cregit-Linux how code gets into the kernel

Release 4.11 drivers/crypto/ixp4xx_crypto.c

Directory: drivers/crypto
/*
 * Intel IXP4xx NPE-C crypto driver
 *
 * Copyright (C) 2008 Christian Hohnstaedt <chohnstaedt@innominate.com>
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms of version 2 of the GNU General Public License
 * as published by the Free Software Foundation.
 *
 */

#include <linux/platform_device.h>
#include <linux/dma-mapping.h>
#include <linux/dmapool.h>
#include <linux/crypto.h>
#include <linux/kernel.h>
#include <linux/rtnetlink.h>
#include <linux/interrupt.h>
#include <linux/spinlock.h>
#include <linux/gfp.h>
#include <linux/module.h>

#include <crypto/ctr.h>
#include <crypto/des.h>
#include <crypto/aes.h>
#include <crypto/sha.h>
#include <crypto/algapi.h>
#include <crypto/internal/aead.h>
#include <crypto/authenc.h>
#include <crypto/scatterwalk.h>

#include <mach/npe.h>
#include <mach/qmgr.h>


#define MAX_KEYLEN 32

/* hash: cfgword + 2 * digestlen; crypt: keylen + cfgword */

#define NPE_CTX_LEN 80

#define AES_BLOCK128 16


#define NPE_OP_HASH_VERIFY   0x01

#define NPE_OP_CCM_ENABLE    0x04

#define NPE_OP_CRYPT_ENABLE  0x08

#define NPE_OP_HASH_ENABLE   0x10

#define NPE_OP_NOT_IN_PLACE  0x20

#define NPE_OP_HMAC_DISABLE  0x40

#define NPE_OP_CRYPT_ENCRYPT 0x80


#define NPE_OP_CCM_GEN_MIC   0xcc

#define NPE_OP_HASH_GEN_ICV  0x50

#define NPE_OP_ENC_GEN_KEY   0xc9


#define MOD_ECB     0x0000

#define MOD_CTR     0x1000

#define MOD_CBC_ENC 0x2000

#define MOD_CBC_DEC 0x3000

#define MOD_CCM_ENC 0x4000

#define MOD_CCM_DEC 0x5000


#define KEYLEN_128  4

#define KEYLEN_192  6

#define KEYLEN_256  8


#define CIPH_DECR   0x0000

#define CIPH_ENCR   0x0400


#define MOD_DES     0x0000

#define MOD_TDEA2   0x0100

#define MOD_3DES   0x0200

#define MOD_AES     0x0800

#define MOD_AES128  (0x0800 | KEYLEN_128)

#define MOD_AES192  (0x0900 | KEYLEN_192)

#define MOD_AES256  (0x0a00 | KEYLEN_256)


#define MAX_IVLEN   16

#define NPE_ID      2  
/* NPE C */

#define NPE_QLEN    16
/* Space for registering when the first
 * NPE_QLEN crypt_ctl are busy */

#define NPE_QLEN_TOTAL 64


#define SEND_QID    29

#define RECV_QID    30


#define CTL_FLAG_UNUSED		0x0000

#define CTL_FLAG_USED		0x1000

#define CTL_FLAG_PERFORM_ABLK	0x0001

#define CTL_FLAG_GEN_ICV	0x0002

#define CTL_FLAG_GEN_REVAES	0x0004

#define CTL_FLAG_PERFORM_AEAD	0x0008

#define CTL_FLAG_MASK		0x000f


#define HMAC_IPAD_VALUE   0x36

#define HMAC_OPAD_VALUE   0x5C

#define HMAC_PAD_BLOCKLEN SHA1_BLOCK_SIZE


#define MD5_DIGEST_SIZE   16


struct buffer_desc {
	
u32 phys_next;
#ifdef __ARMEB__
	
u16 buf_len;
	
u16 pkt_len;
#else
	
u16 pkt_len;
	
u16 buf_len;
#endif
	
u32 phys_addr;
	
u32 __reserved[4];
	
struct buffer_desc *next;
	
enum dma_data_direction dir;
};


struct crypt_ctl {
#ifdef __ARMEB__
	
u8 mode;		/* NPE_OP_*  operation mode */
	
u8 init_len;
	
u16 reserved;
#else
	u16 reserved;
	u8 init_len;
	u8 mode;		/* NPE_OP_*  operation mode */
#endif
	
u8 iv[MAX_IVLEN];	/* IV for CBC mode or CTR IV for CTR mode */
	
u32 icv_rev_aes;	/* icv or rev aes */
	
u32 src_buf;
	
u32 dst_buf;
#ifdef __ARMEB__
	
u16 auth_offs;		/* Authentication start offset */
	
u16 auth_len;		/* Authentication data length */
	
u16 crypt_offs;		/* Cryption start offset */
	
u16 crypt_len;		/* Cryption data length */
#else
	
u16 auth_len;		/* Authentication data length */
	
u16 auth_offs;		/* Authentication start offset */
	
u16 crypt_len;		/* Cryption data length */
	
u16 crypt_offs;		/* Cryption start offset */
#endif
	
u32 aadAddr;		/* Additional Auth Data Addr for CCM mode */
	
u32 crypto_ctx;		/* NPE Crypto Param structure address */

	/* Used by Host: 4*4 bytes*/
	
unsigned ctl_flags;
	union {
		
struct ablkcipher_request *ablk_req;
		
struct aead_request *aead_req;
		
struct crypto_tfm *tfm;
	} 
data;
	
struct buffer_desc *regist_buf;
	
u8 *regist_ptr;
};


struct ablk_ctx {
	
struct buffer_desc *src;
	
struct buffer_desc *dst;
};


struct aead_ctx {
	
struct buffer_desc *src;
	
struct buffer_desc *dst;
	
struct scatterlist ivlist;
	/* used when the hmac is not on one sg entry */
	
u8 *hmac_virt;
	
int encrypt;
};


struct ix_hash_algo {
	
u32 cfgword;
	
unsigned char *icv;
};


struct ix_sa_dir {
	
unsigned char *npe_ctx;
	
dma_addr_t npe_ctx_phys;
	
int npe_ctx_idx;
	
u8 npe_mode;
};


struct ixp_ctx {
	
struct ix_sa_dir encrypt;
	
struct ix_sa_dir decrypt;
	
int authkey_len;
	
u8 authkey[MAX_KEYLEN];
	
int enckey_len;
	
u8 enckey[MAX_KEYLEN];
	
u8 salt[MAX_IVLEN];
	
u8 nonce[CTR_RFC3686_NONCE_SIZE];
	
unsigned salted;
	
atomic_t configuring;
	
struct completion completion;
};


struct ixp_alg {
	
struct crypto_alg crypto;
	
const struct ix_hash_algo *hash;
	
u32 cfg_enc;
	
u32 cfg_dec;

	
int registered;
};


