; /* disable tx flow control */ -+ config0.bits.rx_fc_en = 0; /* disable rx flow control */ -+ config0_mask.bits.tx_fc_en = 1; -+ config0_mask.bits.rx_fc_en = 1; -+ gmac_write_reg(gmac_base_addr[index] + GMAC_CONFIG0,config0.bits32,config0_mask.bits32); -+// printk("eth%d Flow Control Disable. \n",index); -+ } -+ flow_control_enable[index] = 0; -+ } -+ -+ if (pre_phy_status[index] == LINK_DOWN) -+ { -+ gmac_enable_tx_rx(dev); -+ pre_phy_status[index] = LINK_UP; -+ set_bit(__LINK_STATE_START, &dev->state); -+ storlink_ctl.link = 1; -+// printk("eth%d Link Up ...\n",index); -+ } -+ } -+ else -+ { -+ status.bits.link = LINK_DOWN; /* link down */ -+ netif_stop_queue(dev); -+ flow_control_enable[index] = 0; -+ storlink_ctl.link = 0; -+ if (pre_phy_status[index] == LINK_UP) -+ { -+ gmac_disable_tx_rx(dev); -+ pre_phy_status[index] = LINK_DOWN; -+ clear_bit(__LINK_STATE_START, &dev->state); -+// printk("eth%d Link Down ...\n",index); -+ } -+ -+ } -+ -+ reg_val = gmac_read_reg(gmac_base_addr[index] + GMAC_STATUS); -+ if (reg_val != status.bits32) -+ { -+ gmac_write_reg(gmac_base_addr[index] + GMAC_STATUS,status.bits32,0x0000007f); -+ } -+} -+ -+/***************************************/ -+/* define GPIO module base address */ -+/***************************************/ -+#define GPIO_BASE_ADDR (IO_ADDRESS(SL2312_GPIO_BASE)) -+ -+/* define GPIO pin for MDC/MDIO */ -+ -+// for gemini ASIC -+#ifdef CONFIG_SL3516_ASIC -+#define H_MDC_PIN 22 -+#define H_MDIO_PIN 21 -+#define G_MDC_PIN 22 -+#define G_MDIO_PIN 21 -+#else -+#define H_MDC_PIN 3 -+#define H_MDIO_PIN 2 -+#define G_MDC_PIN 0 -+#define G_MDIO_PIN 1 -+#endif -+ -+//#define GPIO_MDC 0x80000000 -+//#define GPIO_MDIO 0x00400000 -+ -+static unsigned int GPIO_MDC = 0; -+static unsigned int GPIO_MDIO = 0; -+static unsigned int GPIO_MDC_PIN = 0; -+static unsigned int GPIO_MDIO_PIN = 0; -+ -+// For PHY test definition!! -+#define LPC_EECK 0x02 -+#define LPC_EDIO 0x04 -+#define LPC_GPIO_SET 3 -+#define LPC_BASE_ADDR IO_ADDRESS(IT8712_IO_BASE) -+#define inb_gpio(x) inb(LPC_BASE_ADDR + IT8712_GPIO_BASE + x) -+#define outb_gpio(x, y) outb(y, LPC_BASE_ADDR + IT8712_GPIO_BASE + x) -+ -+enum GPIO_REG -+{ -+ GPIO_DATA_OUT = 0x00, -+ GPIO_DATA_IN = 0x04, -+ GPIO_PIN_DIR = 0x08, -+ GPIO_BY_PASS = 0x0c, -+ GPIO_DATA_SET = 0x10, -+ GPIO_DATA_CLEAR = 0x14, -+}; -+/***********************/ -+/* MDC : GPIO[31] */ -+/* MDIO: GPIO[22] */ -+/***********************/ -+ -+/*************************************************** -+* All the commands should have the frame structure: -+*<PRE><ST><OP><PHYAD><REGAD><TA><DATA><IDLE> -+****************************************************/ -+ -+/***************************************************************** -+* Inject a bit to NWay register through CSR9_MDC,MDIO -+*******************************************************************/ -+void mii_serial_write(char bit_MDO) // write data into mii PHY -+{ -+#if 0 //def CONFIG_SL2312_LPC_IT8712 -+ unsigned char iomode,status; -+ -+ iomode = LPCGetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET); -+ iomode |= (LPC_EECK|LPC_EDIO) ; // Set EECK,EDIO,EECS output -+ LPCSetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET, iomode); -+ -+ if(bit_MDO) -+ { -+ status = inb_gpio( LPC_GPIO_SET); -+ status |= LPC_EDIO ; //EDIO high -+ outb_gpio(LPC_GPIO_SET, status); -+ } -+ else -+ { -+ status = inb_gpio( LPC_GPIO_SET); -+ status &= ~(LPC_EDIO) ; //EDIO low -+ outb_gpio(LPC_GPIO_SET, status); -+ } -+ -+ status |= LPC_EECK ; //EECK high -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ status &= ~(LPC_EECK) ; //EECK low -+ outb_gpio(LPC_GPIO_SET, status); -+ -+#else -+ unsigned int addr; -+ unsigned int value; -+ -+ addr = GPIO_BASE_ADDR + GPIO_PIN_DIR; -+ value = readl(addr) | GPIO_MDC | GPIO_MDIO; /* set MDC/MDIO Pin to output */ -+ writel(value,addr); -+ if(bit_MDO) -+ { -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_MDIO,addr); /* set MDIO to 1 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_MDC,addr); /* set MDC to 1 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MDC,addr); /* set MDC to 0 */ -+ } -+ else -+ { -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MDIO,addr); /* set MDIO to 0 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_MDC,addr); /* set MDC to 1 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MDC,addr); /* set MDC to 0 */ -+ } -+ -+#endif -+} -+ -+/********************************************************************** -+* read a bit from NWay register through CSR9_MDC,MDIO -+***********************************************************************/ -+unsigned int mii_serial_read(void) // read data from mii PHY -+{ -+#if 0 //def CONFIG_SL2312_LPC_IT8712 -+ unsigned char iomode,status; -+ unsigned int value ; -+ -+ iomode = LPCGetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET); -+ iomode &= ~(LPC_EDIO) ; // Set EDIO input -+ iomode |= (LPC_EECK) ; // Set EECK,EECS output -+ LPCSetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET, iomode); -+ -+ status = inb_gpio( LPC_GPIO_SET); -+ status |= LPC_EECK ; //EECK high -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ status &= ~(LPC_EECK) ; //EECK low -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ value = inb_gpio( LPC_GPIO_SET); -+ -+ value = value>>2 ; -+ value &= 0x01; -+ -+ return value ; -+ -+#else -+ unsigned int *addr; -+ unsigned int value; -+ -+ addr = (unsigned int *)(GPIO_BASE_ADDR + GPIO_PIN_DIR); -+ value = readl(addr) & ~GPIO_MDIO; //0xffbfffff; /* set MDC to output and MDIO to input */ -+ writel(value,addr); -+ -+ addr = (unsigned int *)(GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_MDC,addr); /* set MDC to 1 */ -+ addr = (unsigned int *)(GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MDC,addr); /* set MDC to 0 */ -+ -+ addr = (unsigned int *)(GPIO_BASE_ADDR + GPIO_DATA_IN); -+ value = readl(addr); -+ value = (value & (1<<GPIO_MDIO_PIN)) >> GPIO_MDIO_PIN; -+ return(value); -+ -+#endif -+} -+ -+/*************************************** -+* preamble + ST -+***************************************/ -+void mii_pre_st(void) -+{ -+ unsigned char i; -+ -+ for(i=0;i<32;i++) // PREAMBLE -+ mii_serial_write(1); -+ mii_serial_write(0); // ST -+ mii_serial_write(1); -+} -+ -+ -+/****************************************** -+* Read MII register -+* phyad -> physical address -+* regad -> register address -+***************************************** */ -+unsigned int mii_read(unsigned char phyad,unsigned char regad) -+{ -+ unsigned int i,value; -+ unsigned int bit; -+ -+ if (phyad == GPHY_ADDR) -+ { -+ GPIO_MDC_PIN = G_MDC_PIN; /* assigned MDC pin for giga PHY */ -+ GPIO_MDIO_PIN = G_MDIO_PIN; /* assigned MDIO pin for giga PHY */ -+ } -+ else -+ { -+ GPIO_MDC_PIN = H_MDC_PIN; /* assigned MDC pin for 10/100 PHY */ -+ GPIO_MDIO_PIN = H_MDIO_PIN; /* assigned MDIO pin for 10/100 PHY */ -+ } -+ GPIO_MDC = (1<<GPIO_MDC_PIN); -+ GPIO_MDIO = (1<<GPIO_MDIO_PIN); -+ -+ mii_pre_st(); // PRE+ST -+ mii_serial_write(1); // OP -+ mii_serial_write(0); -+ -+ for (i=0;i<5;i++) { // PHYAD -+ bit= ((phyad>>(4-i)) & 0x01) ? 1 :0 ; -+ mii_serial_write(bit); -+ } -+ -+ for (i=0;i<5;i++) { // REGAD -+ bit= ((regad>>(4-i)) & 0x01) ? 1 :0 ; -+ mii_serial_write(bit); -+ } -+ -+ mii_serial_read(); // TA_Z -+// if((bit=mii_serial_read()) !=0 ) // TA_0 -+// { -+// return(0); -+// } -+ value=0; -+ for (i=0;i<16;i++) { // READ DATA -+ bit=mii_serial_read(); -+ value += (bit<<(15-i)) ; -+ } -+ -+ mii_serial_write(0); // dumy clock -+ mii_serial_write(0); // dumy clock -+//printk("%s: phy_addr=%x reg_addr=%x value=%x \n",__func__,phyad,regad,value); -+ return(value); -+} -+ -+/****************************************** -+* Write MII register -+* phyad -> physical address -+* regad -> register address -+* value -> value to be write -+***************************************** */ -+void mii_write(unsigned char phyad,unsigned char regad,unsigned int value) -+{ -+ unsigned int i; -+ char bit; -+ -+printk("%s: phy_addr=%x reg_addr=%x value=%x \n",__func__,phyad,regad,value); -+ if (phyad == GPHY_ADDR) -+ { -+ GPIO_MDC_PIN = G_MDC_PIN; /* assigned MDC pin for giga PHY */ -+ GPIO_MDIO_PIN = G_MDIO_PIN; /* assigned MDIO pin for giga PHY */ -+ } -+ else -+ { -+ GPIO_MDC_PIN = H_MDC_PIN; /* assigned MDC pin for 10/100 PHY */ -+ GPIO_MDIO_PIN = H_MDIO_PIN; /* assigned MDIO pin for 10/100 PHY */ -+ } -+ GPIO_MDC = (1<<GPIO_MDC_PIN); -+ GPIO_MDIO = (1<<GPIO_MDIO_PIN); -+ -+ mii_pre_st(); // PRE+ST -+ mii_serial_write(0); // OP -+ mii_serial_write(1); -+ for (i=0;i<5;i++) { // PHYAD -+ bit= ((phyad>>(4-i)) & 0x01) ? 1 :0 ; -+ mii_serial_write(bit); -+ } -+ -+ for (i=0;i<5;i++) { // REGAD -+ bit= ((regad>>(4-i)) & 0x01) ? 1 :0 ; -+ mii_serial_write(bit); -+ } -+ mii_serial_write(1); // TA_1 -+ mii_serial_write(0); // TA_0 -+ -+ for (i=0;i<16;i++) { // OUT DATA -+ bit= ((value>>(15-i)) & 0x01) ? 1 : 0 ; -+ mii_serial_write(bit); -+ } -+ mii_serial_write(0); // dumy clock -+ mii_serial_write(0); // dumy clock -+} -+ -+ -+ -+ -+ -+ -+ -+ -+ -+/* NOTES -+ * The instruction set of the 93C66/56/46/26/06 chips are as follows: -+ * -+ * Start OP * -+ * Function Bit Code Address** Data Description -+ * ------------------------------------------------------------------- -+ * READ 1 10 A7 - A0 Reads data stored in memory, -+ * starting at specified address -+ * EWEN 1 00 11XXXXXX Write enable must precede -+ * all programming modes -+ * ERASE 1 11 A7 - A0 Erase register A7A6A5A4A3A2A1A0 -+ * WRITE 1 01 A7 - A0 D15 - D0 Writes register -+ * ERAL 1 00 10XXXXXX Erase all registers -+ * WRAL 1 00 01XXXXXX D15 - D0 Writes to all registers -+ * EWDS 1 00 00XXXXXX Disables all programming -+ * instructions -+ * *Note: A value of X for address is a don't care condition. -+ * **Note: There are 8 address bits for the 93C56/66 chips unlike -+ * the 93C46/26/06 chips which have 6 address bits. -+ * -+ * The 93Cx6 has a four wire interface: clock, chip select, data in, and -+ * data out.While the ADM6996 uning three interface: clock, chip select,and data line. -+ * The input and output are the same pin. ADM6996 can only recognize the write cmd. -+ * In order to perform above functions, you need -+ * 1. to enable the chip select . -+ * 2. send one clock of dummy clock -+ * 3. send start bit and opcode -+ * 4. send 8 bits address and 16 bits data -+ * 5. to disable the chip select. -+ * Jason Lee 2003/07/30 -+ */ -+ -+/***************************************/ -+/* define GPIO module base address */ -+/***************************************/ -+#define GPIO_EECS 0x00400000 /* EECS: GPIO[22] */ -+//#define GPIO_MOSI 0x20000000 /* EEDO: GPIO[29] send to 6996*/ -+#define GPIO_MISO 0x40000000 /* EEDI: GPIO[30] receive from 6996*/ -+#define GPIO_EECK 0x80000000 /* EECK: GPIO[31] */ -+ -+#define ADM_EECS 0x01 -+#define ADM_EECK 0x02 -+#define ADM_EDIO 0x04 -+/************************************************************* -+* SPI protocol for ADM6996 control -+**************************************************************/ -+#define SPI_OP_LEN 0x03 // the length of start bit and opcode -+#define SPI_OPWRITE 0X05 // write -+#define SPI_OPREAD 0X06 // read -+#define SPI_OPERASE 0X07 // erase -+#define SPI_OPWTEN 0X04 // write enable -+#define SPI_OPWTDIS 0X04 // write disable -+#define SPI_OPERSALL 0X04 // erase all -+#define SPI_OPWTALL 0X04 // write all -+ -+#define SPI_ADD_LEN 8 // bits of Address -+#define SPI_DAT_LEN 16 // bits of Data -+#define ADM6996_PORT_NO 6 // the port number of ADM6996 -+#define ADM6999_PORT_NO 9 // the port number of ADM6999 -+#ifdef CONFIG_ADM_6996 -+ #define ADM699X_PORT_NO ADM6996_PORT_NO -+#endif -+#ifdef CONFIG_ADM_6999 -+ #define ADM699X_PORT_NO ADM6999_PORT_NO -+#endif -+#define LPC_GPIO_SET 3 -+#define LPC_BASE_ADDR IO_ADDRESS(IT8712_IO_BASE) -+ -+extern int it8712_exist; -+ -+#define inb_gpio(x) inb(LPC_BASE_ADDR + IT8712_GPIO_BASE + x) -+#define outb_gpio(x, y) outb(y, LPC_BASE_ADDR + IT8712_GPIO_BASE + x) -+ -+/****************************************/ -+/* Function Declare */ -+/****************************************/ -+/* -+void SPI_write(unsigned char addr,unsigned int value); -+unsigned int SPI_read(unsigned char table,unsigned char addr); -+void SPI_write_bit(char bit_EEDO); -+unsigned int SPI_read_bit(void); -+void SPI_default(void); -+void SPI_reset(unsigned char rstype,unsigned char port_cnt); -+void SPI_pre_st(void); -+void SPI_CS_enable(unsigned char enable); -+void SPI_Set_VLAN(unsigned char LAN,unsigned int port_mask); -+void SPI_Set_tag(unsigned int port,unsigned tag); -+void SPI_Set_PVID(unsigned int PVID,unsigned int port_mask); -+void SPI_mac_lock(unsigned int port, unsigned char lock); -+void SPI_get_port_state(unsigned int port); -+void SPI_port_enable(unsigned int port,unsigned char enable); -+ -+void SPI_get_status(unsigned int port); -+*/ -+ -+struct PORT_CONFIG -+{ -+ unsigned char auto_negotiation; // 0:Disable 1:Enable -+ unsigned char speed; // 0:10M 1:100M -+ unsigned char duplex; // 0:Half 1:Full duplex -+ unsigned char Tag; // 0:Untag 1:Tag -+ unsigned char port_disable; // 0:port enable 1:disable -+ unsigned char pvid; // port VLAN ID 0001 -+ unsigned char mdix; // Crossover judgement. 0:Disable 1:Enable -+ unsigned char mac_lock; // MAC address Lock 0:Disable 1:Enable -+}; -+ -+struct PORT_STATUS -+{ -+ unsigned char link; // 0:not link 1:link established -+ unsigned char speed; // 0:10M 1:100M -+ unsigned char duplex; // 0:Half 1:Full duplex -+ unsigned char flow_ctl; // 0:flow control disable 1:enable -+ unsigned char mac_lock; // MAC address Lock 0:Disable 1:Enable -+ unsigned char port_disable; // 0:port enable 1:disable -+ -+ // Serial Management -+ unsigned long rx_pac_count; //receive packet count -+ unsigned long rx_pac_byte; //receive packet byte count -+ unsigned long tx_pac_count; //transmit packet count -+ unsigned long tx_pac_byte; //transmit packet byte count -+ unsigned long collision_count; //error count -+ unsigned long error_count ; -+ -+ unsigned long rx_pac_count_overflow; //overflow flag -+ unsigned long rx_pac_byte_overflow; -+ unsigned long tx_pac_count_overflow; -+ unsigned long tx_pac_byte_overflow; -+ unsigned long collision_count_overflow; -+ unsigned long error_count_overflow; -+}; -+ -+struct PORT_CONFIG port_config[ADM699X_PORT_NO]; // 0~3:LAN , 4:WAN , 5:MII -+static struct PORT_STATUS port_state[ADM699X_PORT_NO]; -+ -+/****************************************** -+* SPI_write -+* addr -> Write Address -+* value -> value to be write -+***************************************** */ -+void SPI_write(unsigned char addr,unsigned int value) -+{ -+ int i; -+ char bit; -+#ifdef CONFIG_IT8712_GPIO -+ char status; -+#else -+ int ad1; -+#endif -+ -+#ifdef CONFIG_IT8712_GPIO -+ status = inb_gpio(LPC_GPIO_SET); -+ status &= ~(ADM_EDIO) ; //EDIO low -+ outb_gpio(LPC_GPIO_SET, status); -+#else -+ ad1 = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MISO,ad1); /* set MISO to 0 */ -+#endif -+ SPI_CS_enable(1); -+ -+ SPI_write_bit(0); //dummy clock -+ -+ //send write command (0x05) -+ for(i=SPI_OP_LEN-1;i>=0;i--) -+ { -+ bit = (SPI_OPWRITE>>i)& 0x01; -+ SPI_write_bit(bit); -+ } -+ // send 8 bits address (MSB first, LSB last) -+ for(i=SPI_ADD_LEN-1;i>=0;i--) -+ { -+ bit = (addr>>i)& 0x01; -+ SPI_write_bit(bit); -+ } -+ // send 16 bits data (MSB first, LSB last) -+ for(i=SPI_DAT_LEN-1;i>=0;i--) -+ { -+ bit = (value>>i)& 0x01; -+ SPI_write_bit(bit); -+ } -+ -+ SPI_CS_enable(0); // CS low -+ -+ for(i=0;i<0xFFF;i++) ; -+#ifdef CONFIG_IT8712_GPIO -+ status = inb_gpio(LPC_GPIO_SET); -+ status &= ~(ADM_EDIO) ; //EDIO low -+ outb_gpio(LPC_GPIO_SET, status); -+#else -+ ad1 = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MISO,ad1); /* set MISO to 0 */ -+#endif -+} -+ -+ -+/************************************ -+* SPI_write_bit -+* bit_EEDO -> 1 or 0 to be written -+************************************/ -+void SPI_write_bit(char bit_EEDO) -+{ -+#ifdef CONFIG_IT8712_GPIO -+ unsigned char iomode,status; -+ -+ iomode = LPCGetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET); -+ iomode |= (ADM_EECK|ADM_EDIO|ADM_EECS) ; // Set EECK,EDIO,EECS output -+ LPCSetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET, iomode); -+ -+ if(bit_EEDO) -+ { -+ status = inb_gpio( LPC_GPIO_SET); -+ status |= ADM_EDIO ; //EDIO high -+ outb_gpio(LPC_GPIO_SET, status); -+ } -+ else -+ { -+ status = inb_gpio( LPC_GPIO_SET); -+ status &= ~(ADM_EDIO) ; //EDIO low -+ outb_gpio(LPC_GPIO_SET, status); -+ } -+ -+ status |= ADM_EECK ; //EECK high -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ status &= ~(ADM_EECK) ; //EECK low -+ outb_gpio(LPC_GPIO_SET, status); -+ -+#else -+ unsigned int addr; -+ unsigned int value; -+ -+ addr = (GPIO_BASE_ADDR + GPIO_PIN_DIR); -+ value = readl(addr) |GPIO_EECK |GPIO_MISO ; /* set EECK/MISO Pin to output */ -+ writel(value,addr); -+ if(bit_EEDO) -+ { -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_MISO,addr); /* set MISO to 1 */ -+ writel(GPIO_EECK,addr); /* set EECK to 1 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_EECK,addr); /* set EECK to 0 */ -+ } -+ else -+ { -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MISO,addr); /* set MISO to 0 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_EECK,addr); /* set EECK to 1 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_EECK,addr); /* set EECK to 0 */ -+ } -+ -+ return ; -+#endif -+} -+ -+/********************************************************************** -+* read a bit from ADM6996 register -+***********************************************************************/ -+unsigned int SPI_read_bit(void) // read data from -+{ -+#ifdef CONFIG_IT8712_GPIO -+ unsigned char iomode,status; -+ unsigned int value ; -+ -+ iomode = LPCGetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET); -+ iomode &= ~(ADM_EDIO) ; // Set EDIO input -+ iomode |= (ADM_EECS|ADM_EECK) ; // Set EECK,EECS output -+ LPCSetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET, iomode); -+ -+ status = inb_gpio( LPC_GPIO_SET); -+ status |= ADM_EECK ; //EECK high -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ status &= ~(ADM_EECK) ; //EECK low -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ value = inb_gpio( LPC_GPIO_SET); -+ -+ value = value>>2 ; -+ value &= 0x01; -+ -+ return value ; -+#else -+ unsigned int addr; -+ unsigned int value; -+ -+ addr = (GPIO_BASE_ADDR + GPIO_PIN_DIR); -+ value = readl(addr) & (~GPIO_MISO); // set EECK to output and MISO to input -+ writel(value,addr); -+ -+ addr =(GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_EECK,addr); // set EECK to 1 -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_EECK,addr); // set EECK to 0 -+ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_IN); -+ value = readl(addr) ; -+ value = value >> 30; -+ return value ; -+#endif -+} -+ -+/****************************************** -+* SPI_default -+* EEPROM content default value -+*******************************************/ -+void SPI_default(void) -+{ -+ int i; -+#ifdef CONFIG_ADM_6999 -+ SPI_write(0x11,0xFF30); -+ for(i=1;i<8;i++) -+ SPI_write(i,0x840F); -+ -+ SPI_write(0x08,0x880F); //port 8 Untag, PVID=2 -+ SPI_write(0x09,0x881D); //port 9 Tag, PVID=2 ,10M -+ SPI_write(0x14,0x017F); //Group 0~6,8 as VLAN 1 -+ SPI_write(0x15,0x0180); //Group 7,8 as VLAN 2 -+#endif -+ -+#ifdef CONFIG_ADM_6996 -+ SPI_write(0x11,0xFF30); -+ SPI_write(0x01,0x840F); //port 0~3 Untag ,PVID=1 ,100M ,duplex -+ SPI_write(0x03,0x840F); -+ SPI_write(0x05,0x840F); -+ SPI_write(0x07,0x840F); -+ SPI_write(0x08,0x880F); //port 4 Untag, PVID=2 -+ SPI_write(0x09,0x881D); //port 5 Tag, PVID=2 ,10M -+ SPI_write(0x14,0x0155); //Group 0~3,5 as VLAN 1 -+ SPI_write(0x15,0x0180); //Group 4,5 as VLAN 2 -+ -+#endif -+ -+ for(i=0x16;i<=0x22;i++) -+ SPI_write((unsigned char)i,0x0000); // clean VLAN¡@map 3~15 -+ -+ for (i=0;i<NUM_VLAN_IF;i++) // Set VLAN ID map 1,2 -+ SPI_Set_PVID( VLAN_conf[i].vid, VLAN_conf[i].portmap); -+ -+ for(i=0;i<ADM699X_PORT_NO;i++) // reset count -+ SPI_reset(0,i); -+} -+ -+/************************************************* -+* SPI_reset -+* rstype -> reset type -+* 0:reset all count for 'port_cnt' port -+* 1:reset specified count 'port_cnt' -+* port_cnt -> port number or counter index -+***************************************************/ -+void SPI_reset(unsigned char rstype,unsigned char port_cnt) -+{ -+ -+ int i; -+#ifdef CONFIG_IT8712_GPIO -+ char status; -+#else -+ int ad1; -+#endif -+ char bit; -+ -+#ifdef CONFIG_IT8712_GPIO -+ status = inb_gpio(LPC_GPIO_SET); -+ status &= ~(ADM_EDIO) ; //EDIO low -+ outb_gpio(LPC_GPIO_SET, status); -+#else -+ ad1 = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MISO,ad1); /* set MISO to 0 */ -+#endif -+ -+ SPI_CS_enable(0); // CS low -+ -+ SPI_pre_st(); // PRE+ST -+ SPI_write_bit(0); // OP -+ SPI_write_bit(1); -+ -+ SPI_write_bit(1); // Table select, must be 1 -> reset Counter -+ -+ SPI_write_bit(0); // Device Address -+ SPI_write_bit(0); -+ -+ rstype &= 0x01; -+ SPI_write_bit(rstype); // Reset type 0:clear dedicate port's all counters 1:clear dedicate counter -+ -+ for (i=5;i>=0;i--) // port or cnt index -+ { -+ bit = port_cnt >> i ; -+ bit &= 0x01 ; -+ SPI_write_bit(bit); -+ } -+ -+ SPI_write_bit(0); // dumy clock -+ SPI_write_bit(0); // dumy clock -+ -+#ifdef CONFIG_IT8712_GPIO -+ status = inb_gpio(LPC_GPIO_SET); -+ status &= ~(ADM_EDIO) ; //EDIO low -+ outb_gpio(LPC_GPIO_SET, status); -+#else -+ ad1 = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MISO,ad1); /* set MISO to 0 */ -+#endif -+} -+ -+/***************************************************** -+* SPI_pre_st -+* preambler: 32 bits '1' start bit: '01' -+*****************************************************/ -+void SPI_pre_st(void) -+{ -+ int i; -+ -+ for(i=0;i<32;i++) // PREAMBLE -+ SPI_write_bit(1); -+ SPI_write_bit(0); // ST -+ SPI_write_bit(1); -+} -+ -+ -+/*********************************************************** -+* SPI_CS_enable -+* before access ,you have to enable Chip Select. (pull high) -+* When fisish, you should pull low !! -+*************************************************************/ -+void SPI_CS_enable(unsigned char enable) -+{ -+#ifdef CONFIG_IT8712_GPIO -+ -+ unsigned char iomode,status; -+ -+ iomode = LPCGetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET); -+ iomode |= (ADM_EECK|ADM_EDIO|ADM_EECS) ; // Set EECK,EDIO,EECS output -+ LPCSetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET, iomode); -+ -+ -+ status = inb_gpio( LPC_GPIO_SET); -+ if(enable) -+ status |= ADM_EECS ; //EECS high -+ else -+ status &= ~(ADM_EECS) ; //EECS low -+ -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ -+ status |= ADM_EECK ; //EECK high -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ status &= ~(ADM_EECK) ; //EECK low -+ outb_gpio(LPC_GPIO_SET, status); -+ -+#else -+ unsigned int addr,value; -+ -+ addr = (GPIO_BASE_ADDR + GPIO_PIN_DIR); -+ value = readl(addr) |GPIO_EECS |GPIO_EECK; /* set EECS/EECK Pin to output */ -+ writel(value,addr); -+ -+ if(enable) -+ { -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_EECS,addr); /* set EECS to 1 */ -+ -+ } -+ else -+ { -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_EECS,addr); /* set EECS to 0 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_EECK,addr); /* set EECK to 1 */ // at least one clock after CS low -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_EECK,addr); /* set EECK to 0 */ -+ } -+#endif -+} -+ -+/********************************************************* -+* SPI_Set_VLAN: group ports as VLAN -+* LAN -> VLAN number : 0~16 -+* port_mask -> ports which would group as LAN -+* ex. 0x03 = 0000 0011 -+* port 0 and port 1 -+*********************************************************/ -+void SPI_Set_VLAN(unsigned char LAN,unsigned int port_mask) -+{ -+ unsigned int i,value=0; -+ unsigned reg_add = 0x13 + LAN ; -+ -+ for(i=0;i<ADM6996_PORT_NO;i++) -+ { if(port_mask&0x01) -+ { -+ switch(i) -+ { -+ case 0: value|=0x0001; break; //port0:bit[0] -+ case 1: value|=0x0004; break; //port1:bit[2] -+ case 2: value|=0x0010; break; //port2:bit[4] -+ case 3: value|=0x0040; break; //port3:bit[6] -+ case 4: value|=0x0080; break; //port4:bit[7] -+ case 5: value|=0x0100; break; //port5:bit[8] -+ } -+ } -+ port_mask >>= 1; -+ } -+ -+ SPI_write(reg_add,value); -+} -+ -+ -+/******************************************* -+* SPI_Set_tag -+* port -> port number to set tag or untag -+* tag -> 0/set untag, 1/set tag -+* In general, tag is for MII port. LAN and -+* WAN port is configed as untag!! -+********************************************/ -+void SPI_Set_tag(unsigned int port,unsigned tag) -+{ -+ unsigned int regadd,value; -+ -+ // mapping port's register !! (0,1,2,3,4,5) ==> (1,3,5,7,8,9) -+ if(port<=3) -+ regadd=2*port+1; -+ else if(port==4) regadd = 8 ; -+ else regadd = 9 ; -+ -+ -+ value = SPI_read(0,regadd); //read original setting -+ -+ if(tag) -+ value |= 0x0010 ; // set tag -+ else -+ value &= 0xFFEF ; // set untag -+ -+ SPI_write(regadd,value); // write back!! -+} -+ -+/************************************************ -+* SPI_Set_PVID -+* PVID -> PVID number : -+* port_mask -> ports which would group as LAN -+* ex. 0x0F = 0000 1111 ==> port 0~3 -+************************************************/ -+void SPI_Set_PVID(unsigned int PVID,unsigned int port_mask) -+{ -+ unsigned int i,value=0; -+ -+ PVID &= 0x000F ; -+ -+ for(i=0;i<ADM699X_PORT_NO;i++) -+ { if(port_mask&0x01) -+ { -+#ifdef CONFIG_ADM_6996 -+ switch(i) -+ { -+ case 0: -+ value = SPI_read(0,0x01); // read original value -+ value &= 0xC3FF ; //set PVIC column as 0 first -+ value |= PVID << 10 ; //Set PVID column as PVID -+ SPI_write(0x01,value); //write back -+ break; -+ case 1: -+ value = SPI_read(0,0x03); -+ value &= 0xC3FF ; -+ value |= PVID << 10 ; -+ SPI_write(0x03,value); -+ break; -+ case 2: -+ value = SPI_read(0,0x05); -+ value &= 0xC3FF ; -+ value |= PVID << 10 ; -+ SPI_write(0x05,value); -+ break; -+ case 3: -+ value = SPI_read(0,0x07); -+ value &= 0xC3FF ; -+ value |= PVID << 10 ; -+ SPI_write(0x07,value); -+ break; -+ case 4: -+ value = SPI_read(0,0x08); -+ value &= 0xC3FF ; -+ value |= PVID << 10 ; -+ SPI_write(0x08,value); -+ break; -+ case 5: -+ value = SPI_read(0,0x09); -+ value &= 0xC3FF ; -+ value |= PVID << 10 ; -+ SPI_write(0x09,value); -+ break; -+ } -+#endif -+#ifdef CONFIG_ADM_6999 -+ value = SPI_read(0,(unsigned char)i+1); -+ value &= 0xC3FF ; -+ value |= PVID << 10 ; -+ SPI_write((unsigned char)i+1,value); -+#endif -+ } -+ port_mask >>= 1; -+ } -+} -+ -+ -+/************************************************ -+* SPI_get_PVID -+* port -> which ports to VID -+************************************************/ -+unsigned int SPI_Get_PVID(unsigned int port) -+{ -+ unsigned int value=0; -+ -+ if (port>=ADM6996_PORT_NO) -+ return 0; -+ -+ switch(port) -+ { -+ case 0: -+ value = SPI_read(0,0x01); // read original value -+ value &= 0x3C00 ; // get VID -+ value = value >> 10 ; // Shift -+ break; -+ case 1: -+ value = SPI_read(0,0x03); -+ value &= 0x3C00 ; -+ value = value >> 10 ; -+ break; -+ case 2: -+ value = SPI_read(0,0x05); -+ value &= 0x3C00 ; -+ value = value >> 10 ; -+ break; -+ case 3: -+ value = SPI_read(0,0x07); -+ value &= 0x3C00 ; -+ value = value >> 10 ; -+ break; -+ case 4: -+ value = SPI_read(0,0x08); -+ value &= 0x3C00 ; -+ value = value >> 10 ; -+ break; -+ case 5: -+ value = SPI_read(0,0x09); -+ value &= 0x3C00 ; -+ value = value >> 10 ; -+ break; -+ } -+ return value ; -+} -+ -+ -+/********************************************** -+* SPI_mac_clone -+* port -> the port which will lock or unlock -+* lock -> 0/the port will be unlock -+* 1/the port will be locked -+**********************************************/ -+void SPI_mac_lock(unsigned int port, unsigned char lock) -+{ -+ unsigned int i,value=0; -+ -+ value = SPI_read(0,0x12); // read original -+ -+ for(i=0;i<ADM6996_PORT_NO;i++) -+ { if(lock) // lock port -+ { -+ switch(port) -+ { -+ case 0: value|=0x0001; break; //port0:bit[0] -+ case 1: value|=0x0004; break; //port1:bit[2] -+ case 2: value|=0x0010; break; //port2:bit[4] -+ case 3: value|=0x0040; break; //port3:bit[6] -+ case 4: value|=0x0080; break; //port4:bit[7] -+ case 5: value|=0x0100; break; //port5:bit[8] -+ } -+ } -+ else -+ { -+ switch(i) // unlock port -+ { -+ case 0: value&=0xFFFE; break; -+ case 1: value&=0xFFFB; break; -+ case 2: value&=0xFFEF; break; -+ case 3: value&=0xFFBF; break; -+ case 4: value&=0xFF7F; break; -+ case 5: value&=0xFEFF; break; -+ } -+ } -+ } -+ -+ SPI_write(0x12,value); -+} -+ -+ -+/*************************************************** -+* SPI_learn_pause -+* pause = 01-80-c2-00-00-01 -+* DA=distination address -+* forward -> 0: if DA == pause then drop and stop mac learning -+* 1: if DA == pause ,then forward it -+***************************************************/ -+void SPI_pause_cmd_forward(unsigned char forward) -+{ -+ unsigned int value=0; -+ -+ value = SPI_read(0,0x2C); // read original setting -+ if(forward) -+ value |= 0x2000; // set bit[13] '1' -+ else -+ value &= 0xDFFF; // set bit[13] '0' -+ -+ SPI_write(0x2C,value); -+ -+} -+ -+ -+/************************************************ -+* SPI_read -+* table -> which table to be read: 1/count 0/EEPROM -+* addr -> Address to be read -+* return : Value of the register -+*************************************************/ -+unsigned int SPI_read(unsigned char table,unsigned char addr) -+{ -+ int i ; -+ unsigned int value=0; -+ unsigned int bit; -+#ifdef CONFIG_IT8712_GPIO -+ unsigned char status; -+#else -+ unsigned int ad1; -+#endif -+ -+#ifdef CONFIG_IT8712_GPIO -+ status = inb_gpio(LPC_GPIO_SET); -+ status &= ~(ADM_EDIO) ; //EDIO low -+ outb_gpio(LPC_GPIO_SET, status); -+#else -+ ad1 = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MISO,ad1); /* set MISO to 0 */ -+#endif -+ -+ SPI_CS_enable(0); -+ -+ SPI_pre_st(); // PRE+ST -+ SPI_write_bit(1); // OPCODE '10' for read -+ SPI_write_bit(0); -+ -+ (table==1) ? SPI_write_bit(1) : SPI_write_bit(0) ; // table select -+ -+ SPI_write_bit(0); // Device Address -+ SPI_write_bit(0); -+ -+ -+ // send 7 bits address to be read -+ for (i=6;i>=0;i--) { -+ bit= ((addr>>i) & 0x01) ? 1 :0 ; -+ SPI_write_bit(bit); -+ } -+ -+ -+ // turn around -+ SPI_read_bit(); // TA_Z -+ -+ value=0; -+ for (i=31;i>=0;i--) { // READ DATA -+ bit=SPI_read_bit(); -+ value |= bit << i ; -+ } -+ -+ SPI_read_bit(); // dumy clock -+ SPI_read_bit(); // dumy clock -+ -+ if(!table) // EEPROM, only fetch 16 bits data -+ { -+ if(addr&0x01) // odd number content (register,register-1) -+ value >>= 16 ; // so we remove the rear 16bits -+ else // even number content (register+1,register), -+ value &= 0x0000FFFF ; // so we keep the rear 16 bits -+ } -+ -+ -+ SPI_CS_enable(0); -+ -+#ifdef CONFIG_IT8712_GPIO -+ status = inb_gpio(LPC_GPIO_SET); -+ status &= ~(ADM_EDIO) ; //EDIO low -+ outb_gpio(LPC_GPIO_SET, status); -+#else -+ ad1 = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MISO,ad1); /* set MISO to 0 */ -+#endif -+ -+ return(value); -+ -+} -+ -+ -+ -+/************************************************** -+* SPI_port_en -+* port -> Number of port to config -+* enable -> 1/ enable this port -+* 0/ disable this port -+**************************************************/ -+void SPI_port_enable(unsigned int port,unsigned char enable) -+{ -+ unsigned int reg_val ; -+ unsigned char reg_add ; -+ -+ if(port<=3) -+ reg_add=2*port+1; -+ else if(port==4) reg_add = 8 ; -+ else reg_add = 9 ; -+ -+ reg_val = SPI_read(0,reg_add); -+ if(enable) -+ { -+ reg_val &= 0xFFDF ; -+ SPI_write(reg_add,reg_val); -+ } -+ else -+ { -+ reg_val |= 0x0020 ; -+ SPI_write(reg_add,reg_val); -+ } -+} -+ -+/******************************************************** -+* get port status -+* port -> specify the port number to get configuration -+*********************************************************/ -+void SPI_get_status(unsigned int port) -+{ -+/* unsigned int reg_val,add_offset[6]; -+ struct PORT_STATUS *status; -+ status = &port_state[port]; -+ -+ if(port>(ADM6996_PORT_NO-1)) -+ return ; -+ -+ // Link estabilish , speed, deplex, flow control ? -+ if(port < 5 ) -+ { -+ reg_val = SPI_read(1, 1) ; -+ if(port < 4) -+ reg_val >>= port*8 ; -+ else -+ reg_val >>=28 ; -+ status->link = reg_val & 0x00000001 ; -+ status->speed = reg_val & 0x00000002 ; -+ status->duplex = reg_val & 0x00000004 ; -+ status->flow_ctl = reg_val & 0x00000008 ; -+ } -+ else if(port ==5 ) -+ { -+ reg_val = SPI_read(1, 2) ; -+ status->link = reg_val & 0x00000001 ; -+ status->speed = reg_val & 0x00000002 ; -+ status->duplex = reg_val & 0x00000008 ; -+ status->flow_ctl = reg_val & 0x00000010 ; -+ } -+ -+ // Mac Lock ? -+ reg_val = SPI_read(0,0x12); -+ switch(port) -+ { -+ case 0: status->mac_lock = reg_val & 0x00000001; -+ case 1: status->mac_lock = reg_val & 0x00000004; -+ case 2: status->mac_lock = reg_val & 0x00000010; -+ case 3: status->mac_lock = reg_val & 0x00000040; -+ case 4: status->mac_lock = reg_val & 0x00000080; -+ case 5: status->mac_lock = reg_val & 0x00000100; -+ } -+ -+ // port enable ? -+ add_offset[0] = 0x01 ; add_offset[1] = 0x03 ; -+ add_offset[2] = 0x05 ; add_offset[3] = 0x07 ; -+ add_offset[4] = 0x08 ; add_offset[5] = 0x09 ; -+ reg_val = SPI_read(0,add_offset[port]); -+ status->port_disable = reg_val & 0x0020; -+ -+ -+ // Packet Count ... -+ add_offset[0] = 0x04 ; add_offset[1] = 0x06 ; -+ add_offset[2] = 0x08 ; add_offset[3] = 0x0a ; -+ add_offset[4] = 0x0b ; add_offset[5] = 0x0c ; -+ -+ reg_val = SPI_read(1,add_offset[port]); -+ status->rx_pac_count = reg_val ; -+ reg_val = SPI_read(1,add_offset[port]+9); -+ status->rx_pac_byte = reg_val ; -+ reg_val = SPI_read(1,add_offset[port]+18); -+ status->tx_pac_count = reg_val ; -+ reg_val = SPI_read(1,add_offset[port]+27); -+ status->tx_pac_byte = reg_val ; -+ reg_val = SPI_read(1,add_offset[port]+36); -+ status->collision_count = reg_val ; -+ reg_val = SPI_read(1,add_offset[port]+45); -+ status->error_count = reg_val ; -+ reg_val = SPI_read(1, 0x3A); -+ switch(port) -+ { -+ case 0: status->rx_pac_count_overflow = reg_val & 0x00000001; -+ status->rx_pac_byte_overflow = reg_val & 0x00000200 ; -+ case 1: status->rx_pac_count_overflow = reg_val & 0x00000004; -+ status->rx_pac_byte_overflow = reg_val & 0x00000800 ; -+ case 2: status->rx_pac_count_overflow = reg_val & 0x00000010; -+ status->rx_pac_byte_overflow = reg_val & 0x00002000 ; -+ case 3: status->rx_pac_count_overflow = reg_val & 0x00000040;; -+ status->rx_pac_byte_overflow = reg_val & 0x00008000 ; -+ case 4: status->rx_pac_count_overflow = reg_val & 0x00000080; -+ status->rx_pac_byte_overflow = reg_val & 0x00010000 ; -+ case 5: status->rx_pac_count_overflow = reg_val & 0x00000100; -+ status->rx_pac_byte_overflow = reg_val & 0x00020000 ; -+ } -+ -+ reg_val = SPI_read(1, 0x3B); -+ switch(port) -+ { -+ case 0: status->tx_pac_count_overflow = reg_val & 0x00000001; -+ status->tx_pac_byte_overflow = reg_val & 0x00000200 ; -+ case 1: status->tx_pac_count_overflow = reg_val & 0x00000004; -+ status->tx_pac_byte_overflow = reg_val & 0x00000800 ; -+ case 2: status->tx_pac_count_overflow = reg_val & 0x00000010; -+ status->tx_pac_byte_overflow = reg_val & 0x00002000 ; -+ case 3: status->tx_pac_count_overflow = reg_val & 0x00000040;; -+ status->tx_pac_byte_overflow = reg_val & 0x00008000 ; -+ case 4: status->tx_pac_count_overflow = reg_val & 0x00000080; -+ status->tx_pac_byte_overflow = reg_val & 0x00010000 ; -+ case 5: status->tx_pac_count_overflow = reg_val & 0x00000100; -+ status->tx_pac_byte_overflow = reg_val & 0x00020000 ; -+ } -+*/ -+ -+ unsigned int reg_val; -+ struct PORT_STATUS *status; -+ status = &port_state[port]; -+ -+ if(port>=ADM6999_PORT_NO) -+ return ; -+ -+ // Link estabilish , speed, deplex, flow control ? -+ if(port < ADM6999_PORT_NO-1 ) -+ { -+ reg_val = SPI_read(1, 0x01) ; -+ reg_val = reg_val >> port*4 ; -+ status->link = reg_val & 0x00000001 ; -+ status->speed = reg_val & 0x00000002 ; -+ status->duplex = reg_val & 0x00000004 ; -+ status->flow_ctl = reg_val & 0x00000008 ; -+ } -+ else if(port == (ADM6999_PORT_NO-1) ) -+ { -+ reg_val = SPI_read(1, 0x02) ; -+ status->link = reg_val & 0x00000001 ; -+ status->speed = reg_val & 0x00000002 ; -+ status->duplex = reg_val & 0x00000008 ; -+ status->flow_ctl = reg_val & 0x00000010 ; -+ } -+ -+ // Mac Lock ? -+ reg_val = SPI_read(0,0x12); -+ reg_val = reg_val >> port ; -+ reg_val = reg_val & 0x01 ; -+ status->mac_lock = reg_val ? 0x01:0x00 ; -+ -+ // port enable ? -+ reg_val = SPI_read(0,(unsigned char)port+1); -+ status->port_disable = reg_val & 0x0020; -+ -+ // Packet Count ... -+ reg_val = SPI_read(1,(unsigned char)port+0x04); -+ status->rx_pac_count = reg_val ; -+ reg_val = SPI_read(1,(unsigned char)port+0x0D); -+ status->rx_pac_byte = reg_val ; -+ reg_val = SPI_read(1,(unsigned char)port+0x16); -+ status->tx_pac_count = reg_val ; -+ reg_val = SPI_read(1,(unsigned char)port+0x1F); -+ status->tx_pac_byte = reg_val ; -+ reg_val = SPI_read(1,(unsigned char)port+0x28); -+ status->collision_count = reg_val ; -+ reg_val = SPI_read(1,(unsigned char)port+0x31); -+ status->error_count = reg_val ; -+ reg_val = SPI_read(1, 0x3A); -+ reg_val = reg_val >> port ; -+ status->rx_pac_count_overflow = reg_val & 0x00000001; -+ reg_val = reg_val >> 0x09 ; -+ status->rx_pac_byte_overflow = reg_val & 0x00000001 ; -+ -+ reg_val = SPI_read(1, 0x3B); -+ reg_val = reg_val >> port ; -+ status->tx_pac_count_overflow = reg_val & 0x00000001; -+ reg_val = reg_val >> 0x09 ; -+ status->tx_pac_byte_overflow = reg_val & 0x00000001 ; -+ -+ reg_val = SPI_read(1, 0x3C); -+ reg_val = reg_val >> port ; -+ status->collision_count_overflow = reg_val & 0x00000001; -+ reg_val = reg_val >> 0x09 ; -+ status->error_count_overflow = reg_val & 0x00000001 ; -+ -+} -+ -+unsigned int SPI_get_identifier(void) -+{ -+ unsigned int flag=0; -+ -+#ifdef CONFIG_IT8712_GPIO -+ -+ if (!it8712_exist) { -+ return -ENODEV; -+ } -+ printk("it8712_gpio init\n"); -+ -+ /* initialize registers */ -+ // switch all multi-function pins to GPIO -+ LPCSetConfig(LDN_GPIO, 0x28, 0xff); -+ -+ // set simple I/O base address -+ LPCSetConfig(LDN_GPIO, 0x62, IT8712_GPIO_BASE >> 8); -+ LPCSetConfig(LDN_GPIO, 0x63, (unsigned char) IT8712_GPIO_BASE >> 8); -+ -+ // select GPIO to simple I/O -+ LPCSetConfig(LDN_GPIO, 0xc3, 0xff); -+ -+ // enable internal pull-up -+ LPCSetConfig(LDN_GPIO, 0xbb, 0xff); -+ -+#endif -+ -+ flag = SPI_read(1,0x00); -+ printk("Get ADM identifier %6x\n",flag); -+ if ((flag & 0xFFFF0) == 0x21120) { -+ printk("ADM699X Found\n"); -+ return 1; -+ } -+ else { -+ printk("ADM699X not Found\n"); -+ return 0; -+ } -+} -+ ---- /dev/null -+++ b/drivers/net/sl351x_crc16.c -@@ -0,0 +1,93 @@ -+/**************************************************************************** -+* Name : sl351x_crc16.c -+* Description : -+* Implement CRC16 -+* refer to RFC1662 -+* History -+* -+* Date Writer Description -+* ----------- ----------- ------------------------------------------------- -+* 09/14/2005 Gary Chen Create -+* -+****************************************************************************/ -+ -+#define INITFCS16 0xffff /* Initial FCS value */ -+#define GOODFCS16 0xf0b8 /* Good final FCS value */ -+#define SWAP_WORD(x) (unsigned short)((((unsigned short)x & 0x00FF) << 8) | \ -+ (((unsigned short)x & 0xFF00) >> 8)) -+ -+/*---------------------------------------------------------------------- -+* x**0 + x**5 + x**12 + x**16 -+*----------------------------------------------------------------------*/ -+static const unsigned short crc16_tbl[256] = { -+ 0x0000, 0x1189, 0x2312, 0x329b, 0x4624, 0x57ad, 0x6536, 0x74bf, -+ 0x8c48, 0x9dc1, 0xaf5a, 0xbed3, 0xca6c, 0xdbe5, 0xe97e, 0xf8f7, -+ 0x1081, 0x0108, 0x3393, 0x221a, 0x56a5, 0x472c, 0x75b7, 0x643e, -+ 0x9cc9, 0x8d40, 0xbfdb, 0xae52, 0xdaed, 0xcb64, 0xf9ff, 0xe876, -+ 0x2102, 0x308b, 0x0210, 0x1399, 0x6726, 0x76af, 0x4434, 0x55bd, -+ 0xad4a, 0xbcc3, 0x8e58, 0x9fd1, 0xeb6e, 0xfae7, 0xc87c, 0xd9f5, -+ 0x3183, 0x200a, 0x1291, 0x0318, 0x77a7, 0x662e, 0x54b5, 0x453c, -+ 0xbdcb, 0xac42, 0x9ed9, 0x8f50, 0xfbef, 0xea66, 0xd8fd, 0xc974, -+ 0x4204, 0x538d, 0x6116, 0x709f, 0x0420, 0x15a9, 0x2732, 0x36bb, -+ 0xce4c, 0xdfc5, 0xed5e, 0xfcd7, 0x8868, 0x99e1, 0xab7a, 0xbaf3, -+ 0x5285, 0x430c, 0x7197, 0x601e, 0x14a1, 0x0528, 0x37b3, 0x263a, -+ 0xdecd, 0xcf44, 0xfddf, 0xec56, 0x98e9, 0x8960, 0xbbfb, 0xaa72, -+ 0x6306, 0x728f, 0x4014, 0x519d, 0x2522, 0x34ab, 0x0630, 0x17b9, -+ 0xef4e, 0xfec7, 0xcc5c, 0xddd5, 0xa96a, 0xb8e3, 0x8a78, 0x9bf1, -+ 0x7387, 0x620e, 0x5095, 0x411c, 0x35a3, 0x242a, 0x16b1, 0x0738, -+ 0xffcf, 0xee46, 0xdcdd, 0xcd54, 0xb9eb, 0xa862, 0x9af9, 0x8b70, -+ 0x8408, 0x9581, 0xa71a, 0xb693, 0xc22c, 0xd3a5, 0xe13e, 0xf0b7, -+ 0x0840, 0x19c9, 0x2b52, 0x3adb, 0x4e64, 0x5fed, 0x6d76, 0x7cff, -+ 0x9489, 0x8500, 0xb79b, 0xa612, 0xd2ad, 0xc324, 0xf1bf, 0xe036, -+ 0x18c1, 0x0948, 0x3bd3, 0x2a5a, 0x5ee5, 0x4f6c, 0x7df7, 0x6c7e, -+ 0xa50a, 0xb483, 0x8618, 0x9791, 0xe32e, 0xf2a7, 0xc03c, 0xd1b5, -+ 0x2942, 0x38cb, 0x0a50, 0x1bd9, 0x6f66, 0x7eef, 0x4c74, 0x5dfd, -+ 0xb58b, 0xa402, 0x9699, 0x8710, 0xf3af, 0xe226, 0xd0bd, 0xc134, -+ 0x39c3, 0x284a, 0x1ad1, 0x0b58, 0x7fe7, 0x6e6e, 0x5cf5, 0x4d7c, -+ 0xc60c, 0xd785, 0xe51e, 0xf497, 0x8028, 0x91a1, 0xa33a, 0xb2b3, -+ 0x4a44, 0x5bcd, 0x6956, 0x78df, 0x0c60, 0x1de9, 0x2f72, 0x3efb, -+ 0xd68d, 0xc704, 0xf59f, 0xe416, 0x90a9, 0x8120, 0xb3bb, 0xa232, -+ 0x5ac5, 0x4b4c, 0x79d7, 0x685e, 0x1ce1, 0x0d68, 0x3ff3, 0x2e7a, -+ 0xe70e, 0xf687, 0xc41c, 0xd595, 0xa12a, 0xb0a3, 0x8238, 0x93b1, -+ 0x6b46, 0x7acf, 0x4854, 0x59dd, 0x2d62, 0x3ceb, 0x0e70, 0x1ff9, -+ 0xf78f, 0xe606, 0xd49d, 0xc514, 0xb1ab, 0xa022, 0x92b9, 0x8330, -+ 0x7bc7, 0x6a4e, 0x58d5, 0x495c, 0x3de3, 0x2c6a, 0x1ef1, 0x0f78 -+}; -+ -+/*---------------------------------------------------------------------- -+* hash_crc16 -+*----------------------------------------------------------------------*/ -+unsigned short hash_crc16(unsigned short crc, unsigned char *datap, unsigned long len) -+{ -+ while (len--) -+ { -+ crc = (crc >> 8) ^ crc16_tbl[(crc ^ (*datap++)) & 0xff]; -+ } -+ -+ return (crc); -+ -+} -+ -+/*---------------------------------------------------------------------- -+* hash_check_crc16 -+*----------------------------------------------------------------------*/ -+unsigned long hash_check_crc16(unsigned char *datap, unsigned long len) -+{ -+ unsigned short crc; -+ -+ crc = hash_crc16(INITFCS16, datap, len ); -+ return (crc == GOODFCS16) ? 0 : 1; -+} -+ -+/*---------------------------------------------------------------------- -+* hash_gen_crc16 -+*----------------------------------------------------------------------*/ -+unsigned short hash_gen_crc16(unsigned char *datap, unsigned long len) -+{ -+ unsigned short crc; -+ -+ crc = hash_crc16(INITFCS16, datap, len); -+ crc ^= 0xffff; -+ -+ return(SWAP_WORD(crc)); -+} ---- /dev/null -+++ b/drivers/net/sl351x_gmac.c -@@ -0,0 +1,5622 @@ -+/************************************************************************** -+* Copyright 2006 StorLink Semiconductors, Inc. All rights reserved. -+*-------------------------------------------------------------------------- -+* Name : sl351x_gmac.c -+* Description : -+* Ethernet device driver for Storlink SL351x FPGA -+* -+* History -+* -+* Date Writer Description -+* ----------- ----------- ------------------------------------------------- -+* 08/22/2005 Gary Chen Create and implement -+* 27/10/2005 CH Hsu Porting to Linux -+* -+****************************************************************************/ -+#include <linux/module.h> -+#include <linux/kernel.h> -+#include <linux/slab.h> -+#include <linux/mm.h> -+#include <linux/compiler.h> -+#include <linux/pci.h> -+#include <linux/init.h> -+#include <linux/ioport.h> -+#include <linux/netdevice.h> -+#include <linux/etherdevice.h> -+#include <linux/rtnetlink.h> -+#include <linux/delay.h> -+#include <linux/ethtool.h> -+#include <linux/mii.h> -+#include <linux/completion.h> -+#include <asm/hardware.h> -+#include <asm/io.h> -+#include <asm/irq.h> -+#include <asm/semaphore.h> -+#include <asm/arch/irqs.h> -+#include <asm/arch/it8712.h> -+#include <linux/mtd/kvctl.h> -+#include <linux/skbuff.h> -+#include <linux/in.h> -+#include <linux/ip.h> -+#include <linux/tcp.h> -+#include <linux/udp.h> -+ -+#include <linux/mtd/kvctl.h> -+ -+#define MIDWAY -+#define SL_LEPUS -+#define VITESSE_G5SWITCH 1 -+ -+#ifndef CONFIG_SL351x_RXTOE -+//#define CONFIG_SL351x_RXTOE 1 -+#endif -+#undef CONFIG_SL351x_RXTOE -+ -+#include <asm/arch/sl2312.h> -+#include <asm/arch/sl351x_gmac.h> -+#include <asm/arch/sl351x_hash_cfg.h> -+#include <asm/arch/sl351x_nat_cfg.h> -+ -+#ifdef CONFIG_SL351x_SYSCTL -+#include <linux/sysctl_storlink.h> -+#endif -+ -+#ifdef CONFIG_SL351x_RXTOE -+#include <asm/arch/sl351x_toe.h> -+#include <net/tcp.h> -+#include <linux/tcp.h> -+#include <linux/ip.h> -+#endif -+ -+// #define SL351x_TEST_WORKAROUND -+#ifdef CONFIG_SL351x_NAT -+#define CONFIG_SL_NAPI 1 -+#endif -+#define GMAX_TX_INTR_DISABLED 1 -+#define DO_HW_CHKSUM 1 -+#define ENABLE_TSO 1 -+#define GMAC_USE_TXQ0 1 -+// #define NAT_WORKAROUND_BY_RESET_GMAC 1 -+// #define HW_RXBUF_BY_KMALLOC 1 -+//#define _DUMP_TX_TCP_CONTENT 1 -+#define br_if_ioctl 1 -+#define GMAC_LEN_1_2_ISSUE 1 -+ -+#define GMAC_EXISTED_FLAG 0x5566abcd -+#define CONFIG_MAC_NUM GMAC_NUM -+#define GMAC0_BASE TOE_GMAC0_BASE -+#define GMAC1_BASE TOE_GMAC1_BASE -+#define PAUSE_SET_HW_FREEQ (TOE_HW_FREEQ_DESC_NUM / 2) -+#define PAUSE_REL_HW_FREEQ ((TOE_HW_FREEQ_DESC_NUM / 2) + 10) -+#define DEFAULT_RXQ_MAX_CNT 256 -+#ifdef L2_jumbo_frame -+#define TCPHDRLEN(tcp_hdr) ((ntohs(*((__u16 *)tcp_hdr + 6)) >> 12) & 0x000F) -+#endif -+ -+/* define chip information */ -+#define DRV_NAME "SL351x" -+#define DRV_VERSION "0.1.4" -+#define SL351x_DRIVER_NAME DRV_NAME " Giga Ethernet driver " DRV_VERSION -+ -+#define toe_gmac_enable_interrupt(irq) enable_irq(irq) -+#define toe_gmac_disable_interrupt(irq) disable_irq(irq) -+ -+#ifdef SL351x_GMAC_WORKAROUND -+#define GMAC_SHORT_FRAME_THRESHOLD 10 -+static struct timer_list gmac_workround_timer_obj; -+void sl351x_poll_gmac_hanged_status(u32 data); -+#ifdef CONFIG_SL351x_NAT -+//#define IxscriptMate_1518 1 -+ void sl351x_nat_workaround_init(void); -+ #ifndef NAT_WORKAROUND_BY_RESET_GMAC -+ static void sl351x_nat_workaround_handler(void); -+ #endif -+#endif -+#endif -+ -+#ifdef GMAC_LEN_1_2_ISSUE -+ #define _DEBUG_PREFETCH_NUM 256 -+static int _debug_prefetch_cnt; -+static char _debug_prefetch_buf[_DEBUG_PREFETCH_NUM][4] __attribute__((aligned(4))); -+#endif -+/************************************************************* -+ * Global Variable -+ *************************************************************/ -+static int gmac_initialized = 0; -+TOE_INFO_T toe_private_data; -+//static int do_again = 0; -+spinlock_t gmac_fq_lock; -+unsigned int FLAG_SWITCH; -+ -+static unsigned int next_tick = 3 * HZ; -+static unsigned char eth_mac[CONFIG_MAC_NUM][6]= {{0x00,0x11,0x11,0x87,0x87,0x87}, {0x00,0x22,0x22,0xab,0xab,0xab}}; -+ -+#undef CONFIG_SL351x_RXTOE -+extern NAT_CFG_T nat_cfg; -+ -+/************************************************/ -+/* function declare */ -+/************************************************/ -+static int gmac_set_mac_address(struct net_device *dev, void *addr); -+static unsigned int gmac_get_phy_vendor(int phy_addr); -+static void gmac_set_phy_status(struct net_device *dev); -+void gmac_get_phy_status(struct net_device *dev); -+static int gmac_netdev_ioctl(struct net_device *dev, struct ifreq *rq, int cmd); -+static void gmac_tx_timeout(struct net_device *dev); -+static int gmac_phy_thread (void *data); -+struct net_device_stats * gmac_get_stats(struct net_device *dev); -+static int gmac_start_xmit(struct sk_buff *skb, struct net_device *dev); -+static void gmac_set_rx_mode(struct net_device *dev); -+static irqreturn_t toe_gmac_interrupt (int irq, void *dev_instance); -+static void toe_gmac_handle_default_rxq(struct net_device *dev, GMAC_INFO_T *tp); -+unsigned int mii_read(unsigned char phyad,unsigned char regad); -+void mii_write(unsigned char phyad,unsigned char regad,unsigned int value); -+void mac_init_drv(void); -+ -+static void toe_init_free_queue(void); -+static void toe_init_swtx_queue(void); -+static void toe_init_default_queue(void); -+#ifdef CONFIG_SL351x_RXTOE -+static void toe_init_interrupt_queue(void); -+#endif -+static void toe_init_interrupt_config(void); -+static void toe_gmac_sw_reset(void); -+static int toe_gmac_init_chip(struct net_device *dev); -+static void toe_gmac_enable_tx_rx(struct net_device* dev); -+static void toe_gmac_disable_tx_rx(struct net_device *dev); -+static void toe_gmac_hw_start(struct net_device *dev); -+static void toe_gmac_hw_stop(struct net_device *dev); -+static int toe_gmac_clear_counter(struct net_device *dev); -+static void toe_init_gmac(struct net_device *dev); -+static void toe_gmac_tx_complete(GMAC_INFO_T *tp, unsigned int tx_qid, struct net_device *dev, int interrupt); -+#ifdef CONFIG_SL_NAPI -+static int gmac_rx_poll(struct net_device *dev, int *budget); -+// static void toe_gmac_disable_rx(struct net_device *dev); -+// static void toe_gmac_enable_rx(struct net_device *dev); -+#endif -+ -+u32 mac_read_dma_reg(int mac, unsigned int offset); -+void mac_write_dma_reg(int mac, unsigned int offset, u32 data); -+void mac_stop_txdma(struct net_device *dev); -+void mac_get_sw_tx_weight(struct net_device *dev, char *weight); -+void mac_set_sw_tx_weight(struct net_device *dev, char *weight); -+void mac_get_hw_tx_weight(struct net_device *dev, char *weight); -+void mac_set_hw_tx_weight(struct net_device *dev, char *weight); -+static inline void toe_gmac_fill_free_q(void); -+ -+#ifdef VITESSE_G5SWITCH -+extern int Get_Set_port_status(void); -+extern int SPI_default(void); -+extern unsigned int SPI_get_identifier(void); -+void gmac_get_switch_status(struct net_device *dev); -+unsigned int Giga_switch=0; -+unsigned int switch_port_no=0; -+unsigned int ever_dwon=0; -+#endif -+ -+/************************************************/ -+/* GMAC function declare */ -+/************************************************/ -+static int gmac_open (struct net_device *dev); -+static int gmac_close (struct net_device *dev); -+static void gmac_cleanup_module(void); -+static void gmac_get_mac_address(void); -+ -+#ifdef CONFIG_SL351x_NAT -+static void toe_init_hwtx_queue(void); -+extern void sl351x_nat_init(void); -+extern void sl351x_nat_input(struct sk_buff *skb, int port, void *l3off, void *l4off); -+extern int sl351x_nat_output(struct sk_buff *skb, int port); -+extern int sl351x_nat_ioctl(struct net_device *dev, struct ifreq *rq, int cmd); -+#endif -+ -+#ifdef CONFIG_SL351x_RXTOE -+extern void set_toeq_hdr(struct toe_conn* connection, TOE_INFO_T* toe, struct net_device *dev); -+extern void sl351x_toe_init(void); -+extern void toe_gmac_handle_toeq(struct net_device *dev, GMAC_INFO_T* tp, __u32 status); -+extern struct toe_conn* init_toeq(int ipver, void* iph, struct tcphdr* tcp_hdr, TOE_INFO_T* toe, unsigned char* l2hdr); -+#endif -+ -+int mac_set_rule_reg(int mac, int rule, int enabled, u32 reg0, u32 reg1, u32 reg2); -+void mac_set_rule_enable_bit(int mac, int rule, int data); -+int mac_set_rule_action(int mac, int rule, int data); -+int mac_get_MRxCRx(int mac, int rule, int ctrlreg); -+void mac_set_MRxCRx(int mac, int rule, int ctrlreg, u32 data); -+ -+/*---------------------------------------------------------------------- -+* Ethernet Driver init -+*----------------------------------------------------------------------*/ -+ -+static int __init gmac_init_module(void) -+{ -+ GMAC_INFO_T *tp; -+ struct net_device *dev; -+ int i,j; -+ unsigned int chip_id; -+// unsigned int chip_version; -+ -+#ifdef CONFIG_SL3516_ASIC -+{ -+ unsigned int val; -+ /* set GMAC global register */ -+ val = readl(GMAC_GLOBAL_BASE_ADDR+0x10); -+ val = val | 0x005f0000; -+ writel(val,GMAC_GLOBAL_BASE_ADDR+0x10); -+// writel(0xb737b737,GMAC_GLOBAL_BASE_ADDR+0x1c); //For Socket Board -+ writel(0x77777777,GMAC_GLOBAL_BASE_ADDR+0x20); -+// writel(0xa737b747,GMAC_GLOBAL_BASE_ADDR+0x1c);//For Mounting Board -+ -+ //debug_Aaron -+ //writel(0xa7f0a7f0,GMAC_GLOBAL_BASE_ADDR+0x1c);//For Mounting Board -+ writel(0xa7f0b7f0,GMAC_GLOBAL_BASE_ADDR+0x1c);//For Mounting Board -+ -+ writel(0x77777777,GMAC_GLOBAL_BASE_ADDR+0x24); -+ writel(0x09200030,GMAC_GLOBAL_BASE_ADDR+0x2C); -+ val = readl(GMAC_GLOBAL_BASE_ADDR+0x04); -+ if((val&(1<<20))==0){ // GMAC1 enable -+ val = readl(GMAC_GLOBAL_BASE_ADDR+0x30); -+ val = (val & 0xe7ffffff) | 0x08000000; -+ writel(val,GMAC_GLOBAL_BASE_ADDR+0x30); -+ } -+} -+#endif -+ -+#ifdef VITESSE_G5SWITCH -+ Giga_switch = SPI_get_identifier(); -+ if(Giga_switch) -+ switch_port_no = SPI_default(); -+#endif -+ -+ chip_id = readl(GMAC_GLOBAL_BASE_ADDR+0x0); -+ if (chip_id == 0x3512C1) -+ { -+ writel(0x5787a5f0,GMAC_GLOBAL_BASE_ADDR+0x1c);//For 3512 Switch Board -+ writel(0x55557777,GMAC_GLOBAL_BASE_ADDR+0x20);//For 3512 Switch Board -+ } -+//#endif -+ -+ mac_init_drv(); -+ -+ printk (KERN_INFO SL351x_DRIVER_NAME " built at %s %s\n", __DATE__, __TIME__); -+ -+// init_waitqueue_entry(&wait, current); -+ -+ // printk("GMAC Init......\n"); -+ -+ i = 0; -+ for(j = 0; i<CONFIG_MAC_NUM; j++) -+ { -+ i=j; -+ if(Giga_switch){ // if gswitch present, swap eth0/1 -+ if(j==0) -+ i=1; -+ else if(j==1) -+ i=0; -+ } -+ -+ tp = (GMAC_INFO_T *)&toe_private_data.gmac[i]; -+ tp->dev = NULL; -+ if (tp->existed != GMAC_EXISTED_FLAG) continue; -+ -+ dev = alloc_etherdev(0); -+ if (dev == NULL) -+ { -+ printk (KERN_ERR "Can't allocate ethernet device #%d .\n",i); -+ return -ENOMEM; -+ } -+ -+ dev->priv=tp; -+ tp->dev = dev; -+ -+ SET_MODULE_OWNER(dev); -+ -+ // spin_lock_init(&tp->lock); -+ spin_lock_init(&gmac_fq_lock); -+ dev->base_addr = tp->base_addr; -+ dev->irq = tp->irq; -+ dev->open = gmac_open; -+ dev->stop = gmac_close; -+ dev->hard_start_xmit = gmac_start_xmit; -+ dev->get_stats = gmac_get_stats; -+ dev->set_multicast_list = gmac_set_rx_mode; -+ dev->set_mac_address = gmac_set_mac_address; -+ dev->do_ioctl = gmac_netdev_ioctl; -+ dev->tx_timeout = gmac_tx_timeout; -+ dev->watchdog_timeo = GMAC_DEV_TX_TIMEOUT; -+#ifdef L2_jumbo_frame -+ dev->mtu = 2018; //2002 ,2018 -+#endif -+ if (tp->port_id == 0) -+ dev->tx_queue_len = TOE_GMAC0_SWTXQ_DESC_NUM; -+ else -+ dev->tx_queue_len = TOE_GMAC1_SWTXQ_DESC_NUM; -+ -+#ifdef DO_HW_CHKSUM -+ dev->features |= NETIF_F_SG|NETIF_F_HW_CSUM; -+#ifdef ENABLE_TSO -+ dev->features |= NETIF_F_TSO; -+#endif -+#endif -+#ifdef CONFIG_SL_NAPI -+ dev->poll = gmac_rx_poll; -+ dev->weight = 64; -+#endif -+ -+ if (register_netdev(dev)) -+ { -+ gmac_cleanup_module(); -+ return(-1); -+ } -+ } -+ -+ -+// FLAG_SWITCH = 0 ; -+// FLAG_SWITCH = SPI_get_identifier(); -+// if(FLAG_SWITCH) -+// { -+// printk("Configure ADM699X...\n"); -+// SPI_default(); //Add by jason for ADM699X configuration -+// } -+ return (0); -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_cleanup_module -+*----------------------------------------------------------------------*/ -+ -+static void gmac_cleanup_module(void) -+{ -+ int i; -+ -+#ifdef SL351x_GMAC_WORKAROUND -+ del_timer(&gmac_workround_timer_obj); -+#endif -+ -+ for (i=0;i<CONFIG_MAC_NUM;i++) -+ { -+ if (toe_private_data.gmac[i].dev) -+ { -+ unregister_netdev(toe_private_data.gmac[i].dev); -+ toe_private_data.gmac[i].dev = NULL; -+ } -+ } -+ return ; -+} -+ -+module_init(gmac_init_module); -+module_exit(gmac_cleanup_module); -+ -+ -+/*---------------------------------------------------------------------- -+* gmac_read_reg -+*----------------------------------------------------------------------*/ -+static inline unsigned int gmac_read_reg(unsigned int base, unsigned int offset) -+//static unsigned int gmac_read_reg(unsigned int base, unsigned int offset) -+{ -+ volatile unsigned int reg_val; -+ -+ reg_val = readl(base + offset); -+ return (reg_val); -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_write_reg -+*----------------------------------------------------------------------*/ -+static inline void gmac_write_reg(unsigned int base, unsigned int offset,unsigned int data,unsigned int bit_mask) -+//static void gmac_write_reg(unsigned int base, unsigned int offset,unsigned int data,unsigned int bit_mask) -+{ -+ volatile unsigned int reg_val; -+ unsigned int *addr; -+ -+ reg_val = ( gmac_read_reg(base, offset) & (~bit_mask) ) | (data & bit_mask); -+ addr = (unsigned int *)(base + offset); -+ writel(reg_val,addr); -+ return; -+} -+ -+/*---------------------------------------------------------------------- -+* mac_init_drv -+*----------------------------------------------------------------------*/ -+void mac_init_drv(void) -+{ -+ TOE_INFO_T *toe; -+ int i; -+ QUEUE_THRESHOLD_T threshold; -+ u32 *destp; -+ unsigned int chip_id,chip_version; -+ -+ chip_id = readl(GMAC_GLOBAL_BASE_ADDR+0x0); -+ chip_version = chip_id & 0x1 ; -+ -+ if (!gmac_initialized) -+ { -+ gmac_initialized = 1; -+ -+ // clear non TOE Queue Header Area -+ destp = (u32 *)TOE_NONTOE_QUE_HDR_BASE; -+ for (; destp < (u32 *)NONTOE_Q_HDR_AREA_END; destp++) -+ *destp = 0x00; -+ -+ // clear TOE Queue Header Area -+ destp = (u32 *)TOE_TOE_QUE_HDR_BASE; -+ for (; destp < (u32 *)TOE_Q_HDR_AREA_END; destp++) -+ *destp = 0x00; -+ -+ // init private data -+ toe = (TOE_INFO_T *)&toe_private_data; -+ memset((void *)toe, 0, sizeof(TOE_INFO_T)); -+ toe->gmac[0].base_addr = GMAC0_BASE; -+ toe->gmac[1].base_addr = GMAC1_BASE; -+ toe->gmac[0].dma_base_addr = TOE_GMAC0_DMA_BASE; -+ toe->gmac[1].dma_base_addr = TOE_GMAC1_DMA_BASE; -+ toe->gmac[0].auto_nego_cfg = 1; -+ toe->gmac[1].auto_nego_cfg = 1; -+#ifdef CONFIG_SL3516_ASIC -+ toe->gmac[0].speed_cfg = GMAC_SPEED_1000; -+ toe->gmac[1].speed_cfg = GMAC_SPEED_1000; -+#else -+ toe->gmac[0].speed_cfg = GMAC_SPEED_100; -+ toe->gmac[1].speed_cfg = GMAC_SPEED_100; -+#endif -+ toe->gmac[0].full_duplex_cfg = 1; -+ toe->gmac[1].full_duplex_cfg = 1; -+#ifdef CONFIG_SL3516_ASIC -+ toe->gmac[0].phy_mode = GMAC_PHY_RGMII_1000; -+ toe->gmac[1].phy_mode = GMAC_PHY_RGMII_1000; -+#else -+ toe->gmac[0].phy_mode = GMAC_PHY_RGMII_100; -+ toe->gmac[1].phy_mode = GMAC_PHY_RGMII_100; -+#endif -+ toe->gmac[0].port_id = GMAC_PORT0; -+ toe->gmac[1].port_id = GMAC_PORT1; -+ toe->gmac[0].phy_addr = 0x1; -+ toe->gmac[1].phy_addr = 2; -+// toe->gmac[0].irq = SL2312_INTERRUPT_GMAC0; -+ toe->gmac[0].irq =1; -+// toe->gmac[1].irq = SL2312_INTERRUPT_GMAC1; -+ toe->gmac[1].irq =2; -+ toe->gmac[0].mac_addr1 = ð_mac[0][0]; -+ toe->gmac[1].mac_addr1 = ð_mac[1][0]; -+ -+ for (i=0; i<CONFIG_MAC_NUM; i++) -+ { -+ unsigned int data, phy_vendor; -+ gmac_write_reg(toe->gmac[i].base_addr, GMAC_STA_ADD2, 0x55aa55aa, 0xffffffff); -+ data = gmac_read_reg(toe->gmac[i].base_addr, GMAC_STA_ADD2); -+ if (data == 0x55aa55aa) -+ { -+#ifdef VITESSE_G5SWITCH -+ if(Giga_switch && (i==1)){ -+ toe->gmac[i].existed = GMAC_EXISTED_FLAG; -+ break; -+ } -+#endif -+ phy_vendor = gmac_get_phy_vendor(toe->gmac[i].phy_addr); -+ if (phy_vendor != 0 && phy_vendor != 0xffffffff) -+ toe->gmac[i].existed = GMAC_EXISTED_FLAG; -+ } -+ } -+ -+ // Write GLOBAL_QUEUE_THRESHOLD_REG -+ threshold.bits32 = 0; -+ threshold.bits.swfq_empty = (TOE_SW_FREEQ_DESC_NUM > 256) ? 255 : -+ TOE_SW_FREEQ_DESC_NUM/2; -+ threshold.bits.hwfq_empty = (TOE_HW_FREEQ_DESC_NUM > 256) ? 256/4 : -+ TOE_HW_FREEQ_DESC_NUM/4; -+ threshold.bits.toe_class = (TOE_TOE_DESC_NUM > 256) ? 256/4 : -+ TOE_TOE_DESC_NUM/4; -+ threshold.bits.intrq = (TOE_INTR_DESC_NUM > 256) ? 256/4 : -+ TOE_INTR_DESC_NUM/4; -+ writel(threshold.bits32, TOE_GLOBAL_BASE + GLOBAL_QUEUE_THRESHOLD_REG); -+ -+ FLAG_SWITCH = 0; -+ toe_gmac_sw_reset(); -+ toe_init_free_queue(); -+ toe_init_swtx_queue(); -+#ifdef CONFIG_SL351x_NAT -+ toe_init_hwtx_queue(); -+#endif -+ toe_init_default_queue(); -+#ifdef CONFIG_SL351x_RXTOE -+ toe_init_interrupt_queue(); -+#endif -+ toe_init_interrupt_config(); -+ -+#if defined(CONFIG_SL351x_NAT) || defined(CONFIG_SL351x_RXTOE) -+ sl351x_hash_init(); -+#else -+ { -+ volatile u32 *dp1, *dp2, dword; -+ -+ dp1 = (volatile u32 *) TOE_V_BIT_BASE; -+ dp2 = (volatile u32 *) TOE_A_BIT_BASE; -+ -+ for (i=0; i<HASH_TOTAL_ENTRIES/32; i++) -+ { -+ *dp1++ = 0; -+ dword = *dp2++; // read-clear -+ } -+ } -+#endif -+ } -+ -+#ifdef SL351x_GMAC_WORKAROUND -+#ifdef CONFIG_SL351x_NAT -+ sl351x_nat_workaround_init(); -+#endif -+ init_timer(&gmac_workround_timer_obj); -+ if (chip_version == 1) -+ { -+ gmac_workround_timer_obj.expires = jiffies * 50; -+ } -+ else -+ { -+ gmac_workround_timer_obj.expires = jiffies + 2; -+ } -+ gmac_workround_timer_obj.data = (unsigned long)&gmac_workround_timer_obj; -+ gmac_workround_timer_obj.function = (void *)&sl351x_poll_gmac_hanged_status; -+ add_timer(&gmac_workround_timer_obj); -+#endif -+} -+ -+/*---------------------------------------------------------------------- -+* toe_init_free_queue -+* (1) Initialize the Free Queue Descriptor Base Address & size -+* Register: TOE_GLOBAL_BASE + 0x0004 -+* (2) Initialize DMA Read/Write pointer for -+* SW Free Queue and HW Free Queue -+* (3) Initialize DMA Descriptors for -+* SW Free Queue and HW Free Queue, -+*----------------------------------------------------------------------*/ -+static void toe_init_free_queue(void) -+{ -+ int i; -+ TOE_INFO_T *toe; -+ DMA_RWPTR_T rwptr_reg; -+// unsigned int rwptr_addr; -+ unsigned int desc_buf; -+ GMAC_RXDESC_T *sw_desc_ptr; -+ struct sk_buff *skb; -+#ifdef CONFIG_SL351x_NAT -+ GMAC_RXDESC_T *desc_ptr; -+ unsigned int buf_ptr; -+#endif -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ desc_buf = (unsigned int)DMA_MALLOC((TOE_SW_FREEQ_DESC_NUM * sizeof(GMAC_RXDESC_T)), -+ (dma_addr_t *)&toe->sw_freeq_desc_base_dma) ; -+ sw_desc_ptr = (GMAC_RXDESC_T *)desc_buf; -+ if (!desc_buf) -+ { -+ printk("%s::DMA_MALLOC fail !\n",__func__); -+ return; -+ } -+ memset((void *)desc_buf, 0, TOE_SW_FREEQ_DESC_NUM * sizeof(GMAC_RXDESC_T)); -+ -+ // DMA Queue Base & Size -+ writel((toe->sw_freeq_desc_base_dma & DMA_Q_BASE_MASK) | TOE_SW_FREEQ_DESC_POWER, -+ TOE_GLOBAL_BASE + GLOBAL_SW_FREEQ_BASE_SIZE_REG); -+ -+ // init descriptor base -+ toe->swfq_desc_base = desc_buf; -+ -+ // SW Free Queue Read/Write Pointer -+ rwptr_reg.bits.wptr = TOE_SW_FREEQ_DESC_NUM - 1; -+ rwptr_reg.bits.rptr = 0; -+ toe->fq_rx_rwptr.bits32 = rwptr_reg.bits32; -+ writel(rwptr_reg.bits32, TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ -+ // SW Free Queue Descriptors -+ for (i=0; i<TOE_SW_FREEQ_DESC_NUM; i++) -+ { -+ sw_desc_ptr->word0.bits.buffer_size = SW_RX_BUF_SIZE; -+ sw_desc_ptr->word1.bits.sw_id = i; // used to locate skb -+ if ( (skb = dev_alloc_skb(SW_RX_BUF_SIZE))==NULL) /* allocate socket buffer */ -+ { -+ printk("%s::skb buffer allocation fail !\n",__func__); while(1); -+ } -+ REG32(skb->data) = (unsigned int)skb; -+ skb_reserve(skb, SKB_RESERVE_BYTES); -+ // toe->rx_skb[i] = skb; -+ sw_desc_ptr->word2.buf_adr = (unsigned int)__pa(skb->data); -+// consistent_sync((unsigned int)desc_ptr, sizeof(GMAC_RXDESC_T), PCI_DMA_TODEVICE); -+ sw_desc_ptr++; -+ } -+ -+#ifdef CONFIG_SL351x_NAT -+ if (sizeof(skb->cb) < 64) -+ { -+ printk("==> %s:: sk structure is incorrect -->Change to cb[64] !