2 * Intel IXP4xx NPE-C crypto driver
4 * Copyright (C) 2008 Christian Hohnstaedt <chohnstaedt@innominate.com>
6 * This program is free software; you can redistribute it and/or modify it
7 * under the terms of version 2 of the GNU General Public License
8 * as published by the Free Software Foundation.
12 #include <linux/platform_device.h>
13 #include <linux/dma-mapping.h>
14 #include <linux/dmapool.h>
15 #include <linux/crypto.h>
16 #include <linux/kernel.h>
17 #include <linux/rtnetlink.h>
18 #include <linux/interrupt.h>
19 #include <linux/spinlock.h>
20 #include <linux/gfp.h>
21 #include <linux/module.h>
23 #include <crypto/ctr.h>
24 #include <crypto/des.h>
25 #include <crypto/aes.h>
26 #include <crypto/hmac.h>
27 #include <crypto/sha.h>
28 #include <crypto/algapi.h>
29 #include <crypto/internal/aead.h>
30 #include <crypto/authenc.h>
31 #include <crypto/scatterwalk.h>
34 #include <mach/qmgr.h>
38 /* hash: cfgword + 2 * digestlen; crypt: keylen + cfgword */
39 #define NPE_CTX_LEN 80
40 #define AES_BLOCK128 16
42 #define NPE_OP_HASH_VERIFY 0x01
43 #define NPE_OP_CCM_ENABLE 0x04
44 #define NPE_OP_CRYPT_ENABLE 0x08
45 #define NPE_OP_HASH_ENABLE 0x10
46 #define NPE_OP_NOT_IN_PLACE 0x20
47 #define NPE_OP_HMAC_DISABLE 0x40
48 #define NPE_OP_CRYPT_ENCRYPT 0x80
50 #define NPE_OP_CCM_GEN_MIC 0xcc
51 #define NPE_OP_HASH_GEN_ICV 0x50
52 #define NPE_OP_ENC_GEN_KEY 0xc9
54 #define MOD_ECB 0x0000
55 #define MOD_CTR 0x1000
56 #define MOD_CBC_ENC 0x2000
57 #define MOD_CBC_DEC 0x3000
58 #define MOD_CCM_ENC 0x4000
59 #define MOD_CCM_DEC 0x5000
65 #define CIPH_DECR 0x0000
66 #define CIPH_ENCR 0x0400
68 #define MOD_DES 0x0000
69 #define MOD_TDEA2 0x0100
70 #define MOD_3DES 0x0200
71 #define MOD_AES 0x0800
72 #define MOD_AES128 (0x0800 | KEYLEN_128)
73 #define MOD_AES192 (0x0900 | KEYLEN_192)
74 #define MOD_AES256 (0x0a00 | KEYLEN_256)
77 #define NPE_ID 2 /* NPE C */
79 /* Space for registering when the first
80 * NPE_QLEN crypt_ctl are busy */
81 #define NPE_QLEN_TOTAL 64
86 #define CTL_FLAG_UNUSED 0x0000
87 #define CTL_FLAG_USED 0x1000
88 #define CTL_FLAG_PERFORM_ABLK 0x0001
89 #define CTL_FLAG_GEN_ICV 0x0002
90 #define CTL_FLAG_GEN_REVAES 0x0004
91 #define CTL_FLAG_PERFORM_AEAD 0x0008
92 #define CTL_FLAG_MASK 0x000f
94 #define HMAC_PAD_BLOCKLEN SHA1_BLOCK_SIZE
96 #define MD5_DIGEST_SIZE 16
109 struct buffer_desc
*next
;
110 enum dma_data_direction dir
;
115 u8 mode
; /* NPE_OP_* operation mode */
121 u8 mode
; /* NPE_OP_* operation mode */
123 u8 iv
[MAX_IVLEN
]; /* IV for CBC mode or CTR IV for CTR mode */
124 u32 icv_rev_aes
; /* icv or rev aes */
128 u16 auth_offs
; /* Authentication start offset */
129 u16 auth_len
; /* Authentication data length */
130 u16 crypt_offs
; /* Cryption start offset */
131 u16 crypt_len
; /* Cryption data length */
133 u16 auth_len
; /* Authentication data length */
134 u16 auth_offs
; /* Authentication start offset */
135 u16 crypt_len
; /* Cryption data length */
136 u16 crypt_offs
