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path: root/target/linux/sunxi/patches-3.18/271-crypto-add-ss.patch
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--- a/drivers/crypto/Kconfig
+++ b/drivers/crypto/Kconfig
@@ -437,4 +437,21 @@ config CRYPTO_DEV_QCE
 	  hardware. To compile this driver as a module, choose M here. The
 	  module will be called qcrypto.
 
+config CRYPTO_DEV_SUNXI_SS
+	tristate "Support for Allwinner Security System cryptographic accelerator"
+	depends on ARCH_SUNXI
+	select CRYPTO_MD5
+	select CRYPTO_SHA1
+	select CRYPTO_AES
+	select CRYPTO_DES
+	select CRYPTO_BLKCIPHER
+	help
+	  Some Allwinner SoC have a crypto accelerator named
+	  Security System. Select this if you want to use it.
+	  The Security System handle AES/DES/3DES ciphers in CBC mode
+	  and SHA1 and MD5 hash algorithms.
+
+	  To compile this driver as a module, choose M here: the module
+	  will be called sunxi-ss.
+
 endif # CRYPTO_HW
--- a/drivers/crypto/Makefile
+++ b/drivers/crypto/Makefile
@@ -25,3 +25,4 @@ obj-$(CONFIG_CRYPTO_DEV_TALITOS) += tali
 obj-$(CONFIG_CRYPTO_DEV_UX500) += ux500/
 obj-$(CONFIG_CRYPTO_DEV_QAT) += qat/
 obj-$(CONFIG_CRYPTO_DEV_QCE) += qce/
+obj-$(CONFIG_CRYPTO_DEV_SUNXI_SS) += sunxi-ss/
--- /dev/null
+++ b/drivers/crypto/sunxi-ss/Makefile
@@ -0,0 +1,2 @@
+obj-$(CONFIG_CRYPTO_DEV_SUNXI_SS) += sunxi-ss.o
+sunxi-ss-y += sunxi-ss-core.o sunxi-ss-hash.o sunxi-ss-cipher.o
--- /dev/null
+++ b/drivers/crypto/sunxi-ss/sunxi-ss-cipher.c
@@ -0,0 +1,489 @@
+/*
+ * sunxi-ss-cipher.c - hardware cryptographic accelerator for Allwinner A20 SoC
+ *
+ * Copyright (C) 2013-2014 Corentin LABBE <clabbe.montjoie@gmail.com>
+ *
+ * This file add support for AES cipher with 128,192,256 bits
+ * keysize in CBC mode.
+ * Add support also for DES and 3DES in CBC mode.
+ *
+ * You could find the datasheet in Documentation/arm/sunxi/README
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 2 of the License, or
+ * (at your option) any later version.
+ */
+#include "sunxi-ss.h"
+
+extern struct sunxi_ss_ctx *ss;
+
+static int sunxi_ss_cipher(struct ablkcipher_request *areq, u32 mode)
+{
+	struct crypto_ablkcipher *tfm = crypto_ablkcipher_reqtfm(areq);
+	struct sunxi_tfm_ctx *op = crypto_ablkcipher_ctx(tfm);
+	const char *cipher_type;
+
+	if (areq->nbytes == 0)
+		return 0;
+
+	if (areq->info == NULL) {
+		dev_err(ss->dev, "ERROR: Empty IV\n");
+		return -EINVAL;
+	}
+
+	if (areq->src == NULL || areq->dst == NULL) {
+		dev_err(ss->dev, "ERROR: Some SGs are NULL\n");
+		return -EINVAL;
+	}
+
+	cipher_type = crypto_tfm_alg_name(crypto_ablkcipher_tfm(tfm));
+
+	if (strcmp("cbc(aes)", cipher_type) == 0) {
+		mode |= SS_OP_AES | SS_CBC | SS_ENABLED | op->keymode;
+		return sunxi_ss_aes_poll(areq, mode);
+	}
+
+	if (strcmp("cbc(des)", cipher_type) == 0) {
+		mode |= SS_OP_DES | SS_CBC | SS_ENABLED | op->keymode;
+		return sunxi_ss_des_poll(areq, mode);
+	}
+
+	if (strcmp("cbc(des3_ede)", cipher_type) == 0) {
+		mode |= SS_OP_3DES | SS_CBC | SS_ENABLED | op->keymode;
+		return sunxi_ss_des_poll(areq, mode);
+	}
+
+	dev_err(ss->dev, "ERROR: Cipher %s not handled\n", cipher_type);
+	return -EINVAL;
+}
+
+int sunxi_ss_cipher_encrypt(struct ablkcipher_request *areq)
+{
+	return sunxi_ss_cipher(areq, SS_ENCRYPTION);
+}
+
+int sunxi_ss_cipher_decrypt(struct ablkcipher_request *areq)
+{
+	return sunxi_ss_cipher(areq, SS_DECRYPTION);
+}
+
+int sunxi_ss_cipher_init(struct crypto_tfm *tfm)
+{
+	struct sunxi_tfm_ctx *op = crypto_tfm_ctx(tfm);
+
+	memset(op, 0, sizeof(struct sunxi_tfm_ctx));
+	return 0;
+}
+
+/*
+ * Optimized function for the case where we have only one SG,
+ * so we can use kmap_atomic
+ */
+static int sunxi_ss_aes_poll_atomic(struct ablkcipher_request *areq)
+{
+	u32 spaces;
+	struct scatterlist *in_sg = areq->src;
+	struct scatterlist *out_sg = areq->dst;
+	void *src_addr;
+	void *dst_addr;
+	unsigned int ileft = areq->nbytes;
+	unsigned int oleft = areq->nbytes;
+	unsigned int todo;
+	u32 *src32;
+	u32 *dst32;
+	u32 rx_cnt = 32;
+	u32 tx_cnt = 0;
+	int i;
+
+	src_addr = kmap_atomic(sg_page(in_sg)) + in_sg->offset;
+	if (src_addr == NULL) {
+		dev_err(ss->dev, "kmap_atomic error for src SG\n");
+		writel(0, ss->base + SS_CTL);
+		mutex_unlock(&ss->lock);
+		return -EINVAL;
+	}
+
+	dst_addr = kmap_atomic(sg_page(out_sg)) + out_sg->offset;
+	if (dst_addr == NULL) {
+		dev_err(ss->dev, "kmap_atomic error for dst SG\n");
+		writel(0, ss->base + SS_CTL);
+		kunmap_atomic(src_addr);
+		mutex_unlock(&ss->lock);