\n",__func__); while(1); -+ } -+ // init hardware free queues -+ desc_buf = (unsigned int)DMA_MALLOC((TOE_HW_FREEQ_DESC_NUM * sizeof(GMAC_RXDESC_T)), -+ (dma_addr_t *)&toe->hw_freeq_desc_base_dma) ; -+ desc_ptr = (GMAC_RXDESC_T *)desc_buf; -+ if (!desc_buf) -+ { -+ printk("%s::DMA_MALLOC fail !\n",__func__); -+ return; -+ } -+ memset((void *)desc_buf, 0, TOE_HW_FREEQ_DESC_NUM * sizeof(GMAC_RXDESC_T)); -+ -+ // DMA Queue Base & Size -+ writel((toe->hw_freeq_desc_base_dma & DMA_Q_BASE_MASK) | TOE_HW_FREEQ_DESC_POWER, -+ TOE_GLOBAL_BASE + GLOBAL_HW_FREEQ_BASE_SIZE_REG); -+ -+ // init descriptor base -+ toe->hwfq_desc_base = desc_buf; -+ -+ // HW Free Queue Read/Write Pointer -+ rwptr_reg.bits.wptr = TOE_HW_FREEQ_DESC_NUM - 1; -+ rwptr_reg.bits.rptr = 0; -+ writel(rwptr_reg.bits32, TOE_GLOBAL_BASE + GLOBAL_HWFQ_RWPTR_REG); -+#ifndef HW_RXBUF_BY_KMALLOC -+ buf_ptr = (unsigned int)DMA_MALLOC(TOE_HW_FREEQ_DESC_NUM * HW_RX_BUF_SIZE, -+ (dma_addr_t *)&toe->hwfq_buf_base_dma); -+#else -+ buf_ptr = (unsigned int)kmalloc(TOE_HW_FREEQ_DESC_NUM * HW_RX_BUF_SIZE, GFP_KERNEL); -+ toe->hwfq_buf_base_dma = __pa(buf_ptr); -+#endif -+ if (!buf_ptr) -+ { -+ printk("===> %s::Failed to allocate HW TxQ Buffers!\n",__func__); -+ while(1); // could not be happened, if happened, adjust the buffer descriptor number -+ return; -+ } -+ -+ toe->hwfq_buf_base = buf_ptr; -+ toe->hwfq_buf_end_dma = toe->hwfq_buf_base_dma + (TOE_HW_FREEQ_DESC_NUM * HW_RX_BUF_SIZE); -+ buf_ptr = (unsigned int)toe->hwfq_buf_base_dma; -+ for (i=0; i<TOE_HW_FREEQ_DESC_NUM; i++) -+ { -+ desc_ptr->word0.bits.buffer_size = HW_RX_BUF_SIZE; -+ desc_ptr->word1.bits.sw_id = i; -+ desc_ptr->word2.buf_adr = (unsigned int)buf_ptr; -+// consistent_sync((unsigned int)desc_ptr, sizeof(GMAC_RXDESC_T), PCI_DMA_TODEVICE); -+ // consistent_sync((unsigned int)buf_ptr, HW_RX_BUF_SIZE, PCI_DMA_TODEVICE); -+ desc_ptr++; -+ buf_ptr += HW_RX_BUF_SIZE; -+ } -+#else -+ // DMA Queue Base & Size -+ writel((0) | TOE_SW_FREEQ_DESC_POWER, -+ TOE_GLOBAL_BASE + GLOBAL_HW_FREEQ_BASE_SIZE_REG); -+ rwptr_reg.bits.wptr = TOE_HW_FREEQ_DESC_NUM - 1; -+ rwptr_reg.bits.rptr = 0; -+ writel(rwptr_reg.bits32, TOE_GLOBAL_BASE + GLOBAL_HWFQ_RWPTR_REG); -+ -+#endif -+} -+/*---------------------------------------------------------------------- -+* toe_init_swtx_queue -+* (2) Initialize the GMAC 0/1 SW TXQ Queue Descriptor Base Address & sizeup -+* GMAC_SW_TX_QUEUE_BASE_REG(0x0050) -+* (2) Initialize DMA Read/Write pointer for -+* GMAC 0/1 SW TX Q0-5 -+*----------------------------------------------------------------------*/ -+static void toe_init_swtx_queue(void) -+{ -+ int i; -+ TOE_INFO_T *toe; -+ DMA_RWPTR_T rwptr_reg; -+ unsigned int rwptr_addr; -+ unsigned int desc_buf; -+ -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ -+ // GMAC-0, SW-TXQ -+ // The GMAC-0 and GMAC-0 maybe have different descriptor number -+ // so, not use for instruction -+ desc_buf = (unsigned int)DMA_MALLOC((TOE_GMAC0_SWTXQ_DESC_NUM * TOE_SW_TXQ_NUM * sizeof(GMAC_TXDESC_T)), -+ (dma_addr_t *)&toe->gmac[0].swtxq_desc_base_dma) ; -+ toe->gmac[0].swtxq_desc_base = desc_buf; -+ if (!desc_buf) -+ { -+ printk("%s::DMA_MALLOC fail !\n",__func__); -+ return ; -+ } -+ memset((void *)desc_buf, 0, TOE_GMAC0_SWTXQ_DESC_NUM * TOE_SW_TXQ_NUM * sizeof(GMAC_TXDESC_T)); -+ writel((toe->gmac[0].swtxq_desc_base_dma & DMA_Q_BASE_MASK) | TOE_GMAC0_SWTXQ_DESC_POWER, -+ TOE_GMAC0_DMA_BASE+ GMAC_SW_TX_QUEUE_BASE_REG); -+ -+ // GMAC0 SW TX Q0-Q5 -+ rwptr_reg.bits.wptr = 0; -+ rwptr_reg.bits.rptr = 0; -+ rwptr_addr = TOE_GMAC0_DMA_BASE + GMAC_SW_TX_QUEUE0_PTR_REG; -+ for (i=0; i<TOE_SW_TXQ_NUM; i++) -+ { -+ toe->gmac[0].swtxq[i].rwptr_reg = rwptr_addr; -+ toe->gmac[0].swtxq[i].desc_base = desc_buf; -+ toe->gmac[0].swtxq[i].total_desc_num = TOE_GMAC0_SWTXQ_DESC_NUM; -+ desc_buf += TOE_GMAC0_SWTXQ_DESC_NUM * sizeof(GMAC_TXDESC_T); -+ writel(rwptr_reg.bits32, rwptr_addr); -+ rwptr_addr+=4; -+ } -+ -+ // GMAC-1, SW-TXQ -+ desc_buf = (unsigned int)DMA_MALLOC((TOE_GMAC1_SWTXQ_DESC_NUM * TOE_SW_TXQ_NUM * sizeof(GMAC_TXDESC_T)), -+ (dma_addr_t *)&toe->gmac[1].swtxq_desc_base_dma) ; -+ toe->gmac[1].swtxq_desc_base = desc_buf; -+ if (!desc_buf) -+ { -+ printk("%s::DMA_MALLOC fail !\n",__func__); -+ return ; -+ } -+ memset((void *)desc_buf, 0, TOE_GMAC1_SWTXQ_DESC_NUM * TOE_SW_TXQ_NUM * sizeof(GMAC_TXDESC_T)); -+ writel((toe->gmac[1].swtxq_desc_base_dma & DMA_Q_BASE_MASK) | TOE_GMAC1_SWTXQ_DESC_POWER, -+ TOE_GMAC1_DMA_BASE+ GMAC_SW_TX_QUEUE_BASE_REG); -+ -+ -+ // GMAC1 SW TX Q0-Q5 -+ rwptr_reg.bits.wptr = 0; -+ rwptr_reg.bits.rptr = 0; -+ rwptr_addr = TOE_GMAC1_DMA_BASE + GMAC_SW_TX_QUEUE0_PTR_REG; -+ for (i=0; i<TOE_SW_TXQ_NUM; i++) -+ { -+ toe->gmac[1].swtxq[i].rwptr_reg = rwptr_addr; -+ toe->gmac[1].swtxq[i].desc_base = desc_buf; -+ toe->gmac[1].swtxq[i].total_desc_num = TOE_GMAC1_SWTXQ_DESC_NUM; -+ desc_buf += TOE_GMAC1_SWTXQ_DESC_NUM * sizeof(GMAC_TXDESC_T); -+ writel(rwptr_reg.bits32, rwptr_addr); -+ rwptr_addr+=4; -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* toe_init_hwtx_queue -+* (2) Initialize the GMAC 0/1 HW TXQ Queue Descriptor Base Address & size -+* GMAC_HW_TX_QUEUE_BASE_REG(0x0054) -+* (2) Initialize DMA Read/Write pointer for -+* GMAC 0/1 HW TX Q0-5 -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_NAT -+static void toe_init_hwtx_queue(void) -+{ -+ int i; -+ TOE_INFO_T *toe; -+ DMA_RWPTR_T rwptr_reg; -+ unsigned int rwptr_addr; -+ unsigned int desc_buf; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ // GMAC-0, HW-TXQ -+ // The GMAC-0 and GMAC-0 maybe have different descriptor number -+ // so, not use for instruction -+ desc_buf = (unsigned int)DMA_MALLOC((TOE_GMAC0_HWTXQ_DESC_NUM * TOE_HW_TXQ_NUM * sizeof(GMAC_TXDESC_T)), -+ (dma_addr_t *)&toe->gmac[0].hwtxq_desc_base_dma) ; -+ toe->gmac[0].hwtxq_desc_base = desc_buf; -+ if (!desc_buf) -+ { -+ printk("%s::DMA_MALLOC fail !\n",__func__); -+ return ; -+ } -+ memset((void *)desc_buf, 0, TOE_GMAC0_HWTXQ_DESC_NUM * TOE_HW_TXQ_NUM * sizeof(GMAC_TXDESC_T)); -+ writel((toe->gmac[0].hwtxq_desc_base_dma & DMA_Q_BASE_MASK) | TOE_GMAC0_HWTXQ_DESC_POWER, -+ TOE_GMAC0_DMA_BASE+ GMAC_HW_TX_QUEUE_BASE_REG); -+ -+ // GMAC0 HW TX Q0-Q5 -+ rwptr_reg.bits.wptr = 0; -+ rwptr_reg.bits.rptr = 0; -+ rwptr_addr = TOE_GMAC0_DMA_BASE + GMAC_HW_TX_QUEUE0_PTR_REG; -+ for (i=0; i<TOE_HW_TXQ_NUM; i++) -+ { -+ toe->gmac[0].hwtxq[i].desc_base = desc_buf; -+ desc_buf += TOE_GMAC0_HWTXQ_DESC_NUM * sizeof(GMAC_TXDESC_T); -+ writel(rwptr_reg.bits32, rwptr_addr); -+ rwptr_addr+=4; -+ } -+ -+ // GMAC-1, HW-TXQ -+ desc_buf = (unsigned int)DMA_MALLOC((TOE_GMAC1_HWTXQ_DESC_NUM * TOE_HW_TXQ_NUM * sizeof(GMAC_TXDESC_T)), -+ (dma_addr_t *)&toe->gmac[1].hwtxq_desc_base_dma) ; -+ toe->gmac[1].hwtxq_desc_base = desc_buf; -+ if (!desc_buf) -+ { -+ printk("%s::DMA_MALLOC fail !\n",__func__); -+ return ; -+ } -+ memset((void *)desc_buf, 0, TOE_GMAC1_HWTXQ_DESC_NUM * TOE_HW_TXQ_NUM * sizeof(GMAC_TXDESC_T)); -+ writel((toe->gmac[1].hwtxq_desc_base_dma & DMA_Q_BASE_MASK) | TOE_GMAC1_HWTXQ_DESC_POWER, -+ TOE_GMAC1_DMA_BASE+ GMAC_HW_TX_QUEUE_BASE_REG); -+ -+ // GMAC1 HW TX Q0-Q5 -+ rwptr_reg.bits.wptr = 0; -+ rwptr_reg.bits.rptr = 0; -+ rwptr_addr = TOE_GMAC1_DMA_BASE + GMAC_HW_TX_QUEUE0_PTR_REG; -+ for (i=0; i<TOE_HW_TXQ_NUM; i++) -+ { -+ toe->gmac[1].hwtxq[i].desc_base = desc_buf; -+ desc_buf += TOE_GMAC1_HWTXQ_DESC_NUM * sizeof(GMAC_TXDESC_T); -+ writel(rwptr_reg.bits32, rwptr_addr); -+ rwptr_addr+=4; -+ } -+} -+#endif -+ -+/*---------------------------------------------------------------------- -+* toe_init_default_queue -+* (1) Initialize the default 0/1 Queue Header -+* Register: TOE_DEFAULT_Q0_HDR_BASE (0x60002000) -+* TOE_DEFAULT_Q1_HDR_BASE (0x60002008) -+* (2) Initialize Descriptors of Default Queue 0/1 -+*----------------------------------------------------------------------*/ -+static void toe_init_default_queue(void) -+{ -+ TOE_INFO_T *toe; -+ volatile NONTOE_QHDR_T *qhdr; -+ GMAC_RXDESC_T *desc_ptr; -+ DMA_SKB_SIZE_T skb_size; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ desc_ptr = (GMAC_RXDESC_T *)DMA_MALLOC((TOE_DEFAULT_Q0_DESC_NUM * sizeof(GMAC_RXDESC_T)), -+ (dma_addr_t *)&toe->gmac[0].default_desc_base_dma); -+ if (!desc_ptr) -+ { -+ printk("%s::DMA_MALLOC fail !\n",__func__); -+ return ; -+ } -+ memset((void *)desc_ptr, 0, TOE_DEFAULT_Q0_DESC_NUM * sizeof(GMAC_RXDESC_T)); -+ toe->gmac[0].default_desc_base = (unsigned int)desc_ptr; -+ toe->gmac[0].default_desc_num = TOE_DEFAULT_Q0_DESC_NUM; -+ qhdr = (volatile NONTOE_QHDR_T *)TOE_DEFAULT_Q0_HDR_BASE; -+ qhdr->word0.base_size = ((unsigned int)toe->gmac[0].default_desc_base_dma & NONTOE_QHDR0_BASE_MASK) | TOE_DEFAULT_Q0_DESC_POWER; -+ qhdr->word1.bits32 = 0; -+ toe->gmac[0].rx_rwptr.bits32 = 0; -+ toe->gmac[0].default_qhdr = (NONTOE_QHDR_T *)qhdr; -+ desc_ptr = (GMAC_RXDESC_T *)DMA_MALLOC((TOE_DEFAULT_Q1_DESC_NUM * sizeof(GMAC_RXDESC_T)), -+ (dma_addr_t *)&toe->gmac[1].default_desc_base_dma); -+ if (!desc_ptr) -+ { -+ printk("%s::DMA_MALLOC fail !\n",__func__); -+ return ; -+ } -+ memset((void *)desc_ptr, 0, TOE_DEFAULT_Q1_DESC_NUM * sizeof(GMAC_RXDESC_T)); -+ toe->gmac[1].default_desc_base = (unsigned int)desc_ptr; -+ toe->gmac[1].default_desc_num = TOE_DEFAULT_Q1_DESC_NUM; -+ qhdr = (volatile NONTOE_QHDR_T *)TOE_DEFAULT_Q1_HDR_BASE; -+ qhdr->word0.base_size = ((unsigned int)toe->gmac[1].default_desc_base_dma & NONTOE_QHDR0_BASE_MASK) | TOE_DEFAULT_Q1_DESC_POWER; -+ qhdr->word1.bits32 = 0; -+ toe->gmac[1].rx_rwptr.bits32 = 0; -+ toe->gmac[1].default_qhdr = (NONTOE_QHDR_T *)qhdr; -+ -+ skb_size.bits.hw_skb_size = HW_RX_BUF_SIZE; -+ skb_size.bits.sw_skb_size = SW_RX_BUF_SIZE; -+ writel(skb_size.bits32, TOE_GLOBAL_BASE + GLOBAL_DMA_SKB_SIZE_REG); -+} -+ -+/*---------------------------------------------------------------------- -+* toe_init_interrupt_queue -+* (1) Initialize the Interrupt Queue Header -+* Register: TOE_INTR_Q_HDR_BASE (0x60002080) -+* (2) Initialize Descriptors of Interrupt Queues -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_RXTOE -+static void toe_init_interrupt_queue(void) -+{ -+ TOE_INFO_T *toe; -+ volatile NONTOE_QHDR_T *qhdr; -+ INTR_QHDR_T *desc_ptr; -+ // unsigned int desc_buf_addr; -+ int i; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ desc_ptr = (INTR_QHDR_T *)DMA_MALLOC((TOE_INTR_QUEUE_NUM * TOE_INTR_DESC_NUM * sizeof(INTR_QHDR_T)), -+ (dma_addr_t *)&toe->intr_desc_base_dma); -+ if (!desc_ptr) -+ { -+ printk("%s::DMA_MALLOC interrupt queue fail !\n",__func__); -+ return ; -+ } -+ /* -+ desc_buf_addr = (unsigned int)DMA_MALLOC((TOE_INTR_DESC_NUM * sizeof(TOE_QHDR_T)), -+ (dma_addr_t *)&toe->intr_buf_base_dma); -+ if (!desc_buf_addr) -+ { -+ printk("%s::DMA_MALLOC interrupt desc fail !\n",__func__); -+ return ; -+ }*/ -+ printk("#### %s::Intr Q desc %x\n", __func__, (u32)desc_ptr); -+ -+ memset((void *)desc_ptr, 0, TOE_INTR_QUEUE_NUM * TOE_INTR_DESC_NUM * sizeof(INTR_QHDR_T)); -+// memset((void *)desc_buf_addr, 0, TOE_INTR_DESC_NUM * sizeof(TOE_QHDR_T)); -+ toe->intr_desc_base = (unsigned int)desc_ptr; -+ toe->intr_desc_num = TOE_INTR_DESC_NUM; -+ -+ qhdr = (volatile NONTOE_QHDR_T *)TOE_INTR_Q_HDR_BASE; -+// intrq = (INTRQ_INFO_T*) &toe->intrq[0]; -+ for (i=0; i<TOE_INTR_QUEUE_NUM; i++, qhdr++) -+ { -+ qhdr->word0.base_size = ((unsigned int)toe->intr_desc_base_dma & NONTOE_QHDR0_BASE_MASK) | TOE_INTR_DESC_POWER; -+ qhdr->word1.bits32 = 0; -+ desc_ptr += TOE_INTR_DESC_NUM; -+ } -+} -+ -+#endif -+ -+/*---------------------------------------------------------------------- -+* toe_init_interrupt_config -+* Interrupt Select Registers are used to map interrupt to int0 or int1 -+* Int0 and int1 are wired to CPU 0/1 GMAC 0/1 -+* Interrupt Device Inteface data are used to pass device info to -+* upper device deiver or store status/statistics -+* ISR handler -+* (1) If status bit ON but masked, the prinf error message (bug issue) -+* (2) If select bits are for me, handle it, else skip to let -+* the other ISR handles it. -+* Notes: -+* GMACx init routine (for eCOS) or open routine (for Linux) -+* enable the interrupt bits only which are selected for him. -+* -+* Default Setting: -+* GMAC0 intr bits ------> int0 ----> eth0 -+* GMAC1 intr bits ------> int1 ----> eth1 -+* TOE intr -------------> int0 ----> eth0 -+* Classification Intr --> int0 ----> eth0 -+* Default Q0 -----------> int0 ----> eth0 -+* Default Q1 -----------> int1 ----> eth1 -+*----------------------------------------------------------------------*/ -+static void toe_init_interrupt_config(void) -+{ -+ // clear all status bits -+ writel(0xffffffff, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_0_REG); -+ writel(0xffffffff, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_1_REG); -+ writel(0xffffffff, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_2_REG); -+ writel(0xffffffff, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_3_REG); -+ writel(0xffffffff, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_4_REG); -+ -+ // Init select registers -+ writel(0, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_0_REG); -+ writel(0, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_1_REG); -+ writel(0, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_2_REG); -+ writel(0, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_3_REG); -+ writel(0, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_4_REG); -+ -+ // disable all interrupt -+ writel(0, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_0_REG); -+ writel(0, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_1_REG); -+ writel(0, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_2_REG); -+ writel(0, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_3_REG); -+ writel(0, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_4_REG); -+} -+ -+/*---------------------------------------------------------------------- -+* toe_init_gmac -+*----------------------------------------------------------------------*/ -+static void toe_init_gmac(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = dev->priv; -+ TOE_INFO_T *toe; -+ u32 data; -+ -+ if (!gmac_initialized) -+ return ; -+ -+ if (!tp->existed) -+ return; -+ -+ tp->dev = dev; -+ tp->flow_control_enable = 1; -+ tp->pre_phy_status = LINK_DOWN; -+ tp->full_duplex_status = tp->full_duplex_cfg; -+ tp->speed_status = tp->speed_status; -+ -+#if 0 -+ /* get mac address from FLASH */ -+ gmac_get_mac_address(); -+#endif -+ -+ /* set PHY register to start autonegition process */ -+ gmac_set_phy_status(dev); -+ -+ /* GMAC initialization */ -+ if ( toe_gmac_init_chip(dev) ) -+ { -+ printk ("GMAC %d init fail\n", tp->port_id); -+ } -+ -+ /* clear statistic counter */ -+ toe_gmac_clear_counter(dev); -+ -+ memset((void *)&tp->ifStatics, 0, sizeof(struct net_device_stats)); -+ -+ /* ----------------------------------------------------------- -+ Enable GMAC interrupt & disable loopback -+ Notes: -+ GMACx init routine (for eCOS) or open routine (for Linux) -+ enable the interrupt bits only which are selected for him. -+ --------------------------------------------------------------*/ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ -+ // Enable Interrupt Bits -+ if (tp->port_id == 0) -+ { -+ tp->intr0_selected = GMAC0_TXDERR_INT_BIT | GMAC0_TXPERR_INT_BIT | -+ GMAC0_RXDERR_INT_BIT | GMAC0_RXPERR_INT_BIT | -+ GMAC0_SWTQ05_FIN_INT_BIT | GMAC0_SWTQ05_EOF_INT_BIT | -+ GMAC0_SWTQ04_FIN_INT_BIT | GMAC0_SWTQ04_EOF_INT_BIT | -+ GMAC0_SWTQ03_FIN_INT_BIT | GMAC0_SWTQ03_EOF_INT_BIT | -+ GMAC0_SWTQ02_FIN_INT_BIT | GMAC0_SWTQ02_EOF_INT_BIT | -+ GMAC0_SWTQ01_FIN_INT_BIT | GMAC0_SWTQ01_EOF_INT_BIT | -+ GMAC0_SWTQ00_FIN_INT_BIT | GMAC0_SWTQ00_EOF_INT_BIT; -+ -+#ifdef GMAX_TX_INTR_DISABLED -+ tp->intr0_enabled = 0; -+#else -+ tp->intr0_enabled = GMAC0_SWTQ00_FIN_INT_BIT | GMAC0_SWTQ00_EOF_INT_BIT; -+#endif -+ -+ tp->intr1_selected = TOE_IQ_ALL_BITS | TOE_CLASS_RX_INT_BITS | -+ GMAC0_HWTQ03_EOF_INT_BIT | GMAC0_HWTQ02_EOF_INT_BIT | -+ GMAC0_HWTQ01_EOF_INT_BIT | GMAC0_HWTQ00_EOF_INT_BIT | -+ DEFAULT_Q0_INT_BIT; -+ tp->intr1_enabled = DEFAULT_Q0_INT_BIT | TOE_IQ_ALL_BITS; -+ tp->intr2_selected = 0xffffffff; // TOE Queue 32-63 FUUL Intr -+ tp->intr2_enabled = 0xffffffff; -+ tp->intr3_selected = 0xffffffff; // TOE Queue 0-31 FUUL Intr -+ tp->intr3_enabled = 0xffffffff; -+ tp->intr4_selected = GMAC0_INT_BITS | CLASS_RX_FULL_INT_BITS | -+ HWFQ_EMPTY_INT_BIT | SWFQ_EMPTY_INT_BIT; -+ tp->intr4_enabled = GMAC0_INT_BITS | SWFQ_EMPTY_INT_BIT; -+ -+ data = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_0_REG) & ~tp->intr0_selected; -+ writel(data, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_0_REG); -+ data = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_1_REG) & ~tp->intr1_selected; -+ writel(data, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_1_REG); -+ data = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_2_REG) & ~tp->intr2_selected; -+ writel(data, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_2_REG); -+ data = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_3_REG) & ~tp->intr3_selected; -+ writel(data, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_3_REG); -+ data = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_4_REG) & ~tp->intr4_selected; -+ writel(data, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_4_REG); -+ } -+ else -+ { -+ tp->intr0_selected = GMAC1_TXDERR_INT_BIT | GMAC1_TXPERR_INT_BIT | -+ GMAC1_RXDERR_INT_BIT | GMAC1_RXPERR_INT_BIT | -+ GMAC1_SWTQ15_FIN_INT_BIT | GMAC1_SWTQ15_EOF_INT_BIT | -+ GMAC1_SWTQ14_FIN_INT_BIT | GMAC1_SWTQ14_EOF_INT_BIT | -+ GMAC1_SWTQ13_FIN_INT_BIT | GMAC1_SWTQ13_EOF_INT_BIT | -+ GMAC1_SWTQ12_FIN_INT_BIT | GMAC1_SWTQ12_EOF_INT_BIT | -+ GMAC1_SWTQ11_FIN_INT_BIT | GMAC1_SWTQ11_EOF_INT_BIT | -+ GMAC1_SWTQ10_FIN_INT_BIT | GMAC1_SWTQ10_EOF_INT_BIT; -+#ifdef GMAX_TX_INTR_DISABLED -+ tp->intr0_enabled = 0; -+#else -+ tp->intr0_enabled = GMAC1_SWTQ10_FIN_INT_BIT | GMAC1_SWTQ10_EOF_INT_BIT; -+#endif -+ -+ tp->intr1_selected = DEFAULT_Q1_INT_BIT; -+ tp->intr1_enabled = DEFAULT_Q1_INT_BIT | TOE_IQ_ALL_BITS; -+ tp->intr2_selected = 0; // TOE Queue 32-63 FUUL Intr -+ tp->intr2_enabled = 0; -+ tp->intr3_selected = 0; // TOE Queue 0-31 FUUL Intr -+ tp->intr3_enabled = 0; -+ tp->intr4_selected = GMAC1_INT_BITS; -+ tp->intr4_enabled = GMAC1_INT_BITS; -+ -+ if (toe->gmac[0].existed != GMAC_EXISTED_FLAG) -+ { -+ tp->intr1_selected |= TOE_IQ_ALL_BITS | TOE_CLASS_RX_INT_BITS | -+ GMAC0_HWTQ03_EOF_INT_BIT | GMAC0_HWTQ02_EOF_INT_BIT | -+ GMAC0_HWTQ01_EOF_INT_BIT | GMAC0_HWTQ00_EOF_INT_BIT; -+ tp->intr1_enabled |= TOE_IQ_ALL_BITS; -+ tp->intr2_selected |= 0xffffffff; // TOE Queue 32-63 FUUL Intr -+ tp->intr2_enabled |= 0xffffffff; -+ tp->intr3_selected |= 0xffffffff; // TOE Queue 0-31 FUUL Intr -+ tp->intr3_enabled |= 0xffffffff; -+ tp->intr4_selected |= CLASS_RX_FULL_INT_BITS | -+ HWFQ_EMPTY_INT_BIT | SWFQ_EMPTY_INT_BIT; -+ tp->intr4_enabled |= SWFQ_EMPTY_INT_BIT; -+ } -+ data = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_0_REG) | tp->intr0_selected; -+ writel(data, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_0_REG); -+ data = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_1_REG) | tp->intr1_selected; -+ writel(data, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_1_REG); -+ data = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_2_REG) | tp->intr2_selected; -+ writel(data, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_2_REG); -+ data = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_3_REG) | tp->intr3_selected; -+ writel(data, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_3_REG); -+ data = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_4_REG) | tp->intr4_selected; -+ writel(data, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_SELECT_4_REG); -+ } -+ -+ // enable only selected bits -+ gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_ENABLE_0_REG, -+ tp->intr0_enabled, tp->intr0_selected); -+ gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_ENABLE_1_REG, -+ tp->intr1_enabled, tp->intr1_selected); -+ gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_ENABLE_2_REG, -+ tp->intr2_enabled, tp->intr2_selected); -+ gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_ENABLE_3_REG, -+ tp->intr3_enabled, tp->intr3_selected); -+ gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_ENABLE_4_REG, -+ tp->intr4_enabled, tp->intr4_selected); -+ -+ /* start DMA process */ -+ toe_gmac_hw_start(dev); -+ -+ /* enable tx/rx register */ -+ toe_gmac_enable_tx_rx(dev); -+ -+// toe_gmac_enable_interrupt(tp->irq); -+ -+ return ; -+} -+ -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_sw_reset -+*----------------------------------------------------------------------*/ -+static void toe_gmac_sw_reset(void) -+{ -+ unsigned int reg_val; -+ reg_val = readl(GMAC_GLOBAL_BASE_ADDR+GLOBAL_RESET_REG) | 0x00000060; /* GMAC0 S/W reset */ -+ writel(reg_val,GMAC_GLOBAL_BASE_ADDR+GLOBAL_RESET_REG); -+ udelay(100); -+ return; -+} -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_init_chip -+*----------------------------------------------------------------------*/ -+static int toe_gmac_init_chip(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = dev->priv; -+ GMAC_CONFIG2_T config2_val; -+ GMAC_CONFIG0_T config0,config0_mask; -+ GMAC_CONFIG1_T config1; -+ #ifdef CONFIG_SL351x_NAT -+ GMAC_CONFIG3_T config3_val; -+ #endif -+ GMAC_TX_WCR0_T hw_weigh; -+ GMAC_TX_WCR1_T sw_weigh; -+// GMAC_HASH_ENABLE_REG0_T hash_ctrl; -+// -+#if 0 /* mac address will be set in late_initcall */ -+ struct sockaddr sock; -+ // GMAC_AHB_WEIGHT_T ahb_weight, ahb_weight_mask; -+ -+ -+ /* set station MAC address1 and address2 */ -+ memcpy(&sock.sa_data[0],ð_mac[tp->port_id][0],6); -+ gmac_set_mac_address(dev,(void *)&sock); -+#endif -+ -+ /* set RX_FLTR register to receive all multicast packet */ -+ gmac_write_reg(tp->base_addr, GMAC_RX_FLTR, 0x00000007,0x0000001f); -+ // gmac_write_reg(tp->base_addr, GMAC_RX_FLTR, 0x00000007,0x0000001f); -+ //gmac_write_reg(tp->base_addr, GMAC_RX_FLTR,0x00000007,0x0000001f); -+ -+ /* set per packet buffer size */ -+ // config1.bits32 = 0x002004; //next version -+ /* set flow control threshold */ -+ config1.bits32 = 0; -+ config1.bits.set_threshold = 32 / 2; -+ config1.bits.rel_threshold = 32 / 4 * 3; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG1, config1.bits32, 0xffffffff); -+ -+ /* set flow control threshold */ -+ config2_val.bits32 = 0; -+ config2_val.bits.set_threshold = TOE_SW_FREEQ_DESC_NUM/2; -+ config2_val.bits.rel_threshold = TOE_SW_FREEQ_DESC_NUM*3/4; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG2, config2_val.bits32,0xffffffff); -+ -+ #ifdef CONFIG_SL351x_NAT -+ /* set HW free queue flow control threshold */ -+ config3_val.bits32 = 0; -+ config3_val.bits.set_threshold = PAUSE_SET_HW_FREEQ; -+ config3_val.bits.rel_threshold = PAUSE_REL_HW_FREEQ; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG3, config3_val.bits32,0xffffffff); -+ #endif -+ /* set_mcast_filter mask*/ -+ // gmac_write_reg(tp->base_addr,GMAC_MCAST_FIL0,0x0,0xffffffff); -+ // gmac_write_reg(tp->base_addr,GMAC_MCAST_FIL1,0x0,0xffffffff); -+ -+ /* disable TX/RX and disable internal loop back */ -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ -+ //debug_Aaron -+#ifdef L2_jumbo_frame -+ config0.bits.max_len = 5; -+#else -+ config0.bits.max_len = 2; -+#endif -+ -+ if (tp->flow_control_enable==1) -+ { -+ config0.bits.tx_fc_en = 1; /* enable tx flow control */ -+ config0.bits.rx_fc_en = 1; /* enable rx flow control */ -+ printk("Enable MAC Flow Control...\n"); -+ } -+ else -+ { -+ config0.bits.tx_fc_en = 0; /* disable tx flow control */ -+ config0.bits.rx_fc_en = 0; /* disable rx flow control */ -+ printk("Disable MAC Flow Control...\n"); -+ } -+ config0.bits.dis_rx = 1; /* disable rx */ -+ config0.bits.dis_tx = 1; /* disable tx */ -+ config0.bits.loop_back = 0; /* enable/disable GMAC loopback */ -+ config0.bits.rx_err_detect = 1; -+ config0.bits.rgmii_en = 0; -+ config0.bits.rgmm_edge = 1; -+ config0.bits.rxc_inv = 0; -+ config0.bits.ipv4_rx_chksum = 1; /* enable H/W to check ip checksum */ -+ config0.bits.ipv6_rx_chksum = 1; /* enable H/W to check ip checksum */ -+ config0.bits.port0_chk_hwq = 1; // GaryChen 3/24/2006 2:26PM -+ config0.bits.port1_chk_hwq = 1; // GaryChen 3/24/2006 2:26PM -+ config0.bits.port0_chk_toeq = 1; -+ config0.bits.port1_chk_toeq = 1; -+ config0.bits.port0_chk_classq = 1; -+ config0.bits.port1_chk_classq = 1; -+ -+ config0_mask.bits.max_len = 7; -+ config0_mask.bits.tx_fc_en = 1; -+ config0_mask.bits.rx_fc_en = 1; -+ config0_mask.bits.dis_rx = 1; -+ config0_mask.bits.dis_tx = 1; -+ config0_mask.bits.loop_back = 1; -+ config0_mask.bits.rgmii_en = 1; -+ config0_mask.bits.rgmm_edge = 1; -+ config0_mask.bits.rxc_inv = 1; -+ config0_mask.bits.ipv4_rx_chksum = 1; -+ config0_mask.bits.ipv6_rx_chksum = 1; -+ config0_mask.bits.port0_chk_hwq = 1; -+ config0_mask.bits.port1_chk_hwq = 1; -+ config0_mask.bits.port0_chk_toeq = 1; -+ config0_mask.bits.port1_chk_toeq = 1; -+ config0_mask.bits.port0_chk_classq = 1; -+ config0_mask.bits.port1_chk_classq = 1; -+ config0_mask.bits.rx_err_detect = 1; -+ -+ #if 0 -+ config0.bits.dis_rx = 1; /* disable rx */ -+ config0.bits.dis_tx = 1; /* disable tx */ -+ config0.bits.loop_back = 0; /* enable/disable GMAC loopback */ -+ config0.bits.txc_inv = 0; -+ config0.bits.rgmii_en = 0; -+ config0.bits.rgmm_edge = 1; -+ config0.bits.rxc_inv = 1; -+ config0.bits.ipv4_tss_rx_en = 1; /* enable H/W to check ip checksum */ -+ config0.bits.ipv6_tss_rx_en = 1; /* enable H/W to check ip checksum */ -+ -+ config0_mask.bits.max_len = 3; -+ config0_mask.bits.tx_fc_en = 1; -+ config0_mask.bits.rx_fc_en = 1; -+ config0_mask.bits.dis_rx = 1; -+ config0_mask.bits.dis_tx = 1; -+ config0_mask.bits.loop_back = 1; -+ config0_mask.bits.rgmii_en = 1; -+ config0_mask.bits.rgmm_edge = 1; -+ config0_mask.bits.txc_inv = 1; -+ config0_mask.bits.rxc_inv = 1; -+ config0_mask.bits.ipv4_tss_rx_en = 1; -+ config0_mask.bits.ipv6_tss_rx_en = 1; -+ #endif -+ -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG0, config0.bits32,config0_mask.bits32); -+ -+ #if 1 -+ hw_weigh.bits32 = 0; -+ hw_weigh.bits.hw_tq3 = 1; -+ hw_weigh.bits.hw_tq2 = 1; -+ hw_weigh.bits.hw_tq1 = 1; -+ hw_weigh.bits.hw_tq0 = 1; -+ gmac_write_reg(tp->dma_base_addr, GMAC_TX_WEIGHTING_CTRL_0_REG, hw_weigh.bits32, 0xffffffff); -+ -+ sw_weigh.bits32 = 0; -+ sw_weigh.bits.sw_tq5 = 1; -+ sw_weigh.bits.sw_tq4 = 1; -+ sw_weigh.bits.sw_tq3 = 1; -+ sw_weigh.bits.sw_tq2 = 1; -+ sw_weigh.bits.sw_tq1 = 1; -+ sw_weigh.bits.sw_tq0 = 1; -+ gmac_write_reg(tp->dma_base_addr, GMAC_TX_WEIGHTING_CTRL_1_REG, sw_weigh.bits32, 0xffffffff); -+ #endif -+ -+ #if 0 -+ ahb_weight.bits32 = 0; -+ ahb_weight_mask.bits32 = 0; -+ ahb_weight.bits.rx_weight = 1; -+ ahb_weight.bits.tx_weight = 1; -+ ahb_weight.bits.hash_weight = 1; -+ ahb_weight.bits.pre_req = 0x1f; -+ ahb_weight.bits.tqDV_threshold = 0; -+ ahb_weight_mask.bits.rx_weight = 0x1f; -+ ahb_weight_mask.bits.tx_weight = 0x1f; -+ ahb_weight_mask.bits.hash_weight = 0x1f; -+ ahb_weight_mask.bits.pre_req = 0x1f; -+ ahb_weight_mask.bits.tqDV_threshold = 0x1f; -+ gmac_write_reg(tp->dma_base_addr, GMAC_AHB_WEIGHT_REG, ahb_weight.bits32, ahb_weight_mask.bits32); -+ #endif -+ -+ #if defined(CONFIG_SL351x_NAT) || defined(CONFIG_SL351x_RXTOE) -+ gmac_write_reg(tp->dma_base_addr, GMAC_SPR0, IPPROTO_TCP, 0xffffffff); -+ #endif -+ #ifdef CONFIG_SL351x_NAT -+ gmac_write_reg(tp->dma_base_addr, GMAC_SPR1, IPPROTO_UDP, 0xffffffff); -+ gmac_write_reg(tp->dma_base_addr, GMAC_SPR2, IPPROTO_GRE, 0xffffffff); -+ gmac_write_reg(tp->dma_base_addr, GMAC_SPR3, 0xff, 0xffffffff); -+ gmac_write_reg(tp->dma_base_addr, GMAC_SPR4, 0xff, 0xffffffff); -+ gmac_write_reg(tp->dma_base_addr, GMAC_SPR5, 0xff, 0xffffffff); -+ gmac_write_reg(tp->dma_base_addr, GMAC_SPR6, 0xff, 0xffffffff); -+ gmac_write_reg(tp->dma_base_addr, GMAC_SPR7, 0xff, 0xffffffff); -+ -+ sl351x_nat_init(); -+ #endif -+ -+ #ifdef CONFIG_SL351x_RXTOE -+ /* setup matching rule to TOE */ -+ sl351x_toe_init(); -+ #endif -+ -+ // for A1 ASIC version -+// hash_ctrl.bits32 = 0; -+// hash_ctrl.bits.timing = 6; -+// gmac_write_reg(tp->dma_base_addr, GMAC_HASH_ENGINE_REG0, hash_ctrl.bits32, 0xffffffff); -+ -+ return (0); -+} -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_enable_tx_rx -+*----------------------------------------------------------------------*/ -+static void toe_gmac_enable_tx_rx(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = dev->priv; -+ GMAC_CONFIG0_T config0,config0_mask; -+ -+ /* enable TX/RX */ -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.dis_rx = 0; /* enable rx */ -+ config0.bits.dis_tx = 0; /* enable tx */ -+ config0_mask.bits.dis_rx = 1; -+ config0_mask.bits.dis_tx = 1; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG0, config0.bits32,config0_mask.bits32); -+} -+/*---------------------------------------------------------------------- -+* toe_gmac_disable_rx -+*----------------------------------------------------------------------*/ -+#if 0 -+static void toe_gmac_disable_rx(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = dev->priv; -+ GMAC_CONFIG0_T config0,config0_mask; -+ -+ /* enable TX/RX */ -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.dis_rx = 1; /* disable rx */ -+// config0.bits.dis_tx = 1; /* disable tx */ -+ config0_mask.bits.dis_rx = 1; -+// config0_mask.bits.dis_tx = 1; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG0, config0.bits32,config0_mask.bits32); -+} -+#endif -+/*---------------------------------------------------------------------- -+* toe_gmac_enable_rx -+*----------------------------------------------------------------------*/ -+#if 0 -+static void toe_gmac_enable_rx(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = dev->priv; -+ GMAC_CONFIG0_T config0,config0_mask; -+ -+ /* enable TX/RX */ -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.dis_rx = 0; /* enable rx */ -+// config0.bits.dis_tx = 0; /* enable tx */ -+ config0_mask.bits.dis_rx = 1; -+// config0_mask.bits.dis_tx = 1; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG0, config0.bits32,config0_mask.bits32); -+} -+#endif -+/*---------------------------------------------------------------------- -+* toe_gmac_disable_tx_rx -+*----------------------------------------------------------------------*/ -+static void toe_gmac_disable_tx_rx(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = dev->priv; -+ GMAC_CONFIG0_T config0,config0_mask; -+ -+ /* enable TX/RX */ -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.dis_rx = 1; /* disable rx */ -+ config0.bits.dis_tx = 1; /* disable tx */ -+ config0_mask.bits.dis_rx = 1; -+ config0_mask.bits.dis_tx = 1; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG0, config0.bits32,config0_mask.bits32); -+} -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_hw_start -+*----------------------------------------------------------------------*/ -+static void toe_gmac_hw_start(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ GMAC_DMA_CTRL_T dma_ctrl, dma_ctrl_mask; -+ -+ -+ /* program dma control register */ -+ dma_ctrl.bits32 = 0; -+ dma_ctrl.bits.rd_enable = 1; -+ dma_ctrl.bits.td_enable = 1; -+ dma_ctrl.bits.loopback = 0; -+ dma_ctrl.bits.drop_small_ack = 0; -+ dma_ctrl.bits.rd_prot = 0; -+ dma_ctrl.bits.rd_burst_size = 3; -+ dma_ctrl.bits.rd_insert_bytes = RX_INSERT_BYTES; -+ dma_ctrl.bits.rd_bus = 3; -+ dma_ctrl.bits.td_prot = 0; -+ dma_ctrl.bits.td_burst_size = 3; -+ dma_ctrl.bits.td_bus = 3; -+ -+ dma_ctrl_mask.bits32 = 0; -+ dma_ctrl_mask.bits.rd_enable = 1; -+ dma_ctrl_mask.bits.td_enable = 1; -+ dma_ctrl_mask.bits.loopback = 1; -+ dma_ctrl_mask.bits.drop_small_ack = 1; -+ dma_ctrl_mask.bits.rd_prot = 3; -+ dma_ctrl_mask.bits.rd_burst_size = 3; -+ dma_ctrl_mask.bits.rd_insert_bytes = 3; -+ dma_ctrl_mask.bits.rd_bus = 3; -+ dma_ctrl_mask.bits.td_prot = 0x0f; -+ dma_ctrl_mask.bits.td_burst_size = 3; -+ dma_ctrl_mask.bits.td_bus = 3; -+ -+ gmac_write_reg(tp->dma_base_addr, GMAC_DMA_CTRL_REG, dma_ctrl.bits32, dma_ctrl_mask.bits32); -+ -+ return; -+} -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_hw_stop -+*----------------------------------------------------------------------*/ -+static void toe_gmac_hw_stop(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ GMAC_DMA_CTRL_T dma_ctrl, dma_ctrl_mask; -+ -+ /* program dma control register */ -+ dma_ctrl.bits32 = 0; -+ dma_ctrl.bits.rd_enable = 0; -+ dma_ctrl.bits.td_enable = 0; -+ -+ dma_ctrl_mask.bits32 = 0; -+ dma_ctrl_mask.bits.rd_enable = 1; -+ dma_ctrl_mask.bits.td_enable = 1; -+ -+ gmac_write_reg(tp->dma_base_addr, GMAC_DMA_CTRL_REG, dma_ctrl.bits32, dma_ctrl_mask.bits32); -+} -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_clear_counter -+*----------------------------------------------------------------------*/ -+static int toe_gmac_clear_counter (struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ -+ /* clear counter */ -+ gmac_read_reg(tp->base_addr, GMAC_IN_DISCARDS); -+ gmac_read_reg(tp->base_addr, GMAC_IN_ERRORS); -+ gmac_read_reg(tp->base_addr, GMAC_IN_MCAST); -+ gmac_read_reg(tp->base_addr, GMAC_IN_BCAST); -+ gmac_read_reg(tp->base_addr, GMAC_IN_MAC1); -+ gmac_read_reg(tp->base_addr, GMAC_IN_MAC2); -+ tp->ifStatics.tx_bytes = 0; -+ tp->ifStatics.tx_packets = 0; -+ tp->ifStatics.tx_errors = 0; -+ tp->ifStatics.rx_bytes = 0; -+ tp->ifStatics.rx_packets = 0; -+ tp->ifStatics.rx_errors = 0; -+ tp->ifStatics.rx_dropped = 0; -+ return (0); -+} -+ -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_tx_complete -+*----------------------------------------------------------------------*/ -+static void toe_gmac_tx_complete(GMAC_INFO_T *tp, unsigned int tx_qid, -+ struct net_device *dev, int interrupt) -+{ -+ volatile GMAC_TXDESC_T *curr_desc; -+ GMAC_TXDESC_0_T word0; -+ GMAC_TXDESC_1_T word1; -+ unsigned int desc_count; -+// struct net_device_stats *isPtr = (struct net_device_stats *)&tp->ifStatics; -+ GMAC_SWTXQ_T *swtxq; -+ DMA_RWPTR_T rwptr; -+ -+ /* get tx H/W completed descriptor virtual address */ -+ /* check tx status and accumulate tx statistics */ -+ swtxq = &tp->swtxq[tx_qid]; -+ swtxq->intr_cnt++; -+ for (;;) -+ { -+ rwptr.bits32 = readl(swtxq->rwptr_reg); -+ if (rwptr.bits.rptr == swtxq->finished_idx) -+ break; -+ curr_desc = (volatile GMAC_TXDESC_T *)swtxq->desc_base + swtxq->finished_idx; -+// consistent_sync((void *)curr_desc, sizeof(GMAC_TXDESC_T), PCI_DMA_FROMDEVICE); -+ word0.bits32 = curr_desc->word0.bits32; -+ word1.bits32 = curr_desc->word1.bits32; -+ -+ if (word0.bits.status_tx_ok) -+ { -+ tp->ifStatics.tx_bytes += word1.bits.byte_count; -+ desc_count = word0.bits.desc_count; -+ if (desc_count==0) -+ { -+ printk("%s::Desc 0x%x = 0x%x, desc_count=%d\n",__func__, (u32)curr_desc, word0.bits32, desc_count); -+ while(1); -+ } -+ while (--desc_count) -+ { -+ word0.bits.status_tx_ok = 0; -+ curr_desc->word0.bits32 = word0.bits32; -+ swtxq->finished_idx = RWPTR_ADVANCE_ONE(swtxq->finished_idx, swtxq->total_desc_num); -+ curr_desc = (GMAC_TXDESC_T *)swtxq->desc_base + swtxq->finished_idx; -+ word0.bits32 = curr_desc->word0.bits32; -+#ifdef _DUMP_TX_TCP_CONTENT -+ if (curr_desc->word0.bits.buffer_size < 16) -+ { -+ int a; -+ char *datap; -+ printk("\t Tx Finished Desc 0x%x Len %d Addr 0x%08x: ", (u32)curr_desc, curr_desc->word0.bits.buffer_size, curr_desc->word2.buf_adr); -+ datap = (char *)__va(curr_desc->word2.buf_adr); -+ for (a=0; a<8 && a<curr_desc->word0.bits.buffer_size; a++, datap++) -+ { -+ printk("0x%02x ", *datap); -+ } -+ printk("\n"); -+ } -+#endif -+ } -+ -+ word0.bits.status_tx_ok = 0; -+ if (swtxq->tx_skb[swtxq->finished_idx]) -+ { -+ if (interrupt) -+ dev_kfree_skb_irq(swtxq->tx_skb[swtxq->finished_idx]); -+ else -+ dev_kfree_skb(swtxq->tx_skb[swtxq->finished_idx]); -+ swtxq->tx_skb[swtxq->finished_idx] = NULL; -+ } -+ curr_desc->word0.bits32 = word0.bits32; -+ swtxq->curr_finished_desc = (GMAC_TXDESC_T *)curr_desc; -+ swtxq->total_finished++; -+ tp->ifStatics.tx_packets++; -+ swtxq->finished_idx = RWPTR_ADVANCE_ONE(swtxq->finished_idx, swtxq->total_desc_num); -+ } -+ else -+ { -+ // tp->ifStatics.tx_errors++; -+ // printk("%s::Tx Descriptor is !!!\n",__func__); -+ // wait ready by breaking -+ break; -+ } -+ } -+ -+ if (netif_queue_stopped(dev)) -+ { -+ netif_wake_queue(dev); -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_start_xmit -+*----------------------------------------------------------------------*/ -+static int gmac_start_xmit(struct sk_buff *skb, struct net_device *dev) -+{ -+ GMAC_INFO_T *tp= dev->priv; -+// static unsigned int pcount = 0; -+// unsigned int tx_qid; -+ DMA_RWPTR_T rwptr; -+ volatile GMAC_TXDESC_T *curr_desc; -+ int snd_pages = skb_shinfo(skb)->nr_frags + 1; /* get number of descriptor */ -+ int frag_id = 0; -+ int len, total_len = skb->len; -+ struct net_device_stats *isPtr; -+ unsigned int free_desc; -+ GMAC_SWTXQ_T *swtxq; -+ register unsigned long word0, word1, word2, word3; -+ unsigned short wptr, rptr; -+#ifdef L2_jumbo_frame -+ int header_len = skb->len; -+ struct iphdr *ip_hdr; -+ struct tcphdr *tcp_hdr; -+ int tcp_hdr_len; -+ unsigned char *ptr; -+ int data_len,a; -+ unsigned int val; -+#endif -+ -+#ifdef GMAC_LEN_1_2_ISSUE -+ int total_pages; -+ total_pages = snd_pages; -+#endif -+ -+ isPtr = (struct net_device_stats *)&tp->ifStatics; -+#if 1 -+ if (skb->len >= 0x10000) -+ { -+// spin_unlock(&tp->tx_mutex); -+ isPtr->tx_dropped++; -+ printk("%s::[GMAC %d] skb->len %d >= 64K\n", __func__, tp->port_id, skb->len); -+ netif_stop_queue(dev); -+ return 1; -+ } -+#endif -+ -+#if 0 -+ if (storlink_ctl.recvfile==2) -+ { -+ printk("snd_pages=%d skb->len=%d\n",snd_pages,skb->len); -+ } -+#endif -+ -+#ifdef GMAC_USE_TXQ0 -+ #define tx_qid 0 -+#endif -+ -+ swtxq = &tp->swtxq[tx_qid]; -+ -+// spin_lock(&tp->tx_mutex); -+ rwptr.bits32 = readl(swtxq->rwptr_reg); -+ wptr = rwptr.bits.wptr; -+ rptr = rwptr.bits.rptr; -+ -+ // check finished desc or empty BD -+ // cannot check by read ptr of RW PTR register, -+ // because the HW complete to send but the SW may NOT handle it -+#ifndef GMAX_TX_INTR_DISABLED -+ if (wptr >= swtxq->finished_idx) -+ free_desc = swtxq->total_desc_num - wptr - 1 + swtxq->finished_idx; -+ else -+ free_desc = swtxq->finished_idx - wptr - 1; -+ -+ if (free_desc < snd_pages) -+ { -+// spin_unlock(&tp->tx_mutex); -+ isPtr->tx_dropped++; -+// printk("GMAC %d No available descriptor!\n", tp->port_id); -+ netif_stop_queue(dev); -+ return 1; -+ } -+#else -+ toe_gmac_tx_complete(tp, tx_qid, dev, 0); -+ -+ if (wptr >= swtxq->finished_idx) -+ free_desc = swtxq->total_desc_num - wptr - 1 + swtxq->finished_idx; -+ else -+ free_desc = swtxq->finished_idx - wptr - 1; -+ if (free_desc < snd_pages) -+ { -+// spin_unlock(&tp->tx_mutex); -+ isPtr->tx_dropped++; -+// printk("GMAC %d No available descriptor!\n", tp->port_id); -+ netif_stop_queue(dev); -+ return 1; -+ } -+ -+#if 0 -+ printk("1: free_desc=%d, wptr=%d, finished_idx=%d\n", free_desc, wptr, swtxq->finished_idx); -+ if ((free_desc < (snd_pages << 2)) || -+ (free_desc < (swtxq->total_desc_num >> 2))) -+ { -+ printk("2: free_desc = %d\n", free_desc); -+ toe_gmac_tx_complete(tp, tx_qid, dev, 0); -+ rwptr.bits32 = readl(swtxq->rwptr_reg); -+ wptr = rwptr.bits.wptr; -+ if (wptr>= swtxq->finished_idx) -+ free_desc = swtxq->total_desc_num - wptr -1 + swtxq->finished_idx; -+ else -+ free_desc = swtxq->finished_idx - wptr - 1; -+ } -+#endif -+#endif -+ -+#ifdef L2_jumbo_frame -+// data_len = skb->len - 14 - ip_hdr->ihl *4 - tcp_hdr_len; -+// if ((skb->nh.iph->protocol == __constant_htons(ETH_P_IP)) && ((skb->nh.iph->protocol & 0x00ff) == IPPROTO_TCP)) -+// if (skb->nh.iph->protocol == 0x006 && (skb->nh.iph->protocol == __constant_htons(ETH_P_IP))) -+ if (((skb->nh.iph->protocol & 0x00ff) == IPPROTO_TCP)) -+ { -+ ip_hdr = (struct iphdr*)(skb->nh.iph); -+ tcp_hdr = (struct tcphdr*)(skb->h.th); -+ tcp_hdr_len = TCPHDRLEN(tcp_hdr) * 4; -+ tcp_hdr_len = TCPHDRLEN(tcp_hdr) * 4; -+ -+ if ((skb->h.th->syn) && (tcp_hdr_len > 20)) -+ { -+ ptr = (unsigned char *)(tcp_hdr+1); -+ if ((ptr[0] == 0x02) && (ptr[1] == 0x04) && (ptr[2] == 0x07) && (ptr[3] == 0xba)) // 0x07 aa=2016-54=1962 ,0x07ba=2032-54=1978 -+ { -+ ptr[2]=0x20; //23 -+ ptr[3]=0x00; //00 -+ printk("-----> Change MSS to 8K \n" ); -+ } -+ } -+ } -+// if ((ip_hdr->protocol & 0x00ff) != IPPROTO_TCP) -+// if ((tcp_hdr_len > 20) && (skb->h.th->syn)) -+#endif -+ -+ -+#if 0 -+ if (snd_pages > 1) -+ printk("-----> snd_pages=%d\n", snd_pages); -+ if (total_len > 1514) -+ { -+ printk("-----> total_len=%d\n", total_len); -+ } -+#endif -+ -+ while (snd_pages) -+ { -+ char *pkt_datap; -+ -+ curr_desc = (GMAC_TXDESC_T *)swtxq->desc_base + wptr; -+// consistent_sync((void *)curr_desc, sizeof(GMAC_TXDESC_T), PCI_DMA_FROMDEVICE); -+#if 0 -+//#if (GMAC_DEBUG==1) -+ // if curr_desc->word2.buf_adr !=0 means that the ISR does NOT handle it -+ // if (curr_desc->word2.buf_adr) -+ if (swtxq->tx_skb[wptr]) -+ { -+ printk("Error! Stop due to TX descriptor's buffer is not freed!\n"); -+ while(1); -+ dev_kfree_skb(swtxq->tx_skb[wptr]); -+ swtxq->tx_skb[wptr] = NULL; -+ } -+#endif -+ -+ if (frag_id == 0) -+ { -+#if 0 -+ int i; -+ pkt_datap = skb->data; -+ len = total_len; -+ for (i=0; i<skb_shinfo(skb)->nr_frags; i++) -+ { -+ skb_frag_t* frag = &skb_shinfo(skb)->frags[i]; -+ len -= frag->size; -+ } -+#else -+ pkt_datap = skb->data; -+ len = total_len - skb->data_len; -+#endif -+ } -+ else -+ { -+ skb_frag_t* frag = &skb_shinfo(skb)->frags[frag_id-1]; -+ pkt_datap = page_address(frag->page) + frag->page_offset; -+ len = frag->size; -+ if (len > total_len) -+ { -+ printk("===> Fatal Error! Send Frag size %d > Total Size %d!!!!!\n", -+ len, total_len); -+ } -+ } -+ -+ /* set TX descriptor */ -+ /* copy packet to descriptor buffer address */ -+ // curr_desc->word0.bits32 = len; /* total frame byte count */ -+ word0 = len; -+#ifdef L2_jumbo_frame -+ word3 = (dev->mtu+14) | EOFIE_BIT; //2016 ,2032 -+#else -+ word3 = 1514 | EOFIE_BIT; -+#endif -+ -+#ifdef DO_HW_CHKSUM -+#ifdef L2_jumbo_frame -+ if (total_len >= (dev->mtu+14) && (skb->nh.iph->protocol == 0x011) && skb->nh.iph && (skb->nh.iph->frag_off & __constant_htons(0x3fff))) -+#else -+ if (total_len <= 1514 && ip_hdr(skb) && (ip_hdr(skb)->frag_off & __constant_htons(0x3fff))) -+#endif -+ word1 = total_len | -+ TSS_IP_CHKSUM_BIT | -+ TSS_IPV6_ENABLE_BIT | -+ TSS_MTU_ENABLE_BIT; -+ else -+ word1 = total_len | -+ TSS_UDP_CHKSUM_BIT | -+ TSS_TCP_CHKSUM_BIT | -+ TSS_IP_CHKSUM_BIT | -+ TSS_IPV6_ENABLE_BIT | -+ TSS_MTU_ENABLE_BIT; -+#else -+ word1 = total_len | TSS_MTU_ENABLE_BIT; -+#endif -+ word2 = (unsigned long)__pa(pkt_datap); -+ -+ if (frag_id == 0) -+ { -+ word3 |= SOF_BIT; // SOF -+ } -+ -+ if (snd_pages == 1) -+ { -+ word3 |= EOF_BIT; // EOF -+ swtxq->tx_skb[wptr] = skb; -+#ifdef CONFIG_SL351x_NAT -+ if (nat_cfg.enabled && sl351x_nat_output(skb, tp->port_id)) -+ word1 |= TSS_IP_FIXED_LEN_BIT; -+#endif -+ } -+ else -+ swtxq->tx_skb[wptr] = NULL; -+ // word1 |= TSS_IP_FIXED_LEN_BIT; -+#if 1 -+#ifdef CONFIG_SL351x_RXTOE -+ // check if this frame has the mission to enable toe hash entry.. -+ // if rx_max_pktsize ==0, do not enable RXTOE -+ if (TCP_SKB_CB(skb)->connection && storlink_ctl.rx_max_pktsize) { -+ set_toeq_hdr(TCP_SKB_CB(skb)->connection, &toe_private_data, dev); -+ } -+#endif -+#endif -+#ifdef _DUMP_TX_TCP_CONTENT -+ if (len < 16 && frag_id && skb->h.th && (skb->h.th->source == __constant_htons(445) || skb->h.th->source == __constant_htons(139))) -+ { -+ int a; -+ char *datap; -+ printk("Tx Desc 0x%x Frag %d Len %d [IP-ID 0x%x] 0x%08x: ", (u32)curr_desc, frag_id, len, htons(skb->nh.iph->id), (u32)pkt_datap); -+ datap = (char *)pkt_datap; -+ for (a=0; a<8 && a<len; a++, datap++) -+ { -+ printk("0x%02x ", *datap); -+ } -+ printk("\n"); -+ } -+#endif -+ -+#ifdef GMAC_LEN_1_2_ISSUE -+ if ((total_pages!=snd_pages) && (len == 1 || len == 2 ) && ((u32)pkt_datap & 0x03)) -+ { -+ memcpy((void *)&_debug_prefetch_buf[_debug_prefetch_cnt][0], pkt_datap, len); -+ pkt_datap = (char *)&_debug_prefetch_buf[_debug_prefetch_cnt][0]; -+ word2 = (unsigned long)__pa(pkt_datap); -+ _debug_prefetch_cnt++; -+ if (_debug_prefetch_cnt >= _DEBUG_PREFETCH_NUM) -+ _debug_prefetch_cnt = 0; -+ } -+#endif -+ -+ consistent_sync((void *)pkt_datap, len, PCI_DMA_TODEVICE); -+ wmb(); -+ curr_desc->word0.bits32 = word0; -+ curr_desc->word1.bits32 = word1; -+ curr_desc->word2.bits32 = word2; -+ curr_desc->word3.bits32 = word3; -+ swtxq->curr_tx_desc = (GMAC_TXDESC_T *)curr_desc; -+// consistent_sync((void *)curr_desc, sizeof(GMAC_TXDESC_T), PCI_DMA_TODEVICE); -+#ifdef _DUMP_TX_TCP_CONTENT -+ if (len < 16 && frag_id && skb->h.th && (skb->h.th->source == __constant_htons(445) || skb->h.th->source == __constant_htons(139))) -+ { -+ int a; -+ char *datap; -+ printk("\t 0x%08x: ", (u32)pkt_datap); -+ datap = (char *)pkt_datap; -+ for (a=0; a<8 && a<len; a++, datap++) -+ { -+ printk("0x%02x ", *datap); -+ } -+ printk("\n"); -+ } -+#endif -+ free_desc--; -+ wmb(); -+ wptr = RWPTR_ADVANCE_ONE(wptr, swtxq->total_desc_num); -+ frag_id++; -+ snd_pages--; -+ } -+ -+ swtxq->total_sent++; -+ SET_WPTR(swtxq->rwptr_reg, wptr); -+ dev->trans_start = jiffies; -+ -+ -+ // printk("MAC %d Qid %d rwptr = 0x%x, curr_desc=0x%x\n", skb->tx_port_id, tx_qid, rwptr.bits32, curr_desc); -+//#ifdef GMAX_TX_INTR_DISABLED -+// toe_gmac_tx_complete(tp, tx_qid, dev, 0); -+//#endif -+ return (0); -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_set_mac_address -+*----------------------------------------------------------------------*/ -+ -+static int gmac_set_mac_address(struct net_device *dev, void *addr) -+{ -+ GMAC_INFO_T *tp= dev->priv; -+ struct sockaddr *sock; -+ unsigned int reg_val; -+ unsigned int i; -+ -+ sock = (struct sockaddr *) addr; -+ for (i = 0; i < 6; i++) -+ { -+ dev->dev_addr[i] = sock->sa_data[i]; -+ } -+ -+ reg_val = dev->dev_addr[0] + (dev->dev_addr[1]<<8) + (dev->dev_addr[2]<<16) + (dev->dev_addr[3]<<24); -+ gmac_write_reg(tp->base_addr,GMAC_STA_ADD0,reg_val,0xffffffff); -+ reg_val = dev->dev_addr[4] + (dev->dev_addr[5]<<8); -+ gmac_write_reg(tp->base_addr,GMAC_STA_ADD1,reg_val,0x0000ffff); -+ memcpy(ð_mac[tp->port_id][0],&dev->dev_addr[0],6); -+ -+ printk("Storlink %s address = ",dev->name); -+ printk("%02x",dev->dev_addr[0]); -+ printk("%02x",dev->dev_addr[1]); -+ printk("%02x",dev->dev_addr[2]); -+ printk("%02x",dev->dev_addr[3]); -+ printk("%02x",dev->dev_addr[4]); -+ printk("%02x\n",dev->dev_addr[5]); -+ -+ return (0); -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_get_mac_address -+* get mac address from FLASH -+*----------------------------------------------------------------------*/ -+static void gmac_get_mac_address(void) -+{ -+#ifdef CONFIG_MTD -+ extern int get_vlaninfo(vlaninfo* vlan); -+ static vlaninfo vlan[2]; -+ -+ if (get_vlaninfo(&vlan[0])) -+ { -+ memcpy((void *)ð_mac[0][0],vlan[0].mac,6); -+ // VLAN_conf[0].vid = vlan[0].vlanid; -+ // VLAN_conf[0].portmap = vlan[0].vlanmap; -+ memcpy((void *)ð_mac[1][0],vlan[1].mac,6); -+ // VLAN_conf[1].vid = vlan[1].vlanid; -+ // VLAN_conf[1].portmap = vlan[1].vlanmap; -+ } -+#else -+ unsigned int reg_val; -+ -+ reg_val = readl(IO_ADDRESS(TOE_GMAC0_BASE)+0xac); -+ eth_mac[0][4] = (reg_val & 0xff00) >> 8; -+ eth_mac[0][5] = reg_val & 0x00ff; -+ reg_val = readl(IO_ADDRESS(SL2312_SECURITY_BASE)+0xac); -+ eth_mac[1][4] = (reg_val & 0xff00) >> 8; -+ eth_mac[1][5] = reg_val & 0x00ff; -+#endif -+ return; -+} -+ -+ -+/*---------------------------------------------------------------------- -+* mac_stop_txdma -+*----------------------------------------------------------------------*/ -+void mac_stop_txdma(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ GMAC_DMA_CTRL_T dma_ctrl, dma_ctrl_mask; -+ GMAC_TXDMA_FIRST_DESC_T txdma_busy; -+ -+ // wait idle -+ do -+ { -+ txdma_busy.bits32 = gmac_read_reg(tp->dma_base_addr, GMAC_DMA_TX_FIRST_DESC_REG); -+ } while (txdma_busy.bits.td_busy); -+ -+ /* program dma control register */ -+ dma_ctrl.bits32 = 0; -+ dma_ctrl.bits.rd_enable = 0; -+ dma_ctrl.bits.td_enable = 0; -+ -+ dma_ctrl_mask.bits32 = 0; -+ dma_ctrl_mask.bits.rd_enable = 1; -+ dma_ctrl_mask.bits.td_enable = 1; -+ -+ gmac_write_reg(tp->dma_base_addr, GMAC_DMA_CTRL_REG, dma_ctrl.bits32, dma_ctrl_mask.bits32); -+} -+ -+/*---------------------------------------------------------------------- -+* mac_start_txdma -+*----------------------------------------------------------------------*/ -+void mac_start_txdma(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ GMAC_DMA_CTRL_T dma_ctrl, dma_ctrl_mask; -+ -+ /* program dma control register */ -+ dma_ctrl.bits32 = 0; -+ dma_ctrl.bits.rd_enable = 1; -+ dma_ctrl.bits.td_enable = 1; -+ -+ dma_ctrl_mask.bits32 = 0; -+ dma_ctrl_mask.bits.rd_enable = 1; -+ dma_ctrl_mask.bits.td_enable = 1; -+ -+ gmac_write_reg(tp->dma_base_addr, GMAC_DMA_CTRL_REG, dma_ctrl.bits32, dma_ctrl_mask.bits32); -+} -+ -+ -+/*---------------------------------------------------------------------- -+* gmac_get_stats -+*----------------------------------------------------------------------*/ -+ -+struct net_device_stats * gmac_get_stats(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ // unsigned int flags; -+ unsigned int pkt_drop; -+ unsigned int pkt_error; -+ -+ if (netif_running(dev)) -+ { -+ /* read H/W counter */ -+ // spin_lock_irqsave(&tp->lock,flags); -+ pkt_drop = gmac_read_reg(tp->base_addr,GMAC_IN_DISCARDS); -+ pkt_error = gmac_read_reg(tp->base_addr,GMAC_IN_ERRORS); -+ tp->ifStatics.rx_dropped = tp->ifStatics.rx_dropped + pkt_drop; -+ tp->ifStatics.rx_errors = tp->ifStatics.rx_errors + pkt_error; -+ // spin_unlock_irqrestore(&tp->lock,flags); -+ } -+ return &tp->ifStatics; -+} -+ -+ -+ -+/*---------------------------------------------------------------------- -+* mac_get_sw_tx_weight -+*----------------------------------------------------------------------*/ -+void mac_get_sw_tx_weight(struct net_device *dev, char *weight) -+{ -+ GMAC_TX_WCR1_T sw_weigh; -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ -+ sw_weigh.bits32 = gmac_read_reg(tp->dma_base_addr, GMAC_TX_WEIGHTING_CTRL_1_REG); -+ -+ weight[0] = sw_weigh.bits.sw_tq0; -+ weight[1] = sw_weigh.bits.sw_tq1; -+ weight[2] = sw_weigh.bits.sw_tq2; -+ weight[3] = sw_weigh.bits.sw_tq3; -+ weight[4] = sw_weigh.bits.sw_tq4; -+ weight[5] = sw_weigh.bits.sw_tq5; -+} -+ -+/*---------------------------------------------------------------------- -+* mac_set_sw_tx_weight -+*----------------------------------------------------------------------*/ -+void mac_set_sw_tx_weight(struct net_device *dev, char *weight) -+{ -+ GMAC_TX_WCR1_T sw_weigh; -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ -+ sw_weigh.bits32 = 0; -+ sw_weigh.bits.sw_tq0 = weight[0]; -+ sw_weigh.bits.sw_tq1 = weight[1]; -+ sw_weigh.bits.sw_tq2 = weight[2]; -+ sw_weigh.bits.sw_tq3 = weight[3]; -+ sw_weigh.bits.sw_tq4 = weight[4]; -+ sw_weigh.bits.sw_tq5 = weight[5]; -+ -+ gmac_write_reg(tp->dma_base_addr, GMAC_TX_WEIGHTING_CTRL_1_REG, sw_weigh.bits32, 0xffffffff); -+} -+ -+/*---------------------------------------------------------------------- -+* mac_get_hw_tx_weight -+*----------------------------------------------------------------------*/ -+void mac_get_hw_tx_weight(struct net_device *dev, char *weight) -+{ -+ GMAC_TX_WCR0_T hw_weigh; -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ -+ hw_weigh.bits32 = gmac_read_reg(tp->dma_base_addr, GMAC_TX_WEIGHTING_CTRL_0_REG); -+ -+ weight[0] = hw_weigh.bits.hw_tq0; -+ weight[1] = hw_weigh.bits.hw_tq1; -+ weight[2] = hw_weigh.bits.hw_tq2; -+ weight[3] = hw_weigh.bits.hw_tq3; -+} -+ -+/*---------------------------------------------------------------------- -+* mac_set_hw_tx_weight -+*----------------------------------------------------------------------*/ -+void mac_set_hw_tx_weight(struct net_device *dev, char *weight) -+{ -+ GMAC_TX_WCR0_T hw_weigh; -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ -+ hw_weigh.bits32 = 0; -+ hw_weigh.bits.hw_tq0 = weight[0]; -+ hw_weigh.bits.hw_tq1 = weight[1]; -+ hw_weigh.bits.hw_tq2 = weight[2]; -+ hw_weigh.bits.hw_tq3 = weight[3]; -+ -+ gmac_write_reg(tp->dma_base_addr, GMAC_TX_WEIGHTING_CTRL_0_REG, hw_weigh.bits32, 0xffffffff); -+} -+ -+/*---------------------------------------------------------------------- -+* mac_start_tx_dma -+*----------------------------------------------------------------------*/ -+int mac_start_tx_dma(int mac) -+{ -+ GMAC_DMA_CTRL_T dma_ctrl, dma_ctrl_mask; -+ -+ dma_ctrl.bits32 = 0; -+ dma_ctrl.bits.td_enable = 1; -+ -+ dma_ctrl_mask.bits32 = 0; -+ dma_ctrl_mask.bits.td_enable = 1; -+ -+ if (mac == 0) -+ gmac_write_reg(TOE_GMAC0_DMA_BASE, GMAC_DMA_CTRL_REG, dma_ctrl.bits32, dma_ctrl_mask.bits32); -+ else -+ gmac_write_reg(TOE_GMAC1_DMA_BASE, GMAC_DMA_CTRL_REG, dma_ctrl.bits32, dma_ctrl_mask.bits32); -+ return 1; -+} -+ -+/*---------------------------------------------------------------------- -+* mac_stop_tx_dma -+*----------------------------------------------------------------------*/ -+int mac_stop_tx_dma(int mac) -+{ -+ GMAC_DMA_CTRL_T dma_ctrl, dma_ctrl_mask; -+ -+ dma_ctrl.bits32 = 0; -+ dma_ctrl.bits.td_enable = 0; -+ -+ dma_ctrl_mask.bits32 = 0; -+ dma_ctrl_mask.bits.td_enable = 1; -+ -+ if (mac == 0) -+ gmac_write_reg(TOE_GMAC0_DMA_BASE, GMAC_DMA_CTRL_REG, dma_ctrl.bits32, dma_ctrl_mask.bits32); -+ else -+ gmac_write_reg(TOE_GMAC1_DMA_BASE, GMAC_DMA_CTRL_REG, dma_ctrl.bits32, dma_ctrl_mask.bits32); -+ return 1; -+} -+ -+/*---------------------------------------------------------------------- -+* mac_read_reg(int mac, unsigned int offset) -+*----------------------------------------------------------------------*/ -+unsigned int mac_read_reg(int mac, unsigned int offset) -+{ -+ switch (mac) -+ { -+ case 0: -+ return gmac_read_reg(TOE_GMAC0_BASE, offset); -+ case 1: -+ return gmac_read_reg(TOE_GMAC1_BASE, offset); -+ default: -+ return 0; -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* mac_write_reg -+*----------------------------------------------------------------------*/ -+void mac_write_reg(int mac, unsigned int offset, unsigned data) -+{ -+ switch (mac) -+ { -+ case 0: -+ gmac_write_reg(GMAC0_BASE, offset, data, 0xffffffff); -+ break; -+ case 1: -+ gmac_write_reg(GMAC1_BASE, offset, data, 0xffffffff); -+ break; -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* mac_read_dma_reg(int mac, unsigned int offset) -+*----------------------------------------------------------------------*/ -+u32 mac_read_dma_reg(int mac, unsigned int offset) -+{ -+ switch (mac) -+ { -+ case 0: -+ return gmac_read_reg(TOE_GMAC0_DMA_BASE, offset); -+ case 1: -+ return gmac_read_reg(TOE_GMAC1_DMA_BASE, offset); -+ default: -+ return 0; -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* mac_write_dma_reg -+*----------------------------------------------------------------------*/ -+void mac_write_dma_reg(int mac, unsigned int offset, u32 data) -+{ -+ switch (mac) -+ { -+ case 0: -+ gmac_write_reg(TOE_GMAC0_DMA_BASE, offset, data, 0xffffffff); -+ break; -+ case 1: -+ gmac_write_reg(TOE_GMAC1_DMA_BASE, offset, data, 0xffffffff); -+ break; -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* ether_crc -+*----------------------------------------------------------------------*/ -+static unsigned const ethernet_polynomial = 0x04c11db7U; -+static unsigned int ether_crc (int length, unsigned char *data) -+{ -+ int crc = -1; -+ unsigned int i; -+ unsigned int crc_val=0; -+ -+ while (--length >= 0) { -+ unsigned char current_octet = *data++; -+ int bit; -+ for (bit = 0; bit < 8; bit++, current_octet >>= 1) -+ crc = (crc << 1) ^ ((crc < 0) ^ (current_octet & 1) ? -+ ethernet_polynomial : 0); -+ } -+ crc = ~crc; -+ for (i=0;i<32;i++) -+ { -+ crc_val = crc_val + (((crc << i) & 0x80000000) >> (31-i)); -+ } -+ return crc_val; -+} -+ -+ -+ -+/*---------------------------------------------------------------------- -+* mac_set_rx_mode -+*----------------------------------------------------------------------*/ -+void mac_set_rx_mode(int pid, unsigned int data) -+{ -+ unsigned int base; -+ -+ base = (pid == 0) ? GMAC0_BASE : GMAC1_BASE; -+ -+ gmac_write_reg(base, GMAC_RX_FLTR, data, 0x0000001f); -+ return; -+} -+ -+ -+/*---------------------------------------------------------------------- -+* gmac_open -+*----------------------------------------------------------------------*/ -+ -+static int gmac_open (struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ int retval; -+ TOE_INFO_T *toe; -+ toe = (TOE_INFO_T *)&toe_private_data; -+ -+ /* hook ISR */ -+ retval = request_irq (dev->irq, toe_gmac_interrupt, IRQF_DISABLED, dev->name, dev); -+ if (retval) -+ return retval; -+ -+ toe_init_gmac(dev); -+ -+ if(!FLAG_SWITCH) -+ { -+ init_waitqueue_head (&tp->thr_wait); -+ init_completion(&tp->thr_exited); -+ -+ tp->time_to_die = 0; -+ tp->thr_pid = kernel_thread (gmac_phy_thread, dev, CLONE_FS | CLONE_FILES); -+ if (tp->thr_pid < 0) -+ { -+ printk (KERN_WARNING "%s: unable to start kernel thread\n",dev->name); -+ } -+ } -+ -+ tp->operation = 1; -+ -+ netif_start_queue (dev); -+ -+ return (0); -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_close -+*----------------------------------------------------------------------*/ -+static int gmac_close(struct net_device *dev) -+{ -+ TOE_INFO_T *toe; -+// GMAC_RXDESC_T *sw_desc_ptr,*desc_ptr; -+// unsigned int buf_ptr; -+ GMAC_INFO_T *tp = dev->priv; -+ unsigned int ret; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ -+ tp->operation = 0; -+ -+ netif_stop_queue(dev); -+ mdelay(20); -+ -+ /* stop tx/rx packet */ -+ toe_gmac_disable_tx_rx(dev); -+ mdelay(20); -+ -+ /* stop the chip's Tx and Rx DMA processes */ -+ toe_gmac_hw_stop(dev); -+ -+ toe_gmac_disable_interrupt(tp->irq); -+ -+ /* disable interrupts by clearing the interrupt mask */ -+ synchronize_irq(); -+ free_irq(dev->irq,dev); -+ -+// DMA_MFREE(sw_desc_ptr, (TOE_SW_FREEQ_DESC_NUM * sizeof(GMAC_RXDESC_T),(dma_addr_t *)&toe->sw_freeq_desc_base_dma); -+// DMA_MFREE(desc_ptr, TOE_HW_FREEQ_DESC_NUM * sizeof(GMAC_RXDESC_T),(dma_addr_t *)&toe->hw_freeq_desc_base_dma); -+// DMA_MFREE(buf_ptr, TOE_HW_FREEQ_DESC_NUM) * HW_RX_BUF_SIZE),(dma_addr_t *)&toe->hwfq_buf_base_dma); -+// DMA_MFREE(toe->gmac[0].swtxq_desc_base , TOE_GMAC0_SWTXQ_DESC_NUM * TOE_SW_TXQ_NUM * sizeof(GMAC_TXDESC_T),(dma_addr_t *)&toe->gmac[0].swtxq_desc_base_dma); -+// DMA_MFREE(toe->gmac[1].swtxq_desc_base , TOE_GMAC0_SWTXQ_DESC_NUM * TOE_SW_TXQ_NUM * sizeof(GMAC_TXDESC_T),(dma_addr_t *)&toe->gmac[1].swtxq_desc_base_dma); -+// DMA_MFREE(toe->gmac[0].hwtxq_desc_base_dma , TOE_GMAC0_HWTXQ_DESC_NUM * TOE_HW_TXQ_NUM * sizeof(GMAC_TXDESC_T),(dma_addr_t *)&toe->gmac[0].hwtxq_desc_base_dma); -+// DMA_MFREE(toe->gmac[1].hwtxq_desc_base_dma , TOE_GMAC0_SWTXQ_DESC_NUM * TOE_HW_TXQ_NUM * sizeof(GMAC_TXDESC_T),(dma_addr_t *)&toe->gmac[1].hwtxq_desc_base_dma); -+// DMA_MFREE(toe->gmac[0].default_desc_base_dma ,TOE_DEFAULT_Q0_DESC_NUM * sizeof(GMAC_TXDESC_T),(dma_addr_t *)&toe->gmac[0].default_desc_base_dma); -+// DMA_MFREE(toe->gmac[1].default_desc_base_dma , TOE_DEFAULT_Q0_DESC_NUM * sizeof(GMAC_TXDESC_T),(dma_addr_t *)&toe->gmac[1].default_desc_base_dma); -+// DMA_MFREE(toe->intr_desc_base_dma , TOE_INTR_QUEUE_NUM * TOE_INTR_DESC_NUM * sizeof(GMAC_RXDESC_T),(dma_addr_t *)&toe->intr_desc_base_dma); -+// DMA_MFREE(toe->intr_buf_base_dma , TOE_INTR_DESC_NUM * sizeof(TOE_QHDR_T),(dma_addr_t *)&toe->intr_buf_base_dma); -+ -+ if(!FLAG_SWITCH) -+ { -+ if (tp->thr_pid >= 0) -+ { -+ tp->time_to_die = 1; -+ wmb(); -+ ret = kill_proc (tp->thr_pid, SIGTERM, 1); -+ if (ret) -+ { -+ printk (KERN_ERR "%s: unable to signal thread\n", dev->name); -+ return ret; -+ } -+// wait_for_completion (&tp->thr_exited); -+ } -+ } -+ -+ return (0); -+} -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_fill_free_q -+* allocate buffers for free queue. -+*----------------------------------------------------------------------*/ -+static inline void toe_gmac_fill_free_q(void) -+{ -+ struct sk_buff *skb; -+ volatile DMA_RWPTR_T fq_rwptr; -+ volatile GMAC_RXDESC_T *fq_desc; -+ unsigned long flags; -+ // unsigned short max_cnt=TOE_SW_FREEQ_DESC_NUM>>1; -+ -+ fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ spin_lock_irqsave(&gmac_fq_lock, flags); -+ //while ((max_cnt--) && (unsigned short)RWPTR_ADVANCE_ONE(fq_rwptr.bits.wptr, -+ // TOE_SW_FREEQ_DESC_NUM) != fq_rwptr.bits.rptr) { -+ while ((unsigned short)RWPTR_ADVANCE_ONE(fq_rwptr.bits.wptr, -+ TOE_SW_FREEQ_DESC_NUM) != fq_rwptr.bits.rptr) { -+ if ((skb = dev_alloc_skb(SW_RX_BUF_SIZE)) == NULL) { -+ printk("%s::skb allocation fail!