; /* Cryption start offset */
138 u32 aadAddr
; /* Additional Auth Data Addr for CCM mode */
139 u32 crypto_ctx
; /* NPE Crypto Param structure address */
141 /* Used by Host: 4*4 bytes*/
144 struct ablkcipher_request
*ablk_req
;
145 struct aead_request
*aead_req
;
146 struct crypto_tfm
*tfm
;
148 struct buffer_desc
*regist_buf
;
153 struct buffer_desc
*src
;
154 struct buffer_desc
*dst
;
158 struct buffer_desc
*src
;
159 struct buffer_desc
*dst
;
160 struct scatterlist ivlist
;
161 /* used when the hmac is not on one sg entry */
166 struct ix_hash_algo
{
172 unsigned char *npe_ctx
;
173 dma_addr_t npe_ctx_phys
;
179 struct ix_sa_dir encrypt
;
180 struct ix_sa_dir decrypt
;
182 u8 authkey
[MAX_KEYLEN
];
184 u8 enckey
[MAX_KEYLEN
];
186 u8 nonce
[CTR_RFC3686_NONCE_SIZE
];
188 atomic_t configuring
;
189 struct completion completion
;
193 struct crypto_alg crypto
;
194 const struct ix_hash_algo
*hash
;
201 struct ixp_aead_alg
{
202 struct aead_alg crypto
;
203 const struct ix_hash_algo
*hash
;
210 static const struct ix_hash_algo hash_alg_md5
= {
211 .cfgword
= 0xAA010004,
212 .icv
= "\x01\x23\x45\x67\x89\xAB\xCD\xEF"
213 "\xFE\xDC\xBA\x98\x76\x54\x32\x10",
215 static const struct ix_hash_algo hash_alg_sha1
= {
216 .cfgword
= 0x00000005,
217 .icv
= "\x67\x45\x23\x01\xEF\xCD\xAB\x89\x98\xBA"
218 "\xDC\xFE\x10\x32\x54\x76\xC3\xD2\xE1\xF0",
221 static struct npe
*npe_c
;
222 static struct dma_pool
*buffer_pool
= NULL
;
223 static struct dma_pool
*ctx_pool
= NULL
;
225 static struct crypt_ctl
*crypt_virt
= NULL
;
226 static dma_addr_t crypt_phys
;
228 static int support_aes
= 1;
230 #define DRIVER_NAME "ixp4xx_crypto"
232 static struct platform_device
*pdev
;
234 static inline dma_addr_t
crypt_virt2phys(struct crypt_ctl
*virt
)
236 return crypt_phys
+ (virt
- crypt_virt
) * sizeof(struct crypt_ctl
);
239 static inline struct crypt_ctl
*crypt_phys2virt(dma_addr_t phys
)
241 return crypt_virt
+ (phys
- crypt_phys
) / sizeof(struct crypt_ctl
);
244 static inline u32
cipher_cfg_enc(struct crypto_tfm
*tfm
)
246 return container_of(tfm
->__crt_alg
, struct ixp_alg
,crypto
)->cfg_enc
;
249 static inline u32
cipher_cfg_dec(struct crypto_tfm
*tfm
)
251 return container_of(tfm
->__crt_alg
, struct ixp_alg
,crypto
)->cfg_dec
;
254 static inline const struct ix_hash_algo
*ix_hash(struct crypto_tfm
*tfm
)
256 return container_of(tfm
->__crt_alg
, struct ixp_alg
, crypto
)->hash
;
259 static int setup_crypt_desc(void)
261 struct device
*dev
= &pdev
->dev
;
262 BUILD_BUG_ON(sizeof(struct crypt_ctl
) != 64);
263 crypt_virt
= dma_zalloc_coherent(dev
,
264 NPE_QLEN
* sizeof(struct crypt_ctl
),
265 &crypt_phys
, GFP_ATOMIC
);
271 static spinlock_t desc_lock
;
272 static struct crypt_ctl
*get_crypt_desc(void)
278 spin_lock_irqsave(&desc_lock
, flags
);
280 if (unlikely(!crypt_virt
))
282 if (unlikely(!crypt_virt
)) {
283 spin_unlock_irqrestore(&desc_lock
, flags
);
287 if (crypt_virt
[i
].ctl_flags
== CTL_FLAG_UNUSED
) {
288 if (++idx
