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Release 4.11 drivers/crypto/mediatek/mtk-sha.c

/*
 * Cryptographic API.
 *
 * Driver for EIP97 SHA1/SHA2(HMAC) acceleration.
 *
 * Copyright (c) 2016 Ryder Lee <ryder.lee@mediatek.com>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 *
 * Some ideas are from atmel-sha.c and omap-sham.c drivers.
 */

#include <crypto/sha.h>
#include "mtk-platform.h"


#define SHA_ALIGN_MSK		(sizeof(u32) - 1)

#define SHA_QUEUE_SIZE		512

#define SHA_TMP_BUF_SIZE	512

#define SHA_BUF_SIZE		((u32)PAGE_SIZE)


#define SHA_OP_UPDATE		1

#define SHA_OP_FINAL		2


#define SHA_DATA_LEN_MSK	cpu_to_le32(GENMASK(16, 0))

/* SHA command token */

#define SHA_CT_SIZE		5

#define SHA_CT_CTRL_HDR		cpu_to_le32(0x02220000)

#define SHA_CMD0		cpu_to_le32(0x03020000)

#define SHA_CMD1		cpu_to_le32(0x21060000)

#define SHA_CMD2		cpu_to_le32(0xe0e63802)

/* SHA transform information */

#define SHA_TFM_HASH		cpu_to_le32(0x2 << 0)

#define SHA_TFM_INNER_DIG	cpu_to_le32(0x1 << 21)

#define SHA_TFM_SIZE(x)		cpu_to_le32((x) << 8)

#define SHA_TFM_START		cpu_to_le32(0x1 << 4)

#define SHA_TFM_CONTINUE	cpu_to_le32(0x1 << 5)

#define SHA_TFM_HASH_STORE	cpu_to_le32(0x1 << 19)

#define SHA_TFM_SHA1		cpu_to_le32(0x2 << 23)

#define SHA_TFM_SHA256		cpu_to_le32(0x3 << 23)

#define SHA_TFM_SHA224		cpu_to_le32(0x4 << 23)

#define SHA_TFM_SHA512		cpu_to_le32(0x5 << 23)

#define SHA_TFM_SHA384		cpu_to_le32(0x6 << 23)

#define SHA_TFM_DIGEST(x)	cpu_to_le32(((x) & GENMASK(3, 0)) << 24)

/* SHA flags */

#define SHA_FLAGS_BUSY		BIT(0)

#define	SHA_FLAGS_FINAL		BIT(1)

#define SHA_FLAGS_FINUP		BIT(2)

#define SHA_FLAGS_SG		BIT(3)

#define SHA_FLAGS_ALGO_MSK	GENMASK(8, 4)

#define SHA_FLAGS_SHA1		BIT(4)

#define SHA_FLAGS_SHA224	BIT(5)

#define SHA_FLAGS_SHA256	BIT(6)

#define SHA_FLAGS_SHA384	BIT(7)

#define SHA_FLAGS_SHA512	BIT(8)

#define SHA_FLAGS_HMAC		BIT(9)

#define SHA_FLAGS_PAD		BIT(10)

/**
 * mtk_sha_ct is a set of hardware instructions(command token)
 * that are used to control engine's processing flow of SHA,
 * and it contains the first two words of transform state.
 */

struct mtk_sha_ct {
	
__le32 ctrl[2];
	
__le32 cmd[3];
};

/**
 * mtk_sha_tfm is used to define SHA transform state
 * and store result digest that produced by engine.
 */

struct mtk_sha_tfm {
	
__le32 ctrl[2];
	
__le32 digest[SIZE_IN_WORDS(SHA512_DIGEST_SIZE)];
};

/**
 * mtk_sha_info consists of command token and transform state
 * of SHA, its role is similar to mtk_aes_info.
 */

struct mtk_sha_info {
	
struct mtk_sha_ct ct;
	
struct mtk_sha_tfm tfm;
};


struct mtk_sha_reqctx {
	
struct mtk_sha_info info;
	
unsigned long flags;
	
unsigned long op;

	
u64 digcnt;
	
bool start;
	
size_t bufcnt;
	
dma_addr_t dma_addr;

	
__le32 ct_hdr;
	
u32 ct_size;
	
dma_addr_t ct_dma;
	
dma_addr_t tfm_dma;

	/* Walk state */
	
struct scatterlist *sg;
	
u32 offset;	/* Offset in current sg */
	
u32 total;	/* Total request */
	
size_t ds;
	
size_t bs;

	
u8 *buffer;
};


struct mtk_sha_hmac_ctx {
	
struct crypto_shash	*shash;
	u8 ipad[SHA512_BLOCK_SIZE] __aligned(sizeof(u32));
	u8 opad[SHA512_BLOCK_SIZE] __aligned(sizeof(u32));
};


struct mtk_sha_ctx {
	
struct mtk_cryp *cryp;
	
unsigned long flags;
	
u8 id;
	u8 buf[SHA_BUF_SIZE] __aligned(sizeof(u32));

	
struct mtk_sha_hmac_ctx	base[0];
};


struct mtk_sha_drv {
	
struct list_head dev_list;
	/* Device list lock */
	
spinlock_t lock;
};


static struct mtk_sha_drv mtk_sha = {
	.dev_list = LIST_HEAD_INIT(mtk_sha.dev_list),
	.lock = __SPIN_LOCK_UNLOCKED(mtk_sha.lock),
};

static int mtk_sha_handle_queue(struct mtk_cryp *cryp, u8 id,
				struct ahash_request *req);


static inline u32 mtk_sha_read(struct mtk_cryp *cryp, u32 offset) { return readl_relaxed(cryp->base + offset); }

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static inline void mtk_sha_write(struct mtk_cryp *cryp, u32 offset, u32 value) { writel_relaxed(value, cryp->base + offset); }

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static struct mtk_cryp *mtk_sha_find_dev(struct mtk_sha_ctx *tctx) { struct mtk_cryp *cryp = NULL; struct mtk_cryp *tmp; spin_lock_bh(&mtk_sha.lock); if (!tctx->cryp) { list_for_each_entry(tmp, &mtk_sha.dev_list, sha_list) { cryp = tmp; break; } tctx->cryp = cryp; } else { cryp = tctx->cryp; } /* * Assign record id to tfm in round-robin fashion, and this * will help tfm to bind to corresponding descriptor rings. */ tctx->id = cryp->rec; cryp->rec = !cryp->rec; spin_unlock_bh(&mtk_sha.lock); return cryp; }