\n", __func__); -+ //while(1); -+ break; -+ } -+ REG32(skb->data) = (unsigned int)skb; -+ skb_reserve(skb, SKB_RESERVE_BYTES); -+ // fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ fq_rwptr.bits.wptr = RWPTR_ADVANCE_ONE(fq_rwptr.bits.wptr, -+ TOE_SW_FREEQ_DESC_NUM); -+ fq_desc = (GMAC_RXDESC_T*)toe_private_data.swfq_desc_base+fq_rwptr.bits.wptr; -+ fq_desc->word2.buf_adr = (unsigned int)__pa(skb->data); -+ SET_WPTR(TOE_GLOBAL_BASE+GLOBAL_SWFQ_RWPTR_REG, fq_rwptr.bits.wptr); -+ toe_private_data.fq_rx_rwptr.bits32 = fq_rwptr.bits32; -+ } -+ spin_unlock_irqrestore(&gmac_fq_lock, flags); -+} -+// EXPORT_SYMBOL(toe_gmac_fill_free_q); -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_interrupt -+*----------------------------------------------------------------------*/ -+static irqreturn_t toe_gmac_interrupt (int irq, void *dev_instance) -+{ -+ struct net_device *dev = (struct net_device *)dev_instance; -+ TOE_INFO_T *toe; -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ unsigned int status0; -+ unsigned int status1; -+ unsigned int status2; -+ unsigned int status3; -+ unsigned int status4; -+ -+// struct net_device_stats *isPtr = (struct net_device_stats *)&tp->ifStatics; -+ toe = (TOE_INFO_T *)&toe_private_data; -+// handle NAPI -+#ifdef CONFIG_SL_NAPI -+if (storlink_ctl.pauseoff == 1) -+{ -+/* disable GMAC interrupt */ -+ //toe_gmac_disable_interrupt(tp->irq); -+ -+// isPtr->interrupts++; -+ /* read Interrupt status */ -+ status0 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_0_REG); -+ status1 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_1_REG); -+ status2 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_2_REG); -+ status3 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_3_REG); -+ status4 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_4_REG); -+ // prompt warning if status bit ON but not enabled -+#if 0 -+ if (status0 & ~tp->intr0_enabled) -+ printk("Intr 0 Status error. status = 0x%X, enable = 0x%X\n", -+ status0, tp->intr0_enabled); -+ if (status1 & ~tp->intr1_enabled) -+ printk("Intr 1 Status error. status = 0x%X, enable = 0x%X\n", -+ status1, tp->intr1_enabled); -+ if (status2 & ~tp->intr2_enabled) -+ printk("Intr 2 Status error. status = 0x%X, enable = 0x%X\n", -+ status2, tp->intr2_enabled); -+ if (status3 & ~tp->intr3_enabled) -+ printk("Intr 3 Status error. status = 0x%X, enable = 0x%X\n", -+ status3, tp->intr3_enabled); -+ if (status4 & ~tp->intr4_enabled) -+ printk("Intr 4 Status error. status = 0x%X, enable = 0x%X\n", -+ status4, tp->intr4_enabled); -+#endif -+ -+ if (status0) -+ writel(status0 & tp->intr0_enabled, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_STATUS_0_REG); -+ if (status1) -+ writel(status1 & tp->intr1_enabled, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_STATUS_1_REG); -+ if (status2) -+ writel(status2 & tp->intr2_enabled, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_STATUS_2_REG); -+ if (status3) -+ writel(status3 & tp->intr3_enabled, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_STATUS_3_REG); -+ if (status4) -+ writel(status4 & tp->intr4_enabled, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_STATUS_4_REG); -+#if 0 -+ /* handle freeq interrupt first */ -+ if (status4 & tp->intr4_enabled) { -+ if ((status4 & SWFQ_EMPTY_INT_BIT) && (tp->intr4_enabled & SWFQ_EMPTY_INT_BIT)) -+ { -+ // unsigned long data = REG32(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ //gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_ENABLE_4_REG, -+ // tp->intr4_enabled & ~SWFQ_EMPTY_INT_BIT, SWFQ_EMPTY_INT_BIT); -+ -+ if (toe->gmac[0].dev && netif_running(toe->gmac[0].dev)) -+ toe_gmac_handle_default_rxq(toe->gmac[0].dev,&toe->gmac[0]); -+ if (toe->gmac[1].dev && netif_running(toe->gmac[1].dev)) -+ toe_gmac_handle_default_rxq(toe->gmac[1].dev,&toe->gmac[1]); -+ printk("\nfreeq int\n"); -+ toe_gmac_fill_free_q(); -+ tp->sw_fq_empty_cnt++; -+ -+ } -+ } -+#endif -+ // Interrupt Status 1 -+ if (status1 & tp->intr1_enabled) -+ { -+ #define G1_INTR0_BITS (GMAC1_HWTQ13_EOF_INT_BIT | GMAC1_HWTQ12_EOF_INT_BIT | GMAC1_HWTQ11_EOF_INT_BIT | GMAC1_HWTQ10_EOF_INT_BIT) -+ #define G0_INTR0_BITS (GMAC0_HWTQ03_EOF_INT_BIT | GMAC0_HWTQ02_EOF_INT_BIT | GMAC0_HWTQ01_EOF_INT_BIT | GMAC0_HWTQ00_EOF_INT_BIT) -+ // Handle GMAC 0/1 HW Tx queue 0-3 EOF events -+ // Only count -+ // TOE, Classification, and default queues interrupts are handled by ISR -+ // because they should pass packets to upper layer -+ if (tp->port_id == 0) -+ { -+ if (netif_running(dev) && (status1 & G0_INTR0_BITS) && (tp->intr1_enabled & G0_INTR0_BITS)) -+ { -+ if (status1 & GMAC0_HWTQ03_EOF_INT_BIT) -+ tp->hwtxq[3].eof_cnt++; -+ if (status1 & GMAC0_HWTQ02_EOF_INT_BIT) -+ tp->hwtxq[2].eof_cnt++; -+ if (status1 & GMAC0_HWTQ01_EOF_INT_BIT) -+ tp->hwtxq[1].eof_cnt++; -+ if (status1 & GMAC0_HWTQ00_EOF_INT_BIT) -+ tp->hwtxq[0].eof_cnt++; -+ } -+ if (netif_running(dev) && (status1 & DEFAULT_Q0_INT_BIT) && (tp->intr1_enabled & DEFAULT_Q0_INT_BIT)) -+ { -+ if (likely(netif_rx_schedule_prep(dev))) -+ { -+ unsigned int data32; -+ // disable GMAC-0 rx interrupt -+ // class-Q & TOE-Q are implemented in future -+ //data32 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_1_REG); -+ //data32 &= ~DEFAULT_Q0_INT_BIT; -+ //writel(data32, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_1_REG); -+ //printk("\%s: DEFAULT_Q0_INT_BIT===================>>>>>>>>>>>>\n",__func__); -+ writel(0x0, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_ENABLE_1_REG); -+ //tp->total_q_cnt_napi=0; -+ //rx_time = jiffies; -+ //rx_old_bytes = isPtr->rx_bytes; -+ __netif_rx_schedule(dev); -+ } -+ } -+ } -+ else if (tp->port_id == 1) -+ { -+ if (netif_running(dev) && (status1 & G1_INTR0_BITS) && (tp->intr1_enabled & G1_INTR0_BITS)) -+ { -+ if (status1 & GMAC1_HWTQ13_EOF_INT_BIT) -+ tp->hwtxq[3].eof_cnt++; -+ if (status1 & GMAC1_HWTQ12_EOF_INT_BIT) -+ tp->hwtxq[2].eof_cnt++; -+ if (status1 & GMAC1_HWTQ11_EOF_INT_BIT) -+ tp->hwtxq[1].eof_cnt++; -+ if (status1 & GMAC1_HWTQ10_EOF_INT_BIT) -+ tp->hwtxq[0].eof_cnt++; -+ } -+ -+ if (netif_running(dev) && (status1 & DEFAULT_Q1_INT_BIT) && (tp->intr1_enabled & DEFAULT_Q1_INT_BIT)) -+ { -+ if (likely(netif_rx_schedule_prep(dev))) -+ { -+ unsigned int data32; -+ // disable GMAC-0 rx interrupt -+ // class-Q & TOE-Q are implemented in future -+ //data32 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_1_REG); -+ //data32 &= ~DEFAULT_Q1_INT_BIT; -+ //writel(data32, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_1_REG); -+ //printk("\%s: 1111111111--->DEFAULT_Q1_INT_BIT===================>>>>>>>>>>>>\n",__func__); -+ writel(0x0, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_ENABLE_1_REG); -+ //tp->total_q_cnt_napi=0; -+ //rx_time = jiffies; -+ //rx_old_bytes = isPtr->rx_bytes; -+ __netif_rx_schedule(dev); -+ } -+ } -+ } -+ } -+ -+ // Interrupt Status 0 -+ if (status0 & tp->intr0_enabled) -+ { -+ #define ERR_INTR_BITS (GMAC0_TXDERR_INT_BIT | GMAC0_TXPERR_INT_BIT | \ -+ GMAC1_TXDERR_INT_BIT | GMAC1_TXPERR_INT_BIT | \ -+ GMAC0_RXDERR_INT_BIT | GMAC0_RXPERR_INT_BIT | \ -+ GMAC1_RXDERR_INT_BIT | GMAC1_RXPERR_INT_BIT) -+ -+ if (status0 & ERR_INTR_BITS) -+ { -+ if ((status0 & GMAC0_TXDERR_INT_BIT) && (tp->intr0_enabled & GMAC0_TXDERR_INT_BIT)) -+ { -+ tp->txDerr_cnt[0]++; -+ printk("GMAC0 TX AHB Bus Error!\n"); -+ } -+ if ((status0 & GMAC0_TXPERR_INT_BIT) && (tp->intr0_enabled & GMAC0_TXPERR_INT_BIT)) -+ { -+ tp->txPerr_cnt[0]++; -+ printk("GMAC0 Tx Descriptor Protocol Error!\n"); -+ } -+ if ((status0 & GMAC1_TXDERR_INT_BIT) && (tp->intr0_enabled & GMAC1_TXDERR_INT_BIT)) -+ { -+ tp->txDerr_cnt[1]++; -+ printk("GMAC1 Tx AHB Bus Error!\n"); -+ } -+ if ((status0 & GMAC1_TXPERR_INT_BIT) && (tp->intr0_enabled & GMAC1_TXPERR_INT_BIT)) -+ { -+ tp->txPerr_cnt[1]++; -+ printk("GMAC1 Tx Descriptor Protocol Error!\n"); -+ } -+ -+ if ((status0 & GMAC0_RXDERR_INT_BIT) && (tp->intr0_enabled & GMAC0_RXDERR_INT_BIT)) -+ { -+ tp->RxDerr_cnt[0]++; -+ printk("GMAC0 Rx AHB Bus Error!\n"); -+ } -+ if ((status0 & GMAC0_RXPERR_INT_BIT) && (tp->intr0_enabled & GMAC0_RXPERR_INT_BIT)) -+ { -+ tp->RxPerr_cnt[0]++; -+ printk("GMAC0 Rx Descriptor Protocol Error!\n"); -+ } -+ if ((status0 & GMAC1_RXDERR_INT_BIT) && (tp->intr0_enabled & GMAC1_RXDERR_INT_BIT)) -+ { -+ tp->RxDerr_cnt[1]++; -+ printk("GMAC1 Rx AHB Bus Error!\n"); -+ } -+ if ((status0 & GMAC1_RXPERR_INT_BIT) && (tp->intr0_enabled & GMAC1_RXPERR_INT_BIT)) -+ { -+ tp->RxPerr_cnt[1]++; -+ printk("GMAC1 Rx Descriptor Protocol Error!\n"); -+ } -+ } -+ -+#ifndef GMAX_TX_INTR_DISABLED -+ if (tp->port_id == 1 && netif_running(dev) && -+ (((status0 & GMAC1_SWTQ10_FIN_INT_BIT) && (tp->intr0_enabled & GMAC1_SWTQ10_FIN_INT_BIT)) -+ || -+ ((status0 & GMAC1_SWTQ10_EOF_INT_BIT) && (tp->intr0_enabled & GMAC1_SWTQ10_EOF_INT_BIT)))) -+ { -+ toe_gmac_tx_complete(&toe_private_data.gmac[1], 0, dev, 1); -+ } -+ -+ if (tp->port_id == 0 && netif_running(dev) && -+ (((status0 & GMAC0_SWTQ00_FIN_INT_BIT) && (tp->intr0_enabled & GMAC0_SWTQ00_FIN_INT_BIT)) -+ || -+ ((status0 & GMAC0_SWTQ00_EOF_INT_BIT) && (tp->intr0_enabled & GMAC0_SWTQ00_EOF_INT_BIT)))) -+ { -+ toe_gmac_tx_complete(&toe_private_data.gmac[0], 0, dev, 1); -+ } -+#endif -+ } -+ // Interrupt Status 4 -+ if (status4 & tp->intr4_enabled) -+ { -+ #define G1_INTR4_BITS (0xff000000) -+ #define G0_INTR4_BITS (0x00ff0000) -+ -+ if (tp->port_id == 0) -+ { -+ if ((status4 & G0_INTR4_BITS) && (tp->intr4_enabled & G0_INTR4_BITS)) -+ { -+ if (status4 & GMAC0_RESERVED_INT_BIT) -+ printk("GMAC0_RESERVED_INT_BIT is ON\n"); -+ if (status4 & GMAC0_MIB_INT_BIT) -+ tp->mib_full_cnt++; -+ if (status4 & GMAC0_RX_PAUSE_ON_INT_BIT) -+ tp->rx_pause_on_cnt++; -+ if (status4 & GMAC0_TX_PAUSE_ON_INT_BIT) -+ tp->tx_pause_on_cnt++; -+ if (status4 & GMAC0_RX_PAUSE_OFF_INT_BIT) -+ tp->rx_pause_off_cnt++; -+ if (status4 & GMAC0_TX_PAUSE_OFF_INT_BIT) -+ tp->rx_pause_off_cnt++; -+ if (status4 & GMAC0_RX_OVERRUN_INT_BIT) -+ tp->rx_overrun_cnt++; -+ if (status4 & GMAC0_STATUS_CHANGE_INT_BIT) -+ tp->status_changed_cnt++; -+ } -+ } -+ else if (tp->port_id == 1) -+ { -+ if ((status4 & G1_INTR4_BITS) && (tp->intr4_enabled & G1_INTR4_BITS)) -+ { -+ if (status4 & GMAC1_RESERVED_INT_BIT) -+ printk("GMAC1_RESERVED_INT_BIT is ON\n"); -+ if (status4 & GMAC1_MIB_INT_BIT) -+ tp->mib_full_cnt++; -+ if (status4 & GMAC1_RX_PAUSE_ON_INT_BIT) -+ { -+ printk("Gmac pause on\n"); -+ tp->rx_pause_on_cnt++; -+ } -+ if (status4 & GMAC1_TX_PAUSE_ON_INT_BIT) -+ { -+ printk("Gmac pause on\n"); -+ tp->tx_pause_on_cnt++; -+ } -+ if (status4 & GMAC1_RX_PAUSE_OFF_INT_BIT) -+ { -+ printk("Gmac pause off\n"); -+ tp->rx_pause_off_cnt++; -+ } -+ if (status4 & GMAC1_TX_PAUSE_OFF_INT_BIT) -+ { -+ printk("Gmac pause off\n"); -+ tp->rx_pause_off_cnt++; -+ } -+ if (status4 & GMAC1_RX_OVERRUN_INT_BIT) -+ { -+ //printk("Gmac Rx Overrun \n"); -+ tp->rx_overrun_cnt++; -+ } -+ if (status4 & GMAC1_STATUS_CHANGE_INT_BIT) -+ tp->status_changed_cnt++; -+ } -+ } -+ } -+ -+ //toe_gmac_enable_interrupt(tp->irq); -+#ifdef IxscriptMate_1518 -+ if (storlink_ctl.pauseoff == 1) -+ { -+ GMAC_CONFIG0_T config0; -+ config0.bits32 = readl(TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits32 = readl(TOE_GMAC1_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ } -+#endif -+// enable_irq(gmac_irq[dev_index]); -+ //printk("gmac_interrupt complete!\n\n"); -+// return IRQ_RETVAL(handled); -+ return IRQ_RETVAL(1); -+} -+else -+{ -+#endif //endif NAPI -+ -+ -+ /* disable GMAC interrupt */ -+ toe_gmac_disable_interrupt(tp->irq); -+ -+// isPtr->interrupts++; -+ /* read Interrupt status */ -+ status0 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_0_REG); -+ status1 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_1_REG); -+ status2 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_2_REG); -+ status3 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_3_REG); -+ status4 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_4_REG); -+ // prompt warning if status bit ON but not enabled -+#if 0 -+ if (status0 & ~tp->intr0_enabled) -+ printk("Intr 0 Status error. status = 0x%X, enable = 0x%X\n", -+ status0, tp->intr0_enabled); -+ if (status1 & ~tp->intr1_enabled) -+ printk("Intr 1 Status error. status = 0x%X, enable = 0x%X\n", -+ status1, tp->intr1_enabled); -+ if (status2 & ~tp->intr2_enabled) -+ printk("Intr 2 Status error. status = 0x%X, enable = 0x%X\n", -+ status2, tp->intr2_enabled); -+ if (status3 & ~tp->intr3_enabled) -+ printk("Intr 3 Status error. status = 0x%X, enable = 0x%X\n", -+ status3, tp->intr3_enabled); -+ if (status4 & ~tp->intr4_enabled) -+ printk("Intr 4 Status error. status = 0x%X, enable = 0x%X\n", -+ status4, tp->intr4_enabled); -+#endif -+#define INTERRUPT_SELECT 1 -+ if (status0) -+ writel(status0 & tp->intr0_enabled, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_STATUS_0_REG); -+ if (status1) -+ writel(status1 & tp->intr1_enabled, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_STATUS_1_REG); -+ if (status2) -+ writel(status2 & tp->intr2_enabled, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_STATUS_2_REG); -+ if (status3) -+ writel(status3 & tp->intr3_enabled, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_STATUS_3_REG); -+ if (status4) -+ writel(status4 & tp->intr4_enabled, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_STATUS_4_REG); -+ -+ /* handle freeq interrupt first */ -+ if (status4 & tp->intr4_enabled) { -+ if ((status4 & SWFQ_EMPTY_INT_BIT) && (tp->intr4_enabled & SWFQ_EMPTY_INT_BIT)) -+ { -+ // unsigned long data = REG32(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ //gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_ENABLE_4_REG, -+ // tp->intr4_enabled & ~SWFQ_EMPTY_INT_BIT, SWFQ_EMPTY_INT_BIT); -+ -+ //gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_STATUS_4_REG, -+ // SWFQ_EMPTY_INT_BIT, SWFQ_EMPTY_INT_BIT); -+ if (toe->gmac[0].dev && netif_running(toe->gmac[0].dev)) -+ toe_gmac_handle_default_rxq(toe->gmac[0].dev,&toe->gmac[0]); -+ if (toe->gmac[1].dev && netif_running(toe->gmac[1].dev)) -+ toe_gmac_handle_default_rxq(toe->gmac[1].dev,&toe->gmac[1]); -+ printk("\nfreeq int\n"); -+ toe_gmac_fill_free_q(); -+ tp->sw_fq_empty_cnt++; -+ -+ gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_STATUS_4_REG, status4, -+ SWFQ_EMPTY_INT_BIT); -+ } -+ } -+ -+ // Interrupt Status 1 -+ if (status1 & tp->intr1_enabled) -+ { -+ #define G1_INTR0_BITS (GMAC1_HWTQ13_EOF_INT_BIT | GMAC1_HWTQ12_EOF_INT_BIT | GMAC1_HWTQ11_EOF_INT_BIT | GMAC1_HWTQ10_EOF_INT_BIT) -+ #define G0_INTR0_BITS (GMAC0_HWTQ03_EOF_INT_BIT | GMAC0_HWTQ02_EOF_INT_BIT | GMAC0_HWTQ01_EOF_INT_BIT | GMAC0_HWTQ00_EOF_INT_BIT) -+ // Handle GMAC 0/1 HW Tx queue 0-3 EOF events -+ // Only count -+ // TOE, Classification, and default queues interrupts are handled by ISR -+ // because they should pass packets to upper layer -+ if (tp->port_id == 0) -+ { -+#ifndef INTERRUPT_SELECT -+ if (netif_running(dev) && (status1 & G0_INTR0_BITS) && (tp->intr1_enabled & G0_INTR0_BITS)) -+ { -+ if (status1 & GMAC0_HWTQ03_EOF_INT_BIT) -+ tp->hwtxq[3].eof_cnt++; -+ if (status1 & GMAC0_HWTQ02_EOF_INT_BIT) -+ tp->hwtxq[2].eof_cnt++; -+ if (status1 & GMAC0_HWTQ01_EOF_INT_BIT) -+ tp->hwtxq[1].eof_cnt++; -+ if (status1 & GMAC0_HWTQ00_EOF_INT_BIT) -+ tp->hwtxq[0].eof_cnt++; -+#endif //INTERRUPT_SELECT -+#ifndef INTERRUPT_SELECT -+ } -+#endif //INTERRUPT_SELECT -+ if (netif_running(dev) && (status1 & DEFAULT_Q0_INT_BIT) && (tp->intr1_enabled & DEFAULT_Q0_INT_BIT)) -+ { -+ tp->default_q_intr_cnt++; -+ toe_gmac_handle_default_rxq(dev, tp); -+ } -+#ifdef CONFIG_SL351x_RXTOE -+ if (netif_running(dev) && (status1 & TOE_IQ_ALL_BITS) && -+ (tp->intr1_enabled & TOE_IQ_ALL_BITS)) { -+ //printk("status %x, bits %x, slct %x\n", status1, TOE_IQ_ALL_BITS, tp->intr1_selected); -+ toe_gmac_handle_toeq(dev, tp, status1); -+ //toe_gmac_handle_toeq(dev, toe, tp, status1); -+ } -+#endif -+ } -+ else if (tp->port_id == 1) -+ { -+#ifndef INTERRUPT_SELECT -+ if (netif_running(dev) && (status1 & G1_INTR0_BITS) && (tp->intr1_enabled & G1_INTR0_BITS)) -+ { -+ if (status1 & GMAC1_HWTQ13_EOF_INT_BIT) -+ tp->hwtxq[3].eof_cnt++; -+ if (status1 & GMAC1_HWTQ12_EOF_INT_BIT) -+ tp->hwtxq[2].eof_cnt++; -+ if (status1 & GMAC1_HWTQ11_EOF_INT_BIT) -+ tp->hwtxq[1].eof_cnt++; -+ if (status1 & GMAC1_HWTQ10_EOF_INT_BIT) -+ tp->hwtxq[0].eof_cnt++; -+#endif //INTERRUPT_SELECT -+#ifndef INTERRUPT_SELECT -+ } -+#endif //INTERRUPT_SELECT -+ if (netif_running(dev) && (status1 & DEFAULT_Q1_INT_BIT) && (tp->intr1_enabled & DEFAULT_Q1_INT_BIT)) -+ { -+ tp->default_q_intr_cnt++; -+ toe_gmac_handle_default_rxq(dev, tp); -+ } -+#ifdef CONFIG_SL351x_RXTOE -+ if (netif_running(dev) && (status1 & TOE_IQ_ALL_BITS) && -+ (tp->intr1_enabled & TOE_IQ_ALL_BITS)) { -+ //printk("status %x, bits %x, slct %x\n", status1, TOE_IQ_ALL_BITS, tp->intr1_selected); -+ toe_gmac_handle_toeq(dev, tp, status1); -+ //toe_gmac_handle_toeq(dev, toe, tp, status1); -+ } -+#endif -+ } -+ } -+ -+ -+ // Interrupt Status 0 -+ if (status0 & tp->intr0_enabled) -+ { -+ -+ #define ERR_INTR_BITS (GMAC0_TXDERR_INT_BIT | GMAC0_TXPERR_INT_BIT | \ -+ GMAC1_TXDERR_INT_BIT | GMAC1_TXPERR_INT_BIT | \ -+ GMAC0_RXDERR_INT_BIT | GMAC0_RXPERR_INT_BIT | \ -+ GMAC1_RXDERR_INT_BIT | GMAC1_RXPERR_INT_BIT) -+#ifndef INTERRUPT_SELECT -+ if (status0 & ERR_INTR_BITS) -+ { -+ if ((status0 & GMAC0_TXDERR_INT_BIT) && (tp->intr0_enabled & GMAC0_TXDERR_INT_BIT)) -+ { -+ tp->txDerr_cnt[0]++; -+ printk("GMAC0 TX AHB Bus Error!\n"); -+ } -+ if ((status0 & GMAC0_TXPERR_INT_BIT) && (tp->intr0_enabled & GMAC0_TXPERR_INT_BIT)) -+ { -+ tp->txPerr_cnt[0]++; -+ printk("GMAC0 Tx Descriptor Protocol Error!\n"); -+ } -+ if ((status0 & GMAC1_TXDERR_INT_BIT) && (tp->intr0_enabled & GMAC1_TXDERR_INT_BIT)) -+ { -+ tp->txDerr_cnt[1]++; -+ printk("GMAC1 Tx AHB Bus Error!\n"); -+ } -+ if ((status0 & GMAC1_TXPERR_INT_BIT) && (tp->intr0_enabled & GMAC1_TXPERR_INT_BIT)) -+ { -+ tp->txPerr_cnt[1]++; -+ printk("GMAC1 Tx Descriptor Protocol Error!\n"); -+ } -+ -+ if ((status0 & GMAC0_RXDERR_INT_BIT) && (tp->intr0_enabled & GMAC0_RXDERR_INT_BIT)) -+ { -+ tp->RxDerr_cnt[0]++; -+ printk("GMAC0 Rx AHB Bus Error!\n"); -+ } -+ if ((status0 & GMAC0_RXPERR_INT_BIT) && (tp->intr0_enabled & GMAC0_RXPERR_INT_BIT)) -+ { -+ tp->RxPerr_cnt[0]++; -+ printk("GMAC0 Rx Descriptor Protocol Error!\n"); -+ } -+ if ((status0 & GMAC1_RXDERR_INT_BIT) && (tp->intr0_enabled & GMAC1_RXDERR_INT_BIT)) -+ { -+ tp->RxDerr_cnt[1]++; -+ printk("GMAC1 Rx AHB Bus Error!\n"); -+ } -+ if ((status0 & GMAC1_RXPERR_INT_BIT) && (tp->intr0_enabled & GMAC1_RXPERR_INT_BIT)) -+ { -+ tp->RxPerr_cnt[1]++; -+ printk("GMAC1 Rx Descriptor Protocol Error!\n"); -+ } -+ } -+#endif //INTERRUPT_SELECT -+#ifndef GMAX_TX_INTR_DISABLED -+ if (tp->port_id == 1 && netif_running(dev) && -+ (((status0 & GMAC1_SWTQ10_FIN_INT_BIT) && (tp->intr0_enabled & GMAC1_SWTQ10_FIN_INT_BIT)) -+ || -+ ((status0 & GMAC1_SWTQ10_EOF_INT_BIT) && (tp->intr0_enabled & GMAC1_SWTQ10_EOF_INT_BIT)))) -+ { -+ toe_gmac_tx_complete(&toe_private_data.gmac[1], 0, dev, 1); -+ } -+ -+ if (tp->port_id == 0 && netif_running(dev) && -+ (((status0 & GMAC0_SWTQ00_FIN_INT_BIT) && (tp->intr0_enabled & GMAC0_SWTQ00_FIN_INT_BIT)) -+ || -+ ((status0 & GMAC0_SWTQ00_EOF_INT_BIT) && (tp->intr0_enabled & GMAC0_SWTQ00_EOF_INT_BIT)))) -+ { -+ toe_gmac_tx_complete(&toe_private_data.gmac[0], 0, dev, 1); -+ } -+#endif -+ // clear enabled status bits -+ } -+ // Interrupt Status 4 -+#ifndef INTERRUPT_SELECT -+ if (status4 & tp->intr4_enabled) -+ { -+ #define G1_INTR4_BITS (0xff000000) -+ #define G0_INTR4_BITS (0x00ff0000) -+ -+ if (tp->port_id == 0) -+ { -+ if ((status4 & G0_INTR4_BITS) && (tp->intr4_enabled & G0_INTR4_BITS)) -+ { -+ if (status4 & GMAC0_RESERVED_INT_BIT) -+ printk("GMAC0_RESERVED_INT_BIT is ON\n"); -+ if (status4 & GMAC0_MIB_INT_BIT) -+ tp->mib_full_cnt++; -+ if (status4 & GMAC0_RX_PAUSE_ON_INT_BIT) -+ tp->rx_pause_on_cnt++; -+ if (status4 & GMAC0_TX_PAUSE_ON_INT_BIT) -+ tp->tx_pause_on_cnt++; -+ if (status4 & GMAC0_RX_PAUSE_OFF_INT_BIT) -+ tp->rx_pause_off_cnt++; -+ if (status4 & GMAC0_TX_PAUSE_OFF_INT_BIT) -+ tp->rx_pause_off_cnt++; -+ if (status4 & GMAC0_RX_OVERRUN_INT_BIT) -+ tp->rx_overrun_cnt++; -+ if (status4 & GMAC0_STATUS_CHANGE_INT_BIT) -+ tp->status_changed_cnt++; -+ } -+ } -+ else if (tp->port_id == 1) -+ { -+ if ((status4 & G1_INTR4_BITS) && (tp->intr4_enabled & G1_INTR4_BITS)) -+ { -+ if (status4 & GMAC1_RESERVED_INT_BIT) -+ printk("GMAC1_RESERVED_INT_BIT is ON\n"); -+ if (status4 & GMAC1_MIB_INT_BIT) -+ tp->mib_full_cnt++; -+ if (status4 & GMAC1_RX_PAUSE_ON_INT_BIT) -+ { -+ //printk("Gmac pause on\n"); -+ tp->rx_pause_on_cnt++; -+ } -+ if (status4 & GMAC1_TX_PAUSE_ON_INT_BIT) -+ { -+ //printk("Gmac pause on\n"); -+ tp->tx_pause_on_cnt++; -+ } -+ if (status4 & GMAC1_RX_PAUSE_OFF_INT_BIT) -+ { -+ //printk("Gmac pause off\n"); -+ tp->rx_pause_off_cnt++; -+ } -+ if (status4 & GMAC1_TX_PAUSE_OFF_INT_BIT) -+ { -+ //printk("Gmac pause off\n"); -+ tp->rx_pause_off_cnt++; -+ } -+ if (status4 & GMAC1_RX_OVERRUN_INT_BIT) -+ { -+ //printk("Gmac Rx Overrun \n"); -+ tp->rx_overrun_cnt++; -+ } -+ if (status4 & GMAC1_STATUS_CHANGE_INT_BIT) -+ tp->status_changed_cnt++; -+ } -+ } -+#if 0 -+ if ((status4 & SWFQ_EMPTY_INT_BIT) && (tp->intr4_enabled & SWFQ_EMPTY_INT_BIT)) -+ { -+ // unsigned long data = REG32(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+// mac_stop_rxdma(tp->sc); -+ gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_ENABLE_4_REG, -+ tp->intr4_enabled & ~SWFQ_EMPTY_INT_BIT, SWFQ_EMPTY_INT_BIT); -+ -+ gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_STATUS_4_REG, -+ SWFQ_EMPTY_INT_BIT, SWFQ_EMPTY_INT_BIT); -+ toe_gmac_fill_free_q(); -+ tp->sw_fq_empty_cnt++; -+ -+ gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_STATUS_4_REG, status4, -+ SWFQ_EMPTY_INT_BIT); -+//#if 0 -+/* if (netif_running(dev)) -+ toe_gmac_handle_default_rxq(dev, tp); -+ printk("SWFQ_EMPTY_INT_BIT is ON!\n"); // should not be happened */ -+//#endif -+ } -+#endif -+ } -+#endif //INTERRUPT_SELECT -+ toe_gmac_enable_interrupt(tp->irq); -+//enable gmac rx function when do RFC 2544 -+#ifdef IxscriptMate_1518 -+ if (storlink_ctl.pauseoff == 1) -+ { -+ GMAC_CONFIG0_T config0; -+ config0.bits32 = readl(TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits32 = readl(TOE_GMAC1_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ } -+#endif -+ //printk("gmac_interrupt complete!\n\n"); -+// return IRQ_RETVAL(handled); -+ return IRQ_RETVAL(1); -+#ifdef CONFIG_SL_NAPI -+} -+#endif -+} -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_handle_default_rxq -+* (1) Get rx Buffer for default Rx queue -+* (2) notify or call upper-routine to handle it -+* (3) get a new buffer and insert it into SW free queue -+* (4) Note: The SW free queue Read-Write Pointer should be locked when accessing -+*----------------------------------------------------------------------*/ -+//static inline void toe_gmac_handle_default_rxq(struct net_device *dev, GMAC_INFO_T *tp) -+static void toe_gmac_handle_default_rxq(struct net_device *dev, GMAC_INFO_T *tp) -+{ -+ TOE_INFO_T *toe; -+ GMAC_RXDESC_T *curr_desc; -+ struct sk_buff *skb; -+ DMA_RWPTR_T rwptr; -+ unsigned int pkt_size; -+ int max_cnt; -+ unsigned int desc_count; -+ unsigned int good_frame, chksum_status, rx_status; -+ struct net_device_stats *isPtr = (struct net_device_stats *)&tp->ifStatics; -+ -+//when do ixia RFC 2544 test and packet size is select 1518 bytes,disable gmace rx function immediately after one interrupt come in. -+#ifdef IxscriptMate_1518 -+ if (storlink_ctl.pauseoff == 1) -+ { -+ GMAC_CONFIG0_T config0; -+ config0.bits32 = readl(TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 1; -+ writel(config0.bits32, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits32 = readl(TOE_GMAC1_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 1; -+ writel(config0.bits32, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ } -+#endif -+ rwptr.bits32 = readl(&tp->default_qhdr->word1); -+#if 0 -+ if (rwptr.bits.rptr != tp->rx_rwptr.bits.rptr) -+ { -+ mac_stop_txdma((struct net_device *)tp->dev); -+ printk("Default Queue HW RD ptr (0x%x) != SW RD Ptr (0x%x)\n", -+ rwptr.bits32, tp->rx_rwptr.bits.rptr); -+ while(1); -+ } -+#endif -+ toe = (TOE_INFO_T *)&toe_private_data; -+ max_cnt = DEFAULT_RXQ_MAX_CNT; -+ while ((--max_cnt) && rwptr.bits.rptr != rwptr.bits.wptr) -+// while (rwptr.bits.rptr != rwptr.bits.wptr) -+ { -+//if packet size is not 1518 for RFC 2544,enable gmac rx function.The other packet size have RX workaround. -+#ifdef IxscriptMate_1518 -+ if (storlink_ctl.pauseoff == 1) -+ { -+ if (pkt_size != 1514) -+ { -+ GMAC_CONFIG0_T config0; -+ config0.bits32 = readl(TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits32 = readl(TOE_GMAC1_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ } -+ } -+#endif -+ curr_desc = (GMAC_RXDESC_T *)tp->default_desc_base + rwptr.bits.rptr; -+// consistent_sync(curr_desc, sizeof(GMAC_RXDESC_T), PCI_DMA_FROMDEVICE); -+ tp->default_q_cnt++; -+ tp->rx_curr_desc = (unsigned int)curr_desc; -+ rx_status = curr_desc->word0.bits.status; -+ chksum_status = curr_desc->word0.bits.chksum_status; -+ tp->rx_status_cnt[rx_status]++; -+ tp->rx_chksum_cnt[chksum_status]++; -+ pkt_size = curr_desc->word1.bits.byte_count; /*total byte count in a frame*/ -+ desc_count = curr_desc->word0.bits.desc_count; /* get descriptor count per frame */ -+ good_frame=1; -+ if ((curr_desc->word0.bits32 & (GMAC_RXDESC_0_T_derr | GMAC_RXDESC_0_T_perr)) -+ || (pkt_size < 60) -+ || (chksum_status & 0x4) -+ || rx_status) -+ { -+ good_frame = 0; -+ if (curr_desc->word0.bits32 & GMAC_RXDESC_0_T_derr) -+ printk("%s::derr (GMAC-%d)!!!\n", __func__, tp->port_id); -+ if (curr_desc->word0.bits32 & GMAC_RXDESC_0_T_perr) -+ printk("%s::perr (GMAC-%d)!!!\n", __func__, tp->port_id); -+ if (rx_status) -+ { -+ if (rx_status == 4 || rx_status == 7) -+ isPtr->rx_crc_errors++; -+// printk("%s::Status=%d (GMAC-%d)!!!\n", __func__, rx_status, tp->port_id); -+ } -+#ifdef SL351x_GMAC_WORKAROUND -+ else if (pkt_size < 60) -+ { -+ if (tp->short_frames_cnt < GMAC_SHORT_FRAME_THRESHOLD) -+ tp->short_frames_cnt++; -+ if (tp->short_frames_cnt >= GMAC_SHORT_FRAME_THRESHOLD) -+ { -+ GMAC_CONFIG0_T config0; -+ config0.bits32 = readl(TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 1; -+ writel(config0.bits32, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits32 = readl(TOE_GMAC1_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 1; -+ writel(config0.bits32, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ } -+ } -+#endif -+// if (chksum_status) -+// printk("%s::Checksum Status=%d (GMAC-%d)!!!\n", __func__, chksum_status, tp->port_id); -+ skb = (struct sk_buff *)(REG32(__va(curr_desc->word2.buf_adr) - SKB_RESERVE_BYTES)); -+ dev_kfree_skb_irq(skb); -+ } -+ if (good_frame) -+ { -+ if (curr_desc->word0.bits.drop) -+ printk("%s::Drop (GMAC-%d)!!!\n", __func__, tp->port_id); -+// if (chksum_status) -+// printk("%s::Checksum Status=%d (GMAC-%d)!!!\n", __func__, chksum_status, tp->port_id); -+ -+ /* get frame information from the first descriptor of the frame */ -+#ifdef SL351x_GMAC_WORKAROUND -+ if (tp->short_frames_cnt >= GMAC_SHORT_FRAME_THRESHOLD) -+ { -+ GMAC_CONFIG0_T config0; -+ config0.bits32 = readl(TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits32 = readl(TOE_GMAC1_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ } -+ tp->short_frames_cnt = 0; -+#endif -+ isPtr->rx_packets++; -+ skb = (struct sk_buff *)(REG32(__va(curr_desc->word2.buf_adr - SKB_RESERVE_BYTES))); -+ if (!skb) -+ { -+ printk("Fatal Error!!skb==NULL\n"); -+ goto next_rx; -+ } -+ tp->curr_rx_skb = skb; -+ // consistent_sync((void *)__va(curr_desc->word2.buf_adr), pkt_size, PCI_DMA_FROMDEVICE); -+ -+ // curr_desc->word2.buf_adr = 0; -+ -+ skb_reserve (skb, RX_INSERT_BYTES); /* 16 byte align the IP fields. */ -+ skb_put(skb, pkt_size); -+ skb->dev = dev; -+ if (chksum_status == RX_CHKSUM_IP_UDP_TCP_OK) -+ { -+ skb->ip_summed = CHECKSUM_UNNECESSARY; -+#ifdef CONFIG_SL351x_NAT -+ if (nat_cfg.enabled && curr_desc->word3.bits.l3_offset && curr_desc->word3.bits.l4_offset) -+ { -+ struct iphdr *ip_hdr; -+ ip_hdr = (struct iphdr *)&(skb->data[curr_desc->word3.bits.l3_offset]); -+ sl351x_nat_input(skb, -+ tp->port_id, -+ (void *)curr_desc->word3.bits.l3_offset, -+ (void *)curr_desc->word3.bits.l4_offset); -+ } -+#endif -+ skb->protocol = eth_type_trans(skb,dev); /* set skb protocol */ -+#if 0 -+#ifdef CONFIG_SL351x_RXTOE -+ if (storlink_ctl.rx_max_pktsize) { -+ struct iphdr *ip_hdr; -+ struct tcphdr *tcp_hdr; -+ int ip_hdrlen; -+ -+ ip_hdr = (struct iphdr*)&(skb->data[0]); -+ if ((skb->protocol == __constant_htons(ETH_P_IP)) && -+ ((ip_hdr->protocol & 0x00ff) == IPPROTO_TCP)) { -+ ip_hdrlen = ip_hdr->ihl << 2; -+ tcp_hdr = (struct tcphdr*)&(skb->data[ip_hdrlen]); -+ if (tcp_hdr->syn) { -+ struct toe_conn* connection = init_toeq(ip_hdr->version, -+ ip_hdr, tcp_hdr, toe, &(skb->data[0]) - 14); -+ TCP_SKB_CB(skb)->connection = connection; -+ // hash_dump_entry(TCP_SKB_CB(skb)->connection->hash_entry_index); -+ // printk("%s::skb data %x, conn %x, mode %x\n", -+ // __func__, skb->data, connection, connection->mode); -+ } -+ } -+ } -+#endif -+#endif -+ } -+ else if (chksum_status == RX_CHKSUM_IP_OK_ONLY) -+ { -+ skb->ip_summed = CHECKSUM_UNNECESSARY; -+#ifdef CONFIG_SL351x_NAT -+ if (nat_cfg.enabled && curr_desc->word3.bits.l3_offset && curr_desc->word3.bits.l4_offset) -+ { -+ struct iphdr *ip_hdr; -+ //struct tcphdr *tcp_hdr; -+ ip_hdr = (struct iphdr *)&(skb->data[curr_desc->word3.bits.l3_offset]); -+ //tcp_hdr = (struct tcphdr *)&(skb->data[curr_desc->word3.bits.l4_offset]); -+ if (ip_hdr->protocol == IPPROTO_UDP) -+ { -+ sl351x_nat_input(skb, -+ tp->port_id, -+ (void *)curr_desc->word3.bits.l3_offset, -+ (void *)curr_desc->word3.bits.l4_offset); -+ } -+ else if (ip_hdr->protocol == IPPROTO_GRE) -+ { -+ sl351x_nat_input(skb, -+ tp->port_id, -+ (void *)curr_desc->word3.bits.l3_offset, -+ (void *)curr_desc->word3.bits.l4_offset); -+ } -+ } -+#endif -+ skb->protocol = eth_type_trans(skb,dev); /* set skb protocol */ -+ } -+ else -+ { -+ skb->protocol = eth_type_trans(skb,dev); /* set skb protocol */ -+ } -+ -+ netif_rx(skb); /* socket rx */ -+ dev->last_rx = jiffies; -+ -+ isPtr->rx_bytes += pkt_size; -+ -+ } -+ -+next_rx: -+ // advance one for Rx default Q 0/1 -+ rwptr.bits.rptr = RWPTR_ADVANCE_ONE(rwptr.bits.rptr, tp->default_desc_num); -+ SET_RPTR(&tp->default_qhdr->word1, rwptr.bits.rptr); -+ tp->rx_rwptr.bits32 = rwptr.bits32; -+ -+ toe_gmac_fill_free_q(); -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_get_phy_vendor -+*----------------------------------------------------------------------*/ -+static unsigned int gmac_get_phy_vendor(int phy_addr) -+{ -+ unsigned int reg_val; -+ reg_val=(mii_read(phy_addr,0x02) << 16) + mii_read(phy_addr,0x03); -+ return reg_val; -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_set_phy_status -+*----------------------------------------------------------------------*/ -+void gmac_set_phy_status(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = dev->priv; -+ GMAC_STATUS_T status; -+ unsigned int reg_val, ability,wan_port_id; -+ unsigned int i = 0; -+ -+#ifdef VITESSE_G5SWITCH -+ if((tp->port_id == GMAC_PORT1)&&(Giga_switch==1)){ -+#if 0 -+ rcv_mask = SPI_read(2,0,0x10); // Receive mask -+ rcv_mask |= 0x4F; -+ for(i=0;i<4;i++){ -+ reg_val = BIT(26)|(i<<21)|(10<<16); -+ SPI_write(3,0,1,reg_val); -+ msleep(10); -+ reg_val = SPI_read(3,0,2); -+ if(reg_val & 0x0c00){ -+ printk("Port%d:Giga mode\n",i); -+ SPI_write(1,i,0x00,0x300701B1); -+ SPI_write(1,i,0x00,0x10070181); -+ switch_pre_link[i]=LINK_UP; -+ switch_pre_speed[i]=GMAC_SPEED_1000; -+ } -+ else{ -+ reg_val = BIT(26)|(i<<21)|(5<<16); -+ SPI_write(3,0,1,reg_val); -+ msleep(10); -+ ability = (reg_val = SPI_read(3,0,2)&0x5e0) >>5; -+ if ((ability & 0x0C)) /* 100M full duplex */ -+ { -+ SPI_write(1,i,0x00,0x30050472); -+ SPI_write(1,i,0x00,0x10050442); -+ printk("Port%d:100M\n",i); -+ switch_pre_link[i]=LINK_UP; -+ switch_pre_speed[i]=GMAC_SPEED_100; -+ } -+ else if((ability & 0x03)) /* 10M full duplex */ -+ { -+ SPI_write(1,i,0x00,0x30050473); -+ SPI_write(1,i,0x00,0x10050443); -+ printk("Port%d:10M\n",i); -+ switch_pre_link[i]=LINK_UP; -+ switch_pre_speed[i]=GMAC_SPEED_10; -+ } -+ else{ -+ SPI_write(1,i,0x00,BIT(16)); // disable RX -+ SPI_write(5,0,0x0E,BIT(i)); // dicard packet -+ while((SPI_read(5,0,0x0C)&BIT(i))==0) // wait to be empty -+ msleep(1); -+ -+ SPI_write(1,i,0x00,0x20000030); // PORT_RST -+ switch_pre_link[i]=LINK_DOWN; -+ switch_pre_speed[i]=GMAC_SPEED_10; -+ rcv_mask &= ~BIT(i); -+ SPI_write(2,0,0x10,rcv_mask); // Disable Receive -+ } -+ } -+ } -+#endif -+ gmac_get_switch_status(dev); -+ gmac_write_reg(tp->base_addr, GMAC_STATUS, 0x7d, 0x0000007f); -+// SPI_write(2,0,0x10,rcv_mask); // Enable Receive -+ return ; -+ } -+#endif -+ -+ reg_val = gmac_get_phy_vendor(tp->phy_addr); -+ printk("GMAC-%d Addr %d Vendor ID: 0x%08x\n", tp->port_id, tp->phy_addr, reg_val); -+ -+ switch (tp->phy_mode) -+ { -+ case GMAC_PHY_GMII: -+ mii_write(tp->phy_addr,0x04,0x05e1); /* advertisement 100M full duplex, pause capable on */ -+ #ifdef CONFIG_SL3516_ASIC -+ mii_write(tp->phy_addr,0x09,0x0300); /* advertise 1000M full/half duplex */ -+ #else -+ mii_write(tp->phy_addr,0x09,0x0000); /* advertise no 1000M full/half duplex */ -+ #endif -+ break; -+ case GMAC_PHY_RGMII_100: -+ mii_write(tp->phy_addr,0x04,0x05e1); /* advertisement 100M full duplex, pause capable on */ -+ mii_write(tp->phy_addr,0x09,0x0000); /* advertise no 1000M */ -+ break; -+ case GMAC_PHY_RGMII_1000: -+ mii_write(tp->phy_addr,0x04,0x05e1); /* advertisement 100M full duplex, pause capable on */ -+ #ifdef CONFIG_SL3516_ASIC -+ mii_write(tp->phy_addr,0x09,0x0300); /* advertise 1000M full/half duplex */ -+ #else -+ mii_write(tp->phy_addr,0x09,0x0000); /* advertise no 1000M full/half duplex */ -+ #endif -+ break; -+ case GMAC_PHY_MII: -+ default: -+ mii_write(tp->phy_addr,0x04,0x05e1); /* advertisement 100M full duplex, pause capable on */ -+ mii_write(tp->phy_addr,0x09,0x0000); /* advertise no 1000M */ -+ break; -+ } -+ -+ mii_write(tp->phy_addr,0x18,0x0041); // Phy active led -+ if (tp->auto_nego_cfg) -+ { -+ reg_val = 0x1200 | (1 << 15); -+ mii_write(tp->phy_addr,0x00,reg_val); /* Enable and Restart Auto-Negotiation */ -+ mdelay(500); -+ reg_val &= ~(1 << 15); -+ mii_write(tp->phy_addr, 0x00, reg_val); -+ } -+ else -+ { -+ reg_val = 0; -+ reg_val |= (tp->full_duplex_cfg) ? (1 << 8) : 0; -+ reg_val |= (tp->speed_cfg == GMAC_SPEED_1000) ? (1 << 6) : 0; -+ reg_val |= (tp->speed_cfg == GMAC_SPEED_100) ? (1 << 13) : 0; -+ mii_write(tp->phy_addr, 0x00, reg_val); -+ mdelay(100); -+ -+ reg_val |= (1 << 15); // Reset PHY; -+ mii_write(tp->phy_addr, 0x00, reg_val); -+ } -+ -+ status.bits32 = 0; -+ /* set PHY operation mode */ -+ status.bits.mii_rmii = tp->phy_mode; -+ status.bits.reserved = 1; -+ mdelay(100); -+ while (((reg_val=mii_read(tp->phy_addr,0x01)) & 0x00000004)!=0x04) -+ { -+ msleep(100); -+ i++; -+ if (i > 30) -+ break; -+ } -+ if (i>30) -+ { -+ tp->pre_phy_status = LINK_DOWN; -+ status.bits.link = LINK_DOWN; -+ // clear_bit(__LINK_STATE_START, &dev->state); -+ printk("Link Down (0x%04x) ", reg_val); -+ if(Giga_switch == 1) -+ { -+ wan_port_id = 1; -+#ifdef CONFIG_SL351x_SYSCTL -+ storlink_ctl.link[ wan_port_id] = 0; -+#endif -+ } -+ else -+ { -+#ifdef CONFIG_SL351x_SYSCTL -+ storlink_ctl.link[ tp->port_id] = 0; -+#endif -+ } -+ } -+ else -+ { -+ tp->pre_phy_status = LINK_UP; -+ status.bits.link = LINK_UP; -+ // set_bit(__LINK_STATE_START, &dev->state); -+ printk("Link Up (0x%04x) ",reg_val); -+ if(Giga_switch == 1) -+ { -+ wan_port_id = 1; -+#ifdef CONFIG_SL351x_SYSCTL -+ storlink_ctl.link[ wan_port_id] = 1; -+#endif -+ } -+ else -+ { -+#ifdef CONFIG_SL351x_SYSCTL -+ storlink_ctl.link[ tp->port_id] = 1; -+#endif -+ } -+ } -+ // value = mii_read(PHY_ADDR,0x05); -+ -+ ability = (mii_read(tp->phy_addr,0x05) & 0x05E0) >> 5; -+ -+ //#ifdef CONFIG_SL3516_ASIC -+ reg_val = mii_read(tp->phy_addr,10); -+ printk("MII REG 10 = 0x%x\n",reg_val); -+ -+ if ((reg_val & 0x0800) == 0x0800) -+ { -+ status.bits.duplex = 1; -+ status.bits.speed = 2; -+ if (status.bits.mii_rmii == GMAC_PHY_RGMII_100) -+ status.bits.mii_rmii = GMAC_PHY_RGMII_1000; -+ -+ printk(" 1000M/Full \n"); -+ } -+ else if ((reg_val & 0x0400) == 0x0400) -+ { -+ status.bits.duplex = 0; -+ status.bits.speed = 2; -+ if (status.bits.mii_rmii == GMAC_PHY_RGMII_100) -+ status.bits.mii_rmii = GMAC_PHY_RGMII_1000; -+ -+ printk(" 1000M/Half \n"); -+ } -+ //#endif -+ else -+ { -+ #ifdef CONFIG_SL3516_ASIC -+ if (status.bits.mii_rmii == GMAC_PHY_RGMII_1000) -+ status.bits.mii_rmii = GMAC_PHY_RGMII_100; -+ #endif -+ printk("MII REG 5 (bit 5:15) = 0x%x\n", ability); -+ if ((ability & 0x08)==0x08) /* 100M full duplex */ -+ { -+ status.bits.duplex = 1; -+ status.bits.speed = 1; -+ printk(" 100M/Full\n"); -+ -+ } -+ else if ((ability & 0x04)==0x04) /* 100M half duplex */ -+ { -+ status.bits.duplex = 0; -+ status.bits.speed = 1; -+ printk(" 100M/Half\n"); -+ -+ } -+ else if ((ability & 0x02)==0x02) /* 10M full duplex */ -+ { -+ status.bits.duplex = 1; -+ status.bits.speed = 0; -+ printk(" 10M/Full\n"); -+ -+ } -+ else if ((ability & 0x01)==0x01) /* 10M half duplex */ -+ { -+ status.bits.duplex = 0; -+ status.bits.speed = 0; -+ printk(" 10M/Half\n"); -+ -+ } -+ } -+ if ((ability & 0x20)==0x20) -+ { -+ tp->flow_control_enable = 1; -+ printk("Flow Control Enable.\n"); -+ } -+ else -+ { -+ tp->flow_control_enable = 0; -+ printk("Flow Control Disable.\n"); -+ } -+ tp->full_duplex_status = status.bits.duplex; -+ tp->speed_status = status.bits.speed; -+ if (!tp->auto_nego_cfg) -+ { -+ status.bits.duplex = tp->full_duplex_cfg; -+ status.bits.speed = tp->speed_cfg; -+ } -+ toe_gmac_disable_tx_rx(dev); -+ mdelay(10); -+ gmac_write_reg(tp->base_addr, GMAC_STATUS, status.bits32, 0x0000007f); -+ toe_gmac_enable_tx_rx(dev); -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_phy_thread -+*----------------------------------------------------------------------*/ -+static int gmac_phy_thread (void *data) -+{ -+ struct net_device *dev = data; -+ GMAC_INFO_T *tp = dev->priv; -+ unsigned long timeout; -+ -+ daemonize("%s", dev->name); -+ allow_signal(SIGTERM); -+// reparent_to_init(); -+// spin_lock_irq(¤t->sigmask_lock); -+// sigemptyset(¤t->blocked); -+// recalc_sigpending(current); -+// spin_unlock_irq(¤t->sigmask_lock); -+// strncpy (current->comm, dev->name, sizeof(current->comm) - 1); -+// current->comm[sizeof(current->comm) - 1] = '\0'; -+ -+ while (1) -+ { -+ timeout = next_tick; -+ do -+ { -+ timeout = interruptible_sleep_on_timeout (&tp->thr_wait, timeout); -+ } while (!signal_pending (current) && (timeout > 0)); -+ -+ if (signal_pending (current)) -+ { -+// spin_lock_irq(¤t->sigmask_lock); -+ flush_signals(current); -+// spin_unlock_irq(¤t->sigmask_lock); -+ } -+ -+ if (tp->time_to_die) -+ break; -+ -+ // printk("%s : Polling MAC %d PHY Status...\n",__func__, tp->port_id); -+ rtnl_lock (); -+ if (tp->auto_nego_cfg){ -+#ifdef VITESSE_G5SWITCH -+ if((tp->port_id == GMAC_PORT1)&&(Giga_switch==1)) -+ gmac_get_switch_status(dev); -+ else -+#endif -+ gmac_get_phy_status(dev); //temp remove -+ } -+ rtnl_unlock (); -+ } -+ complete_and_exit (&tp->thr_exited, 0); -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_get_switch_status -+*----------------------------------------------------------------------*/ -+#ifdef VITESSE_G5SWITCH -+void gmac_get_switch_status(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = dev->priv; -+ GMAC_CONFIG0_T config0,config0_mask; -+ unsigned int switch_port_id; -+ int get_link=0; -+ -+ get_link = Get_Set_port_status(); -+ if(get_link){ // link -+ if(ever_dwon){ -+ ever_dwon = 0; -+ toe_gmac_enable_tx_rx(dev); -+ netif_wake_queue(dev); -+ set_bit(__LINK_STATE_START, &dev->state); -+ } -+ } -+ else{ // all down -+ //printk("All link down\n"); -+ ever_dwon=1; -+ netif_stop_queue(dev); -+ toe_gmac_disable_tx_rx(dev); -+ clear_bit(__LINK_STATE_START, &dev->state); -+ } -+ -+ if ( tp->port_id == 1 ) -+ switch_port_id = 0; -+#ifdef CONFIG_SL351x_SYSCTL -+ if (get_link) -+ { -+ storlink_ctl.link[switch_port_id] = 1; -+ } -+ else -+ { -+ storlink_ctl.link[switch_port_id] = 0; -+ } -+ if (storlink_ctl.pauseoff == 1) -+ { -+ if (tp->flow_control_enable == 1) -+ { -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.tx_fc_en = 0; /* disable tx flow control */ -+ config0.bits.rx_fc_en = 0; /* disable rx flow control */ -+ config0_mask.bits.tx_fc_en = 1; -+ config0_mask.bits.rx_fc_en = 1; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG0,config0.bits32,config0_mask.bits32); -+ printk("Disable SWITCH Flow Control...\n"); -+ } -+ tp->flow_control_enable = 0; -+ } -+ else -+#endif -+ { -+ if (tp->flow_control_enable == 0) -+ { -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.tx_fc_en = 1; /* enable tx flow control */ -+ config0.bits.rx_fc_en = 1; /* enable rx flow control */ -+ config0_mask.bits.tx_fc_en = 1; -+ config0_mask.bits.rx_fc_en = 1; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG0,config0.bits32,config0_mask.bits32); -+ printk("Enable SWITCH Flow Control...\n"); -+ } -+ tp->flow_control_enable = 1; -+ } -+ return ; -+ -+} -+#endif -+ -+/*---------------------------------------------------------------------- -+* gmac_get_phy_status -+*----------------------------------------------------------------------*/ -+void gmac_get_phy_status(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = dev->priv; -+ GMAC_CONFIG0_T config0,config0_mask; -+ GMAC_STATUS_T status, old_status; -+ unsigned int reg_val,ability,wan_port_id; -+ -+ old_status.bits32 = status.bits32 = gmac_read_reg(tp->base_addr, GMAC_STATUS); -+ -+ -+ /* read PHY status register */ -+ reg_val = mii_read(tp->phy_addr,0x01); -+ if ((reg_val & 0x0024) == 0x0024) /* link is established and auto_negotiate process completed */ -+ { -+ ability = (mii_read(tp->phy_addr,0x05) & 0x05E0) >> 5; -+ /* read PHY Auto-Negotiation Link Partner Ability Register */ -+ #ifdef CONFIG_SL3516_ASIC -+ reg_val = mii_read(tp->phy_addr,10); -+ if ((reg_val & 0x0800) == 0x0800) -+ { -+ status.bits.duplex = 1; -+ status.bits.speed = 2; -+ if (status.bits.mii_rmii == GMAC_PHY_RGMII_100) -+ status.bits.mii_rmii = GMAC_PHY_RGMII_1000; -+ } -+ else if ((reg_val & 0x0400) == 0x0400) -+ { -+ status.bits.duplex = 0; -+ status.bits.speed = 2; -+ if (status.bits.mii_rmii == GMAC_PHY_RGMII_100) -+ status.bits.mii_rmii = GMAC_PHY_RGMII_1000; -+ } -+ else -+ #endif -+ { -+ #ifdef CONFIG_SL3516_ASIC -+ if (status.bits.mii_rmii == GMAC_PHY_RGMII_1000) -+ status.bits.mii_rmii = GMAC_PHY_RGMII_100; -+ #endif -+ if ((ability & 0x08)==0x08) /* 100M full duplex */ -+ { -+ status.bits.duplex = 1; -+ status.bits.speed = 1; -+ } -+ else if ((ability & 0x04)==0x04) /* 100M half duplex */ -+ { -+ status.bits.duplex = 0; -+ status.bits.speed = 1; -+ } -+ else if ((ability & 0x02)==0x02) /* 10M full duplex */ -+ { -+ status.bits.duplex = 1; -+ status.bits.speed = 0; -+ } -+ else if ((ability & 0x01)==0x01) /* 10M half duplex */ -+ { -+ status.bits.duplex = 0; -+ status.bits.speed = 0; -+ } -+ } -+ status.bits.link = LINK_UP; /* link up */ -+ if(Giga_switch==1) -+ { -+ wan_port_id = 1; -+#ifdef CONFIG_SL351x_SYSCTL -+ storlink_ctl.link[ wan_port_id] = 1; -+ } -+ else -+ { -+ storlink_ctl.link[ tp->port_id] = 1; -+#endif -+ } -+ if ((ability & 0x20)==0x20) -+ { -+ if (tp->flow_control_enable == 0) -+ { -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.tx_fc_en = 1; /* enable tx flow control */ -+ config0.bits.rx_fc_en = 1; /* enable rx flow control */ -+ config0_mask.bits.tx_fc_en = 1; -+ config0_mask.bits.rx_fc_en = 1; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG0,config0.bits32,config0_mask.bits32); -+ printk("GMAC-%d Flow Control Enable.\n", tp->port_id); -+ } -+ tp->flow_control_enable = 1; -+ } -+ else -+ { -+ if (tp->flow_control_enable == 1) -+ { -+ config0.bits32 = 0; -+ config0_mask.bits32 = 0; -+ config0.bits.tx_fc_en = 0; /* disable tx flow control */ -+ config0.bits.rx_fc_en = 0; /* disable rx flow control */ -+ config0_mask.bits.tx_fc_en = 1; -+ config0_mask.bits.rx_fc_en = 1; -+ gmac_write_reg(tp->base_addr, GMAC_CONFIG0,config0.bits32,config0_mask.bits32); -+ printk("GMAC-%d Flow Control Disable.\n", tp->port_id); -+ } -+ tp->flow_control_enable = 0; -+ } -+ -+ if (tp->pre_phy_status == LINK_DOWN) -+ { -+ printk("GMAC-%d LINK_UP......\n",tp->port_id); -+ tp->pre_phy_status = LINK_UP; -+ } -+ } -+ else -+ { -+ status.bits.link = LINK_DOWN; /* link down */ -+ if(Giga_switch == 1) -+ { -+ wan_port_id = 1; -+#ifdef CONFIG_SL351x_SYSCTL -+ storlink_ctl.link[ wan_port_id] = 0; -+ } -+ else -+ { -+ storlink_ctl.link[ tp->port_id] = 0; -+#endif -+ } -+ if (tp->pre_phy_status == LINK_UP) -+ { -+ printk("GMAC-%d LINK_Down......\n",tp->port_id); -+ tp->pre_phy_status = LINK_DOWN; -+ } -+ } -+ -+ tp->full_duplex_status = status.bits.duplex; -+ tp->speed_status = status.bits.speed; -+ if (!tp->auto_nego_cfg) -+ { -+ status.bits.duplex = tp->full_duplex_cfg; -+ status.bits.speed = tp->speed_cfg; -+ } -+ -+ if (old_status.bits32 != status.bits32) -+ { -+ netif_stop_queue(dev); -+ toe_gmac_disable_tx_rx(dev); -+ clear_bit(__LINK_STATE_START, &dev->state); -+ printk("GMAC-%d Change Status Bits 0x%x-->0x%x\n",tp->port_id, old_status.bits32, status.bits32); -+ mdelay(10); // let GMAC consume packet -+ gmac_write_reg(tp->base_addr, GMAC_STATUS, status.bits32, 0x0000007f); -+ if (status.bits.link == LINK_UP) -+ { -+ toe_gmac_enable_tx_rx(dev); -+ netif_wake_queue(dev); -+ set_bit(__LINK_STATE_START, &dev->state); -+ } -+ } -+} -+ -+/***************************************/ -+/* define GPIO module base address */ -+/***************************************/ -+#define GPIO_BASE_ADDR (IO_ADDRESS(SL2312_GPIO_BASE)) -+#define GPIO_BASE_ADDR1 (IO_ADDRESS(SL2312_GPIO_BASE1)) -+ -+/* define GPIO pin for MDC/MDIO */ -+#ifdef CONFIG_SL3516_ASIC -+#define H_MDC_PIN 22 -+#define H_MDIO_PIN 21 -+#define G_MDC_PIN 22 -+#define G_MDIO_PIN 21 -+#else -+#define H_MDC_PIN 3 -+#define H_MDIO_PIN 2 -+#define G_MDC_PIN 0 -+#define G_MDIO_PIN 1 -+#endif -+ -+//#define GPIO_MDC 0x80000000 -+//#define GPIO_MDIO 0x00400000 -+ -+static unsigned int GPIO_MDC = 0; -+static unsigned int GPIO_MDIO = 0; -+static unsigned int GPIO_MDC_PIN = 0; -+static unsigned int GPIO_MDIO_PIN = 0; -+ -+// For PHY test definition!! -+#define LPC_EECK 0x02 -+#define LPC_EDIO 0x04 -+#define LPC_GPIO_SET 3 -+#define LPC_BASE_ADDR IO_ADDRESS(IT8712_IO_BASE) -+#define inb_gpio(x) inb(LPC_BASE_ADDR + IT8712_GPIO_BASE + x) -+#define outb_gpio(x, y) outb(y, LPC_BASE_ADDR + IT8712_GPIO_BASE + x) -+ -+enum GPIO_REG -+{ -+ GPIO_DATA_OUT = 0x00, -+ GPIO_DATA_IN = 0x04, -+ GPIO_PIN_DIR = 0x08, -+ GPIO_BY_PASS = 0x0c, -+ GPIO_DATA_SET = 0x10, -+ GPIO_DATA_CLEAR = 0x14, -+}; -+/***********************/ -+/* MDC : GPIO[31] */ -+/* MDIO: GPIO[22] */ -+/***********************/ -+ -+/*************************************************** -+* All the commands should have the frame structure: -+*<PRE><ST><OP><PHYAD><REGAD><TA><DATA><IDLE> -+****************************************************/ -+ -+/***************************************************************** -+* Inject a bit to NWay register through CSR9_MDC,MDIO -+*******************************************************************/ -+void mii_serial_write(char bit_MDO) // write data into mii PHY -+{ -+#ifdef CONFIG_SL2312_LPC_IT8712 -+ unsigned char iomode,status; -+ -+ iomode = LPCGetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET); -+ iomode |= (LPC_EECK|LPC_EDIO) ; // Set EECK,EDIO,EECS output -+ LPCSetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET, iomode); -+ -+ if(bit_MDO) -+ { -+ status = inb_gpio( LPC_GPIO_SET); -+ status |= LPC_EDIO ; //EDIO high -+ outb_gpio(LPC_GPIO_SET, status); -+ } -+ else -+ { -+ status = inb_gpio( LPC_GPIO_SET); -+ status &= ~(LPC_EDIO) ; //EDIO low -+ outb_gpio(LPC_GPIO_SET, status); -+ } -+ -+ status |= LPC_EECK ; //EECK high -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ status &= ~(LPC_EECK) ; //EECK low -+ outb_gpio(LPC_GPIO_SET, status); -+ -+#else -+ unsigned int addr; -+ unsigned int value; -+ -+ addr = GPIO_BASE_ADDR + GPIO_PIN_DIR; -+ value = readl(addr) | GPIO_MDC | GPIO_MDIO; /* set MDC/MDIO Pin to output */ -+ writel(value,addr); -+ if(bit_MDO) -+ { -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_MDIO,addr); /* set MDIO to 1 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_MDC,addr); /* set MDC to 1 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MDC,addr); /* set MDC to 0 */ -+ } -+ else -+ { -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MDIO,addr); /* set MDIO to 0 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_MDC,addr); /* set MDC to 1 */ -+ addr = (GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MDC,addr); /* set MDC to 0 */ -+ } -+ -+#endif -+} -+ -+/********************************************************************** -+* read a bit from NWay register through CSR9_MDC,MDIO -+***********************************************************************/ -+unsigned int mii_serial_read(void) // read data from mii PHY -+{ -+#ifdef CONFIG_SL2312_LPC_IT8712 -+ unsigned char iomode,status; -+ unsigned int value ; -+ -+ iomode = LPCGetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET); -+ iomode &= ~(LPC_EDIO) ; // Set EDIO input -+ iomode |= (LPC_EECK) ; // Set EECK,EECS output -+ LPCSetConfig(LDN_GPIO, 0xc8 + LPC_GPIO_SET, iomode); -+ -+ status = inb_gpio( LPC_GPIO_SET); -+ status |= LPC_EECK ; //EECK high -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ status &= ~(LPC_EECK) ; //EECK low -+ outb_gpio(LPC_GPIO_SET, status); -+ -+ value = inb_gpio( LPC_GPIO_SET); -+ -+ value = value>>2 ; -+ value &= 0x01; -+ -+ return value ; -+ -+#else -+ unsigned int *addr; -+ unsigned int value; -+ -+ addr = (unsigned int *)(GPIO_BASE_ADDR + GPIO_PIN_DIR); -+ value = readl(addr) & ~GPIO_MDIO; //0xffbfffff; /* set MDC to output and MDIO to input */ -+ writel(value,addr); -+ -+ addr = (unsigned int *)(GPIO_BASE_ADDR + GPIO_DATA_SET); -+ writel(GPIO_MDC,addr); /* set MDC to 1 */ -+ addr = (unsigned int *)(GPIO_BASE_ADDR + GPIO_DATA_CLEAR); -+ writel(GPIO_MDC,addr); /* set MDC to 0 */ -+ -+ addr = (unsigned int *)(GPIO_BASE_ADDR + GPIO_DATA_IN); -+ value = readl(addr); -+ value = (value & (1<<GPIO_MDIO_PIN)) >> GPIO_MDIO_PIN; -+ return(value); -+ -+#endif -+} -+ -+/*************************************** -+* preamble + ST -+***************************************/ -+void mii_pre_st(void) -+{ -+ unsigned char i; -+ -+ for(i=0;i<32;i++) // PREAMBLE -+ mii_serial_write(1); -+ mii_serial_write(0); // ST -+ mii_serial_write(1); -+} -+ -+ -+/****************************************** -+* Read MII register -+* phyad -> physical address -+* regad -> register address -+***************************************** */ -+unsigned int mii_read(unsigned char phyad,unsigned char regad) -+{ -+ unsigned int i,value; -+ unsigned int bit; -+ -+ if (phyad == GPHY_ADDR) -+ { -+ GPIO_MDC_PIN = G_MDC_PIN; /* assigned MDC pin for giga PHY */ -+ GPIO_MDIO_PIN = G_MDIO_PIN; /* assigned MDIO pin for giga PHY */ -+ } -+ else -+ { -+ GPIO_MDC_PIN = H_MDC_PIN; /* assigned MDC pin for 10/100 PHY */ -+ GPIO_MDIO_PIN = H_MDIO_PIN; /* assigned MDIO pin for 10/100 PHY */ -+ } -+ GPIO_MDC = (1<<GPIO_MDC_PIN); -+ GPIO_MDIO = (1<<GPIO_MDIO_PIN); -+ -+ mii_pre_st(); // PRE+ST -+ mii_serial_write(1); // OP -+ mii_serial_write(0); -+ -+ for (i=0;i<5;i++) { // PHYAD -+ bit= ((phyad>>(4-i)) & 0x01) ? 1 :0 ; -+ mii_serial_write(bit); -+ } -+ -+ for (i=0;i<5;i++) { // REGAD -+ bit= ((regad>>(4-i)) & 0x01) ? 1 :0 ; -+ mii_serial_write(bit); -+ } -+ -+ mii_serial_read(); // TA_Z -+// if((bit=mii_serial_read()) !=0 ) // TA_0 -+// { -+// return(0); -+// } -+ value=0; -+ for (i=0;i<16;i++) { // READ DATA -+ bit=mii_serial_read(); -+ value += (bit<<(15-i)) ; -+ } -+ -+ mii_serial_write(0); // dumy clock -+ mii_serial_write(0); // dumy clock -+ -+ //printk("%s: phy_addr=0x%x reg_addr=0x%x value=0x%x \n",__func__,phyad,regad,value); -+ return(value); -+} -+ -+/****************************************** -+* Write MII register -+* phyad -> physical address -+* regad -> register address -+* value -> value to be write -+***************************************** */ -+void mii_write(unsigned char phyad,unsigned char regad,unsigned int value) -+{ -+ unsigned int i; -+ char bit; -+ -+ printk("%s: phy_addr=0x%x reg_addr=0x%x value=0x%x \n",__func__,phyad,regad,value); -+ if (phyad == GPHY_ADDR) -+ { -+ GPIO_MDC_PIN = G_MDC_PIN; /* assigned MDC pin for giga PHY */ -+ GPIO_MDIO_PIN = G_MDIO_PIN; /* assigned MDIO pin for giga PHY */ -+ } -+ else -+ { -+ GPIO_MDC_PIN = H_MDC_PIN; /* assigned MDC pin for 10/100 PHY */ -+ GPIO_MDIO_PIN = H_MDIO_PIN; /* assigned MDIO pin for 10/100 PHY */ -+ } -+ GPIO_MDC = (1<<GPIO_MDC_PIN); -+ GPIO_MDIO = (1<<GPIO_MDIO_PIN); -+ -+ mii_pre_st(); // PRE+ST -+ mii_serial_write(0); // OP -+ mii_serial_write(1); -+ for (i=0;i<5;i++) { // PHYAD -+ bit= ((phyad>>(4-i)) & 0x01) ? 1 :0 ; -+ mii_serial_write(bit); -+ } -+ -+ for (i=0;i<5;i++) { // REGAD -+ bit= ((regad>>(4-i)) & 0x01) ? 1 :0 ; -+ mii_serial_write(bit); -+ } -+ mii_serial_write(1); // TA_1 -+ mii_serial_write(0); // TA_0 -+ -+ for (i=0;i<16;i++) { // OUT DATA -+ bit= ((value>>(15-i)) & 0x01) ? 1 : 0 ; -+ mii_serial_write(bit); -+ } -+ mii_serial_write(0); // dumy clock -+ mii_serial_write(0); // dumy clock -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_set_rx_mode -+*----------------------------------------------------------------------*/ -+static void gmac_set_rx_mode(struct net_device *dev) -+{ -+ GMAC_RX_FLTR_T filter; -+ unsigned int mc_filter[2]; /* Multicast hash filter */ -+ int bit_nr; -+ unsigned int i; -+ GMAC_INFO_T *tp = dev->priv; -+ -+// printk("%s : dev->flags = %x \n",__func__,dev->flags); -+// dev->flags |= IFF_ALLMULTI; /* temp */ -+ filter.bits32 = 0; -+ filter.bits.error = 0; -+ if (dev->flags & IFF_PROMISC) -+ { -+ filter.bits.error = 1; -+ filter.bits.promiscuous = 1; -+ filter.bits.broadcast = 1; -+ filter.bits.multicast = 1; -+ filter.bits.unicast = 1; -+ mc_filter[1] = mc_filter[0] = 0xffffffff; -+ } -+ else if (dev->flags & IFF_ALLMULTI) -+ { -+// filter.bits.promiscuous = 1; -+ filter.bits.broadcast = 1; -+ filter.bits.multicast = 1; -+ filter.bits.unicast = 1; -+ mc_filter[1] = mc_filter[0] = 0xffffffff; -+ } -+ else -+ { -+ struct dev_mc_list *mclist; -+ -+// filter.bits.promiscuous = 1; -+ filter.bits.broadcast = 1; -+ filter.bits.multicast = 1; -+ filter.bits.unicast = 1; -+ mc_filter[1] = mc_filter[0] = 0; -+ for (i = 0, mclist = dev->mc_list; mclist && i < dev->mc_count;i++, mclist = mclist->next) -+ { -+ bit_nr = ether_crc(ETH_ALEN,mclist->dmi_addr) & 0x0000003f; -+ if (bit_nr < 32) -+ { -+ mc_filter[0] = mc_filter[0] | (1<<bit_nr); -+ } -+ else -+ { -+ mc_filter[1] = mc_filter[1] | (1<<(bit_nr-32)); -+ } -+ } -+ } -+ gmac_write_reg(tp->base_addr,GMAC_RX_FLTR,filter.bits32,0xffffffff); //chech base address!!! -+ gmac_write_reg(tp->base_addr,GMAC_MCAST_FIL0,mc_filter[0],0xffffffff); -+ gmac_write_reg(tp->base_addr,GMAC_MCAST_FIL1,mc_filter[1],0xffffffff); -+ return; -+} -+ -+#ifdef CONFIG_SL_NAPI -+/*---------------------------------------------------------------------- -+* gmac_rx_poll -+*----------------------------------------------------------------------*/ -+static int gmac_rx_poll(struct net_device *dev, int *budget) -+{ -+ TOE_INFO_T *toe; -+ GMAC_RXDESC_T *curr_desc; -+ struct sk_buff *skb; -+ DMA_RWPTR_T rwptr; -+ unsigned int pkt_size; -+ unsigned int desc_count; -+ unsigned int good_frame, chksum_status, rx_status; -+ int rx_pkts_num = 0; -+ int quota = min(dev->quota, *budget); -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ unsigned int status4; -+ volatile DMA_RWPTR_T fq_rwptr; -+ int max_cnt = TOE_SW_FREEQ_DESC_NUM;//TOE_SW_FREEQ_DESC_NUM = 64 -+ //unsigned long rx_old_bytes; -+ struct net_device_stats *isPtr = (struct net_device_stats *)&tp->ifStatics; -+ //unsigned long long rx_time; -+ -+ -+ -+#if 1 -+ if (do_again) -+ { -+ toe_gmac_fill_free_q(); -+ status4 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_4_REG); -+ fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ //printk("\n%s:: do_again toe_gmac_fill_free_q =======>status4=0x%x =====fq_rwptr =0x%8x======>JKJKJKJKJKJKJKJKJ \n", __func__,status4,fq_rwptr.bits32); -+ if (fq_rwptr.bits.wptr != fq_rwptr.bits.rptr) -+ { -+ //status4 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_4_REG); -+ do_again =0; -+ //netif_rx_complete(dev); -+ gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_STATUS_4_REG, status4, 0x1); -+ fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ rwptr.bits32 = readl(&tp->default_qhdr->word1); -+ } -+ else -+ return 1; -+ } -+#endif -+ rwptr.bits32 = readl(&tp->default_qhdr->word1); -+#if 0 -+ if (rwptr.bits.rptr != tp->rx_rwptr.bits.rptr) -+ { -+ mac_stop_txdma((struct net_device *)tp->dev); -+ printk("Default Queue HW RD ptr (0x%x) != SW RD Ptr (0x%x)\n", -+ rwptr.bits32, tp->rx_rwptr.bits.rptr); -+ while(1); -+ } -+#endif -+ toe = (TOE_INFO_T *)&toe_private_data; -+ -+ fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ //printk("%s:---Before-------------->Default Queue HW RW ptr (0x%8x), fq_rwptr =0x%8x \n",__func__,rwptr.bits32,fq_rwptr.bits32 ); -+ //printk("%s:---Before while rx_pkts_num=%d------rx_finished_idx=0x%x------->Default_Q [rwptr.bits.rptr(SW)=0x%x, rwptr.bits.wptr(HW) = 0x%x ]---->Free_Q(SW_HW) = 0x%8x \n",__func__,rx_pkts_num,rx_finished_idx,rwptr.bits.rptr,rwptr.bits.wptr,fq_rwptr.bits32 ); -+// while ((--max_cnt) && (rwptr.bits.rptr != rwptr.bits.wptr) && (rx_pkts_num < quota)) -+ -+ while ((rwptr.bits.rptr != rwptr.bits.wptr) && (rx_pkts_num < quota)) -+ { -+ -+ curr_desc = (GMAC_RXDESC_T *)tp->default_desc_base + rwptr.bits.rptr; -+ tp->default_q_cnt++; -+ tp->rx_curr_desc = (unsigned int)curr_desc; -+ rx_status = curr_desc->word0.bits.status; -+ chksum_status = curr_desc->word0.bits.chksum_status; -+ tp->rx_status_cnt[rx_status]++; -+ tp->rx_chksum_cnt[chksum_status]++; -+ pkt_size = curr_desc->word1.bits.byte_count; /*total byte count in a frame*/ -+ desc_count = curr_desc->word0.bits.desc_count; /* get descriptor count per frame */ -+ good_frame=1; -+ if ((curr_desc->word0.bits32 & (GMAC_RXDESC_0_T_derr | GMAC_RXDESC_0_T_perr)) -+ || (pkt_size < 60) -+ || (chksum_status & 0x4) -+ || rx_status ) -+// || rx_status || (rwptr.bits.rptr > rwptr.bits.wptr )) -+ { -+ good_frame = 0; -+ if (curr_desc->word0.bits32 & GMAC_RXDESC_0_T_derr) -+ printk("%s::derr (GMAC-%d)!!!\n", __func__, tp->port_id); -+ if (curr_desc->word0.bits32 & GMAC_RXDESC_0_T_perr) -+ printk("%s::perr (GMAC-%d)!!!\n", __func__, tp->port_id); -+ if (rx_status) -+ { -+ if (rx_status == 4 || rx_status == 7) -+ isPtr->rx_crc_errors++; -+// printk("%s::Status=%d (GMAC-%d)!!!\n", __func__, rx_status, tp->port_id); -+ } -+#ifdef SL351x_GMAC_WORKAROUND -+ else if (pkt_size < 60) -+ { -+ if (tp->short_frames_cnt < GMAC_SHORT_FRAME_THRESHOLD) -+ tp->short_frames_cnt++; -+ if (tp->short_frames_cnt >= GMAC_SHORT_FRAME_THRESHOLD) -+ { -+ GMAC_CONFIG0_T config0; -+ config0.bits32 = readl(TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 1; -+ writel(config0.bits32, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits32 = readl(TOE_GMAC1_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 1; -+ writel(config0.bits32, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ } -+ } -+#endif -+// if (chksum_status) -+// printk("%s::Checksum Status=%d (GMAC-%d)!!!\n", __func__, chksum_status, tp->port_id); -+ skb = (struct sk_buff *)(REG32(__va(curr_desc->word2.buf_adr) - SKB_RESERVE_BYTES)); -+ dev_kfree_skb_irq(skb); -+ } -+ if (good_frame) -+ { -+ if (curr_desc->word0.bits.drop) -+ printk("%s::Drop (GMAC-%d)!!!\n", __func__, tp->port_id); -+// if (chksum_status) -+// printk("%s::Checksum Status=%d (GMAC-%d)!!!\n", __func__, chksum_status, tp->port_id); -+ -+#ifdef SL351x_GMAC_WORKAROUND -+ if (tp->short_frames_cnt >= GMAC_SHORT_FRAME_THRESHOLD) -+ { -+ GMAC_CONFIG0_T config0; -+ config0.bits32 = readl(TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits32 = readl(TOE_GMAC1_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ } -+ tp->short_frames_cnt = 0; -+#endif -+ /* get frame information from the first descriptor of the frame */ -+ isPtr->rx_packets++; -+ //consistent_sync((void *)__va(curr_desc->word2.buf_adr), pkt_size, PCI_DMA_FROMDEVICE); -+ skb = (struct sk_buff *)(REG32(__va(curr_desc->word2.buf_adr) - SKB_RESERVE_BYTES)); -+ tp->curr_rx_skb = skb; -+ // curr_desc->word2.buf_adr = 0; -+ -+ //skb_reserve (skb, SKB_RESERVE_BYTES); -+ skb_reserve (skb, RX_INSERT_BYTES); /* 2 byte align the IP fields. */ -+ //if ((skb->tail+pkt_size) > skb->end ) -+ //printk("%s::------------->Here skb->len=%d,pkt_size= %d,skb->head=0x%x,skb->tail= 0x%x, skb->end= 0x%x\n", __func__, skb->len, pkt_size,skb->head,skb->tail,skb->end); -+ skb_put(skb, pkt_size); -+ -+ -+ skb->dev = dev; -+ if (chksum_status == RX_CHKSUM_IP_UDP_TCP_OK) -+ { -+ skb->ip_summed = CHECKSUM_UNNECESSARY; -+#ifdef CONFIG_SL351x_NAT -+ if (nat_cfg.enabled && curr_desc->word3.bits.l3_offset && curr_desc->word3.bits.l4_offset) -+ { -+ struct iphdr *ip_hdr; -+ ip_hdr = (struct iphdr *)&(skb->data[curr_desc->word3.bits.l3_offset]); -+ sl351x_nat_input(skb, -+ tp->port_id, -+ (void *)curr_desc->word3.bits.l3_offset, -+ (void *)curr_desc->word3.bits.l4_offset); -+ } -+#endif -+ skb->protocol = eth_type_trans(skb,dev); /* set skb protocol */ -+#if 0 -+#ifdef CONFIG_SL351x_RXTOE -+ if (storlink_ctl.rx_max_pktsize) { -+ struct iphdr *ip_hdr; -+ struct tcphdr *tcp_hdr; -+ int ip_hdrlen; -+ -+ ip_hdr = (struct iphdr*)&(skb->data[0]); -+ if ((skb->protocol == __constant_htons(ETH_P_IP)) && -+ ((ip_hdr->protocol & 0x00ff) == IPPROTO_TCP)) { -+ ip_hdrlen = ip_hdr->ihl << 2; -+ tcp_hdr = (struct tcphdr*)&(skb->data[ip_hdrlen]); -+ if (tcp_hdr->syn) { -+ struct toe_conn* connection = init_toeq(ip_hdr->version, -+ ip_hdr, tcp_hdr, toe, &(skb->data[0]) - 14); -+ TCP_SKB_CB(skb)->connection = connection; -+ // hash_dump_entry(TCP_SKB_CB(skb)->connection->hash_entry_index); -+ // printk("%s::skb data %x, conn %x, mode %x\n", -+ // __func__, skb->data, connection, connection->mode); -+ } -+ } -+ } -+#endif -+#endif -+ } -+ else if (chksum_status == RX_CHKSUM_IP_OK_ONLY) -+ { -+ skb->ip_summed = CHECKSUM_UNNECESSARY; -+#ifdef CONFIG_SL351x_NAT -+ if (nat_cfg.enabled && curr_desc->word3.bits.l3_offset && curr_desc->word3.bits.l4_offset) -+ { -+ struct iphdr *ip_hdr; -+ ip_hdr = (struct iphdr *)&(skb->data[curr_desc->word3.bits.l3_offset]); -+ if (ip_hdr->protocol == IPPROTO_UDP) -+ { -+ sl351x_nat_input(skb, -+ tp->port_id, -+ (void *)curr_desc->word3.bits.l3_offset, -+ (void *)curr_desc->word3.bits.l4_offset); -+ } -+ else if (ip_hdr->protocol == IPPROTO_GRE) -+ { -+ sl351x_nat_input(skb, -+ tp->port_id, -+ (void *)curr_desc->word3.bits.l3_offset, -+ (void *)curr_desc->word3.bits.l4_offset); -+ } -+ } -+#endif -+ skb->protocol = eth_type_trans(skb,dev); /* set skb protocol */ -+ } -+ else -+ { -+ skb->protocol = eth_type_trans(skb,dev); /* set skb protocol */ -+ } -+ //netif_rx(skb); /* socket rx */ -+ netif_receive_skb(skb); //For NAPI -+ dev->last_rx = jiffies; -+ -+ isPtr->rx_bytes += pkt_size; -+ //printk("------------------->isPtr->rx_bytes = %d\n",isPtr->rx_bytes); -+ -+ -+ } -+ // advance one for Rx default Q 0/1 -+ rwptr.bits.rptr = RWPTR_ADVANCE_ONE(rwptr.bits.rptr, tp->default_desc_num); -+ SET_RPTR(&tp->default_qhdr->word1, rwptr.bits.rptr); -+ tp->rx_rwptr.bits32 = rwptr.bits32; -+ rx_pkts_num++; -+ //rwptr.bits32 = readl(&tp->default_qhdr->word1);//try read default_qhdr again -+ //fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ //printk("%s:---Loop -------->rx_pkts_num=%d------------>Default Queue HW RW ptr = (0x%8x), fq_rwptr =0x%8x \n",__func__,rx_pkts_num,rwptr.bits32,fq_rwptr.bits32 ); -+#if 0 -+ if ((status4 & 0x1) == 0) -+ { -+ //if (!