>= NPE_QLEN
)
290 crypt_virt
[i
].ctl_flags
= CTL_FLAG_USED
;
291 spin_unlock_irqrestore(&desc_lock
, flags
);
292 return crypt_virt
+i
;
294 spin_unlock_irqrestore(&desc_lock
, flags
);
299 static spinlock_t emerg_lock
;
300 static struct crypt_ctl
*get_crypt_desc_emerg(void)
303 static int idx
= NPE_QLEN
;
304 struct crypt_ctl
*desc
;
307 desc
= get_crypt_desc();
310 if (unlikely(!crypt_virt
))
313 spin_lock_irqsave(&emerg_lock
, flags
);
315 if (crypt_virt
[i
].ctl_flags
== CTL_FLAG_UNUSED
) {
316 if (++idx
>= NPE_QLEN_TOTAL
)
318 crypt_virt
[i
].ctl_flags
= CTL_FLAG_USED
;
319 spin_unlock_irqrestore(&emerg_lock
, flags
);
320 return crypt_virt
+i
;
322 spin_unlock_irqrestore(&emerg_lock
, flags
);
327 static void free_buf_chain(struct device
*dev
, struct buffer_desc
*buf
,u32 phys
)
330 struct buffer_desc
*buf1
;
334 phys1
= buf
->phys_next
;
335 dma_unmap_single(dev
, buf
->phys_next
, buf
->buf_len
, buf
->dir
);
336 dma_pool_free(buffer_pool
, buf
, phys
);
342 static struct tasklet_struct crypto_done_tasklet
;
344 static void finish_scattered_hmac(struct crypt_ctl
*crypt
)
346 struct aead_request
*req
= crypt
->data
.aead_req
;
347 struct aead_ctx
*req_ctx
= aead_request_ctx(req
);
348 struct crypto_aead
*tfm
= crypto_aead_reqtfm(req
);
349 int authsize
= crypto_aead_authsize(tfm
);
350 int decryptlen
= req
->assoclen
+ req
->cryptlen
- authsize
;
352 if (req_ctx
->encrypt
) {
353 scatterwalk_map_and_copy(req_ctx
->hmac_virt
,
354 req
->dst
, decryptlen
, authsize
, 1);
356 dma_pool_free(buffer_pool
, req_ctx
->hmac_virt
, crypt
->icv_rev_aes
);
359 static void one_packet(dma_addr_t phys
)
361 struct device
*dev
= &pdev
->dev
;
362 struct crypt_ctl
*crypt
;
366 failed
= phys
& 0x1 ? -EBADMSG
: 0;
368 crypt
= crypt_phys2virt(phys
);
370 switch (crypt
->ctl_flags
& CTL_FLAG_MASK
) {
371 case CTL_FLAG_PERFORM_AEAD
: {
372 struct aead_request
*req
= crypt
->data
.aead_req
;
373 struct aead_ctx
*req_ctx
= aead_request_ctx(req
);
375 free_buf_chain(dev
, req_ctx
->src
, crypt
->src_buf
);
376 free_buf_chain(dev
, req_ctx
->dst
, crypt
->dst_buf
);
377 if (req_ctx
->hmac_virt
) {
378 finish_scattered_hmac(crypt
);
380 req
->base
.complete(&req
->base
, failed
);
383 case CTL_FLAG_PERFORM_ABLK
: {
384 struct ablkcipher_request
*req
= crypt
->data
.ablk_req
;
385 struct ablk_ctx
*req_ctx
= ablkcipher_request_ctx(req
);
388 free_buf_chain(dev
, req_ctx
->dst
, crypt
->dst_buf
);
390 free_buf_chain(dev
, req_ctx
->src
, crypt
->src_buf
);
391 req
->base
.complete(&req
->base
, failed
);
394 case CTL_FLAG_GEN_ICV
:
395 ctx
= crypto_tfm_ctx(crypt
->data
.tfm
);
396 dma_pool_free(ctx_pool
, crypt
->regist_ptr
,
397 crypt
->regist_buf
->phys_addr
);
398 dma_pool_free(buffer_pool
, crypt
->regist_buf
, crypt
->src_buf
);
399 if (atomic_dec_and_test(&ctx
->configuring
))
400 complete(&ctx
->completion
);
402 case CTL_FLAG_GEN_REVAES
:
403 ctx
= crypto_tfm_ctx(crypt
->data
.tfm
);
404 *(u32
*)ctx
->decrypt
.npe_ctx