struct ixp_aead_alg {
	
struct aead_alg crypto;
	
const struct ix_hash_algo *hash;
	
u32 cfg_enc;
	
u32 cfg_dec;

	
int registered;
};


static const struct ix_hash_algo hash_alg_md5 = {
	.cfgword	= 0xAA010004,
	.icv		= "\x01\x23\x45\x67\x89\xAB\xCD\xEF"
			  "\xFE\xDC\xBA\x98\x76\x54\x32\x10",
};

static const struct ix_hash_algo hash_alg_sha1 = {
	.cfgword	= 0x00000005,
	.icv		= "\x67\x45\x23\x01\xEF\xCD\xAB\x89\x98\xBA"
			  "\xDC\xFE\x10\x32\x54\x76\xC3\xD2\xE1\xF0",
};


static struct npe *npe_c;

static struct dma_pool *buffer_pool = NULL;

static struct dma_pool *ctx_pool = NULL;


static struct crypt_ctl *crypt_virt = NULL;

static dma_addr_t crypt_phys;


static int support_aes = 1;


#define DRIVER_NAME "ixp4xx_crypto"


static struct platform_device *pdev;


static inline dma_addr_t crypt_virt2phys(struct crypt_ctl *virt) { return crypt_phys + (virt - crypt_virt) * sizeof(struct crypt_ctl); }

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static inline struct crypt_ctl *crypt_phys2virt(dma_addr_t phys) { return crypt_virt + (phys - crypt_phys) / sizeof(struct crypt_ctl); }

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static inline u32 cipher_cfg_enc(struct crypto_tfm *tfm) { return container_of(tfm->__crt_alg, struct ixp_alg,crypto)->cfg_enc; }

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static inline u32 cipher_cfg_dec(struct crypto_tfm *tfm) { return container_of(tfm->__crt_alg, struct ixp_alg,crypto)->cfg_dec; }

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static inline const struct ix_hash_algo *ix_hash(struct crypto_tfm *tfm) { return container_of(tfm->__crt_alg, struct ixp_alg, crypto)->hash; }

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static int setup_crypt_desc(void) { struct device *dev = &pdev->dev; BUILD_BUG_ON(sizeof(struct crypt_ctl) != 64); crypt_virt = dma_alloc_coherent(dev, NPE_QLEN * sizeof(struct crypt_ctl), &crypt_phys, GFP_ATOMIC); if (!crypt_virt) return -ENOMEM; memset(crypt_virt, 0, NPE_QLEN * sizeof(struct crypt_ctl)); return 0; }

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static spinlock_t desc_lock;
static struct crypt_ctl *get_crypt_desc(void) { int i; static int idx = 0; unsigned long flags; spin_lock_irqsave(&desc_lock, flags); if (unlikely(!crypt_virt)) setup_crypt_desc(); if (unlikely(!crypt_virt)) { spin_unlock_irqrestore(&desc_lock, flags); return NULL; } i = idx; if (crypt_virt[i].ctl_flags == CTL_FLAG_UNUSED) { if (++idx >= NPE_QLEN) idx = 0; crypt_virt[i].ctl_flags = CTL_FLAG_USED; spin_unlock_irqrestore(&desc_lock, flags); return crypt_virt +i; } else { spin_unlock_irqrestore(&desc_lock, flags); return NULL; } }

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static spinlock_t emerg_lock;
static struct crypt_ctl *get_crypt_desc_emerg(void) { int i; static int idx = NPE_QLEN; struct crypt_ctl *desc; unsigned long flags; desc = get_crypt_desc(); if (desc) return desc; if (unlikely(!crypt_virt)) return NULL; spin_lock_irqsave(&emerg_lock, flags); i = idx; if (crypt_virt[i].ctl_flags == CTL_FLAG_UNUSED) { if (++idx >= NPE_QLEN_TOTAL) idx = NPE_QLEN; crypt_virt[i].ctl_flags = CTL_FLAG_USED; spin_unlock_irqrestore(&emerg_lock, flags); return crypt_virt +i; } else { spin_unlock_irqrestore(&emerg_lock, flags); return NULL; } }

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static void free_buf_chain(struct device *dev, struct buffer_desc *buf,u32 phys) { while (buf) { struct buffer_desc *buf1; u32 phys1; buf1 = buf->next; phys1 = buf->phys_next; dma_unmap_single(dev, buf->phys_next, buf->buf_len, buf->dir); dma_pool_free(buffer_pool, buf, phys); buf = buf1; phys = phys1; } }

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static struct tasklet_struct crypto_done_tasklet;
static void finish_scattered_hmac(struct crypt_ctl *crypt) { struct aead_request *req = crypt->data.aead_req; struct aead_ctx *req_ctx = aead_request_ctx(req); struct crypto_aead *tfm = crypto_aead_reqtfm(req); int authsize = crypto_aead_authsize(tfm); int decryptlen = req->assoclen + req->cryptlen - authsize; if (req_ctx->encrypt) { scatterwalk_map_and_copy(req_ctx->hmac_virt, req->dst, decryptlen, authsize, 1); } dma_pool_free(buffer_pool, req_ctx->hmac_virt, crypt->icv_rev_aes); }

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static void one_packet(dma_addr_t phys) { struct device *dev = &pdev->dev; struct crypt_ctl *crypt; struct ixp_ctx *ctx; int failed; failed = phys & 0x1 ? -EBADMSG : 0; phys &= ~0x3; crypt = crypt_phys2virt(phys); switch (crypt->ctl_flags & CTL_FLAG_MASK) { case CTL_FLAG_PERFORM_AEAD: { struct aead_request *req = crypt->data.aead_req; struct aead_ctx *req_ctx = aead_request_ctx(req); free_buf_chain(dev, req_ctx->src, crypt->src_buf); free_buf_chain(dev, req_ctx->dst, crypt->dst_buf); if (req_ctx->hmac_virt) { finish_scattered_hmac(crypt); } req->base.complete(&req->base, failed); break; } case CTL_FLAG_PERFORM_ABLK: { struct ablkcipher_request *req = crypt->data.ablk_req; struct ablk_ctx *req_ctx = ablkcipher_request_ctx(req); if (req_ctx->dst) { free_buf_chain(dev, req_ctx->dst, crypt->dst_buf); } free_buf_chain(dev, req_ctx->src, crypt->src_buf); req->base.complete(&req->base, failed); break; } case CTL_FLAG_GEN_ICV: ctx = crypto_tfm_ctx(crypt->data.tfm); dma_pool_free(ctx_pool, crypt->regist_ptr, crypt->regist_buf->phys_addr); dma_pool_free(buffer_pool, crypt->regist_buf, crypt->src_buf); if (atomic_dec_and_test(&ctx->configuring)) complete(&ctx->completion); break; case CTL_FLAG_GEN_REVAES: ctx = crypto_tfm_ctx(crypt->data.tfm); *(u32*)ctx->decrypt.npe_ctx &= cpu_to_be32(~CIPH_ENCR); if (atomic_dec_and_test(&ctx->configuring)) complete(&ctx->completion); break; default: BUG(); } crypt->ctl_flags = CTL_FLAG_UNUSED; }