((dev->last_rx <= (rx_time + 2)) && (isPtr->rx_bytes > (rx_old_bytes + 1000000 )))) -+ if (tp->total_q_cnt_napi < 1024) -+ { -+ tp->total_q_cnt_napi++; -+ toe_gmac_fill_free_q(); //for iperf test disable -+ } -+ //else -+ //printk("%s:---isPtr->rx_bytes =%u , rx_old_bytes =%u\n",__func__,isPtr->rx_bytes,rx_old_bytes ); -+ -+ } -+#endif -+ //rwptr.bits.rptr = RWPTR_ADVANCE_ONE(rwptr.bits.rptr, tp->default_desc_num); -+ //printk("%s:---Loop -------->rx_pkts_num=%d----rwptr.bits.rptr=0x%x-------->Default Queue HW RW ptr = (0x%8x), fq_rwptr =0x%8x \n",__func__,rx_pkts_num,rwptr.bits.rptr,rwptr.bits32,fq_rwptr.bits32 ); -+ //printk("%s:---Loop rx_pkts_num=%d------rwptr.bits.rptr=0x%x------->Default_Q [rwptr.bits.rptr(SW)=0x%x, rwptr.bits.wptr(HW) = 0x%x ]---->Free_Q(SW_HW) = 0x%8x \n",__func__,rx_pkts_num,rwptr.bits.rptr,rwptr.bits.rptr,rwptr.bits.wptr,fq_rwptr.bits32 ); -+ } -+ // advance one for Rx default Q 0/1 -+ -+ //rwptr.bits.rptr = RWPTR_ADVANCE_ONE(rwptr.bits.rptr, tp->default_desc_num); -+ //SET_RPTR(&tp->default_qhdr->word1, rwptr.bits.rptr); -+ //tp->rx_rwptr.bits32 = rwptr.bits32; -+ //rwptr.bits.rptr = rwptr.bits.rptr; -+ -+ dev->quota -= rx_pkts_num; -+ *budget -= rx_pkts_num; -+ -+ status4 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_4_REG);//try read SWFQ empty again -+ //fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ rwptr.bits32 = readl(&tp->default_qhdr->word1); //try read default_qhdr again -+ //printk("%s:---After rx_pkts_num=%d------rwptr.bits.rptr=0x%x------->Default_Q [rwptr.bits.rptr(SW)=0x%x, rwptr.bits.wptr(HW) = 0x%x ]---->Free_Q(SW_HW) = 0x%8x \n",__func__,rx_pkts_num,rwptr.bits.rptr,rwptr.bits.rptr,rwptr.bits.wptr,fq_rwptr.bits32 ); -+// if (rwptr.bits.rptr > rwptr.bits.wptr ) -+// { -+ //toe_gmac_disable_rx(dev); -+ //wait_event_interruptible_timeout(freeq_wait, -+ //(rx_pkts_num == 100), CMTP_INTEROP_TIMEOUT); -+ //printk("\n%s:: return 22222=======> rx_pkts_num =%d, rwptr.bits.rptr=%d, rwptr.bits.wptr = %d ====---------=======>JKJKJKJKJK\n", -+ //__func__,rx_pkts_num,rwptr.bits.rptr,rwptr.bits.wptr); -+// return 1; -+// } -+ -+ if (rwptr.bits.rptr == rwptr.bits.wptr) -+ { -+ unsigned int data32; -+ //printk("%s:---[rwptr.bits.rptr == rwptr.bits.wptr] rx_pkts_num=%d------rwptr.bits.rptr=0x%x------->Default_Q [rwptr.bits.rptr(SW)=0x%x, rwptr.bits.wptr(HW) = 0x%x ]---->Free_Q(SW_HW) = 0x%8x \n",__func__,rx_pkts_num,rwptr.bits.rptr,rwptr.bits.rptr,rwptr.bits.wptr,fq_rwptr.bits32 ); -+ -+ /* Receive descriptor is empty now */ -+#if 1 -+ if (status4 & 0x1) -+ { -+ do_again =1; -+ //writel(0x40400000, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_ENABLE_4_REG); //disable SWFQ empty interrupt -+ //toe_gmac_disable_interrupt(tp->irq); -+ tp->sw_fq_empty_cnt++; -+ //toe_gmac_disable_rx(dev); -+ writel(0x07960202, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ writel(0x07960202, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ //printk("\n%s :: freeq int-----tp->sw_fq_empty_cnt =%d---------====================----------------->\n",__func__,tp->sw_fq_empty_cnt); -+ //while ((fq_rwptr.bits.wptr >= (fq_rwptr.bits.rptr+256)) || (fq_rwptr.bits.wptr <= (fq_rwptr.bits.rptr+256))) -+ //{ -+ //gmac_write_reg(TOE_GLOBAL_BASE, GLOBAL_INTERRUPT_STATUS_4_REG, status4, -+ //0x1); -+ //printk("\n%s::fq_rwptr.wrptr = %x =======> ===========>here \n", __func__,fq_rwptr.bits32); -+ //if ((status4 & 0x1) == 0) -+ //break; -+ return 1; -+ //} -+ -+ } -+#endif -+ //toe_gmac_fill_free_q(); -+ netif_rx_complete(dev); -+ // enable GMAC-0 rx interrupt -+ // class-Q & TOE-Q are implemented in future -+ //data32 = readl(TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_1_REG); -+ //if (tp->port_id == 0) -+ //data32 |= DEFAULT_Q0_INT_BIT; -+ //else -+ //data32 |= DEFAULT_Q1_INT_BIT; -+ //writel(data32, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_ENABLE_1_REG); -+ writel(0x3, TOE_GLOBAL_BASE+GLOBAL_INTERRUPT_ENABLE_1_REG); -+ //printk("\n%s::netif_rx_complete--> rx_pkts_num =%d, rwptr.bits.rptr=0x%x, rwptr.bits.wptr = 0x%x ====---------=======>JKJKJKJKJK\n", -+ //__func__,rx_pkts_num,rwptr.bits.rptr,rwptr.bits.wptr); -+ writel(0x07960200, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ writel(0x07960200, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ return 0; -+ } -+ else -+ { -+ //printk("\n%s:: return 1 -->status4= 0x%x,rx_pkts_num =%d, rwptr.bits.rptr=0x%x, rwptr.bits.wptr = 0x%x ======> \n", __func__,status4,rx_pkts_num,rwptr.bits.rptr,rwptr.bits.wptr); -+ return 1; -+ } -+} -+#endif -+ -+/*---------------------------------------------------------------------- -+* gmac_tx_timeout -+*----------------------------------------------------------------------*/ -+void gmac_tx_timeout(struct net_device *dev) -+{ -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ -+#ifdef CONFIG_SL351x_SYSCTL -+ if (tp->operation && storlink_ctl.link[tp->port_id]) -+#else -+ if (tp->operation) -+#endif -+ { -+ netif_wake_queue(dev); -+ } -+} -+ -+ -+ -+/*---------------------------------------------------------------------- -+* mac_set_rule_reg -+*----------------------------------------------------------------------*/ -+int mac_set_rule_reg(int mac, int rule, int enabled, u32 reg0, u32 reg1, u32 reg2) -+{ -+ int total_key_dwords; -+ -+ total_key_dwords = 1; -+ -+ if (reg0 & MR_L2_BIT) -+ { -+ if (reg0 & MR_DA_BIT) total_key_dwords += 2; -+ if (reg0 & MR_SA_BIT) total_key_dwords += 2; -+ if ((reg0 & MR_DA_BIT) && ( reg0 & MR_SA_BIT)) total_key_dwords--; -+ if (reg0 & (MR_PPPOE_BIT | MR_VLAN_BIT)) total_key_dwords++; -+ } -+ if (reg0 & MR_L3_BIT) -+ { -+ if (reg0 & (MR_IP_HDR_LEN_BIT | MR_TOS_TRAFFIC_BIT | MR_SPR_BITS)) -+ total_key_dwords++; -+ if (reg0 & MR_FLOW_LABLE_BIT) total_key_dwords++; -+ if ((reg0 & MR_IP_VER_BIT) == 0) // IPv4 -+ { -+ if (reg1 & 0xff000000) total_key_dwords += 1; -+ if (reg1 & 0x00ff0000) total_key_dwords += 1; -+ } -+ else -+ { -+ if (reg1 & 0xff000000) total_key_dwords += 4; -+ if (reg1 & 0x00ff0000) total_key_dwords += 4; -+ } -+ } -+ if (reg0 & MR_L4_BIT) -+ { -+ if (reg1 & 0x0000f000) total_key_dwords += 1; -+ if (reg1 & 0x00000f00) total_key_dwords += 1; -+ if (reg1 & 0x000000f0) total_key_dwords += 1; -+ if (reg1 & 0x0000000f) total_key_dwords += 1; -+ if (reg2 & 0xf0000000) total_key_dwords += 1; -+ if (reg2 & 0x0f000000) total_key_dwords += 1; -+ } -+ if (reg0 & MR_L7_BIT) -+ { -+ if (reg2 & 0x00f00000) total_key_dwords += 1; -+ if (reg2 & 0x000f0000) total_key_dwords += 1; -+ if (reg2 & 0x0000f000) total_key_dwords += 1; -+ if (reg2 & 0x00000f00) total_key_dwords += 1; -+ if (reg2 & 0x000000f0) total_key_dwords += 1; -+ if (reg2 & 0x0000000f) total_key_dwords += 1; -+ } -+ -+ if (total_key_dwords > HASH_MAX_KEY_DWORD) -+ return -1; -+ -+ if (total_key_dwords == 0 && enabled) -+ return -2; -+ -+ mac_set_rule_enable_bit(mac, rule, 0); -+ if (enabled) -+ { -+ mac_set_MRxCRx(mac, rule, 0, reg0); -+ mac_set_MRxCRx(mac, rule, 1, reg1); -+ mac_set_MRxCRx(mac, rule, 2, reg2); -+ mac_set_rule_action(mac, rule, total_key_dwords); -+ mac_set_rule_enable_bit(mac, rule, enabled); -+ } -+ else -+ { -+ mac_set_rule_action(mac, rule, 0); -+ } -+ return total_key_dwords; -+} -+ -+/*---------------------------------------------------------------------- -+* mac_get_rule_enable_bit -+*----------------------------------------------------------------------*/ -+int mac_get_rule_enable_bit(int mac, int rule) -+{ -+ switch (rule) -+ { -+ case 0: return ((mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG0) >> 15) & 1); -+ case 1: return ((mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG0) >> 31) & 1); -+ case 2: return ((mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG1) >> 15) & 1); -+ case 3: return ((mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG1) >> 31) & 1); -+ default: return 0; -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* mac_set_rule_enable_bit -+*----------------------------------------------------------------------*/ -+void mac_set_rule_enable_bit(int mac, int rule, int data) -+{ -+ u32 reg; -+ -+ if (data & ~1) -+ return; -+ -+ switch (rule) -+ { -+ case 0: -+ reg = (mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG0) & ~(1<<15)) | (data << 15); -+ mac_write_dma_reg(mac, GMAC_HASH_ENGINE_REG0, reg); -+ break; -+ case 1: -+ reg = (mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG0) & ~(1<<31)) | (data << 31); -+ mac_write_dma_reg(mac, GMAC_HASH_ENGINE_REG0, reg); -+ break; -+ case 2: -+ reg = (mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG1) & ~(1<<15)) | (data << 15); -+ mac_write_dma_reg(mac, GMAC_HASH_ENGINE_REG1, reg); -+ break; -+ case 3: -+ reg = (mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG1) & ~(1<<31)) | (data << 31); -+ mac_write_dma_reg(mac, GMAC_HASH_ENGINE_REG1, reg); -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* mac_set_rule_action -+*----------------------------------------------------------------------*/ -+int mac_set_rule_action(int mac, int rule, int data) -+{ -+ u32 reg; -+ -+ if (data > 32) -+ return -1; -+ -+ if (data) -+ data = (data << 6) | (data + HASH_ACTION_DWORDS); -+ switch (rule) -+ { -+ case 0: -+ reg = (mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG0) & ~(0x7ff)); -+ mac_write_dma_reg(mac, GMAC_HASH_ENGINE_REG0, reg | data); -+ break; -+ case 1: -+ reg = (mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG0) & ~(0x7ff<<16)); -+ mac_write_dma_reg(mac, GMAC_HASH_ENGINE_REG0, reg | (data << 16)); -+ break; -+ case 2: -+ reg = (mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG1) & ~(0x7ff)); -+ mac_write_dma_reg(mac, GMAC_HASH_ENGINE_REG1, reg | data); -+ break; -+ case 3: -+ reg = (mac_read_dma_reg(mac, GMAC_HASH_ENGINE_REG1) & ~(0x7ff<<16)); -+ mac_write_dma_reg(mac, GMAC_HASH_ENGINE_REG1, reg | (data << 16)); -+ break; -+ default: -+ return -1; -+ } -+ -+ return 0; -+} -+/*---------------------------------------------------------------------- -+* mac_get_MRxCRx -+*----------------------------------------------------------------------*/ -+int mac_get_MRxCRx(int mac, int rule, int ctrlreg) -+{ -+ int reg; -+ -+ switch (rule) -+ { -+ case 0: reg = GMAC_MR0CR0 + ctrlreg * 4; break; -+ case 1: reg = GMAC_MR1CR0 + ctrlreg * 4; break; -+ case 2: reg = GMAC_MR2CR0 + ctrlreg * 4; break; -+ case 3: reg = GMAC_MR3CR0 + ctrlreg * 4; break; -+ default: return 0; -+ } -+ return mac_read_dma_reg(mac, reg); -+} -+ -+/*---------------------------------------------------------------------- -+* mac_set_MRxCRx -+*----------------------------------------------------------------------*/ -+void mac_set_MRxCRx(int mac, int rule, int ctrlreg, u32 data) -+{ -+ int reg; -+ -+ switch (rule) -+ { -+ case 0: reg = GMAC_MR0CR0 + ctrlreg * 4; break; -+ case 1: reg = GMAC_MR1CR0 + ctrlreg * 4; break; -+ case 2: reg = GMAC_MR2CR0 + ctrlreg * 4; break; -+ case 3: reg = GMAC_MR3CR0 + ctrlreg * 4; break; -+ default: return; -+ } -+ mac_write_dma_reg(mac, reg, data); -+} -+ -+/*---------------------------------------------------------------------- -+* mac_set_rule_priority -+*----------------------------------------------------------------------*/ -+void mac_set_rule_priority(int mac, int p0, int p1, int p2, int p3) -+{ -+ int i; -+ GMAC_MRxCR0_T reg[4]; -+ -+ for (i=0; i<4; i++) -+ reg[i].bits32 = mac_get_MRxCRx(mac, i, 0); -+ -+ reg[0].bits.priority = p0; -+ reg[1].bits.priority = p1; -+ reg[2].bits.priority = p2; -+ reg[3].bits.priority = p3; -+ -+ for (i=0; i<4; i++) -+ mac_set_MRxCRx(mac, i, 0, reg[i].bits32); -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_netdev_ioctl -+*----------------------------------------------------------------------*/ -+static int gmac_netdev_ioctl(struct net_device *dev, struct ifreq *rq, int cmd) -+{ -+ int rc = 0; -+ unsigned char *hwa = rq->ifr_ifru.ifru_hwaddr.sa_data; -+ -+#ifdef br_if_ioctl -+ struct ethtool_cmd ecmd; //br_if.c will call this ioctl -+ GMAC_INFO_T *tp = dev->priv; -+#endif -+ -+#ifdef CONFIG_SL351x_NAT -+ if (cmd == SIOCDEVPRIVATE) -+ return sl351x_nat_ioctl(dev, rq, cmd); -+#endif -+ -+ switch (cmd) { -+ case SIOCETHTOOL: -+#ifdef br_if_ioctl //br_if.c will call this ioctl -+ if (!netif_running(dev)) -+ { -+ printk("Before changing the H/W address,please down the device.\n"); -+ return -EINVAL; -+ } -+ memset((void *) &ecmd, 0, sizeof (ecmd)); -+ ecmd.supported = -+ SUPPORTED_Autoneg | SUPPORTED_TP | SUPPORTED_MII | -+ SUPPORTED_10baseT_Half | SUPPORTED_10baseT_Full | -+ SUPPORTED_100baseT_Half | SUPPORTED_100baseT_Full; -+ ecmd.port = PORT_TP; -+ ecmd.transceiver = XCVR_EXTERNAL; -+ ecmd.phy_address = tp->phy_addr; -+ switch (tp->speed_status) -+ { -+ case GMAC_SPEED_10: ecmd.speed = SPEED_10; break; -+ case GMAC_SPEED_100: ecmd.speed = SPEED_100; break; -+ case GMAC_SPEED_1000: ecmd.speed = SPEED_1000; break; -+ default: ecmd.speed = SPEED_10; break; -+ } -+ ecmd.duplex = tp->full_duplex_status ? DUPLEX_FULL : DUPLEX_HALF; -+ ecmd.advertising = ADVERTISED_TP; -+ ecmd.advertising |= ADVERTISED_Autoneg; -+ ecmd.autoneg = AUTONEG_ENABLE; -+ if (copy_to_user(rq->ifr_data, &ecmd, sizeof (ecmd))) -+ return -EFAULT; -+#endif -+ -+ break; -+ -+ case SIOCSIFHWADDR: -+ if (!netif_running(dev)) -+ { -+ printk("Before changing the H/W address,please down the device.\n"); -+ return -EINVAL; -+ } -+ gmac_set_mac_address(dev,hwa); -+ break; -+ -+ case SIOCGMIIPHY: /* Get the address of the PHY in use. */ -+ break; -+ -+ case SIOCGMIIREG: /* Read the specified MII register. */ -+ break; -+ -+ case SIOCSMIIREG: /* Write the specified MII register */ -+ break; -+ -+ default: -+ rc = -EOPNOTSUPP; -+ break; -+ } -+ -+ return rc; -+} -+ -+#ifdef SL351x_GMAC_WORKAROUND -+ -+#define GMAC_TX_STATE_OFFSET 0x60 -+#define GMAC_RX_STATE_OFFSET 0x64 -+#define GMAC_POLL_HANGED_NUM 200 -+#define GMAC_RX_HANGED_STATE 0x4b2000 -+#define GMAC_RX_HANGED_MASK 0xdff000 -+#define GMAC_TX_HANGED_STATE 0x34012 -+#define GMAC_TX_HANGED_MASK 0xfffff -+#define TOE_GLOBAL_REG_SIZE (0x78/sizeof(u32)) -+#define TOE_DMA_REG_SIZE (0xd0/sizeof(u32)) -+#define TOE_GMAC_REG_SIZE (0x30/sizeof(u32)) -+#define GMAC0_RX_HANG_BIT (1 << 0) -+#define GMAC0_TX_HANG_BIT (1 << 1) -+#define GMAC1_RX_HANG_BIT (1 << 2) -+#define GMAC1_TX_HANG_BIT (1 << 3) -+ -+int gmac_in_do_workaround; -+#if 0 -+int debug_cnt, poll_max_cnt; -+#endif -+u32 gmac_workaround_cnt[4]; -+u32 toe_global_reg[TOE_GLOBAL_REG_SIZE]; -+u32 toe_dma_reg[GMAC_NUM][TOE_DMA_REG_SIZE]; -+u32 toe_gmac_reg[GMAC_NUM][TOE_GMAC_REG_SIZE]; -+u32 gmac_short_frame_workaround_cnt[2]; -+ -+static void sl351x_gmac_release_buffers(void); -+static void sl351x_gmac_release_swtx_q(void); -+static void sl351x_gmac_release_rx_q(void); -+#ifdef _TOEQ_CLASSQ_READY_ -+static void sl351x_gmac_release_class_q(void); -+static void sl351x_gmac_release_toe_q(void); -+static void sl351x_gmac_release_intr_q(void); -+#endif -+static void sl351x_gmac_release_sw_free_q(void); -+static void sl351x_gmac_release_hw_free_q(void); -+#ifdef CONFIG_SL351x_NAT -+static int get_free_desc_cnt(unsigned long rwptr, int total); -+static void sl351x_gmac_release_hwtx_q(void); -+u32 sl351x_nat_workaround_cnt; -+#endif -+void sl351x_gmac_save_reg(void); -+void sl351x_gmac_restore_reg(void); -+ -+ -+/*---------------------------------------------------------------------- -+* sl351x_poll_gmac_hanged_status -+* - Called by timer routine, period 10ms -+* - If (state != 0 && state == prev state && ) -+*----------------------------------------------------------------------*/ -+void sl351x_poll_gmac_hanged_status(u32 data) -+{ -+ int i; -+ u32 state; -+ TOE_INFO_T *toe; -+ GMAC_INFO_T *tp; -+ u32 hanged_state; -+ // int old_operation[GMAC_NUM]; -+#ifdef CONFIG_SL351x_NAT -+ u32 hw_free_cnt; -+#endif -+ -+ if (gmac_in_do_workaround) -+ return; -+ -+ gmac_in_do_workaround = 1; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ hanged_state = 0; -+ -+#ifdef SL351x_TEST_WORKAROUND -+ if (toe->gmac[0].operation || toe->gmac[1].operation) -+ { -+ debug_cnt++; -+ if (debug_cnt == (30 * HZ)) -+ { -+ debug_cnt = 0; -+ hanged_state = GMAC0_RX_HANG_BIT; -+ goto do_workaround; -+ } -+ } -+#endif -+ if (toe->gmac[0].operation) -+ hanged_state |= GMAC0_RX_HANG_BIT | GMAC0_TX_HANG_BIT; -+ -+#if (GMAC_NUM > 1) -+ if (toe->gmac[1].operation) -+ hanged_state |= GMAC1_RX_HANG_BIT | GMAC1_TX_HANG_BIT; -+#endif -+ -+ for (i=0; i<GMAC_POLL_HANGED_NUM; i++) -+ { -+ if (hanged_state & GMAC0_RX_HANG_BIT) -+ { -+ state = readl(TOE_GMAC0_BASE + GMAC_RX_STATE_OFFSET) & GMAC_RX_HANGED_MASK; -+ if (state != GMAC_RX_HANGED_STATE) -+ hanged_state &= ~GMAC0_RX_HANG_BIT; -+ } -+ if (hanged_state & GMAC0_TX_HANG_BIT) -+ { -+ state = readl(TOE_GMAC0_BASE + GMAC_TX_STATE_OFFSET) & GMAC_TX_HANGED_MASK; -+ if (state != GMAC_TX_HANGED_STATE) -+ hanged_state &= ~GMAC0_TX_HANG_BIT; -+ } -+#if (GMAC_NUM > 1) -+ if (hanged_state & GMAC1_RX_HANG_BIT) -+ { -+ state = readl(TOE_GMAC1_BASE + GMAC_RX_STATE_OFFSET) & GMAC_RX_HANGED_MASK; -+ if (state != GMAC_RX_HANGED_STATE) -+ hanged_state &= ~GMAC1_RX_HANG_BIT; -+ } -+ if (hanged_state & GMAC1_TX_HANG_BIT) -+ { -+ state = readl(TOE_GMAC1_BASE + GMAC_TX_STATE_OFFSET) & GMAC_TX_HANGED_MASK; -+ if (state != GMAC_TX_HANGED_STATE) -+ hanged_state &= ~GMAC1_TX_HANG_BIT; -+ } -+#endif -+ if (!hanged_state) -+ { -+#if 0 -+ if (i < poll_max_cnt) -+ poll_max_cnt = i; -+#endif -+ if (toe->gmac[0].short_frames_cnt >= GMAC_SHORT_FRAME_THRESHOLD) -+ { -+ gmac_short_frame_workaround_cnt[0]++; -+ toe->gmac[0].short_frames_cnt = 0; -+ goto do_workaround; -+ } -+#if (GMAC_NUM > 1) -+ if (toe->gmac[1].short_frames_cnt >= GMAC_SHORT_FRAME_THRESHOLD) -+ { -+ gmac_short_frame_workaround_cnt[1]++; -+ toe->gmac[1].short_frames_cnt = 0; -+ goto do_workaround; -+ } -+#endif -+ -+#ifdef CONFIG_SL351x_NAT -+ hw_free_cnt = readl(TOE_GLOBAL_BASE + GLOBAL_HWFQ_RWPTR_REG); -+ hw_free_cnt = get_free_desc_cnt(hw_free_cnt, TOE_HW_FREEQ_DESC_NUM); -+#ifdef NAT_WORKAROUND_BY_RESET_GMAC -+ if (readl(TOE_GLOBAL_BASE + 0x4084) && (hw_free_cnt <= PAUSE_SET_HW_FREEQ)) -+ { -+ sl351x_nat_workaround_cnt++; -+ goto do_workaround; -+ } -+#else -+ if (readl(TOE_GLOBAL_BASE + 0x4084) && (hw_free_cnt <= (PAUSE_SET_HW_FREEQ*2))) -+ { -+ sl351x_nat_workaround_cnt++; -+ sl351x_nat_workaround_handler(); -+ } -+#endif -+#endif -+ gmac_in_do_workaround = 0; -+ add_timer(&gmac_workround_timer_obj); -+ return; -+ } -+ } -+ -+do_workaround: -+ -+ gmac_initialized = 0; -+ if (hanged_state) -+ { -+ if (hanged_state & GMAC0_RX_HANG_BIT) gmac_workaround_cnt[0]++; -+ if (hanged_state & GMAC0_TX_HANG_BIT) gmac_workaround_cnt[1]++; -+ if (hanged_state & GMAC1_RX_HANG_BIT) gmac_workaround_cnt[2]++; -+ if (hanged_state & GMAC1_TX_HANG_BIT) gmac_workaround_cnt[3]++; -+ } -+ -+ for (i=0; i<GMAC_NUM; i++) -+ { -+ tp=(GMAC_INFO_T *)&toe->gmac[i]; -+ // old_operation[i] = tp->operation; -+ if (tp->operation) -+ { -+ netif_stop_queue(tp->dev); -+ clear_bit(__LINK_STATE_START, &tp->dev->state); -+ toe_gmac_disable_interrupt(tp->irq); -+ toe_gmac_disable_tx_rx(tp->dev); -+ toe_gmac_hw_stop(tp->dev); -+ } -+ } -+ -+ // clear all status bits -+ writel(0xffffffff, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_0_REG); -+ writel(0xffffffff, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_1_REG); -+ writel(0xffffffff, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_2_REG); -+ writel(0xffffffff, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_3_REG); -+ writel(0xffffffff, TOE_GLOBAL_BASE + GLOBAL_INTERRUPT_STATUS_4_REG); -+ -+#if 0 -+ if ((hanged_state & GMAC0_RX_HANG_BIT) && -+ (readl(TOE_GMAC0_DMA_BASE + 0xdc) & 0xf0)) -+ { -+ struct sk_buff *skb; -+ unsigned int buf; -+ buf = readl(TOE_GMAC0_DMA_BASE + 0x68) & ~3; -+#ifdef CONFIG_SL351x_NAT -+ if (buf < toe->hwfq_buf_base_dma || buf > toe->hwfq_buf_end_dma) -+#endif -+ { -+ skb = (struct sk_buff *)(REG32(buf - SKB_RESERVE_BYTES)); -+ printk("GMAC-0 free a loss SKB 0x%x\n", (u32)skb); -+ dev_kfree_skb(skb); -+ } -+ } -+ if ((hanged_state & GMAC1_RX_HANG_BIT) && -+ (readl(TOE_GMAC1_DMA_BASE + 0xdc) & 0xf0)) -+ { -+ struct sk_buff *skb; -+ unsigned int buf; -+ buf = readl(TOE_GMAC1_DMA_BASE + 0x68) & ~3; -+#ifdef CONFIG_SL351x_NAT -+ if (buf < toe->hwfq_buf_base_dma || buf > toe->hwfq_buf_end_dma) -+#endif -+ { -+ skb = (struct sk_buff *)(REG32(buf - SKB_RESERVE_BYTES)); -+ printk("GMAC-1 free a loss SKB 0x%x\n", (u32)skb); -+ dev_kfree_skb(skb); -+ } -+ } -+#endif -+ -+ sl351x_gmac_release_buffers(); -+ sl351x_gmac_save_reg(); -+ toe_gmac_sw_reset(); -+ sl351x_gmac_restore_reg(); -+ -+ if (toe->gmac[0].default_qhdr->word1.bits32) -+ { -+ // printk("===> toe->gmac[0].default_qhdr->word1 = 0x%x\n", toe->gmac[0].default_qhdr->word1); -+ sl351x_gmac_release_rx_q(); -+ writel(0, &toe->gmac[0].default_qhdr->word1); -+ } -+ if (toe->gmac[1].default_qhdr->word1.bits32) -+ { -+ // printk("===> toe->gmac[1].default_qhdr->word1 = 0x%x\n", toe->gmac[1].default_qhdr->word1); -+ sl351x_gmac_release_rx_q(); -+ writel(0, &toe->gmac[1].default_qhdr->word1); -+ } -+ -+ gmac_initialized = 1; -+ -+#ifdef CONFIG_SL351x_NAT -+ writel(0, TOE_GLOBAL_BASE + 0x4084); -+#endif -+ -+ for (i=0; i<GMAC_NUM; i++) -+ { -+ tp=(GMAC_INFO_T *)&toe->gmac[i]; -+ if (tp->operation) -+ { -+ toe_gmac_enable_interrupt(tp->irq); -+ toe_gmac_hw_start(tp->dev); -+ toe_gmac_enable_tx_rx(tp->dev); -+ netif_wake_queue(tp->dev); -+ set_bit(__LINK_STATE_START, &tp->dev->state); -+ } -+ } -+ -+ gmac_in_do_workaround = 0; -+ add_timer(&gmac_workround_timer_obj); -+} -+ -+/*---------------------------------------------------------------------- -+* get_free_desc_cnt -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_NAT -+static int get_free_desc_cnt(unsigned long rwptr, int total) -+{ -+ unsigned short wptr = rwptr & 0xffff; -+ unsigned short rptr = rwptr >> 16; -+ -+ if (wptr >= rptr) -+ return (total - wptr + rptr); -+ else -+ return (rptr - wptr); -+} -+#endif -+/*---------------------------------------------------------------------- -+* sl351x_gmac_release_buffers -+*----------------------------------------------------------------------*/ -+static void sl351x_gmac_release_buffers(void) -+{ -+ // Free buffers & Descriptors in all SW Tx Queues -+ sl351x_gmac_release_swtx_q(); -+ -+ // Free buffers in Default Rx Queues -+ sl351x_gmac_release_rx_q(); -+ -+#ifdef _TOEQ_CLASSQ_READY_ -+ // Free buffers in Classification Queues -+ sl351x_gmac_release_class_q(); -+ -+ // Free buffers in TOE Queues -+ sl351x_gmac_release_toe_q(); -+ -+ // Free buffers in Interrupt Queues -+ sl351x_gmac_release_intr_q(); -+#endif -+ -+ // Free buffers & descriptors in SW free queue -+ sl351x_gmac_release_sw_free_q(); -+ -+ // Free buffers & descriptors in HW free queue -+ sl351x_gmac_release_hw_free_q(); -+ -+#ifdef CONFIG_SL351x_NAT -+ // Free buffers & descriptors in HW free queue -+ sl351x_gmac_release_hwtx_q(); -+#endif -+} -+/*---------------------------------------------------------------------- -+* sl351x_gmac_release_swtx_q -+*----------------------------------------------------------------------*/ -+static void sl351x_gmac_release_swtx_q(void) -+{ -+ int i, j; -+ GMAC_TXDESC_T *curr_desc; -+ unsigned int desc_count; -+ TOE_INFO_T *toe; -+ GMAC_INFO_T *tp; -+ GMAC_SWTXQ_T *swtxq; -+ DMA_RWPTR_T rwptr; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ tp = (GMAC_INFO_T *)&toe->gmac[0]; -+ for (i=0; i<GMAC_NUM; i++, tp++) -+ { -+ if (!tp->existed) continue; -+ swtxq = (GMAC_SWTXQ_T *)&tp->swtxq[0]; -+ for (j=0; j<TOE_SW_TXQ_NUM; j++, swtxq++) -+ { -+ for (;;) -+ { -+ rwptr.bits32 = readl(swtxq->rwptr_reg); -+ if (rwptr.bits.rptr == swtxq->finished_idx) -+ break; -+ curr_desc = (GMAC_TXDESC_T *)swtxq->desc_base + swtxq->finished_idx; -+ // if (curr_desc->word0.bits.status_tx_ok) -+ { -+ desc_count = curr_desc->word0.bits.desc_count; -+ while (--desc_count) -+ { -+ curr_desc->word0.bits.status_tx_ok = 0; -+ swtxq->finished_idx = RWPTR_ADVANCE_ONE(swtxq->finished_idx, swtxq->total_desc_num); -+ curr_desc = (GMAC_TXDESC_T *)swtxq->desc_base + swtxq->finished_idx; -+ } -+ -+ curr_desc->word0.bits.status_tx_ok = 0; -+ if (swtxq->tx_skb[swtxq->finished_idx]) -+ { -+ dev_kfree_skb_irq(swtxq->tx_skb[swtxq->finished_idx]); -+ swtxq->tx_skb[swtxq->finished_idx] = NULL; -+ } -+ } -+ swtxq->finished_idx = RWPTR_ADVANCE_ONE(swtxq->finished_idx, swtxq->total_desc_num); -+ } -+ writel(0, swtxq->rwptr_reg); -+ swtxq->finished_idx = 0; -+ } -+ } -+ -+} -+/*---------------------------------------------------------------------- -+* sl351x_gmac_release_rx_q -+*----------------------------------------------------------------------*/ -+static void sl351x_gmac_release_rx_q(void) -+{ -+ int i; -+ TOE_INFO_T *toe; -+ GMAC_INFO_T *tp; -+ DMA_RWPTR_T rwptr; -+ volatile GMAC_RXDESC_T *curr_desc; -+ struct sk_buff *skb; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ tp = (GMAC_INFO_T *)&toe->gmac[0]; -+ for (i=0; i<GMAC_NUM; i++, tp++) -+ { -+ if (!tp->existed) continue; -+ rwptr.bits32 = readl(&tp->default_qhdr->word1); -+ while (rwptr.bits.rptr != rwptr.bits.wptr) -+ { -+ curr_desc = (GMAC_RXDESC_T *)tp->default_desc_base + rwptr.bits.rptr; -+ skb = (struct sk_buff *)(REG32(__va(curr_desc->word2.buf_adr) - SKB_RESERVE_BYTES)); -+ dev_kfree_skb_irq(skb); -+ rwptr.bits.rptr = RWPTR_ADVANCE_ONE(rwptr.bits.rptr, tp->default_desc_num); -+ SET_RPTR(&tp->default_qhdr->word1, rwptr.bits.rptr); -+ rwptr.bits32 = readl(&tp->default_qhdr->word1); -+ } // while -+ writel(0, &tp->default_qhdr->word1); -+ tp->rx_rwptr.bits32 = 0; -+ } // for -+ -+} -+/*---------------------------------------------------------------------- -+* sl351x_gmac_release_class_q -+*----------------------------------------------------------------------*/ -+#ifdef _TOEQ_CLASSQ_READY_ -+static void sl351x_gmac_release_class_q(void) -+{ -+ int i; -+ TOE_INFO_T *toe; -+ CLASSQ_INFO_T *classq; -+ DMA_RWPTR_T rwptr; -+ volatile GMAC_RXDESC_T *curr_desc; -+ struct sk_buff *skb; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ classq = (CLASSQ_INFO_T *)&toe->classq[0]; -+ for (i=0; i<TOE_CLASS_QUEUE_NUM; i++, classq++) -+ { -+ rwptr.bits32 = readl(&classq->qhdr->word1); -+ while (rwptr.bits.rptr != rwptr.bits.wptr) -+ { -+ curr_desc = (GMAC_RXDESC_T *)classq->desc_base + rwptr.bits.rptr; -+ skb = (struct sk_buff *)(REG32(__va(curr_desc->word2.buf_adr) - SKB_RESERVE_BYTES)); -+ dev_kfree_skb_irq(skb); -+ rwptr.bits.rptr = RWPTR_ADVANCE_ONE(rwptr.bits.rptr, classq->desc_num); -+ SET_RPTR(&classq->qhdr->word1, rwptr.bits.rptr); -+ rwptr.bits32 = readl(&classq->qhdr->word1); -+ } // while -+ writel(0, &classq->qhdr->word1); -+ classq->rwptr.bits32 = 0; -+ } // for -+ -+} -+#endif -+/*---------------------------------------------------------------------- -+* sl351x_gmac_release_toe_q -+*----------------------------------------------------------------------*/ -+#ifdef _TOEQ_CLASSQ_READY_ -+static void sl351x_gmac_release_toe_q(void) -+{ -+ int i; -+ TOE_INFO_T *toe; -+ TOEQ_INFO_T *toeq_info; -+ TOE_QHDR_T *toe_qhdr; -+ DMA_RWPTR_T rwptr; -+ volatile GMAC_RXDESC_T *curr_desc; -+ unsigned int rptr, wptr; -+ GMAC_RXDESC_T *toe_curr_desc; -+ struct sk_buff *skb; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ toe_qhdr = (TOE_QHDR_T *)TOE_TOE_QUE_HDR_BASE; -+ for (i=0; i<TOE_TOE_QUEUE_NUM; i++, toe_qhdr++) -+ { -+ toeq_info = (TOEQ_INFO_T *)&toe->toeq[i]; -+ wptr = toe_qhdr->word1.bits.wptr; -+ rptr = toe_qhdr->word1.bits.rptr; -+ while (rptr != wptr) -+ { -+ toe_curr_desc = (GMAC_RXDESC_T *)toeq_info->desc_base + rptr; -+ skb = (struct sk_buff *)(REG32(__va(toe_curr_desc->word2.buf_adr) - SKB_RESERVE_BYTES)); -+ dev_kfree_skb_irq(skb); -+ rptr = RWPTR_ADVANCE_ONE(rptr, toeq_info->desc_num); -+ SET_RPTR(&toe_qhdr->word1.bits32, rptr); -+ wptr = toe_qhdr->word1.bits.wptr; -+ rptr = toe_qhdr->word1.bits.rptr; -+ } -+ toe_qhdr->word1.bits32 = 0; -+ toeq_info->rwptr.bits32 = 0; -+ } -+} -+#endif -+/*---------------------------------------------------------------------- -+* sl351x_gmac_release_intr_q -+*----------------------------------------------------------------------*/ -+#ifdef _TOEQ_CLASSQ_READY_ -+static void sl351x_gmac_release_intr_q(void) -+{ -+} -+#endif -+/*---------------------------------------------------------------------- -+* sl351x_gmac_release_sw_free_q -+*----------------------------------------------------------------------*/ -+static void sl351x_gmac_release_sw_free_q(void) -+{ -+ TOE_INFO_T *toe; -+ volatile DMA_RWPTR_T fq_rwptr; -+ volatile GMAC_RXDESC_T *fq_desc; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ -+ while ((unsigned short)RWPTR_ADVANCE_ONE(fq_rwptr.bits.wptr, TOE_SW_FREEQ_DESC_NUM) != fq_rwptr.bits.rptr) -+ { -+ struct sk_buff *skb; -+ if ((skb = dev_alloc_skb(SW_RX_BUF_SIZE))==NULL) /* allocate socket buffer */ -+ { -+ printk("%s::skb buffer allocation fail !\n",__func__); while(1); -+ } -+ // *(unsigned int *)(skb->data) = (unsigned int)skb; -+ REG32(skb->data) = (unsigned long)skb; -+ skb_reserve(skb, SKB_RESERVE_BYTES); -+ -+ fq_rwptr.bits.wptr = RWPTR_ADVANCE_ONE(fq_rwptr.bits.wptr, TOE_SW_FREEQ_DESC_NUM); -+ fq_desc = (volatile GMAC_RXDESC_T *)toe->swfq_desc_base + fq_rwptr.bits.wptr; -+ fq_desc->word2.buf_adr = (unsigned int)__pa(skb->data); -+ SET_WPTR(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG, fq_rwptr.bits.wptr); -+ fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ } -+ -+ toe->fq_rx_rwptr.bits.wptr = TOE_SW_FREEQ_DESC_NUM - 1; -+ toe->fq_rx_rwptr.bits.rptr = 0; -+ writel(toe->fq_rx_rwptr.bits32, TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ -+} -+/*---------------------------------------------------------------------- -+* sl351x_gmac_release_hw_free_q -+*----------------------------------------------------------------------*/ -+static void sl351x_gmac_release_hw_free_q(void) -+{ -+ DMA_RWPTR_T rwptr_reg; -+ -+#ifdef CONFIG_SL351x_NAT -+ int i; -+ TOE_INFO_T *toe; -+ GMAC_RXDESC_T *desc_ptr; -+ unsigned int buf_ptr; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ desc_ptr = (GMAC_RXDESC_T *)toe->hwfq_desc_base; -+ buf_ptr = (unsigned int)toe->hwfq_buf_base_dma; -+ for (i=0; i<TOE_HW_FREEQ_DESC_NUM; i++) -+ { -+ desc_ptr->word0.bits.buffer_size = HW_RX_BUF_SIZE; -+ desc_ptr->word1.bits.sw_id = i; -+ desc_ptr->word2.buf_adr = (unsigned int)buf_ptr; -+ desc_ptr++; -+ buf_ptr += HW_RX_BUF_SIZE; -+ } -+#endif -+ rwptr_reg.bits.wptr = TOE_HW_FREEQ_DESC_NUM - 1; -+ rwptr_reg.bits.rptr = 0; -+ writel(rwptr_reg.bits32, TOE_GLOBAL_BASE + GLOBAL_HWFQ_RWPTR_REG); -+} -+ -+/*---------------------------------------------------------------------- -+* sl351x_gmac_release_hw_free_q -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_NAT -+static void sl351x_gmac_release_hwtx_q(void) -+{ -+ int i; -+ unsigned int rwptr_addr; -+ -+ rwptr_addr = TOE_GMAC0_DMA_BASE + GMAC_HW_TX_QUEUE0_PTR_REG; -+ for (i=0; i<TOE_HW_TXQ_NUM; i++) -+ { -+ writel(0, rwptr_addr); -+ rwptr_addr+=4; -+ } -+ rwptr_addr = TOE_GMAC1_DMA_BASE + GMAC_HW_TX_QUEUE0_PTR_REG; -+ for (i=0; i<TOE_HW_TXQ_NUM; i++) -+ { -+ writel(0, rwptr_addr); -+ rwptr_addr+=4; -+ } -+} -+#endif -+ -+/*---------------------------------------------------------------------- -+* sl351x_gmac_save_reg -+*----------------------------------------------------------------------*/ -+void sl351x_gmac_save_reg(void) -+{ -+ int i; -+ volatile u32 *destp; -+ unsigned int srce_addr; -+ -+ srce_addr = TOE_GLOBAL_BASE; -+ destp = (volatile u32 *)toe_global_reg; -+ for (i=0; i<TOE_GLOBAL_REG_SIZE; i++, destp++, srce_addr+=4) -+ *destp = readl(srce_addr); -+ -+ srce_addr = TOE_GMAC0_DMA_BASE; -+ destp = (volatile u32 *)&toe_dma_reg[0][0]; -+ for (i=0; i<TOE_DMA_REG_SIZE; i++, destp++, srce_addr+=4) -+ { -+ if (srce_addr == (TOE_GMAC0_DMA_BASE+0x38)) -+ srce_addr = (TOE_GMAC0_DMA_BASE+0x50); -+ if (srce_addr == (TOE_GMAC0_DMA_BASE+0x58)) -+ srce_addr = (TOE_GMAC0_DMA_BASE+0x70); -+ -+ *destp = readl(srce_addr); -+ } -+ srce_addr = TOE_GMAC1_DMA_BASE; -+ destp = (volatile u32 *)&toe_dma_reg[1][0]; -+ for (i=0; i<TOE_DMA_REG_SIZE; i++, destp++, srce_addr+=4) -+ { -+ if (srce_addr == (TOE_GMAC0_DMA_BASE+0x38)) -+ srce_addr = (TOE_GMAC0_DMA_BASE+0x50); -+ if (srce_addr == (TOE_GMAC0_DMA_BASE+0x58)) -+ srce_addr = (TOE_GMAC0_DMA_BASE+0x70); -+ -+ *destp = readl(srce_addr); -+ } -+ -+ srce_addr = TOE_GMAC0_BASE; -+ destp = (volatile u32 *)&toe_gmac_reg[0][0]; -+ for (i=0; i<TOE_GMAC_REG_SIZE; i++, destp++, srce_addr+=4) -+ *destp = readl(srce_addr); -+ -+ srce_addr = TOE_GMAC1_BASE; -+ destp = (volatile u32 *)&toe_gmac_reg[1][0]; -+ for (i=0; i<TOE_GMAC_REG_SIZE; i++, destp++, srce_addr+=4) -+ *destp = readl(srce_addr); -+} -+ -+/*---------------------------------------------------------------------- -+* sl351x_gmac_restore_reg -+*----------------------------------------------------------------------*/ -+void sl351x_gmac_restore_reg(void) -+{ -+ int i; -+ volatile u32 *srcep; -+ unsigned int dest_addr; -+ -+ srcep = (volatile u32 *)&toe_dma_reg[0][0]; -+ dest_addr = TOE_GMAC0_DMA_BASE; -+ for (i=0; i<TOE_DMA_REG_SIZE; i++, dest_addr+=4, srcep++) -+ { -+ if (dest_addr == (TOE_GMAC0_DMA_BASE+0x38)) -+ dest_addr = (TOE_GMAC0_DMA_BASE+0x50); -+ if (dest_addr == (TOE_GMAC0_DMA_BASE+0x58)) -+ dest_addr = (TOE_GMAC0_DMA_BASE+0x70); -+ -+ writel(*srcep, dest_addr); -+ // gmac_write_reg(dest_addr, 0, *srcep, 0xffffffff); -+ } -+ srcep = (volatile u32 *)&toe_dma_reg[1][0]; -+ dest_addr = TOE_GMAC1_DMA_BASE; -+ for (i=0; i<TOE_DMA_REG_SIZE; i++, dest_addr+=4, srcep++) -+ { -+ if (dest_addr == (TOE_GMAC0_DMA_BASE+0x38)) -+ dest_addr = (TOE_GMAC0_DMA_BASE+0x50); -+ if (dest_addr == (TOE_GMAC0_DMA_BASE+0x58)) -+ dest_addr = (TOE_GMAC0_DMA_BASE+0x70); -+ -+ writel(*srcep, dest_addr); -+ // gmac_write_reg(dest_addr, 0, *srcep, 0xffffffff); -+ } -+ -+ srcep = (volatile u32 *)&toe_gmac_reg[0][0]; -+ dest_addr = TOE_GMAC0_BASE; -+ for (i=0; i<TOE_GMAC_REG_SIZE; i++, dest_addr+=4, srcep++) -+ writel(*srcep, dest_addr); -+ -+ srcep = (volatile u32 *)&toe_gmac_reg[1][0]; -+ dest_addr = TOE_GMAC1_BASE; -+ for (i=0; i<TOE_GMAC_REG_SIZE; i++, dest_addr+=4, srcep++) -+ writel(*srcep, dest_addr); -+ -+ srcep = (volatile u32 *)toe_global_reg; -+ dest_addr = TOE_GLOBAL_BASE; -+ for (i=0; i<TOE_GLOBAL_REG_SIZE; i++, dest_addr+=4, srcep++) -+ writel(*srcep, dest_addr); -+ -+} -+ -+#ifdef CONFIG_SL351x_NAT -+/*---------------------------------------------------------------------- -+* sl351x_nat_workaround_init -+*----------------------------------------------------------------------*/ -+#define NAT_WORAROUND_DESC_POWER (6) -+#define NAT_WORAROUND_DESC_NUM (2 << NAT_WORAROUND_DESC_POWER) -+dma_addr_t sl351x_nat_workaround_desc_dma; -+void sl351x_nat_workaround_init(void) -+{ -+ unsigned int desc_buf; -+ -+ desc_buf = (unsigned int)DMA_MALLOC((NAT_WORAROUND_DESC_NUM * sizeof(GMAC_RXDESC_T)), -+ (dma_addr_t *)&sl351x_nat_workaround_desc_dma) ; -+ memset((void *)desc_buf, 0, NAT_WORAROUND_DESC_NUM * sizeof(GMAC_RXDESC_T)); -+ -+ // DMA Queue Base & Size -+ writel((sl351x_nat_workaround_desc_dma & DMA_Q_BASE_MASK) | NAT_WORAROUND_DESC_POWER, -+ TOE_GLOBAL_BASE + 0x4080); -+ writel(0, TOE_GLOBAL_BASE + 0x4084); -+} -+ -+/*---------------------------------------------------------------------- -+* sl351x_nat_workaround_handler -+*----------------------------------------------------------------------*/ -+#ifndef NAT_WORKAROUND_BY_RESET_GMAC -+static void sl351x_nat_workaround_handler(void) -+{ -+ int i; -+ DMA_RWPTR_T rwptr; -+ GMAC_RXDESC_T *desc_ptr; -+ unsigned int buf_ptr; -+ TOE_INFO_T *toe; -+ GMAC_CONFIG0_T config0; -+ unsigned int rwptr_addr; -+ -+ toe = (TOE_INFO_T *)&toe_private_data; -+ -+ // disable Rx of GMAC-0 & 1 -+ config0.bits32 = readl(TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 1; -+ writel(config0.bits32, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits32 = readl(TOE_GMAC1_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 1; -+ writel(config0.bits32, TOE_GMAC1_BASE+GMAC_CONFIG0); -+ -+ // wait GMAC-0 HW Tx finished -+ rwptr_addr = TOE_GMAC0_DMA_BASE + GMAC_HW_TX_QUEUE0_PTR_REG; -+ for (i=0; i<TOE_HW_TXQ_NUM; i++) -+ { -+ rwptr.bits32 = readl(rwptr_addr); -+ if (rwptr.bits.rptr != rwptr.bits.wptr) -+ return; // wait the HW to send packets and release buffers -+ rwptr_addr+=4; -+ } -+ rwptr_addr = TOE_GMAC1_DMA_BASE + GMAC_HW_TX_QUEUE0_PTR_REG; -+ for (i=0; i<TOE_HW_TXQ_NUM; i++) -+ { -+ rwptr.bits32 = readl(rwptr_addr); -+ if (rwptr.bits.rptr != rwptr.bits.wptr) -+ return; // wait the HW to send packets and release buffers -+ rwptr_addr+=4; -+ } -+ -+ // printk("sl351x_nat_workaround_handler %d\n", sl351x_nat_workaround_cnt); -+ desc_ptr = (GMAC_RXDESC_T *)toe->hwfq_desc_base; -+ buf_ptr = (unsigned int)toe->hwfq_buf_base_dma; -+ for (i=0; i<TOE_HW_FREEQ_DESC_NUM; i++) -+ { -+ desc_ptr->word0.bits.buffer_size = HW_RX_BUF_SIZE; -+ desc_ptr->word1.bits.sw_id = i; -+ desc_ptr->word2.buf_adr = (unsigned int)buf_ptr; -+ desc_ptr++; -+ buf_ptr += HW_RX_BUF_SIZE; -+ } -+ rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_HWFQ_RWPTR_REG); -+ rwptr.bits.wptr = RWPTR_RECEDE_ONE(rwptr.bits.rptr, TOE_HW_FREEQ_DESC_NUM); -+ writel(rwptr.bits32, TOE_GLOBAL_BASE + GLOBAL_HWFQ_RWPTR_REG); -+ writel(0, TOE_GLOBAL_BASE + 0x4084); -+ -+ // Enable Rx of GMAC-0 & 1 -+ config0.bits32 = readl(TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC0_BASE+GMAC_CONFIG0); -+ config0.bits32 = readl(TOE_GMAC1_BASE+GMAC_CONFIG0); -+ config0.bits.dis_rx = 0; -+ writel(config0.bits32, TOE_GMAC1_BASE+GMAC_CONFIG0); -+} -+#endif -+#endif // CONFIG_SL351x_NAT -+ -+#endif // SL351x_GMAC_WORKAROUND -+ -+/* get the mac addresses from flash -+ *can't do this in module_init because mtd driver is initialized after ethernet -+ */ -+static __init int sl351x_mac_address_init(void) -+{ -+ GMAC_INFO_T *tp; -+ struct sockaddr sock; -+ int i; -+ -+ /* get mac address from FLASH */ -+ gmac_get_mac_address(); -+ -+ for (i = 0; i < GMAC_NUM; i++) { -+ tp = (GMAC_INFO_T *)&toe_private_data.gmac[i]; -+ memcpy(&sock.sa_data[0],ð_mac[tp->port_id][0],6); -+ gmac_set_mac_address(tp->dev,(void *)&sock); -+ } -+ -+ return 0; -+} -+late_initcall(sl351x_mac_address_init); -+ -+ ---- /dev/null -+++ b/drivers/net/sl351x_hash.c -@@ -0,0 +1,713 @@ -+/************************************************************************** -+* Copyright 2006 StorLink Semiconductors, Inc. All rights reserved. -+*-------------------------------------------------------------------------- -+* Name : sl351x_hash.c -+* Description : -+* Handle Storlink SL351x Hash Functions -+* -+* History -+* -+* Date Writer Description -+*---------------------------------------------------------------------------- -+* 03/13/2006 Gary Chen Create and implement -+* -+****************************************************************************/ -+#include <linux/module.h> -+#include <linux/kernel.h> -+#include <linux/compiler.h> -+#include <linux/pci.h> -+#include <linux/init.h> -+#include <linux/ioport.h> -+#include <linux/netdevice.h> -+#include <linux/etherdevice.h> -+#include <linux/rtnetlink.h> -+#include <linux/delay.h> -+#include <linux/ethtool.h> -+#include <linux/mii.h> -+#include <linux/completion.h> -+#include <asm/hardware.h> -+#include <asm/io.h> -+#include <asm/irq.h> -+#include <asm/semaphore.h> -+#include <asm/arch/irqs.h> -+#include <asm/arch/it8712.h> -+#include <linux/mtd/kvctl.h> -+#include <linux/skbuff.h> -+#include <linux/in.h> -+#include <linux/ip.h> -+#include <linux/tcp.h> -+#include <linux/list.h> -+#define MIDWAY -+#define SL_LEPUS -+ -+#include <asm/arch/sl2312.h> -+#include <asm/arch/sl351x_gmac.h> -+#include <asm/arch/sl351x_hash_cfg.h> -+ -+#ifndef RXTOE_DEBUG -+#define RXTOE_DEBUG -+#endif -+#undef RXTOE_DEBUG -+ -+/*---------------------------------------------------------------------- -+* Definition -+*----------------------------------------------------------------------*/ -+#define hash_printf printk -+ -+#define HASH_TIMER_PERIOD (30) // seconds -+#define HASH_ILLEGAL_INDEX 0xffff -+ -+/*---------------------------------------------------------------------- -+* Variables -+*----------------------------------------------------------------------*/ -+u32 hash_nat_owner_bits[HASH_TOTAL_ENTRIES/32]; -+char hash_tables[HASH_TOTAL_ENTRIES][HASH_MAX_BYTES] __attribute__ ((aligned(16))); -+static struct timer_list hash_timer_obj; -+LIST_HEAD(hash_timeout_list); -+ -+/*---------------------------------------------------------------------- -+* Functions -+*----------------------------------------------------------------------*/ -+void dm_long(u32 location, int length); -+static void hash_timer_func(u32 data); -+ -+/*---------------------------------------------------------------------- -+* hash_init -+*----------------------------------------------------------------------*/ -+void sl351x_hash_init(void) -+{ -+ int i; -+ volatile u32 *dp1, *dp2, dword; -+ -+ dp1 = (volatile u32 *) TOE_V_BIT_BASE; -+ dp2 = (volatile u32 *) TOE_A_BIT_BASE; -+ -+ for (i=0; i<HASH_TOTAL_ENTRIES/32; i++) -+ { -+ *dp1++ = 0; -+ dword = *dp2++; // read-clear -+ } -+ memset((void *)&hash_nat_owner_bits, 0, sizeof(hash_nat_owner_bits)); -+ memset((void *)&hash_tables, 0, sizeof(hash_tables)); -+ -+ init_timer(&hash_timer_obj); -+ hash_timer_obj.expires = jiffies + (HASH_TIMER_PERIOD * HZ); -+ hash_timer_obj.data = (unsigned long)&hash_timer_obj; -+ hash_timer_obj.function = (void *)&hash_timer_func; -+ add_timer(&hash_timer_obj); -+ -+#if (HASH_MAX_BYTES == 128) -+ writel((unsigned long)__pa(&hash_tables) | 3, // 32 words -+ TOE_GLOBAL_BASE + GLOBAL_HASH_TABLE_BASE_REG); -+#elif (HASH_MAX_BYTES == 64) -+ writel((unsigned long)__pa(&hash_tables) | 2, // 16 words -+ TOE_GLOBAL_BASE + GLOBAL_HASH_TABLE_BASE_REG); -+#else -+ #error Incorrect setting for HASH_MAX_BYTES -+#endif -+ -+} -+/*---------------------------------------------------------------------- -+* hash_add_entry -+*----------------------------------------------------------------------*/ -+int hash_add_entry(HASH_ENTRY_T *entry) -+{ -+ int rc; -+ u32 key[HASH_MAX_DWORDS]; -+ rc = hash_build_keys((u32 *)&key, entry); -+ if (rc < 0) -+ return -1; -+ hash_write_entry(entry, (unsigned char*) &key[0]); -+// hash_set_valid_flag(entry->index, 1); -+// printk("Dump hash key!\n"); -+// dump_hash_key(entry); -+ return entry->index; -+} -+ -+/*---------------------------------------------------------------------- -+* hash_set_valid_flag -+*----------------------------------------------------------------------*/ -+void hash_set_valid_flag(int index, int valid) -+{ -+ register u32 reg32; -+ -+ reg32 = TOE_V_BIT_BASE + (index/32) * 4; -+ -+ if (valid) -+ { -+ writel(readl(reg32) | (1 << (index%32)), reg32); -+ } -+ else -+ { -+ writel(readl(reg32) & ~(1 << (index%32)), reg32); -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* hash_set_nat_owner_flag -+*----------------------------------------------------------------------*/ -+void hash_set_nat_owner_flag(int index, int valid) -+{ -+ if (valid) -+ { -+ hash_nat_owner_bits[index/32] |= (1 << (index % 32)); -+ } -+ else -+ { -+ hash_nat_owner_bits[index/32] &= ~(1 << (index % 32)); -+ } -+} -+ -+ -+/*---------------------------------------------------------------------- -+* hash_build_keys -+*----------------------------------------------------------------------*/ -+int hash_build_keys(u32 *destp, HASH_ENTRY_T *entry) -+{ -+ u32 data; -+ unsigned char *cp; -+ int i, j; -+ unsigned short index; -+ int total; -+ -+ memset((void *)destp, 0, HASH_MAX_BYTES); -+ cp = (unsigned char *)destp; -+ -+ if (entry->key_present.port || entry->key_present.Ethertype) -+ { -+ HASH_PUSH_WORD(cp, entry->key.Ethertype); // word 0 -+ HASH_PUSH_BYTE(cp, entry->key.port); // Byte 2 -+ HASH_PUSH_BYTE(cp, 0); // Byte 3 -+ } -+ else -+ { -+ HASH_PUSH_DWORD(cp, 0); -+ } -+ -+ if (entry->key_present.da || entry->key_present.sa) -+ { -+ unsigned char mac[4]; -+ if (entry->key_present.da) -+ { -+ for (i=0; i<4; i++) -+ HASH_PUSH_BYTE(cp, entry->key.da[i]); -+ } -+ mac[0] = (entry->key_present.da) ? entry->key.da[4] : 0; -+ mac[1] = (entry->key_present.da) ? entry->key.da[5] : 0; -+ mac[2] = (entry->key_present.sa) ? entry->key.sa[0] : 0; -+ mac[3] = (entry->key_present.sa) ? entry->key.sa[1] : 0; -+ data = mac[0] + (mac[1]<<8) + (mac[2]<<16) + (mac[3]<<24); -+ HASH_PUSH_DWORD(cp, data); -+ if (entry->key_present.sa) -+ { -+ for (i=2; i<6; i++) -+ HASH_PUSH_BYTE(cp, entry->key.sa[i]); -+ } -+ } -+ -+ if (entry->key_present.pppoe_sid || entry->key_present.vlan_id) -+ { -+ HASH_PUSH_WORD(cp, entry->key.vlan_id); // low word -+ HASH_PUSH_WORD(cp, entry->key.pppoe_sid); // high word -+ } -+ if (entry->key_present.ipv4_hdrlen || entry->key_present.ip_tos || entry->key_present.ip_protocol) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.ip_protocol); // Byte 0 -+ HASH_PUSH_BYTE(cp, entry->key.ip_tos); // Byte 1 -+ HASH_PUSH_BYTE(cp, entry->key.ipv4_hdrlen); // Byte 2 -+ HASH_PUSH_BYTE(cp, 0); // Byte 3 -+ } -+ -+ if (entry->key_present.ipv6_flow_label) -+ { -+ HASH_PUSH_DWORD(cp, entry->key.ipv6_flow_label); // low word -+ } -+ if (entry->key_present.sip) -+ { -+ // input (entry->key.sip[i]) is network-oriented -+ // output (hash key) is host-oriented -+ for (i=3; i>=0; i--) -+ HASH_PUSH_BYTE(cp, entry->key.sip[i]); -+ if (entry->key.ipv6) -+ { -+ for (i=4; i<16; i+=4) -+ { -+ for (j=i+3; j>=i; j--) -+ HASH_PUSH_BYTE(cp, entry->key.sip[j]); -+ } -+ } -+ } -+ if (entry->key_present.dip) -+ { -+ // input (entry->key.sip[i]) is network-oriented -+ // output (hash key) is host-oriented -+ for (i=3; i>=0; i--) -+ HASH_PUSH_BYTE(cp, entry->key.dip[i]); -+ if (entry->key.ipv6) -+ { -+ for (i=4; i<16; i+=4) -+ { -+ for (j=i+3; j>=i; j--) -+ HASH_PUSH_BYTE(cp, entry->key.dip[j]); -+ } -+ } -+ } -+ -+ if (entry->key_present.l4_bytes_0_3) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[0]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[1]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[2]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[3]); -+ } -+ if (entry->key_present.l4_bytes_4_7) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[4]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[5]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[6]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[7]); -+ } -+ if (entry->key_present.l4_bytes_8_11) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[8]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[9]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[10]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[11]); -+ } -+ if (entry->key_present.l4_bytes_12_15) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[12]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[13]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[14]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[15]); -+ } -+ if (entry->key_present.l4_bytes_16_19) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[16]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[17]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[18]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[19]); -+ } -+ if (entry->key_present.l4_bytes_20_23) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[20]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[21]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[22]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[23]); -+ } -+ if (entry->key_present.l7_bytes_0_3) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[0]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[1]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[2]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[3]); -+ } -+ if (entry->key_present.l7_bytes_4_7) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[4]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[5]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[6]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[7]); -+ } -+ if (entry->key_present.l7_bytes_8_11) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[8]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[9]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[10]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[11]); -+ } -+ if (entry->key_present.l7_bytes_12_15) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[12]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[13]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[14]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[15]); -+ } -+ if (entry->key_present.l7_bytes_16_19) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[16]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[17]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[18]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[19]); -+ } -+ if (entry->key_present.l7_bytes_20_23) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[20]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[21]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[22]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[23]); -+ } -+ -+ // get hash index -+ total = (u32)((u32)cp - (u32)destp) / (sizeof(u32)); -+ -+ if (total > HASH_MAX_KEY_DWORD) -+ { -+ //hash_printf("Total key words (%d) is too large (> %d)!\n", -+ // total, HASH_MAX_KEY_DWORD); -+ return -1; -+ } -+ -+ if (entry->key_present.port || entry->key_present.Ethertype) -+ index = hash_gen_crc16((unsigned char *)destp, total * 4); -+ else -+ { -+ if (total == 1) -+ { -+ hash_printf("No key is assigned!\n"); -+ return -1; -+ } -+ -+ index = hash_gen_crc16((unsigned char *)(destp+1), (total-1) * 4); -+ } -+ -+ entry->index = index & HASH_BITS_MASK; -+ -+ //hash_printf("Total key words = %d, Hash Index= %d\n", -+ // total, entry->index); -+ -+ cp = (unsigned char *)destp; -+ cp+=3; -+ HASH_PUSH_BYTE(cp, entry->rule); // rule -+ -+ entry->total_dwords = total; -+ -+ return total; -+} -+ -+/*---------------------------------------------------------------------- -+* hash_build_nat_keys -+*----------------------------------------------------------------------*/ -+void hash_build_nat_keys(u32 *destp, HASH_ENTRY_T *entry) -+{ -+ unsigned char *cp; -+ int i; -+ unsigned short index; -+ int total; -+ -+ memset((void *)destp, 0, HASH_MAX_BYTES); -+ -+ cp = (unsigned char *)destp + 2; -+ HASH_PUSH_BYTE(cp, entry->key.port); -+ cp++; -+ -+ if (entry->key_present.pppoe_sid || entry->key_present.vlan_id) -+ { -+ HASH_PUSH_WORD(cp, entry->key.vlan_id); // low word -+ HASH_PUSH_WORD(cp, entry->key.pppoe_sid); // high word -+ } -+ -+ HASH_PUSH_BYTE(cp, entry->key.ip_protocol); -+ cp+=3; -+ -+ // input (entry->key.sip[i]) is network-oriented -+ // output (hash key) is host-oriented -+ for (i=3; i>=0; i--) -+ HASH_PUSH_BYTE(cp, entry->key.sip[i]); -+ -+ // input (entry->key.sip[i]) is network-oriented -+ // output (hash key) is host-oriented -+ for (i=3; i>=0; i--) -+ HASH_PUSH_BYTE(cp, entry->key.dip[i]); -+ -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[0]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[1]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[2]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[3]); -+ -+ // get hash index -+ total = (u32)((u32)cp - (u32)destp) / (sizeof(u32)); -+ -+ index = hash_gen_crc16((unsigned char *)destp, total * 4); -+ entry->index = index & ((1 << HASH_BITS) - 1); -+ -+ cp = (unsigned char *)destp; -+ cp+=3; -+ HASH_PUSH_BYTE(cp, entry->rule); // rule -+ -+ entry->total_dwords = total; -+} -+ -+/*---------------------------------------------------------------------- -+* hash_build_toe_keys -+*----------------------------------------------------------------------*/ -+int hash_build_toe_keys(u32 *destp, HASH_ENTRY_T *entry) -+{ -+ unsigned long data; -+ unsigned char *cp; -+ unsigned short index; -+ int i; -+ int total; -+ //printk("%s\n", __func__); -+ memset((void*)destp, 0, HASH_MAX_BYTES); -+ cp = (unsigned char*)destp; -+ -+ if(entry->key_present.port || entry->key_present.Ethertype) { -+ data = (entry->key.port << 16) + entry->key.Ethertype; -+ HASH_PUSH_DWORD(cp, data); -+ } else -+ HASH_PUSH_DWORD(cp, 0); -+ -+ if (entry->key_present.da || entry->key_present.sa) { -+ unsigned char mac[4]; -+ if (entry->key_present.da) { -+ data = (entry->key.da[0]) + (entry->key.da[1] << 8) + -+ (entry->key.da[2] << 16) + (entry->key.da[3] <<24); -+ HASH_PUSH_DWORD(cp, data); -+ } -+ mac[0] = (entry->key_present.da) ? entry->key.da[4] : 0; -+ mac[1] = (entry->key_present.da) ? entry->key.da[5] : 0; -+ mac[2] = (entry->key_present.sa) ? entry->key.sa[0] : 0; -+ mac[3] = (entry->key_present.sa) ? entry->key.sa[1] : 0; -+ data = mac[0] + (mac[1]<<8) + (mac[2]<<16) + (mac[3]<<24); -+ HASH_PUSH_DWORD(cp, data); -+ if (entry->key_present.sa) { -+ data = (entry->key.sa[2]) + (entry->key.sa[3] << 8) + -+ (entry->key.sa[4] << 16) + (entry->key.sa[5] <<24); -+ HASH_PUSH_DWORD(cp, data); -+ } -+ } -+ -+ if (entry->key_present.ip_protocol) { -+ unsigned char ip_protocol; -+ ip_protocol = entry->key.ip_protocol; -+ data = ip_protocol; -+ HASH_PUSH_DWORD(cp, data); -+ } -+ -+ if (entry->key_present.ipv6_flow_label) { -+ unsigned long flow_label; -+ flow_label = entry->key.ipv6_flow_label; -+ data = flow_label & 0xfffff; -+ HASH_PUSH_DWORD(cp, data); -+ } -+ -+ if (entry->key_present.sip) { -+ { -+ data = IPIV(entry->key.sip[0], entry->key.sip[1], -+ entry->key.sip[2], entry->key.sip[3]); -+ HASH_PUSH_DWORD(cp, data); -+ if (entry->key.ipv6) { -+ for (i=4; i<16; i+=4) { -+ data = IPIV(entry->key.sip[i+0], entry->key.sip[i+1], -+ entry->key.sip[i+2], entry->key.sip[i+3]); -+ HASH_PUSH_DWORD(cp, data); -+ } -+ } -+ } -+ } -+ -+ if (entry->key_present.dip) { -+ { -+ data = IPIV(entry->key.dip[0], entry->key.dip[1], -+ entry->key.dip[2], entry->key.dip[3]); -+ HASH_PUSH_DWORD(cp, data); -+ if (entry->key.ipv6) { -+ for (i=4; i<16; i+=4) { -+ data = IPIV(entry->key.dip[i+0], entry->key.dip[i+1], -+ entry->key.dip[i+2], entry->key.dip[i+3]); -+ HASH_PUSH_DWORD(cp, data); -+ } -+ } -+ } -+ } -+ if (entry->key_present.l4_bytes_0_3) -+ { -+ unsigned char *datap; -+ datap = &entry->key.l4_bytes[0]; -+ data = datap[0] + (datap[1] << 8) + (datap[2] << 16) + (datap[3] << 24); -+ HASH_PUSH_DWORD(cp, data); -+ } -+ if (entry->key_present.l7_bytes_0_3) -+ { -+ unsigned char *datap; -+ datap = &entry->key.l7_bytes[0]; -+ data = datap[0] + (datap[1] << 8) + (datap[2] << 16) + (datap[3] << 24); -+ HASH_PUSH_DWORD(cp, data); -+ } -+ if (entry->key_present.l7_bytes_4_7) -+ { -+ unsigned char *datap; -+ datap = &entry->key.l7_bytes[4]; -+ data = datap[0] + (datap[1] << 8) + (datap[2] << 16) + (datap[3] << 24); -+ HASH_PUSH_DWORD(cp, data); -+ } -+ -+ total = (unsigned long)((unsigned long)cp - (unsigned long)destp) / (sizeof(u32)); -+ if (total > HASH_MAX_KEY_DWORD) { -+ //printf("Total key words (%d) is too large (> %d)!\n", -+ // total, HASH_MAX_KEY_DWORD); -+ return -1; -+ } -+ index = hash_gen_crc16((unsigned char*)(destp + 1), (total-1)*4); -+ entry->index = index & ((1 << HASH_BITS)-1); -+ -+ cp = (unsigned char*) destp; -+ cp += 3; -+ HASH_PUSH_BYTE(cp, entry->rule); -+ entry->total_dwords = total; -+ return total; -+} -+ -+/*---------------------------------------------------------------------- -+* hash_add_toe_entry -+*----------------------------------------------------------------------*/ -+int hash_add_toe_entry(HASH_ENTRY_T *entry) -+{ -+ int rc; -+ u32 key[HASH_MAX_DWORDS]; -+ -+ rc = hash_build_toe_keys((u32 *)&key, entry); -+ if (rc < 0) -+ return -1; -+ hash_write_entry(entry, (unsigned char*) &key[0]); -+ //hash_dump_entry(entry->index); -+// hash_set_valid_flag(entry->index, 1); -+// printk("Dump hash key!\n"); -+// dump_hash_key(entry); -+ return entry->index; -+} -+ -+ -+/*---------------------------------------------------------------------- -+* hash_write_entry -+*----------------------------------------------------------------------*/ -+int hash_write_entry(HASH_ENTRY_T *entry, unsigned char *key) -+{ -+ int i; -+ u32 *srcep, *destp, *destp2; -+ -+ srcep = (u32 *)key; -+ destp2 = destp = (u32 *)&hash_tables[entry->index][0]; -+ -+ for (i=0; i<(entry->total_dwords); i++, srcep++, destp++) -+ *destp = *srcep; -+ -+ srcep = (u32 *)&entry->action; -+ *destp++ = *srcep; -+ -+ srcep = (u32 *)&entry->param; -+ for (i=0; i<(sizeof(ENTRY_PARAM_T)/sizeof(*destp)); i++, srcep++, destp++) -+ *destp = *srcep; -+ -+ memset(destp, 0, (HASH_MAX_DWORDS-entry->total_dwords-HASH_ACTION_DWORDS) * sizeof(u32)); -+ -+ consistent_sync(destp2, (entry->total_dwords+HASH_ACTION_DWORDS) * 4, PCI_DMA_TODEVICE); -+ return 0; -+} -+ -+/*---------------------------------------------------------------------- -+* hash_timer_func -+*----------------------------------------------------------------------*/ -+static void hash_timer_func(u32 data) -+{ -+ int i, j, idx; -+ volatile u32 *own_p, *valid_p; -+ u32 own_bits, a_bits; -+ int period = HASH_TIMER_PERIOD; -+ -+ valid_p = (volatile u32 *)TOE_V_BIT_BASE; -+ own_p = (volatile u32 *)hash_nat_owner_bits; -+ for (i=0, idx=0; i<(HASH_TOTAL_ENTRIES/32); i++, own_p++, valid_p++, idx+=32) -+ { -+ a_bits = readl(TOE_A_BIT_BASE + (i*4)); -+ own_bits = *own_p; -+ if (own_bits) -+ { -+ for (j=0; own_bits && j<32; j++) -+ { -+ if (own_bits & 1) -+ { -+ short *counter_p, *interval_p; -+ NAT_HASH_ENTRY_T *nat_entry; -+ GRE_HASH_ENTRY_T *gre_entry; -+ nat_entry = (NAT_HASH_ENTRY_T *)hash_get_entry(idx+j); -+ gre_entry = (GRE_HASH_ENTRY_T *)nat_entry; -+ if (nat_entry->key.ip_protocol == IPPROTO_GRE) -+ { -+ counter_p = (short *)&gre_entry->tmo.counter; -+ interval_p = (short *)&gre_entry->tmo.interval; -+ } -+ else -+ { -+ counter_p = (short *)&nat_entry->tmo.counter; -+ interval_p = (short *)&nat_entry->tmo.interval; -+ } -+ if (a_bits & 1) -+ { -+ *counter_p = *interval_p; -+ } -+ else -+ { -+ *counter_p -= HASH_TIMER_PERIOD; -+ if (*counter_p <= 0) -+ { -+ *valid_p &= ~(1 << j); // invalidate it -+ *own_p &= ~(1 << j); // release ownership for NAT -+ *counter_p = 0; -+ // hash_printf("%lu %s: Clear hash index: %d\n", jiffies/HZ, __func__, i*32+j); -+ } -+ else if (period > *counter_p) -+ { -+ period = *counter_p; -+ } -+ } -+ } -+ a_bits >>= 1; -+ own_bits >>=1; -+ } -+ } -+ } -+ -+ hash_timer_obj.expires = jiffies + (period * HZ); -+ add_timer((struct timer_list *)data); -+} -+ -+/*---------------------------------------------------------------------- -+* dm_long -+*----------------------------------------------------------------------*/ -+void dm_long(u32 location, int length) -+{ -+ u32 *start_p, *curr_p, *end_p; -+ u32 *datap, data; -+ int i; -+ -+ //if (length > 1024) -+ // length = 1024; -+ -+ start_p = (u32 *)location; -+ end_p = (u32 *)location + length; -+ curr_p = (u32 *)((u32)location & 0xfffffff0); -+ datap = (u32 *)location; -+ while (curr_p < end_p) -+ { -+ hash_printf("0x%08x: ",(u32)curr_p & 0xfffffff0); -+ for (i=0; i<4; i++) -+ { -+ if (curr_p < start_p || curr_p >= end_p) -+ hash_printf(" "); -+ else -+ { -+ data = *datap; -+ hash_printf("%08X ", data); -+ } -+ if (i==1) -+ hash_printf("- "); -+ -+ curr_p++; -+ datap++; -+ } -+ hash_printf("\n"); -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* hash_dump_entry -+*----------------------------------------------------------------------*/ -+void hash_dump_entry(int index) -+{ -+ hash_printf("Hash Index %d:\n", index); -+ dm_long((u32)&hash_tables[index][0], HASH_MAX_DWORDS); -+} -+ -+ ---- /dev/null -+++ b/drivers/net/sl351x_nat.c -@@ -0,0 +1,1736 @@ -+/**************************************************************************** -+* Copyright 2006 StorLink Semiconductors, Inc. All rights reserved. -+*---------------------------------------------------------------------------- -+* Name : sl351x_nat.c -+* Description : -+* Handle Storlink SL351x NAT Functions -+* -+* -+* Packet Flow: -+* -+* (xmit)+<--- SW NAT -->+(xmit) -+* | ^^ | -+* | || | -+* | || | -+* Client <---> GMAC-x HW-NAT GMAC-y <---> Server -+* -+* -+* History -+* -+* Date Writer Description -+*---------------------------------------------------------------------------- -+* 03/13/2006 Gary Chen Create and implement -+* -+* -+****************************************************************************/ -+#include <linux/module.h> -+#include <linux/kernel.h> -+#include <linux/compiler.h> -+#include <linux/pci.h> -+#include <linux/init.h> -+#include <linux/ioport.h> -+#include <linux/netdevice.h> -+#include <linux/etherdevice.h> -+#include <linux/rtnetlink.h> -+#include <linux/delay.h> -+#include <linux/ethtool.h> -+#include <linux/mii.h> -+#include <linux/completion.h> -+#include <asm/hardware.h> -+#include <asm/io.h> -+#include <asm/irq.h> -+#include <asm/semaphore.h> -+#include <asm/arch/irqs.h> -+#include <asm/arch/it8712.h> -+#include <linux/mtd/kvctl.h> -+#include <linux/skbuff.h> -+#include <linux/if_ether.h> -+#include <linux/if_pppox.h> -+#include <linux/in.h> -+#include <linux/ip.h> -+#include <linux/tcp.h> -+#include <linux/udp.h> -+#include <linux/ppp_defs.h> -+ -+#define MIDWAY -+#define SL_LEPUS -+ -+#include <asm/arch/sl2312.h> -+#include <asm/arch/sl351x_gmac.h> -+#include <asm/arch/sl351x_hash_cfg.h> -+#include <asm/arch/sl351x_nat_cfg.h> -+#ifdef CONFIG_NETFILTER -+// #include <linux/netfilter/nf_conntrack.h> -+#include <linux/netfilter/nf_conntrack_tcp.h> -+#endif -+ -+//#define NAT_DEBUG_MSG 1 -+#define _NOT_CHECK_SIP_DIP -+//#define SL351x_NAT_TEST_BY_SMARTBITS 1 // Initialize 32 hash entries and test by SmartBITS -+#define VITESSE_G5SWITCH 1 -+ -+#ifdef CONFIG_SL351x_NAT -+ -+/*---------------------------------------------------------------------- -+* Definition -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL3516_ASIC -+#define CONFIG_SL351x_NAT_TCP_UDP -+#define CONFIG_SL351x_NAT_GRE -+#define CONFIG_SL351x_TCP_UDP_RULE_ID 0 -+#define CONFIG_SL351x_GRE_RULE_ID 1 -+#else -+#define CONFIG_SL351x_NAT_TCP_UDP -+//#define CONFIG_SL351x_NAT_GRE -+#define CONFIG_SL351x_TCP_UDP_RULE_ID 0 -+#define CONFIG_SL351x_GRE_RULE_ID 0 -+#endif -+ -+#define nat_printf printk -+#define NAT_FTP_CTRL_PORT (21) // TCP -+#define NAT_H323_PORT (1720) // TCP -+#define NAT_T120_PORT (1503) // TCP -+#define NAT_PPTP_PORT (1723) // TCP -+#define NAT_TFTP_PORT (69) // UDP -+#define NAT_DNS_PORT (53) // UDP -+#define NAT_NTP_PORT (123) // UDP -+#define NAT_RAS_PORT (1719) // UDP -+#define NAT_BOOTP67_PORT (67) // UDP -+#define NAT_BOOTP68_PORT (68) // UDP -+ -+#define NAT_TCP_PORT_MAX 64 -+#define NAT_UDP_PORT_MAX 64 -+ -+#define GRE_PROTOCOL (0x880b) -+#define GRE_PROTOCOL_SWAP __constant_htons(0x880b) -+ -+#ifdef VITESSE_G5SWITCH -+extern int Giga_switch; -+#endif -+ -+typedef struct -+{ -+ u16 flags_ver; -+ u16 protocol; -+ u16 payload_length; -+ u16 call_id; -+ u32 seq; -+ u32 ack; -+} GRE_PKTHDR_T; -+ -+/*---------------------------------------------------------------------- -+* NAT Configuration -+* -+* Note: Any change for network setting, the NAT configuration should -+* be changed also. -+* cfg->lan_port 0 if GMAC-0, 1: if GMAC-1 -+* cfg->wan_port 0 if GMAC-0, 1: if GMAC-1 -+* cfg->lan_ipaddr, cfg->lan_gateway, cfg->lan_netmask -+* cfg->wan_ipaddr, cfg->wan_gateway, cfg->wan_netmask -+* -+*----------------------------------------------------------------------*/ -+NAT_CFG_T nat_cfg; -+static int nat_initialized; -+u32 nat_collision; -+ -+#ifdef CONFIG_SL351x_NAT_TCP_UDP -+static u16 fixed_tcp_port_list[]={NAT_FTP_CTRL_PORT, -+ NAT_H323_PORT, -+ // NAT_T120_PORT, -+ NAT_PPTP_PORT, -+ 0}; -+static u16 fixed_udp_port_list[]={NAT_DNS_PORT, -+ NAT_NTP_PORT, -+ NAT_TFTP_PORT, -+ NAT_RAS_PORT, -+ NAT_BOOTP67_PORT, -+ NAT_BOOTP68_PORT, -+ 0}; -+#endif -+ -+// #define _HAVE_DYNAMIC_PORT_LIST -+#ifdef _HAVE_DYNAMIC_PORT_LIST -+static u16 dynamic_tcp_port_list[NAT_TCP_PORT_MAX+1]; -+static u16 dynamic_udp_port_list[NAT_UDP_PORT_MAX+1]}; -+#endif -+ -+/*---------------------------------------------------------------------- -+* Functions -+*----------------------------------------------------------------------*/ -+int sl351x_nat_tcp_udp_output(struct sk_buff *skb, int port); -+int sl351x_nat_udp_output(struct sk_buff *skb, int port); -+int sl351x_nat_gre_output(struct sk_buff *skb, int port); -+ -+extern int mac_set_rule_reg(int mac, int rule, int enabled, u32 reg0, u32 reg1, u32 reg2); -+extern void hash_dump_entry(int index); -+extern void mac_get_hw_tx_weight(struct net_device *dev, char *weight); -+extern void mac_set_hw_tx_weight(struct net_device *dev, char *weight); -+ -+#ifdef SL351x_NAT_TEST_BY_SMARTBITS -+static void nat_init_test_entry(void); -+#endif -+/*---------------------------------------------------------------------- -+* sl351x_nat_init -+* initialize a NAT matching rule -+* Called by SL351x Driver -+* key : port, protocol, Sip, Dip, Sport, Dport -+* Action : Srce Q: HW Free Queue, -+* Dest Q: HW TxQ -+* Change DA -+* Change SA -+* Change Sip or Dip -+* Change Sport or Dport -+*----------------------------------------------------------------------*/ -+void sl351x_nat_init(void) -+{ -+ int rc; -+ GMAC_MRxCR0_T mrxcr0; -+ GMAC_MRxCR1_T mrxcr1; -+ GMAC_MRxCR2_T mrxcr2; -+ NAT_CFG_T *cfg; -+ -+ if (nat_initialized) -+ return; -+ -+ nat_initialized = 1; -+ -+ if ((sizeof(NAT_HASH_ENTRY_T) > HASH_MAX_BYTES) || -+ (sizeof(GRE_HASH_ENTRY_T) > HASH_MAX_BYTES)) -+ { -+ nat_printf("NAT_HASH_ENTRY_T structure Size is too larger!