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static int mtk_sha_append_sg(struct mtk_sha_reqctx *ctx) { size_t count; while ((ctx->bufcnt < SHA_BUF_SIZE) && ctx->total) { count = min(ctx->sg->length - ctx->offset, ctx->total); count = min(count, SHA_BUF_SIZE - ctx->bufcnt); if (count <= 0) { /* * Check if count <= 0 because the buffer is full or * because the sg length is 0. In the latest case, * check if there is another sg in the list, a 0 length * sg doesn't necessarily mean the end of the sg list. */ if ((ctx->sg->length == 0) && !sg_is_last(ctx->sg)) { ctx->sg = sg_next(ctx->sg); continue; } else { break; } } scatterwalk_map_and_copy(ctx->buffer + ctx->bufcnt, ctx->sg, ctx->offset, count, 0); ctx->bufcnt += count; ctx->offset += count; ctx->total -= count; if (ctx->offset == ctx->sg->length) { ctx->sg = sg_next(ctx->sg); if (ctx->sg) ctx->offset = 0; else ctx->total = 0; } } return 0; }

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/* * The purpose of this padding is to ensure that the padded message is a * multiple of 512 bits (SHA1/SHA224/SHA256) or 1024 bits (SHA384/SHA512). * The bit "1" is appended at the end of the message followed by * "padlen-1" zero bits. Then a 64 bits block (SHA1/SHA224/SHA256) or * 128 bits block (SHA384/SHA512) equals to the message length in bits * is appended. * * For SHA1/SHA224/SHA256, padlen is calculated as followed: * - if message length < 56 bytes then padlen = 56 - message length * - else padlen = 64 + 56 - message length * * For SHA384/SHA512, padlen is calculated as followed: * - if message length < 112 bytes then padlen = 112 - message length * - else padlen = 128 + 112 - message length */
static void mtk_sha_fill_padding(struct mtk_sha_reqctx *ctx, u32 len) { u32 index, padlen; u64 bits[2]; u64 size = ctx->digcnt; size += ctx->bufcnt; size += len; bits[1] = cpu_to_be64(size << 3); bits[0] = cpu_to_be64(size >> 61); if (ctx->flags & (SHA_FLAGS_SHA384 | SHA_FLAGS_SHA512)) { index = ctx->bufcnt & 0x7f; padlen = (index < 112) ? (112 - index) : ((128 + 112) - index); *(ctx->buffer + ctx->bufcnt) = 0x80; memset(ctx->buffer + ctx->bufcnt + 1, 0, padlen - 1); memcpy(ctx->buffer + ctx->bufcnt + padlen, bits, 16); ctx->bufcnt += padlen + 16; ctx->flags |= SHA_FLAGS_PAD; } else { index = ctx->bufcnt & 0x3f; padlen = (index < 56) ? (56 - index) : ((64 + 56) - index); *(ctx->buffer + ctx->bufcnt) = 0x80; memset(ctx->buffer + ctx->bufcnt + 1, 0, padlen - 1); memcpy(ctx->buffer + ctx->bufcnt + padlen, &bits[1], 8); ctx->bufcnt += padlen + 8; ctx->flags |= SHA_FLAGS_PAD; } }

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/* Initialize basic transform information of SHA */
static void mtk_sha_info_init(struct mtk_sha_reqctx *ctx) { struct mtk_sha_ct *ct = &ctx->info.ct; struct mtk_sha_tfm *tfm = &ctx->info.tfm; ctx->ct_hdr = SHA_CT_CTRL_HDR; ctx->ct_size = SHA_CT_SIZE; tfm->ctrl[0] = SHA_TFM_HASH | SHA_TFM_INNER_DIG | SHA_TFM_SIZE(SIZE_IN_WORDS(ctx->ds)); switch (ctx->flags & SHA_FLAGS_ALGO_MSK) { case SHA_FLAGS_SHA1: tfm->ctrl[0] |= SHA_TFM_SHA1; break; case SHA_FLAGS_SHA224: tfm->ctrl[0] |= SHA_TFM_SHA224; break; case SHA_FLAGS_SHA256: tfm->ctrl[0] |= SHA_TFM_SHA256; break; case SHA_FLAGS_SHA384: tfm->ctrl[0] |= SHA_TFM_SHA384; break; case SHA_FLAGS_SHA512: tfm->ctrl[0] |= SHA_TFM_SHA512; break; default: /* Should not happen... */ return; } tfm->ctrl[1] = SHA_TFM_HASH_STORE; ct->ctrl[0] = tfm->ctrl[0] | SHA_TFM_CONTINUE | SHA_TFM_START; ct->ctrl[1] = tfm->ctrl[1]; ct->cmd[0] = SHA_CMD0; ct->cmd[1] = SHA_CMD1; ct->cmd[2] = SHA_CMD2 | SHA_TFM_DIGEST(SIZE_IN_WORDS(ctx->ds)); }

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/* * Update input data length field of transform information and * map it to DMA region. */
static int mtk_sha_info_update(struct mtk_cryp *cryp, struct mtk_sha_rec *sha, size_t len) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(sha->req); struct mtk_sha_info *info = &ctx->info; struct mtk_sha_ct *ct = &info->ct; if (ctx->start) ctx->start = false; else ct->ctrl[0] &= ~SHA_TFM_START; ctx->ct_hdr &= ~SHA_DATA_LEN_MSK; ctx->ct_hdr |= cpu_to_le32(len); ct->cmd[0] &= ~SHA_DATA_LEN_MSK; ct->cmd[0] |= cpu_to_le32(len); ctx->digcnt += len; ctx->ct_dma = dma_map_single(cryp->dev, info, sizeof(*info), DMA_BIDIRECTIONAL); if (unlikely(dma_mapping_error(cryp->dev, ctx->ct_dma))) { dev_err(cryp->dev, "dma %zu bytes error\n", sizeof(*info)); return -EINVAL; } ctx->tfm_dma = ctx->ct_dma + sizeof(*ct); return 0; }