+		return -EINVAL;
+	}
+
+	src32 = (u32 *)src_addr;
+	dst32 = (u32 *)dst_addr;
+	ileft = areq->nbytes / 4;
+	oleft = areq->nbytes / 4;
+	i = 0;
+	do {
+		if (ileft > 0 && rx_cnt > 0) {
+			todo = min(rx_cnt, ileft);
+			ileft -= todo;
+			do {
+				writel_relaxed(*src32++,
+						ss->base +
+						SS_RXFIFO);
+				todo--;
+			} while (todo > 0);
+		}
+		if (tx_cnt > 0) {
+			todo = min(tx_cnt, oleft);
+			oleft -= todo;
+			do {
+				*dst32++ = readl_relaxed(ss->base +
+						SS_TXFIFO);
+				todo--;
+			} while (todo > 0);
+		}
+		spaces = readl_relaxed(ss->base + SS_FCSR);
+		rx_cnt = SS_RXFIFO_SPACES(spaces);
+		tx_cnt = SS_TXFIFO_SPACES(spaces);
+	} while (oleft > 0);
+	writel(0, ss->base + SS_CTL);
+	kunmap_atomic(src_addr);
+	kunmap_atomic(dst_addr);
+	mutex_unlock(&ss->lock);
+	return 0;
+}
+
+int sunxi_ss_aes_poll(struct ablkcipher_request *areq, u32 mode)
+{
+	u32 spaces;
+	struct crypto_ablkcipher *tfm = crypto_ablkcipher_reqtfm(areq);
+	struct sunxi_tfm_ctx *op = crypto_ablkcipher_ctx(tfm);
+	unsigned int ivsize = crypto_ablkcipher_ivsize(tfm);
+	/* when activating SS, the default FIFO space is 32 */
+	u32 rx_cnt = 32;
+	u32 tx_cnt = 0;
+	u32 v;
+	int i;
+	struct scatterlist *in_sg = areq->src;
+	struct scatterlist *out_sg = areq->dst;
+	void *src_addr;
+	void *dst_addr;
+	unsigned int ileft = areq->nbytes;
+	unsigned int oleft = areq->nbytes;
+	unsigned int sgileft = areq->src->length;
+	unsigned int sgoleft = areq->dst->length;
+	unsigned int todo;
+	u32 *src32;
+	u32 *dst32;
+
+	mutex_lock(&ss->lock);
+
+	for (i = 0; i < op->keylen; i += 4)
+		writel(*(op->key + i/4), ss->base + SS_KEY0 + i);
+
+	if (areq->info != NULL) {
+		for (i = 0; i < 4 && i < ivsize / 4; i++) {
+			v = *(u32 *)(areq->info + i * 4);
+			writel(v, ss->base + SS_IV0 + i * 4);
+		}
+	}
+	writel(mode, ss->base + SS_CTL);
+
+	/* If we have only one SG, we can use kmap_atomic */
+	if (sg_next(in_sg) == NULL && sg_next(out_sg) == NULL)
+		return sunxi_ss_aes_poll_atomic(areq);
+
+	/*
+	 * If we have more than one SG, we cannot use kmap_atomic since
+	 * we hold the mapping too long
+	 */
+	src_addr = kmap(sg_page(in_sg)) + in_sg->offset;
+	if (src_addr == NULL) {
+		dev_err(ss->dev, "KMAP error for src SG\n");
+		mutex_unlock(&ss->lock);
+		return -EINVAL;
+	}
+	dst_addr = kmap(sg_page(out_sg)) + out_sg->offset;
+	if (dst_addr == NULL) {
+		kunmap(sg_page(in_sg));
+		dev_err(ss->dev, "KMAP error for dst SG\n");
+		mutex_unlock(&ss->lock);
+		return -EINVAL;
+	}
+	src32 = (u32 *)src_addr;
+	dst32 = (u32 *)dst_addr;
+	ileft = areq->nbytes / 4;
+	oleft = areq->nbytes / 4;
+	sgileft = in_sg->length / 4;
+	sgoleft = out_sg->length / 4;
+	do {
+		spaces = readl_relaxed(ss->base + SS_FCSR);
+		rx_cnt = SS_RXFIFO_SPACES(spaces);
+		tx_cnt = SS_TXFIFO_SPACES(spaces);
+		todo = min3(rx_cnt, ileft, sgileft);
+		if (todo > 0) {
+			ileft -= todo;
+			sgileft -= todo;
+		}
+		while (todo > 0) {
+			writel_relaxed(*src32++, ss->base + SS_RXFIFO);
+			todo--;
+		}
+		if (in_sg != NULL && sgileft == 0 && ileft > 0) {
+			kunmap(sg_page(in_sg));
+			in_sg = sg_next(in_sg);
+			while (in_sg != NULL && in_sg->length == 0)
+				in_sg = sg_next(in_sg);
+			if (in_sg != NULL && ileft > 0) {
+				src_addr = kmap(sg_page(in_sg)) + in_sg->offset;
+				if (src_addr == NULL) {
+					dev_err(ss->dev, "ERROR: KMAP for src SG\n");
+					mutex_unlock(&ss->lock);
+					return -EINVAL;
+				}
+				src32 = src_addr;
+				sgileft = in_sg->length / 4;
+			}
+		}
+		/* do not test oleft since when oleft == 0 we have finished */
+		todo = min3(tx_cnt, oleft, sgoleft);
+		if (todo > 0) {
+			oleft -= todo;
+			sgoleft -= todo;
+		}
+		while (todo > 0) {
+			*dst32++ = readl_relaxed(ss->base + SS_TXFIFO);
+			todo--;
+		}
+		if (out_sg != NULL && sgoleft == 0 && oleft >= 0) {
+			kunmap(sg_page(out_sg));
+			out_sg = sg_next(out_sg);
+			while (out_sg != NULL && out_sg->length == 0)
+				out_sg = sg_next(out_sg);
+			if (out_sg != NULL && oleft > 0) {
+				dst_addr = kmap(sg_page(out_sg)) +
+					out_sg->offset;
+				if (dst_addr == NULL) {
+					dev_err(ss->dev, "KMAP error\n");
+					mutex_unlock(&ss->lock);
+					return -EINVAL;
+				}
+				dst32 = dst_addr;
+				sgoleft = out_sg->length / 4;
+			}
+		}
+	} while (oleft > 0);
+
+	writel_relaxed(0, ss->base + SS_CTL);
+	mutex_unlock(&ss->lock);
+	return 0;
+}
+
+/*
+ * Pure CPU way of doing DES/3DES with SS
+ * Since DES and 3DES SGs could be smaller than 4 bytes, I use sg_copy_to_buffer
+ * for "linearize" them.