\n"); -+ while(1); -+ } -+ -+ cfg = (NAT_CFG_T *)&nat_cfg; -+ memset((void *)cfg, 0, sizeof(NAT_CFG_T)); -+#ifdef _HAVE_DYNAMIC_PORT_LIST -+ memset((void *)dynamic_tcp_port_list, 0, sizeof(dynamic_tcp_port_list)); -+ memset((void *)dynamic_udp_port_list, 0, sizeof(dynamic_udp_port_list)); -+#endif -+ -+#ifdef VITESSE_G5SWITCH -+ if(Giga_switch) -+ { -+ cfg->enabled = 1; -+ cfg->tcp_udp_rule_id = CONFIG_SL351x_TCP_UDP_RULE_ID; -+ cfg->gre_rule_id = CONFIG_SL351x_GRE_RULE_ID; -+ cfg->lan_port = 1; -+ cfg->wan_port = 0; -+ cfg->default_hw_txq = 3; -+ cfg->tcp_tmo_interval = 60; -+ cfg->udp_tmo_interval = 180; -+ cfg->gre_tmo_interval = 60; -+ } -+ else -+ { -+ cfg->enabled = 1; -+ cfg->tcp_udp_rule_id = CONFIG_SL351x_TCP_UDP_RULE_ID; -+ cfg->gre_rule_id = CONFIG_SL351x_GRE_RULE_ID; -+ cfg->lan_port = 0; -+ cfg->wan_port = 1; -+ cfg->default_hw_txq = 3; -+ cfg->tcp_tmo_interval = 60; -+ cfg->udp_tmo_interval = 180; -+ cfg->gre_tmo_interval = 60; -+ -+ } -+#endif -+ -+#if 1 // debug purpose -+ cfg->ipcfg[0].total = 1; -+ cfg->ipcfg[0].entry[0].ipaddr = IPIV(192,168,2,92); -+ cfg->ipcfg[0].entry[0].netmask = IPIV(255,255,255,0); -+ cfg->ipcfg[1].total = 1; -+ cfg->ipcfg[1].entry[0].ipaddr = IPIV(192,168,1,200); -+ cfg->ipcfg[1].entry[0].netmask = IPIV(255,255,255,0); -+#endif -+ -+#if 1 -+ cfg->xport.total = 0; -+#else -+ cfg->xport.total = 4; -+ -+ // H.323/H.225 Call setup -+ cfg->xport.entry[0].protocol = IPPROTO_TCP; -+ cfg->xport.entry[0].sport_start = 0; -+ cfg->xport.entry[0].sport_end = 0; -+ cfg->xport.entry[0].dport_start = 1720; -+ cfg->xport.entry[0].dport_end = 1720; -+ cfg->xport.entry[1].protocol = IPPROTO_TCP; -+ cfg->xport.entry[1].sport_start = 1720; -+ cfg->xport.entry[1].sport_end = 1720; -+ cfg->xport.entry[1].dport_start = 0; -+ cfg->xport.entry[1].dport_end = 0; -+ -+ // RAS Setup -+ cfg->xport.entry[2].protocol = IPPROTO_UDP; -+ cfg->xport.entry[2].sport_start = 0; -+ cfg->xport.entry[2].sport_end = 0; -+ cfg->xport.entry[2].dport_start = 1719; -+ cfg->xport.entry[2].dport_end = 1719; -+ cfg->xport.entry[3].protocol = IPPROTO_UDP; -+ cfg->xport.entry[3].sport_start = 1719; -+ cfg->xport.entry[3].sport_end = 1719; -+ cfg->xport.entry[3].dport_start = 0; -+ cfg->xport.entry[3].dport_end = 0; -+#endif -+ -+#ifdef CONFIG_SL351x_NAT_TCP_UDP -+ mrxcr0.bits32 = 0; -+ mrxcr1.bits32 = 0; -+ mrxcr2.bits32 = 0; -+ mrxcr0.bits.port = 1; -+ mrxcr0.bits.l3 = 1; -+ mrxcr0.bits.l4 = 1; -+ mrxcr1.bits.sip = 1; -+ mrxcr1.bits.dip = 1; -+ mrxcr1.bits.l4_byte0_15 = 0x0f; // Byte 0-3 -+ mrxcr0.bits.sprx = 3; -+ -+ rc = mac_set_rule_reg(cfg->lan_port, cfg->tcp_udp_rule_id, 1, mrxcr0.bits32, mrxcr1.bits32, mrxcr2.bits32); -+ if (rc < 0) -+ { -+ nat_printf("NAT Failed to set MAC-%d Rule %d!\n", cfg->lan_port, cfg->tcp_udp_rule_id); -+ } -+ -+ if (cfg->lan_port != cfg->wan_port) -+ { -+ rc = mac_set_rule_reg(cfg->wan_port, cfg->tcp_udp_rule_id, 1, mrxcr0.bits32, mrxcr1.bits32, mrxcr2.bits32); -+ if (rc < 0) -+ { -+ nat_printf("NAT Failed to set MAC-%d Rule %d!\n", cfg->wan_port, cfg->tcp_udp_rule_id); -+ } -+ } -+#endif -+ -+#ifdef CONFIG_SL351x_NAT_GRE -+ mrxcr0.bits32 = 0; -+ mrxcr1.bits32 = 0; -+ mrxcr2.bits32 = 0; -+ mrxcr0.bits.port = 1; -+ mrxcr0.bits.l3 = 1; -+ mrxcr0.bits.l4 = 1; -+ mrxcr1.bits.sip = 1; -+ mrxcr1.bits.dip = 1; -+ mrxcr1.bits.l4_byte0_15 = 0xcc; // Byte 2, 3, 6, 7 -+ mrxcr0.bits.sprx = 4; // see GMAC driver about SPR -+ -+ rc = mac_set_rule_reg(cfg->lan_port, cfg->gre_rule_id, 1, mrxcr0.bits32, mrxcr1.bits32, mrxcr2.bits32); -+ if (rc < 0) -+ { -+ nat_printf("NAT Failed to set MAC-%d Rule %d!\n", cfg->lan_port, cfg->gre_rule_id); -+ } -+ -+ if (cfg->lan_port != cfg->wan_port) -+ { -+ rc = mac_set_rule_reg(cfg->wan_port, cfg->gre_rule_id, 1, mrxcr0.bits32, mrxcr1.bits32, mrxcr2.bits32); -+ if (rc < 0) -+ { -+ nat_printf("NAT Failed to set MAC-%d Rule %d!\n", cfg->wan_port, cfg->gre_rule_id); -+ } -+ } -+#endif -+ -+#ifdef SL351x_NAT_TEST_BY_SMARTBITS -+ nat_init_test_entry(); -+#endif -+} -+ -+/*---------------------------------------------------------------------- -+* nat_build_keys -+* Note: To call this routine, the key->rule_id MUST be zero -+*----------------------------------------------------------------------*/ -+static inline int nat_build_keys(NAT_KEY_T *key) -+{ -+ return hash_gen_crc16((unsigned char *)key, NAT_KEY_SIZE) & HASH_BITS_MASK; -+} -+ -+/*---------------------------------------------------------------------- -+* gre_build_keys -+* Note: To call this routine, the key->rule_id MUST be zero -+*----------------------------------------------------------------------*/ -+static inline int gre_build_keys(GRE_KEY_T *key) -+{ -+ return hash_gen_crc16((unsigned char *)key, GRE_KEY_SIZE) & HASH_BITS_MASK; -+} -+ -+/*---------------------------------------------------------------------- -+* nat_write_hash_entry -+*----------------------------------------------------------------------*/ -+static inline int nat_write_hash_entry(int index, void *hash_entry) -+{ -+ int i; -+ u32 *srcep, *destp, *destp2; -+ -+ srcep = (u32 *)hash_entry; -+ destp = destp2 = (u32 *)&hash_tables[index][0]; -+ -+ for (i=0; i<(NAT_HASH_ENTRY_SIZE/sizeof(u32)); i++) -+ *destp++ = *srcep++; -+ -+ consistent_sync(destp2, NAT_HASH_ENTRY_SIZE, PCI_DMA_TODEVICE); -+ return 0; -+} -+ -+/*---------------------------------------------------------------------- -+* gre_write_hash_entry -+*----------------------------------------------------------------------*/ -+static inline int gre_write_hash_entry(int index, void *hash_entry) -+{ -+ int i; -+ u32 *srcep, *destp, *destp2; -+ -+ srcep = (u32 *)hash_entry; -+ destp = destp2 = (u32 *)&hash_tables[index][0]; -+ -+ for (i=0; i<(GRE_HASH_ENTRY_SIZE/sizeof(u32)); i++) -+ *destp++ = *srcep++; -+ -+ consistent_sync(destp2, GRE_HASH_ENTRY_SIZE, PCI_DMA_TODEVICE); -+ return 0; -+} -+ -+/*---------------------------------------------------------------------- -+* sl351x_nat_find_ipcfg -+* return NULL if not found -+*----------------------------------------------------------------------*/ -+static NAT_IP_ENTRY_T *sl351x_nat_find_ipcfg(u32 ipaddr, int port) -+{ -+ int i; -+ NAT_IP_ENTRY_T *ipcfg; -+ -+ ipcfg = (NAT_IP_ENTRY_T *)&nat_cfg.ipcfg[port].entry[0]; -+ for (i=0; i<nat_cfg.ipcfg[port].total; i++, ipcfg++) -+ { -+ if (ipaddr == ipcfg->ipaddr) -+ { -+ return ipcfg; -+ } -+ } -+ return NULL; -+} -+ -+/*---------------------------------------------------------------------- -+* sl351x_nat_assign_qid -+*----------------------------------------------------------------------*/ -+static int sl351x_nat_assign_qid(u8 proto, u32 sip, u32 dip, u16 sport, u16 dport) -+{ -+ int i, total, qid; -+ NAT_WRULE_ENTRY_T *entry; -+ -+ for (qid = 0; qid<CONFIG_NAT_TXQ_NUM; qid++) -+ { -+ if (qid == nat_cfg.default_hw_txq) -+ continue; -+ -+ entry = (NAT_WRULE_ENTRY_T *)&nat_cfg.wrule[qid].entry[0]; -+ total = nat_cfg.wrule[qid].total; -+ for (i=0; i<total; i++, entry++) -+ { -+ if (!entry->protocol || entry->protocol==proto) -+ { -+ //if (!entry->sip_start && !entry->dip_start && !entry->sport_start && !entry->dport_start) -+ // continue; // UI take care -+ if (entry->sip_start && !((sip >= entry->sip_start) && -+ (sip <= entry->sip_end))) -+ continue; -+ if (entry->dip_start && !((dip >= entry->dip_start) && -+ (dip <= entry->dip_end))) -+ continue; -+ if (entry->sport_start && !((sport >= entry->sport_start) && -+ (sport <= entry->sport_end))) -+ continue; -+ if (entry->dport_start && !((dport >= entry->dport_start) -+ && (dport <= entry->dport_end))) -+ continue; -+ return qid; -+ } -+ } -+ } -+ return nat_cfg.default_hw_txq; -+} -+ -+/*---------------------------------------------------------------------- -+* sl351x_nat_input -+* Handle NAT input frames -+* Called by SL351x Driver - Handle Default Rx Queue -+* Notes: The caller must make sure that the l3off & l4offset should not be zero. -+* SL351x NAT Frames should meet the following conditions: -+* 1. TCP or UDP frame -+* 2. Cannot be special ALGs ports which TCP/UDP data is updated -+* 3. LAN-IN Frames: -+* Source IP is in the LAN subnet and Destination is not in the LAN subnet -+* 4. WAN-IN Frames -+* Destination IP is in the WAN port IP -+* -+* Example Ports -+* 1. TCP/UDP data is updated -+* (a) FTP Control Packet -+* (b) VoIP Packets -+* (c) etc. (add in future) -+* 2. UDP Low packet rate, not worth -+* (b) TFTP Destination Port is 69 -+* (b) DNS 53 -+* (c) NTP 123 -+* (d) etc. (add in future) -+*----------------------------------------------------------------------*/ -+void sl351x_nat_input(struct sk_buff *skb, int port, void *l3off, void *l4off) -+{ -+ int i, found; -+ u32 sip, dip; -+ u16 sport, dport; -+ struct ethhdr *ether_hdr; -+ struct iphdr *ip_hdr; -+ struct tcphdr *tcp_hdr; -+ struct pppoe_hdr *pppoe_hdr; -+ NAT_CB_T *nat_cb; -+ u8 proto, pppoe_frame=0; -+ NAT_CFG_T *cfg; -+ u16 ppp_proto; -+ NAT_IP_ENTRY_T *ipcfg; -+ NAT_XPORT_ENTRY_T *xentry; -+ GRE_PKTHDR_T *gre_hdr; -+#ifdef CONFIG_SL351x_NAT_TCP_UDP -+ u16 *port_ptr; -+#endif -+ -+ cfg = (NAT_CFG_T *)&nat_cfg; -+ if (!cfg->enabled || !cfg->ipcfg[port].total) -+ return; -+ -+ ip_hdr = (struct iphdr *)&(skb->data[(u32)l3off]); -+ proto = ip_hdr->protocol; -+ -+ tcp_hdr = (struct tcphdr *)&(skb->data[(u32)l4off]); -+ gre_hdr = (GRE_PKTHDR_T *)tcp_hdr; -+ sport = ntohs(tcp_hdr->source); -+ dport = ntohs(tcp_hdr->dest); -+ -+ sip = ntohl(ip_hdr->saddr); -+ dip = ntohl(ip_hdr->daddr); -+ -+ if (dip == IPIV(255,255,255,255)) -+ return; -+ -+ if (port == cfg->lan_port) -+ { -+ ipcfg = (NAT_IP_ENTRY_T *)&cfg->ipcfg[port].entry[0]; -+ for (i=0, found=0; i<cfg->ipcfg[port].total; i++, ipcfg++) -+ { -+ u32 subnet = ipcfg->ipaddr & ipcfg->netmask; -+ if (((sip & ipcfg->netmask) == subnet) && -+ ((dip & ipcfg->netmask) != subnet)) -+ { -+ found = 1; -+ break; -+ } -+ } -+ if (!found) -+ return; -+ } -+ else -+ { -+#ifndef _NOT_CHECK_SIP_DIP // enable it if know and get the wan ip address -+ if (!sl351x_nat_find_ipcfg(dip, port)) -+ { -+ printk("WAN->LAN Incorrect Dip %d.%d.%d.%d\n", HIPQUAD(dip)); -+ return; -+ } -+#endif -+ ether_hdr = (struct ethhdr *)skb->data; -+ pppoe_hdr = (struct pppoe_hdr *)(ether_hdr + 1); -+ ppp_proto = *(u16 *)&pppoe_hdr->tag[0]; -+ if (ether_hdr->h_proto == __constant_htons(ETH_P_PPP_SES) // 0x8864 -+ && ppp_proto == __constant_htons(PPP_IP) ) // 0x21 -+ { -+ pppoe_frame = 1; -+ } -+ } -+ -+#ifdef CONFIG_SL351x_NAT_TCP_UDP -+ if (proto == IPPROTO_TCP) -+ { -+#ifdef NAT_DEBUG_MSG -+ nat_printf("From GMAC-%d: 0x%-4X TCP %d.%d.%d.%d [%d] --> %d.%d.%d.%d [%d]", -+ port, ntohs(ip_hdr->id), -+ NIPQUAD(ip_hdr->saddr), sport, -+ NIPQUAD(ip_hdr->daddr), dport); -+ if (tcp_flag_word(tcp_hdr) & TCP_FLAG_SYN) nat_printf(" SYN"); -+ if (tcp_flag_word(tcp_hdr) & TCP_FLAG_FIN) nat_printf(" FIN"); -+ if (tcp_flag_word(tcp_hdr) & TCP_FLAG_RST) nat_printf(" RST"); -+ if (tcp_flag_word(tcp_hdr) & TCP_FLAG_ACK) nat_printf(" ACK"); -+ nat_printf("\n"); -+#endif -+ // if (tcp_flag_word(tcp_hdr) & (TCP_FLAG_SYN | TCP_FLAG_FIN | TCP_FLAG_RST)) -+ if (tcp_flag_word(tcp_hdr) & (TCP_FLAG_SYN)) -+ { -+ return; -+ } -+ port_ptr = fixed_tcp_port_list; -+ for (i=0; *port_ptr; i++, port_ptr++) -+ { -+ if (sport == *port_ptr || dport == *port_ptr) -+ return; -+ } -+#ifdef _HAVE_DYNAMIC_PORT_LIST -+ port_ptr = dynamic_tcp_port_list; -+ for (i=0; *port_ptr; i++, port_ptr++) -+ { -+ if (sport == *port_ptr || dport == *port_ptr) -+ return; -+ } -+#endif -+ } -+ else if (proto == IPPROTO_UDP) -+ { -+#ifdef NAT_DEBUG_MSG -+ nat_printf("From GMAC-%d: 0x%-4X UDP %d.%d.%d.%d [%d] --> %d.%d.%d.%d [%d]", -+ port, ntohs(ip_hdr->id), -+ NIPQUAD(ip_hdr->saddr), sport, -+ NIPQUAD(ip_hdr->daddr), dport); -+ nat_printf("\n"); -+#endif -+ port_ptr = fixed_udp_port_list; -+ for (i=0; *port_ptr; i++, port_ptr++) -+ { -+ if (sport == *port_ptr || dport == *port_ptr) -+ return; -+ } -+#ifdef _HAVE_DYNAMIC_PORT_LIST -+ port_ptr = dynamic_udp_port_list; -+ for (i=0; *port_ptr; i++, port_ptr++) -+ { -+ if (sport == *port_ptr || dport == *port_ptr) -+ return; -+ } -+#endif -+ } -+ else -+#endif // CONFIG_SL351x_NAT_TCP_UDP -+#ifdef CONFIG_SL351x_NAT_GRE -+ if (proto == IPPROTO_GRE) -+ { -+ if (gre_hdr->protocol != GRE_PROTOCOL_SWAP) -+ return; -+#ifdef NAT_DEBUG_MSG -+ nat_printf("From GMAC-%d: 0x%-4X GRE %d.%d.%d.%d [%d] --> %d.%d.%d.%d", -+ port, ntohs(ip_hdr->id), -+ NIPQUAD(ip_hdr->saddr), ntohs(gre_hdr->call_id), -+ NIPQUAD(ip_hdr->daddr)); -+ nat_printf("\n"); -+#endif -+ } -+ else -+#endif -+ return; -+ -+ -+ // check xport list -+ xentry = (NAT_XPORT_ENTRY_T *)&cfg->xport.entry[0]; -+ for (i=0; i<cfg->xport.total; i++, xentry++) -+ { -+ if (!xentry->protocol || xentry->protocol == proto) -+ { -+ //if (!xentry->sport_start && !xentry->dport_start) // UI take care -+ // continue; -+ if (xentry->sport_start && !((sport >= xentry->sport_start) && -+ (sport <= xentry->sport_end))) -+ continue; -+ if (xentry->dport_start && !((dport >= xentry->dport_start) -+ && (dport <= xentry->dport_end))) -+ continue; -+ return; -+ } -+ } -+ -+ nat_cb = NAT_SKB_CB(skb); -+ if (((u32)nat_cb & 3)) -+ { -+ nat_printf("%s ERROR! nat_cb is not alignment!!!!!!\n", __func__); -+ return; -+ } -+ nat_cb->tag = NAT_CB_TAG; -+ memcpy(nat_cb->sa, skb->data+6, 6); -+ nat_cb->sip = ip_hdr->saddr; -+ nat_cb->dip = ip_hdr->daddr; -+ if (proto == IPPROTO_GRE) -+ { -+ nat_cb->sport = gre_hdr->protocol; -+ nat_cb->dport = gre_hdr->call_id; -+ } -+ else -+ { -+ nat_cb->sport = tcp_hdr->source; -+ nat_cb->dport = tcp_hdr->dest; -+ } -+ nat_cb->pppoe_frame = pppoe_frame; -+} -+ -+/*---------------------------------------------------------------------- -+* sl351x_nat_output -+* Handle NAT output frames -+* Called by SL351x Driver - Transmit -+* -+* 1. If not SL351x NAT frames, return FALSE -+* 2. LAN-to-WAN frames -+* (1) Sip must be WAN IP -+* 3. If TCP SY/RST/FIN frame, return -+* 4. Build the hash key and get the hash index -+* 5. If V-Bit is ON, return. -+* 6. Write hash entry and validate it -+* -+*----------------------------------------------------------------------*/ -+int sl351x_nat_output(struct sk_buff *skb, int port) -+{ -+ struct iphdr *ip_hdr; -+ u8 proto; -+ NAT_CB_T *nat_cb; -+ -+ nat_cb = NAT_SKB_CB(skb); -+ if (nat_cb->tag != NAT_CB_TAG) -+ return 0; -+ -+ if (((u32)nat_cb & 3)) -+ { -+ nat_printf("%s ERROR! nat_cb is not alignment!!!!!!\n", __func__); -+ return 0; -+ } -+ ip_hdr = (struct iphdr *)skb->h.ipiph; -+ proto = ip_hdr->protocol; -+ -+ switch (proto) -+ { -+ case IPPROTO_TCP: -+ case IPPROTO_UDP: -+ return sl351x_nat_tcp_udp_output(skb, port); -+ case IPPROTO_GRE: -+ return sl351x_nat_gre_output(skb, port); -+ } -+ return 0; -+} -+ -+/*---------------------------------------------------------------------- -+* sl351x_nat_tcp_udp_output -+* Handle NAT TCP/UDP output frames -+*----------------------------------------------------------------------*/ -+int sl351x_nat_tcp_udp_output(struct sk_buff *skb, int port) -+{ -+ u32 sip, dip; -+ struct ethhdr *ether_hdr; -+ struct iphdr *ip_hdr; -+ struct tcphdr *tcp_hdr; -+ struct pppoe_hdr *pppoe_hdr; -+ NAT_CB_T *nat_cb; -+ NAT_CFG_T *cfg; -+ u8 proto; -+ u16 sport, dport, ppp_proto; -+ u32 hash_data[HASH_MAX_DWORDS]; -+ NAT_HASH_ENTRY_T *hash_entry; -+ int hash_index; -+ struct ip_conntrack *nat_ip_conntrack; -+ enum ip_conntrack_info ctinfo; -+ -+ nat_cb = NAT_SKB_CB(skb); -+ cfg = (NAT_CFG_T *)&nat_cfg; -+ -+ ether_hdr = (struct ethhdr *)skb->data; -+ ip_hdr = (struct iphdr *)skb->h.ipiph; -+ tcp_hdr = (struct tcphdr *)((u32)ip_hdr + (ip_hdr->ihl<<2)); -+ sip = ntohl(ip_hdr->saddr); -+ dip = ntohl(ip_hdr->daddr); -+ proto = ip_hdr->protocol; -+ sport = ntohs(tcp_hdr->source); -+ dport = ntohs(tcp_hdr->dest); -+ -+#ifdef NAT_DEBUG_MSG -+ { -+ nat_printf("To GMAC-%d: 0x%-4X [%d] %d.%d.%d.%d [%d] --> %d.%d.%d.%d [%d]", -+ port, ntohs(ip_hdr->id), proto, -+ NIPQUAD(ip_hdr->saddr), sport, -+ NIPQUAD(ip_hdr->daddr), dport); -+ if (proto == IPPROTO_TCP) -+ { -+ if (tcp_flag_word(tcp_hdr) & TCP_FLAG_SYN) nat_printf(" SYN"); -+ if (tcp_flag_word(tcp_hdr) & TCP_FLAG_FIN) nat_printf(" FIN"); -+ if (tcp_flag_word(tcp_hdr) & TCP_FLAG_RST) nat_printf(" RST"); -+ if (tcp_flag_word(tcp_hdr) & TCP_FLAG_ACK) nat_printf(" ACK"); -+ } -+ nat_printf("\n"); -+ } -+#endif -+ nat_ip_conntrack = ip_conntrack_get(skb, &ctinfo); -+ if (!nat_ip_conntrack) -+ { -+ nat_printf("IP conntrack info is not found!\n"); -+ return 0; -+ } -+ // nat_printf("nat_ip_conntrack = 0x%x, status=0x%lx, ctinfo=%d\n", (u32)nat_ip_conntrack, nat_ip_conntrack->status, ctinfo); -+ // if (nat_ip_conntrack->master || nat_ip_conntrack->helper) -+ if (nat_ip_conntrack->helper) -+ { -+ nat_printf("Sport=%d Dport=%d master=0x%x, helper=0x%x\n", sport, dport, (u32)nat_ip_conntrack->master, (u32)nat_ip_conntrack->helper); -+ return 0; -+ } -+ -+ //if (proto == IPPROTO_TCP && !(nat_ip_conntrack->status & IPS_ASSURED)) -+ // return 0; -+ -+#ifdef NAT_DEBUG_MSG -+ nat_printf("nat_ip_conntrack=0x%x, nat_cb->state=%d\n", (u32)nat_ip_conntrack, nat_cb->state); -+ nat_printf("lan2wan_hash_index=%d, wan2lan_hash_index=%d\n", nat_ip_conntrack->lan2wan_hash_index, nat_ip_conntrack->wan2lan_hash_index); -+ nat_printf("lan2wan_collision=%d, wan2lan_collision=%d\n", nat_ip_conntrack->lan2wan_collision, nat_ip_conntrack->wan2lan_collision); -+#endif -+ if (proto == IPPROTO_TCP) -+ { -+ if (nat_cb->state >= TCP_CONNTRACK_FIN_WAIT && nat_cb->state <= TCP_CONNTRACK_CLOSE) -+ { -+ if (nat_ip_conntrack->lan2wan_hash_index) -+ { -+#ifdef NAT_DEBUG_MSG -+ nat_printf("Invalidate LAN->WAN hash entry %d\n", nat_ip_conntrack->lan2wan_hash_index - 1); -+#endif -+ hash_nat_disable_owner(nat_ip_conntrack->lan2wan_hash_index - 1); -+ hash_invalidate_entry(nat_ip_conntrack->lan2wan_hash_index - 1); -+ nat_ip_conntrack->lan2wan_hash_index = 0; -+ } -+ if (nat_ip_conntrack->wan2lan_hash_index) -+ { -+#ifdef NAT_DEBUG_MSG -+ nat_printf("Invalidate WAN->LAN hash entry %d\n", nat_ip_conntrack->wan2lan_hash_index - 1); -+#endif -+ hash_nat_disable_owner(nat_ip_conntrack->wan2lan_hash_index - 1); -+ hash_invalidate_entry(nat_ip_conntrack->wan2lan_hash_index - 1); -+ nat_ip_conntrack->wan2lan_hash_index = 0; -+ } -+ return 0; -+ -+ } -+ else if (nat_cb->state != TCP_CONNTRACK_ESTABLISHED) -+ { -+ return 0; -+ } -+ } -+ if (proto == IPPROTO_TCP && (tcp_flag_word(tcp_hdr) & (TCP_FLAG_SYN | TCP_FLAG_FIN | TCP_FLAG_RST))) -+ // if (proto == IPPROTO_TCP && (tcp_flag_word(tcp_hdr) & (TCP_FLAG_SYN))) -+ return 0; -+ -+ hash_entry = (NAT_HASH_ENTRY_T *)&hash_data; -+ if (port == cfg->wan_port) // LAN-to-WAN -+ { -+ if (nat_ip_conntrack->lan2wan_hash_index || nat_ip_conntrack->lan2wan_collision) -+ return 0; -+#ifndef _NOT_CHECK_SIP_DIP // enable it if know and get the wan ip address -+ if (!sl351x_nat_find_ipcfg(sip, port)) -+ { -+ printk("LAN->WAN Incorrect Sip %d.%d.%d.%d\n", HIPQUAD(sip)); -+ return 0; -+ } -+#endif -+ // Note: unused fields (including rule_id) MUST be zero -+ hash_entry->key.Ethertype = 0; -+ hash_entry->key.port_id = cfg->lan_port; -+ hash_entry->key.rule_id = 0; -+ hash_entry->key.ip_protocol = proto; -+ hash_entry->key.reserved1 = 0; -+ hash_entry->key.reserved2 = 0; -+ hash_entry->key.sip = ntohl(nat_cb->sip); -+ hash_entry->key.dip = ntohl(nat_cb->dip); -+ hash_entry->key.sport = nat_cb->sport; -+ hash_entry->key.dport = nat_cb->dport; -+ -+ hash_index = nat_build_keys(&hash_entry->key); -+ -+#ifdef NAT_DEBUG_LAN_HASH_TIMEOUT -+ if (hash_get_nat_owner_flag(hash_index)) -+ return 0; -+#endif -+ if (hash_get_valid_flag(hash_index)) -+ { -+ nat_ip_conntrack->lan2wan_collision = 1; -+ nat_collision++; -+#if 0 -+ if (proto == IPPROTO_TCP && (tcp_flag_word(tcp_hdr) & (TCP_FLAG_FIN | TCP_FLAG_RST))) -+ { -+ if (memcmp((void *)&hash_entry->key, hash_get_entry(hash_index), sizeof(NAT_KEY_T)) == 0) -+ { -+ hash_nat_disable_owner(hash_index); -+ hash_invalidate_entry(hash_index); // Must last one, else HW Tx fast SW -+ // nat_printf("Invalidate nat hash entry %d\n", hash_index); -+ } -+ } -+#endif -+ return 0; -+ } -+ -+ // write hash entry -+ hash_entry->key.rule_id = cfg->tcp_udp_rule_id; -+ memcpy(hash_entry->param.da, skb->data, 6); -+ memcpy(hash_entry->param.sa, skb->data+6, 6); -+ hash_entry->param.Sip = sip; -+ hash_entry->param.Dip = dip; -+ hash_entry->param.Sport = sport; -+ hash_entry->param.Dport = dport; -+ hash_entry->param.vlan = 0; -+ hash_entry->param.sw_id = 0; -+ hash_entry->param.mtu = 0; -+ // check PPPoE -+ pppoe_hdr = (struct pppoe_hdr *)(ether_hdr + 1); -+ ppp_proto = *(u16 *)&pppoe_hdr->tag[0]; -+ if (ether_hdr->h_proto == __constant_htons(ETH_P_PPP_SES) // 0x8864 -+ && ppp_proto == __constant_htons(PPP_IP) ) // 0x21 -+ { -+ hash_entry->action.dword = NAT_PPPOE_LAN2WAN_ACTIONS; -+ hash_entry->param.pppoe = htons(pppoe_hdr->sid); -+ } -+ else -+ { -+ hash_entry->action.dword = NAT_LAN2WAN_ACTIONS; -+ hash_entry->param.pppoe = 0; -+ } -+ hash_entry->action.bits.dest_qid = sl351x_nat_assign_qid(proto, sip, dip, sport, dport); -+ hash_entry->action.bits.dest_qid += (cfg->wan_port==0) ? TOE_GMAC0_HW_TXQ0_QID : TOE_GMAC1_HW_TXQ0_QID; -+ hash_entry->tmo.counter = hash_entry->tmo.interval = -+ (proto == IPPROTO_TCP) ? cfg->tcp_tmo_interval : cfg->udp_tmo_interval; -+ nat_write_hash_entry(hash_index, hash_entry); -+ // nat_printf("%lu Validate a LAN hash entry %d\n", jiffies/HZ, hash_index); -+ // hash_dump_entry(hash_index); -+ hash_nat_enable_owner(hash_index); -+ hash_validate_entry(hash_index); // Must last one, else HW Tx fast than SW -+ nat_ip_conntrack->lan2wan_hash_index = hash_index + 1; -+ nat_ip_conntrack->hw_nat |= 1; -+ return 0; -+ } -+ else // WAN-to-LAN -+ { -+ if (nat_ip_conntrack->wan2lan_hash_index || nat_ip_conntrack->wan2lan_collision) -+ return 0; -+ -+ // Note: unused fields (including rule_id) MUST be zero -+ hash_entry->key.Ethertype = 0; -+ hash_entry->key.port_id = cfg->wan_port; -+ hash_entry->key.rule_id = 0; -+ hash_entry->key.ip_protocol = proto; -+ hash_entry->key.reserved1 = 0; -+ hash_entry->key.reserved2 = 0; -+ hash_entry->key.sip = ntohl(nat_cb->sip); -+ hash_entry->key.dip = ntohl(nat_cb->dip); -+ hash_entry->key.sport = nat_cb->sport; -+ hash_entry->key.dport = nat_cb->dport; -+ -+ hash_index = nat_build_keys(&hash_entry->key); -+ -+#ifdef NAT_DEBUG_WAN_HASH_TIMEOUT -+ if (hash_get_nat_owner_flag(hash_index)) -+ return 0; -+#endif -+ if (hash_get_valid_flag(hash_index)) -+ { -+ nat_ip_conntrack->wan2lan_collision = 1; -+ nat_collision++; -+#if 0 -+ if (proto == IPPROTO_TCP && (tcp_flag_word(tcp_hdr) & (TCP_FLAG_FIN | TCP_FLAG_RST))) -+ { -+ if (memcmp((void *)&hash_entry->key, hash_get_entry(hash_index), sizeof(NAT_KEY_T)) == 0) -+ { -+ hash_nat_disable_owner(hash_index); -+ hash_invalidate_entry(hash_index); // Must last one, else HW Tx fast SW -+ // nat_printf("Invalidate nat hash entry %d\n", hash_index); -+ } -+ } -+#endif -+ return 0; -+ } -+ -+ // write hash entry -+ hash_entry->key.rule_id = cfg->tcp_udp_rule_id; -+ memcpy(hash_entry->param.da, skb->data, 6); -+ memcpy(hash_entry->param.sa, skb->data+6, 6); -+ hash_entry->param.Sip = sip; -+ hash_entry->param.Dip = dip; -+ hash_entry->param.Sport = sport; -+ hash_entry->param.Dport = dport; -+ hash_entry->param.vlan = 0; -+ hash_entry->param.pppoe = 0; -+ hash_entry->param.sw_id = 0; -+ hash_entry->param.mtu = 0; -+ hash_entry->action.dword = (nat_cb->pppoe_frame) ? NAT_PPPOE_WAN2LAN_ACTIONS : NAT_WAN2LAN_ACTIONS; -+ hash_entry->action.bits.dest_qid = sl351x_nat_assign_qid(proto, sip, dip, sport, dport); -+ hash_entry->action.bits.dest_qid += (cfg->lan_port==0) ? TOE_GMAC0_HW_TXQ0_QID : TOE_GMAC1_HW_TXQ0_QID;; -+ hash_entry->tmo.counter = hash_entry->tmo.interval = -+ (proto == IPPROTO_TCP) ? cfg->tcp_tmo_interval : cfg->udp_tmo_interval; -+ nat_write_hash_entry(hash_index, hash_entry); -+ -+ // nat_printf("%lu Validate a WAN hash entry %d\n", jiffies/HZ, hash_index); -+ // hash_dump_entry(hash_index); -+ hash_nat_enable_owner(hash_index); -+ hash_validate_entry(hash_index); // Must last one, else HW Tx fast SW -+ nat_ip_conntrack->wan2lan_hash_index = hash_index + 1; -+ nat_ip_conntrack->hw_nat |= 2; -+ return 0; -+ } -+ return 0; -+} -+ -+/*---------------------------------------------------------------------- -+* sl351x_nat_gre_output -+* Handle NAT GRE output frames -+*----------------------------------------------------------------------*/ -+int sl351x_nat_gre_output(struct sk_buff *skb, int port) -+{ -+ u32 sip, dip; -+ struct ethhdr *ether_hdr; -+ struct iphdr *ip_hdr; -+ struct pppoe_hdr *pppoe_hdr; -+ GRE_PKTHDR_T *gre_hdr; -+ NAT_CB_T *nat_cb; -+ NAT_CFG_T *cfg; -+ u16 ppp_proto; -+ u32 hash_data[HASH_MAX_DWORDS]; -+ GRE_HASH_ENTRY_T *hash_entry; -+ int hash_index; -+ struct ip_conntrack *nat_ip_conntrack; -+ enum ip_conntrack_info ctinfo; -+ -+ nat_cb = NAT_SKB_CB(skb); -+ cfg = (NAT_CFG_T *)&nat_cfg; -+ -+ ether_hdr = (struct ethhdr *)skb->data; -+ ip_hdr = (struct iphdr *)skb->h.ipiph; -+ gre_hdr = (GRE_PKTHDR_T *)((u32)ip_hdr + (ip_hdr->ihl<<2)); -+ sip = ntohl(ip_hdr->saddr); -+ dip = ntohl(ip_hdr->daddr); -+ -+#ifdef NAT_DEBUG_MSG -+ { -+ nat_printf("To GMAC-%d: 0x%-4X GRE %d.%d.%d.%d [%d] --> %d.%d.%d.%d", -+ port, ntohs(ip_hdr->id), -+ NIPQUAD(ip_hdr->saddr), ntohs(gre_hdr->call_id), -+ NIPQUAD(ip_hdr->daddr)); -+ nat_printf("\n"); -+ } -+#endif -+ nat_ip_conntrack = ip_conntrack_get(skb, &ctinfo); -+ if (nat_ip_conntrack) -+ { -+ // if (nat_ip_conntrack->master || nat_ip_conntrack->helper) -+ if (nat_ip_conntrack->helper) -+ { -+ nat_printf("GRE Call-ID=%d, master=0x%x, helper=0x%x\n", ntohs(gre_hdr->call_id), (u32)nat_ip_conntrack->master, (u32)nat_ip_conntrack->helper); -+ return 0; -+ } -+ if (!(nat_ip_conntrack->status & IPS_ASSURED)) -+ return 0; -+ } -+ -+ hash_entry = (GRE_HASH_ENTRY_T *)&hash_data; -+ if (port == cfg->wan_port) // LAN-to-WAN -+ { -+#ifdef _NOT_CHECK_SIP_DIP // enable it if know and get the wan ip address -+ if (!sl351x_nat_find_ipcfg(sip, port)) -+ { -+ printk("LAN->WAN Incorrect Sip %d.%d.%d.%d\n", HIPQUAD(sip)); -+ return 0; -+ } -+#endif -+ // Note: unused fields (including rule_id) MUST be zero -+ hash_entry->key.Ethertype = 0; -+ hash_entry->key.port_id = cfg->lan_port; -+ hash_entry->key.rule_id = 0; -+ hash_entry->key.ip_protocol = IPPROTO_GRE; -+ hash_entry->key.reserved1 = 0; -+ hash_entry->key.reserved2 = 0; -+ hash_entry->key.reserved3 = 0; -+ hash_entry->key.reserved4 = 0; -+ hash_entry->key.sip = ntohl(nat_cb->sip); -+ hash_entry->key.dip = ntohl(nat_cb->dip); -+ hash_entry->key.protocol = nat_cb->sport; -+ hash_entry->key.call_id = nat_cb->dport; -+ -+ hash_index = gre_build_keys(&hash_entry->key); -+ -+#ifdef NAT_DEBUG_LAN_HASH_TIMEOUT -+ if (hash_get_nat_owner_flag(hash_index)) -+ return 0; -+#endif -+ if (hash_get_valid_flag(hash_index)) -+ { -+ return 0; -+ } -+ -+ // write hash entry -+ hash_entry->key.rule_id = cfg->gre_rule_id; -+ memcpy(hash_entry->param.da, skb->data, 6); -+ memcpy(hash_entry->param.sa, skb->data+6, 6); -+ hash_entry->param.Sip = sip; -+ hash_entry->param.Dip = dip; -+ hash_entry->param.Sport = 0; -+ hash_entry->param.Dport = ntohs(gre_hdr->call_id); -+ hash_entry->param.vlan = 0; -+ hash_entry->param.sw_id = 0; -+ hash_entry->param.mtu = 0; -+ // check PPPoE -+ pppoe_hdr = (struct pppoe_hdr *)(ether_hdr + 1); -+ ppp_proto = *(u16 *)&pppoe_hdr->tag[0]; -+ if (ether_hdr->h_proto == __constant_htons(ETH_P_PPP_SES) // 0x8864 -+ && ppp_proto == __constant_htons(PPP_IP) ) // 0x21 -+ { -+ hash_entry->action.dword = NAT_PPPOE_PPTP_LAN2WAN_ACTIONS; -+ hash_entry->param.pppoe = htons(pppoe_hdr->sid); -+ } -+ else -+ { -+ hash_entry->action.dword = NAT_PPTP_LAN2WAN_ACTIONS; -+ hash_entry->param.pppoe = 0; -+ } -+ hash_entry->action.bits.dest_qid = sl351x_nat_assign_qid(IPPROTO_GRE, sip, dip, 0, ntohs(gre_hdr->call_id)); -+ hash_entry->action.bits.dest_qid += (cfg->wan_port==0) ? TOE_GMAC0_HW_TXQ0_QID : TOE_GMAC1_HW_TXQ0_QID; -+ hash_entry->tmo.counter = hash_entry->tmo.interval = cfg->gre_tmo_interval; -+ gre_write_hash_entry(hash_index, hash_entry); -+ // nat_printf("%lu Validate a LAN hash entry %d\n", jiffies/HZ, hash_index); -+ // hash_dump_entry(hash_index); -+ hash_nat_enable_owner(hash_index); -+ hash_validate_entry(hash_index); // Must last one, else HW Tx fast than SW -+ return 0; -+ } -+ else // WAN-to-LAN -+ { -+ // Note: unused fields (including rule_id) MUST be zero -+ hash_entry->key.Ethertype = 0; -+ hash_entry->key.port_id = cfg->wan_port; -+ hash_entry->key.rule_id = 0; -+ hash_entry->key.ip_protocol = IPPROTO_GRE; -+ hash_entry->key.reserved1 = 0; -+ hash_entry->key.reserved2 = 0; -+ hash_entry->key.reserved3 = 0; -+ hash_entry->key.reserved4 = 0; -+ hash_entry->key.sip = ntohl(nat_cb->sip); -+ hash_entry->key.dip = ntohl(nat_cb->dip); -+ hash_entry->key.protocol = nat_cb->sport; -+ hash_entry->key.call_id = nat_cb->dport; -+ -+ hash_index = gre_build_keys(&hash_entry->key); -+ -+#ifdef NAT_DEBUG_WAN_HASH_TIMEOUT -+ if (hash_get_nat_owner_flag(hash_index)) -+ return 0; -+#endif -+ if (hash_get_valid_flag(hash_index)) -+ { -+ return 0; -+ } -+ -+ // write hash entry -+ hash_entry->key.rule_id = cfg->gre_rule_id; -+ memcpy(hash_entry->param.da, skb->data, 6); -+ memcpy(hash_entry->param.sa, skb->data+6, 6); -+ hash_entry->param.Sip = sip; -+ hash_entry->param.Dip = dip; -+ hash_entry->param.Sport = 0; -+ hash_entry->param.Dport = ntohs(gre_hdr->call_id); -+ hash_entry->param.vlan = 0; -+ hash_entry->param.pppoe = 0; -+ hash_entry->param.sw_id = 0; -+ hash_entry->param.mtu = 0; -+ hash_entry->action.dword = (nat_cb->pppoe_frame) ? NAT_PPPOE_PPTP_WAN2LAN_ACTIONS : NAT_PPTP_WAN2LAN_ACTIONS; -+ hash_entry->action.bits.dest_qid = sl351x_nat_assign_qid(IPPROTO_GRE, sip, dip, 0, ntohs(gre_hdr->call_id)); -+ hash_entry->action.bits.dest_qid += (cfg->lan_port==0) ? TOE_GMAC0_HW_TXQ0_QID : TOE_GMAC1_HW_TXQ0_QID;; -+ hash_entry->tmo.counter = hash_entry->tmo.interval = cfg->gre_tmo_interval; -+ gre_write_hash_entry(hash_index, hash_entry); -+ -+ // nat_printf("%lu Validate a WAN hash entry %d\n", jiffies/HZ, hash_index); -+ // hash_dump_entry(hash_index); -+ hash_nat_enable_owner(hash_index); -+ hash_validate_entry(hash_index); // Must last one, else HW Tx fast SW -+ return 0; -+ } -+ return 0; -+} -+ -+ -+#ifdef _HAVE_DYNAMIC_PORT_LIST -+/*---------------------------------------------------------------------- -+* sl_nat_add_port -+*----------------------------------------------------------------------*/ -+void sl_nat_add_port(u8 protocol, u16 port) -+{ -+ int i; -+ u16 *port_ptr; -+ -+ if (protocol == IPPROTO_TCP) -+ port_ptr = dynamic_tcp_port_list; -+ else if (protocol == IPPROTO_UDP) -+ port_ptr = dynamic_udp_port_list; -+ else -+ return; -+ -+ for (i=0; *port_ptr; i++) -+ { -+ if (port == *port_ptr) -+ return; -+ port_ptr++; -+ } -+ port_ptr++; -+ *port_ptr = port; -+} -+ -+/*---------------------------------------------------------------------- -+* sl_nat_remove_port -+*----------------------------------------------------------------------*/ -+void sl_nat_remove_port(u8 protocol, u16 port) -+{ -+ int i, j; -+ u16 *port_ptr, *next; -+ -+ if (protocol == IPPROTO_TCP) -+ port_ptr = dynamic_tcp_port_list; -+ else if (protocol == IPPROTO_UDP) -+ port_ptr = dynamic_udp_port_list; -+ else -+ return; -+ -+ for (i=0; *port_ptr; i++, port_ptr++) -+ { -+ if (port == *port_ptr) -+ { -+ port_next = port_ptr + 1; -+ for (j=i+1; *port_next; i++, j++) -+ *port_ptr++ = *port_next++; -+ *port_ptr = 0; -+ return; -+ } -+ } -+} -+#endif -+ -+/*---------------------------------------------------------------------- -+* sl351x_nat_ioctl -+*----------------------------------------------------------------------*/ -+int sl351x_nat_ioctl(struct net_device *dev, struct ifreq *rq, int cmd) -+{ -+ GMAC_INFO_T *tp = (GMAC_INFO_T *)dev->priv; -+ int i, j, port_id; -+ NATCMD_HDR_T nat_hdr; -+ NAT_REQ_E ctrl; -+ unsigned char *req_datap; -+ NAT_IP_ENTRY_T *ipcfg; -+ NAT_XPORT_ENTRY_T *xport_entry; -+ NAT_WRULE_ENTRY_T *wrule_entry; -+ unsigned int qid; -+ -+ if (copy_from_user((void *)&nat_hdr, rq->ifr_data, sizeof(nat_hdr))) -+ return -EFAULT; -+ req_datap = (unsigned char *)rq->ifr_data + sizeof(nat_hdr); -+ port_id = tp->port_id; -+ switch (nat_hdr.cmd) { -+ case NATSSTATUS: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_STATUS_T)) -+ return -EPERM; -+ if (copy_from_user((void *)&ctrl.status, req_datap, sizeof(ctrl.status))) -+ return -EFAULT; -+ if (ctrl.status.enable != 0 && ctrl.status.enable != 1) -+ return -EPERM; -+ // sl351x_nat_set_enabled_flag(ctrl.status.enable); -+ if (nat_cfg.enabled && (ctrl.status.enable == 0)) -+ { -+ for (i=0; i<HASH_TOTAL_ENTRIES; i++) -+ { -+ if (hash_get_nat_owner_flag(i)) -+ { -+ hash_nat_disable_owner(i); -+ hash_invalidate_entry(i); -+ } -+ } -+ } -+ nat_cfg.enabled = ctrl.status.enable; -+ break; -+ case NATGSTATUS: -+ if (nat_hdr.len != sizeof(NAT_STATUS_T)) -+ return -EPERM; -+ ctrl.status.enable = nat_cfg.enabled; -+ if (copy_to_user(req_datap, (void *)&ctrl.status, sizeof(ctrl.status))) -+ return -EFAULT; -+ break; -+ case NATSETPORT: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_PORTCFG_T)) -+ return -EPERM; -+ if (copy_from_user((void *)&ctrl.portcfg, req_datap, sizeof(ctrl.portcfg))) -+ return -EFAULT; -+ if (ctrl.portcfg.portmap == 0) -+ nat_cfg.lan_port = port_id; -+ else if (ctrl.portcfg.portmap == 1) -+ nat_cfg.wan_port = port_id; -+ else -+ return -EPERM; -+ break; -+ case NATGETPORT: -+ if (nat_hdr.len != sizeof(NAT_PORTCFG_T)) -+ return -EPERM; -+ if (nat_cfg.lan_port == port_id) -+ ctrl.portcfg.portmap = 0; -+ else if (nat_cfg.wan_port == port_id) -+ ctrl.portcfg.portmap = 1; -+ else -+ return -EPERM; -+ if (copy_to_user(req_datap, (void *)&ctrl.portcfg, sizeof(ctrl.portcfg))) -+ return -EFAULT; -+ break; -+ case NATADDIP: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_IPCFG_T)) -+ return -EPERM; -+ i = nat_cfg.ipcfg[port_id].total; -+ if (i >= CONFIG_NAT_MAX_IP_NUM) -+ return -E2BIG; -+ if (copy_from_user((void *)&nat_cfg.ipcfg[port_id].entry[i], req_datap, sizeof(NAT_IPCFG_T))) -+ return -EFAULT; -+ nat_cfg.ipcfg[port_id].total++; -+ break; -+ case NATDELIP: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_IPCFG_T)) -+ return -EPERM; -+ if (copy_from_user((void *)&ctrl.ipcfg, req_datap, sizeof(ctrl.ipcfg))) -+ return -EFAULT; -+ ipcfg = (NAT_IP_ENTRY_T *)&nat_cfg.ipcfg[port_id].entry[0]; -+ for (i=0; i<nat_cfg.ipcfg[port_id].total; i++, ipcfg++) -+ { -+ if (ipcfg->ipaddr == ctrl.ipcfg.entry.ipaddr) -+ { -+ NAT_IP_ENTRY_T *ipcfg_next; -+ ipcfg_next = ipcfg + 1; -+ for (j=i+1; j < nat_cfg.ipcfg[port_id].total; i++, j++) -+ { -+ memcpy((void *)ipcfg, (void *)ipcfg_next, sizeof(NAT_IP_ENTRY_T)); -+ ipcfg++; -+ ipcfg_next++; -+ } -+ ipcfg->ipaddr = 0; -+ ipcfg->netmask = 0; -+ nat_cfg.ipcfg[port_id].total--; -+ return 0; -+ } -+ } -+ return -ENOENT; -+ case NATGETIP: -+ if (nat_hdr.len != sizeof(NAT_IPCFG_ALL_T)) -+ return -EPERM; -+ if (copy_to_user(req_datap, (void *)&nat_cfg.ipcfg[port_id], sizeof(NAT_IPCFG_ALL_T))) -+ return -EFAULT; -+ break; -+ case NATAXPORT: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_XPORT_T)) -+ return -EPERM; -+ i = nat_cfg.xport.total; -+ if (i >= CONFIG_NAT_MAX_XPORT) -+ return -E2BIG; -+ if (copy_from_user((void *)&nat_cfg.xport.entry[i], req_datap, sizeof(NAT_XPORT_T))) -+ return -EFAULT; -+ nat_cfg.xport.total++; -+ break; -+ case NATDXPORT: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_XPORT_T)) -+ return -EPERM; -+ if (copy_from_user((void *)&ctrl.xport, req_datap, sizeof(NAT_XPORT_T))) -+ return -EFAULT; -+ xport_entry = (NAT_XPORT_ENTRY_T *)&nat_cfg.xport.entry[0]; -+ for (i=0; i<nat_cfg.xport.total; i++, xport_entry++) -+ { -+ if (memcmp((void *)xport_entry, (void *)&ctrl.xport, sizeof(NAT_XPORT_ENTRY_T)) == 0) -+ { -+ NAT_XPORT_ENTRY_T *xport_next; -+ xport_next = xport_entry + 1; -+ for (j=i+1; j < nat_cfg.xport.total; i++, j++) -+ { -+ memcpy((void *)xport_entry, (void *)xport_next, sizeof(NAT_XPORT_ENTRY_T)); -+ xport_entry++; -+ xport_next++; -+ } -+ memset((void *)xport_entry, 0, sizeof(NAT_XPORT_ENTRY_T)); -+ nat_cfg.xport.total--; -+ return 0; -+ } -+ } -+ return -ENOENT; -+ case NATGXPORT: -+ if (nat_hdr.len != sizeof(NAT_XPORT_ALL_T)) -+ return -EPERM; -+ if (copy_to_user(req_datap, (void *)&nat_cfg.xport, sizeof(NAT_XPORT_ALL_T))) -+ return -EFAULT; -+ break; -+ case NATSWEIGHT: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_WEIGHT_T)) -+ return -EPERM; -+ if (copy_from_user((void *)&nat_cfg.weight, req_datap, sizeof(NAT_WEIGHT_T))) -+ return -EFAULT; -+ mac_set_hw_tx_weight(dev, (char *)&nat_cfg.weight); -+ break; -+ case NATGWEIGHT: -+ if (nat_hdr.len != sizeof(NAT_WEIGHT_T)) -+ return -EPERM; -+ mac_get_hw_tx_weight(dev, (char *)&nat_cfg.weight); -+ if (copy_to_user(req_datap, (void *)&nat_cfg.weight, sizeof(NAT_WEIGHT_T))) -+ return -EFAULT; -+ break; -+ case NATAWRULE: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_WRULE_T)) -+ return -EPERM; -+ if (copy_from_user((void *)&qid, req_datap, sizeof(qid))) -+ return -EFAULT; -+ if (qid > CONFIG_NAT_TXQ_NUM) -+ return -EPERM; -+ i = nat_cfg.wrule[qid].total; -+ if (i >= CONFIG_NAT_MAX_WRULE) -+ return -E2BIG; -+ if (copy_from_user((void *)&nat_cfg.wrule[qid].entry[i], req_datap+sizeof(qid), sizeof(NAT_WRULE_T))) -+ return -EFAULT; -+ nat_cfg.wrule[qid].total++; -+ break; -+ case NATDWRULE: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_WRULE_T)) -+ return -EPERM; -+ if (copy_from_user((void *)&ctrl.wrule, req_datap, sizeof(NAT_WRULE_T))) -+ return -EFAULT; -+ qid = ctrl.wrule.qid; -+ if (qid >= CONFIG_NAT_TXQ_NUM) -+ return -EPERM; -+ wrule_entry = (NAT_WRULE_ENTRY_T *)&nat_cfg.wrule[qid].entry[0]; -+ for (i=0; i<nat_cfg.wrule[qid].total; i++, wrule_entry++) -+ { -+ if (memcmp((void *)wrule_entry, (void *)&ctrl.wrule.entry, sizeof(NAT_WRULE_ENTRY_T)) == 0) -+ { -+ NAT_WRULE_ENTRY_T *wrule_next; -+ wrule_next = wrule_entry + 1; -+ for (j=i+1; j < nat_cfg.wrule[qid].total; i++, j++) -+ { -+ memcpy((void *)wrule_entry, (void *)wrule_next, sizeof(NAT_WRULE_ENTRY_T)); -+ wrule_entry++; -+ wrule_next++; -+ } -+ memset((void *)wrule_entry, 0, sizeof(NAT_WRULE_ENTRY_T)); -+ nat_cfg.wrule[qid].total--; -+ return 0; -+ } -+ } -+ return -ENOENT; -+ case NATGWRULE: -+ if (nat_hdr.len != sizeof(NAT_WRULE_ALL_T)) -+ return -EPERM; -+ if (copy_from_user((void *)&qid, req_datap, sizeof(qid))) -+ return -EFAULT; -+ if (qid >= CONFIG_NAT_TXQ_NUM) -+ return -EPERM; -+ if (copy_to_user(req_datap, (void *)&nat_cfg.wrule[qid], sizeof(NAT_WRULE_ALL_T))) -+ return -EFAULT; -+ break; -+ case NATSDEFQ: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_QUEUE_T)) -+ return -EPERM; -+ if (copy_from_user((void *)&nat_cfg.default_hw_txq, req_datap, sizeof(u32))) -+ return -EFAULT; -+ break; -+ case NATGDEFQ: -+ if (nat_hdr.len != sizeof(NAT_QUEUE_T)) -+ return -EPERM; -+ if (copy_to_user(req_datap, (void *)&nat_cfg.default_hw_txq, sizeof(u32))) -+ return -EFAULT; -+ case NATRMIPCFG: -+ nat_cfg.ipcfg[port_id].total = 0; -+ break; -+ case NATTESTENTRY: -+ if (!capable(CAP_NET_ADMIN)) -+ return -EPERM; -+ if (nat_hdr.len != sizeof(NAT_TESTENTRY_T)) -+ return -EPERM; -+ if (copy_from_user((void *)&ctrl.init_entry, req_datap, sizeof(ctrl.init_entry))) -+ return -EFAULT; -+ if (ctrl.init_entry.init_enable != 0 && ctrl.init_entry.init_enable != 1) -+ return -EPERM; -+ nat_cfg.init_enabled = ctrl.init_entry.init_enable; -+ break; -+ -+ default: -+ return -EPERM; -+ } -+ -+ return 0; -+} -+ -+/*---------------------------------------------------------------------- -+* nat_init_test_entry -+* Initialize NAT test hash entries -+* -+* SmartBits P1 -----> Lepus GMAC 0 --------------+ -+* | -+* | -+* P3 <----- Lepus GMAC 1 -- HW TxQ0 <--+ -+* -- HW TxQ1 <--+ -+* -- HW TxQ2 <--+ -+* -- HW TxQ3 <--+ -+* -+* SmartBits P1 <----- Lepus GMAC 0 -- HW TxQ0 <--+ -+* -- HW TxQ1 <--+ -+* -- HW TxQ2 <--+ -+* -- HW TxQ3 <--+ -+* | -+* | -+* P3 -----> Lepus GMAC 1 --------------+ -+* -+* LAN GMAC0 <--------------------------------------------> GMAC1 WAN -+* 192.168.[x].[y]:50 --> 168.95.[x].[y]:80 ---TXQ[y-1]---> 192.168.2.254:200[y] --> 168.95.[x].[y]:80 -+* 192.168.[x].[y]:50 <-- 168.95.[x].[y]:80 <--TXQ[y-1]---- 192.168.2.254:200[y] <-- 168.95.[x].[y]:80 -+* where: -+* [x] : Packet Type -+* [y] : Tx Queue, 1 for TxQ0, 2 for TxQ1, 3 for TxQ2, 4 for TxQ3, -+* -+* -+* Packet Type: -+* 1. TCP Frames <---> TCP Frames -+* LAN GMAC0 <--------------------------------> GMAC1 WAN -+* 192.168.1.1:50 --> 168.95.1.1:80 ---TXQ0---> 192.168.2.254:2001 --> 168.95.1.1:80 -+* 192.168.1.1:50 <-- 168.95.1.1:80 <--TXQ0---- 192.168.2.254:2001 <-- 168.95.1.1:80 -+* -+* 192.168.1.2:50 --> 168.95.1.2:80 ---TXQ1---> 192.168.2.254:2002 --> 168.95.1.2:80 -+* 192.168.1.2:50 <-- 168.95.1.2:80 <--TXQ1---- 192.168.2.254:2002 <-- 168.95.1.2:80 -+* -+* 192.168.1.3:50 --> 168.95.1.3:80 ---TXQ2---> 192.168.2.254:2003 --> 168.95.1.3:80 -+* 192.168.1.3:50 <-- 168.95.1.3:80 <--TXQ2---- 192.168.2.254:2003 <-- 168.95.1.3:80 -+* -+* 192.168.1.4:50 --> 168.95.1.4:80 ---TXQ3---> 192.168.2.254:2004 --> 168.95.1.4:80 -+* 192.168.1.4:50 <-- 168.95.1.4:80 <--TXQ3---- 192.168.2.254:2004 <-- 168.95.1.4:80 -+* -+* 2 TCP Frames <----> PPPoE + TCP Frames -+* LAN GMAC0 <--------------------------------> GMAC1 WAN -+* 192.168.2.1:50 --> 168.95.2.1:80 ---TXQ0---> 192.168.2.254:2001 --> 168.95.2.1:80 -+* 192.168.2.1:50 <-- 168.95.2.1:80 <--TXQ0---- 192.168.2.254:2001 <-- 168.95.2.1:80 -+* -+* 192.168.2.2:50 --> 168.95.2.2:80 ---TXQ1---> 192.168.2.254:2002 --> 168.95.2.2:80 -+* 192.168.2.2:50 <-- 168.95.2.2:80 <--TXQ1---- 192.168.2.254:2002 <-- 168.95.2.2:80 -+* -+* 192.168.2.3:50 --> 168.95.2.3:80 ---TXQ2---> 192.168.2.254:2003 --> 168.95.2.3:80 -+* 192.168.2.3:50 <-- 168.95.2.3:80 <--TXQ2---- 192.168.2.254:2003 <-- 168.95.2.3:80 -+* -+* 192.168.2.4:50 --> 168.95.2.4:80 ---TXQ3---> 192.168.2.254:2004 --> 168.95.2.4:80 -+* 192.168.2.4:50 <-- 168.95.2.4:80 <--TXQ3---- 192.168.2.254:2004 <-- 168.95.2.4:80 -+* -+* 3 TCP Frames <----> VLAN + PPPoE + TCP Frames -+* LAN GMAC0 <--------------------------------> GMAC1 WAN -+* 192.168.3.1:50 --> 168.95.3.1:80 ---TXQ0---> 192.168.2.254:2001 --> 168.95.3.1:80 -+* 192.168.3.1:50 <-- 168.95.3.1:80 <--TXQ0---- 192.168.2.254:2001 <-- 168.95.3.1:80 -+* -+* 192.168.3.2:50 --> 168.95.3.2:80 ---TXQ1---> 192.168.2.254:2002 --> 168.95.3.2:80 -+* 192.168.3.2:50 <-- 168.95.3.2:80 <--TXQ1---- 192.168.2.254:2002 <-- 168.95.3.2:80 -+* -+* 192.168.3.3:50 --> 168.95.3.3:80 ---TXQ2---> 192.168.2.254:2003 --> 168.95.3.3:80 -+* 192.168.3.3:50 <-- 168.95.3.3:80 <--TXQ2---- 192.168.2.254:2003 <-- 168.95.3.3:80 -+* -+* 192.168.3.4:50 --> 168.95.3.4:80 ---TXQ3---> 192.168.2.254:2004 --> 168.95.3.4:80 -+* 192.168.3.4:50 <-- 168.95.3.4:80 <--TXQ3---- 192.168.2.254:2004 <-- 168.95.3.4:80 -+* -+* 4 VLAN-A + TCP Frames <----> VLAN-B + PPPoE + TCP Frames -+* LAN GMAC0 <--------------------------------> GMAC1 WAN -+* 192.168.4.1:50 --> 168.95.4.1:80 ---TXQ0---> 192.168.2.254:2001 --> 168.95.4.1:80 -+* 192.168.4.1:50 <-- 168.95.4.1:80 <--TXQ0---- 192.168.2.254:2001 <-- 168.95.4.1:80 -+* -+* 192.168.4.2:50 --> 168.95.4.2:80 ---TXQ1---> 192.168.2.254:2002 --> 168.95.4.2:80 -+* 192.168.4.2:50 <-- 168.95.4.2:80 <--TXQ1---- 192.168.2.254:2002 <-- 168.95.4.2:80 -+* -+* 192.168.4.3:50 --> 168.95.4.3:80 ---TXQ2---> 192.168.2.254:2003 --> 168.95.4.3:80 -+* 192.168.4.3:50 <-- 168.95.4.3:80 <--TXQ2---- 192.168.2.254:2003 <-- 168.95.4.3:80 -+* -+* 192.168.4.4:50 --> 168.95.4.4:80 ---TXQ3---> 192.168.2.254:2004 --> 168.95.4.4:80 -+* 192.168.4.4:50 <-- 168.95.4.4:80 <--TXQ3---- 192.168.2.254:2004 <-- 168.95.4.4:80 -+* -+* -+* -+*----------------------------------------------------------------------*/ -+#ifdef SL351x_NAT_TEST_BY_SMARTBITS -+#define NAT_IPIV(a,b,c,d) ((a<<24)+(b<<16)+(c<<8)+d) -+#define NAT_TEST_CLIENT_IP NAT_IPIV(192,168,1,1) -+#define NAT_TEST_SERVER_IP NAT_IPIV(168,95,1,1) -+#define NAT_TEST_LAN_IP NAT_IPIV(192,168,1,254) -+#define NAT_TEST_WAN_IP NAT_IPIV(192,168,2,254) -+#define NAT_TEST_MAP_PORT_BASE 2001 -+#define NAT_TEST_SPORT 50 -+#define NAT_TEST_DPORT 80 -+#define NAT_TEST_PROTOCOL 6 -+u8 nat_test_lan_target_da[6]={0x00,0x11,0x22,0x33,0x44,0x55}; -+u8 nat_test_wan_target_da[6]={0x00,0xaa,0xbb,0xcc,0xdd,0xee}; -+u8 nat_test_lan_my_da[6]={0x00,0x11,0x11,0x11,0x11,0x11}; -+u8 nat_test_wan_my_da[6]={0x00,0x22,0x22,0x22,0x22,0x22}; -+static void nat_init_test_entry(void) -+{ -+ int i, j ; -+ NAT_HASH_ENTRY_T *hash_entry; -+ u32 sip, dip; -+ u32 hash_data[HASH_MAX_DWORDS]; -+ NAT_CFG_T *cfg; -+ int hash_index; -+ -+ cfg = (NAT_CFG_T *)&nat_cfg; -+ hash_entry = (NAT_HASH_ENTRY_T *)&hash_data; -+ hash_entry->key.Ethertype = 0; -+ hash_entry->key.rule_id = 0; -+ hash_entry->key.ip_protocol = IPPROTO_TCP; -+ hash_entry->key.reserved1 = 0; -+ hash_entry->key.reserved2 = 0; -+ // hash_entry->key.sip = NAT_TEST_CLIENT_IP; -+ // hash_entry->key.dip = NAT_TEST_SERVER_IP; -+ hash_entry->key.sport = htons(NAT_TEST_SPORT); -+ hash_entry->key.dport = htons(NAT_TEST_DPORT); -+ hash_entry->key.rule_id = cfg->tcp_udp_rule_id; -+ hash_entry->action.dword = NAT_LAN2WAN_ACTIONS; -+ -+ sip = NAT_TEST_CLIENT_IP; -+ dip = NAT_TEST_SERVER_IP; -+ -+ // Init TCP <------> TCP hash entries -+ // LAN --> WAN -+ // (1) TCP --> TCP -+ // (2) TCP --> PPPoE + TCP -+ // (3) TCP --> VLAN-B + PPPoE + TCP -+ // (4) TCP + VLAN-A --> VLAN-B + PPPoE + TCP -+ memcpy(hash_entry->param.da, nat_test_wan_target_da, 6); -+ memcpy(hash_entry->param.sa, nat_test_wan_my_da, 6); -+ hash_entry->key.port_id = cfg->lan_port; -+ for (i=0; i<TOE_HW_TXQ_NUM; i++) -+ { -+ if (i < 2) -+ { -+ hash_entry->action.bits.dest_qid = i+2; -+ } -+ else -+ { -+ hash_entry->action.bits.dest_qid = i; -+ } -+ hash_entry->action.bits.dest_qid += (cfg->wan_port==0) ? TOE_GMAC0_HW_TXQ0_QID : TOE_GMAC1_HW_TXQ0_QID; -+ hash_entry->param.Sport = NAT_TEST_MAP_PORT_BASE+i; -+ hash_entry->param.Dport = NAT_TEST_DPORT; -+ for (j=0; j<4; j++) -+ { -+ hash_entry->key.sip = sip + i + j*0x100; -+ hash_entry->key.dip = dip + i + j*0x100; -+ hash_entry->param.Dip = hash_entry->key.dip; -+ hash_entry->param.Sip = NAT_TEST_WAN_IP; -+ switch (j) -+ { -+ case 0: -+ hash_entry->action.bits.pppoe = 0; -+ hash_entry->param.pppoe = 0; -+ hash_entry->action.bits.vlan = 0; -+ hash_entry->param.vlan = 0; -+ break; -+ case 1: -+ hash_entry->action.bits.pppoe = 1; -+ hash_entry->param.pppoe = i+1; -+ hash_entry->action.bits.vlan = 0; -+ hash_entry->param.vlan = 0; -+ break; -+ case 2: -+ hash_entry->action.bits.pppoe = 1; -+ hash_entry->param.pppoe = i+1; -+ hash_entry->action.bits.vlan = 1; -+ hash_entry->param.vlan = i+10; -+ break; -+ case 3: -+ hash_entry->action.bits.pppoe = 1; -+ hash_entry->param.pppoe = i+1; -+ hash_entry->action.bits.vlan = 1; -+ hash_entry->param.vlan = i+10; -+ break; -+ } -+ hash_entry->tmo.counter = hash_entry->tmo.interval = 0x7fff; -+ hash_index = nat_build_keys(&hash_entry->key); -+ nat_write_hash_entry(hash_index, hash_entry); -+ hash_nat_enable_owner(hash_index); -+ hash_validate_entry(hash_index); // Must last one, else HW Tx fast than SW -+ } -+ } -+ -+ -+ // WAN --> LAN -+ hash_entry->key.port_id = cfg->wan_port; -+ hash_entry->key.sport = htons(NAT_TEST_DPORT); -+ hash_entry->key.dport = htons(NAT_TEST_DPORT); -+ hash_entry->key.rule_id = cfg->tcp_udp_rule_id; -+ hash_entry->action.dword = NAT_WAN2LAN_ACTIONS; -+ hash_entry->key.sport = htons(NAT_TEST_DPORT); -+ memcpy(hash_entry->param.da, nat_test_lan_target_da, 6); -+ memcpy(hash_entry->param.sa, nat_test_lan_my_da, 6); -+ for (i=0; i<TOE_HW_TXQ_NUM; i++) -+ { -+ hash_entry->key.dport = htons(NAT_TEST_MAP_PORT_BASE + i); -+ if (i < 2) -+ { -+ hash_entry->action.bits.dest_qid = i+2; -+ } -+ else -+ { -+ hash_entry->action.bits.dest_qid = i; -+ } -+ hash_entry->action.bits.dest_qid += (cfg->lan_port==0) ? TOE_GMAC0_HW_TXQ0_QID : TOE_GMAC1_HW_TXQ0_QID; -+ hash_entry->param.Dport = NAT_TEST_SPORT; -+ hash_entry->param.Sport = NAT_TEST_DPORT; -+ hash_entry->param.da[5] = i; -+ for (j=0; j<4; j++) -+ { -+ hash_entry->key.sip = (dip + i + j*0x100); -+ hash_entry->key.dip = (NAT_TEST_WAN_IP); -+ hash_entry->param.Sip = hash_entry->key.sip; -+ hash_entry->param.Dip = sip + i + j*0x100; -+ switch (j) -+ { -+ case 0: -+ hash_entry->action.bits.pppoe = 0; -+ hash_entry->param.pppoe = 0; -+ hash_entry->action.bits.vlan = 0; -+ hash_entry->param.vlan = 0; -+ break; -+ case 1: -+ hash_entry->action.bits.pppoe = 2; -+ hash_entry->param.pppoe = i+1; -+ hash_entry->action.bits.vlan = 0; -+ hash_entry->param.vlan = 0; -+ break; -+ case 2: -+ hash_entry->action.bits.pppoe = 2; -+ hash_entry->param.pppoe = i+1; -+ hash_entry->action.bits.vlan = 2; -+ hash_entry->param.vlan = i+5; -+ break; -+ case 3: -+ hash_entry->action.bits.pppoe = 1; -+ hash_entry->param.pppoe = i+1; -+ hash_entry->action.bits.vlan = 1; -+ hash_entry->param.vlan = i+5; -+ break; -+ } -+ hash_entry->tmo.counter = hash_entry->tmo.interval = 0x7fff; -+ hash_index = nat_build_keys(&hash_entry->key); -+ nat_write_hash_entry(hash_index, hash_entry); -+ hash_nat_enable_owner(hash_index); -+ hash_validate_entry(hash_index); // Must last one, else HW Tx fast than SW -+ } -+ } -+} -+#endif // SL351x_NAT_TEST_BY_SMARTBITS -+ -+#endif // CONFIG_SL351x_NAT -+ ---- /dev/null -+++ b/drivers/net/sl351x_proc.c -@@ -0,0 +1,578 @@ -+/**************************************************************************** -+* Copyright 2006 Storlink Corp. All rights reserved. -+*---------------------------------------------------------------------------- -+* Name : sl351x_proc.c -+* Description : -+* Handle Proc Routines for Storlink SL351x Platform -+* -+* History -+* -+* Date Writer Description -+*---------------------------------------------------------------------------- -+* 04/13/2006 Gary Chen Create and implement -+* -+* -+****************************************************************************/ -+#include <linux/module.h> -+#include <linux/kernel.h> -+#include <linux/compiler.h> -+#include <linux/pci.h> -+#include <linux/init.h> -+#include <linux/ioport.h> -+#include <linux/netdevice.h> -+#include <linux/etherdevice.h> -+#include <linux/rtnetlink.h> -+#include <linux/delay.h> -+#include <linux/ethtool.h> -+#include <linux/mii.h> -+#include <linux/completion.h> -+#include <asm/hardware.h> -+#include <asm/io.h> -+#include <asm/irq.h> -+#include <asm/semaphore.h> -+#include <asm/arch/irqs.h> -+#include <asm/arch/it8712.h> -+#include <linux/mtd/kvctl.h> -+#include <linux/skbuff.h> -+#include <linux/if_ether.h> -+#include <linux/if_pppox.h> -+#include <linux/in.h> -+#include <linux/ip.h> -+#include <linux/tcp.h> -+#include <linux/ppp_defs.h> -+#ifdef CONFIG_NETFILTER -+// #include <linux/netfilter_ipv4/ip_conntrack.h> -+#endif -+#include <linux/proc_fs.h> -+#include <linux/seq_file.h> -+#include <linux/percpu.h> -+#ifdef CONFIG_SYSCTL -+#include <linux/sysctl.h> -+#endif -+ -+#define MIDWAY -+#define SL_LEPUS -+ -+// #define PROC_DEBUG_MSG 1 -+ -+#include <asm/arch/sl2312.h> -+#include <asm/arch/sl351x_gmac.h> -+#include <asm/arch/sl351x_hash_cfg.h> -+#include <asm/arch/sl351x_nat_cfg.h> -+#include <asm/arch/sl351x_toe.h> -+ -+#ifdef CONFIG_PROC_FS -+/*---------------------------------------------------------------------- -+* Definition -+*----------------------------------------------------------------------*/ -+#define proc_printf printk -+#define SL351x_GMAC_PROC_NAME "sl351x_gmac" -+#define SL351x_NAT_PROC_NAME "sl351x_nat" -+#define SL351x_TOE_PROC_NAME "sl351x_toe" -+ -+/*---------------------------------------------------------------------- -+* Function Definition -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_NAT -+static int nat_ct_open(struct inode *inode, struct file *file); -+static void *nat_ct_seq_start(struct seq_file *s, loff_t *pos); -+static void nat_ct_seq_stop(struct seq_file *s, void *v); -+static void *nat_ct_seq_next(struct seq_file *s, void *v, loff_t *pos); -+static int nat_ct_seq_show(struct seq_file *s, void *v); -+#endif -+ -+#ifdef CONFIG_SL351x_RXTOE -+static int toe_ct_open(struct inode *inode, struct file *file); -+static void *toe_ct_seq_start(struct seq_file *s, loff_t *pos); -+static void toe_ct_seq_stop(struct seq_file *s, void *v); -+static void *toe_ct_seq_next(struct seq_file *s, void *v, loff_t *pos); -+static int toe_ct_seq_show(struct seq_file *s, void *v); -+extern int sl351x_get_toe_conn_flag(int index); -+extern struct toe_conn * sl351x_get_toe_conn_info(int index); -+#endif -+ -+static int gmac_ct_open(struct inode *inode, struct file *file); -+static void *gmac_ct_seq_start(struct seq_file *s, loff_t *pos); -+static void gmac_ct_seq_stop(struct seq_file *s, void *v); -+static void *gmac_ct_seq_next(struct seq_file *s, void *v, loff_t *pos); -+static int gmac_ct_seq_show(struct seq_file *s, void *v); -+ -+ -+/*---------------------------------------------------------------------- -+* Data -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SYSCTL -+// static struct ctl_table_header *nat_ct_sysctl_header; -+#endif -+ -+#ifdef CONFIG_SL351x_NAT -+static struct seq_operations nat_ct_seq_ops = { -+ .start = nat_ct_seq_start, -+ .next = nat_ct_seq_next, -+ .stop = nat_ct_seq_stop, -+ .show = nat_ct_seq_show -+}; -+ -+static struct file_operations nat_file_ops= { -+ .owner = THIS_MODULE, -+ .open = nat_ct_open, -+ .read = seq_read, -+ .llseek = seq_lseek, -+ .release = seq_release -+}; -+#endif // CONFIG_SL351x_NAT -+ -+#ifdef CONFIG_SL351x_RXTOE -+static struct seq_operations toe_ct_seq_ops = { -+ .start = toe_ct_seq_start, -+ .next = toe_ct_seq_next, -+ .stop = toe_ct_seq_stop, -+ .show = toe_ct_seq_show -+}; -+ -+static struct file_operations toe_file_ops= { -+ .owner = THIS_MODULE, -+ .open = toe_ct_open, -+ .read = seq_read, -+ .llseek = seq_lseek, -+ .release = seq_release -+}; -+#endif -+ -+static struct seq_operations gmac_ct_seq_ops = { -+ .start = gmac_ct_seq_start, -+ .next = gmac_ct_seq_next, -+ .stop = gmac_ct_seq_stop, -+ .show = gmac_ct_seq_show -+}; -+ -+static struct file_operations gmac_file_ops= { -+ .owner = THIS_MODULE, -+ .open = gmac_ct_open, -+ .read = seq_read, -+ .llseek = seq_lseek, -+ .release = seq_release -+}; -+ -+#ifdef SL351x_GMAC_WORKAROUND -+extern u32 gmac_workaround_cnt[4]; -+extern u32 gmac_short_frame_workaround_cnt[2]; -+#ifdef CONFIG_SL351x_NAT -+ extern u32 sl351x_nat_workaround_cnt; -+#endif -+#endif -+/*---------------------------------------------------------------------- -+* nat_ct_open -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_NAT -+static int nat_ct_open(struct inode *inode, struct file *file) -+{ -+ return seq_open(file, &nat_ct_seq_ops); -+} -+#endif // CONFIG_SL351x_NAT -+/*---------------------------------------------------------------------- -+* nat_ct_seq_start -+* find the first -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_NAT -+static void *nat_ct_seq_start(struct seq_file *s, loff_t *pos) -+{ -+ int i; -+ -+ // proc_printf("%s: *pos=%d\n", __func__, (int)*pos); -+ for (i=*pos; i<HASH_TOTAL_ENTRIES; i++) -+ { -+ if (hash_get_nat_owner_flag(i)) -+ { -+ *pos = i; -+ return (void *)(i+1); -+ } -+ } -+ return NULL; -+} -+#endif // CONFIG_SL351x_NAT -+/*---------------------------------------------------------------------- -+* nat_ct_seq_stop -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_NAT -+static void nat_ct_seq_stop(struct seq_file *s, void *v) -+{ -+} -+#endif // CONFIG_SL351x_NAT -+/*---------------------------------------------------------------------- -+* nat_ct_seq_next -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_NAT -+static void *nat_ct_seq_next(struct seq_file *s, void *v, loff_t *pos) -+{ -+ int i; -+ -+ // proc_printf("%s: *pos=%d\n", __func__, (int)*pos); -+ (*pos)++; -+ for (i=*pos; i<HASH_TOTAL_ENTRIES; i++) -+ { -+ if (hash_get_nat_owner_flag(i)) -+ { -+ *pos = i; -+ return (void *)(i+1); -+ } -+ } -+ return NULL; -+} -+#endif // CONFIG_SL351x_NAT -+/*---------------------------------------------------------------------- -+* nat_ct_seq_show -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_NAT -+static int nat_ct_seq_show(struct seq_file *s, void *v) -+{ -+ int idx; -+ NAT_HASH_ENTRY_T *nat_entry; -+ GRE_HASH_ENTRY_T *gre_entry; -+ -+ idx = (int)v; -+ if (idx<=0 || idx >HASH_TOTAL_ENTRIES) -+ return -ENOSPC; -+ -+ idx--; -+ nat_entry = (NAT_HASH_ENTRY_T *)&hash_tables[idx]; -+ gre_entry = (GRE_HASH_ENTRY_T *)nat_entry; -+ if (nat_entry->key.ip_protocol == IPPROTO_GRE) -+ { -+ if (seq_printf(s, "%4d: KEY MAC-%d [%d] %u.%u.%u.%u [%u]-->%u.%u.%u.%u\n", -+ idx, gre_entry->key.port_id, gre_entry->key.ip_protocol, -+ HIPQUAD(gre_entry->key.sip), ntohs(gre_entry->key.call_id), -+ HIPQUAD(gre_entry->key.dip))) -+ return -ENOSPC; -+ if (seq_printf(s, " PARAMETER: %u.%u.%u.%u -->%u.%u.%u.%u [%u] Timeout:%ds\n", -+ HIPQUAD(gre_entry->param.Sip), -+ HIPQUAD(gre_entry->param.Dip), gre_entry->param.Dport, -+ gre_entry->tmo.counter)) -+ return -ENOSPC; -+ } -+ else -+ { -+ if (seq_printf(s, "%4d: KEY MAC-%d [%d] %u.%u.%u.%u [%u]-->%u.%u.%u.%u [%u]\n", -+ idx, nat_entry->key.port_id, nat_entry->key.ip_protocol, -+ HIPQUAD(nat_entry->key.sip), ntohs(nat_entry->key.sport), -+ HIPQUAD(nat_entry->key.dip), ntohs(nat_entry->key.dport))) -+ return -ENOSPC; -+ if (seq_printf(s, " PARAMETER: %u.%u.%u.%u [%u]-->%u.%u.%u.%u [%u] Timeout:%ds\n", -+ HIPQUAD(nat_entry->param.Sip), nat_entry->param.Sport, -+ HIPQUAD(nat_entry->param.Dip), nat_entry->param.Dport, -+ nat_entry->tmo.counter)) -+ return -ENOSPC; -+ } -+ return 0; -+} -+#endif // CONFIG_SL351x_NAT -+ -+/*---------------------------------------------------------------------- -+* toe_ct_open -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_RXTOE -+static int toe_ct_open(struct inode *inode, struct file *file) -+{ -+ return seq_open(file, &toe_ct_seq_ops); -+} -+#endif -+/*---------------------------------------------------------------------- -+* toe_ct_seq_start -+* find the first -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_RXTOE -+static void *toe_ct_seq_start(struct seq_file *s, loff_t *pos) -+{ -+ int i; -+ -+ // proc_printf("%s: *pos=%d\n", __func__, (int)*pos); -+ for (i=*pos; i<TOE_TOE_QUEUE_NUM; i++) -+ { -+ if (sl351x_get_toe_conn_flag(i)) -+ { -+ *pos = i; -+ return (void *)(i+1); -+ } -+ } -+ return NULL; -+} -+#endif -+/*---------------------------------------------------------------------- -+* toe_ct_seq_stop -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_RXTOE -+static void toe_ct_seq_stop(struct seq_file *s, void *v) -+{ -+} -+#endif -+/*---------------------------------------------------------------------- -+* toe_ct_seq_next -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_RXTOE -+static void *toe_ct_seq_next(struct seq_file *s, void *v, loff_t *pos) -+{ -+ int i; -+ -+ // proc_printf("%s: *pos=%d\n", __func__, (int)*pos); -+ (*pos)++; -+ for (i=*pos; i<TOE_TOE_QUEUE_NUM; i++) -+ { -+ if (sl351x_get_toe_conn_flag(i)) -+ { -+ *pos = i; -+ return (void *)(i+1); -+ } -+ } -+ return NULL; -+} -+#endif -+/*---------------------------------------------------------------------- -+* toe_ct_seq_show -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_SL351x_RXTOE -+static int toe_ct_seq_show(struct seq_file *s, void *v) -+{ -+ int idx; -+ struct toe_conn *toe_entry; -+ -+ idx = (int)v; -+ if (idx<=0 || idx >TOE_TOE_QUEUE_NUM) -+ return -ENOSPC; -+ -+ idx--; -+ toe_entry = (struct toe_conn *)sl351x_get_toe_conn_info(idx); -+ if (!toe_entry) -+ return -ENOSPC; -+ -+ if (seq_printf(s, "%4d: Qid %d MAC-%d TCP %u.%u.%u.%u [%u]-->%u.%u.%u.