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static void irqhandler(void *_unused) { tasklet_schedule(&crypto_done_tasklet); }

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static void crypto_done_action(unsigned long arg) { int i; for(i=0; i<4; i++) { dma_addr_t phys = qmgr_get_entry(RECV_QID); if (!phys) return; one_packet(phys); } tasklet_schedule(&crypto_done_tasklet); }

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static int init_ixp_crypto(struct device *dev) { int ret = -ENODEV; u32 msg[2] = { 0, 0 }; if (! ( ~(*IXP4XX_EXP_CFG2) & (IXP4XX_FEATURE_HASH | IXP4XX_FEATURE_AES | IXP4XX_FEATURE_DES))) { printk(KERN_ERR "ixp_crypto: No HW crypto available\n"); return ret; } npe_c = npe_request(NPE_ID); if (!npe_c) return ret; if (!npe_running(npe_c)) { ret = npe_load_firmware(npe_c, npe_name(npe_c), dev); if (ret) goto npe_release; if (npe_recv_message(npe_c, msg, "STATUS_MSG")) goto npe_error; } else { if (npe_send_message(npe_c, msg, "STATUS_MSG")) goto npe_error; if (npe_recv_message(npe_c, msg, "STATUS_MSG")) goto npe_error; } switch ((msg[1]>>16) & 0xff) { case 3: printk(KERN_WARNING "Firmware of %s lacks AES support\n", npe_name(npe_c)); support_aes = 0; break; case 4: case 5: support_aes = 1; break; default: printk(KERN_ERR "Firmware of %s lacks crypto support\n", npe_name(npe_c)); ret = -ENODEV; goto npe_release; } /* buffer_pool will also be used to sometimes store the hmac, * so assure it is large enough */ BUILD_BUG_ON(SHA1_DIGEST_SIZE > sizeof(struct buffer_desc)); buffer_pool = dma_pool_create("buffer", dev, sizeof(struct buffer_desc), 32, 0); ret = -ENOMEM; if (!buffer_pool) { goto err; } ctx_pool = dma_pool_create("context", dev, NPE_CTX_LEN, 16, 0); if (!ctx_pool) { goto err; } ret = qmgr_request_queue(SEND_QID, NPE_QLEN_TOTAL, 0, 0, "ixp_crypto:out", NULL); if (ret) goto err; ret = qmgr_request_queue(RECV_QID, NPE_QLEN, 0, 0, "ixp_crypto:in", NULL); if (ret) { qmgr_release_queue(SEND_QID); goto err; } qmgr_set_irq(RECV_QID, QUEUE_IRQ_SRC_NOT_EMPTY, irqhandler, NULL); tasklet_init(&crypto_done_tasklet, crypto_done_action, 0); qmgr_enable_irq(RECV_QID); return 0; npe_error: printk(KERN_ERR "%s not responding\n", npe_name(npe_c)); ret = -EIO; err: dma_pool_destroy(ctx_pool); dma_pool_destroy(buffer_pool); npe_release: npe_release(npe_c); return ret; }

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static void release_ixp_crypto(struct device *dev) { qmgr_disable_irq(RECV_QID); tasklet_kill(&crypto_done_tasklet); qmgr_release_queue(SEND_QID); qmgr_release_queue(RECV_QID); dma_pool_destroy(ctx_pool); dma_pool_destroy(buffer_pool); npe_release(npe_c); if (crypt_virt) { dma_free_coherent(dev, NPE_QLEN_TOTAL * sizeof( struct crypt_ctl), crypt_virt, crypt_phys); } return; }

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static void reset_sa_dir(struct ix_sa_dir *dir) { memset(dir->npe_ctx, 0, NPE_CTX_LEN); dir->npe_ctx_idx = 0; dir->npe_mode = 0; }

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static int init_sa_dir(struct ix_sa_dir *dir) { dir->npe_ctx = dma_pool_alloc(ctx_pool, GFP_KERNEL, &dir->npe_ctx_phys); if (!dir->npe_ctx) { return -ENOMEM; } reset_sa_dir(dir); return 0; }

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static void free_sa_dir(struct ix_sa_dir *dir) { memset(dir->npe_ctx, 0, NPE_CTX_LEN); dma_pool_free(ctx_pool, dir->npe_ctx, dir->npe_ctx_phys); }

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static int init_tfm(struct crypto_tfm *tfm) { struct ixp_ctx *ctx = crypto_tfm_ctx(tfm); int ret; atomic_set(&ctx->configuring, 0); ret = init_sa_dir(&ctx->encrypt); if (ret) return ret; ret = init_sa_dir(&ctx->decrypt); if (ret) { free_sa_dir(&ctx->encrypt); } return ret; }

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static int init_tfm_ablk(struct crypto_tfm *tfm) { tfm->crt_ablkcipher.reqsize = sizeof(struct ablk_ctx); return init_tfm(tfm); }

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static int init_tfm_aead(struct crypto_aead *tfm) { crypto_aead_set_reqsize(tfm, sizeof(struct aead_ctx)); return init_tfm(crypto_aead_tfm(tfm)); }

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static void exit_tfm(struct crypto_tfm *tfm) { struct ixp_ctx *ctx = crypto_tfm_ctx(tfm); free_sa_dir(&ctx->encrypt); free_sa_dir(&ctx->decrypt); }

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static void exit_tfm_aead(struct crypto_aead *tfm) { exit_tfm(crypto_aead_tfm(tfm)); }

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static int register_chain_var(struct crypto_tfm *tfm, u8 xpad, u32 target, int init_len, u32 ctx_addr, const u8 *key, int key_len) { struct ixp_ctx *ctx = crypto_tfm_ctx(tfm); struct crypt_ctl *crypt; struct buffer_desc *buf; int i; u8 *pad; u32 pad_phys, buf_phys; BUILD_BUG_ON(NPE_CTX_LEN < HMAC_PAD_BLOCKLEN); pad = dma_pool_alloc(ctx_pool, GFP_KERNEL, &pad_phys); if (!pad) return -ENOMEM; buf = dma_pool_alloc(buffer_pool, GFP_KERNEL, &buf_phys); if (!buf) { dma_pool_free(ctx_pool, pad, pad_phys); return -ENOMEM; } crypt = get_crypt_desc_emerg(); if (!crypt) { dma_pool_free(ctx_pool, pad, pad_phys); dma_pool_free(buffer_pool, buf, buf_phys); return -EAGAIN; } memcpy(pad, key, key_len); memset(pad + key_len, 0, HMAC_PAD_BLOCKLEN - key_len); for (i = 0; i < HMAC_PAD_BLOCKLEN; i++) { pad[i] ^= xpad; } crypt->data.tfm = tfm; crypt->regist_ptr = pad; crypt->regist_buf = buf; crypt->auth_offs = 0; crypt->auth_len = HMAC_PAD_BLOCKLEN; crypt->crypto_ctx = ctx_addr; crypt->src_buf = buf_phys; crypt->icv_rev_aes = target; crypt->mode = NPE_OP_HASH_GEN_ICV; crypt->init_len = init_len; crypt->ctl_flags |= CTL_FLAG_GEN_ICV; buf->next = 0; buf->buf_len = HMAC_PAD_BLOCKLEN; buf->pkt_len = 0; buf->phys_addr = pad_phys; atomic_inc(&ctx->configuring); qmgr_put_entry(SEND_QID, crypt_virt2phys(crypt)); BUG_ON(qmgr_stat_overflow(SEND_QID)); return 0; }