+ * The problem with that is that I alloc (2 x areq->nbytes) for buf_in/buf_out
+ * TODO: change this system, I need to support other mode than CBC where len
+ * is not a multiple of 4 and the hack of linearize use too much memory
+ * SGsrc -> buf_in -> SS -> buf_out -> SGdst
+ */
+int sunxi_ss_des_poll(struct ablkcipher_request *areq, u32 mode)
+{
+	u32 value, spaces;
+	size_t nb_in_sg_tx, nb_in_sg_rx;
+	size_t ir, it;
+	struct crypto_ablkcipher *tfm = crypto_ablkcipher_reqtfm(areq);
+	struct sunxi_tfm_ctx *op = crypto_ablkcipher_ctx(tfm);
+	unsigned int ivsize = crypto_ablkcipher_ivsize(tfm);
+	u32 tx_cnt = 0;
+	u32 rx_cnt = 0;
+	u32 v;
+	int i;
+	int no_chunk = 1;
+	struct scatterlist *in_sg = areq->src;
+	struct scatterlist *out_sg = areq->dst;
+
+	/*
+	 * if we have only SGs with size multiple of 4,
+	 * we can use the SS AES function
+	 */
+	while (in_sg != NULL && no_chunk == 1) {
+		if ((in_sg->length % 4) != 0)
+			no_chunk = 0;
+		in_sg = sg_next(in_sg);
+	}
+	while (out_sg != NULL && no_chunk == 1) {
+		if ((out_sg->length % 4) != 0)
+			no_chunk = 0;
+		out_sg = sg_next(out_sg);
+	}
+
+	if (no_chunk == 1)
+		return sunxi_ss_aes_poll(areq, mode);
+
+	in_sg = areq->src;
+	out_sg = areq->dst;
+
+	nb_in_sg_rx = sg_nents(in_sg);
+	nb_in_sg_tx = sg_nents(out_sg);
+
+	/*
+	 * buf_in and buf_out are allocated only one time
+	 * then we keep the buffer until driver end
+	 * the allocation can only grow more
+	 * we do not reduce it for simplification
+	 */
+	mutex_lock(&ss->bufin_lock);
+	if (ss->buf_in == NULL) {
+		ss->buf_in = kmalloc(areq->nbytes, GFP_KERNEL);
+		ss->buf_in_size = areq->nbytes;
+	} else {
+		if (areq->nbytes > ss->buf_in_size) {
+			kfree(ss->buf_in);
+			ss->buf_in = kmalloc(areq->nbytes, GFP_KERNEL);
+			ss->buf_in_size = areq->nbytes;
+		}
+	}
+	if (ss->buf_in == NULL) {
+		ss->buf_in_size = 0;
+		mutex_unlock(&ss->bufin_lock);
+		dev_err(ss->dev, "Unable to allocate pages.\n");
+		return -ENOMEM;
+	}
+	mutex_lock(&ss->bufout_lock);
+	if (ss->buf_out == NULL) {
+		ss->buf_out = kmalloc(areq->nbytes, GFP_KERNEL);
+		if (ss->buf_out == NULL) {
+			ss->buf_out_size = 0;
+			mutex_unlock(&ss->bufin_lock);
+			mutex_unlock(&ss->bufout_lock);
+			dev_err(ss->dev, "Unable to allocate pages.\n");
+			return -ENOMEM;
+		}
+		ss->buf_out_size = areq->nbytes;
+	} else {
+		if (areq->nbytes > ss->buf_out_size) {
+			kfree(ss->buf_out);
+			ss->buf_out = kmalloc(areq->nbytes, GFP_KERNEL);
+			if (ss->buf_out == NULL) {
+				ss->buf_out_size = 0;
+				mutex_unlock(&ss->bufin_lock);
+				mutex_unlock(&ss->bufout_lock);
+				dev_err(ss->dev, "Unable to allocate pages.\n");
+				return -ENOMEM;
+			}
+			ss->buf_out_size = areq->nbytes;
+		}
+	}
+
+	sg_copy_to_buffer(areq->src, nb_in_sg_rx, ss->buf_in, areq->nbytes);
+
+	ir = 0;
+	it = 0;
+	mutex_lock(&ss->lock);
+
+	for (i = 0; i < op->keylen; i += 4)
+		writel(*(op->key + i/4), ss->base + SS_KEY0 + i);
+	if (areq->info != NULL) {
+		for (i = 0; i < 4 && i < ivsize / 4; i++) {
+			v = *(u32 *)(areq->info + i * 4);
+			writel(v, ss->base + SS_IV0 + i * 4);
+		}
+	}
+	writel(mode, ss->base + SS_CTL);
+
+	do {
+		if (rx_cnt == 0 || tx_cnt == 0) {
+			spaces = readl(ss->base + SS_FCSR);
+			rx_cnt = SS_RXFIFO_SPACES(spaces);
+			tx_cnt = SS_TXFIFO_SPACES(spaces);
+		}
+		if (rx_cnt > 0 && ir < areq->nbytes) {
+			do {
+				value = *(u32 *)(ss->buf_in + ir);
+				writel(value, ss->base + SS_RXFIFO);
+				ir += 4;
+				rx_cnt--;
+			} while (rx_cnt > 0 && ir < areq->nbytes);
+		}
+		if (tx_cnt > 0 && it < areq->nbytes) {
+			do {
+				value = readl(ss->base + SS_TXFIFO);
+				*(u32 *)(ss->buf_out + it) = value;
+				it += 4;
+				tx_cnt--;
+			} while (tx_cnt > 0 && it < areq->nbytes);
+		}
+		if (ir == areq->nbytes) {
+			mutex_unlock(&ss->bufin_lock);
+			ir++;
+		}
+	} while (it < areq->nbytes);
+
+	writel(0, ss->base + SS_CTL);
+	mutex_unlock(&ss->lock);
+
+	/*
+	 * a simple optimization, since we dont need the hardware for this copy
+	 * we release the lock and do the copy. With that we gain 5/10% perf
+	 */
+	sg_copy_from_buffer(areq->dst, nb_in_sg_tx, ss->buf_out, areq->nbytes);
+
+	mutex_unlock(&ss->bufout_lock);
+	return 0;
+}
+
+/* check and set the AES key, prepare the mode to be used */
+int sunxi_ss_aes_setkey(struct crypto_ablkcipher *tfm, const u8 *key,
+		unsigned int keylen)
+{
+	struct sunxi_tfm_ctx *op = crypto_ablkcipher_ctx(tfm);
+
+	switch (keylen) {
+	case 128 / 8:
+		op->keymode = SS_AES_128BITS;
+		break;
+	case 192 / 8:
+		op->keymode = SS_AES_192BITS;
+		break;
+	case 256 / 8:
+		op->keymode = SS_AES_256BITS;
+		break;
+	default:
+		dev_err(ss->dev, "ERROR: Invalid keylen %u\n", keylen);
+		crypto_ablkcipher_set_flags(tfm, CRYPTO_TFM_RES_BAD_KEY_LEN);
+		return -EINVAL;
+	}
+	op->keylen = keylen;
+	memcpy(op->key, key, keylen);
+	return 0;
+}
+
+/* check and set the DES key, prepare the mode to be used */
+int sunxi_ss_des_setkey(struct crypto_ablkcipher *tfm, const u8 *key,
+		unsigned int keylen)
+{
+	struct sunxi_tfm_ctx *op = crypto_ablkcipher_ctx(tfm);
+
+	if (keylen != DES_KEY_SIZE) {
+		dev_err(ss->dev, "Invalid keylen %u\n", keylen);
+		crypto_ablkcipher_set_flags(tfm, CRYPTO_TFM_RES_BAD_KEY_LEN);
+		return -EINVAL;
+	}
+	op->keylen = keylen;
+	memcpy(op->key, key, keylen);
+	return 0;
+}
+
+/* check and set the 3DES key, prepare the mode to be used */
+int sunxi_ss_des3_setkey(struct crypto_ablkcipher *tfm, const u8 *key,
+		unsigned int keylen)
+{
+	struct sunxi_tfm_ctx *op = crypto_ablkcipher_ctx(tfm);
+
+	if (keylen != 3 * DES_KEY_SIZE) {
+		dev_err(ss->dev, "Invalid keylen %u\n", keylen);
+		crypto_ablkcipher_set_flags(tfm, CRYPTO_TFM_RES_BAD_KEY_LEN);
+		return -EINVAL;
+	}
+	op->keylen = keylen;
+	memcpy(op->key, key, keylen);
+	return 0;
+}
--- /dev/null
+++ b/drivers/crypto/sunxi-ss/sunxi-ss-core.c
@@ -0,0 +1,318 @@
+/*
+ * sunxi-ss-core.c - hardware cryptographic accelerator for Allwinner A20 SoC
+ *
+ * Copyright (C) 2013-2014 Corentin LABBE <clabbe.montjoie@gmail.com>
+ *
+ * Core file which registers crypto algorithms supported by the SS.