&= cpu_to_be32(~CIPH_ENCR
);
405 if (atomic_dec_and_test(&ctx
->configuring
))
406 complete(&ctx
->completion
);
411 crypt
->ctl_flags
= CTL_FLAG_UNUSED
;
414 static void irqhandler(void *_unused
)
416 tasklet_schedule(&crypto_done_tasklet
);
419 static void crypto_done_action(unsigned long arg
)
424 dma_addr_t phys
= qmgr_get_entry(RECV_QID
);
429 tasklet_schedule(&crypto_done_tasklet
);
432 static int init_ixp_crypto(struct device
*dev
)
435 u32 msg
[2] = { 0, 0 };
437 if (! ( ~(*IXP4XX_EXP_CFG2
) & (IXP4XX_FEATURE_HASH
|
438 IXP4XX_FEATURE_AES
| IXP4XX_FEATURE_DES
))) {
439 printk(KERN_ERR
"ixp_crypto: No HW crypto available\n");
442 npe_c
= npe_request(NPE_ID
);
446 if (!npe_running(npe_c
)) {
447 ret
= npe_load_firmware(npe_c
, npe_name(npe_c
), dev
);
450 if (npe_recv_message(npe_c
, msg
, "STATUS_MSG"))
453 if (npe_send_message(npe_c
, msg
, "STATUS_MSG"))
456 if (npe_recv_message(npe_c
, msg
, "STATUS_MSG"))
460 switch ((msg
[1]>>16) & 0xff) {
462 printk(KERN_WARNING
"Firmware of %s lacks AES support\n",
471 printk(KERN_ERR
"Firmware of %s lacks crypto support\n",
476 /* buffer_pool will also be used to sometimes store the hmac,
477 * so assure it is large enough
479 BUILD_BUG_ON(SHA1_DIGEST_SIZE
> sizeof(struct buffer_desc
));
480 buffer_pool
= dma_pool_create("buffer", dev
,
481 sizeof(struct buffer_desc
), 32, 0);
486 ctx_pool
= dma_pool_create("context", dev
,
491 ret
= qmgr_request_queue(SEND_QID
, NPE_QLEN_TOTAL
, 0, 0,
492 "ixp_crypto:out", NULL
);
495 ret
= qmgr_request_queue(RECV_QID
, NPE_QLEN
, 0, 0,
496 "ixp_crypto:in", NULL
);
498 qmgr_release_queue(SEND_QID
);
501 qmgr_set_irq(RECV_QID
, QUEUE_IRQ_SRC_NOT_EMPTY
, irqhandler
, NULL
);
502 tasklet_init(&crypto_done_tasklet
, crypto_done_action
, 0);
504 qmgr_enable_irq(RECV_QID
);
508 printk(KERN_ERR
"%s not responding\n", npe_name(npe_c
));
511 dma_pool_destroy(ctx_pool
);
512 dma_pool_destroy(buffer_pool
);
518 static void release_ixp_crypto(struct device
*dev
)
520 qmgr_disable_irq(RECV_QID
);
521 tasklet_kill(&crypto_done_tasklet
);
523 qmgr_release_queue(SEND_QID
);
524 qmgr_release_queue(RECV_QID
);
526 dma_pool_destroy(ctx_pool
);
527 dma_pool_destroy(buffer_pool
);
532 dma_free_coherent(dev
,
533 NPE_QLEN_TOTAL
* sizeof( struct crypt_ctl
),
534 crypt_virt
, crypt_phys
);
538 static void reset_sa_dir(struct ix_sa_dir
*dir
)
540 memset(dir
->npe_ctx
, 0, NPE_CTX_LEN
);
541 dir
->npe_ctx_idx
= 0;
545 static int init_sa_dir(struct ix_sa_dir
*dir
)
547 dir
->npe_ctx
= dma_pool_alloc(ctx_pool
, GFP_KERNEL
, &dir
->npe_ctx_phys
);
555 static void free_sa_dir(struct ix_sa_dir
*dir
)
557 memset(dir
->npe_ctx
, 0, NPE_CTX_LEN
);
558 dma_pool_free(ctx_pool
, dir
->npe_ctx
, dir
->npe_ctx_phys
);
561 static int init_tfm(struct crypto_tfm
*tfm
)
563 struct ixp_ctx
*ctx
= crypto_tfm_ctx(tfm
);
566 atomic_set(&ctx
->configuring
, 0);
567 ret
= init_sa_dir(&ctx
->encrypt
);
570 ret
= init_sa_dir(&ctx
->decrypt
);
572 free_sa_dir(&ctx
->encrypt
);