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/* * Because of hardware limitation, we must pre-calculate the inner * and outer digest that need to be processed firstly by engine, then * apply the result digest to the input message. These complex hashing * procedures limits HMAC performance, so we use fallback SW encoding. */
static int mtk_sha_finish_hmac(struct ahash_request *req) { struct mtk_sha_ctx *tctx = crypto_tfm_ctx(req->base.tfm); struct mtk_sha_hmac_ctx *bctx = tctx->base; struct mtk_sha_reqctx *ctx = ahash_request_ctx(req); SHASH_DESC_ON_STACK(shash, bctx->shash); shash->tfm = bctx->shash; shash->flags = 0; /* not CRYPTO_TFM_REQ_MAY_SLEEP */ return crypto_shash_init(shash) ?: crypto_shash_update(shash, bctx->opad, ctx->bs) ?: crypto_shash_finup(shash, req->result, ctx->ds, req->result); }

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/* Initialize request context */
static int mtk_sha_init(struct ahash_request *req) { struct crypto_ahash *tfm = crypto_ahash_reqtfm(req); struct mtk_sha_ctx *tctx = crypto_ahash_ctx(tfm); struct mtk_sha_reqctx *ctx = ahash_request_ctx(req); ctx->flags = 0; ctx->ds = crypto_ahash_digestsize(tfm); switch (ctx->ds) { case SHA1_DIGEST_SIZE: ctx->flags |= SHA_FLAGS_SHA1; ctx->bs = SHA1_BLOCK_SIZE; break; case SHA224_DIGEST_SIZE: ctx->flags |= SHA_FLAGS_SHA224; ctx->bs = SHA224_BLOCK_SIZE; break; case SHA256_DIGEST_SIZE: ctx->flags |= SHA_FLAGS_SHA256; ctx->bs = SHA256_BLOCK_SIZE; break; case SHA384_DIGEST_SIZE: ctx->flags |= SHA_FLAGS_SHA384; ctx->bs = SHA384_BLOCK_SIZE; break; case SHA512_DIGEST_SIZE: ctx->flags |= SHA_FLAGS_SHA512; ctx->bs = SHA512_BLOCK_SIZE; break; default: return -EINVAL; } ctx->bufcnt = 0; ctx->digcnt = 0; ctx->buffer = tctx->buf; ctx->start = true; if (tctx->flags & SHA_FLAGS_HMAC) { struct mtk_sha_hmac_ctx *bctx = tctx->base; memcpy(ctx->buffer, bctx->ipad, ctx->bs); ctx->bufcnt = ctx->bs; ctx->flags |= SHA_FLAGS_HMAC; } return 0; }

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static int mtk_sha_xmit(struct mtk_cryp *cryp, struct mtk_sha_rec *sha, dma_addr_t addr, size_t len) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(sha->req); struct mtk_ring *ring = cryp->ring[sha->id]; struct mtk_desc *cmd = ring->cmd_base + ring->cmd_pos; struct mtk_desc *res = ring->res_base + ring->res_pos; int err; err = mtk_sha_info_update(cryp, sha, len); if (err) return err; /* Fill in the command/result descriptors */ res->hdr = MTK_DESC_FIRST | MTK_DESC_LAST | MTK_DESC_BUF_LEN(len); res->buf = cpu_to_le32(cryp->tmp_dma); cmd->hdr = MTK_DESC_FIRST | MTK_DESC_LAST | MTK_DESC_BUF_LEN(len) | MTK_DESC_CT_LEN(ctx->ct_size); cmd->buf = cpu_to_le32(addr); cmd->ct = cpu_to_le32(ctx->ct_dma); cmd->ct_hdr = ctx->ct_hdr; cmd->tfm = cpu_to_le32(ctx->tfm_dma); if (++ring->cmd_pos == MTK_DESC_NUM) ring->cmd_pos = 0; ring->res_pos = ring->cmd_pos; /* * Make sure that all changes to the DMA ring are done before we * start engine. */ wmb(); /* Start DMA transfer */ mtk_sha_write(cryp, RDR_PREP_COUNT(sha->id), MTK_DESC_CNT(1)); mtk_sha_write(cryp, CDR_PREP_COUNT(sha->id), MTK_DESC_CNT(1)); return -EINPROGRESS; }

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static int mtk_sha_xmit2(struct mtk_cryp *cryp, struct mtk_sha_rec *sha, struct mtk_sha_reqctx *ctx, size_t len1, size_t len2) { struct mtk_ring *ring = cryp->ring[sha->id]; struct mtk_desc *cmd = ring->cmd_base + ring->cmd_pos; struct mtk_desc *res = ring->res_base + ring->res_pos; int err; err = mtk_sha_info_update(cryp, sha, len1 + len2); if (err) return err; /* Fill in the command/result descriptors */ res->hdr = MTK_DESC_BUF_LEN(len1) | MTK_DESC_FIRST; res->buf = cpu_to_le32(cryp->tmp_dma); cmd->hdr = MTK_DESC_BUF_LEN(len1) | MTK_DESC_FIRST | MTK_DESC_CT_LEN(ctx->ct_size); cmd->buf = cpu_to_le32(sg_dma_address(ctx->sg)); cmd->ct = cpu_to_le32(ctx->ct_dma); cmd->ct_hdr = ctx->ct_hdr; cmd->tfm = cpu_to_le32(ctx->tfm_dma); if (++ring->cmd_pos == MTK_DESC_NUM) ring->cmd_pos = 0; ring->res_pos = ring->cmd_pos; cmd = ring->cmd_base + ring->cmd_pos; res = ring->res_base + ring->res_pos; res->hdr = MTK_DESC_BUF_LEN(len2) | MTK_DESC_LAST; res->buf = cpu_to_le32(cryp->tmp_dma); cmd->hdr = MTK_DESC_BUF_LEN(len2) | MTK_DESC_LAST; cmd->buf = cpu_to_le32(ctx->dma_addr); if (++ring->cmd_pos == MTK_DESC_NUM) ring->cmd_pos = 0; ring->res_pos = ring->cmd_pos; /* * Make sure that all changes to the DMA ring are done before we * start engine. */ wmb(); /* Start DMA transfer */ mtk_sha_write(cryp, RDR_PREP_COUNT(sha->id), MTK_DESC_CNT(2)); mtk_sha_write(cryp, CDR_PREP_COUNT(sha->id), MTK_DESC_CNT(2)); return -EINPROGRESS; }