+ *
+ * You could find a link for the datasheet in Documentation/arm/sunxi/README
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 2 of the License, or
+ * (at your option) any later version.
+ */
+#include <linux/clk.h>
+#include <linux/crypto.h>
+#include <linux/io.h>
+#include <linux/module.h>
+#include <linux/of.h>
+#include <linux/platform_device.h>
+#include <crypto/scatterwalk.h>
+#include <linux/scatterlist.h>
+#include <linux/interrupt.h>
+#include <linux/delay.h>
+
+#include "sunxi-ss.h"
+
+struct sunxi_ss_ctx *ss;
+
+/*
+ * General notes for whole driver:
+ *
+ * After each request the device must be disabled with a write of 0 in SS_CTL
+ *
+ * For performance reason, we use writel_relaxed/read_relaxed for all
+ * operations on RX and TX FIFO and also SS_FCSR.
+ * Excepts for the last write on TX FIFO.
+ * For all other registers, we use writel/readl.
+ * See http://permalink.gmane.org/gmane.linux.ports.arm.kernel/117644
+ * and http://permalink.gmane.org/gmane.linux.ports.arm.kernel/117640
+ */
+
+static struct ahash_alg sunxi_md5_alg = {
+	.init = sunxi_hash_init,
+	.update = sunxi_hash_update,
+	.final = sunxi_hash_final,
+	.finup = sunxi_hash_finup,
+	.digest = sunxi_hash_digest,
+	.halg = {
+		.digestsize = MD5_DIGEST_SIZE,
+		.base = {
+			.cra_name = "md5",
+			.cra_driver_name = "md5-sunxi-ss",
+			.cra_priority = 300,
+			.cra_alignmask = 3,
+			.cra_flags = CRYPTO_ALG_TYPE_AHASH | CRYPTO_ALG_ASYNC,
+			.cra_blocksize = MD5_HMAC_BLOCK_SIZE,
+			.cra_ctxsize = sizeof(struct sunxi_req_ctx),
+			.cra_module = THIS_MODULE,
+			.cra_type = &crypto_ahash_type,
+			.cra_init = sunxi_hash_crainit
+		}
+	}
+};
+
+static struct ahash_alg sunxi_sha1_alg = {
+	.init = sunxi_hash_init,
+	.update = sunxi_hash_update,
+	.final = sunxi_hash_final,
+	.finup = sunxi_hash_finup,
+	.digest = sunxi_hash_digest,
+	.halg = {
+		.digestsize = SHA1_DIGEST_SIZE,
+		.base = {
+			.cra_name = "sha1",
+			.cra_driver_name = "sha1-sunxi-ss",
+			.cra_priority = 300,
+			.cra_alignmask = 3,
+			.cra_flags = CRYPTO_ALG_TYPE_AHASH | CRYPTO_ALG_ASYNC,
+			.cra_blocksize = SHA1_BLOCK_SIZE,
+			.cra_ctxsize = sizeof(struct sunxi_req_ctx),
+			.cra_module = THIS_MODULE,
+			.cra_type = &crypto_ahash_type,
+			.cra_init = sunxi_hash_crainit
+		}
+	}
+};
+
+static struct crypto_alg sunxi_cipher_algs[] = {
+{
+	.cra_name = "cbc(aes)",
+	.cra_driver_name = "cbc-aes-sunxi-ss",
+	.cra_priority = 300,
+	.cra_blocksize = AES_BLOCK_SIZE,
+	.cra_flags = CRYPTO_ALG_TYPE_ABLKCIPHER,
+	.cra_ctxsize = sizeof(struct sunxi_tfm_ctx),
+	.cra_module = THIS_MODULE,
+	.cra_alignmask = 3,
+	.cra_type = &crypto_ablkcipher_type,
+	.cra_init = sunxi_ss_cipher_init,
+	.cra_u = {
+		.ablkcipher = {
+			.min_keysize    = AES_MIN_KEY_SIZE,
+			.max_keysize    = AES_MAX_KEY_SIZE,
+			.ivsize         = AES_BLOCK_SIZE,
+			.setkey         = sunxi_ss_aes_setkey,
+			.encrypt        = sunxi_ss_cipher_encrypt,
+			.decrypt        = sunxi_ss_cipher_decrypt,
+		}
+	}
+}, {
+	.cra_name = "cbc(des)",
+	.cra_driver_name = "cbc-des-sunxi-ss",
+	.cra_priority = 300,
+	.cra_blocksize = DES_BLOCK_SIZE,
+	.cra_flags = CRYPTO_ALG_TYPE_ABLKCIPHER,
+	.cra_ctxsize = sizeof(struct sunxi_req_ctx),
+	.cra_module = THIS_MODULE,
+	.cra_alignmask = 3,
+	.cra_type = &crypto_ablkcipher_type,
+	.cra_init = sunxi_ss_cipher_init,
+	.cra_u.ablkcipher = {
+		.min_keysize    = DES_KEY_SIZE,
+		.max_keysize    = DES_KEY_SIZE,
+		.ivsize         = DES_BLOCK_SIZE,
+		.setkey         = sunxi_ss_des_setkey,
+		.encrypt        = sunxi_ss_cipher_encrypt,
+		.decrypt        = sunxi_ss_cipher_decrypt,
+	}
+}, {
+	.cra_name = "cbc(des3_ede)",
+	.cra_driver_name = "cbc-des3-sunxi-ss",
+	.cra_priority = 300,
+	.cra_blocksize = DES3_EDE_BLOCK_SIZE,
+	.cra_flags = CRYPTO_ALG_TYPE_ABLKCIPHER,
+	.cra_ctxsize = sizeof(struct sunxi_req_ctx),
+	.cra_module = THIS_MODULE,
+	.cra_alignmask = 3,
+	.cra_type = &crypto_ablkcipher_type,
+	.cra_init = sunxi_ss_cipher_init,
+	.cra_u.ablkcipher = {
+		.min_keysize    = DES3_EDE_KEY_SIZE,
+		.max_keysize    = DES3_EDE_KEY_SIZE,
+		.ivsize         = DES3_EDE_BLOCK_SIZE,
+		.setkey         = sunxi_ss_des3_setkey,
+		.encrypt        = sunxi_ss_cipher_encrypt,
+		.decrypt        = sunxi_ss_cipher_decrypt,
+	}
+}
+};
+
+static int sunxi_ss_probe(struct platform_device *pdev)
+{
+	struct resource *res;
+	u32 v;
+	int err;
+	unsigned long cr;
+	const unsigned long cr_ahb = 24 * 1000 * 1000;
+	const unsigned long cr_mod = 150 * 1000 * 1000;
+
+	if (!pdev->dev.of_node)
+		return -ENODEV;
+
+	ss = devm_kzalloc(&pdev->dev, sizeof(*ss), GFP_KERNEL);
+	if (ss == NULL)
+		return -ENOMEM;
+
+	res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
+	ss->base = devm_ioremap_resource(&pdev->dev, res);
+	if (IS_ERR(ss->base)) {
+		dev_err(&pdev->dev, "Cannot request MMIO\n");
+		return PTR_ERR(ss->base);
+	}
+
+	ss->ssclk = devm_clk_get(&pdev->dev, "mod");
+	if (IS_ERR(ss->ssclk)) {
+		err = PTR_ERR(ss->ssclk);
+		dev_err(&pdev->dev, "Cannot get SS clock err=%d\n", err);
+		return err;
+	}
+	dev_dbg(&pdev->dev, "clock ss acquired\n");
+
+	ss->busclk = devm_clk_get(&pdev->dev, "ahb");
+	if (IS_ERR(ss->busclk)) {
+		err = PTR_ERR(ss->busclk);
+		dev_err(&pdev->dev, "Cannot get AHB SS clock err=%d\n", err);
+		return err;
+	}
+	dev_dbg(&pdev->dev, "clock ahb_ss acquired\n");
+
+	/* Enable both clocks */