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static int setup_auth(struct crypto_tfm *tfm, int encrypt, unsigned authsize, const u8 *key, int key_len, unsigned digest_len) { u32 itarget, otarget, npe_ctx_addr; unsigned char *cinfo; int init_len, ret = 0; u32 cfgword; struct ix_sa_dir *dir; struct ixp_ctx *ctx = crypto_tfm_ctx(tfm); const struct ix_hash_algo *algo; dir = encrypt ? &ctx->encrypt : &ctx->decrypt; cinfo = dir->npe_ctx + dir->npe_ctx_idx; algo = ix_hash(tfm); /* write cfg word to cryptinfo */ cfgword = algo->cfgword | ( authsize << 6); /* (authsize/4) << 8 */ #ifndef __ARMEB__ cfgword ^= 0xAA000000; /* change the "byte swap" flags */ #endif *(u32*)cinfo = cpu_to_be32(cfgword); cinfo += sizeof(cfgword); /* write ICV to cryptinfo */ memcpy(cinfo, algo->icv, digest_len); cinfo += digest_len; itarget = dir->npe_ctx_phys + dir->npe_ctx_idx + sizeof(algo->cfgword); otarget = itarget + digest_len; init_len = cinfo - (dir->npe_ctx + dir->npe_ctx_idx); npe_ctx_addr = dir->npe_ctx_phys + dir->npe_ctx_idx; dir->npe_ctx_idx += init_len; dir->npe_mode |= NPE_OP_HASH_ENABLE; if (!encrypt) dir->npe_mode |= NPE_OP_HASH_VERIFY; ret = register_chain_var(tfm, HMAC_OPAD_VALUE, otarget, init_len, npe_ctx_addr, key, key_len); if (ret) return ret; return register_chain_var(tfm, HMAC_IPAD_VALUE, itarget, init_len, npe_ctx_addr, key, key_len); }

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static int gen_rev_aes_key(struct crypto_tfm *tfm) { struct crypt_ctl *crypt; struct ixp_ctx *ctx = crypto_tfm_ctx(tfm); struct ix_sa_dir *dir = &ctx->decrypt; crypt = get_crypt_desc_emerg(); if (!crypt) { return -EAGAIN; } *(u32*)dir->npe_ctx |= cpu_to_be32(CIPH_ENCR); crypt->data.tfm = tfm; crypt->crypt_offs = 0; crypt->crypt_len = AES_BLOCK128; crypt->src_buf = 0; crypt->crypto_ctx = dir->npe_ctx_phys; crypt->icv_rev_aes = dir->npe_ctx_phys + sizeof(u32); crypt->mode = NPE_OP_ENC_GEN_KEY; crypt->init_len = dir->npe_ctx_idx; crypt->ctl_flags |= CTL_FLAG_GEN_REVAES; atomic_inc(&ctx->configuring); qmgr_put_entry(SEND_QID, crypt_virt2phys(crypt)); BUG_ON(qmgr_stat_overflow(SEND_QID)); return 0; }

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Christian Hohnstaedt162100.00%1100.00%
Total162100.00%1100.00%


static int setup_cipher(struct crypto_tfm *tfm, int encrypt, const u8 *key, int key_len) { u8 *cinfo; u32 cipher_cfg; u32 keylen_cfg = 0; struct ix_sa_dir *dir; struct ixp_ctx *ctx = crypto_tfm_ctx(tfm); u32 *flags = &tfm->crt_flags; dir = encrypt ? &ctx->encrypt : &ctx->decrypt; cinfo = dir->npe_ctx; if (encrypt) { cipher_cfg = cipher_cfg_enc(tfm); dir->npe_mode |= NPE_OP_CRYPT_ENCRYPT; } else { cipher_cfg = cipher_cfg_dec(tfm); } if (cipher_cfg & MOD_AES) { switch (key_len) { case 16: keylen_cfg = MOD_AES128; break; case 24: keylen_cfg = MOD_AES192; break; case 32: keylen_cfg = MOD_AES256; break; default: *flags |= CRYPTO_TFM_RES_BAD_KEY_LEN; return -EINVAL; } cipher_cfg |= keylen_cfg; } else if (cipher_cfg & MOD_3DES) { const u32 *K = (const u32 *)key; if (unlikely(!((K[0] ^ K[2]) | (K[1] ^ K[3])) || !((K[2] ^ K[4]) | (K[3] ^ K[5])))) { *flags |= CRYPTO_TFM_RES_BAD_KEY_SCHED; return -EINVAL; } } else { u32 tmp[DES_EXPKEY_WORDS]; if (des_ekey(tmp, key) == 0) { *flags |= CRYPTO_TFM_RES_WEAK_KEY; } } /* write cfg word to cryptinfo */ *(u32*)cinfo = cpu_to_be32(cipher_cfg); cinfo += sizeof(cipher_cfg); /* write cipher key to cryptinfo */ memcpy(cinfo, key, key_len); /* NPE wants keylen set to DES3_EDE_KEY_SIZE even for single DES */ if (key_len < DES3_EDE_KEY_SIZE && !(cipher_cfg & MOD_AES)) { memset(cinfo + key_len, 0, DES3_EDE_KEY_SIZE -key_len); key_len = DES3_EDE_KEY_SIZE; } dir->npe_ctx_idx = sizeof(cipher_cfg) + key_len; dir->npe_mode |= NPE_OP_CRYPT_ENABLE; if ((cipher_cfg & MOD_AES) && !encrypt) { return gen_rev_aes_key(tfm); } return 0; }