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static int mtk_sha_dma_map(struct mtk_cryp *cryp, struct mtk_sha_rec *sha, struct mtk_sha_reqctx *ctx, size_t count) { ctx->dma_addr = dma_map_single(cryp->dev, ctx->buffer, SHA_BUF_SIZE, DMA_TO_DEVICE); if (unlikely(dma_mapping_error(cryp->dev, ctx->dma_addr))) { dev_err(cryp->dev, "dma map error\n"); return -EINVAL; } ctx->flags &= ~SHA_FLAGS_SG; return mtk_sha_xmit(cryp, sha, ctx->dma_addr, count); }

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static int mtk_sha_update_slow(struct mtk_cryp *cryp, struct mtk_sha_rec *sha) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(sha->req); size_t count; u32 final; mtk_sha_append_sg(ctx); final = (ctx->flags & SHA_FLAGS_FINUP) && !ctx->total; dev_dbg(cryp->dev, "slow: bufcnt: %zu\n", ctx->bufcnt); if (final) { sha->flags |= SHA_FLAGS_FINAL; mtk_sha_fill_padding(ctx, 0); } if (final || (ctx->bufcnt == SHA_BUF_SIZE && ctx->total)) { count = ctx->bufcnt; ctx->bufcnt = 0; return mtk_sha_dma_map(cryp, sha, ctx, count); } return 0; }

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static int mtk_sha_update_start(struct mtk_cryp *cryp, struct mtk_sha_rec *sha) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(sha->req); u32 len, final, tail; struct scatterlist *sg; if (!ctx->total) return 0; if (ctx->bufcnt || ctx->offset) return mtk_sha_update_slow(cryp, sha); sg = ctx->sg; if (!IS_ALIGNED(sg->offset, sizeof(u32))) return mtk_sha_update_slow(cryp, sha); if (!sg_is_last(sg) && !IS_ALIGNED(sg->length, ctx->bs)) /* size is not ctx->bs aligned */ return mtk_sha_update_slow(cryp, sha); len = min(ctx->total, sg->length); if (sg_is_last(sg)) { if (!(ctx->flags & SHA_FLAGS_FINUP)) { /* not last sg must be ctx->bs aligned */ tail = len & (ctx->bs - 1); len -= tail; } } ctx->total -= len; ctx->offset = len; /* offset where to start slow */ final = (ctx->flags & SHA_FLAGS_FINUP) && !ctx->total; /* Add padding */ if (final) { size_t count; tail = len & (ctx->bs - 1); len -= tail; ctx->total += tail; ctx->offset = len; /* offset where to start slow */ sg = ctx->sg; mtk_sha_append_sg(ctx); mtk_sha_fill_padding(ctx, len); ctx->dma_addr = dma_map_single(cryp->dev, ctx->buffer, SHA_BUF_SIZE, DMA_TO_DEVICE); if (unlikely(dma_mapping_error(cryp->dev, ctx->dma_addr))) { dev_err(cryp->dev, "dma map bytes error\n"); return -EINVAL; } sha->flags |= SHA_FLAGS_FINAL; count = ctx->bufcnt; ctx->bufcnt = 0; if (len == 0) { ctx->flags &= ~SHA_FLAGS_SG; return mtk_sha_xmit(cryp, sha, ctx->dma_addr, count); } else { ctx->sg = sg; if (!dma_map_sg(cryp->dev, ctx->sg, 1, DMA_TO_DEVICE)) { dev_err(cryp->dev, "dma_map_sg error\n"); return -EINVAL; } ctx->flags |= SHA_FLAGS_SG; return mtk_sha_xmit2(cryp, sha, ctx, len, count); } } if (!dma_map_sg(cryp->dev, ctx->sg, 1, DMA_TO_DEVICE)) { dev_err(cryp->dev, "dma_map_sg error\n"); return -EINVAL; } ctx->flags |= SHA_FLAGS_SG; return mtk_sha_xmit(cryp, sha, sg_dma_address(ctx->sg), len); }

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static int mtk_sha_final_req(struct mtk_cryp *cryp, struct mtk_sha_rec *sha) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(sha->req); size_t count; mtk_sha_fill_padding(ctx, 0); sha->flags |= SHA_FLAGS_FINAL; count = ctx->bufcnt; ctx->bufcnt = 0; return mtk_sha_dma_map(cryp, sha, ctx, count); }

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/* Copy ready hash (+ finalize hmac) */
static int mtk_sha_finish(struct ahash_request *req) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(req); u32 *digest = ctx->info.tfm.digest; u32 *result = (u32 *)req->result; int i; /* Get the hash from the digest buffer */ for (i = 0; i < SIZE_IN_WORDS(ctx->ds); i++) result[i] = le32_to_cpu(digest[i]); if (ctx->flags & SHA_FLAGS_HMAC) return mtk_sha_finish_hmac(req); return 0; }

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static void mtk_sha_finish_req(struct mtk_cryp *cryp, struct mtk_sha_rec *sha, int err) { if (likely(!err && (SHA_FLAGS_FINAL & sha->flags))) err = mtk_sha_finish(sha->req); sha->flags &= ~(SHA_FLAGS_BUSY | SHA_FLAGS_FINAL); sha->req->base.complete(&sha->req->base, err); /* Handle new request */ mtk_sha_handle_queue(cryp, sha->id - RING2, NULL); }