+	err = clk_prepare_enable(ss->busclk);
+	if (err != 0) {
+		dev_err(&pdev->dev, "Cannot prepare_enable busclk\n");
+		return err;
+	}
+	err = clk_prepare_enable(ss->ssclk);
+	if (err != 0) {
+		dev_err(&pdev->dev, "Cannot prepare_enable ssclk\n");
+		clk_disable_unprepare(ss->busclk);
+		return err;
+	}
+
+	/*
+	 * Check that clock have the correct rates gived in the datasheet
+	 * Try to set the clock to the maximum allowed
+	 */
+	err = clk_set_rate(ss->ssclk, cr_mod);
+	if (err != 0) {
+		dev_err(&pdev->dev, "Cannot set clock rate to ssclk\n");
+		clk_disable_unprepare(ss->ssclk);
+		clk_disable_unprepare(ss->busclk);
+		return err;
+	}
+
+	cr = clk_get_rate(ss->busclk);
+	if (cr >= cr_ahb)
+		dev_dbg(&pdev->dev, "Clock bus %lu (%lu MHz) (must be >= %lu)\n",
+				cr, cr / 1000000, cr_ahb);
+	else
+		dev_warn(&pdev->dev, "Clock bus %lu (%lu MHz) (must be >= %lu)\n",
+				cr, cr / 1000000, cr_ahb);
+
+	cr = clk_get_rate(ss->ssclk);
+	if (cr <= cr_mod)
+		if (cr < cr_mod)
+			dev_info(&pdev->dev, "Clock ss %lu (%lu MHz) (must be <= %lu)\n",
+					cr, cr / 1000000, cr_mod);
+		else
+			dev_dbg(&pdev->dev, "Clock ss %lu (%lu MHz) (must be <= %lu)\n",
+					cr, cr / 1000000, cr_mod);
+	else
+		dev_warn(&pdev->dev, "Clock ss is at %lu (%lu MHz) (must be <= %lu)\n",
+				cr, cr / 1000000, cr_mod);
+
+	/*
+	 * Datasheet named it "Die Bonding ID"
+	 * I expect to be a sort of Security System Revision number.
+	 * Since the A80 seems to have an other version of SS
+	 * this info could be useful
+	 */
+	writel(SS_ENABLED, ss->base + SS_CTL);
+	v = readl(ss->base + SS_CTL);
+	v >>= 16;
+	v &= 0x07;
+	dev_info(&pdev->dev, "Die ID %d\n", v);
+	writel(0, ss->base + SS_CTL);
+
+	ss->dev = &pdev->dev;
+
+	mutex_init(&ss->lock);
+	mutex_init(&ss->bufin_lock);
+	mutex_init(&ss->bufout_lock);
+
+	err = crypto_register_ahash(&sunxi_md5_alg);
+	if (err)
+		goto error_md5;
+	err = crypto_register_ahash(&sunxi_sha1_alg);
+	if (err)
+		goto error_sha1;
+	err = crypto_register_algs(sunxi_cipher_algs,
+			ARRAY_SIZE(sunxi_cipher_algs));
+	if (err)
+		goto error_ciphers;
+
+	return 0;
+error_ciphers:
+	crypto_unregister_ahash(&sunxi_sha1_alg);
+error_sha1:
+	crypto_unregister_ahash(&sunxi_md5_alg);
+error_md5:
+	clk_disable_unprepare(ss->ssclk);
+	clk_disable_unprepare(ss->busclk);
+	return err;
+}
+
+static int __exit sunxi_ss_remove(struct platform_device *pdev)
+{
+	if (!pdev->dev.of_node)
+		return 0;
+
+	crypto_unregister_ahash(&sunxi_md5_alg);
+	crypto_unregister_ahash(&sunxi_sha1_alg);
+	crypto_unregister_algs(sunxi_cipher_algs,
+			ARRAY_SIZE(sunxi_cipher_algs));
+
+	if (ss->buf_in != NULL)
+		kfree(ss->buf_in);
+	if (ss->buf_out != NULL)
+		kfree(ss->buf_out);
+
+	writel(0, ss->base + SS_CTL);
+	clk_disable_unprepare(ss->busclk);
+	clk_disable_unprepare(ss->ssclk);
+	return 0;
+}
+
+static const struct of_device_id a20ss_crypto_of_match_table[] = {
+	{ .compatible = "allwinner,sun7i-a20-crypto" },
+	{}
+};
+MODULE_DEVICE_TABLE(of, a20ss_crypto_of_match_table);
+
+static struct platform_driver sunxi_ss_driver = {
+	.probe          = sunxi_ss_probe,
+	.remove         = __exit_p(sunxi_ss_remove),
+	.driver         = {
+		.owner          = THIS_MODULE,
+		.name           = "sunxi-ss",
+		.of_match_table	= a20ss_crypto_of_match_table,
+	},
+};
+
+module_platform_driver(sunxi_ss_driver);
+
+MODULE_DESCRIPTION("Allwinner Security System cryptographic accelerator");
+MODULE_LICENSE("GPL");
+MODULE_AUTHOR("Corentin LABBE <clabbe.montjoie@gmail.com>");
--- /dev/null
+++ b/drivers/crypto/sunxi-ss/sunxi-ss-hash.c
@@ -0,0 +1,445 @@
+/*
+ * sunxi-ss-hash.c - hardware cryptographic accelerator for Allwinner A20 SoC
+ *
+ * Copyright (C) 2013-2014 Corentin LABBE <clabbe.montjoie@gmail.com>
+ *
+ * This file add support for MD5 and SHA1.
+ *
+ * You could find the datasheet in Documentation/arm/sunxi/README
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 2 of the License, or
+ * (at your option) any later version.
+ */
+#include "sunxi-ss.h"
+
+/* This is a totaly arbitrary value */
+#define SS_TIMEOUT 100
+
+extern struct sunxi_ss_ctx *ss;
+
+int sunxi_hash_crainit(struct crypto_tfm *tfm)
+{
+	crypto_ahash_set_reqsize(__crypto_ahash_cast(tfm),
+			sizeof(struct sunxi_req_ctx));
+	return 0;
+}
+
+/* sunxi_hash_init: initialize request context */
+int sunxi_hash_init(struct ahash_request *areq)
+{
+	const char *hash_type;
+	struct sunxi_req_ctx *op = ahash_request_ctx(areq);
+
+	memset(op, 0, sizeof(struct sunxi_req_ctx));
+
+	hash_type = crypto_tfm_alg_name(areq->base.tfm);
+
+	if (strcmp(hash_type, "sha1") == 0)
+		op->mode = SS_OP_SHA1;
+	if (strcmp(hash_type, "md5") == 0)
+		op->mode = SS_OP_MD5;
+	if (op->mode == 0)
+		return -EINVAL;
+
+	return 0;
+}
+
+static u32 rx_cnt;
+
+inline void ss_writer(const u32 v)
+{
+	u32 spaces;
+
+	writel(v, ss->base + SS_RXFIFO);
+	rx_cnt--;
+	while (rx_cnt == 0) {
+		spaces = readl_relaxed(ss->base + SS_FCSR);
+		rx_cnt = SS_RXFIFO_SPACES(spaces);
+	}
+}
+
+inline void ss_writer_relaxed(const u32 v)
+{
+	u32 spaces;
+
+	writel_relaxed(v, ss->base + SS_RXFIFO);
+	rx_cnt--;
+	while (rx_cnt == 0) {
+		spaces = readl_relaxed(ss->base + SS_FCSR);
+		rx_cnt = SS_RXFIFO_SPACES(spaces);
+	}
+}
+
+/*
+ * sunxi_hash_update: update hash engine
+ *
+ * Could be used for both SHA1 and MD5
+ * Write data by step of 32bits and put then in the SS.