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Christian Hohnstaedt379100.00%1100.00%
Total379100.00%1100.00%


static struct buffer_desc *chainup_buffers(struct device *dev, struct scatterlist *sg, unsigned nbytes, struct buffer_desc *buf, gfp_t flags, enum dma_data_direction dir) { for (; nbytes > 0; sg = sg_next(sg)) { unsigned len = min(nbytes, sg->length); struct buffer_desc *next_buf; u32 next_buf_phys; void *ptr; nbytes -= len; ptr = page_address(sg_page(sg)) + sg->offset; next_buf = dma_pool_alloc(buffer_pool, flags, &next_buf_phys); if (!next_buf) { buf = NULL; break; } sg_dma_address(sg) = dma_map_single(dev, ptr, len, dir); buf->next = next_buf; buf->phys_next = next_buf_phys; buf = next_buf; buf->phys_addr = sg_dma_address(sg); buf->buf_len = len; buf->dir = dir; } buf->next = NULL; buf->phys_next = 0; return buf; }

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Christian Hohnstaedt18299.45%266.67%
Cristian Stoica10.55%133.33%
Total183100.00%3100.00%


static int ablk_setkey(struct crypto_ablkcipher *tfm, const u8 *key, unsigned int key_len) { struct ixp_ctx *ctx = crypto_ablkcipher_ctx(tfm); u32 *flags = &tfm->base.crt_flags; int ret; init_completion(&ctx->completion); atomic_inc(&ctx->configuring); reset_sa_dir(&ctx->encrypt); reset_sa_dir(&ctx->decrypt); ctx->encrypt.npe_mode = NPE_OP_HMAC_DISABLE; ctx->decrypt.npe_mode = NPE_OP_HMAC_DISABLE; ret = setup_cipher(&tfm->base, 0, key, key_len); if (ret) goto out; ret = setup_cipher(&tfm->base, 1, key, key_len); if (ret) goto out; if (*flags & CRYPTO_TFM_RES_WEAK_KEY) { if (*flags & CRYPTO_TFM_REQ_WEAK_KEY) { ret = -EINVAL; } else { *flags &= ~CRYPTO_TFM_RES_WEAK_KEY; } } out: if (!atomic_dec_and_test(&ctx->configuring)) wait_for_completion(&ctx->completion); return ret; }

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Christian Hohnstaedt194100.00%1100.00%
Total194100.00%1100.00%


static int ablk_rfc3686_setkey(struct crypto_ablkcipher *tfm, const u8 *key, unsigned int key_len) { struct ixp_ctx *ctx = crypto_ablkcipher_ctx(tfm); /* the nonce is stored in bytes at end of key */ if (key_len < CTR_RFC3686_NONCE_SIZE) return -EINVAL; memcpy(ctx->nonce, key + (key_len - CTR_RFC3686_NONCE_SIZE), CTR_RFC3686_NONCE_SIZE); key_len -= CTR_RFC3686_NONCE_SIZE; return ablk_setkey(tfm, key, key_len); }

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Christian Hohnstaedt72100.00%1100.00%
Total72100.00%1100.00%


static int ablk_perform(struct ablkcipher_request *req, int encrypt) { struct crypto_ablkcipher *tfm = crypto_ablkcipher_reqtfm(req); struct ixp_ctx *ctx = crypto_ablkcipher_ctx(tfm); unsigned ivsize = crypto_ablkcipher_ivsize(tfm); struct ix_sa_dir *dir; struct crypt_ctl *crypt; unsigned int nbytes = req->nbytes; enum dma_data_direction src_direction = DMA_BIDIRECTIONAL; struct ablk_ctx *req_ctx = ablkcipher_request_ctx(req); struct buffer_desc src_hook; struct device *dev = &pdev->dev; gfp_t flags = req->base.flags & CRYPTO_TFM_REQ_MAY_SLEEP ? GFP_KERNEL : GFP_ATOMIC; if (qmgr_stat_full(SEND_QID)) return -EAGAIN; if (atomic_read(&ctx->configuring)) return -EAGAIN; dir = encrypt ? &ctx->encrypt : &ctx->decrypt; crypt = get_crypt_desc(); if (!crypt) return -ENOMEM; crypt->data.ablk_req = req; crypt->crypto_ctx = dir->npe_ctx_phys; crypt->mode = dir->npe_mode; crypt->init_len = dir->npe_ctx_idx; crypt->crypt_offs = 0; crypt->crypt_len = nbytes; BUG_ON(ivsize && !req->info); memcpy(crypt->iv, req->info, ivsize); if (req->src != req->dst) { struct buffer_desc dst_hook; crypt->mode |= NPE_OP_NOT_IN_PLACE; /* This was never tested by Intel * for more than one dst buffer, I think. */ req_ctx->dst = NULL; if (!chainup_buffers(dev, req->dst, nbytes, &dst_hook, flags, DMA_FROM_DEVICE)) goto free_buf_dest; src_direction = DMA_TO_DEVICE; req_ctx->dst = dst_hook.next; crypt->dst_buf = dst_hook.phys_next; } else { req_ctx->dst = NULL; } req_ctx->src = NULL; if (!chainup_buffers(dev, req->src, nbytes, &src_hook, flags, src_direction)) goto free_buf_src; req_ctx->src = src_hook.next; crypt->src_buf = src_hook.phys_next; crypt->ctl_flags |= CTL_FLAG_PERFORM_ABLK; qmgr_put_entry(SEND_QID, crypt_virt2phys(crypt)); BUG_ON(qmgr_stat_overflow(SEND_QID)); return -EINPROGRESS; free_buf_src: free_buf_chain(dev, req_ctx->src, crypt->src_buf); free_buf_dest: if (req->src != req->dst) { free_buf_chain(dev, req_ctx->dst, crypt->dst_buf); } crypt->ctl_flags = CTL_FLAG_UNUSED; return -ENOMEM; }

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Christian Hohnstaedt42397.69%266.67%
Russell King102.31%133.33%
Total433100.00%3100.00%


static int ablk_encrypt(struct ablkcipher_request *req) { return ablk_perform(req, 1); }

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Christian Hohnstaedt19100.00%1100.00%
Total19100.00%1100.00%


static int ablk_decrypt(struct ablkcipher_request *req) { return ablk_perform(req, 0); }

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Christian Hohnstaedt19100.00%1100.00%
Total19100.00%1100.00%


static int ablk_rfc3686_crypt(struct ablkcipher_request *req) { struct crypto_ablkcipher *tfm = crypto_ablkcipher_reqtfm(req); struct ixp_ctx *ctx = crypto_ablkcipher_ctx(tfm); u8 iv[CTR_RFC3686_BLOCK_SIZE]; u8 *info = req->info; int ret; /* set up counter block */ memcpy(iv, ctx->nonce, CTR_RFC3686_NONCE_SIZE); memcpy(iv + CTR_RFC3686_NONCE_SIZE, info, CTR_RFC3686_IV_SIZE); /* initialize counter portion of counter block */ *(__be32 *)(iv + CTR_RFC3686_NONCE_SIZE + CTR_RFC3686_IV_SIZE) = cpu_to_be32(1); req->info = iv; ret = ablk_perform(req, 1); req->info = info; return ret; }