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static int mtk_sha_handle_queue(struct mtk_cryp *cryp, u8 id, struct ahash_request *req) { struct mtk_sha_rec *sha = cryp->sha[id]; struct crypto_async_request *async_req, *backlog; struct mtk_sha_reqctx *ctx; unsigned long flags; int err = 0, ret = 0; spin_lock_irqsave(&sha->lock, flags); if (req) ret = ahash_enqueue_request(&sha->queue, req); if (SHA_FLAGS_BUSY & sha->flags) { spin_unlock_irqrestore(&sha->lock, flags); return ret; } backlog = crypto_get_backlog(&sha->queue); async_req = crypto_dequeue_request(&sha->queue); if (async_req) sha->flags |= SHA_FLAGS_BUSY; spin_unlock_irqrestore(&sha->lock, flags); if (!async_req) return ret; if (backlog) backlog->complete(backlog, -EINPROGRESS); req = ahash_request_cast(async_req); ctx = ahash_request_ctx(req); sha->req = req; mtk_sha_info_init(ctx); if (ctx->op == SHA_OP_UPDATE) { err = mtk_sha_update_start(cryp, sha); if (err != -EINPROGRESS && (ctx->flags & SHA_FLAGS_FINUP)) /* No final() after finup() */ err = mtk_sha_final_req(cryp, sha); } else if (ctx->op == SHA_OP_FINAL) { err = mtk_sha_final_req(cryp, sha); } if (unlikely(err != -EINPROGRESS)) /* Task will not finish it, so do it here */ mtk_sha_finish_req(cryp, sha, err); return ret; }

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static int mtk_sha_enqueue(struct ahash_request *req, u32 op) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(req); struct mtk_sha_ctx *tctx = crypto_tfm_ctx(req->base.tfm); ctx->op = op; return mtk_sha_handle_queue(tctx->cryp, tctx->id, req); }

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static void mtk_sha_unmap(struct mtk_cryp *cryp, struct mtk_sha_rec *sha) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(sha->req); dma_unmap_single(cryp->dev, ctx->ct_dma, sizeof(ctx->info), DMA_BIDIRECTIONAL); if (ctx->flags & SHA_FLAGS_SG) { dma_unmap_sg(cryp->dev, ctx->sg, 1, DMA_TO_DEVICE); if (ctx->sg->length == ctx->offset) { ctx->sg = sg_next(ctx->sg); if (ctx->sg) ctx->offset = 0; } if (ctx->flags & SHA_FLAGS_PAD) { dma_unmap_single(cryp->dev, ctx->dma_addr, SHA_BUF_SIZE, DMA_TO_DEVICE); } } else dma_unmap_single(cryp->dev, ctx->dma_addr, SHA_BUF_SIZE, DMA_TO_DEVICE); }

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static void mtk_sha_complete(struct mtk_cryp *cryp, struct mtk_sha_rec *sha) { int err = 0; err = mtk_sha_update_start(cryp, sha); if (err != -EINPROGRESS) mtk_sha_finish_req(cryp, sha, err); }

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static int mtk_sha_update(struct ahash_request *req) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(req); ctx->total = req->nbytes; ctx->sg = req->src; ctx->offset = 0; if ((ctx->bufcnt + ctx->total < SHA_BUF_SIZE) && !(ctx->flags & SHA_FLAGS_FINUP)) return mtk_sha_append_sg(ctx); return mtk_sha_enqueue(req, SHA_OP_UPDATE); }

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static int mtk_sha_final(struct ahash_request *req) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(req); ctx->flags |= SHA_FLAGS_FINUP; if (ctx->flags & SHA_FLAGS_PAD) return mtk_sha_finish(req); return mtk_sha_enqueue(req, SHA_OP_FINAL); }

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static int mtk_sha_finup(struct ahash_request *req) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(req); int err1, err2; ctx->flags |= SHA_FLAGS_FINUP; err1 = mtk_sha_update(req); if (err1 == -EINPROGRESS || err1 == -EBUSY) return err1; /* * final() has to be always called to cleanup resources * even if update() failed */ err2 = mtk_sha_final(req); return err1 ?: err2; }

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static int mtk_sha_digest(struct ahash_request *req) { return mtk_sha_init(req) ?: mtk_sha_finup(req); }

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static int mtk_sha_setkey(struct crypto_ahash *tfm, const u8 *key, u32 keylen) { struct mtk_sha_ctx *tctx = crypto_ahash_ctx(tfm); struct mtk_sha_hmac_ctx *bctx = tctx->base; size_t bs = crypto_shash_blocksize(bctx->shash); size_t ds = crypto_shash_digestsize(bctx->shash); int err, i; SHASH_DESC_ON_STACK(shash, bctx->shash); shash->tfm = bctx->shash; shash->flags = crypto_shash_get_flags(bctx->shash) & CRYPTO_TFM_REQ_MAY_SLEEP; if (keylen > bs) { err = crypto_shash_digest(shash, key, keylen, bctx->ipad); if (err) return err; keylen = ds; } else { memcpy(bctx->ipad, key, keylen); } memset(bctx->ipad + keylen, 0, bs - keylen); memcpy(bctx->opad, bctx->ipad, bs); for (i = 0; i < bs; i++) { bctx->ipad[i] ^= 0x36; bctx->opad[i] ^= 0x5c; } return 0; }

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Ryder Lee20499.51%266.67%
Colin Ian King10.49%133.33%
Total205100.00%3100.00%


static int mtk_sha_export(struct ahash_request *req, void *out) { const struct mtk_sha_reqctx *ctx = ahash_request_ctx(req); memcpy(out, ctx, sizeof(*ctx)); return 0; }

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static int mtk_sha_import(struct ahash_request *req, const void *in) { struct mtk_sha_reqctx *ctx = ahash_request_ctx(req); memcpy(ctx, in, sizeof(*ctx)); return 0; }

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static int mtk_sha_cra_init_alg(struct crypto_tfm *tfm, const char *alg_base) { struct mtk_sha_ctx *tctx = crypto_tfm_ctx(tfm); struct mtk_cryp *cryp = NULL; cryp = mtk_sha_find_dev(tctx); if (!cryp) return -ENODEV; crypto_ahash_set_reqsize(__crypto_ahash_cast(tfm), sizeof(struct mtk_sha_reqctx)); if (alg_base) { struct mtk_sha_hmac_ctx *bctx = tctx->base; tctx->flags |= SHA_FLAGS_HMAC; bctx->shash = crypto_alloc_shash(alg_base, 0, CRYPTO_ALG_NEED_FALLBACK); if (IS_ERR(bctx->shash)) { pr_err("base driver %s could not be loaded.\n", alg_base); return PTR_ERR(bctx->shash); } } return 0; }