%u [%u]\n", -+ idx, toe_entry->qid, toe_entry->gmac->port_id, -+ NIPQUAD(toe_entry->saddr[0]), ntohs(toe_entry->source), -+ NIPQUAD(toe_entry->daddr[0]), ntohs(toe_entry->dest))) -+ return -ENOSPC; -+ return 0; -+} -+#endif -+/*---------------------------------------------------------------------- -+* gmac_ct_open -+*----------------------------------------------------------------------*/ -+static int gmac_ct_open(struct inode *inode, struct file *file) -+{ -+ return seq_open(file, &gmac_ct_seq_ops); -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_ct_seq_start -+* find the first -+*----------------------------------------------------------------------*/ -+static void *gmac_ct_seq_start(struct seq_file *s, loff_t *pos) -+{ -+ int i; -+ i = (int)*pos + 1;; -+ -+ if (i > 9) -+ return NULL; -+ else -+ return (void *)i; -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_ct_seq_stop -+*----------------------------------------------------------------------*/ -+static void gmac_ct_seq_stop(struct seq_file *s, void *v) -+{ -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_ct_seq_next -+*----------------------------------------------------------------------*/ -+static void *gmac_ct_seq_next(struct seq_file *s, void *v, loff_t *pos) -+{ -+ int i; -+ -+ // proc_printf("%s: *pos=%d\n", __func__, (int)*pos); -+ -+ (*pos)++; -+ i = (int)*pos + 1;; -+ -+ if (i > 9) -+ return NULL; -+ else -+ return (void *)i; -+} -+ -+/*---------------------------------------------------------------------- -+* seq_dm_long -+*----------------------------------------------------------------------*/ -+static void seq_dm_long(struct seq_file *s, u32 location, int length) -+{ -+ u32 *start_p, *curr_p, *end_p; -+ u32 *datap, data; -+ int i; -+ -+ //if (length > 1024) -+ // length = 1024; -+ -+ start_p = (u32 *)location; -+ end_p = (u32 *)location + length; -+ curr_p = (u32 *)((u32)location & 0xfffffff0); -+ datap = (u32 *)location; -+ while (curr_p < end_p) -+ { -+ cond_resched(); -+ seq_printf(s, "0x%08x: ",(u32)curr_p & 0xfffffff0); -+ for (i=0; i<4; i++) -+ { -+ if (curr_p < start_p || curr_p >= end_p) -+ seq_printf(s, " "); -+ else -+ { -+ data = *datap; -+ seq_printf(s, "%08X ", data); -+ } -+ if (i==1) -+ seq_printf(s, "- "); -+ -+ curr_p++; -+ datap++; -+ } -+ seq_printf(s, "\n"); -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* gmac_ct_seq_show -+*----------------------------------------------------------------------*/ -+static int gmac_ct_seq_show(struct seq_file *s, void *v) -+{ -+ switch ((int)v) -+ { -+ case 1: -+ seq_printf(s, "\nGMAC Global Registers\n"); -+ seq_dm_long(s, TOE_GLOBAL_BASE, 32); -+ break; -+ case 2: -+ seq_printf(s, "\nGMAC Non-TOE Queue Header\n"); -+ seq_dm_long(s, TOE_NONTOE_QUE_HDR_BASE, 12); -+ break; -+ case 3: -+ seq_printf(s, "\nGMAC TOE Queue Header\n"); -+ seq_dm_long(s, TOE_TOE_QUE_HDR_BASE, 12); -+ break; -+ case 4: -+ seq_printf(s, "\nGMAC-0 DMA Registers\n"); -+ seq_dm_long(s, TOE_GMAC0_DMA_BASE, 52); -+ break; -+ case 5: -+ seq_printf(s, "\nGMAC-0 Registers\n"); -+ seq_dm_long(s, TOE_GMAC0_BASE, 32); -+ break; -+ case 6: -+ seq_printf(s, "\nGMAC-1 DMA Registers\n"); -+ seq_dm_long(s, TOE_GMAC1_DMA_BASE, 52); -+ break; -+ case 7: -+ seq_printf(s, "\nGMAC-1 Registers\n"); -+ seq_dm_long(s, TOE_GMAC1_BASE, 32); -+ break; -+ case 8: -+ seq_printf(s, "\nGLOBAL Registers\n"); -+ seq_dm_long(s, GMAC_GLOBAL_BASE_ADDR, 16); -+ break; -+ case 9: -+#ifdef SL351x_GMAC_WORKAROUND -+ seq_printf(s, "\nGMAC-0 Rx/Tx/Short Workaround: %u, %u, %u\n", gmac_workaround_cnt[0], gmac_workaround_cnt[1], gmac_short_frame_workaround_cnt[0]); -+ seq_printf(s, "GMAC-1 Rx/Tx/Short Workaround: %u, %u, %u\n", gmac_workaround_cnt[2], gmac_workaround_cnt[3], gmac_short_frame_workaround_cnt[1]); -+#ifdef CONFIG_SL351x_NAT -+ seq_printf(s, "NAT Workaround: %u\n", sl351x_nat_workaround_cnt); -+#endif -+#endif -+ break; -+ default: -+ return -ENOSPC; -+ } -+ return 0; -+} -+ -+/*---------------------------------------------------------------------- -+* init -+*----------------------------------------------------------------------*/ -+static int __init init(void) -+{ -+ struct proc_dir_entry *proc_gmac=NULL; -+ -+#ifdef CONFIG_SL351x_NAT -+ struct proc_dir_entry *proc_nat=NULL; -+#endif -+ -+#ifdef CONFIG_SL351x_RXTOE -+ struct proc_dir_entry *proc_toe=NULL; -+#endif -+ -+#ifdef CONFIG_SYSCTL -+ // nat_ct_sysctl_header = NULL; -+#endif -+ proc_gmac = proc_net_fops_create(SL351x_GMAC_PROC_NAME, 0440, &gmac_file_ops); -+ if (!proc_gmac) goto init_bad; -+ -+#ifdef CONFIG_SL351x_NAT -+ proc_nat = proc_net_fops_create(SL351x_NAT_PROC_NAME, 0440, &nat_file_ops); -+ if (!proc_nat) goto init_bad; -+#endif // CONFIG_SL351x_NAT -+ -+#ifdef CONFIG_SL351x_RXTOE -+ proc_toe = proc_net_fops_create(SL351x_TOE_PROC_NAME, 0440, &toe_file_ops); -+ if (!proc_toe) goto init_bad; -+#endif -+ -+#ifdef CONFIG_SYSCTL -+ // nat_ct_sysctl_header = register_sysctl_table(nat_ct_net_table, 0); -+ // if (!nat_ct_sysctl_header) goto init_bad; -+#endif -+ -+ return 0; -+ -+init_bad: -+ if (proc_gmac) proc_net_remove(SL351x_GMAC_PROC_NAME); -+ -+#ifdef CONFIG_SL351x_NAT -+ if (proc_nat) proc_net_remove(SL351x_NAT_PROC_NAME); -+#endif -+ -+#ifdef CONFIG_SL351x_RXTOE -+ if (proc_toe) proc_net_remove(SL351x_NAT_PROC_NAME); -+#endif -+ -+#ifdef CONFIG_SYSCTL -+ // if (nat_ct_sysctl_header) unregister_sysctl_table(nat_ct_sysctl_header); -+#endif -+ proc_printf("SL351x NAT Proc: can't create proc or register sysctl.\n"); -+ return -ENOMEM; -+} -+ -+/*---------------------------------------------------------------------- -+* fini -+*----------------------------------------------------------------------*/ -+static void __exit fini(void) -+{ -+ proc_net_remove(SL351x_GMAC_PROC_NAME); -+ -+#ifdef CONFIG_SL351x_NAT -+ proc_net_remove(SL351x_NAT_PROC_NAME); -+#endif -+ -+#ifdef CONFIG_SL351x_RXTOE -+ proc_net_remove(SL351x_TOE_PROC_NAME); -+#endif -+ -+#ifdef CONFIG_SYSCTL -+ // unregister_sysctl_table(nat_ct_sysctl_header); -+#endif -+} -+ -+/*---------------------------------------------------------------------- -+* module -+*----------------------------------------------------------------------*/ -+module_init(init); -+module_exit(fini); -+ -+#endif // CONFIG_PROC_FS ---- /dev/null -+++ b/drivers/net/sl351x_toe.c -@@ -0,0 +1,1083 @@ -+/************************************************************************** -+* Copyright 2006 StorLink Semiconductors, Inc. All rights reserved. -+*-------------------------------------------------------------------------- -+* Name : sl351x_toe.c -+* Description : -+* Provide TOE routines for SL351x -+* -+* History -+* -+* Date Writer Description -+*---------------------------------------------------------------------------- -+* Xiaochong -+* -+****************************************************************************/ -+ -+#include <linux/pci.h> -+#include <linux/ip.h> -+#include <linux/ipv6.h> -+#include <linux/tcp.h> -+#include <linux/slab.h> -+#include <linux/etherdevice.h> -+#include <asm/io.h> -+#include <linux/sysctl_storlink.h> -+#include <net/tcp.h> -+#include <linux/if_ether.h> -+#include <asm/arch/sl351x_gmac.h> -+#include <asm/arch/sl351x_toe.h> -+#include <asm/arch/sl351x_hash_cfg.h> -+#include <asm/arch/sl351x_nat_cfg.h> -+ -+static int in_toe_isr; -+static int toe_initialized=0; -+ -+static struct toe_conn toe_connections[TOE_TOE_QUEUE_NUM]; -+EXPORT_SYMBOL(toe_connections); -+static __u32 toe_connection_bits[TOE_TOE_QUEUE_NUM/32] __attribute__ ((aligned(16))); -+struct sk_buff* gen_pure_ack(struct toe_conn* connection, TOE_QHDR_T* toe_qhdr, INTR_QHDR_T *intr_curr_desc); -+ -+extern struct storlink_sysctl storlink_ctl; -+extern TOE_INFO_T toe_private_data; -+extern spinlock_t gmac_fq_lock; -+extern void mac_write_dma_reg(int mac, unsigned int offset, u32 data); -+extern int mac_set_rule_reg(int mac, int rule, int enabled, u32 reg0, u32 reg1, u32 reg2); -+extern int hash_add_toe_entry(HASH_ENTRY_T *entry); -+extern void toe_gmac_fill_free_q(void); -+ -+#define _DEBUG_SKB_ 1 -+#ifdef _DEBUG_SKB_ -+/*--------------------------------------------------------------------------- -+ * _debug_skb -+ *-------------------------------------------------------------------------*/ -+static inline void _debug_skb(struct sk_buff *skb, GMAC_RXDESC_T *toe_curr_desc, u32 data) -+{ -+ if ((u32)skb < 0x1000) -+ { -+ printk("%s skb=%x\n", __func__, (u32)skb); -+ while(1); -+ } -+ REG32(__va(toe_curr_desc->word2.buf_adr)-SKB_RESERVE_BYTES) = data; -+} -+#else -+#define _debug_skb(x, y, z) -+#endif -+ -+/*--------------------------------------------------------------------------- -+ * get_connection_seq_num -+ *-------------------------------------------------------------------------*/ -+u32 get_connection_seq_num(unsigned short qid) -+{ -+ TOE_QHDR_T *toe_qhdr; -+ -+ toe_qhdr = (TOE_QHDR_T*)TOE_TOE_QUE_HDR_BASE; -+ toe_qhdr += qid; -+ return (u32)toe_qhdr->word3.seq_num; -+} -+EXPORT_SYMBOL(get_connection_seq_num); -+ -+/*--------------------------------------------------------------------------- -+ * get_connection_ack_num -+ *-------------------------------------------------------------------------*/ -+u32 get_connection_ack_num(unsigned short qid) -+{ -+ TOE_QHDR_T *toe_qhdr; -+ -+ toe_qhdr = (TOE_QHDR_T*)TOE_TOE_QUE_HDR_BASE; -+ toe_qhdr += qid; -+ return (u32)toe_qhdr->word4.ack_num; -+} -+EXPORT_SYMBOL(get_connection_ack_num); -+ -+/*--------------------------------------------------------------------------- -+ * dump_toe_qhdr -+ *-------------------------------------------------------------------------*/ -+void dump_toe_qhdr(TOE_QHDR_T *toe_qhdr) -+{ -+ printk("TOE w1 %x, w2 %x, w3 %x\n", toe_qhdr->word1.bits32, -+ toe_qhdr->word2.bits32, toe_qhdr->word3.bits32); -+ printk("w4 %x, w5 %x, w6 %x\n", toe_qhdr->word4.bits32, -+ toe_qhdr->word5.bits32, toe_qhdr->word6.bits32); -+} -+ -+/*--------------------------------------------------------------------------- -+ * dump_intrq_desc -+ *-------------------------------------------------------------------------*/ -+void dump_intrq_desc(INTR_QHDR_T *intr_curr_desc) -+{ -+ printk("INTR w0 %x, w1 %x, seq %x\n", intr_curr_desc->word0.bits32, -+ intr_curr_desc->word1.bits32, intr_curr_desc->word2.bits32); -+ printk("ack %x, w4 %x\n", intr_curr_desc->word3.bits32, -+ intr_curr_desc->word4.bits32); -+} -+ -+/*--------------------------------------------------------------------------- -+ * This routine will initialize a TOE matching rule -+ * called by SL351x GMAC driver. -+ *-------------------------------------------------------------------------*/ -+void sl351x_toe_init(void) -+{ -+ GMAC_MRxCR0_T mrxcr0; -+ GMAC_MRxCR1_T mrxcr1; -+ GMAC_MRxCR2_T mrxcr2; -+ int rule, rc; -+ -+ if (toe_initialized) -+ return; -+ -+ toe_initialized = 1; -+ -+#ifndef CONFIG_SL351x_NAT -+ mrxcr0.bits32 = 0; -+ mrxcr1.bits32 = 0; -+ mrxcr2.bits32 = 0; -+ mrxcr0.bits.l3 = 1; -+ mrxcr0.bits.l4 = 1; -+ mrxcr1.bits.sip = 1; -+ mrxcr1.bits.dip = 1; -+ mrxcr1.bits.l4_byte0_15 = 0x0f; -+ mrxcr0.bits.sprx = 1; -+ rule = 0; -+ rc = mac_set_rule_reg(0, rule, 1, mrxcr0.bits32, mrxcr1.bits32, -+ mrxcr2.bits32); -+ if (rc<0) { -+ printk("%s::Set MAC 0 rule fail!\n", __func__); -+ } -+ rc = mac_set_rule_reg(1, rule, 1, mrxcr0.bits32, mrxcr1.bits32, -+ mrxcr2.bits32); -+ if (rc<0) { -+ printk("%s::Set MAC 1 rule fail!\n", __func__); -+ } -+#endif // CONFIG_SL351x_NAT -+} -+ -+/*--------------------------------------------------------------------------- -+ * dump_intrq_desc -+ * assign an interrupt queue number to a give tcp queue -+ *-------------------------------------------------------------------------*/ -+int get_interrupt_queue_id(int tcp_qid) -+{ -+ return (int)(tcp_qid & 0x0003); -+} -+ -+/*--------------------------------------------------------------------------- -+ * reset_connection_index -+ * reset the connection bit by given index -+ *-------------------------------------------------------------------------*/ -+void reset_connection_index(__u8 index) -+{ -+ __u32 mask = ~(0xffffffff & (1<< (index&0x1f))); -+ toe_connection_bits[index>>5] = toe_connection_bits[index>>5] & mask; -+} -+ -+/*--------------------------------------------------------------------------- -+ * update_timer -+ *-------------------------------------------------------------------------*/ -+void update_timer(struct toe_conn* connection) -+{ -+// if (time_before(jiffies, connection->last_rx_jiffies+3)) -+// if ((jiffies + 0xffffffff - connection->last_rx_jiffies) & 0x3) -+// if (connection->last_rx_jiffies > jiffies) -+// printk("%s::jif %g, last_rx_jif %g\n", __func__, jiffies, connection->last_rx_jiffies); -+/* if ((long)(jiffies + 2)< 3) { // overflow... -+ printk("%s::jiffies %x\n", __func__, jiffies); -+ } */ -+// if ((long)(jiffies - connection->last_rx_jiffies)< 2) -+// return; -+ connection->last_rx_jiffies = jiffies; -+ // gary chen mod_timer(&connection->rx_timer, jiffies+2); -+ connection->rx_timer.expires = jiffies + 2; -+ add_timer(&connection->rx_timer); -+// printk("%s::nt %x, lj %x\n", __func__, (jiffies+2), connection->last_rx_jiffies); -+} -+ -+/*--------------------------------------------------------------------------- -+ * gen_pure_ack -+ *-------------------------------------------------------------------------*/ -+struct sk_buff* gen_pure_ack(struct toe_conn* connection, TOE_QHDR_T* toe_qhdr, -+INTR_QHDR_T *intr_curr_desc) -+{ -+ struct sk_buff *skb; -+ struct iphdr *ip_hdr; -+ struct tcphdr *tcp_hdr; -+ struct ethhdr *eth_hdr; -+ -+ if ((skb= dev_alloc_skb(RX_BUF_SIZE))==NULL) { -+ printk("%s::alloc pure ack fail!\n", __func__); -+ return NULL; -+ } -+ skb_reserve(skb, RX_INSERT_BYTES); -+ memset(skb->data, 0, 60); -+ -+ eth_hdr = (struct ethhdr*)&(skb->data[0]); -+ memcpy(eth_hdr, &connection->l2_hdr, sizeof(struct ethhdr)); -+ -+ ip_hdr = (struct iphdr*)&(skb->data[14]); -+ ip_hdr->version = connection->ip_ver; -+ ip_hdr->ihl = 20>>2; -+ ip_hdr->tot_len = ntohs(40); -+ ip_hdr->frag_off = htons(IP_DF); -+ ip_hdr->ttl = 128; -+ ip_hdr->protocol = 0x06; -+ ip_hdr->saddr = connection->saddr[0]; -+ ip_hdr->daddr = connection->daddr[0]; -+// printk("%s ip sa %x, da %x\n", -+// __func__, ntohl(ip_hdr->saddr), ntohl(ip_hdr->daddr)); -+ -+ tcp_hdr = (struct tcphdr*)&(skb->data[34]); -+ tcp_hdr->source = connection->source; -+ tcp_hdr->dest = connection->dest; -+ if (intr_curr_desc) { -+ tcp_hdr->seq = htonl(intr_curr_desc->word2.seq_num); -+ tcp_hdr->ack_seq = htonl(intr_curr_desc->word3.ack_num); -+ tcp_hdr->window = htons(intr_curr_desc->word0.bits.win_size); -+ } else { -+ tcp_hdr->seq = htonl(toe_qhdr->word3.seq_num); -+ tcp_hdr->ack_seq = htonl(toe_qhdr->word4.ack_num); -+ tcp_hdr->window = htons(toe_qhdr->word6.bits.WinSize); -+ } -+ tcp_hdr->ack = 1; -+ tcp_hdr->doff = 20 >> 2; -+#if 0 -+ if (!intr_curr_desc) { -+ unsigned char byte; -+ for (i=0; i<20; i++) { -+ byte = skb->data[34+i]; -+ printk("%x ", byte); -+ } -+ printk("\n"); -+ } -+#endif -+ TCP_SKB_CB(skb)->connection = connection; -+ return skb; -+} -+ -+/*--------------------------------------------------------------------------- -+ * connection_rx_timer -+ *-------------------------------------------------------------------------*/ -+void connection_rx_timer(unsigned long *data) -+{ -+ struct toe_conn *connection = (struct toe_conn*)data; -+ unsigned int tcp_qid, toeq_wptr; -+ unsigned int pkt_size, desc_count; -+ struct sk_buff *skb; -+ GMAC_RXDESC_T *toe_curr_desc; -+ TOE_QHDR_T *toe_qhdr; -+ struct net_device *dev; -+ unsigned long conn_flags; -+ DMA_RWPTR_T toeq_rwptr; -+ unsigned short timeout_descs; -+ -+ if (in_toe_isr) -+ printk("%s::in_toe_isr=%d!\n", __func__, in_toe_isr); -+ -+ if (connection) { -+ /* should we disable gmac interrupt first? */ -+ if (!connection->gmac) -+ printk("%s::conn gmac %x!\n", __func__, (u32)connection->gmac); -+ local_irq_save(conn_flags); -+ if (!spin_trylock(&connection->conn_lock)) { -+ local_irq_restore(conn_flags); -+ // timer should be updated by the toeq isr. So no need to update here. -+ printk("%s::conn_lock is held by ISR!\n", __func__); -+ return; -+ } -+ disable_irq(connection->gmac->irq); -+ -+ /* disable hash entry and get toeq desc. */ -+ hash_set_valid_flag(connection->hash_entry_index, 0); -+ do{} while(0); /* wait until HW finish */ -+ -+ dev = connection->dev; -+ if (!dev) -+ printk("%s::conn dev NULL!\n", __func__); -+ tcp_qid = connection->qid; -+ toe_qhdr = (TOE_QHDR_T *)(TOE_TOE_QUE_HDR_BASE + -+ tcp_qid * sizeof(TOE_QHDR_T)); -+ toeq_rwptr.bits32 = readl(&toe_qhdr->word1); -+ toeq_wptr = toe_qhdr->word1.bits.wptr; -+ timeout_descs = toeq_wptr - toeq_rwptr.bits.rptr; -+ -+ if (toeq_rwptr.bits.rptr == toeq_wptr) { -+ if (toe_qhdr->word5.bits32) { -+ // shall we check toe_qhdr->word2.bits? -+ skb = gen_pure_ack(connection, toe_qhdr, (INTR_QHDR_T *)NULL); -+ skb_put(skb, 54); -+ skb->dev = connection->dev; -+ skb->ip_summed = CHECKSUM_UNNECESSARY; -+ skb->protocol = eth_type_trans(skb, connection->dev); -+ netif_rx(skb); -+ connection->dev->last_rx = jiffies; -+ } -+ } else { -+ while (toeq_rwptr.bits.rptr != toeq_rwptr.bits.wptr) { -+ /* we just simply send those packets to tcp? */ -+ toe_curr_desc = (GMAC_RXDESC_T*)(toe_private_data.toe_desc_base[tcp_qid] -+ + toeq_rwptr.bits.rptr * sizeof(GMAC_RXDESC_T)); -+ connection->curr_desc = toe_curr_desc; -+ if (toe_curr_desc->word3.bits.ctrl_flag) { -+ printk("%s::ctrl flag! %x, conn rptr %d, to %d, jif %x, conn_jif %x\n", -+ __func__, toe_curr_desc->word3.bits32, -+ connection->toeq_rwptr.bits.rptr, timeout_descs, -+ (u32)jiffies, (u32)connection->last_rx_jiffies); -+ } -+ desc_count = toe_curr_desc->word0.bits.desc_count; -+ pkt_size = toe_curr_desc->word1.bits.byte_count; -+ consistent_sync((void*)__va(toe_curr_desc->word2.buf_adr), pkt_size, -+ PCI_DMA_FROMDEVICE); -+ skb = (struct sk_buff*)(REG32(__va(toe_curr_desc->word2.buf_adr)- -+ SKB_RESERVE_BYTES)); -+ _debug_skb(skb, (GMAC_RXDESC_T *)toe_curr_desc, 0x02); -+ connection->curr_rx_skb = skb; -+ skb_reserve(skb, RX_INSERT_BYTES); -+ skb_put(skb, pkt_size); -+ skb->dev = dev; -+ skb->protocol = eth_type_trans(skb, dev); -+ { -+ struct iphdr* ip_hdr = (struct iphdr*)&(skb->data[0]); -+ if (toe_curr_desc->word3.bits.ctrl_flag) -+ printk("%s::ip id %x\n", __func__, ntohs(ip_hdr->id)); -+ } -+ skb->ip_summed = CHECKSUM_UNNECESSARY; -+ -+ netif_rx(skb); -+ dev->last_rx = jiffies; -+#if 0 -+ if ((skb = dev_alloc_skb(RX_BUF_SIZE)) == NULL) { -+ printk("%s::alloc buf fail!\n", __func__); -+ } -+ *(unsigned int*)(skb->data) = (unsigned int)skb; -+ connection->curr_rx_skb = skb; -+ skb_reserve(skb, SKB_RESERVE_BYTES); -+ spin_lock_irqsave(&connection->gmac->rx_mutex, flags); -+ fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ if (toe_private_data.fq_rx_rwptr.bits.wptr != fq_rwptr.bits.wptr) { -+ mac_stop_txdma((struct net_device*)connection->dev); -+ spin_unlock_irqrestore(&connection->gmac->rx_mutex, flags); -+ while(1); -+ } -+ fq_desc = (GMAC_RXDESC_T*)toe_private_data.swfq_desc_base + fq_rwptr.bits.wptr; -+ fq_desc->word2.buf_adr = (unsigned int)__pa(skb->data); -+ fq_rwptr.bits.wptr = RWPTR_ADVANCE_ONE(fq_rwptr.bits.wptr, TOE_SW_FREEQ_DESC_NUM); -+ SET_WPTR(TOE_GLOBAL_BASE+GLOBAL_SWFQ_RWPTR_REG, fq_rwptr.bits.wptr); -+ toe_private_data.fq_rx_rwptr.bits32 = fq_rwptr.bits32; -+ spin_unlock_irqrestore(&connection->gmac->rx_mutex, flags); -+#endif -+// spin_lock_irqsave(&connection->gmac->rx_mutex, flags); -+ toeq_rwptr.bits.rptr = RWPTR_ADVANCE_ONE(toeq_rwptr.bits.rptr, TOE_TOE_DESC_NUM); -+ SET_RPTR(&toe_qhdr->word1, toeq_rwptr.bits.rptr); -+// spin_unlock_irqrestore(&connection->gmac->rx_mutex, flags); -+ connection->toeq_rwptr.bits32 = toeq_rwptr.bits32; -+ } -+ toeq_rwptr.bits32 = readl(&toe_qhdr->word1); -+// toe_gmac_fill_free_q(); -+ } -+ connection->last_rx_jiffies = jiffies; -+ if (connection->status != TCP_CONN_CLOSED) -+ mod_timer(&connection->rx_timer, jiffies+2); -+ if (connection->status != TCP_CONN_ESTABLISHED) -+ printk("%s::conn status %x\n", __func__, connection->status); -+ hash_set_valid_flag(connection->hash_entry_index, 1); -+ enable_irq(connection->gmac->irq); -+ // Gary Chen spin_unlock_irqrestore(&connection->conn_lock, conn_flags); -+ } -+} -+ -+/*--------------------------------------------------------------------------- -+ * free_toeq_descs -+ *-------------------------------------------------------------------------*/ -+void free_toeq_descs(int qid, TOE_INFO_T *toe) -+{ -+ void *desc_ptr; -+ -+ desc_ptr = (void*)toe->toe_desc_base[qid]; -+ pci_free_consistent(NULL, TOE_TOE_DESC_NUM*sizeof(GMAC_RXDESC_T), desc_ptr, -+ (dma_addr_t)toe->toe_desc_base_dma[qid]); -+ toe->toe_desc_base[qid] = 0; -+} -+ -+/*--------------------------------------------------------------------------- -+ * set_toeq_hdr -+ *-------------------------------------------------------------------------*/ -+void set_toeq_hdr(struct toe_conn* connection, TOE_INFO_T* toe, struct net_device *dev) -+{ -+ volatile TOE_QHDR_T *toe_qhdr; -+ volatile unsigned int toeq_wptr; // toeq_rptr -+ volatile GMAC_RXDESC_T *toe_curr_desc; -+ struct sk_buff *skb; -+ unsigned int pkt_size; -+ DMA_RWPTR_T toeq_rwptr; -+ -+ if (connection->status == TCP_CONN_CLOSING) { -+ connection->status = TCP_CONN_CLOSED; -+ hash_set_valid_flag(connection->hash_entry_index, 0); -+ // remove timer first. -+ // del_timer_sync(&(connection->rx_timer)); -+ // check if any queued frames last time. -+ toe_qhdr = (volatile TOE_QHDR_T*)TOE_TOE_QUE_HDR_BASE; -+ toe_qhdr += connection->qid; -+ toeq_rwptr.bits32 = readl(&toe_qhdr->word1); -+ -+ //toeq_rptr = toe_qhdr->word1.bits.rptr; -+ toeq_wptr = toe_qhdr->word1.bits.wptr; -+ while (toeq_rwptr.bits.rptr != toeq_wptr) { -+ printk("%s::pending frames in TOE Queue before closing!\n", __func__); -+ toe_curr_desc = (GMAC_RXDESC_T*)(toe->toe_desc_base[connection->qid] + -+ toe_qhdr->word1.bits.rptr*sizeof(GMAC_RXDESC_T)); -+ connection->curr_desc = (GMAC_RXDESC_T *)toe_curr_desc; -+ pkt_size = toe_curr_desc->word1.bits.byte_count; -+ consistent_sync((void*)__va(toe_curr_desc->word2.buf_adr), pkt_size, -+ PCI_DMA_FROMDEVICE); -+ skb = (struct sk_buff*)(REG32(__va(toe_curr_desc->word2.buf_adr) - -+ SKB_RESERVE_BYTES)); -+ _debug_skb(skb, (GMAC_RXDESC_T *)toe_curr_desc, 0x03); -+ connection->curr_rx_skb = skb; -+ skb_reserve(skb, RX_INSERT_BYTES); -+ skb_put(skb, pkt_size); -+ skb->dev = connection->dev; -+ skb->protocol = eth_type_trans(skb, connection->dev); -+ skb->ip_summed = CHECKSUM_UNNECESSARY; -+ netif_rx(skb); -+ connection->dev->last_rx = jiffies; -+ -+ toeq_rwptr.bits.rptr = RWPTR_ADVANCE_ONE(toeq_rwptr.bits.rptr, TOE_TOE_DESC_NUM); -+ SET_RPTR(&toe_qhdr->word1, toeq_rwptr.bits.rptr); -+ } -+ free_toeq_descs(connection->qid, toe); -+ // shall we re-fill free queue? -+ -+ reset_connection_index(connection->qid); -+ //memset(connection, 0, sizeof(struct toe_conn)); -+ printk(" del timer and close connection %x, qid %d\n", (u32)connection, connection->qid); -+ return; -+ } -+ /* enable or setup toe queue header */ -+ if (connection->status == TCP_CONN_CONNECTING && storlink_ctl.rx_max_pktsize) { -+ volatile TOE_QHDR_T *qhdr; -+ int iq_id; -+ connection->status = TCP_CONN_ESTABLISHED; -+ qhdr = (volatile TOE_QHDR_T*)((unsigned int)TOE_TOE_QUE_HDR_BASE + -+ connection->qid * sizeof(TOE_QHDR_T)); -+ -+ iq_id = get_interrupt_queue_id(connection->qid); -+ connection->dev = dev; -+ connection->gmac = dev->priv; -+ connection->toeq_rwptr.bits32 = 0; -+ -+// qhdr->word6.bits.iq_num = iq_id; -+ qhdr->word6.bits.MaxPktSize = (connection->max_pktsize)>>2; // in word. -+ qhdr->word7.bits.AckThreshold = connection->ack_threshold; -+ qhdr->word7.bits.SeqThreshold = connection->seq_threshold; -+ -+ // init timer. -+#if 1 -+ init_timer(&connection->rx_timer); -+ connection->rx_timer.expires = jiffies + 5; -+ connection->rx_timer.data = (unsigned long)connection; -+ connection->rx_timer.function = (void *)&connection_rx_timer; -+ add_timer(&connection->rx_timer); -+ connection->last_rx_jiffies = jiffies; -+ printk("init_timer %x\n", (u32)jiffies); -+#endif -+ hash_set_valid_flag(connection->hash_entry_index, 1); -+ return; -+ } else { -+ printk("%s::conn status %x, rx_pktsize %d\n", -+ __func__, connection->status, storlink_ctl.rx_max_pktsize); -+ } -+} -+ -+/*--------------------------------------------------------------------------- -+ * get_connection_index -+ * get_connection_index will find an available index for the connection, -+ * when allocate a new connection is needed. -+ * we find available Qid from AV bits and write to hash_table, so that when RxTOE -+ * packet is received, sw_id from ToeQ descriptor is also the Qid of conneciton Q. -+ *-------------------------------------------------------------------------*/ -+int get_connection_index(void) -+{ -+ int i=0, j=0, index=-1; -+ __u32 connection_bits; -+ -+ for (i = 0; i< TOE_TOE_QUEUE_NUM/32; i++) { -+ connection_bits = ~(toe_connection_bits[i]); -+ if (connection_bits == 0) -+ // all 32 bits are used. -+ continue; -+ -+ for (j=0; j<32; j++) { -+ if (connection_bits & 0x01) { -+ index = i*32 + j; -+ return index; -+ } -+ connection_bits = connection_bits >> 1; -+ } -+ } -+ return index; -+} -+ -+/*--------------------------------------------------------------------------- -+ * set_toe_connection -+ *-------------------------------------------------------------------------*/ -+void set_toe_connection(int index, int val) -+{ -+ if (val) { -+ toe_connection_bits[index/32] |= (1<<(index%32)); -+ } else { -+ toe_connection_bits[index/32] &= (~(1<<(index%32))); -+ } -+} -+ -+/*--------------------------------------------------------------------------- -+ * sl351x_get_toe_conn_flag -+ *-------------------------------------------------------------------------*/ -+int sl351x_get_toe_conn_flag(int index) -+{ -+ if (index < TOE_TOE_QUEUE_NUM) -+ return (toe_connection_bits[index/32] & (1 << (index %32))); -+ else -+ return 0; -+} -+ -+/*--------------------------------------------------------------------------- -+ * sl351x_get_toe_conn_info -+ *-------------------------------------------------------------------------*/ -+struct toe_conn * sl351x_get_toe_conn_info(int index) -+{ -+ if (index < TOE_TOE_QUEUE_NUM) -+ return (struct toe_conn *)&toe_connections[index]; -+ else -+ return NULL; -+} -+ -+/*--------------------------------------------------------------------------- -+ * create_sw_toe_connection -+ *-------------------------------------------------------------------------*/ -+struct toe_conn* create_sw_toe_connection(int qid, int ip_ver, void* ip_hdr, -+ struct tcphdr* tcp_hdr) -+{ -+ struct toe_conn* connection = &(toe_connections[qid]); -+ -+ connection->ip_ver = (__u8)ip_ver; -+ connection->qid = (__u8)qid; -+ connection->source = (__u16)tcp_hdr->source; -+ connection->dest = (__u16)tcp_hdr->dest; -+ if (ip_ver == 4) { -+ struct iphdr* iph = (struct iphdr*) ip_hdr; -+ connection->saddr[0] = (__u32)iph->saddr; -+ connection->daddr[0] = (__u32)iph->daddr; -+// printk("%s::saddr %x, daddr %x\n", __func__, -+// ntohl(connection->saddr[0]), ntohl(connection->daddr[0])); -+ } else if (ip_ver == 6) { -+ struct ipv6hdr *iph = (struct ipv6hdr*)ip_hdr; -+ int i=0; -+ for (i=0; i<4; i++) { -+ connection->saddr[i] = (__u32)iph->saddr.in6_u.u6_addr32[i]; -+ connection->daddr[i] = (__u32)iph->daddr.in6_u.u6_addr32[i]; -+ } -+ } -+ connection->status = TCP_CONN_CREATION; -+ return connection; -+} -+ -+/*--------------------------------------------------------------------------- -+ * fill_toeq_buf -+ *-------------------------------------------------------------------------*/ -+int fill_toeq_buf(int index, TOE_INFO_T* toe) -+{ -+ volatile TOE_QHDR_T *qhdr; -+ //struct toe_conn* connection; -+ GMAC_RXDESC_T *desc_ptr; -+ -+ if (!toe->toe_desc_base[index]) { -+ // first time. init. -+ desc_ptr = (GMAC_RXDESC_T*)(pci_alloc_consistent(NULL, TOE_TOE_DESC_NUM -+ *sizeof(GMAC_RXDESC_T), (dma_addr_t*)&toe->toe_desc_base_dma[index])); -+ -+ toe->toe_desc_num = TOE_TOE_DESC_NUM; -+ toe->toe_desc_base[index] = (unsigned int)desc_ptr; -+ } -+ qhdr = (volatile TOE_QHDR_T*)((unsigned int)TOE_TOE_QUE_HDR_BASE + -+ index*sizeof(TOE_QHDR_T)); -+ //connection = (struct toe_conn*)&(toe_connections[index]); -+ -+ qhdr->word0.base_size = ((unsigned int)toe->toe_desc_base_dma[index]&TOE_QHDR0_BASE_MASK) -+ | TOE_TOE_DESC_POWER; -+ qhdr->word1.bits32 = 0; -+ qhdr->word2.bits32 = 0; -+ qhdr->word3.bits32 = 0; -+ qhdr->word4.bits32 = 0; -+ qhdr->word5.bits32 = 0; -+ return 1; -+} -+ -+/*--------------------------------------------------------------------------- -+ * create_toe_hash_entry_smb -+ * add SMB header in hash entry. -+ *-------------------------------------------------------------------------*/ -+int create_toe_hash_entry_smb(int ip_ver, void* ip_hdr, struct tcphdr* tcp_hdr, -+ int sw_id) -+{ -+ HASH_ENTRY_T hash_entry, *entry; -+ int hash_entry_index; -+ int i; -+ -+ entry = (HASH_ENTRY_T*)&hash_entry; -+ memset((void*)entry, 0, sizeof(HASH_ENTRY_T)); -+ entry->rule = 0; -+ -+ /* enable fields of hash key */ -+ entry->key_present.ip_protocol = 1; -+ entry->key_present.sip = 1; -+ entry->key_present.dip = 1; -+ entry->key_present.l4_bytes_0_3 = 1; // src port and dest port -+ entry->key_present.l7_bytes_0_3 = 0; // do we need to enable NETBIOS? how? -+ entry->key_present.l7_bytes_4_7 = 1; // "SMB" header -+ -+ /* hash key */ -+ entry->key.ip_protocol = IPPROTO_TCP; -+ if (ip_ver == 4) { -+ struct iphdr *iph = (struct iphdr*)ip_hdr; -+ memcpy(entry->key.sip, &iph->saddr, 4); -+ memcpy(entry->key.dip, &iph->daddr, 4); -+ } else if (ip_ver == 6) { -+ struct ipv6hdr *iph = (struct ipv6hdr*)ip_hdr; -+ for (i=0; i<4; i++) { -+ memcpy(&(entry->key.sip[i*4]), &(iph->saddr.in6_u.u6_addr32[i]), 4); -+ memcpy(&(entry->key.dip[i*4]), &(iph->daddr.in6_u.u6_addr32[i]), 4); -+ } -+ } -+ *(__u16*)&entry->key.l4_bytes[0] = tcp_hdr->source; -+ *(__u16*)&entry->key.l4_bytes[2] = tcp_hdr->dest; -+ -+ entry->key.l7_bytes[4] = 0xff; -+ entry->key.l7_bytes[5] = 0x53; -+ entry->key.l7_bytes[6] = 0x4d; -+ entry->key.l7_bytes[7] = 0x42; -+ -+ /* action of hash entry match */ -+ entry->action.sw_id = 1; -+ entry->action.dest_qid = (__u8)TOE_TOE_QID(sw_id); -+ entry->action.srce_qid = 0; -+ hash_entry_index = hash_add_toe_entry(entry); -+ -+ return hash_entry_index; -+} -+ -+// best performance of tcp streaming. -+/*--------------------------------------------------------------------------- -+ * create_toe_hash_entry_smb -+ * add SMB header in hash entry. -+ *-------------------------------------------------------------------------*/ -+int create_toe_hash_entry_ftp(int ip_ver, void* ip_hdr, struct tcphdr* tcphdr) -+{ -+ return 0; -+} -+ -+// is hash entry for nfs needed? -+ -+/* -+ * Create a TOE hash entry by given ip addresses and tcp port numbers. -+ * hash entry index will be saved in sw connection. -+ */ -+/*--------------------------------------------------------------------------- -+ * create_toe_hash_entry -+ *-------------------------------------------------------------------------*/ -+int create_toe_hash_entry(int ip_ver, void* ip_hdr, struct tcphdr* tcp_hdr, int sw_id) -+{ -+ HASH_ENTRY_T hash_entry, *entry; -+// unsigned long hash_key[HASH_MAX_DWORDS]; -+ int hash_entry_index; -+ -+ entry = (HASH_ENTRY_T*) &hash_entry; -+ memset((void*)entry, 0, sizeof(HASH_ENTRY_T)); -+ entry->rule = 0; -+ /* enable fields of hash key */ -+ entry->key_present.ip_protocol = 1; -+ entry->key_present.sip = 1; -+ entry->key_present.dip = 1; -+ entry->key_present.l4_bytes_0_3 = 1; // src port and dest port -+ -+ /* hash key */ -+ entry->key.ip_protocol = IPPROTO_TCP; -+ if (ip_ver == 4) { -+ // key of ipv4 -+ struct iphdr* iph = (struct iphdr*)ip_hdr; -+ memcpy(entry->key.sip, &iph->saddr, 4); -+ memcpy(entry->key.dip, &iph->daddr, 4); -+ } else if (ip_ver == 6) { -+ // key of ipv6 -+ int i=0; -+ struct ipv6hdr *iph = (struct ipv6hdr*)ip_hdr; -+ for (i=0; i<4; i++) { -+ memcpy(&(entry->key.sip[i*4]), &(iph->saddr.in6_u.u6_addr32[i]), 4); -+ memcpy(&(entry->key.dip[i*4]), &(iph->daddr.in6_u.u6_addr32[i]), 4); -+ } -+ } -+ *(__u16*)&entry->key.l4_bytes[0] = tcp_hdr->source; -+ *(__u16*)&entry->key.l4_bytes[2] = tcp_hdr->dest; -+ // is it necessary to write ip version to hash key? -+ -+ /* action of hash entry match */ -+ entry->action.sw_id = 1; -+ entry->action.dest_qid = (__u8)TOE_TOE_QID(sw_id); -+ entry->action.srce_qid = 0; // 0 for SW FreeQ. 1 for HW FreeQ. -+ hash_entry_index = hash_add_toe_entry(entry); -+// printk("\n%s. sw_id %d, hash_entry index %x\n", -+// __func__, TOE_TOE_QID(sw_id), hash_entry_index); -+ return hash_entry_index; -+} -+ -+/*--------------------------------------------------------------------------- -+ * init_toeq -+ * 1. Reserve a TOE Queue id first, to get the sw toe_connection. -+ * 2. Setup the hash entry with given iphdr and tcphdr, save hash entry index -+ * in sw toe_connection. -+ * 3. Prepare sw toe_connection and allocate buffers. -+ * 4. Validate hash entry. -+ *-------------------------------------------------------------------------*/ -+struct toe_conn* init_toeq(int ipver, void* iph, struct tcphdr* tcp_hdr, -+ TOE_INFO_T* toe, unsigned char* l2hdr) -+{ -+// printk("\t*** %s, ipver %d\n", __func__, ipver); -+ int qid=-1; -+ struct toe_conn* connection; -+ int hash_entry_index; -+ // int i=0; -+ unsigned short dest_port = ntohs(tcp_hdr->dest); -+ -+ if (dest_port == 445) { -+ printk("%s::SMB/CIFS connection\n", __func__); -+ } else if (dest_port == 20) { -+ printk("%s::ftp-data connection\n", __func__); -+ } else if (dest_port == 2049) { -+ printk("%s::nfs daemon connection\n", __func__); -+ } -+ qid = get_connection_index(); -+ if (qid<0) -+ return 0; // setup toeq failure -+ set_toe_connection(qid, 1); // reserve this sw toeq. -+ -+ //connection = (struct toe_conn*)&(toe_connections[qid]); -+ hash_entry_index = create_toe_hash_entry(ipver, iph, tcp_hdr, qid); -+ if (hash_entry_index <0) { -+ printk("%s::release toe hash entry!\n", __func__); -+ set_toe_connection(qid, 0); // release this sw toeq. -+ return 0; -+ } -+ connection = create_sw_toe_connection(qid, ipver, iph, tcp_hdr); -+ connection->hash_entry_index = (__u16) hash_entry_index; -+ -+ fill_toeq_buf(qid, toe); -+ memcpy(&connection->l2_hdr, l2hdr, sizeof(struct ethhdr)); -+ spin_lock_init(&connection->conn_lock); -+ -+ return connection; -+} -+ -+#if 0 -+/*---------------------------------------------------------------------- -+* toe_init_toe_queue -+* (1) Initialize the TOE Queue Header -+* Register: TOE_TOE_QUE_HDR_BASE (0x60003000) -+* (2) Initialize Descriptors of TOE Queues -+*----------------------------------------------------------------------*/ -+void toe_init_toe_queue(TOE_INFO_T* toe) -+{ -+} -+EXPORT_SYMBOL(toe_init_toe_queue); -+#endif -+ -+/*--------------------------------------------------------------------------- -+ * dump_jumbo_skb -+ *-------------------------------------------------------------------------*/ -+void dump_jumbo_skb(struct jumbo_frame *jumbo_skb) -+{ -+ if (jumbo_skb->skb0) { -+// printk("%s. jumbo skb %x, len %d\n", -+// __func__, jumbo_skb->skb0->data, jumbo_skb->skb0->len); -+ netif_rx(jumbo_skb->skb0); -+ } -+ jumbo_skb->skb0 = 0; -+ jumbo_skb->tail = 0; -+ jumbo_skb->iphdr0 = 0; -+ jumbo_skb->tcphdr0 = 0; -+} -+ -+/* --------------------------------------------------------------------- -+ * Append skb to skb0. skb0 is the jumbo frame that will be passed to -+ * kernel tcp. -+ * --------------------------------------------------------------------*/ -+void rx_append_skb(struct jumbo_frame *jumbo_skb, struct sk_buff* skb, int payload_len) -+{ -+ struct iphdr* iphdr0 = (struct iphdr*)&(skb->data[0]); -+ int ip_hdrlen = iphdr0->ihl << 2; -+ struct tcphdr* tcphdr0 = (struct tcphdr*)&(skb->data[ip_hdrlen]); -+ -+ if (!jumbo_skb->skb0) { -+ // head of the jumbo frame. -+ jumbo_skb->skb0 = skb; -+ jumbo_skb->tail = 0; -+ jumbo_skb->iphdr0 = iphdr0; -+ jumbo_skb->tcphdr0 = tcphdr0; -+ } else { -+ if (!jumbo_skb->tail) -+ skb_shinfo(jumbo_skb->skb0)->frag_list = skb; -+ else -+ (jumbo_skb->tail)->next = skb; -+ jumbo_skb->tail = skb; -+ -+ // do we need to change truesize as well? -+ jumbo_skb->skb0->len += payload_len; -+ jumbo_skb->skb0->data_len += payload_len; -+ -+ jumbo_skb->iphdr0->tot_len = htons(ntohs(jumbo_skb->iphdr0->tot_len)+payload_len); -+ jumbo_skb->tcphdr0->ack_seq = tcphdr0->ack_seq; -+ jumbo_skb->tcphdr0->window = tcphdr0->window; -+ -+ skb->len += payload_len; -+ skb->data_len = 0; -+ skb->data += ntohs(iphdr0->tot_len) - payload_len; -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* toe_gmac_handle_toeq -+* (1) read interrupt Queue to get TOE Q. -+* (2) get packet fro TOE Q and send to upper layer handler. -+* (3) allocate new buffers and put to TOE Q. Intr Q buffer is recycled. -+*----------------------------------------------------------------------*/ -+void toe_gmac_handle_toeq(struct net_device *dev, GMAC_INFO_T* tp, __u32 status) -+{ -+ //volatile INTRQ_INFO_T *intrq_info; -+ //TOEQ_INFO_T *toeq_info; -+ volatile NONTOE_QHDR_T *intr_qhdr; -+ volatile TOE_QHDR_T *toe_qhdr; -+ volatile INTR_QHDR_T *intr_curr_desc; -+ TOE_INFO_T *toe = &toe_private_data; -+ -+ volatile GMAC_RXDESC_T *toe_curr_desc; // , *fq_desc;// *tmp_desc; -+ volatile DMA_RWPTR_T intr_rwptr, toeq_rwptr; // fq_rwptr; -+ -+ unsigned int pkt_size, desc_count, tcp_qid; -+ volatile unsigned int toeq_wptr; -+ struct toe_conn* connection; -+ int i, frag_id = 0; -+ // unsigned long toeq_flags; -+ struct jumbo_frame jumbo_skb; -+ struct sk_buff *skb; -+ __u32 interrupt_status; -+ -+ in_toe_isr++; -+ -+ interrupt_status = status >> 24; -+ // get interrupt queue header -+ intr_qhdr = (volatile NONTOE_QHDR_T*)TOE_INTR_Q_HDR_BASE; -+ memset(&jumbo_skb, 0, sizeof(struct jumbo_frame)); -+ -+ for (i=0; i<TOE_INTR_QUEUE_NUM; i++, intr_qhdr++) { -+ if (!(interrupt_status & 0x0001)) { -+ // no interrupt of this IntQ -+ interrupt_status = interrupt_status >> 1; -+ continue; -+ } -+ interrupt_status = interrupt_status >> 1; -+ intr_rwptr.bits32 = readl(&intr_qhdr->word1); -+ -+ while ( intr_rwptr.bits.rptr != intr_rwptr.bits.wptr) { -+ int max_pktsize = 1; -+ // get interrupt queue descriptor. -+ intr_curr_desc = (INTR_QHDR_T*)toe->intr_desc_base + -+ i* TOE_INTR_DESC_NUM + intr_rwptr.bits.rptr; -+// printk("%s::int %x\n", __func__, intr_curr_desc->word1.bits32); -+ // get toeq id -+ tcp_qid = (u8)intr_curr_desc->word1.bits.tcp_qid - (u8)TOE_TOE_QID(0); -+ // get toeq queue header -+ toe_qhdr = (volatile TOE_QHDR_T*) TOE_TOE_QUE_HDR_BASE; -+ toe_qhdr += tcp_qid; -+ connection = &toe_connections[tcp_qid]; -+ del_timer(&connection->rx_timer); -+ // Gary Chen spin_lock_irqsave(&connection->conn_lock, toeq_flags); -+ // handling interrupts of this TOE Q. -+ if (intr_curr_desc->word1.bits.ctl || intr_curr_desc->word1.bits.osq || -+ intr_curr_desc->word1.bits.abn) -+ max_pktsize = 0; -+ if (!max_pktsize || intr_curr_desc->word1.bits.TotalPktSize) { -+ desc_count=0; -+ // wptr in intl queue is where this TOE interrupt should stop. -+ toeq_rwptr.bits32 = readl(&toe_qhdr->word1); -+ toeq_wptr = intr_curr_desc->word0.bits.wptr; -+ if (connection->toeq_rwptr.bits.rptr != toeq_rwptr.bits.rptr) -+ printk("conn rptr %d, hw rptr %d\n", -+ connection->toeq_rwptr.bits.rptr, toeq_rwptr.bits.rptr); -+ -+ if (intr_curr_desc->word1.bits.ctl && -+ (toeq_rwptr.bits.rptr == toeq_wptr)) { -+ printk("\nctrl frame, but not in TOE queue! conn rptr %d, hw wptr %d\n", -+ connection->toeq_rwptr.bits.rptr, toeq_wptr); -+// dump_toe_qhdr(toe_qhdr); -+// dump_intrq_desc(intr_curr_desc); -+ } -+ // while (toeq_rwptr.bits.rptr != intr_curr_desc->word0.bits.wptr) { -+ while (toe_qhdr->word1.bits.rptr != intr_curr_desc->word0.bits.wptr) { -+ frag_id++; -+ toe_curr_desc = (volatile GMAC_RXDESC_T *)(toe->toe_desc_base[tcp_qid] -+ + toe_qhdr->word1.bits.rptr *sizeof(GMAC_RXDESC_T)); -+ connection->curr_desc = (GMAC_RXDESC_T *)toe_curr_desc; -+ desc_count = toe_curr_desc->word0.bits.desc_count; -+ pkt_size = toe_curr_desc->word1.bits.byte_count; -+ consistent_sync((void*)__va(toe_curr_desc->word2.buf_adr), pkt_size, -+ PCI_DMA_FROMDEVICE); -+ skb = (struct sk_buff*)(REG32(__va(toe_curr_desc->word2.buf_adr)- -+ SKB_RESERVE_BYTES)); -+ _debug_skb(skb, (GMAC_RXDESC_T *)toe_curr_desc, 0x01); -+ connection->curr_rx_skb = skb; -+ skb_reserve(skb, RX_INSERT_BYTES); -+ if ((skb->len + pkt_size) > (1514+16)) -+ { -+ printk("skb->len=%d, pkt_size=%d\n",skb->len, pkt_size); -+ while(1); -+ } -+ -+ skb_put(skb, pkt_size); -+ skb->dev = dev; -+ skb->protocol = eth_type_trans(skb, dev); -+ skb->ip_summed = CHECKSUM_UNNECESSARY; -+ -+ if (toe_curr_desc->word3.bits32 & 0x1b000000) -+ dump_jumbo_skb(&jumbo_skb); -+ -+ rx_append_skb(&jumbo_skb, skb, pkt_size-toe_curr_desc->word3.bits.l7_offset); -+// spin_lock_irqsave(&gmac_fq_lock, flags); -+ toeq_rwptr.bits.rptr = RWPTR_ADVANCE_ONE(toeq_rwptr.bits.rptr, TOE_TOE_DESC_NUM); -+ SET_RPTR(&toe_qhdr->word1, toeq_rwptr.bits.rptr); -+// spin_unlock_irqrestore(&gmac_fq_lock, flags); -+ if (storlink_ctl.fqint_threshold) -+ continue; -+#if 0 -+//#if (HANDLE_FREEQ_METHOD == HANDLE_FREEQ_INDIVIDUAL) -+ if ((skb = dev_alloc_skb(RX_BUF_SIZE)) == NULL) { -+ printk("%s::toe queue alloc buffer ", __func__); -+ } -+ *(unsigned int*)(skb->data) = (unsigned int)skb; -+ connection->curr_rx_skb = skb; -+ skb_reserve(skb, SKB_RESERVE_BYTES); -+ -+ spin_lock_irqsave(&gmac_fq_lock, flags); -+ fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+ if (toe->fq_rx_rwptr.bits.wptr != fq_rwptr.bits.wptr) { -+ printk("%s::fq_rx_rwptr %x\n", __func__, toe->fq_rx_rwptr.bits32); -+ mac_stop_txdma((struct net_device*) tp->dev); -+ spin_unlock_irqrestore(&gmac_fq_lock, flags); -+ while(1); -+ } -+ fq_desc = (GMAC_RXDESC_T*)toe->swfq_desc_base + fq_rwptr.bits.wptr; -+ fq_desc->word2.buf_adr = (unsigned int)__pa(skb->data); -+ -+ fq_rwptr.bits.wptr = RWPTR_ADVANCE_ONE(fq_rwptr.bits.wptr, TOE_SW_FREEQ_DESC_NUM); -+ SET_WPTR(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG, fq_rwptr.bits.wptr); -+ toe->fq_rx_rwptr.bits32 = fq_rwptr.bits32; -+ spin_unlock_irqrestore(&gmac_fq_lock, flags); -+#endif -+ } // end of this multi-desc. -+ dump_jumbo_skb(&jumbo_skb); -+ dev->last_rx = jiffies; -+ connection->toeq_rwptr.bits32 = toeq_rwptr.bits32; -+ } else if (intr_curr_desc->word1.bits.sat) { -+ toeq_rwptr.bits32 = readl(&toe_qhdr->word1); -+ toeq_wptr = intr_curr_desc->word0.bits.wptr; -+ if (connection->toeq_rwptr.bits.rptr != toeq_rwptr.bits.rptr) -+ printk("SAT. conn rptr %d, hw rptr %d\n", -+ connection->toeq_rwptr.bits.rptr, toeq_rwptr.bits.rptr); -+/* -+ printk("%s::SAT int!, ackcnt %x, seqcnt %x, rptr %d, wptr %d, ack %x, qhack %x\n", -+ __func__, intr_curr_desc->word4.bits.AckCnt, intr_curr_desc->word4.bits.SeqCnt, -+ toeq_rptr, toeq_wptr, intr_curr_desc->word3.ack_num, toe_qhdr->word4.ack_num);*/ -+ /* pure ack */ -+ if (toeq_rwptr.bits.rptr == toeq_wptr) { -+ if (intr_curr_desc->word4.bits32) { -+ skb = gen_pure_ack(connection, (TOE_QHDR_T *)toe_qhdr, (INTR_QHDR_T *)intr_curr_desc); -+ skb_put(skb, 60); -+ skb->dev = connection->dev; -+ skb->ip_summed = CHECKSUM_UNNECESSARY; -+ skb->protocol = eth_type_trans(skb, connection->dev); -+ netif_rx(skb); -+ } else -+ printk("%s::SAT Interrupt!. But cnt is 0!\n", __func__); -+ } else { -+ // while (toeq_rwptr.bits.rptr != toeq_wptr) { -+ while (toe_qhdr->word1.bits.rptr != intr_curr_desc->word0.bits.wptr) { -+ toe_curr_desc = (volatile GMAC_RXDESC_T*)(toe->toe_desc_base[tcp_qid] -+ + toe_qhdr->word1.bits.rptr * sizeof(GMAC_RXDESC_T)); -+ connection->curr_desc = (GMAC_RXDESC_T *)toe_curr_desc; -+ desc_count = toe_curr_desc->word0.bits.desc_count; -+ pkt_size = toe_curr_desc->word1.bits.byte_count; -+ consistent_sync((void*)__va(toe_curr_desc->word2.buf_adr), pkt_size, -+ PCI_DMA_FROMDEVICE); -+ // if ( ((toeq_rwptr.bits.rptr +1)&(TOE_TOE_DESC_NUM-1)) == toeq_wptr) { -+ if ( RWPTR_ADVANCE_ONE(toe_qhdr->word1.bits.rptr, TOE_TOE_DESC_NUM) == toeq_wptr) { -+ skb = (struct sk_buff*)(REG32(__va(toe_curr_desc->word2.buf_adr) - -+ SKB_RESERVE_BYTES)); -+ _debug_skb(skb, (GMAC_RXDESC_T *)toe_curr_desc, 0x04); -+ connection->curr_rx_skb = skb; -+ skb_reserve(skb, RX_INSERT_BYTES); -+ skb_put(skb, pkt_size); -+ skb->dev = dev; -+ skb->protocol = eth_type_trans(skb, dev); -+ skb->ip_summed = CHECKSUM_UNNECESSARY; -+ // printk("toeq_rptr %d, wptr %d\n", toeq_rptr, toeq_wptr); -+ netif_rx(skb); -+ dev->last_rx = jiffies; -+/* -+ if ((skb = dev_alloc_skb(RX_BUF_SIZE)) == NULL) { -+ -+ } -+ *(unsigned int*)(skb->data) = (unsigned int) skb; -+ skb_reserve(skb, SKB_RESERVE_BYTES); */ -+ } else { -+ // reuse this skb, append to free queue.. -+ skb = (struct sk_buff*)(REG32(__va(toe_curr_desc->word2.buf_adr)- -+ SKB_RESERVE_BYTES)); -+ _debug_skb(skb, (GMAC_RXDESC_T *)toe_curr_desc, 0x05); -+ connection->curr_rx_skb = skb; -+ dev_kfree_skb_irq(skb); -+ } -+#if 0 -+ spin_lock_irqsave(&gmac_fq_lock, flags); -+ fq_rwptr.bits32 = readl(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG); -+/* if (toe->fq_rx_rwptr.bits.wptr != fq_rwptr.bits.wptr) { -+ printk("%s::fq_rx_rwptr %x\n", __func__, toe->fq_rx_rwptr.bits32); -+ mac_stop_txdma((struct net_device*) tp->dev); -+ spin_unlock_irqrestore(&gmac_fq_lock, flags); -+ while(1); -+ } */ -+ fq_desc = (GMAC_RXDESC_T*)toe->swfq_desc_base + fq_rwptr.bits.wptr; -+ fq_desc->word2.buf_adr = (unsigned int)__pa(skb->data); -+ -+ fq_rwptr.bits.wptr = RWPTR_ADVANCE_ONE(fq_rwptr.bits.wptr, TOE_SW_FREEQ_DESC_NUM); -+ SET_WPTR(TOE_GLOBAL_BASE + GLOBAL_SWFQ_RWPTR_REG, fq_rwptr.bits.wptr); -+ toe->fq_rx_rwptr.bits32 = fq_rwptr.bits32; -+ // spin_unlock_irqrestore(&gmac_fq_lock, flags); -+#endif -+// spin_lock_irqsave(&gmac_fq_lock, flags); -+ toeq_rwptr.bits.rptr = RWPTR_ADVANCE_ONE(toeq_rwptr.bits.rptr, TOE_TOE_DESC_NUM); -+ SET_RPTR(&toe_qhdr->word1, toeq_rwptr.bits.rptr); -+// spin_unlock_irqrestore(&gmac_fq_lock, flags); -+ } -+ } // end of ACK with options. -+ connection->toeq_rwptr.bits32 = toeq_rwptr.bits32; -+ // Gary Chen spin_unlock_irqrestore(&connection->conn_lock, toeq_flags); -+// } -+ }; -+ update_timer(connection); -+ // any protection against interrupt queue header? -+ intr_rwptr.bits.rptr = RWPTR_ADVANCE_ONE(intr_rwptr.bits.rptr, TOE_INTR_DESC_NUM); -+ SET_RPTR(&intr_qhdr->word1, intr_rwptr.bits.rptr); -+ intr_rwptr.bits32 = readl(&intr_qhdr->word1); -+ toe_gmac_fill_free_q(); -+ } // end of this interrupt Queue processing. -+ } // end of all interrupt Queues. -+ -+ in_toe_isr = 0; -+} -+ -+ ---- /dev/null -+++ b/drivers/net/sl_lepus_hash.c -@@ -0,0 +1,553 @@ -+/************************************************************************** -+* Copyright 2006 StorLink Semiconductors, Inc. All rights reserved. -+*-------------------------------------------------------------------------- -+* Name : sl_lepus_hash.c -+* Description : -+* Handle Storlink Lepus Hash Functions -+* -+* History -+* -+* Date Writer Description -+*---------------------------------------------------------------------------- -+* 03/13/2006 Gary Chen Create and implement -+* -+****************************************************************************/ -+#include <linux/module.h> -+#include <linux/kernel.h> -+#include <linux/compiler.h> -+#include <linux/pci.h> -+#include <linux/init.h> -+#include <linux/ioport.h> -+#include <linux/netdevice.h> -+#include <linux/etherdevice.h> -+#include <linux/rtnetlink.h> -+#include <linux/delay.h> -+#include <linux/ethtool.h> -+#include <linux/mii.h> -+#include <linux/completion.h> -+#include <asm/hardware.h> -+#include <asm/io.h> -+#include <asm/irq.h> -+#include <asm/semaphore.h> -+#include <asm/arch/irqs.h> -+#include <asm/arch/it8712.h> -+#include <linux/mtd/kvctl.h> -+#include <linux/skbuff.h> -+#include <linux/ip.h> -+#include <linux/tcp.h> -+#include <linux/list.h> -+#define MIDWAY -+#define SL_LEPUS -+ -+#include <asm/arch/sl2312.h> -+#include <asm/arch/sl_lepus_gmac.h> -+#include <asm/arch/sl_hash_cfg.h> -+ -+#ifndef RXTOE_DEBUG -+#define RXTOE_DEBUG -+#endif -+#undef RXTOE_DEBUG -+ -+/*---------------------------------------------------------------------- -+* Definition -+*----------------------------------------------------------------------*/ -+#define hash_printf printk -+ -+#define HASH_TIMER_PERIOD (60*HZ) // seconds -+#define HASH_ILLEGAL_INDEX 0xffff -+ -+/*---------------------------------------------------------------------- -+* Variables -+*----------------------------------------------------------------------*/ -+u32 hash_activate_bits[HASH_TOTAL_ENTRIES/32]; -+u32 hash_nat_owner_bits[HASH_TOTAL_ENTRIES/32]; -+char hash_tables[HASH_TOTAL_ENTRIES][HASH_MAX_BYTES] __attribute__ ((aligned(16))); -+static struct timer_list hash_timer_obj; -+LIST_HEAD(hash_timeout_list); -+ -+/*---------------------------------------------------------------------- -+* Functions -+*----------------------------------------------------------------------*/ -+void dm_long(u32 location, int length); -+static void hash_timer_func(u32 data); -+ -+/*---------------------------------------------------------------------- -+* hash_init -+*----------------------------------------------------------------------*/ -+void hash_init(void) -+{ -+ int i; -+ volatile u32 *dp1, *dp2, dword; -+ -+ dp1 = (volatile u32 *) TOE_V_BIT_BASE; -+ dp2 = (volatile u32 *) TOE_A_BIT_BASE; -+ -+ for (i=0; i<HASH_TOTAL_ENTRIES/32; i++) -+ { -+ *dp1++ = 0; -+ dword = *dp2++; // read-clear -+ } -+ memset((void *)&hash_nat_owner_bits, 0, sizeof(hash_nat_owner_bits)); -+ memset((void *)&hash_tables, 0, sizeof(hash_tables)); -+ -+ init_timer(&hash_timer_obj); -+ hash_timer_obj.expires = jiffies + HASH_TIMER_PERIOD; -+ hash_timer_obj.data = (unsigned long)&hash_timer_obj; -+ hash_timer_obj.function = (void *)&hash_timer_func; -+ add_timer(&hash_timer_obj); -+ -+#if (HASH_MAX_BYTES == 128) -+ writel((unsigned long)__pa(&hash_tables) | 3, // 32 words -+ TOE_GLOBAL_BASE + GLOBAL_HASH_TABLE_BASE_REG); -+#elif (HASH_MAX_BYTES == 64) -+ writel((unsigned long)__pa(&hash_tables) | 2, // 16 words -+ TOE_GLOBAL_BASE + GLOBAL_HASH_TABLE_BASE_REG); -+#else -+ #error Incorrect setting for HASH_MAX_BYTES -+#endif -+ -+} -+/*---------------------------------------------------------------------- -+* hash_add_entry -+*----------------------------------------------------------------------*/ -+int hash_add_entry(HASH_ENTRY_T *entry) -+{ -+ int rc; -+ u32 key[HASH_MAX_DWORDS]; -+ rc = hash_build_keys((u32 *)&key, entry); -+ if (rc < 0) -+ return -1; -+ hash_write_entry(entry, (unsigned char*) &key[0]); -+// hash_set_valid_flag(entry->index, 1); -+// printk("Dump hash key!\n"); -+// dump_hash_key(entry); -+ return entry->index; -+} -+ -+/*---------------------------------------------------------------------- -+* hash_set_valid_flag -+*----------------------------------------------------------------------*/ -+void hash_set_valid_flag(int index, int valid) -+{ -+ register u32 reg32; -+ -+ reg32 = TOE_V_BIT_BASE + (index/32) * 4; -+ -+ if (valid) -+ { -+ writel(readl(reg32) | (1 << (index%32)), reg32); -+ } -+ else -+ { -+ writel(readl(reg32) & ~(1 << (index%32)), reg32); -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* hash_set_nat_owner_flag -+*----------------------------------------------------------------------*/ -+void hash_set_nat_owner_flag(int index, int valid) -+{ -+ if (valid) -+ { -+ hash_nat_owner_bits[index/32] |= (1 << (index % 32)); -+ } -+ else -+ { -+ hash_nat_owner_bits[index/32] &= ~(1 << (index % 32)); -+ } -+} -+ -+ -+/*---------------------------------------------------------------------- -+* hash_build_keys -+*----------------------------------------------------------------------*/ -+int hash_build_keys(u32 *destp, HASH_ENTRY_T *entry) -+{ -+ u32 data; -+ unsigned char *cp; -+ int i, j; -+ unsigned short index; -+ int total; -+ -+ memset((void *)destp, 0, HASH_MAX_BYTES); -+ cp = (unsigned char *)destp; -+ -+ if (entry->key_present.port || entry->key_present.Ethertype) -+ { -+ HASH_PUSH_WORD(cp, entry->key.Ethertype); // word 0 -+ HASH_PUSH_BYTE(cp, entry->key.port); // Byte 2 -+ HASH_PUSH_BYTE(cp, 0); // Byte 3 -+ } -+ else -+ { -+ HASH_PUSH_DWORD(cp, 0); -+ } -+ -+ if (entry->key_present.da || entry->key_present.sa) -+ { -+ unsigned char mac[4]; -+ if (entry->key_present.da) -+ { -+ for (i=0; i<4; i++) -+ HASH_PUSH_BYTE(cp, entry->key.da[i]); -+ } -+ mac[0] = (entry->key_present.da) ? entry->key.da[4] : 0; -+ mac[1] = (entry->key_present.da) ? entry->key.da[5] : 0; -+ mac[2] = (entry->key_present.sa) ? entry->key.sa[0] : 0; -+ mac[3] = (entry->key_present.sa) ? entry->key.sa[1] : 0; -+ data = mac[0] + (mac[1]<<8) + (mac[2]<<16) + (mac[3]<<24); -+ HASH_PUSH_DWORD(cp, data); -+ if (entry->key_present.sa) -+ { -+ for (i=2; i<6; i++) -+ HASH_PUSH_BYTE(cp, entry->key.sa[i]); -+ } -+ } -+ -+ if (entry->key_present.pppoe_sid || entry->key_present.vlan_id) -+ { -+ HASH_PUSH_WORD(cp, entry->key.vlan_id); // low word -+ HASH_PUSH_WORD(cp, entry->key.pppoe_sid); // high word -+ } -+ if (entry->key_present.ipv4_hdrlen || entry->key_present.ip_tos || entry->key_present.ip_protocol) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.ip_protocol); // Byte 0 -+ HASH_PUSH_BYTE(cp, entry->key.ip_tos); // Byte 1 -+ HASH_PUSH_BYTE(cp, entry->key.ipv4_hdrlen); // Byte 2 -+ HASH_PUSH_BYTE(cp, 0); // Byte 3 -+ } -+ -+ if (entry->key_present.ipv6_flow_label) -+ { -+ HASH_PUSH_DWORD(cp, entry->key.ipv6_flow_label); // low word -+ } -+ if (entry->key_present.sip) -+ { -+ // input (entry->key.sip[i]) is network-oriented -+ // output (hash key) is host-oriented -+ for (i=3; i>=0; i--) -+ HASH_PUSH_BYTE(cp, entry->key.sip[i]); -+ if (entry->key.ipv6) -+ { -+ for (i=4; i<16; i+=4) -+ { -+ for (j=i+3; j>=i; j--) -+ HASH_PUSH_BYTE(cp, entry->key.sip[j]); -+ } -+ } -+ } -+ if (entry->key_present.dip) -+ { -+ // input (entry->key.sip[i]) is network-oriented -+ // output (hash key) is host-oriented -+ for (i=3; i>=0; i--) -+ HASH_PUSH_BYTE(cp, entry->key.dip[i]); -+ if (entry->key.ipv6) -+ { -+ for (i=4; i<16; i+=4) -+ { -+ for (j=i+3; j>=i; j--) -+ HASH_PUSH_BYTE(cp, entry->key.dip[j]); -+ } -+ } -+ } -+ -+ if (entry->key_present.l4_bytes_0_3) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[0]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[1]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[2]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[3]); -+ } -+ if (entry->key_present.l4_bytes_4_7) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[4]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[5]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[6]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[7]); -+ } -+ if (entry->key_present.l4_bytes_8_11) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[8]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[9]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[10]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[11]); -+ } -+ if (entry->key_present.l4_bytes_12_15) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[12]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[13]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[14]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[15]); -+ } -+ if (entry->key_present.l4_bytes_16_19) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[16]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[17]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[18]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[19]); -+ } -+ if (entry->key_present.l4_bytes_20_23) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[20]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[21]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[22]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[23]); -+ } -+ if (entry->key_present.l7_bytes_0_3) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[0]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[1]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[2]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[3]); -+ } -+ if (entry->key_present.l7_bytes_4_7) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[4]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[5]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[6]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[7]); -+ } -+ if (entry->key_present.l7_bytes_8_11) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[8]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[9]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[10]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[11]); -+ } -+ if (entry->key_present.l7_bytes_12_15) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[12]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[13]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[14]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[15]); -+ } -+ if (entry->key_present.l7_bytes_16_19) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[16]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[17]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[18]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[19]); -+ } -+ if (entry->key_present.l7_bytes_20_23) -+ { -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[20]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[21]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[22]); -+ HASH_PUSH_BYTE(cp, entry->key.l7_bytes[23]); -+ } -+ -+ // get hash index -+ total = (u32)((u32)cp - (u32)destp) / (sizeof(u32)); -+ -+ if (total > HASH_MAX_KEY_DWORD) -+ { -+ //hash_printf("Total key words (%d) is too large (> %d)!\n", -+ // total, HASH_MAX_KEY_DWORD); -+ return -1; -+ } -+ -+ if (entry->key_present.port || entry->key_present.Ethertype) -+ index = hash_gen_crc16((unsigned char *)destp, total * 4); -+ else -+ { -+ if (total == 1) -+ { -+ hash_printf("No key is assigned!\n"); -+ return -1; -+ } -+ -+ index = hash_gen_crc16((unsigned char *)(destp+1), (total-1) * 4); -+ } -+ -+ entry->index = index & HASH_BITS_MASK; -+ -+ //hash_printf("Total key words = %d, Hash Index= %d\n", -+ // total, entry->index); -+ -+ cp = (unsigned char *)destp; -+ cp+=3; -+ HASH_PUSH_BYTE(cp, entry->rule); // rule -+ -+ entry->total_dwords = total; -+ -+ return total; -+} -+ -+/*---------------------------------------------------------------------- -+* hash_build_nat_keys -+*----------------------------------------------------------------------*/ -+void hash_build_nat_keys(u32 *destp, HASH_ENTRY_T *entry) -+{ -+ unsigned char *cp; -+ int i; -+ unsigned short index; -+ int total; -+ -+ memset((void *)destp, 0, HASH_MAX_BYTES); -+ -+ cp = (unsigned char *)destp + 2; -+ HASH_PUSH_BYTE(cp, entry->key.port); -+ cp++; -+ -+ if (entry->key_present.pppoe_sid || entry->key_present.vlan_id) -+ { -+ HASH_PUSH_WORD(cp, entry->key.vlan_id); // low word -+ HASH_PUSH_WORD(cp, entry->key.pppoe_sid); // high word -+ } -+ -+ HASH_PUSH_BYTE(cp, entry->key.ip_protocol); -+ cp+=3; -+ -+ // input (entry->key.sip[i]) is network-oriented -+ // output (hash key) is host-oriented -+ for (i=3; i>=0; i--) -+ HASH_PUSH_BYTE(cp, entry->key.sip[i]); -+ -+ // input (entry->key.sip[i]) is network-oriented -+ // output (hash key) is host-oriented -+ for (i=3; i>=0; i--) -+ HASH_PUSH_BYTE(cp, entry->key.dip[i]); -+ -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[0]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[1]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[2]); -+ HASH_PUSH_BYTE(cp, entry->key.l4_bytes[3]); -+ -+ // get hash index -+ total = (u32)((u32)cp - (u32)destp) / (sizeof(u32)); -+ -+ index = hash_gen_crc16((unsigned char *)destp, total * 4); -+ entry->index = index & ((1 << HASH_BITS) - 1); -+ -+ cp = (unsigned char *)destp; -+ cp+=3; -+ HASH_PUSH_BYTE(cp, entry->rule); // rule -+ -+ entry->total_dwords = total; -+} -+ -+ -+/*---------------------------------------------------------------------- -+* hash_write_entry -+*----------------------------------------------------------------------*/ -+int hash_write_entry(HASH_ENTRY_T *entry, unsigned char *key) -+{ -+ int i; -+ u32 *srcep, *destp, *destp2; -+ -+ srcep = (u32 *)key; -+ destp2 = destp = (u32 *)&hash_tables[entry->index][0]; -+ -+ for (i=0; i<(entry->total_dwords); i++, srcep++, destp++) -+ *destp = *srcep; -+ -+ srcep = (u32 *)&entry->action; -+ *destp++ = *srcep; -+ -+ srcep = (u32 *)&entry->param; -+ for (i=0; i<(sizeof(ENTRY_PARAM_T)/sizeof(*destp)); i++, srcep++, destp++) -+ *destp = *srcep; -+ -+ memset(destp, 0, (HASH_MAX_DWORDS-entry->total_dwords-HASH_ACTION_DWORDS) * sizeof(u32)); -+ -+ consistent_sync(destp2, (entry->total_dwords+HASH_ACTION_DWORDS) * 4, PCI_DMA_TODEVICE); -+ return 0; -+} -+ -+/*---------------------------------------------------------------------- -+* hash_timer_func -+*----------------------------------------------------------------------*/ -+static void hash_timer_func(u32 data) -+{ -+ int i, j; -+ volatile u32 *active_p, *own_p, *valid_p; -+ u32 a_bits, own_bits; -+ -+ valid_p = (volatile u32 *)TOE_V_BIT_BASE; -+ active_p = (volatile u32 *)hash_activate_bits; -+ own_p = (volatile u32 *)hash_nat_owner_bits; -+ for (i=0; i<(HASH_TOTAL_ENTRIES/32); i++, own_p++, active_p++, valid_p++) -+ { -+ *active_p |= readl(TOE_A_BIT_BASE + (i*4)); -+ a_bits = *active_p; -+ own_bits = *own_p; -+ if (own_bits) -+ { -+#ifndef DEBUG_NAT_MIXED_HW_SW_TX -+ a_bits = own_bits & ~a_bits; -+#else -+ a_bits = own_bits & a_bits; -+#endif -+ for (j=0; a_bits && j<32; j++) -+ { -+ if (a_bits & 1) -+ { -+ *valid_p &= ~(1 << j); // invalidate it -+#if !