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Christian Hohnstaedt114100.00%1100.00%
Total114100.00%1100.00%


static int aead_perform(struct aead_request *req, int encrypt, int cryptoffset, int eff_cryptlen, u8 *iv) { struct crypto_aead *tfm = crypto_aead_reqtfm(req); struct ixp_ctx *ctx = crypto_aead_ctx(tfm); unsigned ivsize = crypto_aead_ivsize(tfm); unsigned authsize = crypto_aead_authsize(tfm); struct ix_sa_dir *dir; struct crypt_ctl *crypt; unsigned int cryptlen; struct buffer_desc *buf, src_hook; struct aead_ctx *req_ctx = aead_request_ctx(req); struct device *dev = &pdev->dev; gfp_t flags = req->base.flags & CRYPTO_TFM_REQ_MAY_SLEEP ? GFP_KERNEL : GFP_ATOMIC; enum dma_data_direction src_direction = DMA_BIDIRECTIONAL; unsigned int lastlen; if (qmgr_stat_full(SEND_QID)) return -EAGAIN; if (atomic_read(&ctx->configuring)) return -EAGAIN; if (encrypt) { dir = &ctx->encrypt; cryptlen = req->cryptlen; } else { dir = &ctx->decrypt; /* req->cryptlen includes the authsize when decrypting */ cryptlen = req->cryptlen -authsize; eff_cryptlen -= authsize; } crypt = get_crypt_desc(); if (!crypt) return -ENOMEM; crypt->data.aead_req = req; crypt->crypto_ctx = dir->npe_ctx_phys; crypt->mode = dir->npe_mode; crypt->init_len = dir->npe_ctx_idx; crypt->crypt_offs = cryptoffset; crypt->crypt_len = eff_cryptlen; crypt->auth_offs = 0; crypt->auth_len = req->assoclen + cryptlen; BUG_ON(ivsize && !req->iv); memcpy(crypt->iv, req->iv, ivsize); buf = chainup_buffers(dev, req->src, crypt->auth_len, &src_hook, flags, src_direction); req_ctx->src = src_hook.next; crypt->src_buf = src_hook.phys_next; if (!buf) goto free_buf_src; lastlen = buf->buf_len; if (lastlen >= authsize) crypt->icv_rev_aes = buf->phys_addr + buf->buf_len - authsize; req_ctx->dst = NULL; if (req->src != req->dst) { struct buffer_desc dst_hook; crypt->mode |= NPE_OP_NOT_IN_PLACE; src_direction = DMA_TO_DEVICE; buf = chainup_buffers(dev, req->dst, crypt->auth_len, &dst_hook, flags, DMA_FROM_DEVICE); req_ctx->dst = dst_hook.next; crypt->dst_buf = dst_hook.phys_next; if (!buf) goto free_buf_dst; if (encrypt) { lastlen = buf->buf_len; if (lastlen >= authsize) crypt->icv_rev_aes = buf->phys_addr + buf->buf_len - authsize; } } if (unlikely(lastlen < authsize)) { /* The 12 hmac bytes are scattered, * we need to copy them into a safe buffer */ req_ctx->hmac_virt = dma_pool_alloc(buffer_pool, flags, &crypt->icv_rev_aes); if (unlikely(!req_ctx->hmac_virt)) goto free_buf_src; if (!encrypt) { scatterwalk_map_and_copy(req_ctx->hmac_virt, req->src, cryptlen, authsize, 0); } req_ctx->encrypt = encrypt; } else { req_ctx->hmac_virt = NULL; } crypt->ctl_flags |= CTL_FLAG_PERFORM_AEAD; qmgr_put_entry(SEND_QID, crypt_virt2phys(crypt)); BUG_ON(qmgr_stat_overflow(SEND_QID)); return -EINPROGRESS; free_buf_src: free_buf_chain(dev, req_ctx->src, crypt->src_buf); free_buf_dst: free_buf_chain(dev, req_ctx->dst, crypt->dst_buf); crypt->ctl_flags = CTL_FLAG_UNUSED; return -ENOMEM; }

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Christian Hohnstaedt46775.32%240.00%
Herbert Xu14323.06%240.00%
Russell King101.61%120.00%
Total620100.00%5100.00%


static int aead_setup(struct crypto_aead *tfm, unsigned int authsize) { struct ixp_ctx *ctx = crypto_aead_ctx(tfm); u32 *flags = &tfm->base.crt_flags; unsigned digest_len = crypto_aead_maxauthsize(tfm); int ret; if (!ctx->enckey_len && !ctx->authkey_len) return 0; init_completion(&ctx->completion); atomic_inc(&ctx->configuring); reset_sa_dir(&ctx->encrypt); reset_sa_dir(&ctx->decrypt); ret = setup_cipher(&tfm->base, 0, ctx->enckey, ctx->enckey_len); if (ret) goto out; ret = setup_cipher(&tfm->base, 1, ctx->enckey, ctx->enckey_len); if (ret) goto out; ret = setup_auth(&tfm->base, 0, authsize, ctx->authkey, ctx->authkey_len, digest_len); if (ret) goto out; ret = setup_auth(&tfm->base, 1, authsize, ctx->authkey, ctx->authkey_len, digest_len); if (ret) goto out; if (*flags & CRYPTO_TFM_RES_WEAK_KEY) { if (*flags & CRYPTO_TFM_REQ_WEAK_KEY) { ret = -EINVAL; goto out; } else { *flags &= ~CRYPTO_TFM_RES_WEAK_KEY; } } out: if (!atomic_dec_and_test(&ctx->configuring)) wait_for_completion(&ctx->completion); return ret; }

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Christian Hohnstaedt26899.63%150.00%
Herbert Xu10.37%150.00%
Total269100.00%2100.00%


static int aead_setauthsize(struct crypto_aead *tfm, unsigned int authsize) { int max = crypto_aead_maxauthsize(tfm) >> 2; if ((authsize>>2) < 1 || (authsize>>2) > max || (authsize & 3)) return -EINVAL; return aead_setup(tfm, authsize); }

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Christian Hohnstaedt6098.36%150.00%
Herbert Xu11.64%150.00%
Total61100.00%2100.00%


static int aead_setkey(struct crypto_aead *tfm, const u8 *key, unsigned int keylen) { struct ixp_ctx *ctx = crypto_aead_ctx(tfm); struct crypto_authenc_keys keys; if (crypto_authenc_extractkeys(&keys, key, keylen) != 0) goto badkey; if (keys.authkeylen > sizeof(ctx->authkey)) goto badkey; if (keys.enckeylen > sizeof(ctx->enckey)) goto badkey; memcpy(ctx->authkey, keys.authkey, keys.authkeylen); memcpy(ctx->enckey, keys.enckey, keys.enckeylen); ctx->authkey_len = keys.authkeylen; ctx->enckey_len = keys.enckeylen; return aead_setup(tfm, crypto_aead_authsize(tfm)); badkey: crypto_aead_set_flags(tfm, CRYPTO_TFM_RES_BAD_KEY_LEN); return -EINVAL; }