+ *
+ * Since we cannot leave partial data and hash state in the engine,
+ * we need to get the hash state at the end of this function.
+ * After some work, I have found that we can get the hash state every 64o
+ *
+ * So the first work is to get the number of bytes to write to SS modulo 64
+ * The extra bytes will go to two different destination:
+ * op->wait for full 32bits word
+ * op->wb (waiting bytes) for partial 32 bits word
+ * So we can have up to (64/4)-1 op->wait words and 0/1/2/3 bytes in wb
+ *
+ * So at the begin of update()
+ * if op->nwait * 4 + areq->nbytes < 64
+ * => all data writed to wait buffers and end=0
+ * if not write all nwait to the device and position end to complete to 64o
+ *
+ * example 1:
+ * update1 60o => nwait=15
+ * update2 60o => need one more word to have 64o
+ * end=4
+ * so write all data in op->wait and one word of SGs
+ * write remaining data in op->wait
+ * final state op->nwait=14
+ */
+int sunxi_hash_update(struct ahash_request *areq)
+{
+	u32 v, ivmode = 0;
+	unsigned int i = 0;
+	/*
+	 * i is the total bytes read from SGs, to be compared to areq->nbytes
+	 * i is important because we cannot rely on SG length since the sum of
+	 * SG->length could be greater than areq->nbytes
+	 */
+
+	struct sunxi_req_ctx *op = ahash_request_ctx(areq);
+	struct scatterlist *in_sg;
+	unsigned int in_i = 0; /* advancement in the current SG */
+	u64 end;
+	/*
+	 * end is the position when we need to stop writing to the device,
+	 * to be compared to i
+	 */
+	int in_r;
+	void *src_addr;
+
+	dev_dbg(ss->dev, "%s %s bc=%llu len=%u mode=%x bw=%u ww=%u",
+			__func__, crypto_tfm_alg_name(areq->base.tfm),
+			op->byte_count, areq->nbytes, op->mode,
+			op->nbw, op->nwait);
+
+	if (areq->nbytes == 0)
+		return 0;
+
+	end = ((areq->nbytes + op->nwait * 4 + op->nbw) / 64) * 64
+		- op->nbw - op->nwait * 4;
+
+	if (end > areq->nbytes || areq->nbytes - end > 63) {
+		dev_err(ss->dev, "ERROR: Bound error %llu %u\n",
+				end, areq->nbytes);
+		return -EINVAL;
+	}
+
+	if (op->nwait > 0 && end > 0) {
+		/* a precedent update was done */
+		for (i = 0; i < op->nwait; i++) {
+			ss_writer(op->wait[i]);
+			op->byte_count += 4;
+		}
+		op->nwait = 0;
+	}
+
+	mutex_lock(&ss->lock);
+	/*
+	 * if some data have been processed before,
+	 * we need to restore the partial hash state
+	 */
+	if (op->byte_count > 0) {
+		ivmode = SS_IV_ARBITRARY;
+		for (i = 0; i < 5; i++)
+			writel(op->hash[i], ss->base + SS_IV0 + i * 4);
+	}
+	/* Enable the device */
+	writel(op->mode | SS_ENABLED | ivmode, ss->base + SS_CTL);
+
+	rx_cnt = 0;
+	i = 0;
+
+	in_sg = areq->src;
+	src_addr = kmap(sg_page(in_sg)) + in_sg->offset;
+	if (src_addr == NULL) {
+		mutex_unlock(&ss->lock);
+		dev_err(ss->dev, "ERROR: Cannot kmap source buffer\n");
+		return -EFAULT;
+	}
+	do {
+		/*
+		 * step 1, if some bytes remains from last SG,
+		 * try to complete them to 4 and send that word
+		 */
+		if (op->nbw > 0) {
+			while (op->nbw < 4 && i < areq->nbytes &&
+					in_i < in_sg->length) {
+				op->wb |= (*(u8 *)(src_addr + in_i))
+					<< (8 * op->nbw);
+				dev_dbg(ss->dev, "%s Complete w=%d wb=%x\n",
+						__func__, op->nbw, op->wb);
+				i++;
+				in_i++;
+				op->nbw++;
+			}
+			if (op->nbw == 4) {
+				if (i <= end) {
+					ss_writer(op->wb);
+					op->byte_count += 4;
+				} else {
+					op->wait[op->nwait] = op->wb;
+					op->nwait++;
+					dev_dbg(ss->dev, "%s Keep %u bytes after %llu\n",
+						__func__, op->nwait, end);
+				}
+				op->nbw = 0;
+				op->wb = 0;
+			}
+		}
+		/* step 2, main loop, read data 4bytes at a time */
+		while (i < areq->nbytes && in_i < in_sg->length) {
+			/* how many bytes we can read, (we need 4) */
+			in_r = min(in_sg->length - in_i, areq->nbytes - i);
+			if (in_r < 4) {
+				/* Not enough data to write to the device */
+				op->wb = 0;
+				while (in_r > 0) {
+					op->wb |= (*(u8 *)(src_addr + in_i))
+						<< (8 * op->nbw);
+					dev_dbg(ss->dev, "%s ending bw=%d wb=%x\n",
+						__func__, op->nbw, op->wb);
+					in_r--;
+					i++;
+					in_i++;
+					op->nbw++;
+				}
+				goto nextsg;
+			}
+			v = *(u32 *)(src_addr + in_i);
+			if (i < end) {
+				/* last write must be done without relaxed */
+				if (i + 4 >= end)
+					ss_writer(v);
+				else
+					ss_writer_relaxed(v);
+				i += 4;
+				op->byte_count += 4;
+				in_i += 4;
+			} else {
+				op->wait[op->nwait] = v;
+				i += 4;
+				in_i += 4;
+				op->nwait++;
+				dev_dbg(ss->dev, "%s Keep word ww=%u after %llu\n",
+						__func__, op->nwait, end);
+				if (op->nwait > 15) {
+					dev_err(ss->dev, "FATAL: Cannot enqueue more, bug?\n");
+					writel(0, ss->base + SS_CTL);
+					mutex_unlock(&ss->lock);
+					return -EIO;
+				}
+			}
+		}
+nextsg:
+		/* Nothing more to read in this SG */
+		if (in_i == in_sg->length) {
+			kunmap(sg_page(in_sg));
+			do {
+				in_sg = sg_next(in_sg);
+			} while (in_sg != NULL && in_sg->length == 0);
+			in_i = 0;
+			if (in_sg != NULL) {
+				src_addr = kmap(sg_page(in_sg)) + in_sg->offset;
+				if (src_addr == NULL) {
+					mutex_unlock(&ss->lock);
+					dev_err(ss->dev, "ERROR: Cannot kmap source buffer\n");
+					return -EFAULT;
+				}
+			}
+		}
+	} while (in_sg != NULL && i < areq->nbytes);
+
+	/* ask the device to finish the hashing */
+	writel(op->mode | SS_ENABLED | SS_DATA_END, ss->base + SS_CTL);
+	i = 0;
+	do {
+		v = readl(ss->base + SS_CTL);
+		i++;
+	} while (i < SS_TIMEOUT && (v & SS_DATA_END) > 0);
+	if (i >= SS_TIMEOUT) {
+		dev_err(ss->dev, "ERROR: %s hash end timeout after %d loop, CTL=%x\n",
+				__func__, i, v);
+		writel(0, ss->base + SS_CTL);
+		mutex_unlock(&ss->lock);
+		return -EIO;
+	}
+
+	/* get the partial hash */
+	if (op->mode == SS_OP_SHA1) {
+		for (i = 0; i < 5; i++)
+			op->hash[i] = readl(ss->base + SS_MD0 + i * 4);
+	} else {
+		for (i = 0; i < 4; i++)
+			op->hash[i] = readl(ss->base + SS_MD0 + i * 4);
+	}
+
+	writel(0, ss->base + SS_CTL);
+	mutex_unlock(&ss->lock);
+	return 0;
+}
+
+/*
+ * sunxi_hash_final: finalize hashing operation
+ *
+ * If we have some remaining bytes, we write them.