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static int mtk_sha_cra_init(struct crypto_tfm *tfm) { return mtk_sha_cra_init_alg(tfm, NULL); }

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static int mtk_sha_cra_sha1_init(struct crypto_tfm *tfm) { return mtk_sha_cra_init_alg(tfm, "sha1"); }

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static int mtk_sha_cra_sha224_init(struct crypto_tfm *tfm) { return mtk_sha_cra_init_alg(tfm, "sha224"); }

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static int mtk_sha_cra_sha256_init(struct crypto_tfm *tfm) { return mtk_sha_cra_init_alg(tfm, "sha256"); }

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static int mtk_sha_cra_sha384_init(struct crypto_tfm *tfm) { return mtk_sha_cra_init_alg(tfm, "sha384"); }

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static int mtk_sha_cra_sha512_init(struct crypto_tfm *tfm) { return mtk_sha_cra_init_alg(tfm, "sha512"); }

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static void mtk_sha_cra_exit(struct crypto_tfm *tfm) { struct mtk_sha_ctx *tctx = crypto_tfm_ctx(tfm); if (tctx->flags & SHA_FLAGS_HMAC) { struct mtk_sha_hmac_ctx *bctx = tctx->base; crypto_free_shash(bctx->shash); } }

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static struct ahash_alg algs_sha1_sha224_sha256[] = { { .init = mtk_sha_init, .update = mtk_sha_update, .final = mtk_sha_final, .finup = mtk_sha_finup, .digest = mtk_sha_digest, .export = mtk_sha_export, .import = mtk_sha_import, .halg.digestsize = SHA1_DIGEST_SIZE, .halg.statesize = sizeof(struct mtk_sha_reqctx), .halg.base = { .cra_name = "sha1", .cra_driver_name = "mtk-sha1", .cra_priority = 400, .cra_flags = CRYPTO_ALG_ASYNC, .cra_blocksize = SHA1_BLOCK_SIZE, .cra_ctxsize = sizeof(struct mtk_sha_ctx), .cra_alignmask = SHA_ALIGN_MSK, .cra_module = THIS_MODULE, .cra_init = mtk_sha_cra_init, .cra_exit = mtk_sha_cra_exit, } }, { .init = mtk_sha_init, .update = mtk_sha_update, .final = mtk_sha_final, .finup = mtk_sha_finup, .digest = mtk_sha_digest, .export = mtk_sha_export, .import = mtk_sha_import, .halg.digestsize = SHA224_DIGEST_SIZE, .halg.statesize = sizeof(struct mtk_sha_reqctx), .halg.base = { .cra_name = "sha224", .cra_driver_name = "mtk-sha224", .cra_priority = 400, .cra_flags = CRYPTO_ALG_ASYNC, .cra_blocksize = SHA224_BLOCK_SIZE, .cra_ctxsize = sizeof(struct mtk_sha_ctx), .cra_alignmask = SHA_ALIGN_MSK, .cra_module = THIS_MODULE, .cra_init = mtk_sha_cra_init, .cra_exit = mtk_sha_cra_exit, } }, { .init = mtk_sha_init, .update = mtk_sha_update, .final = mtk_sha_final, .finup = mtk_sha_finup, .digest = mtk_sha_digest, .export = mtk_sha_export, .import = mtk_sha_import, .halg.digestsize = SHA256_DIGEST_SIZE, .halg.statesize = sizeof(struct mtk_sha_reqctx), .halg.base = { .cra_name = "sha256", .cra_driver_name = "mtk-sha256", .cra_priority = 400, .cra_flags = CRYPTO_ALG_ASYNC, .cra_blocksize = SHA256_BLOCK_SIZE, .cra_ctxsize = sizeof(struct mtk_sha_ctx), .cra_alignmask = SHA_ALIGN_MSK, .cra_module = THIS_MODULE, .cra_init = mtk_sha_cra_init, .cra_exit = mtk_sha_cra_exit, } }, { .init = mtk_sha_init, .update = mtk_sha_update, .final = mtk_sha_final, .finup = mtk_sha_finup, .digest = mtk_sha_digest, .export = mtk_sha_export, .import = mtk_sha_import, .setkey = mtk_sha_setkey, .halg.digestsize = SHA1_DIGEST_SIZE, .halg.statesize = sizeof(struct mtk_sha_reqctx), .halg.base = { .cra_name = "hmac(sha1)", .cra_driver_name = "mtk-hmac-sha1", .cra_priority = 400, .cra_flags = CRYPTO_ALG_ASYNC | CRYPTO_ALG_NEED_FALLBACK, .cra_blocksize = SHA1_BLOCK_SIZE, .cra_ctxsize = sizeof(struct mtk_sha_ctx) + sizeof(struct mtk_sha_hmac_ctx), .cra_alignmask = SHA_ALIGN_MSK, .cra_module = THIS_MODULE, .cra_init = mtk_sha_cra_sha1_init, .cra_exit = mtk_sha_cra_exit, } }, { .init = mtk_sha_init, .update = mtk_sha_update, .final = mtk_sha_final, .finup = mtk_sha_finup, .digest = mtk_sha_digest, .export = mtk_sha_export, .import = mtk_sha_import, .setkey = mtk_sha_setkey, .halg.digestsize = SHA224_DIGEST_SIZE, .halg.statesize = sizeof(struct mtk_sha_reqctx), .halg.base = { .cra_name = "hmac(sha224)", .cra_driver_name = "mtk-hmac-sha224", .cra_priority = 400, .cra_flags = CRYPTO_ALG_ASYNC | CRYPTO_ALG_NEED_FALLBACK, .cra_blocksize = SHA224_BLOCK_SIZE, .cra_ctxsize = sizeof(struct mtk_sha_ctx) + sizeof(struct mtk_sha_hmac_ctx), .cra_alignmask = SHA_ALIGN_MSK, .cra_module = THIS_MODULE, .cra_init = mtk_sha_cra_sha224_init, .cra_exit = mtk_sha_cra_exit, } }, { .init = mtk_sha_init, .update = mtk_sha_update, .final = mtk_sha_final, .finup = mtk_sha_finup, .digest = mtk_sha_digest, .export = mtk_sha_export, .import = mtk_sha_import, .setkey = mtk_sha_setkey, .halg.digestsize = SHA256_DIGEST_SIZE, .halg.statesize = sizeof(struct mtk_sha_reqctx), .halg.base = { .cra_name = "hmac(sha256)", .cra_driver_name = "mtk-hmac-sha256", .cra_priority = 400, .cra_flags = CRYPTO_ALG_ASYNC | CRYPTO_ALG_NEED_FALLBACK, .cra_blocksize = SHA256_BLOCK_SIZE, .cra_ctxsize = sizeof(struct mtk_sha_ctx) + sizeof(struct mtk_sha_hmac_ctx), .cra_alignmask = SHA_ALIGN_MSK, .cra_module = THIS_MODULE, .cra_init = mtk_sha_cra_sha256_init, .cra_exit = mtk_sha_cra_exit, } }, }; static struct ahash_alg algs_sha384_sha512[] = { { .init = mtk_sha_init, .update = mtk_sha_update, .final = mtk_sha_final, .finup = mtk_sha_finup, .digest = mtk_sha_digest, .export = mtk_sha_export, .import = mtk_sha_import, .halg.digestsize = SHA384_DIGEST_SIZE, .halg.statesize = sizeof(struct mtk_sha_reqctx), .halg.base = { .cra_name = "sha384", .cra_driver_name = "mtk-sha384", .cra_priority = 400, .cra_flags = CRYPTO_ALG_ASYNC, .cra_blocksize = SHA384_BLOCK_SIZE, .cra_ctxsize = sizeof(struct mtk_sha_ctx), .cra_alignmask = SHA_ALIGN_MSK, .cra_module = THIS_MODULE, .cra_init = mtk_sha_cra_init, .cra_exit = mtk_sha_cra_exit, } }, { .init = mtk_sha_init, .update = mtk_sha_update, .final = mtk_sha_final, .finup = mtk_sha_finup, .digest = mtk_sha_digest, .export = mtk_sha_export, .import = mtk_sha_import, .halg.digestsize = SHA512_DIGEST_SIZE, .halg.statesize = sizeof(struct mtk_sha_reqctx), .halg.base = { .cra_name = "sha512", .cra_driver_name = "mtk-sha512", .cra_priority = 400, .cra_flags = CRYPTO_ALG_ASYNC, .cra_blocksize = SHA512_BLOCK_SIZE, .cra_ctxsize = sizeof(struct mtk_sha_ctx), .cra_alignmask = SHA_ALIGN_MSK, .cra_module = THIS_MODULE, .cra_init = mtk_sha_cra_init, .cra_exit = mtk_sha_cra_exit, } }, { .init = mtk_sha_init, .update = mtk_sha_update, .final = mtk_sha_final, .finup = mtk_sha_finup, .digest = mtk_sha_digest, .export = mtk_sha_export, .import = mtk_sha_import, .setkey = mtk_sha_setkey, .halg.digestsize = SHA384_DIGEST_SIZE, .halg.statesize = sizeof(struct mtk_sha_reqctx), .halg.base = { .cra_name = "hmac(sha384)", .cra_driver_name = "mtk-hmac-sha384", .cra_priority = 400, .cra_flags = CRYPTO_ALG_ASYNC | CRYPTO_ALG_NEED_FALLBACK, .cra_blocksize = SHA384_BLOCK_SIZE, .cra_ctxsize = sizeof(struct mtk_sha_ctx) + sizeof(struct mtk_sha_hmac_ctx), .cra_alignmask = SHA_ALIGN_MSK, .cra_module = THIS_MODULE, .cra_init = mtk_sha_cra_sha384_init, .cra_exit = mtk_sha_cra_exit, } }, { .init = mtk_sha_init, .update = mtk_sha_update, .final = mtk_sha_final, .finup = mtk_sha_finup, .digest = mtk_sha_digest, .export = mtk_sha_export, .import = mtk_sha_import, .setkey = mtk_sha_setkey, .halg.digestsize = SHA512_DIGEST_SIZE, .halg.statesize = sizeof(struct mtk_sha_reqctx), .halg.base = { .cra_name = "hmac(sha512)", .cra_driver_name = "mtk-hmac-sha512", .cra_priority = 400, .cra_flags = CRYPTO_ALG_ASYNC | CRYPTO_ALG_NEED_FALLBACK, .cra_blocksize = SHA512_BLOCK_SIZE, .cra_ctxsize = sizeof(struct mtk_sha_ctx) + sizeof(struct mtk_sha_hmac_ctx), .cra_alignmask = SHA_ALIGN_MSK, .cra_module = THIS_MODULE, .cra_init = mtk_sha_cra_sha512_init, .cra_exit = mtk_sha_cra_exit, } }, };
static void mtk_sha_task0(unsigned long data) { struct mtk_cryp *cryp = (struct mtk_cryp *)data; struct mtk_sha_rec *sha = cryp->sha[0]; mtk_sha_unmap(cryp, sha); mtk_sha_complete(cryp, sha); }

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Ryder Lee48100.00%1100.00%
Total48100.00%1100.00%


static void mtk_sha_task1(unsigned long data) { struct mtk_cryp *cryp = (struct mtk_cryp *)data; struct mtk_sha_rec *sha = cryp->sha[1]; mtk_sha_unmap(cryp, sha); mtk_sha_complete(cryp, sha); }

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Ryder Lee48100.00%1100.00%
Total48100.00%1100.00%


static irqreturn_t mtk_sha_ring2_irq(int irq, void *dev_id) { struct mtk_cryp *cryp = (struct mtk_cryp *)dev_id; struct mtk_sha_rec *sha = cryp->sha[0]; u32 val = mtk_sha_read(cryp, RDR_STAT(RING2)); mtk_sha_write(cryp, RDR_STAT(RING2), val); if (likely((SHA_FLAGS_BUSY & sha->flags))) { mtk_sha_write(cryp, RDR_PROC_COUNT(RING2), MTK_CNT_RST); mtk_sha_write(cryp, RDR_THRESH(RING2), MTK_RDR_PROC_THRESH | MTK_RDR_PROC_MODE); tasklet_schedule(&sha->task); } else { dev_warn(cryp->dev, "AES interrupt when no active requests.\n"); } return IRQ_HANDLED; }