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Christian Hohnstaedt10266.67%150.00%
Mathias Krause5133.33%150.00%
Total153100.00%2100.00%


static int aead_encrypt(struct aead_request *req) { return aead_perform(req, 1, req->assoclen, req->cryptlen, req->iv); }

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Christian Hohnstaedt31100.00%1100.00%
Total31100.00%1100.00%


static int aead_decrypt(struct aead_request *req) { return aead_perform(req, 0, req->assoclen, req->cryptlen, req->iv); }

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Christian Hohnstaedt31100.00%1100.00%
Total31100.00%1100.00%

static struct ixp_alg ixp4xx_algos[] = { { .crypto = { .cra_name = "cbc(des)", .cra_blocksize = DES_BLOCK_SIZE, .cra_u = { .ablkcipher = { .min_keysize = DES_KEY_SIZE, .max_keysize = DES_KEY_SIZE, .ivsize = DES_BLOCK_SIZE, .geniv = "eseqiv", } } }, .cfg_enc = CIPH_ENCR | MOD_DES | MOD_CBC_ENC | KEYLEN_192, .cfg_dec = CIPH_DECR | MOD_DES | MOD_CBC_DEC | KEYLEN_192, }, { .crypto = { .cra_name = "ecb(des)", .cra_blocksize = DES_BLOCK_SIZE, .cra_u = { .ablkcipher = { .min_keysize = DES_KEY_SIZE, .max_keysize = DES_KEY_SIZE, } } }, .cfg_enc = CIPH_ENCR | MOD_DES | MOD_ECB | KEYLEN_192, .cfg_dec = CIPH_DECR | MOD_DES | MOD_ECB | KEYLEN_192, }, { .crypto = { .cra_name = "cbc(des3_ede)", .cra_blocksize = DES3_EDE_BLOCK_SIZE, .cra_u = { .ablkcipher = { .min_keysize = DES3_EDE_KEY_SIZE, .max_keysize = DES3_EDE_KEY_SIZE, .ivsize = DES3_EDE_BLOCK_SIZE, .geniv = "eseqiv", } } }, .cfg_enc = CIPH_ENCR | MOD_3DES | MOD_CBC_ENC | KEYLEN_192, .cfg_dec = CIPH_DECR | MOD_3DES | MOD_CBC_DEC | KEYLEN_192, }, { .crypto = { .cra_name = "ecb(des3_ede)", .cra_blocksize = DES3_EDE_BLOCK_SIZE, .cra_u = { .ablkcipher = { .min_keysize = DES3_EDE_KEY_SIZE, .max_keysize = DES3_EDE_KEY_SIZE, } } }, .cfg_enc = CIPH_ENCR | MOD_3DES | MOD_ECB | KEYLEN_192, .cfg_dec = CIPH_DECR | MOD_3DES | MOD_ECB | KEYLEN_192, }, { .crypto = { .cra_name = "cbc(aes)", .cra_blocksize = AES_BLOCK_SIZE, .cra_u = { .ablkcipher = { .min_keysize = AES_MIN_KEY_SIZE, .max_keysize = AES_MAX_KEY_SIZE, .ivsize = AES_BLOCK_SIZE, .geniv = "eseqiv", } } }, .cfg_enc = CIPH_ENCR | MOD_AES | MOD_CBC_ENC, .cfg_dec = CIPH_DECR | MOD_AES | MOD_CBC_DEC, }, { .crypto = { .cra_name = "ecb(aes)", .cra_blocksize = AES_BLOCK_SIZE, .cra_u = { .ablkcipher = { .min_keysize = AES_MIN_KEY_SIZE, .max_keysize = AES_MAX_KEY_SIZE, } } }, .cfg_enc = CIPH_ENCR | MOD_AES | MOD_ECB, .cfg_dec = CIPH_DECR | MOD_AES | MOD_ECB, }, { .crypto = { .cra_name = "ctr(aes)", .cra_blocksize = AES_BLOCK_SIZE, .cra_u = { .ablkcipher = { .min_keysize = AES_MIN_KEY_SIZE, .max_keysize = AES_MAX_KEY_SIZE, .ivsize = AES_BLOCK_SIZE, .geniv = "eseqiv", } } }, .cfg_enc = CIPH_ENCR | MOD_AES | MOD_CTR, .cfg_dec = CIPH_ENCR | MOD_AES | MOD_CTR, }, { .crypto = { .cra_name = "rfc3686(ctr(aes))", .cra_blocksize = AES_BLOCK_SIZE, .cra_u = { .ablkcipher = { .min_keysize = AES_MIN_KEY_SIZE, .max_keysize = AES_MAX_KEY_SIZE, .ivsize = AES_BLOCK_SIZE, .geniv = "eseqiv", .setkey = ablk_rfc3686_setkey, .encrypt = ablk_rfc3686_crypt, .decrypt = ablk_rfc3686_crypt } } }, .cfg_enc = CIPH_ENCR | MOD_AES | MOD_CTR, .cfg_dec = CIPH_ENCR | MOD_AES | MOD_CTR, } }; static struct ixp_aead_alg ixp4xx_aeads[] = { { .crypto = { .base = { .cra_name = "authenc(hmac(md5),cbc(des))", .cra_blocksize = DES_BLOCK_SIZE, }, .ivsize = DES_BLOCK_SIZE, .maxauthsize = MD5_DIGEST_SIZE, }, .hash = &hash_alg_md5, .cfg_enc = CIPH_ENCR | MOD_DES | MOD_CBC_ENC | KEYLEN_192, .cfg_dec = CIPH_DECR | MOD_DES | MOD_CBC_DEC | KEYLEN_192, }, { .crypto = { .base = { .cra_name = "authenc(hmac(md5),cbc(des3_ede))", .cra_blocksize = DES3_EDE_BLOCK_SIZE, }, .ivsize = DES3_EDE_BLOCK_SIZE, .maxauthsize = MD5_DIGEST_SIZE, }, .hash = &hash_alg_md5, .cfg_enc = CIPH_ENCR | MOD_3DES | MOD_CBC_ENC | KEYLEN_192, .cfg_dec = CIPH_DECR | MOD_3DES | MOD_CBC_DEC | KEYLEN_192, }, { .crypto = { .base = { .cra_name = "authenc(hmac(sha1),cbc(des))", .cra_blocksize = DES_BLOCK_SIZE, }, .ivsize = DES_BLOCK_SIZE, .maxauthsize = SHA1_DIGEST_SIZE, }, .hash = &hash_alg_sha1, .cfg_enc = CIPH_ENCR | MOD_DES | MOD_CBC_ENC | KEYLEN_192, .cfg_dec = CIPH_DECR | MOD_DES | MOD_CBC_DEC | KEYLEN_192, }, { .crypto = { .base = { .cra_name = "authenc(hmac(sha1),cbc(des3_ede))", .cra_blocksize = DES3_EDE_BLOCK_SIZE, }, .ivsize = DES3_EDE_BLOCK_SIZE, .maxauthsize = SHA1_DIGEST_SIZE, }, .hash = &hash_alg_sha1, .cfg_enc = CIPH_ENCR | MOD_3DES | MOD_CBC_ENC | KEYLEN_192, .cfg_dec = CIPH_DECR | MOD_3DES | MOD_CBC_DEC | KEYLEN_192, }, { .crypto = { .base = { .cra_name = "authenc(hmac(md5),cbc(aes))", .cra_blocksize = AES_BLOCK_SIZE, }, .ivsize = AES_BLOCK_SIZE, .maxauthsize = MD5_DIGEST_SIZE, }, .hash = &hash_alg_md5, .cfg_enc = CIPH_ENCR | MOD_AES | MOD_CBC_ENC, .cfg_dec = CIPH_DECR | MOD_AES | MOD_CBC_DEC, }, { .crypto = { .base = { .cra_name = "authenc(hmac(sha1),cbc(aes))", .cra_blocksize = AES_BLOCK_SIZE, }, .ivsize = AES_BLOCK_SIZE, .maxauthsize = SHA1_DIGEST_SIZE, }, .hash = &hash_alg_sha1, .cfg_enc = CIPH_ENCR | MOD_AES | MOD_CBC_ENC, .cfg_dec = CIPH_DECR | MOD_AES | MOD_CBC_DEC, } }; #define IXP_POSTFIX "-ixp4xx" static const struct platform_device_info ixp_dev_info __initdata = { .name = DRIVER_NAME, .id = 0, .dma_mask = DMA_BIT_MASK(32), };
static int __init ixp_module_init(void) { int num = ARRAY_SIZE(ixp4xx_algos); int i, err; pdev = platform_device_register_full(&ixp_dev_info); if (IS_ERR(pdev)) return PTR_ERR(pdev); spin_lock_init(&desc_lock); spin_lock_init(&emerg_lock); err = init_ixp_crypto(&pdev->dev); if (err) { platform_device_unregister(pdev); return err; } for (i=0; i< num; i++) { struct crypto_alg *cra = &ixp4xx_algos[i].crypto; if (snprintf(cra->cra_driver_name, CRYPTO_MAX_ALG_NAME, "%s"IXP_POSTFIX, cra->cra_name) >= CRYPTO_MAX_ALG_NAME) { continue; } if (!support_aes && (ixp4xx_algos[i].cfg_enc & MOD_AES)) { continue; } /* block ciphers */ cra->cra_type = &crypto_ablkcipher_type; cra->cra_flags = CRYPTO_ALG_TYPE_ABLKCIPHER | CRYPTO_ALG_KERN_DRIVER_ONLY | CRYPTO_ALG_ASYNC; if (!cra->cra_ablkcipher.setkey) cra->cra_ablkcipher.setkey = ablk_setkey; if (!cra->cra_ablkcipher.encrypt) cra->cra_ablkcipher.encrypt = ablk_encrypt; if (!cra->cra_ablkcipher.decrypt) cra->cra_ablkcipher.decrypt = ablk_decrypt; cra->cra_init = init_tfm_ablk; cra->cra_ctxsize = sizeof(struct ixp_ctx); cra->cra_module = THIS_MODULE; cra->cra_alignmask = 3; cra->cra_priority = 300; cra->cra_exit = exit_tfm; if (crypto_register_alg(cra)) printk(KERN_ERR "Failed to register '%s'\n", cra->cra_name); else ixp4xx_algos[i].registered = 1; } for (i = 0; i < ARRAY_SIZE(ixp4xx_aeads); i++) { struct aead_alg *cra = &ixp4xx_aeads[i].crypto; if (snprintf(cra->base.cra_driver_name, CRYPTO_MAX_ALG_NAME, "%s"IXP_POSTFIX, cra->base.cra_name) >= CRYPTO_MAX_ALG_NAME) continue; if (!support_aes && (ixp4xx_algos[i].cfg_enc & MOD_AES)) continue; /* authenc */ cra->base.cra_flags = CRYPTO_ALG_KERN_DRIVER_ONLY | CRYPTO_ALG_ASYNC; cra->setkey = aead_setkey; cra->setauthsize = aead_setauthsize; cra->encrypt = aead_encrypt; cra->decrypt = aead_decrypt; cra->init = init_tfm_aead; cra->exit = exit_tfm_aead; cra->base.cra_ctxsize = sizeof(struct ixp_ctx); cra->base.cra_module = THIS_MODULE; cra->base.cra_alignmask = 3; cra->base.cra_priority = 300; if (crypto_register_aead(cra)) printk(KERN_ERR "Failed to register '%s'\n", cra->base.cra_driver_name); else ixp4xx_aeads[i].registered = 1; } return 0; }