+ * Then ask the SS for finalizing the hashing operation
+ */
+int sunxi_hash_final(struct ahash_request *areq)
+{
+	u32 v, ivmode = 0;
+	unsigned int i;
+	int zeros;
+	unsigned int index, padlen;
+	__be64 bits;
+	struct sunxi_req_ctx *op = ahash_request_ctx(areq);
+
+	dev_dbg(ss->dev, "%s byte=%llu len=%u mode=%x bw=%u %x h=%x ww=%u",
+			__func__, op->byte_count, areq->nbytes, op->mode,
+			op->nbw, op->wb, op->hash[0], op->nwait);
+
+	mutex_lock(&ss->lock);
+	rx_cnt = 0;
+
+	/*
+	 * if we have already writed something,
+	 * restore the partial hash state
+	 */
+	if (op->byte_count > 0) {
+		ivmode = SS_IV_ARBITRARY;
+		for (i = 0; i < 5; i++)
+			writel(op->hash[i], ss->base + SS_IV0 + i * 4);
+	}
+	writel(op->mode | SS_ENABLED | ivmode, ss->base + SS_CTL);
+
+	/* write the remaining words of the wait buffer */
+	if (op->nwait > 0) {
+		for (i = 0; i < op->nwait; i++) {
+			v = op->wait[i];
+			ss_writer(v);
+			op->byte_count += 4;
+			dev_dbg(ss->dev, "%s write %llu i=%u %x\n",
+					__func__, op->byte_count, i, v);
+		}
+		op->nwait = 0;
+	}
+
+	/* write the remaining bytes of the nbw buffer */
+	if (op->nbw > 0) {
+		op->wb |= ((1 << 7) << (op->nbw * 8));
+		ss_writer(op->wb);
+	} else {
+		ss_writer((1 << 7));
+	}
+
+	/*
+	 * number of space to pad to obtain 64o minus 8(size) minus 4 (final 1)
+	 * I take the operations from other md5/sha1 implementations
+	 */
+
+	/* we have already send 4 more byte of which nbw data */
+	if (op->mode == SS_OP_MD5) {
+		index = (op->byte_count + 4) & 0x3f;
+		op->byte_count += op->nbw;
+		if (index > 56)
+			zeros = (120 - index) / 4;
+		else
+			zeros = (56 - index) / 4;
+	} else {
+		op->byte_count += op->nbw;
+		index = op->byte_count & 0x3f;
+		padlen = (index < 56) ? (56 - index) : ((64+56) - index);
+		zeros = (padlen - 1) / 4;
+	}
+	for (i = 0; i < zeros; i++)
+		ss_writer(0);
+
+	/* write the length of data */
+	if (op->mode == SS_OP_SHA1) {
+		bits = cpu_to_be64(op->byte_count << 3);
+		ss_writer(bits & 0xffffffff);
+		ss_writer((bits >> 32) & 0xffffffff);
+	} else {
+		ss_writer((op->byte_count << 3) & 0xffffffff);
+		ss_writer((op->byte_count >> 29) & 0xffffffff);
+	}
+
+	/* Tell the SS to stop the hashing */
+	writel(op->mode | SS_ENABLED | SS_DATA_END, ss->base + SS_CTL);
+
+	/*
+	 * Wait for SS to finish the hash.
+	 * The timeout could happend only in case of bad overcloking
+	 * or driver bug.
+	 */
+	i = 0;
+	do {
+		v = readl(ss->base + SS_CTL);
+		i++;
+	} while (i < SS_TIMEOUT && (v & SS_DATA_END) > 0);
+	if (i >= SS_TIMEOUT) {
+		dev_err(ss->dev, "ERROR: hash end timeout %d>%d ctl=%x len=%u\n",
+				i, SS_TIMEOUT, v, areq->nbytes);
+		writel(0, ss->base + SS_CTL);
+		mutex_unlock(&ss->lock);
+		return -EIO;
+	}
+
+	/* Get the hash from the device */
+	if (op->mode == SS_OP_SHA1) {
+		for (i = 0; i < 5; i++) {
+			v = cpu_to_be32(readl(ss->base + SS_MD0 + i * 4));
+			memcpy(areq->result + i * 4, &v, 4);
+		}
+	} else {
+		for (i = 0; i < 4; i++) {
+			v = readl(ss->base + SS_MD0 + i * 4);
+			memcpy(areq->result + i * 4, &v, 4);
+		}
+	}
+	writel(0, ss->base + SS_CTL);
+	mutex_unlock(&ss->lock);
+	return 0;
+}
+
+/* sunxi_hash_finup: finalize hashing operation after an update */
+int sunxi_hash_finup(struct ahash_request *areq)
+{
+	int err;
+
+	err = sunxi_hash_update(areq);
+	if (err != 0)
+		return err;
+
+	return sunxi_hash_final(areq);
+}
+
+/* combo of init/update/final functions */
+int sunxi_hash_digest(struct ahash_request *areq)
+{
+	int err;
+
+	err = sunxi_hash_init(areq);
+	if (err != 0)
+		return err;
+
+	err = sunxi_hash_update(areq);
+	if (err != 0)
+		return err;
+
+	return sunxi_hash_final(areq);
+}
--- /dev/null
+++ b/drivers/crypto/sunxi-ss/sunxi-ss.h
@@ -0,0 +1,193 @@
+/*
+ * sunxi-ss.c - hardware cryptographic accelerator for Allwinner A20 SoC
+ *
+ * Copyright (C) 2013-2014 Corentin LABBE <clabbe.montjoie@gmail.com>
+ *
+ * Support AES cipher with 128,192,256 bits keysize.
+ * Support MD5 and SHA1 hash algorithms.