(defined(NAT_DEBUG_LAN_HASH_TIMEOUT) || defined(NAT_DEBUG_WAN_HASH_TIMEOUT)) -+ *own_p &= ~(1 << j); // release ownership for NAT -+#endif -+// #ifdef DEBUG_NAT_MIXED_HW_SW_TX -+#if 0 -+ hash_printf("%lu %s: Clear hash index: %d\n", jiffies/HZ, __func__, i*32+j); -+#endif -+ } -+ a_bits >>= 1; -+ } -+ *active_p &= ~own_bits; // deactivate it for next polling -+ } -+ } -+ -+ hash_timer_obj.expires = jiffies + HASH_TIMER_PERIOD; -+ add_timer((struct timer_list *)data); -+} -+ -+/*---------------------------------------------------------------------- -+* dm_long -+*----------------------------------------------------------------------*/ -+void dm_long(u32 location, int length) -+{ -+ u32 *start_p, *curr_p, *end_p; -+ u32 *datap, data; -+ int i; -+ -+ //if (length > 1024) -+ // length = 1024; -+ -+ start_p = (u32 *)location; -+ end_p = (u32 *)location + length; -+ curr_p = (u32 *)((u32)location & 0xfffffff0); -+ datap = (u32 *)location; -+ while (curr_p < end_p) -+ { -+ hash_printf("0x%08x: ",(u32)curr_p & 0xfffffff0); -+ for (i=0; i<4; i++) -+ { -+ if (curr_p < start_p || curr_p >= end_p) -+ hash_printf(" "); -+ else -+ { -+ data = *datap; -+ hash_printf("%08X ", data); -+ } -+ if (i==1) -+ hash_printf("- "); -+ -+ curr_p++; -+ datap++; -+ } -+ hash_printf("\n"); -+ } -+} -+ -+/*---------------------------------------------------------------------- -+* hash_dump_entry -+*----------------------------------------------------------------------*/ -+void hash_dump_entry(int index) -+{ -+ hash_printf("Hash Index %d:\n", index); -+ dm_long((u32)&hash_tables[index][0], HASH_MAX_DWORDS); -+} -+ -+ ---- /dev/null -+++ b/drivers/net/sl_switch.c -@@ -0,0 +1,650 @@ -+#include <linux/module.h> -+#include <linux/kernel.h> -+#include <linux/init.h> -+#include <linux/ioport.h> -+#include <linux/delay.h> -+#include <asm/hardware.h> -+#include <asm/io.h> -+ -+#define GMAC_GLOBAL_BASE_ADDR (IO_ADDRESS(SL2312_GLOBAL_BASE)) -+#define GPIO_BASE_ADDR1 (IO_ADDRESS(SL2312_GPIO_BASE1)) -+enum GPIO_REG -+{ -+ GPIO_DATA_OUT = 0x00, -+ GPIO_DATA_IN = 0x04, -+ GPIO_PIN_DIR = 0x08, -+ GPIO_BY_PASS = 0x0c, -+ GPIO_DATA_SET = 0x10, -+ GPIO_DATA_CLEAR = 0x14, -+}; -+ -+#define GMAC_SPEED_10 0 -+#define GMAC_SPEED_100 1 -+#define GMAC_SPEED_1000 2 -+ -+enum phy_state -+{ -+ LINK_DOWN = 0, -+ LINK_UP = 1 -+}; -+ -+#ifndef BIT -+#define BIT(x) (1 << (x)) -+#endif -+ -+//int Get_Set_port_status(); -+unsigned int SPI_read_bit(void); -+void SPI_write_bit(char bit_EEDO); -+void SPI_write(unsigned char block,unsigned char subblock,unsigned char addr,unsigned int value); -+unsigned int SPI_read(unsigned char block,unsigned char subblock,unsigned char addr); -+int SPI_default(void); -+void SPI_CS_enable(unsigned char enable); -+unsigned int SPI_get_identifier(void); -+void phy_write(unsigned char port_no,unsigned char reg,unsigned int val); -+unsigned int phy_read(unsigned char port_no,unsigned char reg); -+void phy_write_masked(unsigned char port_no,unsigned char reg,unsigned int val,unsigned int mask); -+void init_seq_7385(unsigned char port_no) ; -+void phy_receiver_init (unsigned char port_no); -+ -+#define PORT_NO 4 -+int switch_pre_speed[PORT_NO]={0,0,0,0}; -+int switch_pre_link[PORT_NO]={0,0,0,0}; -+ -+ -+ -+ -+ -+/* NOTES -+ * The Protocol of the SPI are as follows: -+ * -+ * Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 -+ * byte0 | Block id | r/w | sub-block | -+ * byte1 | Address | -+ * byte2 | Data | -+ * byte3 | Data | -+ * byte4 | Data | -+ * byte5 | Data | -+ */ -+ -+ -+ -+ -+/***************************************/ -+/* define GPIO module base address */ -+/***************************************/ -+#define GPIO_EECS 0x80000000 /* EECS: GPIO[22] */ -+#define GPIO_MOSI 0x20000000 /* EEDO: GPIO[29] send to 6996*/ -+#define GPIO_MISO 0x40000000 /* EEDI: GPIO[30] receive from 6996*/ -+#define GPIO_EECK 0x10000000 /* EECK: GPIO[31] */ -+ -+/************************************************************* -+* SPI protocol for ADM6996 control -+**************************************************************/ -+#define SPI_OP_LEN 0x08 // the length of start bit and opcode -+#define SPI_OPWRITE 0X05 // write -+#define SPI_OPREAD 0X06 // read -+#define SPI_OPERASE 0X07 // erase -+#define SPI_OPWTEN 0X04 // write enable -+#define SPI_OPWTDIS 0X04 // write disable -+#define SPI_OPERSALL 0X04 // erase all -+#define SPI_OPWTALL 0X04 // write all -+ -+#define SPI_ADD_LEN 8 // bits of Address -+#define SPI_DAT_LEN 32 // bits of Data -+ -+ -+/****************************************/ -+/* Function Declare */ -+/****************************************/ -+ -+//unsigned int SPI_read_bit(void); -+//void SPI_write_bit(char bit_EEDO); -+//unsigned int SPI_read_bit(void); -+/****************************************** -+* SPI_write -+* addr -> Write Address -+* value -> value to be write -+***************************************** */ -+void phy_receiver_init (unsigned char port_no) -+{ -+ phy_write(port_no,31,0x2a30); -+ phy_write_masked(port_no, 12, 0x0200, 0x0300); -+ phy_write(port_no,31,0); -+} -+ -+void phy_write(unsigned char port_no,unsigned char reg,unsigned int val) -+{ -+ unsigned int cmd; -+ -+ cmd = (port_no<<21)|(reg<<16)|val; -+ SPI_write(3,0,1,cmd); -+} -+ -+unsigned int phy_read(unsigned char port_no,unsigned char reg) -+{ -+ unsigned int cmd,reg_val; -+ -+ cmd = BIT(26)|(port_no<<21)|(reg<<16); -+ SPI_write(3,0,1,cmd); -+ msleep(2); -+ reg_val = SPI_read(3,0,2); -+ return reg_val; -+} -+ -+void phy_write_masked(unsigned char port_no,unsigned char reg,unsigned int val,unsigned int mask) -+{ -+ unsigned int cmd,reg_val; -+ -+ cmd = BIT(26)|(port_no<<21)|(reg<<16); // Read reg_val -+ SPI_write(3,0,1,cmd); -+ mdelay(2); -+ reg_val = SPI_read(3,0,2); -+ reg_val &= ~mask; // Clear masked bit -+ reg_val |= (val&mask) ; // set masked bit ,if true -+ cmd = (port_no<<21)|(reg<<16)|reg_val; -+ SPI_write(3,0,1,cmd); -+} -+ -+void init_seq_7385(unsigned char port_no) -+{ -+ unsigned char rev; -+ -+ phy_write(port_no, 31, 0x2a30); -+ phy_write_masked(port_no, 8, 0x0200, 0x0200); -+ phy_write(port_no, 31, 0x52b5); -+ phy_write(port_no, 16, 0xb68a); -+ phy_write_masked(port_no, 18, 0x0003, 0xff07); -+ phy_write_masked(port_no, 17, 0x00a2, 0x00ff); -+ phy_write(port_no, 16, 0x968a); -+ phy_write(port_no, 31, 0x2a30); -+ phy_write_masked(port_no, 8, 0x0000, 0x0200); -+ phy_write(port_no, 31, 0x0000); /* Read revision */ -+ rev = phy_read(port_no, 3) & 0x000f; -+ if (rev == 0) -+ { -+ phy_write(port_no, 31, 0x2a30); -+ phy_write_masked(port_no, 8, 0x0200, 0x0200); -+ phy_write(port_no, 31, 0x52b5); -+ phy_write(port_no, 18, 0x0000); -+ phy_write(port_no, 17, 0x0689); -+ phy_write(port_no, 16, 0x8f92); -+ phy_write(port_no, 31, 0x52B5); -+ phy_write(port_no, 18, 0x0000); -+ phy_write(port_no, 17, 0x0E35); -+ phy_write(port_no, 16, 0x9786); -+ phy_write(port_no, 31, 0x2a30); -+ phy_write_masked(port_no, 8, 0x0000, 0x0200); -+ phy_write(port_no, 23, 0xFF80); -+ phy_write(port_no, 23, 0x0000); -+ } -+ phy_write(port_no, 31, 0x0000); -+ phy_write(port_no, 18, 0x0048); -+ if (rev == 0) -+ { -+ phy_write(port_no, 31, 0x2a30); -+ phy_write(port_no, 20, 0x6600); -+ phy_write(port_no, 31, 0x0000); -+ phy_write(port_no, 24, 0xa24e); -+ } -+ else -+ { -+ phy_write(port_no, 31, 0x2a30); -+ phy_write_masked(port_no, 22, 0x0240, 0x0fc0); -+ phy_write_masked(port_no, 20, 0x4000, 0x6000); -+ phy_write(port_no, 31, 1); -+ phy_write_masked(port_no, 20, 0x6000, 0xe000); -+ phy_write(port_no, 31, 0x0000); -+ } -+} -+ -+int Get_Set_port_status() -+{ -+ unsigned int reg_val,ability,rcv_mask,mac_config; -+ int is_link=0; -+ int i; -+ -+ rcv_mask = SPI_read(2,0,0x10); // Receive mask -+ -+ for(i=0;i<4;i++){ -+ reg_val = phy_read(i,1); -+ if ((reg_val & 0x0024) == 0x0024) /* link is established and auto_negotiate process completed */ -+ { -+ is_link=1; -+ if(switch_pre_link[i]==LINK_DOWN){ // Link Down ==> Link up -+ -+ rcv_mask |= BIT(i); // Enable receive -+ -+ reg_val = phy_read(i,10); -+ if(reg_val & 0x0c00){ -+ printk("Port%d:Giga mode\n",i); -+// SPI_write(1,i,0x00,0x300701B1); -+ mac_config = 0x00060004|(6<<6); -+ -+ SPI_write(1,i,0x00,((mac_config & 0xfffffff8) | 1) | 0x20000030); // reset port -+ mac_config |= (( BIT(i) << 19) | 0x08000000); -+ SPI_write(1,i,0x00,mac_config); -+ SPI_write(1,i,0x04,0x000300ff); // flow control -+ -+ reg_val = SPI_read(5,0,0x12); -+ reg_val &= ~BIT(i); -+ SPI_write(5,0,0x12,reg_val); -+ -+ reg_val = SPI_read(1,i,0x00); -+ reg_val |= 0x10010000; -+ SPI_write(1,i,0x00,reg_val); -+// SPI_write(1,i,0x00,0x10070181); -+ switch_pre_link[i]=LINK_UP; -+ switch_pre_speed[i]=GMAC_SPEED_1000; -+ } -+ else{ -+ reg_val = phy_read(i,5); -+ ability = (reg_val&0x5e0) >>5; -+ if ((ability & 0x0C)) /* 100M */ -+ { -+// SPI_write(1,i,0x00,0x30050472); -+ if((ability&0x08)==0) // Half -+ mac_config = 0x00040004 |(17<<6); -+ else // Full -+ mac_config = 0x00040004 |(17<<6); -+ -+ SPI_write(1,i,0x00,((mac_config & 0xfffffff8) | 1) | 0x20000030); // reset port -+ mac_config |= (( BIT(i) << 19) | 0x08000000); -+ SPI_write(1,i,0x00,mac_config); -+ SPI_write(1,i,0x04,0x000300ff); // flow control -+ -+ reg_val = SPI_read(5,0,0x12); -+ reg_val &= ~BIT(i); -+ SPI_write(5,0,0x12,reg_val); -+ -+ reg_val = SPI_read(1,i,0x00); -+ reg_val &= ~0x08000000; -+ reg_val |= 0x10010000; -+ SPI_write(1,i,0x00,reg_val); -+// SPI_write(1,i,0x00,0x10050442); -+ printk("Port%d:100M\n",i); -+ switch_pre_link[i]=LINK_UP; -+ switch_pre_speed[i]=GMAC_SPEED_100; -+ } -+ else if((ability & 0x03)) /* 10M */ -+ { -+// SPI_write(1,i,0x00,0x30050473); -+ if((ability&0x2)==0) // Half -+ mac_config = 0x00040004 |(17<<6); -+ else // Full -+ mac_config = 0x00040004 |(17<<6); -+ -+ SPI_write(1,i,0x00,((mac_config & 0xfffffff8) | 1) | 0x20000030); // reset port -+ mac_config |= (( BIT(i) << 19) | 0x08000000); -+ SPI_write(1,i,0x00,mac_config); -+ SPI_write(1,i,0x04,0x000300ff); // flow control -+ -+ reg_val = SPI_read(5,0,0x12); -+ reg_val &= ~BIT(i); -+ SPI_write(5,0,0x12,reg_val); -+ -+ reg_val = SPI_read(1,i,0x00); -+ reg_val &= ~0x08000000; -+ reg_val |= 0x10010000; -+ SPI_write(1,i,0x00,reg_val); -+// SPI_write(1,i,0x00,0x10050443); -+ printk("Port%d:10M\n",i); -+ switch_pre_link[i]=LINK_UP; -+ switch_pre_speed[i]=GMAC_SPEED_10; -+ } -+ else{ -+ SPI_write(1,i,0x00,0x20000030); -+ printk("Port%d:Unknown mode\n",i); -+ switch_pre_link[i]=LINK_DOWN; -+ switch_pre_speed[i]=GMAC_SPEED_10; -+ } -+ } -+ } -+ else{ // Link up ==> Link UP -+ -+ } -+ } -+ else{ // Link Down -+ if(switch_pre_link[i]==LINK_UP){ -+ printk("Port%d:Link Down\n",i); -+ //phy_receiver_init(i); -+ reg_val = SPI_read(1,i,0); -+ reg_val &= ~BIT(16); -+ SPI_write(1,i,0x00,reg_val); // disable RX -+ SPI_write(5,0,0x0E,BIT(i)); // dicard packet -+ while((SPI_read(5,0,0x0C)&BIT(i))==0) // wait to be empty -+ msleep(1); -+ SPI_write(1,i,0x00,0x20000030); // PORT_RST -+ SPI_write(5,0,0x0E,SPI_read(5,0,0x0E) & ~BIT(i));// accept packet -+ -+ reg_val = SPI_read(5,0,0x12); -+ reg_val |= BIT(i); -+ SPI_write(5,0,0x12,reg_val); -+ } -+ switch_pre_link[i]=LINK_DOWN; -+ rcv_mask &= ~BIT(i); // disable receive -+ } -+ } -+ -+ SPI_write(2,0,0x10,rcv_mask); // Receive mask -+ return is_link; -+ -+} -+EXPORT_SYMBOL(Get_Set_port_status); -+ -+void SPI_write(unsigned char block,unsigned char subblock,unsigned char addr,unsigned int value) -+{ -+ int i; -+ char bit; -+ unsigned int data; -+ -+ SPI_CS_enable(1); -+ -+ data = (block<<5) | 0x10 | subblock; -+ -+ //send write command -+ for(i=SPI_OP_LEN-1;i>=0;i--) -+ { -+ bit = (data>>i)& 0x01; -+ SPI_write_bit(bit); -+ } -+ -+ // send 8 bits address (MSB first, LSB last) -+ for(i=SPI_ADD_LEN-1;i>=0;i--) -+ { -+ bit = (addr>>i)& 0x01; -+ SPI_write_bit(bit); -+ } -+ // send 32 bits data (MSB first, LSB last) -+ for(i=SPI_DAT_LEN-1;i>=0;i--) -+ { -+ bit = (value>>i)& 0x01; -+ SPI_write_bit(bit); -+ } -+ -+ SPI_CS_enable(0); // CS low -+ -+} -+ -+ -+/************************************ -+* SPI_write_bit -+* bit_EEDO -> 1 or 0 to be written -+************************************/ -+void SPI_write_bit(char bit_EEDO) -+{ -+ unsigned int addr; -+ unsigned int value; -+ -+ addr = (GPIO_BASE_ADDR1 + GPIO_PIN_DIR); -+ value = readl(addr) |GPIO_EECK |GPIO_MOSI ; /* set EECK/MISO Pin to output */ -+ writel(value,addr); -+ if(bit_EEDO) -+ { -+ addr = (GPIO_BASE_ADDR1 + GPIO_DATA_SET); -+ writel(GPIO_MOSI,addr); /* set MISO to 1 */ -+ -+ } -+ else -+ { -+ addr = (GPIO_BASE_ADDR1 + GPIO_DATA_CLEAR); -+ writel(GPIO_MOSI,addr); /* set MISO to 0 */ -+ } -+ addr = (GPIO_BASE_ADDR1 + GPIO_DATA_SET); -+ writel(GPIO_EECK,addr); /* set EECK to 1 */ -+ addr = (GPIO_BASE_ADDR1 + GPIO_DATA_CLEAR); -+ writel(GPIO_EECK,addr); /* set EECK to 0 */ -+ -+ //return ; -+} -+ -+/********************************************************************** -+* read a bit from ADM6996 register -+***********************************************************************/ -+unsigned int SPI_read_bit(void) // read data from -+{ -+ unsigned int addr; -+ unsigned int value; -+ -+ addr = (GPIO_BASE_ADDR1 + GPIO_PIN_DIR); -+ value = readl(addr) & (~GPIO_MISO); // set EECK to output and MISO to input -+ writel(value,addr); -+ -+ addr =(GPIO_BASE_ADDR1 + GPIO_DATA_SET); -+ writel(GPIO_EECK,addr); // set EECK to 1 -+ -+ -+ addr = (GPIO_BASE_ADDR1 + GPIO_DATA_IN); -+ value = readl(addr) ; -+ -+ addr = (GPIO_BASE_ADDR1 + GPIO_DATA_CLEAR); -+ writel(GPIO_EECK,addr); // set EECK to 0 -+ -+ -+ value = value >> 30; -+ return value ; -+} -+ -+/****************************************** -+* SPI_default -+* EEPROM content default value -+*******************************************/ -+int SPI_default(void) -+{ -+ int i; -+ unsigned reg_val,cmd; -+ -+#if 0 -+ SPI_write(7,0,0x1C,0x01); // map code space to 0 -+ -+ reg_val = SPI_read(7,0,0x10); -+ reg_val |= 0x0146; -+ reg_val &= ~0x0001; -+ SPI_write(7,0,0x10,reg_val); // reset iCPU and enable ext_access -+ SPI_write(7,0,0x11,0x0000); // start address -+ for(i=0;i<sizeof(vts_img);i++){ -+ SPI_write(7,0,0x12,vts_img[i]); // fill in ROM data -+ } -+ reg_val |= BIT(0)|BIT(3); -+ SPI_write(7,0,0x10,reg_val); // release iCPU -+ SPI_write(7,0,0x10,SPI_read(7,0,0x10)&~BIT(7)); // release iCPU -+ return ; -+#endif -+ -+ -+ for(i=0;i<15;i++){ -+ if(i!=6 && i!=7) -+ SPI_write(3,2,0,0x1010400+i); // Initial memory -+ mdelay(1); -+ } -+ -+ mdelay(30); -+ -+ SPI_write(2,0,0xB0,0x05); // Clear MAC table -+ SPI_write(2,0,0xD0,0x03); // Clear VLAN -+ -+ //for(i=0;i<5;i++) -+ SPI_write(1,6,0x19,0x2C); // Double Data rate -+ -+ for(i=0;i<4;i++){ -+ SPI_write(1,i,0x00,0x30050472); // MAC configure -+ SPI_write(1,i,0x00,0x10050442); // MAC configure -+ SPI_write(1,i,0x10,0x5F4); // Max length -+ SPI_write(1,i,0x04,0x00030000); // Flow control -+ SPI_write(1,i,0xDF,0x00000001); // Flow control -+ SPI_write(1,i,0x08,0x000050c2); // Flow control mac high -+ SPI_write(1,i,0x0C,0x002b00f1); // Flow control mac low -+ SPI_write(1,i,0x6E,BIT(3)); // forward pause frame -+ } -+ SPI_write(1,i,0x00,0x20000030); // set port 4 as reset -+ -+ SPI_write(1,6,0x00,0x300701B1); // MAC configure -+ SPI_write(1,6,0x00,0x10070181); // MAC configure -+ SPI_write(1,6,0x10,0x5F4); // Max length -+ SPI_write(1,6,0x04,0x00030000); // Flow control -+ SPI_write(1,6,0xDF,0x00000002); // Flow control -+ SPI_write(1,6,0x08,0x000050c2); // Flow control mac high -+ SPI_write(1,6,0x0C,0x002b00f1); // Flow control mac low -+ SPI_write(1,6,0x6E,BIT(3)); // forward pause frame -+ -+ -+ //SPI_write(7,0,0x05,0x31); // MII delay for loader -+ //SPI_write(7,0,0x05,0x01); // MII delay for kernel -+ SPI_write(7,0,0x05,0x33); -+ -+ SPI_write(2,0,0x10,0x4F); // Receive mask -+ -+ mdelay(50); -+ -+ SPI_write(7,0,0x14,0x02); // Release Reset -+ -+ mdelay(3); -+ -+ for(i=0;i<4;i++){ -+ init_seq_7385(i); -+ phy_receiver_init(i); -+ cmd = BIT(26)|(i<<21)|(0x1B<<16); // Config LED -+ SPI_write(3,0,1,cmd); -+ mdelay(10); -+ reg_val = SPI_read(3,0,2); -+ reg_val &= 0xFF00; -+ reg_val |= 0x61; -+ cmd = (i<<21)|(0x1B<<16)|reg_val; -+ SPI_write(3,0,1,cmd); -+ -+ cmd = BIT(26)|(i<<21)|(0x04<<16); // Pause enable -+ SPI_write(3,0,1,cmd); -+ mdelay(10); -+ reg_val = SPI_read(3,0,2); -+ reg_val |= BIT(10)|BIT(11); -+ cmd = (i<<21)|(0x04<<16)|reg_val; -+ SPI_write(3,0,1,cmd); -+ -+ cmd = BIT(26)|(i<<21)|(0x0<<16); // collision test and re-negotiation -+ SPI_write(3,0,1,cmd); -+ mdelay(10); -+ reg_val = SPI_read(3,0,2); -+ reg_val |= BIT(7)|BIT(8)|BIT(9); -+ cmd = (i<<21)|(0x0<<16)|reg_val; -+ SPI_write(3,0,1,cmd); -+ } -+ init_seq_7385(i); -+ writel(0x5787a7f0,GMAC_GLOBAL_BASE_ADDR+0x1c);//For switch timing -+ return 4; // return port_no -+} -+EXPORT_SYMBOL(SPI_default); -+ -+/*********************************************************** -+* SPI_CS_enable -+* before access ,you have to enable Chip Select. (pull high) -+* When fisish, you should pull low !! -+*************************************************************/ -+void SPI_CS_enable(unsigned char enable) -+{ -+ -+ unsigned int addr,value; -+ -+ addr = (GPIO_BASE_ADDR1 + GPIO_PIN_DIR); -+ value = readl(addr) |GPIO_EECS |GPIO_EECK; /* set EECS/EECK Pin to output */ -+ writel(value,addr); -+ -+ if(enable) -+ { -+ addr = (GPIO_BASE_ADDR1 + GPIO_DATA_CLEAR); -+ writel(GPIO_EECK,addr); /* set EECK to 0 */ // pull low clk first -+ addr = (GPIO_BASE_ADDR1 + GPIO_DATA_CLEAR); -+ writel(GPIO_EECS,addr); /* set EECS to 0 */ -+ -+ } -+ else -+ { -+ addr = (GPIO_BASE_ADDR1 + GPIO_DATA_SET); -+ writel(GPIO_EECK,addr); /* set EECK to 1 */ // pull high clk before disable -+ writel(GPIO_EECS,addr); /* set EECS to 1 */ -+ } -+} -+ -+ -+/************************************************ -+* SPI_read -+* table -> which table to be read: 1/count 0/EEPROM -+* addr -> Address to be read -+* return : Value of the register -+*************************************************/ -+unsigned int SPI_read(unsigned char block,unsigned char subblock,unsigned char addr) -+{ -+ int i; -+ char bit; -+ unsigned int data,value=0; -+ -+ SPI_CS_enable(1); -+ -+ data = (block<<5) | subblock; -+ -+ //send write command -+ for(i=SPI_OP_LEN-1;i>=0;i--) -+ { -+ bit = (data>>i)& 0x01; -+ SPI_write_bit(bit); -+ } -+ -+ // send 8 bits address (MSB first, LSB last) -+ for(i=SPI_ADD_LEN-1;i>=0;i--) -+ { -+ bit = (addr>>i)& 0x01; -+ SPI_write_bit(bit); -+ } -+ -+ // dummy read for chip ready -+ for(i=0;i<8;i++) -+ SPI_read_bit(); -+ -+ -+ // read 32 bits data (MSB first, LSB last) -+ for(i=SPI_DAT_LEN-1;i>=0;i--) -+ { -+ bit = SPI_read_bit(); -+ value |= bit<<i; -+ } -+ -+ SPI_CS_enable(0); // CS low -+ return(value); -+ -+} -+ -+void pull_low_gpio(unsigned int val) -+{ -+ -+ unsigned int addr,value; -+ -+ addr = (GPIO_BASE_ADDR1 + GPIO_DATA_CLEAR); -+ writel(val,addr); /* set pin low to save power*/ -+ -+ addr = (GPIO_BASE_ADDR1 + GPIO_PIN_DIR); -+ value = readl(addr) & ~ val; /* set Pin to input */ -+ writel(value,addr); -+ -+// value = readl(GMAC_GLOBAL_BASE_ADDR+0x0C); // reset GPIO1 module(self clear) -+// value |= BIT(21); -+// writel(value,GMAC_GLOBAL_BASE_ADDR+0x0C); -+} -+ -+unsigned int SPI_get_identifier(void) -+{ -+ unsigned int flag=0; -+ -+ SPI_write(7,0,0x01,0x01); -+ flag = SPI_read(7,0,0x18); // chip id -+ if((flag & 0x0ffff000)==0x07385000){ -+ printk("Get VSC-switch ID 0x%08x\n",flag); -+ //Giga_switch = 1;; -+ return 1; -+ } -+ else{ -+ printk("VSC-switch not found\n"); -+ //Giga_switch = 0; -+ pull_low_gpio(GPIO_EECK|GPIO_MOSI|GPIO_MISO|GPIO_EECS); // reduce power consume -+ return 0; -+ } -+} -+EXPORT_SYMBOL(SPI_get_identifier); -+ ---- /dev/null -+++ b/include/asm-arm/arch-sl2312/sl351x_gmac.h -@@ -0,0 +1,2223 @@ -+/**************************************************************************** -+* Copyright 2006 StorLink Semiconductors, Inc. All rights reserved. -+*-------------------------------------------------------------------------- -+* Name : sl351x_gmac.h -+* Description : -+* Define for device driver of Storlink SL351x network Engine -+* -+* Historych -+* -+* Date Writer Description -+* ----------- ----------- ------------------------------------------------- -+* 08/22/2005 Gary Chen Create and implement -+* -+****************************************************************************/ -+#ifndef _GMAC_SL351x_H -+#define _GMAC_SL351x_H -+#include <linux/skbuff.h> -+ -+#define SL351x_GMAC_WORKAROUND 1 -+ -+#undef BIG_ENDIAN -+#define BIG_ENDIAN 0 -+#define GMAC_DEBUG 1 -+#define GMAC_NUM 2 -+//#define L2_jumbo_frame 1 -+ -+#define _PACKED_ __attribute__ ((aligned(1), packed)) -+ -+#ifndef BIT -+#define BIT(x) (1 << (x)) -+#endif -+ -+#define REG32(addr) (*(volatile unsigned long * const)(addr)) -+ -+#define DMA_MALLOC(size,handle) pci_alloc_consistent(NULL,size,handle) -+#define DMA_MFREE(mem,size,handle) pci_free_consistent(NULL,size,mem,handle) -+ -+// Define frame size -+#define ETHER_ADDR_LEN 6 -+#define GMAC_MAX_ETH_FRAME_SIZE 1514 -+#define GMAC_TX_BUF_SIZE ((GMAC_MAX_ETH_FRAME_SIZE + 31) & (~31)) -+#define MAX_ISR_WORK 20 -+ -+#ifdef L2_jumbo_frame -+#define SW_RX_BUF_SIZE 9234 // 2048 ,9234 -+#else -+#define SW_RX_BUF_SIZE 1536 // 2048 -+#endif -+ -+#define HW_RX_BUF_SIZE 1536 // 2048 -+ -+#define GMAC_DEV_TX_TIMEOUT (10*HZ) //add by CH -+#define SKB_RESERVE_BYTES 16 -+ -+/********************************************************************** -+ * Base Register -+ **********************************************************************/ -+#define TOE_BASE (IO_ADDRESS(SL2312_TOE_BASE)) -+#define GMAC_GLOBAL_BASE_ADDR (IO_ADDRESS(SL2312_GLOBAL_BASE)) -+ -+#define TOE_GLOBAL_BASE (TOE_BASE + 0x0000) -+#define TOE_NONTOE_QUE_HDR_BASE (TOE_BASE + 0x2000) -+#define TOE_TOE_QUE_HDR_BASE (TOE_BASE + 0x3000) -+#define TOE_V_BIT_BASE (TOE_BASE + 0x4000) -+#define TOE_A_BIT_BASE (TOE_BASE + 0x6000) -+#define TOE_GMAC0_DMA_BASE (TOE_BASE + 0x8000) -+#define TOE_GMAC0_BASE (TOE_BASE + 0xA000) -+#define TOE_GMAC1_DMA_BASE (TOE_BASE + 0xC000) -+#define TOE_GMAC1_BASE (TOE_BASE + 0xE000) -+ -+/********************************************************************** -+ * Queue ID -+ **********************************************************************/ -+#define TOE_SW_FREE_QID 0x00 -+#define TOE_HW_FREE_QID 0x01 -+#define TOE_GMAC0_SW_TXQ0_QID 0x02 -+#define TOE_GMAC0_SW_TXQ1_QID 0x03 -+#define TOE_GMAC0_SW_TXQ2_QID 0x04 -+#define TOE_GMAC0_SW_TXQ3_QID 0x05 -+#define TOE_GMAC0_SW_TXQ4_QID 0x06 -+#define TOE_GMAC0_SW_TXQ5_QID 0x07 -+#define TOE_GMAC0_HW_TXQ0_QID 0x08 -+#define TOE_GMAC0_HW_TXQ1_QID 0x09 -+#define TOE_GMAC0_HW_TXQ2_QID 0x0A -+#define TOE_GMAC0_HW_TXQ3_QID 0x0B -+#define TOE_GMAC1_SW_TXQ0_QID 0x12 -+#define TOE_GMAC1_SW_TXQ1_QID 0x13 -+#define TOE_GMAC1_SW_TXQ2_QID 0x14 -+#define TOE_GMAC1_SW_TXQ3_QID 0x15 -+#define TOE_GMAC1_SW_TXQ4_QID 0x16 -+#define TOE_GMAC1_SW_TXQ5_QID 0x17 -+#define TOE_GMAC1_HW_TXQ0_QID 0x18 -+#define TOE_GMAC1_HW_TXQ1_QID 0x19 -+#define TOE_GMAC1_HW_TXQ2_QID 0x1A -+#define TOE_GMAC1_HW_TXQ3_QID 0x1B -+#define TOE_GMAC0_DEFAULT_QID 0x20 -+#define TOE_GMAC1_DEFAULT_QID 0x21 -+#define TOE_CLASSIFICATION_QID(x) (0x22 + x) // 0x22 ~ 0x2F -+#define TOE_TOE_QID(x) (0x40 + x) // 0x40 ~ 0x7F -+ -+/********************************************************************** -+ * TOE DMA Queue Number should be 2^n, n = 6...12 -+ * TOE DMA Queues are the following queue types: -+ * SW Free Queue, HW Free Queue, -+ * GMAC 0/1 SW TX Q0-5, and GMAC 0/1 HW TX Q0-5 -+ * They have same descriptor numbers. -+ * The base address and descriptor number are configured at -+ * DMA Queues Descriptor Ring Base Address/Size Register (offset 0x0004) -+ **********************************************************************/ -+#define TOE_SW_FREEQ_DESC_POWER 10 -+#define TOE_SW_FREEQ_DESC_NUM (1<<TOE_SW_FREEQ_DESC_POWER) -+#define TOE_HW_FREEQ_DESC_POWER 8 -+#define TOE_HW_FREEQ_DESC_NUM (1<<TOE_HW_FREEQ_DESC_POWER) -+#define TOE_GMAC0_SWTXQ_DESC_POWER 8 -+#define TOE_GMAC0_SWTXQ_DESC_NUM (1<<TOE_GMAC0_SWTXQ_DESC_POWER) -+#define TOE_GMAC0_HWTXQ_DESC_POWER 8 -+#define TOE_GMAC0_HWTXQ_DESC_NUM (1<<TOE_GMAC0_HWTXQ_DESC_POWER) -+#define TOE_GMAC1_SWTXQ_DESC_POWER 8 -+#define TOE_GMAC1_SWTXQ_DESC_NUM (1<<TOE_GMAC1_SWTXQ_DESC_POWER) -+#define TOE_GMAC1_HWTXQ_DESC_POWER 8 -+#define TOE_GMAC1_HWTXQ_DESC_NUM (1<<TOE_GMAC1_HWTXQ_DESC_POWER) -+#define TOE_DEFAULT_Q0_DESC_POWER 8 -+#define TOE_DEFAULT_Q0_DESC_NUM (1<<TOE_DEFAULT_Q0_DESC_POWER) -+#define TOE_DEFAULT_Q1_DESC_POWER 8 -+#define TOE_DEFAULT_Q1_DESC_NUM (1<<TOE_DEFAULT_Q1_DESC_POWER) -+#define TOE_TOE_DESC_POWER 8 -+#define TOE_TOE_DESC_NUM (1<<TOE_TOE_DESC_POWER) -+#define TOE_CLASS_DESC_POWER 8 -+#define TOE_CLASS_DESC_NUM (1<<TOE_CLASS_DESC_POWER) -+#define TOE_INTR_DESC_POWER 8 -+#define TOE_INTR_DESC_NUM (1<<TOE_INTR_DESC_POWER) -+ -+#define TOE_TOE_QUEUE_MAX 64 -+#define TOE_TOE_QUEUE_NUM 64 -+#define TOE_CLASS_QUEUE_MAX 14 -+#define TOE_CLASS_QUEUE_NUM 14 -+#define TOE_INTR_QUEUE_MAX 4 -+#define TOE_INTR_QUEUE_NUM 4 -+#define TOE_SW_TXQ_MAX 6 -+#define TOE_SW_TXQ_NUM 1 -+#define TOE_HW_TXQ_MAX 4 -+#define TOE_HW_TXQ_NUM 4 -+#define _max(x,y) ((x>y) ? x :y) -+#define TX_DESC_NUM _max(TOE_GMAC0_SWTXQ_DESC_NUM, TOE_GMAC1_SWTXQ_DESC_NUM) -+ -+#define RWPTR_ADVANCE_ONE(x, max) ((x == (max -1)) ? 0 : x+1) -+#define RWPTR_RECEDE_ONE(x, max) ((x == 0) ? (max -1) : x-1) -+#define SET_WPTR(addr, data) (*(volatile u16 * const)((u32)(addr)+2) = (u16)data) -+#define SET_RPTR(addr, data) (*(volatile u16 * const)((u32)(addr)) = (u16)data) -+ -+/********************************************************************** -+ * Global registers -+ * #define TOE_GLOBAL_BASE (TOE_BASE + 0x0000) -+ * Base 0x60000000 -+ **********************************************************************/ -+#define GLOBAL_TOE_VERSION_REG 0x0000 -+#define GLOBAL_SW_FREEQ_BASE_SIZE_REG 0x0004 -+#define GLOBAL_HW_FREEQ_BASE_SIZE_REG 0x0008 -+#define GLOBAL_DMA_SKB_SIZE_REG 0x0010 -+#define GLOBAL_SWFQ_RWPTR_REG 0x0014 -+#define GLOBAL_HWFQ_RWPTR_REG 0x0018 -+#define GLOBAL_INTERRUPT_STATUS_0_REG 0x0020 -+#define GLOBAL_INTERRUPT_ENABLE_0_REG 0x0024 -+#define GLOBAL_INTERRUPT_SELECT_0_REG 0x0028 -+#define GLOBAL_INTERRUPT_STATUS_1_REG 0x0030 -+#define GLOBAL_INTERRUPT_ENABLE_1_REG 0x0034 -+#define GLOBAL_INTERRUPT_SELECT_1_REG 0x0038 -+#define GLOBAL_INTERRUPT_STATUS_2_REG 0x0040 -+#define GLOBAL_INTERRUPT_ENABLE_2_REG 0x0044 -+#define GLOBAL_INTERRUPT_SELECT_2_REG 0x0048 -+#define GLOBAL_INTERRUPT_STATUS_3_REG 0x0050 -+#define GLOBAL_INTERRUPT_ENABLE_3_REG 0x0054 -+#define GLOBAL_INTERRUPT_SELECT_3_REG 0x0058 -+#define GLOBAL_INTERRUPT_STATUS_4_REG 0x0060 -+#define GLOBAL_INTERRUPT_ENABLE_4_REG 0x0064 -+#define GLOBAL_INTERRUPT_SELECT_4_REG 0x0068 -+#define GLOBAL_HASH_TABLE_BASE_REG 0x006C -+#define GLOBAL_QUEUE_THRESHOLD_REG 0x0070 -+ -+/********************************************************************** -+ * GMAC 0/1 DMA/TOE register -+ * #define TOE_GMAC0_DMA_BASE (TOE_BASE + 0x8000) -+ * #define TOE_GMAC1_DMA_BASE (TOE_BASE + 0xC000) -+ * Base 0x60008000 or 0x6000C000 -+ **********************************************************************/ -+#define GMAC_DMA_CTRL_REG 0x0000 -+#define GMAC_TX_WEIGHTING_CTRL_0_REG 0x0004 -+#define GMAC_TX_WEIGHTING_CTRL_1_REG 0x0008 -+#define GMAC_SW_TX_QUEUE0_PTR_REG 0x000C -+#define GMAC_SW_TX_QUEUE1_PTR_REG 0x0010 -+#define GMAC_SW_TX_QUEUE2_PTR_REG 0x0014 -+#define GMAC_SW_TX_QUEUE3_PTR_REG 0x0018 -+#define GMAC_SW_TX_QUEUE4_PTR_REG 0x001C -+#define GMAC_SW_TX_QUEUE5_PTR_REG 0x0020 -+#define GMAC_HW_TX_QUEUE0_PTR_REG 0x0024 -+#define GMAC_HW_TX_QUEUE1_PTR_REG 0x0028 -+#define GMAC_HW_TX_QUEUE2_PTR_REG 0x002C -+#define GMAC_HW_TX_QUEUE3_PTR_REG 0x0030 -+#define GMAC_DMA_TX_FIRST_DESC_REG 0x0038 -+#define GMAC_DMA_TX_CURR_DESC_REG 0x003C -+#define GMAC_DMA_TX_DESC_WORD0_REG 0x0040 -+#define GMAC_DMA_TX_DESC_WORD1_REG 0x0044 -+#define GMAC_DMA_TX_DESC_WORD2_REG 0x0048 -+#define GMAC_DMA_TX_DESC_WORD3_REG 0x004C -+#define GMAC_SW_TX_QUEUE_BASE_REG 0x0050 -+#define GMAC_HW_TX_QUEUE_BASE_REG 0x0054 -+#define GMAC_DMA_RX_FIRST_DESC_REG 0x0058 -+#define GMAC_DMA_RX_CURR_DESC_REG 0x005C -+#define GMAC_DMA_RX_DESC_WORD0_REG 0x0060 -+#define GMAC_DMA_RX_DESC_WORD1_REG 0x0064 -+#define GMAC_DMA_RX_DESC_WORD2_REG 0x0068 -+#define GMAC_DMA_RX_DESC_WORD3_REG 0x006C -+#define GMAC_HASH_ENGINE_REG0 0x0070 -+#define GMAC_HASH_ENGINE_REG1 0x0074 -+#define GMAC_MR0CR0 0x0078 // matching rule 0 Control register 0 -+#define GMAC_MR0CR1 0x007C // matching rule 0 Control register 1 -+#define GMAC_MR0CR2 0x0080 // matching rule 0 Control register 2 -+#define GMAC_MR1CR0 0x0084 // matching rule 1 Control register 0 -+#define GMAC_MR1CR1 0x0088 // matching rule 1 Control register 1 -+#define GMAC_MR1CR2 0x008C // matching rule 1 Control register 2 -+#define GMAC_MR2CR0 0x0090 // matching rule 2 Control register 0 -+#define GMAC_MR2CR1 0x0094 // matching rule 2 Control register 1 -+#define GMAC_MR2CR2 0x0098 // matching rule 2 Control register 2 -+#define GMAC_MR3CR0 0x009C // matching rule 3 Control register 0 -+#define GMAC_MR3CR1 0x00A0 // matching rule 3 Control register 1 -+#define GMAC_MR3CR2 0x00A4 // matching rule 3 Control register 2 -+#define GMAC_SPR0 0x00A8 // Support Protocol Regsister 0 -+#define GMAC_SPR1 0x00AC // Support Protocol Regsister 1 -+#define GMAC_SPR2 0x00B0 // Support Protocol Regsister 2 -+#define GMAC_SPR3 0x00B4 // Support Protocol Regsister 3 -+#define GMAC_SPR4 0x00B8 // Support Protocol Regsister 4 -+#define GMAC_SPR5 0x00BC // Support Protocol Regsister 5 -+#define GMAC_SPR6 0x00C0 // Support Protocol Regsister 6 -+#define GMAC_SPR7 0x00C4 // Support Protocol Regsister 7 -+#define GMAC_AHB_WEIGHT_REG 0x00C8 // GMAC Hash/Rx/Tx AHB Weighting register -+ -+/********************************************************************** -+ * TOE GMAC 0/1 register -+ * #define TOE_GMAC0_BASE (TOE_BASE + 0xA000) -+ * #define TOE_GMAC1_BASE (TOE_BASE + 0xE000) -+ * Base 0x6000A000 or 0x6000E000 -+ **********************************************************************/ -+enum GMAC_REGISTER { -+ GMAC_STA_ADD0 = 0x0000, -+ GMAC_STA_ADD1 = 0x0004, -+ GMAC_STA_ADD2 = 0x0008, -+ GMAC_RX_FLTR = 0x000c, -+ GMAC_MCAST_FIL0 = 0x0010, -+ GMAC_MCAST_FIL1 = 0x0014, -+ GMAC_CONFIG0 = 0x0018, -+ GMAC_CONFIG1 = 0x001c, -+ GMAC_CONFIG2 = 0x0020, -+ GMAC_CONFIG3 = 0x0024, -+ GMAC_RESERVED = 0x0028, -+ GMAC_STATUS = 0x002c, -+ GMAC_IN_DISCARDS= 0x0030, -+ GMAC_IN_ERRORS = 0x0034, -+ GMAC_IN_MCAST = 0x0038, -+ GMAC_IN_BCAST = 0x003c, -+ GMAC_IN_MAC1 = 0x0040, // for STA 1 MAC Address -+ GMAC_IN_MAC2 = 0x0044 // for STA 2 MAC Address -+}; -+/********************************************************************** -+ * TOE version Register (offset 0x0000) -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int reserved : 15; // bit 31:17 -+ unsigned int v_bit_mode : 1; // bit 16 1: 128-entry -+ unsigned int device_id : 12; // bit 15:4 Device ID -+ unsigned int revision_id : 4; // bit 3:0 Revision ID -+#else -+ unsigned int revision_id : 4; // bit 3:0 Revision ID -+ unsigned int device_id : 12; // bit 15:4 Device ID -+ unsigned int v_bit_mode : 1; // bit 16 1: 128-entry -+ unsigned int reserved : 15; // bit 31:17 -+#endif -+ } bits; -+} TOE_VERSION_T; -+ -+ -+/********************************************************************** -+ * DMA Queues description Ring Base Address/Size Register (offset 0x0004) -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ unsigned int base_size; -+} DMA_Q_BASE_SIZE_T; -+#define DMA_Q_BASE_MASK (~0x0f) -+ -+/********************************************************************** -+ * DMA SKB Buffer register (offset 0x0008) -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_0008 -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int hw_skb_size : 16; // bit 31:16 HW Free poll SKB Size -+ unsigned int sw_skb_size : 16; // bit 15:0 SW Free poll SKB Size -+#else -+ unsigned int sw_skb_size : 16; // bit 15:0 SW Free poll SKB Size -+ unsigned int hw_skb_size : 16; // bit 31:16 HW Free poll SKB Size -+#endif -+ } bits; -+} DMA_SKB_SIZE_T; -+ -+/********************************************************************** -+ * DMA SW Free Queue Read/Write Pointer Register (offset 0x000C) -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_000c -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int wptr : 16; // bit 31:16 Write Ptr, RW -+ unsigned int rptr : 16; // bit 15:0 Read Ptr, RO -+#else -+ unsigned int rptr : 16; // bit 15:0 Read Ptr, RO -+ unsigned int wptr : 16; // bit 31:16 Write Ptr, RW -+#endif -+ } bits; -+} DMA_RWPTR_T; -+ -+/********************************************************************** -+ * DMA HW Free Queue Read/Write Pointer Register (offset 0x0010) -+ **********************************************************************/ -+// see DMA_RWPTR_T structure -+ -+/********************************************************************** -+ * Interrupt Status Register 0 (offset 0x0020) -+ * Interrupt Mask Register 0 (offset 0x0024) -+ * Interrupt Select Register 0 (offset 0x0028) -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_0020 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int txDerr1 : 1; // bit 31 GMAC1 AHB Bus Error while Tx -+ unsigned int txPerr1 : 1; // bit 30 GMAC1 Tx Descriptor Protocol Error -+ unsigned int txDerr0 : 1; // bit 29 GMAC0 AHB Bus Error while Tx -+ unsigned int txPerr0 : 1; // bit 28 GMAC0 Tx Descriptor Protocol Error -+ unsigned int rxDerr1 : 1; // bit 27 GMAC1 AHB Bus Error while Rx -+ unsigned int rxPerr1 : 1; // bit 26 GMAC1 Rx Descriptor Protocol Error -+ unsigned int rxDerr0 : 1; // bit 25 GMAC0 AHB Bus Error while Rx -+ unsigned int rxPerr0 : 1; // bit 24 GMAC0 Rx Descriptor Protocol Error -+ unsigned int swtq15_fin : 1; // bit 23 GMAC1 SW Tx Queue 5 Finish Interrupt -+ unsigned int swtq14_fin : 1; // bit 22 GMAC1 SW Tx Queue 4 Finish Interrupt -+ unsigned int swtq13_fin : 1; // bit 21 GMAC1 SW Tx Queue 3 Finish Interrupt -+ unsigned int swtq12_fin : 1; // bit 20 GMAC1 SW Tx Queue 2 Finish Interrupt -+ unsigned int swtq11_fin : 1; // bit 19 GMAC1 SW Tx Queue 1 Finish Interrupt -+ unsigned int swtq10_fin : 1; // bit 18 GMAC1 SW Tx Queue 0 Finish Interrupt -+ unsigned int swtq05_fin : 1; // bit 17 GMAC0 SW Tx Queue 5 Finish Interrupt -+ unsigned int swtq04_fin : 1; // bit 16 GMAC0 SW Tx Queue 4 Finish Interrupt -+ unsigned int swtq03_fin : 1; // bit 15 GMAC0 SW Tx Queue 3 Finish Interrupt -+ unsigned int swtq02_fin : 1; // bit 14 GMAC0 SW Tx Queue 2 Finish Interrupt -+ unsigned int swtq01_fin : 1; // bit 13 GMAC0 SW Tx Queue 1 Finish Interrupt -+ unsigned int swtq00_fin : 1; // bit 12 GMAC0 SW Tx Queue 0 Finish Interrupt -+ unsigned int swtq15_eof : 1; // bit 11 GMAC1 SW Tx Queue 5 EOF Interrupt -+ unsigned int swtq14_eof : 1; // bit 10 GMAC1 SW Tx Queue 4 EOF Interrupt -+ unsigned int swtq13_eof : 1; // bit 9 GMAC1 SW Tx Queue 3 EOF Interrupt -+ unsigned int swtq12_eof : 1; // bit 8 GMAC1 SW Tx Queue 2 EOF Interrupt -+ unsigned int swtq11_eof : 1; // bit 7 GMAC1 SW Tx Queue 1 EOF Interrupt -+ unsigned int swtq10_eof : 1; // bit 6 GMAC1 SW Tx Queue 0 EOF Interrupt -+ unsigned int swtq05_eof : 1; // bit 5 GMAC0 SW Tx Queue 5 EOF Interrupt -+ unsigned int swtq04_eof : 1; // bit 4 GMAC0 SW Tx Queue 4 EOF Interrupt -+ unsigned int swtq03_eof : 1; // bit 3 GMAC0 SW Tx Queue 3 EOF Interrupt -+ unsigned int swtq02_eof : 1; // bit 2 GMAC0 SW Tx Queue 2 EOF Interrupt -+ unsigned int swtq01_eof : 1; // bit 1 GMAC0 SW Tx Queue 1 EOF Interrupt -+ unsigned int swtq00_eof : 1; // bit 0 GMAC0 SW Tx Queue 0 EOF Interrupt -+#else -+ unsigned int swtq00_eof : 1; // bit 0 GMAC0 SW Tx Queue 0 EOF Interrupt -+ unsigned int swtq01_eof : 1; // bit 1 GMAC0 SW Tx Queue 1 EOF Interrupt -+ unsigned int swtq02_eof : 1; // bit 2 GMAC0 SW Tx Queue 2 EOF Interrupt -+ unsigned int swtq03_eof : 1; // bit 3 GMAC0 SW Tx Queue 3 EOF Interrupt -+ unsigned int swtq04_eof : 1; // bit 4 GMAC0 SW Tx Queue 4 EOF Interrupt -+ unsigned int swtq05_eof : 1; // bit 5 GMAC0 SW Tx Queue 5 EOF Interrupt -+ unsigned int swtq10_eof : 1; // bit 6 GMAC1 SW Tx Queue 0 EOF Interrupt -+ unsigned int swtq11_eof : 1; // bit 7 GMAC1 SW Tx Queue 1 EOF Interrupt -+ unsigned int swtq12_eof : 1; // bit 8 GMAC1 SW Tx Queue 2 EOF Interrupt -+ unsigned int swtq13_eof : 1; // bit 9 GMAC1 SW Tx Queue 3 EOF Interrupt -+ unsigned int swtq14_eof : 1; // bit 10 GMAC1 SW Tx Queue 4 EOF Interrupt -+ unsigned int swtq15_eof : 1; // bit 11 GMAC1 SW Tx Queue 5 EOF Interrupt -+ unsigned int swtq00_fin : 1; // bit 12 GMAC0 SW Tx Queue 0 Finish Interrupt -+ unsigned int swtq01_fin : 1; // bit 13 GMAC0 SW Tx Queue 1 Finish Interrupt -+ unsigned int swtq02_fin : 1; // bit 14 GMAC0 SW Tx Queue 2 Finish Interrupt -+ unsigned int swtq03_fin : 1; // bit 15 GMAC0 SW Tx Queue 3 Finish Interrupt -+ unsigned int swtq04_fin : 1; // bit 16 GMAC0 SW Tx Queue 4 Finish Interrupt -+ unsigned int swtq05_fin : 1; // bit 17 GMAC0 SW Tx Queue 5 Finish Interrupt -+ unsigned int swtq10_fin : 1; // bit 18 GMAC1 SW Tx Queue 0 Finish Interrupt -+ unsigned int swtq11_fin : 1; // bit 19 GMAC1 SW Tx Queue 1 Finish Interrupt -+ unsigned int swtq12_fin : 1; // bit 20 GMAC1 SW Tx Queue 2 Finish Interrupt -+ unsigned int swtq13_fin : 1; // bit 21 GMAC1 SW Tx Queue 3 Finish Interrupt -+ unsigned int swtq14_fin : 1; // bit 22 GMAC1 SW Tx Queue 4 Finish Interrupt -+ unsigned int swtq15_fin : 1; // bit 23 GMAC1 SW Tx Queue 5 Finish Interrupt -+ unsigned int rxPerr0 : 1; // bit 24 GMAC0 Rx Descriptor Protocol Error -+ unsigned int rxDerr0 : 1; // bit 25 GMAC0 AHB Bus Error while Rx -+ unsigned int rxPerr1 : 1; // bit 26 GMAC1 Rx Descriptor Protocol Error -+ unsigned int rxDerr1 : 1; // bit 27 GMAC1 AHB Bus Error while Rx -+ unsigned int txPerr0 : 1; // bit 28 GMAC0 Tx Descriptor Protocol Error -+ unsigned int txDerr0 : 1; // bit 29 GMAC0 AHB Bus Error while Tx -+ unsigned int txPerr1 : 1; // bit 30 GMAC1 Tx Descriptor Protocol Error -+ unsigned int txDerr1 : 1; // bit 31 GMAC1 AHB Bus Error while Tx -+#endif -+ } bits; -+} INTR_REG0_T; -+ -+#define GMAC1_TXDERR_INT_BIT BIT(31) -+#define GMAC1_TXPERR_INT_BIT BIT(30) -+#define GMAC0_TXDERR_INT_BIT BIT(29) -+#define GMAC0_TXPERR_INT_BIT BIT(28) -+#define GMAC1_RXDERR_INT_BIT BIT(27) -+#define GMAC1_RXPERR_INT_BIT BIT(26) -+#define GMAC0_RXDERR_INT_BIT BIT(25) -+#define GMAC0_RXPERR_INT_BIT BIT(24) -+#define GMAC1_SWTQ15_FIN_INT_BIT BIT(23) -+#define GMAC1_SWTQ14_FIN_INT_BIT BIT(22) -+#define GMAC1_SWTQ13_FIN_INT_BIT BIT(21) -+#define GMAC1_SWTQ12_FIN_INT_BIT BIT(20) -+#define GMAC1_SWTQ11_FIN_INT_BIT BIT(19) -+#define GMAC1_SWTQ10_FIN_INT_BIT BIT(18) -+#define GMAC0_SWTQ05_FIN_INT_BIT BIT(17) -+#define GMAC0_SWTQ04_FIN_INT_BIT BIT(16) -+#define GMAC0_SWTQ03_FIN_INT_BIT BIT(15) -+#define GMAC0_SWTQ02_FIN_INT_BIT BIT(14) -+#define GMAC0_SWTQ01_FIN_INT_BIT BIT(13) -+#define GMAC0_SWTQ00_FIN_INT_BIT BIT(12) -+#define GMAC1_SWTQ15_EOF_INT_BIT BIT(11) -+#define GMAC1_SWTQ14_EOF_INT_BIT BIT(10) -+#define GMAC1_SWTQ13_EOF_INT_BIT BIT(9) -+#define GMAC1_SWTQ12_EOF_INT_BIT BIT(8) -+#define GMAC1_SWTQ11_EOF_INT_BIT BIT(7) -+#define GMAC1_SWTQ10_EOF_INT_BIT BIT(6) -+#define GMAC0_SWTQ05_EOF_INT_BIT BIT(5) -+#define GMAC0_SWTQ04_EOF_INT_BIT BIT(4) -+#define GMAC0_SWTQ03_EOF_INT_BIT BIT(3) -+#define GMAC0_SWTQ02_EOF_INT_BIT BIT(2) -+#define GMAC0_SWTQ01_EOF_INT_BIT BIT(1) -+#define GMAC0_SWTQ00_EOF_INT_BIT BIT(0) -+ -+ -+/********************************************************************** -+ * Interrupt Status Register 1 (offset 0x0030) -+ * Interrupt Mask Register 1 (offset 0x0034) -+ * Interrupt Select Register 1 (offset 0x0038) -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_0030 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int toe_iq3_full : 1; // bit 31 TOE Interrupt Queue 3 Full Interrupt -+ unsigned int toe_iq2_full : 1; // bit 30 TOE Interrupt Queue 2 Full Interrupt -+ unsigned int toe_iq1_full : 1; // bit 29 TOE Interrupt Queue 1 Full Interrupt -+ unsigned int toe_iq0_full : 1; // bit 28 TOE Interrupt Queue 0 Full Interrupt -+ unsigned int toe_iq3_intr : 1; // bit 27 TOE Interrupt Queue 3 with Interrupts -+ unsigned int toe_iq2_intr : 1; // bit 26 TOE Interrupt Queue 2 with Interrupts -+ unsigned int toe_iq1_intr : 1; // bit 25 TOE Interrupt Queue 1 with Interrupts -+ unsigned int toe_iq0_intr : 1; // bit 24 TOE Interrupt Queue 0 with Interrupts -+ unsigned int hwtq13_eof : 1; // bit 23 GMAC1 HW Tx Queue3 EOF Interrupt -+ unsigned int hwtq12_eof : 1; // bit 22 GMAC1 HW Tx Queue2 EOF Interrupt -+ unsigned int hwtq11_eof : 1; // bit 21 GMAC1 HW Tx Queue1 EOF Interrupt -+ unsigned int hwtq10_eof : 1; // bit 20 GMAC1 HW Tx Queue0 EOF Interrupt -+ unsigned int hwtq03_eof : 1; // bit 19 GMAC0 HW Tx Queue3 EOF Interrupt -+ unsigned int hwtq02_eof : 1; // bit 18 GMAC0 HW Tx Queue2 EOF Interrupt -+ unsigned int hwtq01_eof : 1; // bit 17 GMAC0 HW Tx Queue1 EOF Interrupt -+ unsigned int hwtq00_eof : 1; // bit 16 GMAC0 HW Tx Queue0 EOF Interrupt -+ unsigned int class_rx : 14; // bit 15:2 Classification Queue Rx Interrupt -+ unsigned int default_q1_eof : 1; // bit 1 Default Queue 1 EOF Interrupt -+ unsigned int default_q0_eof : 1; // bit 0 Default Queue 0 EOF Interrupt -+#else -+ unsigned int default_q0_eof : 1; // bit 0 Default Queue 0 EOF Interrupt -+ unsigned int default_q1_eof : 1; // bit 1 Default Queue 1 EOF Interrupt -+ unsigned int class_rx : 14; // bit 15:2 Classification Queue Rx Interrupt -+ unsigned int hwtq00_eof : 1; // bit 16 GMAC0 HW Tx Queue0 EOF Interrupt -+ unsigned int hwtq01_eof : 1; // bit 17 GMAC0 HW Tx Queue1 EOF Interrupt -+ unsigned int hwtq02_eof : 1; // bit 18 GMAC0 HW Tx Queue2 EOF Interrupt -+ unsigned int hwtq03_eof : 1; // bit 19 GMAC0 HW Tx Queue3 EOF Interrupt -+ unsigned int hwtq10_eof : 1; // bit 20 GMAC1 HW Tx Queue0 EOF Interrupt -+ unsigned int hwtq11_eof : 1; // bit 21 GMAC1 HW Tx Queue1 EOF Interrupt -+ unsigned int hwtq12_eof : 1; // bit 22 GMAC1 HW Tx Queue2 EOF Interrupt -+ unsigned int hwtq13_eof : 1; // bit 23 GMAC1 HW Tx Queue3 EOF Interrupt -+ unsigned int toe_iq0_intr : 1; // bit 24 TOE Interrupt Queue 0 with Interrupts -+ unsigned int toe_iq1_intr : 1; // bit 25 TOE Interrupt Queue 1 with Interrupts -+ unsigned int toe_iq2_intr : 1; // bit 26 TOE Interrupt Queue 2 with Interrupts -+ unsigned int toe_iq3_intr : 1; // bit 27 TOE Interrupt Queue 3 with Interrupts -+ unsigned int toe_iq0_full : 1; // bit 28 TOE Interrupt Queue 0 Full Interrupt -+ unsigned int toe_iq1_full : 1; // bit 29 TOE Interrupt Queue 1 Full Interrupt -+ unsigned int toe_iq2_full : 1; // bit 30 TOE Interrupt Queue 2 Full Interrupt -+ unsigned int toe_iq3_full : 1; // bit 31 TOE Interrupt Queue 3 Full Interrupt -+#endif -+ } bits; -+} INTR_REG1_T; -+ -+#define TOE_IQ3_FULL_INT_BIT BIT(31) -+#define TOE_IQ2_FULL_INT_BIT BIT(30) -+#define TOE_IQ1_FULL_INT_BIT BIT(29) -+#define TOE_IQ0_FULL_INT_BIT BIT(28) -+#define TOE_IQ3_INT_BIT BIT(27) -+#define TOE_IQ2_INT_BIT BIT(26) -+#define TOE_IQ1_INT_BIT BIT(25) -+#define TOE_IQ0_INT_BIT BIT(24) -+#define GMAC1_HWTQ13_EOF_INT_BIT BIT(23) -+#define GMAC1_HWTQ12_EOF_INT_BIT BIT(22) -+#define GMAC1_HWTQ11_EOF_INT_BIT BIT(21) -+#define GMAC1_HWTQ10_EOF_INT_BIT BIT(20) -+#define GMAC0_HWTQ03_EOF_INT_BIT BIT(19) -+#define GMAC0_HWTQ02_EOF_INT_BIT BIT(18) -+#define GMAC0_HWTQ01_EOF_INT_BIT BIT(17) -+#define GMAC0_HWTQ00_EOF_INT_BIT BIT(16) -+#define CLASS_RX_INT_BIT(x) BIT((x+2)) -+#define DEFAULT_Q1_INT_BIT BIT(1) -+#define DEFAULT_Q0_INT_BIT BIT(0) -+ -+#define TOE_IQ_INT_BITS (TOE_IQ0_INT_BIT | TOE_IQ1_INT_BIT | \ -+ TOE_IQ2_INT_BIT | TOE_IQ3_INT_BIT) -+#define TOE_IQ_FULL_BITS (TOE_IQ0_FULL_INT_BIT | TOE_IQ1_FULL_INT_BIT | \ -+ TOE_IQ2_FULL_INT_BIT | TOE_IQ3_FULL_INT_BIT) -+#define TOE_IQ_ALL_BITS (TOE_IQ_INT_BITS | TOE_IQ_FULL_BITS) -+#define TOE_CLASS_RX_INT_BITS 0xfffc -+ -+/********************************************************************** -+ * Interrupt Status Register 2 (offset 0x0040) -+ * Interrupt Mask Register 2 (offset 0x0044) -+ * Interrupt Select Register 2 (offset 0x0048) -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_0040 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int toe_q31_full : 1; // bit 31 TOE Queue 31 Full Interrupt -+ unsigned int toe_q30_full : 1; // bit 30 TOE Queue 30 Full Interrupt -+ unsigned int toe_q29_full : 1; // bit 29 TOE Queue 29 Full Interrupt -+ unsigned int toe_q28_full : 1; // bit 28 TOE Queue 28 Full Interrupt -+ unsigned int toe_q27_full : 1; // bit 27 TOE Queue 27 Full Interrupt -+ unsigned int toe_q26_full : 1; // bit 26 TOE Queue 26 Full Interrupt -+ unsigned int toe_q25_full : 1; // bit 25 TOE Queue 25 Full Interrupt -+ unsigned int toe_q24_full : 1; // bit 24 TOE Queue 24 Full Interrupt -+ unsigned int toe_q23_full : 1; // bit 23 TOE Queue 23 Full Interrupt -+ unsigned int toe_q22_full : 1; // bit 22 TOE Queue 22 Full Interrupt -+ unsigned int toe_q21_full : 1; // bit 21 TOE Queue 21 Full Interrupt -+ unsigned int toe_q20_full : 1; // bit 20 TOE Queue 20 Full Interrupt -+ unsigned int toe_q19_full : 1; // bit 19 TOE Queue 19 Full Interrupt -+ unsigned int toe_q18_full : 1; // bit 18 TOE Queue 18 Full Interrupt -+ unsigned int toe_q17_full : 1; // bit 17 TOE Queue 17 Full Interrupt -+ unsigned int toe_q16_full : 1; // bit 16 TOE Queue 16 Full Interrupt -+ unsigned int toe_q15_full : 1; // bit 15 TOE Queue 15 Full Interrupt -+ unsigned int toe_q14_full : 1; // bit 14 TOE Queue 14 Full Interrupt -+ unsigned int toe_q13_full : 1; // bit 13 TOE Queue 13 Full Interrupt -+ unsigned int toe_q12_full : 1; // bit 12 TOE Queue 12 Full Interrupt -+ unsigned int toe_q11_full : 1; // bit 11 TOE Queue 11 Full Interrupt -+ unsigned int toe_q10_full : 1; // bit 10 TOE Queue 10 Full Interrupt -+ unsigned int toe_q9_full : 1; // bit 9 TOE Queue 9 Full Interrupt -+ unsigned int toe_q8_full : 1; // bit 8 TOE Queue 8 Full Interrupt -+ unsigned int toe_q7_full : 1; // bit 7 TOE Queue 7 Full Interrupt -+ unsigned int toe_q6_full : 1; // bit 6 TOE Queue 6 Full Interrupt -+ unsigned int toe_q5_full : 1; // bit 5 TOE Queue 5 Full Interrupt -+ unsigned int toe_q4_full : 1; // bit 4 TOE Queue 4 Full Interrupt -+ unsigned int toe_q3_full : 1; // bit 3 TOE Queue 3 Full Interrupt -+ unsigned int toe_q2_full : 1; // bit 2 TOE Queue 2 Full Interrupt -+ unsigned int toe_q1_full : 1; // bit 1 TOE Queue 1 Full Interrupt -+ unsigned int toe_q0_full : 1; // bit 0 TOE Queue 0 Full Interrupt -+#else -+ unsigned int toe_q0_full : 1; // bit 0 TOE Queue 0 Full Interrupt -+ unsigned int toe_q1_full : 1; // bit 1 TOE Queue 1 Full Interrupt -+ unsigned int toe_q2_full : 1; // bit 2 TOE Queue 2 Full Interrupt -+ unsigned int toe_q3_full : 1; // bit 3 TOE Queue 3 Full Interrupt -+ unsigned int toe_q4_full : 1; // bit 4 TOE Queue 4 Full Interrupt -+ unsigned int toe_q5_full : 1; // bit 5 TOE Queue 5 Full Interrupt -+ unsigned int toe_q6_full : 1; // bit 6 TOE Queue 6 Full Interrupt -+ unsigned int toe_q7_full : 1; // bit 7 TOE Queue 7 Full Interrupt -+ unsigned int toe_q8_full : 1; // bit 8 TOE Queue 8 Full Interrupt -+ unsigned int toe_q9_full : 1; // bit 9 TOE Queue 9 Full Interrupt -+ unsigned int toe_q10_full : 1; // bit 10 TOE Queue 10 Full Interrupt -+ unsigned int toe_q11_full : 1; // bit 11 TOE Queue 11 Full Interrupt -+ unsigned int toe_q12_full : 1; // bit 12 TOE Queue 12 Full Interrupt -+ unsigned int toe_q13_full : 1; // bit 13 TOE Queue 13 Full Interrupt -+ unsigned int toe_q14_full : 1; // bit 14 TOE Queue 14 Full Interrupt -+ unsigned int toe_q15_full : 1; // bit 15 TOE Queue 15 Full Interrupt -+ unsigned int toe_q16_full : 1; // bit 16 TOE Queue 16 Full Interrupt -+ unsigned int toe_q17_full : 1; // bit 17 TOE Queue 17 Full Interrupt -+ unsigned int toe_q18_full : 1; // bit 18 TOE Queue 18 Full Interrupt -+ unsigned int toe_q19_full : 1; // bit 19 TOE Queue 19 Full Interrupt -+ unsigned int toe_q20_full : 1; // bit 20 TOE Queue 20 Full Interrupt -+ unsigned int toe_q21_full : 1; // bit 21 TOE Queue 21 Full Interrupt -+ unsigned int toe_q22_full : 1; // bit 22 TOE Queue 22 Full Interrupt -+ unsigned int toe_q23_full : 1; // bit 23 TOE Queue 23 Full Interrupt -+ unsigned int toe_q24_full : 1; // bit 24 TOE Queue 24 Full Interrupt -+ unsigned int toe_q25_full : 1; // bit 25 TOE Queue 25 Full Interrupt -+ unsigned int toe_q26_full : 1; // bit 26 TOE Queue 26 Full Interrupt -+ unsigned int toe_q27_full : 1; // bit 27 TOE Queue 27 Full Interrupt -+ unsigned int toe_q28_full : 1; // bit 28 TOE Queue 28 Full Interrupt -+ unsigned int toe_q29_full : 1; // bit 29 TOE Queue 29 Full Interrupt -+ unsigned int toe_q30_full : 1; // bit 30 TOE Queue 30 Full Interrupt -+ unsigned int toe_q31_full : 1; // bit 31 TOE Queue 31 Full Interrupt -+#endif -+ } bits; -+} INTR_REG2_T; -+ -+#define TOE_QL_FULL_INT_BIT(x) BIT(x) -+ -+/********************************************************************** -+ * Interrupt Status Register 3 (offset 0x0050) -+ * Interrupt Mask Register 3 (offset 0x0054) -+ * Interrupt Select Register 3 (offset 0x0058) -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_0050 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int toe_q63_full : 1; // bit 63 TOE Queue 63 Full Interrupt -+ unsigned int toe_q62_full : 1; // bit 62 TOE Queue 62 Full Interrupt -+ unsigned int toe_q61_full : 1; // bit 61 TOE Queue 61 Full Interrupt -+ unsigned int toe_q60_full : 1; // bit 60 TOE Queue 60 Full Interrupt -+ unsigned int toe_q59_full : 1; // bit 59 TOE Queue 59 Full Interrupt -+ unsigned int toe_q58_full : 1; // bit 58 TOE Queue 58 Full Interrupt -+ unsigned int toe_q57_full : 1; // bit 57 TOE Queue 57 Full Interrupt -+ unsigned int toe_q56_full : 1; // bit 56 TOE Queue 56 Full Interrupt -+ unsigned int toe_q55_full : 1; // bit 55 TOE Queue 55 Full Interrupt -+ unsigned int toe_q54_full : 1; // bit 54 TOE Queue 54 Full Interrupt -+ unsigned int toe_q53_full : 1; // bit 53 TOE Queue 53 Full Interrupt -+ unsigned int toe_q52_full : 1; // bit 52 TOE Queue 52 Full Interrupt -+ unsigned int toe_q51_full : 1; // bit 51 TOE Queue 51 Full Interrupt -+ unsigned int toe_q50_full : 1; // bit 50 TOE Queue 50 Full Interrupt -+ unsigned int toe_q49_full : 1; // bit 49 TOE Queue 49 Full Interrupt -+ unsigned int toe_q48_full : 1; // bit 48 TOE Queue 48 Full Interrupt -+ unsigned int toe_q47_full : 1; // bit 47 TOE Queue 47 Full Interrupt -+ unsigned int toe_q46_full : 1; // bit 46 TOE Queue 46 Full Interrupt -+ unsigned int toe_q45_full : 1; // bit 45 TOE Queue 45 Full Interrupt -+ unsigned int toe_q44_full : 1; // bit 44 TOE Queue 44 Full Interrupt -+ unsigned int toe_q43_full : 1; // bit 43 TOE Queue 43 Full Interrupt -+ unsigned int toe_q42_full : 1; // bit 42 TOE Queue 42 Full Interrupt -+ unsigned int toe_q41_full : 1; // bit 41 TOE Queue 41 Full Interrupt -+ unsigned int toe_q40_full : 1; // bit 40 TOE Queue 40 Full Interrupt -+ unsigned int toe_q39_full : 1; // bit 39 TOE Queue 39 Full Interrupt -+ unsigned int toe_q38_full : 1; // bit 38 TOE Queue 38 Full Interrupt -+ unsigned int toe_q37_full : 1; // bit 37 TOE Queue 37 Full Interrupt -+ unsigned int toe_q36_full : 1; // bit 36 TOE Queue 36 Full Interrupt -+ unsigned int toe_q35_full : 1; // bit 35 TOE Queue 35 Full Interrupt -+ unsigned int toe_q34_full : 1; // bit 34 TOE Queue 34 Full Interrupt -+ unsigned int toe_q33_full : 1; // bit 33 TOE Queue 33 Full Interrupt -+ unsigned int toe_q32_full : 1; // bit 32 TOE Queue 32 Full Interrupt -+#else -+ unsigned int toe_q32_full : 1; // bit 32 TOE Queue 32 Full Interrupt -+ unsigned int toe_q33_full : 1; // bit 33 TOE Queue 33 Full Interrupt -+ unsigned int toe_q34_full : 1; // bit 34 TOE Queue 34 Full Interrupt -+ unsigned int toe_q35_full : 1; // bit 35 TOE Queue 35 Full Interrupt -+ unsigned int toe_q36_full : 1; // bit 36 TOE Queue 36 Full Interrupt -+ unsigned int toe_q37_full : 1; // bit 37 TOE Queue 37 Full Interrupt -+ unsigned int toe_q38_full : 1; // bit 38 TOE Queue 38 Full Interrupt -+ unsigned int toe_q39_full : 1; // bit 39 TOE Queue 39 Full Interrupt -+ unsigned int toe_q40_full : 1; // bit 40 TOE Queue 40 Full Interrupt -+ unsigned int toe_q41_full : 1; // bit 41 TOE Queue 41 Full Interrupt -+ unsigned int toe_q42_full : 1; // bit 42 TOE Queue 42 Full Interrupt -+ unsigned int toe_q43_full : 1; // bit 43 TOE Queue 43 Full Interrupt -+ unsigned int toe_q44_full : 1; // bit 44 TOE Queue 44 Full Interrupt -+ unsigned int toe_q45_full : 1; // bit 45 TOE Queue 45 Full Interrupt -+ unsigned int toe_q46_full : 1; // bit 46 TOE Queue 46 Full Interrupt -+ unsigned int toe_q47_full : 1; // bit 47 TOE Queue 47 Full Interrupt -+ unsigned int toe_q48_full : 1; // bit 48 TOE Queue 48 Full Interrupt -+ unsigned int toe_q49_full : 1; // bit 49 TOE Queue 49 Full Interrupt -+ unsigned int toe_q50_full : 1; // bit 50 TOE Queue 50 Full Interrupt -+ unsigned int toe_q51_full : 1; // bit 51 TOE Queue 51 Full Interrupt -+ unsigned int toe_q52_full : 1; // bit 52 TOE Queue 52 Full Interrupt -+ unsigned int toe_q53_full : 1; // bit 53 TOE Queue 53 Full Interrupt -+ unsigned int toe_q54_full : 1; // bit 54 TOE Queue 54 Full Interrupt -+ unsigned int toe_q55_full : 1; // bit 55 TOE Queue 55 Full Interrupt -+ unsigned int toe_q56_full : 1; // bit 56 TOE Queue 56 Full Interrupt -+ unsigned int toe_q57_full : 1; // bit 57 TOE Queue 57 Full Interrupt -+ unsigned int toe_q58_full : 1; // bit 58 TOE Queue 58 Full Interrupt -+ unsigned int toe_q59_full : 1; // bit 59 TOE Queue 59 Full Interrupt -+ unsigned int toe_q60_full : 1; // bit 60 TOE Queue 60 Full Interrupt -+ unsigned int toe_q61_full : 1; // bit 61 TOE Queue 61 Full Interrupt -+ unsigned int toe_q62_full : 1; // bit 62 TOE Queue 62 Full Interrupt -+ unsigned int toe_q63_full : 1; // bit 63 TOE Queue 63 Full Interrupt -+#endif -+ } bits; -+} INTR_REG3_T; -+ -+#define TOE_QH_FULL_INT_BIT(x) BIT(x-32) -+ -+/********************************************************************** -+ * Interrupt Status Register 4 (offset 0x0060) -+ * Interrupt Mask Register 4 (offset 0x0064) -+ * Interrupt Select Register 4 (offset 0x0068) -+ **********************************************************************/ -+typedef union -+{ -+ unsigned char byte; -+ struct bit_0060 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned char reserved : 1; // -+ unsigned char cnt_full : 1; // MIB counters half full interrupt -+ unsigned char rx_pause_on : 1; // received pause on frame interrupt -+ unsigned char tx_pause_on : 1; // transmit pause on frame interrupt -+ unsigned char rx_pause_off : 1; // received pause off frame interrupt -+ unsigned char tx_pause_off : 1; // received pause off frame interrupt -+ unsigned char rx_overrun : 1; // GMAC Rx FIFO overrun interrupt -+ unsigned char status_changed: 1; // Status Changed Intr for RGMII Mode -+#else -+ unsigned char status_changed: 1; // Status Changed Intr for RGMII Mode -+ unsigned char rx_overrun : 1; // GMAC Rx FIFO overrun interrupt -+ unsigned char tx_pause_off : 1; // received pause off frame interrupt -+ unsigned char rx_pause_off : 1; // received pause off frame interrupt -+ unsigned char tx_pause_on : 1; // transmit pause on frame interrupt -+ unsigned char rx_pause_on : 1; // received pause on frame interrupt -+ unsigned char cnt_full : 1; // MIB counters half full interrupt -+ unsigned char reserved : 1; // -+#endif -+ } _PACKED_ bits; -+} _PACKED_ GMAC_INTR_T; -+ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_0060_2 -+ { -+#if (BIG_ENDIAN==1) -+ GMAC_INTR_T gmac1; -+ GMAC_INTR_T gmac0; -+ unsigned int class_qf_int: 14; // bit 15:2 Classification Rx Queue13-0 Full Intr. -+ unsigned int hwfq_empty : 1; // bit 1 Hardware Free Queue Empty Intr. -+ unsigned int swfq_empty : 1; // bit 0 Software Free Queue Empty Intr. -+#else -+#endif -+ unsigned int swfq_empty : 1; // bit 0 Software Free Queue Empty Intr. -+ unsigned int hwfq_empty : 1; // bit 1 Hardware Free Queue Empty Intr. -+ unsigned int class_qf_int: 14; // bit 15:2 Classification Rx Queue13-0 Full Intr. -+ GMAC_INTR_T gmac0; -+ GMAC_INTR_T gmac1; -+ } bits; -+} INTR_REG4_T; -+ -+#define GMAC1_RESERVED_INT_BIT BIT(31) -+#define GMAC1_MIB_INT_BIT BIT(30) -+#define GMAC1_RX_PAUSE_ON_INT_BIT BIT(29) -+#define GMAC1_TX_PAUSE_ON_INT_BIT BIT(28) -+#define GMAC1_RX_PAUSE_OFF_INT_BIT BIT(27) -+#define GMAC1_TX_PAUSE_OFF_INT_BIT BIT(26) -+#define GMAC1_RX_OVERRUN_INT_BIT BIT(25) -+#define GMAC1_STATUS_CHANGE_INT_BIT BIT(24) -+#define GMAC0_RESERVED_INT_BIT BIT(23) -+#define GMAC0_MIB_INT_BIT BIT(22) -+#define GMAC0_RX_PAUSE_ON_INT_BIT BIT(21) -+#define GMAC0_TX_PAUSE_ON_INT_BIT BIT(20) -+#define GMAC0_RX_PAUSE_OFF_INT_BIT BIT(19) -+#define GMAC0_TX_PAUSE_OFF_INT_BIT BIT(18) -+#define GMAC0_RX_OVERRUN_INT_BIT BIT(17) -+#define GMAC0_STATUS_CHANGE_INT_BIT BIT(16) -+#define CLASS_RX_FULL_INT_BIT(x) BIT((x+2)) -+#define HWFQ_EMPTY_INT_BIT BIT(1) -+#define SWFQ_EMPTY_INT_BIT BIT(0) -+ -+#if 1 -+#define GMAC0_INT_BITS (GMAC0_MIB_INT_BIT) -+#define GMAC1_INT_BITS (GMAC1_MIB_INT_BIT) -+#else -+#define GMAC0_INT_BITS (GMAC0_RESERVED_INT_BIT | GMAC0_MIB_INT_BIT | \ -+ GMAC0_RX_PAUSE_ON_INT_BIT | GMAC0_TX_PAUSE_ON_INT_BIT | \ -+ GMAC0_RX_PAUSE_OFF_INT_BIT | GMAC0_TX_PAUSE_OFF_INT_BIT | \ -+ GMAC0_RX_OVERRUN_INT_BIT | GMAC0_STATUS_CHANGE_INT_BIT) -+#define GMAC1_INT_BITS (GMAC1_RESERVED_INT_BIT | GMAC1_MIB_INT_BIT | \ -+ GMAC1_RX_PAUSE_ON_INT_BIT | GMAC1_TX_PAUSE_ON_INT_BIT | \ -+ GMAC1_RX_PAUSE_OFF_INT_BIT | GMAC1_TX_PAUSE_OFF_INT_BIT | \ -+ GMAC1_RX_OVERRUN_INT_BIT | GMAC1_STATUS_CHANGE_INT_BIT) -+#endif -+ -+#define CLASS_RX_FULL_INT_BITS 0xfffc -+ -+/********************************************************************** -+ * GLOBAL_QUEUE_THRESHOLD_REG (offset 0x0070) -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_0070_2 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int toe_class : 8; // 31:24 -+ unsigned int intrq : 8; // 23:16 -+ unsigned int hwfq_empty : 8; // 15:8 Hardware Free Queue Empty Threshold -+ unsigned int swfq_empty : 8; // 7:0 Software Free Queue Empty Threshold -+#else -+#endif -+ unsigned int swfq_empty : 8; // 7:0 Software Free Queue Empty Threshold -+ unsigned int hwfq_empty : 8; // 15:8 Hardware Free Queue Empty Threshold -+ unsigned int intrq : 8; // 23:16 -+ unsigned int toe_class : 8; // 31:24 -+ } bits; -+} QUEUE_THRESHOLD_T; -+ -+ -+/********************************************************************** -+ * GMAC DMA Control Register -+ * GMAC0 offset 0x8000 -+ * GMAC1 offset 0xC000 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_8000 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int rd_enable : 1; // bit 31 Rx DMA Enable -+ unsigned int td_enable : 1; // bit 30 Tx DMA Enable -+ unsigned int loopback : 1; // bit 29 Loopback TxDMA to RxDMA -+ unsigned int drop_small_ack : 1; // bit 28 1: Drop, 0: Accept -+ unsigned int reserved : 10; // bit 27:18 -+ unsigned int rd_insert_bytes : 2; // bit 17:16 -+ unsigned int rd_prot : 4; // bit 15:12 DMA Protection Control -+ unsigned int rd_burst_size : 2; // bit 11:10 DMA max burst size for every AHB request -+ unsigned int rd_bus : 2; // bit 9:8 Peripheral Bus Width -+ unsigned int td_prot : 4; // bit 7:4 TxDMA protection control -+ unsigned int td_burst_size : 2; // bit 3:2 TxDMA max burst size for every AHB request -+ unsigned int td_bus : 2; // bit 1:0 Peripheral Bus Width -+#else -+ unsigned int td_bus : 2; // bit 1:0 Peripheral Bus Width -+ unsigned int td_burst_size : 2; // bit 3:2 TxDMA max burst size for every AHB request -+ unsigned int td_prot : 4; // bit 7:4 TxDMA protection control -+ unsigned int rd_bus : 2; // bit 9:8 Peripheral Bus Width -+ unsigned int rd_burst_size : 2; // bit 11:10 DMA max burst size for every AHB request -+ unsigned int rd_prot : 4; // bit 15:12 DMA Protection Control -+ unsigned int rd_insert_bytes : 2; // bit 17:16 -+ unsigned int reserved : 10; // bit 27:18 -+ unsigned int drop_small_ack : 1; // bit 28 1: Drop, 0: Accept -+ unsigned int loopback : 1; // bit 29 Loopback TxDMA to RxDMA -+ unsigned int td_enable : 1; // bit 30 Tx DMA Enable -+ unsigned int rd_enable : 1; // bit 31 Rx DMA Enable -+#endif -+ } bits; -+} GMAC_DMA_CTRL_T; -+ -+/********************************************************************** -+ * GMAC Tx Weighting Control Register 0 -+ * GMAC0 offset 0x8004 -+ * GMAC1 offset 0xC004 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_8004 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int reserved : 8; // bit 31:24 -+ unsigned int hw_tq3 : 6; // bit 23:18 HW TX Queue 0 -+ unsigned int hw_tq2 : 6; // bit 17:12 HW TX Queue 1 -+ unsigned int hw_tq1 : 6; // bit 11:6 HW TX Queue 2 -+ unsigned int hw_tq0 : 6; // bit 5:0 HW TX Queue 3 -+#else -+ unsigned int hw_tq0 : 6; // bit 5:0 HW TX Queue 3 -+ unsigned int hw_tq1 : 6; // bit 11:6 HW TX Queue 2 -+ unsigned int hw_tq2 : 6; // bit 17:12 HW TX Queue 1 -+ unsigned int hw_tq3 : 6; // bit 23:18 HW TX Queue 0 -+ unsigned int reserved : 8; // bit 31:24 -+#endif -+ } bits; -+} GMAC_TX_WCR0_T; // Weighting Control Register 0 -+ -+/********************************************************************** -+ * GMAC Tx Weighting Control Register 1 -+ * GMAC0 offset 0x8008 -+ * GMAC1 offset 0xC008 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_8008 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int reserved : 2; // bit 31:30 -+ unsigned int sw_tq5 : 5; // bit 29:25 SW TX Queue 5 -+ unsigned int sw_tq4 : 5; // bit 24:20 SW TX Queue 4 -+ unsigned int sw_tq3 : 5; // bit 19:15 SW TX Queue 3 -+ unsigned int sw_tq2 : 5; // bit 14:10 SW TX Queue 2 -+ unsigned int sw_tq1 : 5; // bit 9:5 SW TX Queue 1 -+ unsigned int sw_tq0 : 5; // bit 4:0 SW TX Queue 0 -+#else -+ unsigned int sw_tq0 : 5; // bit 4:0 SW TX Queue 0 -+ unsigned int sw_tq1 : 5; // bit 9:5 SW TX Queue 1 -+ unsigned int sw_tq2 : 5; // bit 14:10 SW TX Queue 2 -+ unsigned int sw_tq3 : 5; // bit 19:15 SW TX Queue 3 -+ unsigned int sw_tq4 : 5; // bit 24:20 SW TX Queue 4 -+ unsigned int sw_tq5 : 5; // bit 29:25 SW TX Queue 5 -+ unsigned int reserved : 2; // bit 31:30 -+#endif -+ } bits; -+} GMAC_TX_WCR1_T; // Weighting Control Register 1 -+ -+/********************************************************************** -+ * Queue Read/Write Pointer -+ * GMAC SW TX Queue 0~5 Read/Write Pointer register -+ * GMAC0 offset 0x800C ~ 0x8020 -+ * GMAC1 offset 0xC00C ~ 0xC020 -+ * GMAC HW TX Queue 0~3 Read/Write Pointer register -+ * GMAC0 offset 0x8024 ~ 0x8030 -+ * GMAC1 offset 0xC024 ~ 0xC030 -+ **********************************************************************/ -+// see DMA_RWPTR_T structure -+ -+/********************************************************************** -+ * GMAC DMA Tx First Description Address Register -+ * GMAC0 offset 0x8038 -+ * GMAC1 offset 0xC038 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_8038 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int td_first_des_ptr : 28; // bit 31:4 first descriptor address -+ unsigned int td_busy : 1; // bit 3 1: TxDMA busy; 0: TxDMA idle -+ unsigned int reserved : 3; -+#else -+ unsigned int reserved : 3; -+ unsigned int td_busy : 1; // bit 3 1: TxDMA busy; 0: TxDMA idle -+ unsigned int td_first_des_ptr : 28; // bit 31:4 first descriptor address -+#endif -+ } bits; -+} GMAC_TXDMA_FIRST_DESC_T; -+ -+/********************************************************************** -+ * GMAC DMA Tx Current Description Address Register -+ * GMAC0 offset 0x803C -+ * GMAC1 offset 0xC03C -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_803C -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int td_curr_desc_ptr : 28; // bit 31:4 current descriptor address -+ unsigned int reserved : 4; -+#else -+ unsigned int reserved : 4; -+ unsigned int td_curr_desc_ptr : 28; // bit 31:4 current descriptor address -+#endif -+ } bits; -+} GMAC_TXDMA_CURR_DESC_T; -+ -+/********************************************************************** -+ * GMAC DMA Tx Description Word 0 Register -+ * GMAC0 offset 0x8040 -+ * GMAC1 offset 0xC040 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_8040 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int reserved : 1; // bit 31 -+ unsigned int derr : 1; // bit 30 data error during processing this descriptor -+ unsigned int perr : 1; // bit 29 protocol error during processing this descriptor -+ unsigned int status_rvd : 6; // bit 28:23 Tx Status, Reserved bits -+ unsigned int status_tx_ok : 1; // bit 22 Tx Status, 1: Successful 0: Failed -+ unsigned int desc_count : 6; // bit 21:16 number of descriptors used for the current frame -+ unsigned int buffer_size : 16; // bit 15:0 Transfer size -+#else -+ unsigned int buffer_size : 16; // bit 15:0 Transfer size -+ unsigned int desc_count : 6; // bit 21:16 number of descriptors used for the current frame -+ unsigned int status_tx_ok : 1; // bit 22 Tx Status, 1: Successful 0: Failed -+ unsigned int status_rvd : 6; // bit 28:23 Tx Status, Reserved bits -+ unsigned int perr : 1; // bit 29 protocol error during processing this descriptor -+ unsigned int derr : 1; // bit 30 data error during processing this descriptor -+ unsigned int reserved : 1; // bit 31 -+#endif -+ } bits; -+} GMAC_TXDESC_0_T; -+ -+/********************************************************************** -+ * GMAC DMA Tx Description Word 1 Register -+ * GMAC0 offset 0x8044 -+ * GMAC1 offset 0xC044 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct txdesc_word1 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int reserved : 9; // bit 31:23 Tx Flag, Reserved -+ unsigned int ip_fixed_len: 1; // bit 22 -+ unsigned int bypass_tss : 1; // bit 21 -+ unsigned int udp_chksum : 1; // bit 20 UDP Checksum Enable -+ unsigned int tcp_chksum : 1; // bit 19 TCP Checksum Enable -+ unsigned int ipv6_enable : 1; // bit 18 IPV6 Tx Enable -+ unsigned int ip_chksum : 1; // bit 17 IPV4 Header Checksum Enable -+ unsigned int mtu_enable : 1; // bit 16 TSS segmentation use MTU setting -+ unsigned int byte_count : 16; // bit 15: 0 Tx Frame Byte Count -+#else -+ unsigned int byte_count : 16; // bit 15: 0 Tx Frame Byte Count -+ unsigned int mtu_enable : 1; // bit 16 TSS segmentation use MTU setting -+ unsigned int ip_chksum : 1; // bit 17 IPV4 Header Checksum Enable -+ unsigned int ipv6_enable : 1; // bit 18 IPV6 Tx Enable -+ unsigned int tcp_chksum : 1; // bit 19 TCP Checksum Enable -+ unsigned int udp_chksum : 1; // bit 20 UDP Checksum Enable -+ unsigned int bypass_tss : 1; // bit 21 -+ unsigned int ip_fixed_len: 1; // bit 22 -+ unsigned int reserved : 9; // bit 31:23 Tx Flag, Reserved -+#endif -+ } bits; -+} GMAC_TXDESC_1_T; -+ -+#define TSS_IP_FIXED_LEN_BIT BIT(22) -+#define TSS_UDP_CHKSUM_BIT BIT(20) -+#define TSS_TCP_CHKSUM_BIT BIT(19) -+#define TSS_IPV6_ENABLE_BIT BIT(18) -+#define TSS_IP_CHKSUM_BIT BIT(17) -+#define TSS_MTU_ENABLE_BIT BIT(16) -+ -+/********************************************************************** -+ * GMAC DMA Tx Description Word 2 Register -+ * GMAC0 offset 0x8048 -+ * GMAC1 offset 0xC048 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ unsigned int buf_adr; -+} GMAC_TXDESC_2_T; -+ -+/********************************************************************** -+ * GMAC DMA Tx Description Word 3 Register -+ * GMAC0 offset 0x804C -+ * GMAC1 offset 0xC04C -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct txdesc_word3 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int sof_eof : 2; // bit 31:30 11: only one, 10: first, 01: last, 00: linking -+ unsigned int eofie : 1; // bit 29 End of frame interrupt enable -+ unsigned int reserved : 18; // bit 28:11 -+ unsigned int mtu_size : 11; // bit 10: 0 Tx Frame Byte Count -+#else -+ unsigned int mtu_size : 11; // bit 10: 0 Tx Frame Byte Count -+ unsigned int reserved : 18; // bit 28:11 -+ unsigned int eofie : 1; // bit 29 End of frame interrupt enable -+ unsigned int sof_eof : 2; // bit 31:30 11: only one, 10: first, 01: last, 00: linking -+#endif -+ } bits; -+} GMAC_TXDESC_3_T; -+#define SOF_EOF_BIT_MASK 0x3fffffff -+#define SOF_BIT 0x80000000 -+#define EOF_BIT 0x40000000 -+#define EOFIE_BIT BIT(29) -+#define MTU_SIZE_BIT_MASK 0x7ff -+ -+/********************************************************************** -+ * GMAC Tx Descriptor -+ **********************************************************************/ -+typedef struct -+{ -+ GMAC_TXDESC_0_T word0; -+ GMAC_TXDESC_1_T word1; -+ GMAC_TXDESC_2_T word2; -+ GMAC_TXDESC_3_T word3; -+} GMAC_TXDESC_T; -+ -+ -+/********************************************************************** -+ * GMAC DMA Rx First Description Address Register -+ * GMAC0 offset 0x8058 -+ * GMAC1 offset 0xC058 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_8058 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int rd_first_des_ptr : 28; // bit 31:4 first descriptor address -+ unsigned int rd_busy : 1; // bit 3 1-RxDMA busy; 0-RxDMA idle -+ unsigned int reserved : 3; // bit 2:0 -+#else -+ unsigned int reserved : 3; // bit 2:0 -+ unsigned int rd_busy : 1; // bit 3 1-RxDMA busy; 0-RxDMA idle -+ unsigned int rd_first_des_ptr : 28; // bit 31:4 first descriptor address -+#endif -+ } bits; -+} GMAC_RXDMA_FIRST_DESC_T; -+ -+/********************************************************************** -+ * GMAC DMA Rx Current Description Address Register -+ * GMAC0 offset 0x805C -+ * GMAC1 offset 0xC05C -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_805C -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int rd_curr_des_ptr : 28; // bit 31:4 current descriptor address -+ unsigned int reserved : 4; // bit 3:0 -+#else -+ unsigned int reserved : 4; // bit 3:0 -+ unsigned int rd_curr_des_ptr : 28; // bit 31:4 current descriptor address -+#endif -+ } bits; -+} GMAC_RXDMA_CURR_DESC_T; -+ -+/********************************************************************** -+ * GMAC DMA Rx Description Word 0 Register -+ * GMAC0 offset 0x8060 -+ * GMAC1 offset 0xC060 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_8060 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int drop : 1; // bit 31 TOE/CIS Queue Full dropped packet to default queue -+ unsigned int derr : 1; // bit 30 data error during processing this descriptor -+ unsigned int perr : 1; // bit 29 protocol error during processing this descriptor -+ unsigned int chksum_status : 3; // bit 28:26 Check Sum Status -+ unsigned int status : 4; // bit 24:22 Status of rx frame -+ unsigned int desc_count : 6; // bit 21:16 number of descriptors used for the current frame -+ unsigned int buffer_size : 16; // bit 15:0 number of descriptors used for the current frame -+#else -+ unsigned int buffer_size : 16; // bit 15:0 number of descriptors used for the current frame -+ unsigned int desc_count : 6; // bit 21:16 number of descriptors used for the current frame -+ unsigned int status : 4; // bit 24:22 Status of rx frame -+ unsigned int chksum_status : 3; // bit 28:26 Check Sum Status -+ unsigned int perr : 1; // bit 29 protocol error during processing this descriptor -+ unsigned int derr : 1; // bit 30 data error during processing this descriptor -+ unsigned int drop : 1; // bit 31 TOE/CIS Queue Full dropped packet to default queue -+#endif -+ } bits; -+} GMAC_RXDESC_0_T; -+ -+#define GMAC_RXDESC_0_T_derr BIT(30) -+#define GMAC_RXDESC_0_T_perr BIT(29) -+#define GMAC_RXDESC_0_T_chksum_status(x) BIT((x+26)) -+#define GMAC_RXDESC_0_T_status(x) BIT((x+22)) -+#define GMAC_RXDESC_0_T_desc_count(x) BIT((x+16)) -+ -+#define RX_CHKSUM_IP_UDP_TCP_OK 0 -+#define RX_CHKSUM_IP_OK_ONLY 1 -+#define RX_CHKSUM_NONE 2 -+#define RX_CHKSUM_IP_ERR_UNKNOWN 4 -+#define RX_CHKSUM_IP_ERR 5 -+#define RX_CHKSUM_TCP_UDP_ERR 6 -+#define RX_CHKSUM_NUM 8 -+ -+#define RX_STATUS_GOOD_FRAME 0 -+#define RX_STATUS_TOO_LONG_GOOD_CRC 1 -+#define RX_STATUS_RUNT_FRAME 2 -+#define RX_STATUS_SFD_NOT_FOUND 3 -+#define RX_STATUS_CRC_ERROR 4 -+#define RX_STATUS_TOO_LONG_BAD_CRC 5 -+#define RX_STATUS_ALIGNMENT_ERROR 6 -+#define RX_STATUS_TOO_LONG_BAD_ALIGN 7 -+#define RX_STATUS_RX_ERR 8 -+#define RX_STATUS_DA_FILTERED 9 -+#define RX_STATUS_BUFFER_FULL 10 -+#define RX_STATUS_NUM 16 -+ -+ -+/********************************************************************** -+ * GMAC DMA Rx Description Word 1 Register -+ * GMAC0 offset 0x8064 -+ * GMAC1 offset 0xC064 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct rxdesc_word1 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int sw_id : 16; // bit 31:16 Software ID -+ unsigned int byte_count : 16; // bit 15: 0 Rx Frame Byte Count -+#else -+ unsigned int byte_count : 16; // bit 15: 0 Rx Frame Byte Count -+ unsigned int sw_id : 16; // bit 31:16 Software ID -+#endif -+ } bits; -+} GMAC_RXDESC_1_T; -+ -+/********************************************************************** -+ * GMAC DMA Rx Description Word 2 Register -+ * GMAC0 offset 0x8068 -+ * GMAC1 offset 0xC068 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ unsigned int buf_adr; -+} GMAC_RXDESC_2_T; -+ -+#define RX_INSERT_NONE 0 -+#define RX_INSERT_1_BYTE 1 -+#define RX_INSERT_2_BYTE 2 -+#define RX_INSERT_3_BYTE 3 -+ -+#define RX_INSERT_BYTES RX_INSERT_2_BYTE -+/********************************************************************** -+ * GMAC DMA Rx Description Word 3 Register -+ * GMAC0 offset 0x806C -+ * GMAC1 offset 0xC06C -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct rxdesc_word3 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int sof_eof : 2; // bit 31:30 11: only one, 10: first, 01: last, 00: linking -+ unsigned int eofie : 1; // bit 29 End of frame interrupt enable -+ unsigned int ctrl_flag : 1; // bit 28 Control Flag is present -+ unsigned int out_of_seq : 1; // bit 27 Out of Sequence packet -+ unsigned int option : 1; // bit 26 IPV4 option or IPV6 extension header -+ unsigned int abnormal : 1; // bit 25 abnormal case found -+ unsigned int dup_ack : 1; // bit 24 Duplicated ACK detected -+ unsigned int l7_offset : 8; // bit 23: 16 L7 data offset -+ unsigned int l4_offset : 8; // bit 15: 8 L4 data offset -+ unsigned int l3_offset : 8; // bit 7: 0 L3 data offset -+#else -+ unsigned int l3_offset : 8; // bit 7: 0 L3 data offset -+ unsigned int l4_offset : 8; // bit 15: 8 L4 data offset -+ unsigned int l7_offset : 8; // bit 23: 16 L7 data offset -+ unsigned int dup_ack : 1; // bit 24 Duplicated ACK detected -+ unsigned int abnormal : 1; // bit 25 abnormal case found -+ unsigned int option : 1; // bit 26 IPV4 option or IPV6 extension header -+ unsigned int out_of_seq : 1; // bit 27 Out of Sequence packet -+ unsigned int ctrl_flag : 1; // bit 28 Control Flag is present -+ unsigned int eofie : 1; // bit 29 End of frame interrupt enable -+ unsigned int sof_eof : 2; // bit 31:30 11: only one, 10: first, 01: last, 00: linking -+#endif -+ } bits; -+} GMAC_RXDESC_3_T; -+ -+/********************************************************************** -+ * GMAC Rx Descriptor -+ **********************************************************************/ -+typedef struct -+{ -+ GMAC_RXDESC_0_T word0; -+ GMAC_RXDESC_1_T word1; -+ GMAC_RXDESC_2_T word2; -+ GMAC_RXDESC_3_T word3; -+} GMAC_RXDESC_T; -+ -+/********************************************************************** -+ * GMAC Hash Engine Enable/Action Register 0 Offset Register -+ * GMAC0 offset 0x8070 -+ * GMAC1 offset 0xC070 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_8070 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int mr1en : 1; // bit 31 Enable Matching Rule 1 -+ unsigned int reserved1 : 1; // bit 30 -+ unsigned int timing : 3; // bit 29:27 -+ unsigned int mr1_action : 5; // bit 26:22 Matching Rule 1 action offset -+ unsigned int mr1hel : 6; // bit 21:16 match rule 1 hash entry size -+ unsigned int mr0en : 1; // bit 15 Enable Matching Rule 0 -+ unsigned int reserved0 : 4; // bit 14:11 -+ unsigned int mr0_action : 5; // bit 10:6 Matching Rule 0 action offset -+ unsigned int mr0hel : 6; // bit 5:0 match rule 0 hash entry size -+#else -+ unsigned int mr0hel : 6; // bit 5:0 match rule 0 hash entry size -+ unsigned int mr0_action : 5; // bit 10:6 Matching Rule 0 action offset -+ unsigned int reserved0 : 4; // bit 14:11 -+ unsigned int mr0en : 1; // bit 15 Enable Matching Rule 0 -+ unsigned int mr1hel : 6; // bit 21:16 match rule 1 hash entry size -+ unsigned int mr1_action : 5; // bit 26:22 Matching Rule 1 action offset -+ unsigned int timing : 3; // bit 29:27 -+ unsigned int reserved1 : 1; // bit 30 -+ unsigned int mr1en : 1; // bit 31 Enable Matching Rule 1 -+#endif -+ } bits; -+} GMAC_HASH_ENABLE_REG0_T; -+ -+/********************************************************************** -+ * GMAC Hash Engine Enable/Action Register 1 Offset Register -+ * GMAC0 offset 0x8074 -+ * GMAC1 offset 0xC074 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_8074 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int mr3en : 1; // bit 31 Enable Matching Rule 3 -+ unsigned int reserved3 : 4; // bit 30:27 -+ unsigned int mr3_action : 5; // bit 26:22 Matching Rule 3 action offset -+ unsigned int mr3hel : 6; // bit 21:16 match rule 3 hash entry size -+ unsigned int mr2en : 1; // bit 15 Enable Matching Rule 2 -+ unsigned int reserved2 : 4; // bit 14:11 -+ unsigned int mr2_action : 5; // bit 10:6 Matching Rule 2 action offset -+ unsigned int mr2hel : 6; // bit 5:0 match rule 2 hash entry size -+#else -+ unsigned int mr2hel : 6; // bit 5:0 match rule 2 hash entry size -+ unsigned int mr2_action : 5; // bit 10:6 Matching Rule 2 action offset -+ unsigned int reserved2 : 4; // bit 14:11 -+ unsigned int mr2en : 1; // bit 15 Enable Matching Rule 2 -+ unsigned int mr3hel : 6; // bit 21:16 match rule 3 hash entry size -+ unsigned int mr3_action : 5; // bit 26:22 Matching Rule 3 action offset -+ unsigned int reserved1 : 4; // bit 30:27 -+ unsigned int mr3en : 1; // bit 31 Enable Matching Rule 3 -+#endif -+ } bits; -+} GMAC_HASH_ENABLE_REG1_T; -+ -+ -+/********************************************************************** -+ * GMAC Matching Rule Control Register 0 -+ * GMAC0 offset 0x8078 -+ * GMAC1 offset 0xC078 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_8078 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int l2 : 1; // bit 31 L2 matching enable -+ unsigned int l3 : 1; // bit 30 L3 matching enable -+ unsigned int l4 : 1; // bit 29 L4 matching enable -+ unsigned int l7 : 1; // bit 28 L7 matching enable -+ unsigned int port : 1; // bit 27 PORT ID matching enable -+ unsigned int priority : 3; // bit 26:24 priority if multi-rules matched -+ unsigned int da : 1; // bit 23 MAC DA enable -+ unsigned int sa : 1; // bit 22 MAC SA enable -+ unsigned int ether_type : 1; // bit 21 Ethernet type enable -+ unsigned int vlan : 1; // bit 20 VLAN ID enable -+ unsigned int pppoe : 1; // bit 19 PPPoE Session ID enable -+ unsigned int reserved1 : 3; // bit 18:16 -+ unsigned int ip_version : 1; // bit 15 0: IPV4, 1: IPV6 -+ unsigned int ip_hdr_len : 1; // bit 14 IPV4 Header length -+ unsigned int flow_lable : 1; // bit 13 IPV6 Flow label -+ unsigned int tos_traffic : 1; // bit 12 IPV4 TOS or IPV6 Traffice Class -+ unsigned int reserved2 : 4; // bit 11:8 -+ unsigned int sprx : 8; // bit 7:0 Support Protocol Register 7:0 -+#else -+ unsigned int sprx : 8; // bit 7:0 Support Protocol Register 7:0 -+ unsigned int reserved2 : 4; // bit 11:8 -+ unsigned int tos_traffic : 1; // bit 12 IPV4 TOS or IPV6 Traffice Class -+ unsigned int flow_lable : 1; // bit 13 IPV6 Flow label -+ unsigned int ip_hdr_len : 1; // bit 14 IPV4 Header length -+ unsigned int ip_version : 1; // bit 15 0: IPV4, 1: IPV6 -+ unsigned int reserved1 : 3; // bit 18:16 -+ unsigned int pppoe : 1; // bit 19 PPPoE Session ID enable -+ unsigned int vlan : 1; // bit 20 VLAN ID enable -+ unsigned int ether_type : 1; // bit 21 Ethernet type enable -+ unsigned int sa : 1; // bit 22 MAC SA enable -+ unsigned int da : 1; // bit 23 MAC DA enable -+ unsigned int priority : 3; // bit 26:24 priority if multi-rules matched -+ unsigned int port : 1; // bit 27 PORT ID matching enable -+ unsigned int l7 : 1; // bit 28 L7 matching enable -+ unsigned int l4 : 1; // bit 29 L4 matching enable -+ unsigned int l3 : 1; // bit 30 L3 matching enable -+ unsigned int l2 : 1; // bit 31 L2 matching enable -+#endif -+ } bits; -+} GMAC_MRxCR0_T; -+ -+#define MR_L2_BIT BIT(31) -+#define MR_L3_BIT BIT(30) -+#define MR_L4_BIT BIT(29) -+#define MR_L7_BIT BIT(28) -+#define MR_PORT_BIT BIT(27) -+#define MR_PRIORITY_BIT BIT(26) -+#define MR_DA_BIT BIT(23) -+#define MR_SA_BIT BIT(22) -+#define MR_ETHER_TYPE_BIT BIT(21) -+#define MR_VLAN_BIT BIT(20) -+#define MR_PPPOE_BIT BIT(19) -+#define MR_IP_VER_BIT BIT(15) -+#define MR_IP_HDR_LEN_BIT BIT(14) -+#define MR_FLOW_LABLE_BIT BIT(13) -+#define MR_TOS_TRAFFIC_BIT BIT(12) -+#define MR_SPR_BIT(x) BIT(x) -+#define MR_SPR_BITS 0xff -+ -+/********************************************************************** -+ * GMAC Matching Rule Control Register 1 -+ * GMAC0 offset 0x807C -+ * GMAC1 offset 0xC07C -+ **********************************************************************/ -+ typedef union -+{ -+ unsigned int bits32; -+ struct bit_807C -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int sip : 1; // bit 31 Srce IP -+ unsigned int sip_netmask : 7; // bit 30:24 Srce IP net mask, number of mask bits -+ unsigned int dip : 1; // bit 23 Dest IP -+ unsigned int dip_netmask : 7; // bit 22:16 Dest IP net mask, number of mask bits -+ unsigned int l4_byte0_15 : 16; // bit 15: 0 -+#else -+ unsigned int l4_byte0_15 : 16; // bit 15: 0 -+ unsigned int dip_netmask : 7; // bit 22:16 Dest IP net mask, number of mask bits -+ unsigned int dip : 1; // bit 23 Dest IP -+ unsigned int sip_netmask : 7; // bit 30:24 Srce IP net mask, number of mask bits -+ unsigned int sip : 1; // bit 31 Srce IP -+#endif -+ } bits; -+} GMAC_MRxCR1_T; -+ -+/********************************************************************** -+ * GMAC Matching Rule Control Register 2 -+ * GMAC0 offset 0x8080 -+ * GMAC1 offset 0xC080 -+ **********************************************************************/ -+ typedef union -+{ -+ unsigned int bits32; -+ struct bit_8080 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int l4_byte16_24: 8; // bit 31: 24 -+ unsigned int l7_byte0_23 : 24; // bit 23:0 -+#else -+ unsigned int l7_byte0_23 : 24; // bit 23:0 -+ unsigned int l4_byte16_24: 8; // bit 31: 24 -+#endif -+ } bits; -+} GMAC_MRxCR2_T; -+ -+ -+/********************************************************************** -+ * GMAC Support registers -+ * GMAC0 offset 0x80A8 -+ * GMAC1 offset 0xC0A8 -+ **********************************************************************/ -+ typedef union -+{ -+ unsigned int bits32; -+ struct bit_80A8 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int reserved: 21; // bit 31:11 -+ unsigned int swap : 3; // bit 10:8 Swap -+ unsigned int protocol: 8; // bit 7:0 Supported protocol -+#else -+ unsigned int protocol: 8; // bit 7:0 Supported protocol -+ unsigned int swap : 3; // bit 10:8 Swap -+ unsigned int reserved: 21; // bit 31:11 -+#endif -+ } bits; -+} GMAC_SPR_T; -+ -+/********************************************************************** -+ * GMAC_AHB_WEIGHT registers -+ * GMAC0 offset 0x80C8 -+ * GMAC1 offset 0xC0C8 -+ **********************************************************************/ -+ typedef union -+{ -+ unsigned int bits32; -+ struct bit_80C8 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int reserved : 7; // 31:25 -+ unsigned int tqDV_threshold : 5; // 24:20 DMA TqCtrl to Start tqDV FIFO Threshold -+ unsigned int pre_req : 5; // 19:15 Rx Data Pre Request FIFO Threshold -+ unsigned int tx_weight : 5; // 14:10 -+ unsigned int rx_weight : 5; // 9:5 -+ unsigned int hash_weight : 5; // 4:0 -+#else -+ unsigned int hash_weight : 5; // 4:0 -+ unsigned int rx_weight : 5; // 9:5 -+ unsigned int tx_weight : 5; // 14:10 -+ unsigned int pre_req : 5; // 19:15 Rx Data Pre Request FIFO Threshold -+ unsigned int tqDV_threshold : 5; // 24:20 DMA TqCtrl to Start tqDV FIFO Threshold -+ unsigned int reserved : 7; // 31:25 -+#endif -+ } bits; -+} GMAC_AHB_WEIGHT_T; -+/********************************************************************** -+ * the register structure of GMAC -+ **********************************************************************/ -+ -+/********************************************************************** -+ * GMAC RX FLTR -+ * GMAC0 Offset 0xA00C -+ * GMAC1 Offset 0xE00C -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_000c -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int : 27; -+ unsigned int error : 1; /* enable receive of all error frames */ -+ unsigned int promiscuous : 1; /* enable receive of all frames */ -+ unsigned int broadcast : 1; /* enable receive of broadcast frames */ -+ unsigned int multicast : 1; /* enable receive of multicast frames that pass multicast filter */ -+ unsigned int unicast : 1; /* enable receive of unicast frames that are sent to STA address */ -+#else -+ unsigned int unicast : 1; /* enable receive of unicast frames that are sent to STA address */ -+ unsigned int multicast : 1; /* enable receive of multicast frames that pass multicast filter */ -+ unsigned int broadcast : 1; /* enable receive of broadcast frames */ -+ unsigned int promiscuous : 1; /* enable receive of all frames */ -+ unsigned int error : 1; /* enable receive of all error frames */ -+ unsigned int : 27; -+#endif -+ } bits; -+} GMAC_RX_FLTR_T; -+ -+/********************************************************************** -+ * GMAC Configuration 0 -+ * GMAC0 Offset 0xA018 -+ * GMAC1 Offset 0xE018 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_0018 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int reserved : 2; // 31 -+ unsigned int port1_chk_classq : 1; // 29 -+ unsigned int port0_chk_classq : 1; // 28 -+ unsigned int port1_chk_toeq : 1; // 27 -+ unsigned int port0_chk_toeq : 1; // 26 -+ unsigned int port1_chk_hwq : 1; // 25 -+ unsigned int port0_chk_hwq : 1; // 24 -+ unsigned int rx_err_detect : 1; // 23 -+ unsigned int ipv6_exthdr_order: 1; // 22 -+ unsigned int rxc_inv : 1; // 21 -+ unsigned int rgmm_edge : 1; // 20 -+ unsigned int rx_tag_remove : 1; /* 19: Remove Rx VLAN tag */ -+ unsigned int ipv6_rx_chksum : 1; /* 18: IPv6 RX Checksum enable */ -+ unsigned int ipv4_rx_chksum : 1; /* 17: IPv4 RX Checksum enable */ -+ unsigned int rgmii_en : 1; /* 16: RGMII in-band status enable */ -+ unsigned int tx_fc_en : 1; /* 15: TX flow control enable */ -+ unsigned int rx_fc_en : 1; /* 14: RX flow control enable */ -+ unsigned int sim_test : 1; /* 13: speed up timers in simulation */ -+ unsigned int dis_col : 1; /* 12: disable 16 collisions abort function */ -+ unsigned int dis_bkoff : 1; /* 11: disable back-off function */ -+ unsigned int max_len : 3; /* 8-10 maximum receive frame length allowed */ -+ unsigned int adj_ifg : 4; /* 4-7: adjust IFG from 96+/-56 */ -+ unsigned int flow_ctrl : 1; /* 3: flow control also trigged by Rx queues */ -+ unsigned int loop_back : 1; /* 2: transmit data loopback enable */ -+ unsigned int dis_rx : 1; /* 1: disable receive */ -+ unsigned int dis_tx : 1; /* 0: disable transmit */ -+#else -+ unsigned int dis_tx : 1; /* 0: disable transmit */ -+ unsigned int dis_rx : 1; /* 1: disable receive */ -+ unsigned int loop_back : 1; /* 2: transmit data loopback enable */ -+ unsigned int flow_ctrl : 1; /* 3: flow control also trigged by Rx queues */ -+ unsigned int adj_ifg : 4; /* 4-7: adjust IFG from 96+/-56 */ -+ unsigned int max_len : 3; /* 8-10 maximum receive frame length allowed */ -+ unsigned int dis_bkoff : 1; /* 11: disable back-off function */ -+ unsigned int dis_col : 1; /* 12: disable 16 collisions abort function */ -+ unsigned int sim_test : 1; /* 13: speed up timers in simulation */ -+ unsigned int rx_fc_en : 1; /* 14: RX flow control enable */ -+ unsigned int tx_fc_en : 1; /* 15: TX flow control enable */ -+ unsigned int rgmii_en : 1; /* 16: RGMII in-band status enable */ -+ unsigned int ipv4_rx_chksum : 1; /* 17: IPv4 RX Checksum enable */ -+ unsigned int ipv6_rx_chksum : 1; /* 18: IPv6 RX Checksum enable */ -+ unsigned int rx_tag_remove : 1; /* 19: Remove Rx VLAN tag */ -+ unsigned int rgmm_edge : 1; // 20 -+ unsigned int rxc_inv : 1; // 21 -+ unsigned int ipv6_exthdr_order: 1; // 22 -+ unsigned int rx_err_detect : 1; // 23 -+ unsigned int port0_chk_hwq : 1; // 24 -+ unsigned int port1_chk_hwq : 1; // 25 -+ unsigned int port0_chk_toeq : 1; // 26 -+ unsigned int port1_chk_toeq : 1; // 27 -+ unsigned int port0_chk_classq : 1; // 28 -+ unsigned int port1_chk_classq : 1; // 29 -+ unsigned int reserved : 2; // 31 -+#endif -+ } bits; -+} GMAC_CONFIG0_T; -+ -+/********************************************************************** -+ * GMAC Configuration 1 -+ * GMAC0 Offset 0xA01C -+ * GMAC1 Offset 0xE01C -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_001c -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int reserved : 16; -+ unsigned int rel_threshold : 8; /* flow control release threshold */ -+ unsigned int set_threshold : 8; /* flow control set threshold */ -+#else -+ unsigned int set_threshold : 8; /* flow control set threshold */ -+ unsigned int rel_threshold : 8; /* flow control release threshold */ -+ unsigned int reserved : 16; -+#endif -+ } bits; -+} GMAC_CONFIG1_T; -+ -+#define GMAC_FLOWCTRL_SET_MAX 32 -+#define GMAC_FLOWCTRL_SET_MIN 0 -+#define GMAC_FLOWCTRL_RELEASE_MAX 32 -+#define GMAC_FLOWCTRL_RELEASE_MIN 0 -+ -+/********************************************************************** -+ * GMAC Configuration 2 -+ * GMAC0 Offset 0xA020 -+ * GMAC1 Offset 0xE020 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_0020 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int rel_threshold : 16; /* flow control release threshold */ -+ unsigned int set_threshold : 16; /* flow control set threshold */ -+#else -+ unsigned int set_threshold : 16; /* flow control set threshold */ -+ unsigned int rel_threshold : 16; /* flow control release threshold */ -+#endif -+ } bits; -+} GMAC_CONFIG2_T; -+ -+/********************************************************************** -+ * GMAC Configuration 3 -+ * GMAC0 Offset 0xA024 -+ * GMAC1 Offset 0xE024 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_0024 -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int rel_threshold : 16; /* flow control release threshold */ -+ unsigned int set_threshold : 16; /* flow control set threshold */ -+#else -+ unsigned int set_threshold : 16; /* flow control set threshold */ -+ unsigned int rel_threshold : 16; /* flow control release threshold */ -+#endif -+ } bits; -+} GMAC_CONFIG3_T; -+ -+ -+/********************************************************************** -+ * GMAC STATUS -+ * GMAC0 Offset 0xA02C -+ * GMAC1 Offset 0xE02C -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit1_002c -+ { -+#if (BIG_ENDIAN==1) -+ unsigned int : 25; -+ unsigned int mii_rmii : 2; /* PHY interface type */ -+ unsigned int reserved : 1; -+ unsigned int duplex : 1; /* duplex mode */ -+ unsigned int speed : 2; /* link speed(00->2.5M 01->25M 10->125M) */ -+ unsigned int link : 1; /* link status */ -+#else -+ unsigned int link : 1; /* link status */ -+ unsigned int speed : 2; /* link speed(00->2.5M 01->25M 10->125M) */ -+ unsigned int duplex : 1; /* duplex mode */ -+ unsigned int reserved : 1; -+ unsigned int mii_rmii : 2; /* PHY interface type */ -+ unsigned int : 25; -+#endif -+ } bits; -+} GMAC_STATUS_T; -+ -+#define GMAC_SPEED_10 0 -+#define GMAC_SPEED_100 1 -+#define GMAC_SPEED_1000 2 -+ -+#define GMAC_PHY_MII 0 -+#define GMAC_PHY_GMII 1 -+#define GMAC_PHY_RGMII_100 2 -+#define GMAC_PHY_RGMII_1000 3 -+ -+/********************************************************************** -+ * Queue Header -+ * (1) TOE Queue Header -+ * (2) Non-TOE Queue Header -+ * (3) Interrupt Queue Header -+ * -+ * memory Layout -+ * TOE Queue Header -+ * 0x60003000 +---------------------------+ 0x0000 -+ * | TOE Queue 0 Header | -+ * | 8 * 4 Bytes | -+ * +---------------------------+ 0x0020 -+ * | TOE Queue 1 Header | -+ * | 8 * 4 Bytes | -+ * +---------------------------+ 0x0040 -+ * | ...... | -+ * | | -+ * +---------------------------+ -+ * -+ * Non TOE Queue Header -+ * 0x60002000 +---------------------------+ 0x0000 -+ * | Default Queue 0 Header | -+ * | 2 * 4 Bytes | -+ * +---------------------------+ 0x0008 -+ * | Default Queue 1 Header | -+ * | 2 * 4 Bytes | -+ * +---------------------------+ 0x0010 -+ * | Classification Queue 0 | -+ * | 2 * 4 Bytes | -+ * +---------------------------+ -+ * | Classification Queue 1 | -+ * | 2 * 4 Bytes | -+ * +---------------------------+ (n * 8 + 0x10) -+ * | ... | -+ * | 2 * 4 Bytes | -+ * +---------------------------+ (13 * 8 + 0x10) -+ * | Classification Queue 13 | -+ * | 2 * 4 Bytes | -+ * +---------------------------+ 0x80 -+ * | Interrupt Queue 0 | -+ * | 2 * 4 Bytes | -+ * +---------------------------+ -+ * | Interrupt Queue 1 | -+ * | 2 * 4 Bytes | -+ * +---------------------------+ -+ * | Interrupt Queue 2 | -+ * | 2 * 4 Bytes | -+ * +---------------------------+ -+ * | Interrupt Queue 3 | -+ * | 2 * 4 Bytes | -+ * +---------------------------+ -+ * -+ **********************************************************************/ -+#define TOE_QUEUE_HDR_ADDR(n) (TOE_TOE_QUE_HDR_BASE + n * 32) -+#define TOE_Q_HDR_AREA_END (TOE_QUEUE_HDR_ADDR(TOE_TOE_QUEUE_MAX+1)) -+#define TOE_DEFAULT_Q0_HDR_BASE (TOE_NONTOE_QUE_HDR_BASE + 0x00) -+#define TOE_DEFAULT_Q1_HDR_BASE (TOE_NONTOE_QUE_HDR_BASE + 0x08) -+#define TOE_CLASS_Q_HDR_BASE (TOE_NONTOE_QUE_HDR_BASE + 0x10) -+#define TOE_INTR_Q_HDR_BASE (TOE_NONTOE_QUE_HDR_BASE + 0x80) -+#define INTERRUPT_QUEUE_HDR_ADDR(n) (TOE_INTR_Q_HDR_BASE + n * 8) -+#define NONTOE_Q_HDR_AREA_END (INTERRUPT_QUEUE_HDR_ADDR(TOE_INTR_QUEUE_MAX+1)) -+/********************************************************************** -+ * TOE Queue Header Word 0 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ unsigned int base_size; -+} TOE_QHDR0_T; -+ -+#define TOE_QHDR0_BASE_MASK (~0x0f) -+ -+/********************************************************************** -+ * TOE Queue Header Word 1 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_qhdr1 -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int wptr : 16; // bit 31:16 -+ unsigned int rptr : 16; // bit 15:0 -+#else -+ unsigned int rptr : 16; // bit 15:0 -+ unsigned int wptr : 16; // bit 31:16 -+#endif -+ } bits; -+} TOE_QHDR1_T; -+ -+/********************************************************************** -+ * TOE Queue Header Word 2 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_qhdr2 -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int usd : 1; // bit 31 0: if no data assembled yet -+ unsigned int ctl : 1; // bit 30 1: have control flag bits (except ack) -+ unsigned int osq : 1; // bit 29 1: out of sequence -+ unsigned int sat : 1; // bit 28 1: SeqCnt > SeqThreshold, or AckCnt > AckThreshold -+ unsigned int ip_opt : 1; // bit 27 1: have IPV4 option or IPV6 Extension header -+ unsigned int tcp_opt : 1; // bit 26 1: Have TCP option -+ unsigned int abn : 1; // bit 25 1: Abnormal case Found -+ unsigned int dack : 1; // bit 24 1: Duplicated ACK -+ unsigned int reserved : 7; // bit 23:17 -+ unsigned int TotalPktSize : 17; // bit 16: 0 Total packet size -+#else -+ unsigned int TotalPktSize : 17; // bit 16: 0 Total packet size -+ unsigned int reserved : 7; // bit 23:17 -+ unsigned int dack : 1; // bit 24 1: Duplicated ACK -+ unsigned int abn : 1; // bit 25 1: Abnormal case Found -+ unsigned int tcp_opt : 1; // bit 26 1: Have TCP option -+ unsigned int ip_opt : 1; // bit 27 1: have IPV4 option or IPV6 Extension header -+ unsigned int sat : 1; // bit 28 1: SeqCnt > SeqThreshold, or AckCnt > AckThreshold -+ unsigned int osq : 1; // bit 29 1: out of sequence -+ unsigned int ctl : 1; // bit 30 1: have control flag bits (except ack) -+ unsigned int usd : 1; // bit 31 0: if no data assembled yet -+#endif -+ } bits; -+} TOE_QHDR2_T; -+ -+/********************************************************************** -+ * TOE Queue Header Word 3 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ unsigned int seq_num; -+} TOE_QHDR3_T; -+ -+/********************************************************************** -+ * TOE Queue Header Word 4 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ unsigned int ack_num; -+} TOE_QHDR4_T; -+ -+/********************************************************************** -+ * TOE Queue Header Word 5 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_qhdr5 -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int SeqCnt : 16; // bit 31:16 -+ unsigned int AckCnt : 16; // bit 15:0 -+#else -+ unsigned int AckCnt : 16; // bit 15:0 -+ unsigned int SeqCnt : 16; // bit 31:16 -+#endif -+ } bits; -+} TOE_QHDR5_T; -+ -+/********************************************************************** -+ * TOE Queue Header Word 6 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_qhdr6 -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int MaxPktSize : 14; // bit 31:18 -+ unsigned int iq_num : 2; // bit 17:16 -+ unsigned int WinSize : 16; // bit 15:0 -+#else -+ unsigned int WinSize : 16; // bit 15:0 -+ unsigned int iq_num : 2; // bit 17:16 -+ unsigned int MaxPktSize : 14; // bit 31:18 -+#endif -+ } bits; -+} TOE_QHDR6_T; -+ -+/********************************************************************** -+ * TOE Queue Header Word 7 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_qhdr7 -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int SeqThreshold : 16; // bit 31:16 -+ unsigned int AckThreshold : 16; // bit 15:0 -+#else -+ unsigned int AckThreshold : 16; // bit 15:0 -+ unsigned int SeqThreshold : 16; // bit 31:16 -+#endif -+ } bits; -+} TOE_QHDR7_T; -+ -+/********************************************************************** -+ * TOE Queue Header -+ **********************************************************************/ -+typedef struct -+{ -+ TOE_QHDR0_T word0; -+ TOE_QHDR1_T word1; -+ TOE_QHDR2_T word2; -+ TOE_QHDR3_T word3; -+ TOE_QHDR4_T word4; -+ TOE_QHDR5_T word5; -+ TOE_QHDR6_T word6; -+ TOE_QHDR7_T word7; -+} TOE_QHDR_T; -+ -+/********************************************************************** -+ * NONTOE Queue Header Word 0 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ unsigned int base_size; -+} NONTOE_QHDR0_T; -+ -+#define NONTOE_QHDR0_BASE_MASK (~0x0f) -+ -+/********************************************************************** -+ * NONTOE Queue Header Word 1 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_nonqhdr1 -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int wptr : 16; // bit 31:16 -+ unsigned int rptr : 16; // bit 15:0 -+#else -+ unsigned int rptr : 16; // bit 15:0 -+ unsigned int wptr : 16; // bit 31:16 -+#endif -+ } bits; -+} NONTOE_QHDR1_T; -+ -+/********************************************************************** -+ * Non-TOE Queue Header -+ **********************************************************************/ -+typedef struct -+{ -+ NONTOE_QHDR0_T word0; -+ NONTOE_QHDR1_T word1; -+} NONTOE_QHDR_T; -+ -+/********************************************************************** -+ * Interrupt Queue Header Word 0 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_intrqhdr0 -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int wptr : 16; // bit 31:16 Write Pointer where hw stopped -+ unsigned int win_size : 16; // bit 15:0 Descriptor Ring Size -+#else -+ unsigned int win_size : 16; // bit 15:0 Descriptor Ring Size -+ unsigned int wptr : 16; // bit 31:16 Write Pointer where hw stopped -+#endif -+ } bits; -+} INTR_QHDR0_T; -+ -+/********************************************************************** -+ * Interrupt Queue Header Word 1 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_intrqhdr1 -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int ctl : 1; // bit 31 1: have control flag bits (except ack) -+ unsigned int osq : 1; // bit 30 1: out of sequence -+ unsigned int sat : 1; // bit 29 1: SeqCnt > SeqThreshold, or AckCnt > AckThreshold -+ unsigned int ip_opt : 1; // bit 28 1: have IPV4 option or IPV6 Extension header -+ unsigned int tcp_opt : 1; // bit 27 1: Have TCP option -+ unsigned int abn : 1; // bit 26 1: Abnormal case Found -+ unsigned int dack : 1; // bit 25 1: Duplicated ACK -+ unsigned int tcp_qid : 8; // bit 24:17 TCP Queue ID -+ unsigned int TotalPktSize : 17; // bit 16: 0 Total packet size -+#else -+ unsigned int TotalPktSize : 17; // bit 16: 0 Total packet size -+ unsigned int tcp_qid : 8; // bit 24:17 TCP Queue ID -+ unsigned int dack : 1; // bit 25 1: Duplicated ACK -+ unsigned int abn : 1; // bit 26 1: Abnormal case Found -+ unsigned int tcp_opt : 1; // bit 27 1: Have TCP option -+ unsigned int ip_opt : 1; // bit 28 1: have IPV4 option or IPV6 Extension header -+ unsigned int sat : 1; // bit 29 1: SeqCnt > SeqThreshold, or AckCnt > AckThreshold -+ unsigned int osq : 1; // bit 30 1: out of sequence -+ unsigned int ctl : 1; // bit 31 1: have control flag bits (except ack) -+#endif -+ } bits; -+} INTR_QHDR1_T; -+ -+/********************************************************************** -+ * Interrupt Queue Header Word 2 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ unsigned int seq_num; -+} INTR_QHDR2_T; -+ -+/********************************************************************** -+ * Interrupt Queue Header Word 3 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ unsigned int ack_num; -+} INTR_QHDR3_T; -+ -+/********************************************************************** -+ * Interrupt Queue Header Word 4 -+ **********************************************************************/ -+typedef union -+{ -+ unsigned int bits32; -+ struct bit_intrqhdr4 -+ { -+#if (BIG_ENDIAN==1) -+ -+ unsigned int SeqCnt : 16; // bit 31:16 Seq# change since last seq# intr. -+ unsigned int AckCnt : 16; // bit 15:0 Ack# change since last ack# intr. -+#else -+ unsigned int AckCnt : 16; // bit 15:0 Ack# change since last ack# intr. -+ unsigned int SeqCnt : 16; // bit 31:16 Seq# change since last seq# intr. -+#endif -+ } bits; -+} INTR_QHDR4_T; -+ -+/********************************************************************** -+ * Interrupt Queue Header -+ **********************************************************************/ -+typedef struct -+{ -+ INTR_QHDR0_T word0; -+ INTR_QHDR1_T word1; -+ INTR_QHDR2_T word2; -+ INTR_QHDR3_T word3; -+ INTR_QHDR4_T word4; -+ unsigned int word5; -+ unsigned int word6; -+ unsigned int word7; -+} INTR_QHDR_T; -+ -+/********************************************************************** -+ * GMAC Conf -+ **********************************************************************/ -+typedef struct gmac_conf { -+ struct net_device *dev; -+ int portmap; -+ int vid; -+ int flag; /* 1: active 0: non-active */ -+} sys_gmac_conf; -+ -+/********************************************************************** -+ * GMAC private data -+ **********************************************************************/ -+typedef struct { -+ unsigned int rwptr_reg; -+ unsigned int desc_base; -+ unsigned int total_desc_num; -+ unsigned short finished_idx; -+ GMAC_TXDESC_T *curr_tx_desc; -+ GMAC_TXDESC_T *curr_finished_desc; -+ struct sk_buff *tx_skb[TX_DESC_NUM]; -+ unsigned long total_sent; -+ unsigned long total_finished; -+ unsigned long intr_cnt; -+} GMAC_SWTXQ_T; -+ -+typedef struct { -+ unsigned int desc_base; -+ unsigned long eof_cnt; -+} GMAC_HWTXQ_T; -+ -+typedef struct gmac_private{ -+ struct net_device *dev; -+ unsigned int existed; -+ unsigned int port_id; // 0 or 1 -+ unsigned int base_addr; -+ unsigned int dma_base_addr; -+ unsigned char *mac_addr1; -+ unsigned char *mac_addr2; -+ unsigned int swtxq_desc_base; -+ unsigned int hwtxq_desc_base; -+ GMAC_SWTXQ_T swtxq[TOE_SW_TXQ_NUM]; -+ GMAC_HWTXQ_T hwtxq[TOE_HW_TXQ_NUM]; -+ NONTOE_QHDR_T *default_qhdr; -+ unsigned int default_desc_base; -+ unsigned int default_desc_num; -+ unsigned int rx_curr_desc; -+ DMA_RWPTR_T rx_rwptr; -+ struct sk_buff *curr_rx_skb; -+ dma_addr_t default_desc_base_dma; -+ dma_addr_t swtxq_desc_base_dma; -+ dma_addr_t hwtxq_desc_base_dma; -+ unsigned int irq; -+ unsigned int flow_control_enable ; -+ unsigned int pre_phy_status; -+ unsigned int full_duplex_cfg; -+ unsigned int speed_cfg; -+ unsigned int auto_nego_cfg; -+ unsigned int full_duplex_status; -+ unsigned int speed_status; -+ unsigned int phy_mode; /* 0->MII 1->GMII 2->RGMII(10/100) 3->RGMII(1000) */ -+ unsigned int phy_addr; -+ unsigned int intr0_enabled; // 1: enabled -+ unsigned int intr1_enabled; // 1: enabled -+ unsigned int intr2_enabled; // 1: enabled -+ unsigned int intr3_enabled; // 1: enabled -+ unsigned int intr4_enabled; // 1: enabled -+// unsigned int intr4_enabled_1; // 1: enabled -+ unsigned int intr0_selected; // 1: selected -+ unsigned int intr1_selected; // 1: selected -+ unsigned int intr2_selected; // 1: selected -+ unsigned int intr3_selected; // 1: selected -+ unsigned int intr4_selected; // 1: selected -+ // void (*gmac_rcv_handler)(struct sk_buff *, int); -+ struct net_device_stats ifStatics; -+ unsigned long txDerr_cnt[GMAC_NUM]; -+ unsigned long txPerr_cnt[GMAC_NUM]; -+ unsigned long RxDerr_cnt[GMAC_NUM]; -+ unsigned long RxPerr_cnt[GMAC_NUM]; -+ unsigned int isr_rx_cnt; -+ unsigned int isr_tx_cnt; -+ unsigned long rx_discard; -+ unsigned long rx_error; -+ unsigned long rx_mcast; -+ unsigned long rx_bcast; -+ unsigned long rx_status_cnt[8]; -+ unsigned long rx_chksum_cnt[8]; -+ unsigned long rx_sta1_ucast; // for STA 1 MAC Address -+ unsigned long rx_sta2_ucast; // for STA 2 MAC Address -+ unsigned long mib_full_cnt; -+ unsigned long rx_pause_on_cnt; -+ unsigned long tx_pause_on_cnt; -+ unsigned long rx_pause_off_cnt; -+ unsigned long tx_pause_off_cnt; -+ unsigned long rx_overrun_cnt; -+ unsigned long status_changed_cnt; -+ unsigned long default_q_cnt; -+ unsigned long hw_fq_empty_cnt; -+ unsigned long sw_fq_empty_cnt; -+ unsigned long default_q_intr_cnt; -+ pid_t thr_pid; -+ wait_queue_head_t thr_wait; -+ struct completion thr_exited; -+ spinlock_t lock; -+ int time_to_die; -+ int operation; -+#ifdef SL351x_GMAC_WORKAROUND -+ unsigned long short_frames_cnt; -+#endif -+}GMAC_INFO_T ; -+ -+typedef struct toe_private { -+ unsigned int swfq_desc_base; -+ unsigned int hwfq_desc_base; -+ unsigned int hwfq_buf_base; -+// unsigned int toe_desc_base[TOE_TOE_QUEUE_NUM]; -+// unsigned int toe_desc_num; -+// unsigned int class_desc_base; -+// unsigned int class_desc_num; -+// unsigned int intr_desc_base; -+// unsigned int intr_desc_num; -+// unsigned int intr_buf_base; -+ DMA_RWPTR_T fq_rx_rwptr; -+ GMAC_INFO_T gmac[GMAC_NUM]; -+ dma_addr_t sw_freeq_desc_base_dma; -+ dma_addr_t hw_freeq_desc_base_dma; -+ dma_addr_t hwfq_buf_base_dma; -+ dma_addr_t hwfq_buf_end_dma; -+// dma_addr_t toe_desc_base_dma[TOE_TOE_QUEUE_NUM]; -+// dma_addr_t class_desc_base_dma; -+// dma_addr_t intr_desc_base_dma; -+// dma_addr_t intr_buf_base_dma; -+// unsigned long toe_iq_intr_full_cnt[TOE_INTR_QUEUE_NUM]; -+// unsigned long toe_iq_intr_cnt[TOE_INTR_QUEUE_NUM]; -+// unsigned long toe_q_intr_full_cnt[TOE_TOE_QUEUE_NUM]; -+// unsigned long class_q_intr_full_cnt[TOE_CLASS_QUEUE_NUM]; -+// unsigned long class_q_intr_cnt[TOE_CLASS_QUEUE_NUM]; -+} TOE_INFO_T; -+ -+extern TOE_INFO_T toe_private_data; -+ -+#define GMAC_PORT0 0 -+#define GMAC_PORT1 1 -+/********************************************************************** -+ * PHY Definition -+ **********************************************************************/ -+#define HPHY_ADDR 0x01 -+#define GPHY_ADDR 0x02 -+ -+enum phy_state -+{ -+ LINK_DOWN = 0, -+ LINK_UP = 1 -+}; -+ -+/* transmit timeout value */ -+ -+#endif //_GMAC_SL351x_H ---- /dev/null -+++ b/include/asm-arm/arch-sl2312/sl351x_hash_cfg.h -@@ -0,0 +1,365 @@ -+/*----------------------------------------------------------------------------------- -+* sl351x_hash_cfg.h -+* -+* Description: -+* -+* History: -+* -+* 9/14/2005 Gary Chen Create -+* -+*-------------------------------------------------------------------------------------*/ -+#ifndef _SL351x_HASH_CFG_H_ -+#define _SL351x_HASH_CFG_H_ 1 -+ -+// #define NAT_DEBUG_MSG 1 -+// #define DEBUG_NAT_MIXED_HW_SW_TX 1 -+#ifdef DEBUG_NAT_MIXED_HW_SW_TX -+ // #define NAT_DEBUG_LAN_HASH_TIMEOUT 1 -+ // #define NAT_DEBUG_WAN_HASH_TIMEOUT 1 -+#endif -+ -+#define IPIV(a,b,c,d) ((a<<24)+(b<<16)+(c<<8)+d) -+#define IPIV1(a) ((a>>24)&0xff) -+#define IPIV2(a) ((a>>16)&0xff) -+#define IPIV3(a) ((a>>8)&0xff) -+#define IPIV4(a) ((a)&0xff) -+ -+#define HASH_MAX_BYTES 64 // 128 -+#define HASH_ACTION_DWORDS 9 -+#define HASH_MAX_DWORDS (HASH_MAX_BYTES / sizeof(u32)) -+#define HASH_MAX_KEY_DWORD (HASH_MAX_DWORDS - HASH_ACTION_DWORDS) -+#define HASH_INIT_KEY 0x534C4F52 -+#define HASH_BITS 12 // 12 : Normal, 7: Simulation -+#define HASH_TOTAL_ENTRIES (1 << HASH_BITS) -+#define HASH_MAX_ENTRIES (1 << 12) -+#define HASH_TOE_ENTRIES (HASH_TOTAL_ENTRIES >> 5) -+#define HASH_BITS_MASK ((1 << HASH_BITS) - 1) -+ -+#define hash_lock(lock) // spin_lock_bh(lock) -+#define hash_unlock(lock) // spin_unlock_bh(lock) -+ -+/*---------------------------------------------------------------------- -+ * special macro -+ ----------------------------------------------------------------------*/ -+#define HASH_PUSH_WORD(cp, data) {*cp++ = (((u16)(data)) ) & 0xff; \ -+ *cp++ = (((u16)(data)) >> 8) & 0xff;} -+#define HASH_PUSH_DWORD(cp, data) {*cp++ = (u8)(((u32)(data)) ) & 0xff; \ -+ *cp++ = (u8)(((u32)(data)) >> 8) & 0xff; \ -+ *cp++ = (u8)(((u32)(data)) >> 16) & 0xff; \ -+ *cp++ = (u8)(((u32)(data)) >> 24) & 0xff;} -+#define HASH_PUSH_BYTE(cp, data) {*cp++ = ((u8)(data)) & 0xff;} -+ -+/*---------------------------------------------------------------------- -+ * key -+ ----------------------------------------------------------------------*/ -+typedef struct { -+ u8 port; -+ u16 Ethertype; -+ u8 da[6]; -+ u8 sa[6]; -+ u16 pppoe_sid; -+ u16 vlan_id; -+ u8 ipv4_hdrlen; -+ u8 ip_tos; -+ u8 ip_protocol; -+ u32 ipv6_flow_label; -+ u8 sip[16]; -+ u8 dip[16]; -+ //__u32 sip[4]; -+ //__u32 dip[4]; -+ u8 l4_bytes[24]; -+ u8 l7_bytes[24]; -+ u8 ipv6; // 1: IPv6, 0: IPV4 -+} ENTRY_KEY_T; -+ -+/*---------------------------------------------------------------------- -+ * key for NAT -+ * Note: packed -+ ----------------------------------------------------------------------*/ -+typedef struct { -+ u16 Ethertype; // not used -+ u8 port_id; -+ u8 rule_id; -+ u8 ip_protocol; -+ u8 reserved1; // ip_tos, not used -+ u16 reserved2; // not used -+ u32 sip; -+ u32 dip; -+ u16 sport; -+ u16 dport; -+} NAT_KEY_T; -+ -+#define NAT_KEY_DWORD_SIZE (sizeof(NAT_KEY_T)/sizeof(u32)) -+#define NAT_KEY_SIZE (sizeof(NAT_KEY_T)) -+ -+/*---------------------------------------------------------------------- -+ * key for NAT -+ * Note: packed -+ ----------------------------------------------------------------------*/ -+typedef struct { -+ u16 Ethertype; // not used -+ u8 port_id; -+ u8 rule_id; -+ u8 ip_protocol; -+ u8 reserved1; // ip_tos, not used -+ u16 reserved2; // not used -+ u32 sip; -+ u32 dip; -+ u16 reserved3; -+ u16 protocol; -+ u16 reserved4; -+ u16 call_id; -+} GRE_KEY_T; -+ -+#define GRE_KEY_DWORD_SIZE (sizeof(GRE_KEY_T)/sizeof(u32)) -+#define GRE_KEY_SIZE (sizeof(GRE_KEY_T)) -+/*---------------------------------------------------------------------- -+ * key present or not -+ ----------------------------------------------------------------------*/ -+typedef struct { -+ u32 port : 1; -+ u32 Ethertype : 1; -+ u32 da : 1; -+ u32 sa : 1; -+ u32 pppoe_sid : 1; -+ u32 vlan_id : 1; -+ u32 ipv4_hdrlen : 1; -+ u32 ip_tos : 1; -+ u32 ip_protocol : 1; -+ u32 ipv6_flow_label : 1; -+ u32 sip : 1; -+ u32 dip : 1; -+ u32 l4_bytes_0_3 : 1; -+ u32 l4_bytes_4_7 : 1; -+ u32 l4_bytes_8_11 : 1; -+ u32 l4_bytes_12_15 : 1; -+ u32 l4_bytes_16_19 : 1; -+ u32 l4_bytes_20_23 : 1; -+ u32 l7_bytes_0_3 : 1; -+ u32 l7_bytes_4_7 : 1; -+ u32 l7_bytes_8_11 : 1; -+ u32 l7_bytes_12_15 : 1; -+ u32 l7_bytes_16_19 : 1; -+ u32 l7_bytes_20_23 : 1; -+ u32 reserved : 8; -+} KEY_FIELD_T; -+ -+/*---------------------------------------------------------------------- -+ * action -+ ----------------------------------------------------------------------*/ -+typedef struct { -+ u32 reserved0 : 5; // bit 0:4 -+ u32 pppoe : 2; // bit 5:6 -+ u32 vlan : 2; // bit 7:8 -+ u32 sa : 1; // bit 9 -+ u32 da : 1; // bit 10 -+ u32 Dport : 1; // bit 11 -+ u32 Sport : 1; // bit 12 -+ u32 Dip : 1; // bit 13 -+ u32 Sip : 1; // bit 14 -+ u32 sw_id : 1; // bit 15 -+ u32 frag : 1; // bit 16 -+ u32 option : 1; // bit 17 -+ u32 ttl_0 : 1; // bit 18 -+ u32 ttl_1 : 1; // bit 19 -+ u32 mtu : 1; // bit 20 -+ u32 exception : 1; // bit 21 -+ u32 srce_qid : 1; // bit 22 -+ u32 discard : 1; // bit 23 -+ u32 dest_qid : 8; // bit 24:31 -+} ENTRY_ACTION_T; -+ -+#define ACTION_DISCARD_BIT BIT(23) -+#define ACTION_SRCE_QID_BIT BIT(22) -+#define ACTION_EXCEPTION_BIT BIT(21) -+#define ACTION_MTU_BIT BIT(20) -+#define ACTION_TTL_1_BIT BIT(19) -+#define ACTION_TTL_0_BIT BIT(18) -+#define ACTION_IP_OPTION BIT(17) -+#define ACTION_FRAG_BIT BIT(16) -+#define ACTION_SWID_BIT BIT(15) -+#define ACTION_SIP_BIT BIT(14) -+#define ACTION_DIP_BIT BIT(13) -+#define ACTION_SPORT_BIT BIT(12) -+#define ACTION_DPORT_BIT BIT(11) -+#define ACTION_DA_BIT BIT(10) -+#define ACTION_SA_BIT BIT(9) -+#define ACTION_VLAN_DEL_BIT BIT(8) -+#define ACTION_VLAN_INS_BIT BIT(7) -+#define ACTION_PPPOE_DEL_BIT BIT(6) -+#define ACTION_PPPOE_INS_BIT BIT(5) -+#define ACTION_L4_THIRD_BIT BIT(4) -+#define ACTION_L4_FOURTH_BIT BIT(3) -+ -+#define NAT_ACTION_BITS (ACTION_SRCE_QID_BIT | ACTION_EXCEPTION_BIT | \ -+ ACTION_TTL_1_BIT | ACTION_TTL_0_BIT | \ -+ ACTION_IP_OPTION | ACTION_FRAG_BIT | \ -+ ACTION_DA_BIT | ACTION_SA_BIT) -+#define NAT_LAN2WAN_ACTIONS (NAT_ACTION_BITS | ACTION_SIP_BIT | ACTION_SPORT_BIT) -+#define NAT_WAN2LAN_ACTIONS (NAT_ACTION_BITS | ACTION_DIP_BIT | ACTION_DPORT_BIT) -+#define NAT_PPPOE_LAN2WAN_ACTIONS (NAT_LAN2WAN_ACTIONS | ACTION_PPPOE_INS_BIT) -+#define NAT_PPPOE_WAN2LAN_ACTIONS (NAT_WAN2LAN_ACTIONS | ACTION_PPPOE_DEL_BIT) -+#define NAT_PPTP_LAN2WAN_ACTIONS (NAT_ACTION_BITS | ACTION_SIP_BIT | ACTION_L4_FOURTH_BIT) -+#define NAT_PPTP_WAN2LAN_ACTIONS (NAT_ACTION_BITS | ACTION_DIP_BIT | ACTION_L4_FOURTH_BIT) -+#define NAT_PPPOE_PPTP_LAN2WAN_ACTIONS (NAT_PPTP_LAN2WAN_ACTIONS | ACTION_PPPOE_INS_BIT) -+#define NAT_PPPOE_PPTP_WAN2LAN_ACTIONS (NAT_PPTP_WAN2LAN_ACTIONS | ACTION_PPPOE_DEL_BIT) -+ -+/*---------------------------------------------------------------------- -+ * parameter -+ ----------------------------------------------------------------------*/ -+typedef struct { -+ u8 da[6]; -+ u8 sa[6]; -+ u16 vlan; -+ u16 pppoe; -+ u32 Sip; -+ u32 Dip; -+ u16 Sport; -+ u16 Dport; -+ u16 sw_id; -+ u16 mtu; -+} ENTRY_PARAM_T; -+ -+/*---------------------------------------------------------------------- -+ * Hash Entry -+ ----------------------------------------------------------------------*/ -+typedef struct { -+ char rule; -+ ENTRY_KEY_T key; -+ KEY_FIELD_T key_present; -+ ENTRY_ACTION_T action; -+ ENTRY_PARAM_T param; -+ int index; -+ int total_dwords; -+} HASH_ENTRY_T; -+ -+/*---------------------------------------------------------------------- -+ * NAT Hash Entry -+ ----------------------------------------------------------------------*/ -+typedef struct { -+ short counter; -+ short interval; -+} HASH_TIMEOUT_T; -+ -+/*---------------------------------------------------------------------- -+ * NAT Hash Entry for TCP/UDP protocol -+ ----------------------------------------------------------------------*/ -+typedef struct { -+ NAT_KEY_T key; -+ union { -+ u32 dword; -+ ENTRY_ACTION_T bits; -+ } action; -+ ENTRY_PARAM_T param; -+ HASH_TIMEOUT_T tmo; // used by software only, to use memory space efficiently -+} NAT_HASH_ENTRY_T; -+ -+#define NAT_HASH_ENTRY_SIZE (sizeof(NAT_HASH_ENTRY_T)) -+ -+/*---------------------------------------------------------------------- -+ * GRE Hash Entry for PPTP/GRE protocol -+ ----------------------------------------------------------------------*/ -+typedef struct { -+ GRE_KEY_T key; -+ union { -+ u32 dword; -+ ENTRY_ACTION_T bits; -+ } action; -+ ENTRY_PARAM_T param; -+ HASH_TIMEOUT_T tmo; // used by software only, to use memory space efficiently -+} GRE_HASH_ENTRY_T; -+ -+#define GRE_HASH_ENTRY_SIZE (sizeof(GRE_HASH_ENTRY_T)) -+ -+/*---------------------------------------------------------------------- -+ * External Variables -+ ----------------------------------------------------------------------*/ -+extern char hash_tables[HASH_TOTAL_ENTRIES][HASH_MAX_BYTES] __attribute__ ((aligned(16))); -+extern u32 hash_nat_owner_bits[HASH_TOTAL_ENTRIES/32]; -+/*---------------------------------------------------------------------- -+* hash_get_valid_flag -+*----------------------------------------------------------------------*/ -+static inline int hash_get_valid_flag(int index) -+{ -+ volatile u32 *hash_valid_bits_ptr = (volatile u32 *)TOE_V_BIT_BASE; -+ -+#ifdef SL351x_GMAC_WORKAROUND -+ if (index >= (0x80 * 8) && index < (0x8c * 8)) -+ return 1; -+#endif -+ return (hash_valid_bits_ptr[index/32] & (1 << (index %32))); -+} -+ -+/*---------------------------------------------------------------------- -+* hash_get_nat_owner_flag -+*----------------------------------------------------------------------*/ -+static inline int hash_get_nat_owner_flag(int index) -+{ -+ return (hash_nat_owner_bits[index/32] & (1 << (index %32))); -+} -+ -+/*---------------------------------------------------------------------- -+* hash_validate_entry -+*----------------------------------------------------------------------*/ -+static inline void hash_validate_entry(int index) -+{ -+ volatile u32 *hash_valid_bits_ptr = (volatile u32 *)TOE_V_BIT_BASE; -+ register int ptr = index/32, bits = 1 << (index %32); -+ -+ hash_valid_bits_ptr[ptr] |= bits; -+} -+ -+/*---------------------------------------------------------------------- -+* hash_invalidate_entry -+*----------------------------------------------------------------------*/ -+static inline void hash_invalidate_entry(int index) -+{ -+ volatile u32 *hash_valid_bits_ptr = (volatile u32 *)TOE_V_BIT_BASE; -+ register int ptr = index/32, bits = 1 << (index %32); -+ -+ hash_valid_bits_ptr[ptr] &= ~(bits); -+} -+ -+/*---------------------------------------------------------------------- -+* hash_nat_enable_owner -+*----------------------------------------------------------------------*/ -+static inline void hash_nat_enable_owner(int index) -+{ -+ hash_nat_owner_bits[index/32] |= (1 << (index % 32)); -+} -+ -+/*---------------------------------------------------------------------- -+* hash_nat_disable_owner -+*----------------------------------------------------------------------*/ -+static inline void hash_nat_disable_owner(int index) -+{ -+ hash_nat_owner_bits[index/32] &= ~(1 << (index % 32)); -+} -+ -+/*---------------------------------------------------------------------- -+* hash_get_entry -+*----------------------------------------------------------------------*/ -+static inline void *hash_get_entry(int index) -+{ -+ return (void*) &hash_tables[index][0]; -+} -+ -+/*---------------------------------------------------------------------- -+* Functions -+*----------------------------------------------------------------------*/ -+extern int hash_add_entry(HASH_ENTRY_T *entry); -+extern void sl351x_hash_init(void); -+extern void hash_set_valid_flag(int index, int valid); -+extern void hash_set_nat_owner_flag(int index, int valid); -+extern void *hash_get_entry(int index); -+extern int hash_build_keys(u32 *destp, HASH_ENTRY_T *entry); -+extern void hash_build_nat_keys(u32 *destp, HASH_ENTRY_T *entry); -+extern int hash_write_entry(HASH_ENTRY_T *entry, u8 *key); -+extern int hash_add_entry(HASH_ENTRY_T *entry); -+extern u16 hash_crc16(u16 crc, u8 *datap, u32 len); -+extern u16 hash_gen_crc16(u8 *datap, u32 len); -+ -+#endif // _SL351x_HASH_CFG_H_ -+ -+ -+ ---- /dev/null -+++ b/include/asm-arm/arch-sl2312/sl351x_nat_cfg.h -@@ -0,0 +1,211 @@ -+/************************************************************************** -+* Copyright 2006 StorLink Semiconductors, Inc. All rights reserved. -+*-------------------------------------------------------------------------- -+* sl_nat_cfg.h -+* -+* Description: -+* - Define the Device Control Commands for NAT Configuration -+* -+* History: -+* -+* 4/28/2006 Gary Chen Create -+* -+*-----------------------------------------------------------------------------*/ -+#ifndef _SL351x_NAT_CFG_H_ -+#define _SL351x_NAT_CFG_H_ 1 -+ -+/*---------------------------------------------------------------------- -+* Confiuration -+*----------------------------------------------------------------------*/ -+#ifdef CONFIG_NETFILTER -+#define CONFIG_SL351x_NAT 1 -+#undef CONFIG_SL351x_NAT -+#undef CONFIG_SL351x_SYSCTL -+#endif -+#define CONFIG_NAT_MAX_IP_NUM 4 // per device (eth0 or eth1) -+#define CONFIG_NAT_MAX_XPORT 64 -+#define CONFIG_NAT_MAX_WRULE 16 // per Queue -+#define CONFIG_NAT_TXQ_NUM 4 -+/*---------------------------------------------------------------------- -+* Command set -+*----------------------------------------------------------------------*/ -+#define SIOCDEVSL351x SIOCDEVPRIVATE // 0x89F0 -+#define NATSSTATUS 0 -+#define NATGSTATUS 1 -+#define NATSETPORT 2 -+#define NATGETPORT 3 -+#define NATADDIP 4 -+#define NATDELIP 5 -+#define NATGETIP 6 -+#define NATAXPORT 7 -+#define NATDXPORT 8 -+#define NATGXPORT 9 -+#define NATSWEIGHT 10 -+#define NATGWEIGHT 11 -+#define NATAWRULE 12 -+#define NATDWRULE 13 -+#define NATGWRULE 14 -+#define NATSDEFQ 15 -+#define NATGDEFQ 16 -+#define NATRMIPCFG 17 // remove IP config -+#define NATTESTENTRY 18 -+#define NATSETMEM 19 -+#define NATSHOWMEM 20 -+/*---------------------------------------------------------------------- -+* Command Structure -+*----------------------------------------------------------------------*/ -+// Common Header -+typedef struct { -+ unsigned short cmd; // command ID -+ unsigned short len; // data length, excluding this header -+} NATCMD_HDR_T; -+ -+// NATSSTATUS & NATGSTATUS commands -+typedef struct { -+ unsigned char enable; -+} NAT_STATUS_T; -+ -+// NATSETPORT & NATGETPORT commands -+typedef struct { -+ unsigned char portmap; -+} NAT_PORTCFG_T; -+ -+typedef struct { -+ unsigned int ipaddr; -+ unsigned int netmask; -+} NAT_IP_ENTRY_T; -+ -+// NATADDIP & NATDELIP commands -+typedef struct { -+ NAT_IP_ENTRY_T entry; -+} NAT_IPCFG_T; -+ -+// NATGETIP command -+typedef struct { -+ unsigned int total; -+ NAT_IP_ENTRY_T entry[CONFIG_NAT_MAX_IP_NUM]; -+} NAT_IPCFG_ALL_T; -+ -+typedef struct { -+ unsigned int protocol; -+ unsigned short sport_start; -+ unsigned short sport_end; -+ unsigned short dport_start; -+ unsigned short dport_end; -+} NAT_XPORT_ENTRY_T; -+ -+// NATAXPORT & NATDXPORT Commands -+typedef struct { -+ NAT_XPORT_ENTRY_T entry; -+} NAT_XPORT_T; -+ -+// NATGXPORT Command -+typedef struct { -+ unsigned int total; -+ NAT_XPORT_ENTRY_T entry[CONFIG_NAT_MAX_XPORT]; -+} NAT_XPORT_ALL_T; -+ -+// NATSWEIGHT & NATGWEIGHT Commands -+typedef struct { -+ unsigned char weight[CONFIG_NAT_TXQ_NUM]; -+} NAT_WEIGHT_T; -+ -+typedef struct { -+ unsigned int protocol; -+ unsigned int sip_start; -+ unsigned int sip_end; -+ unsigned int dip_start; -+ unsigned int dip_end; -+ unsigned short sport_start; -+ unsigned short sport_end; -+ unsigned short dport_start; -+ unsigned short dport_end; -+} NAT_WRULE_ENTRY_T; -+ -+// NATAWRULE & NATDWRULE Commands -+typedef struct { -+ unsigned int qid; -+ NAT_WRULE_ENTRY_T entry; -+} NAT_WRULE_T; -+ -+// NATGWRULE Command -+typedef struct { -+ unsigned int total; -+ NAT_WRULE_ENTRY_T entry[CONFIG_NAT_MAX_WRULE]; -+} NAT_WRULE_ALL_T; -+ -+// NATSDEFQ & NATGDEFQ commands -+typedef struct { -+ unsigned int qid; -+} NAT_QUEUE_T; -+ -+// NATTESTENTRY -+typedef struct { -+ u_int16_t cmd; // command ID -+ u_int16_t len; // data length, excluding this header -+ u_int8_t init_enable; -+} NAT_TESTENTRY_T; -+ -+typedef union -+{ -+ NAT_STATUS_T status; -+ NAT_PORTCFG_T portcfg; -+ NAT_IPCFG_T ipcfg; -+ NAT_XPORT_T xport; -+ NAT_WEIGHT_T weight; -+ NAT_WRULE_T wrule; -+ NAT_QUEUE_T queue; -+ NAT_TESTENTRY_T init_entry; -+} NAT_REQ_E; -+ -+/*---------------------------------------------------------------------- -+* NAT Configuration -+* - Used by driver only -+*----------------------------------------------------------------------*/ -+typedef struct { -+ unsigned int enabled; -+ unsigned int init_enabled; -+ unsigned int tcp_udp_rule_id; -+ unsigned int gre_rule_id; -+ unsigned int lan_port; -+ unsigned int wan_port; -+ unsigned int default_hw_txq; -+ short tcp_tmo_interval; -+ short udp_tmo_interval; -+ short gre_tmo_interval; -+ NAT_IPCFG_ALL_T ipcfg[2]; // LAN/WAN port -+ NAT_XPORT_ALL_T xport; -+ NAT_WEIGHT_T weight; -+ NAT_WRULE_ALL_T wrule[CONFIG_NAT_TXQ_NUM]; -+} NAT_CFG_T; -+ -+/*---------------------------------------------------------------------- -+* NAT Control Block -+* - Used by driver only -+* - Stores LAN-IN or WAN-IN information -+* - WAN-OUT and LAN-OUT driver use them to build up a hash entry -+* - NOTES: To update this data structure, MUST take care of alignment issue -+* - MUST make sure that the size of skbuff structure must -+* be larger than (40 + sizof(NAT_CB_T)) -+*----------------------------------------------------------------------*/ -+typedef struct { -+ unsigned short tag; -+ unsigned char sa[6]; -+ unsigned int sip; -+ unsigned int dip; -+ unsigned short sport; -+ unsigned short dport; -+ unsigned char pppoe_frame; -+ unsigned char state; // same to enum tcp_conntrack -+ unsigned char reserved[2]; -+} NAT_CB_T; -+ -+#define NAT_CB_TAG 0x4C53 // "SL" -+#define NAT_CB_SIZE sizeof(NAT_CB_T) -+// #define NAT_SKB_CB(skb) (NAT_CB_T *)(((unsigned int)&((skb)->cb[40]) + 3) & ~3) // for align 4 -+#define NAT_SKB_CB(skb) (NAT_CB_T *)&((skb)->cb[40]) // for align 4 -+ -+#endif // _SL351x_NAT_CFG_H_ -+ -+ -+ ---- /dev/null -+++ b/include/asm-arm/arch-sl2312/sl351x_toe.h -@@ -0,0 +1,88 @@ -+/************************************************************************** -+* Copyright 2006 StorLink Semiconductors, Inc. All rights reserved. -+*-------------------------------------------------------------------------- -+* Name : sl351x_toe.h -+* Description : -+* Define for TOE driver of Storlink SL351x -+* -+* History -+* -+* Date Writer Description -+*---------------------------------------------------------------------------- -+* Xiaochong Create -+* -+****************************************************************************/ -+#ifndef __SL351x_TOE_H -+#define __SL351x_TOE_H 1 -+#include <net/sock.h> -+#include <asm/arch/sl351x_gmac.h> -+#include <linux/timer.h> -+#include <linux/netdevice.h> -+#include <linux/ip.h> -+#include <linux/if_ether.h> -+/* -+ * TOE_CONN_T is data structure of tcp connection info, used at both -+ * device layer and kernel tcp layer -+ * skb is the jumbo frame -+ */ -+ -+struct toe_conn{ -+ __u8 qid; // connection qid 0~63. -+ __u8 ip_ver; // 0: not used; 4: ipv4; 6: ipv6. -+ /* hash key of the connection */ -+ __u16 source; -+ __u16 dest; -+ __u32 saddr[4]; -+ __u32 daddr[4]; -+ -+ __u32 seq; -+ __u32 ack_seq; -+ -+ /* these fields are used to set TOE QHDR */ -+ __u32 ack_threshold; -+ __u32 seq_threshold; -+ __u16 max_pktsize; -+ -+ /* used by sw toe, accumulated ack_seq of ack frames */ -+ __u16 ack_cnt; -+ /* used by sw toe, accumulated data frames held at driver */ -+ __u16 cur_pktsize; -+ -+ __u8 status; -+#define TCP_CONN_UNDEFINE 0X00 -+#define TCP_CONN_CREATION 0X01 -+#define TCP_CONN_CONNECTING 0X02 -+#define TCP_CONN_ESTABLISHED 0X04 -+#define TCP_CONN_RESET 0X08 // this is used for out-of-order -+ // or congestion window is small -+#define TCP_CONN_CLOSING 0X10 -+#define TCP_CONN_CLOSED 0x11 -+ -+ __u16 hash_entry_index; /* associated hash entry */ -+ -+ // one timer per connection. Otherwise all connections should be scanned -+ // in a timeout interrupt, and timeout interrupt is triggered no matter -+ // a connection is actually timeout or not. -+ struct timer_list rx_timer; -+ unsigned long last_rx_jiffies; -+ GMAC_INFO_T *gmac; -+ struct net_device *dev; -+ -+ // for generating pure ack frame. -+ struct ethhdr l2_hdr; -+ struct iphdr l3_hdr; -+ -+ spinlock_t conn_lock; -+ DMA_RWPTR_T toeq_rwptr; -+ GMAC_RXDESC_T *curr_desc; -+ struct sk_buff *curr_rx_skb; -+}; -+ -+struct jumbo_frame { -+ struct sk_buff *skb0; // the head of jumbo frame -+ struct sk_buff *tail; // the tail of jumbo frame -+ struct iphdr *iphdr0; // the ip hdr of skb0. -+ struct tcphdr *tcphdr0; // the tcp hdr of skb0. -+}; -+ -+#endif // __SL351x_TOE_H ---- a/drivers/net/Kconfig -+++ b/drivers/net/Kconfig -@@ -2131,6 +2131,42 @@ - - The safe and default value for this is N. - -+config NET_GMAC -+ tristate "Storlink Gigabit Ethernet support" -+ depends on ARCH_SL2312 -+ help -+ This driver supports Storlink dual Gigabit Ethernet. -+ -+config NET_SL2312 -+ tristate "Storlink Gigabit Ethernet support" -+ depends on NET_GMAC -+ help -+ This driver supports Storlink dual Gigabit Ethernet. -+ -+config NET_SL351X -+ tristate "Storlink Lepus Gigabit Ethernet support" -+ depends on NET_GMAC -+ help -+ This driver supports Storlink TOE and NAT dual Gigabit Ethernet. -+ -+config SL2312_TSO -+ bool "Tx Segmentation Enable" -+ depends on NET_GMAC -+ help -+ TBD -+ -+config SL2312_MPAGE -+ bool "Tx Multipage Enable" -+ depends on NET_GMAC -+ help -+ TBD -+ -+config SL2312_RECVFILE -+ bool "Rx Multipage Enable" -+ depends on NET_GMAC -+ help -+ TBD -+ - config DL2K - tristate "D-Link DL2000-based Gigabit Ethernet support" - depends on PCI ---- a/drivers/net/Makefile -+++ b/drivers/net/Makefile -@@ -236,4 +236,8 @@ - - obj-$(CONFIG_FS_ENET) += fs_enet/ - --obj-$(CONFIG_NETXEN_NIC) += netxen/ -+ -+obj-$(CONFIG_NET_SL351X)+= sl351x_gmac.o sl351x_nat.o sl351x_hash.o sl351x_crc16.o sl351x_proc.o sl_switch.o -+obj-$(CONFIG_NET_SL2312)+= sl2312_emac.o -+ -+ |