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Christian Hohnstaedt29963.21%120.00%
Herbert Xu14931.50%120.00%
Russell King214.44%240.00%
Nikos Mavrogiannopoulos40.85%120.00%
Total473100.00%5100.00%


static void __exit ixp_module_exit(void) { int num = ARRAY_SIZE(ixp4xx_algos); int i; for (i = 0; i < ARRAY_SIZE(ixp4xx_aeads); i++) { if (ixp4xx_aeads[i].registered) crypto_unregister_aead(&ixp4xx_aeads[i].crypto); } for (i=0; i< num; i++) { if (ixp4xx_algos[i].registered) crypto_unregister_alg(&ixp4xx_algos[i].crypto); } release_ixp_crypto(&pdev->dev); platform_device_unregister(pdev); }

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PersonTokensPropCommitsCommitProp
Christian Hohnstaedt6157.55%125.00%
Herbert Xu3835.85%125.00%
Russell King76.60%250.00%
Total106100.00%4100.00%

module_init(ixp_module_init); module_exit(ixp_module_exit); MODULE_LICENSE("GPL"); MODULE_AUTHOR("Christian Hohnstaedt <chohnstaedt@innominate.com>"); MODULE_DESCRIPTION("IXP4xx hardware crypto");

Overall Contributors

PersonTokensPropCommitsCommitProp
Christian Hohnstaedt669990.37%315.00%
Herbert Xu4626.23%525.00%
Russell King1071.44%315.00%
Krzysztof Hałasa710.96%210.00%
Mathias Krause510.69%15.00%
Quentin Lambert110.15%15.00%
Nikos Mavrogiannopoulos40.05%15.00%
Michał Wróbel30.04%15.00%
Tejun Heo30.04%15.00%
Cristian Stoica10.01%15.00%
Julia Lawall10.01%15.00%
Total7413100.00%20100.00%
Directory: drivers/crypto
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