+ * Support DES and 3DES
+ *
+ * You could find the datasheet in Documentation/arm/sunxi/README
+ *
+ * Licensed under the GPL-2.
+ */
+
+#include <linux/clk.h>
+#include <linux/crypto.h>
+#include <linux/io.h>
+#include <linux/module.h>
+#include <linux/of.h>
+#include <linux/platform_device.h>
+#include <crypto/scatterwalk.h>
+#include <linux/scatterlist.h>
+#include <linux/interrupt.h>
+#include <linux/delay.h>
+#include <crypto/md5.h>
+#include <crypto/sha.h>
+#include <crypto/hash.h>
+#include <crypto/internal/hash.h>
+#include <crypto/aes.h>
+#include <crypto/des.h>
+#include <crypto/internal/rng.h>
+
+#define SS_CTL            0x00
+#define SS_KEY0           0x04
+#define SS_KEY1           0x08
+#define SS_KEY2           0x0C
+#define SS_KEY3           0x10
+#define SS_KEY4           0x14
+#define SS_KEY5           0x18
+#define SS_KEY6           0x1C
+#define SS_KEY7           0x20
+
+#define SS_IV0            0x24
+#define SS_IV1            0x28
+#define SS_IV2            0x2C
+#define SS_IV3            0x30
+
+#define SS_CNT0           0x34
+#define SS_CNT1           0x38
+#define SS_CNT2           0x3C
+#define SS_CNT3           0x40
+
+#define SS_FCSR           0x44
+#define SS_ICSR           0x48
+
+#define SS_MD0            0x4C
+#define SS_MD1            0x50
+#define SS_MD2            0x54
+#define SS_MD3            0x58
+#define SS_MD4            0x5C
+
+#define SS_RXFIFO         0x200
+#define SS_TXFIFO         0x204
+
+/* SS_CTL configuration values */
+
+/* PRNG generator mode - bit 15 */
+#define SS_PRNG_ONESHOT		(0 << 15)
+#define SS_PRNG_CONTINUE	(1 << 15)
+
+/* IV mode for hash */
+#define SS_IV_ARBITRARY		(1 << 14)
+
+/* SS operation mode - bits 12-13 */
+#define SS_ECB			(0 << 12)
+#define SS_CBC			(1 << 12)
+#define SS_CNT			(2 << 12)
+
+/* Counter width for CNT mode - bits 10-11 */
+#define SS_CNT_16BITS		(0 << 10)
+#define SS_CNT_32BITS		(1 << 10)
+#define SS_CNT_64BITS		(2 << 10)
+
+/* Key size for AES - bits 8-9 */
+#define SS_AES_128BITS		(0 << 8)
+#define SS_AES_192BITS		(1 << 8)
+#define SS_AES_256BITS		(2 << 8)
+
+/* Operation direction - bit 7 */
+#define SS_ENCRYPTION		(0 << 7)
+#define SS_DECRYPTION		(1 << 7)
+
+/* SS Method - bits 4-6 */
+#define SS_OP_AES		(0 << 4)
+#define SS_OP_DES		(1 << 4)
+#define SS_OP_3DES		(2 << 4)
+#define SS_OP_SHA1		(3 << 4)
+#define SS_OP_MD5		(4 << 4)
+#define SS_OP_PRNG		(5 << 4)
+
+/* Data end bit - bit 2 */
+#define SS_DATA_END		(1 << 2)
+
+/* PRNG start bit - bit 1 */
+#define SS_PRNG_START		(1 << 1)
+
+/* SS Enable bit - bit 0 */
+#define SS_DISABLED		(0 << 0)
+#define SS_ENABLED		(1 << 0)
+
+/* SS_FCSR configuration values */
+/* RX FIFO status - bit 30 */
+#define SS_RXFIFO_FREE		(1 << 30)
+
+/* RX FIFO empty spaces - bits 24-29 */
+#define SS_RXFIFO_SPACES(val)	(((val) >> 24) & 0x3f)
+
+/* TX FIFO status - bit 22 */
+#define SS_TXFIFO_AVAILABLE	(1 << 22)
+
+/* TX FIFO available spaces - bits 16-21 */
+#define SS_TXFIFO_SPACES(val)	(((val) >> 16) & 0x3f)
+
+#define SS_RXFIFO_EMP_INT_PENDING	(1 << 10)
+#define SS_TXFIFO_AVA_INT_PENDING	(1 << 8)
+#define SS_RXFIFO_EMP_INT_ENABLE	(1 << 2)
+#define SS_TXFIFO_AVA_INT_ENABLE	(1 << 0)
+
+/* SS_ICSR configuration values */
+#define SS_ICS_DRQ_ENABLE		(1 << 4)
+
+struct sunxi_ss_ctx {
+	void __iomem *base;
+	int irq;
+	struct clk *busclk;
+	struct clk *ssclk;
+	struct device *dev;
+	struct resource *res;
+	void *buf_in; /* pointer to data to be uploaded to the device */
+	size_t buf_in_size; /* size of buf_in */
+	void *buf_out;
+	size_t buf_out_size;
+	struct mutex lock; /* control the use of the device */
+	struct mutex bufout_lock; /* control the use of buf_out*/
+	struct mutex bufin_lock; /* control the sue of buf_in*/
+};
+
+struct sunxi_tfm_ctx {
+	u32 key[AES_MAX_KEY_SIZE / 4];/* divided by sizeof(u32) */
+	u32 keylen;
+	u32 keymode;
+};
+
+struct sunxi_req_ctx {
+	u32 mode;
+	u64 byte_count; /* number of bytes "uploaded" to the device */
+	u32 wb; /* a partial word waiting to be completed and
+			uploaded to the device */
+	/* number of bytes to be uploaded in the wb word */
+	unsigned int nbw;
+	u32 hash[5];
+	u32 wait[64];
+	unsigned int nwait;
+};
+
+#define SS_SEED_LEN (192/8)
+#define SS_DATA_LEN (160/8)
+
+struct prng_context {
+	u32 seed[SS_SEED_LEN/4];
+	unsigned int slen;
+};
+
+int sunxi_hash_crainit(struct crypto_tfm *tfm);
+int sunxi_hash_init(struct ahash_request *areq);
+int sunxi_hash_update(struct ahash_request *areq);
+int sunxi_hash_final(struct ahash_request *areq);
+int sunxi_hash_finup(struct ahash_request *areq);
+int sunxi_hash_digest(struct ahash_request *areq);
+int sunxi_hash_export(struct ahash_request *areq, void *out);
+int sunxi_hash_import(struct ahash_request *areq, const void *in);
+
+int sunxi_ss_aes_poll(struct ablkcipher_request *areq, u32 mode);
+int sunxi_ss_des_poll(struct ablkcipher_request *areq, u32 mode);
+int sunxi_ss_cipher_init(struct crypto_tfm *tfm);
+int sunxi_ss_cipher_encrypt(struct ablkcipher_request *areq);
+int sunxi_ss_cipher_decrypt(struct ablkcipher_request *areq);
+int sunxi_ss_aes_setkey(struct crypto_ablkcipher *tfm, const u8 *key,
+		unsigned int keylen);
+int sunxi_ss_des_setkey(struct crypto_ablkcipher *tfm, const u8 *key,
+		unsigned int keylen);
+int sunxi_ss_des3_setkey(struct crypto_ablkcipher *tfm, const u8 *key,
+		unsigned int keylen);