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Ryder Lee126100.00%1100.00%
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static irqreturn_t mtk_sha_ring3_irq(int irq, void *dev_id) { struct mtk_cryp *cryp = (struct mtk_cryp *)dev_id; struct mtk_sha_rec *sha = cryp->sha[1]; u32 val = mtk_sha_read(cryp, RDR_STAT(RING3)); mtk_sha_write(cryp, RDR_STAT(RING3), val); if (likely((SHA_FLAGS_BUSY & sha->flags))) { mtk_sha_write(cryp, RDR_PROC_COUNT(RING3), MTK_CNT_RST); mtk_sha_write(cryp, RDR_THRESH(RING3), MTK_RDR_PROC_THRESH | MTK_RDR_PROC_MODE); tasklet_schedule(&sha->task); } else { dev_warn(cryp->dev, "AES interrupt when no active requests.\n"); } return IRQ_HANDLED; }

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/* * The purpose of two SHA records is used to get extra performance. * It is similar to mtk_aes_record_init(). */
static int mtk_sha_record_init(struct mtk_cryp *cryp) { struct mtk_sha_rec **sha = cryp->sha; int i, err = -ENOMEM; for (i = 0; i < MTK_REC_NUM; i++) { sha[i] = kzalloc(sizeof(**sha), GFP_KERNEL); if (!sha[i]) goto err_cleanup; sha[i]->id = i + RING2; spin_lock_init(&sha[i]->lock); crypto_init_queue(&sha[i]->queue, SHA_QUEUE_SIZE); } tasklet_init(&sha[0]->task, mtk_sha_task0, (unsigned long)cryp); tasklet_init(&sha[1]->task, mtk_sha_task1, (unsigned long)cryp); cryp->rec = 1; return 0; err_cleanup: for (; i--; ) kfree(sha[i]); return err; }

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Ryder Lee174100.00%1100.00%
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static void mtk_sha_record_free(struct mtk_cryp *cryp) { int i; for (i = 0; i < MTK_REC_NUM; i++) { tasklet_kill(&cryp->sha[i]->task); kfree(cryp->sha[i]); } }

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Ryder Lee52100.00%1100.00%
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static void mtk_sha_unregister_algs(void) { int i; for (i = 0; i < ARRAY_SIZE(algs_sha1_sha224_sha256); i++) crypto_unregister_ahash(&algs_sha1_sha224_sha256[i]); for (i = 0; i < ARRAY_SIZE(algs_sha384_sha512); i++) crypto_unregister_ahash(&algs_sha384_sha512[i]); }

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Ryder Lee61100.00%1100.00%
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static int mtk_sha_register_algs(void) { int err, i; for (i = 0; i < ARRAY_SIZE(algs_sha1_sha224_sha256); i++) { err = crypto_register_ahash(&algs_sha1_sha224_sha256[i]); if (err) goto err_sha_224_256_algs; } for (i = 0; i < ARRAY_SIZE(algs_sha384_sha512); i++) { err = crypto_register_ahash(&algs_sha384_sha512[i]); if (err) goto err_sha_384_512_algs; } return 0; err_sha_384_512_algs: for (; i--; ) crypto_unregister_ahash(&algs_sha384_sha512[i]); i = ARRAY_SIZE(algs_sha1_sha224_sha256); err_sha_224_256_algs: for (; i--; ) crypto_unregister_ahash(&algs_sha1_sha224_sha256[i]); return err; }

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Ryder Lee134100.00%1100.00%
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int mtk_hash_alg_register(struct mtk_cryp *cryp) { int err; INIT_LIST_HEAD(&cryp->sha_list); /* Initialize two hash records */ err = mtk_sha_record_init(cryp); if (err) goto err_record; /* Ring2 is use by SHA record0 */ err = devm_request_irq(cryp->dev, cryp->irq[RING2], mtk_sha_ring2_irq, IRQF_TRIGGER_LOW, "mtk-sha", cryp); if (err) { dev_err(cryp->dev, "unable to request sha irq0.\n"); goto err_res; } /* Ring3 is use by SHA record1 */ err = devm_request_irq(cryp->dev, cryp->irq[RING3], mtk_sha_ring3_irq, IRQF_TRIGGER_LOW, "mtk-sha", cryp); if (err) { dev_err(cryp->dev, "unable to request sha irq1.\n"); goto err_res; } /* Enable ring2 and ring3 interrupt for hash */ mtk_sha_write(cryp, AIC_ENABLE_SET(RING2), MTK_IRQ_RDR2); mtk_sha_write(cryp, AIC_ENABLE_SET(RING3), MTK_IRQ_RDR3); cryp->tmp = dma_alloc_coherent(cryp->dev, SHA_TMP_BUF_SIZE, &cryp->tmp_dma, GFP_KERNEL); if (!cryp->tmp) { dev_err(cryp->dev, "unable to allocate tmp buffer.\n"); err = -EINVAL; goto err_res; } spin_lock(&mtk_sha.lock); list_add_tail(&cryp->sha_list, &mtk_sha.dev_list); spin_unlock(&mtk_sha.lock); err = mtk_sha_register_algs(); if (err) goto err_algs; return 0; err_algs: spin_lock(&mtk_sha.lock); list_del(&cryp->sha_list); spin_unlock(&mtk_sha.lock); dma_free_coherent(cryp->dev, SHA_TMP_BUF_SIZE, cryp->tmp, cryp->tmp_dma); err_res: mtk_sha_record_free(cryp); err_record: dev_err(cryp->dev, "mtk-sha initialization failed.\n"); return err; }

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void mtk_hash_alg_release(struct mtk_cryp *cryp) { spin_lock(&mtk_sha.lock); list_del(&cryp->sha_list); spin_unlock(&mtk_sha.lock); mtk_sha_unregister_algs(); dma_free_coherent(cryp->dev, SHA_TMP_BUF_SIZE, cryp->tmp, cryp->tmp_dma); mtk_sha_record_free(cryp); }

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Overall Contributors

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Ryder Lee702199.96%466.67%
Arnd Bergmann20.03%116.67%
Colin Ian King10.01%116.67%
Total7024100.00%6100.00%
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