577 static int init_tfm_ablk(struct crypto_tfm
*tfm
)
579 tfm
->crt_ablkcipher
.reqsize
= sizeof(struct ablk_ctx
);
580 return init_tfm(tfm
);
583 static int init_tfm_aead(struct crypto_aead
*tfm
)
585 crypto_aead_set_reqsize(tfm
, sizeof(struct aead_ctx
));
586 return init_tfm(crypto_aead_tfm(tfm
));
589 static void exit_tfm(struct crypto_tfm
*tfm
)
591 struct ixp_ctx
*ctx
= crypto_tfm_ctx(tfm
);
592 free_sa_dir(&ctx
->encrypt
);
593 free_sa_dir(&ctx
->decrypt
);
596 static void exit_tfm_aead(struct crypto_aead
*tfm
)
598 exit_tfm(crypto_aead_tfm(tfm
));
601 static int register_chain_var(struct crypto_tfm
*tfm
, u8 xpad
, u32 target
,
602 int init_len
, u32 ctx_addr
, const u8
*key
, int key_len
)
604 struct ixp_ctx
*ctx
= crypto_tfm_ctx(tfm
);
605 struct crypt_ctl
*crypt
;
606 struct buffer_desc
*buf
;
609 u32 pad_phys
, buf_phys
;
611 BUILD_BUG_ON(NPE_CTX_LEN
< HMAC_PAD_BLOCKLEN
);
612 pad
= dma_pool_alloc(ctx_pool
, GFP_KERNEL
, &pad_phys
);
615 buf
= dma_pool_alloc(buffer_pool
, GFP_KERNEL
, &buf_phys
);
617 dma_pool_free(ctx_pool
, pad
, pad_phys
);
620 crypt
= get_crypt_desc_emerg();
622 dma_pool_free(ctx_pool
, pad
, pad_phys
);
623 dma_pool_free(buffer_pool
, buf
, buf_phys
);
627 memcpy(pad
, key
, key_len
);
628 memset(pad
+ key_len
, 0, HMAC_PAD_BLOCKLEN
- key_len
);
629 for (i
= 0; i
< HMAC_PAD_BLOCKLEN
; i
++) {
633 crypt
->data
.tfm
= tfm
;
634 crypt
->regist_ptr
= pad
;
635 crypt
->regist_buf
= buf
;
637 crypt
->auth_offs
= 0;
638 crypt
->auth_len
= HMAC_PAD_BLOCKLEN
;
639 crypt
->crypto_ctx
= ctx_addr
;
640 crypt
->src_buf
= buf_phys
;
641 crypt
->icv_rev_aes
= target
;
642 crypt
->mode
= NPE_OP_HASH_GEN_ICV
;
643 crypt
->init_len
= init_len
;
644 crypt
->ctl_flags
|= CTL_FLAG_GEN_ICV
;
647 buf
->buf_len
= HMAC_PAD_BLOCKLEN
;
649 buf
->phys_addr
= pad_phys
;
651 atomic_inc(&ctx
->configuring
);
652 qmgr_put_entry(SEND_QID
, crypt_virt2phys(crypt
));
653 BUG_ON(qmgr_stat_overflow(SEND_QID
));
657 static int setup_auth(struct crypto_tfm
*tfm
, int encrypt
, unsigned authsize
,
658 const u8
*key
, int key_len
, unsigned digest_len
)
660 u32 itarget
, otarget
, npe_ctx_addr
;
661 unsigned char *cinfo
;
662 int init_len
, ret
= 0;
664 struct ix_sa_dir
*dir
;
665 struct ixp_ctx
*ctx
= crypto_tfm_ctx(tfm
);
666 const struct ix_hash_algo
*algo
;
668 dir
= encrypt
? &ctx
->encrypt
: &ctx
->decrypt
;
669 cinfo
= dir
->npe_ctx
+ dir
->npe_ctx_idx
;
672 /* write cfg word to cryptinfo */
673 cfgword
= algo
->cfgword
| ( authsize
<< 6); /* (authsize/4) << 8 */
675 cfgword
^= 0xAA000000; /* change the "byte swap" flags */
677 *(u32
*)cinfo
= cpu_to_be32(cfgword
);
678 cinfo
+= sizeof(cfgword
);
680 /* write ICV to cryptinfo */
681 memcpy(cinfo
, algo
->icv
, digest_len
);
684 itarget
= dir
->npe_ctx_phys
+ dir
->npe_ctx_idx
685 + sizeof(algo
->cfgword
);
686 otarget
= itarget
+ digest_len
;
687 init_len
= cinfo
- (dir
->npe_ctx
+ dir
->npe_ctx_idx
);
688 npe_ctx_addr
= dir
->npe_ctx_phys
+ dir
->npe_ctx_idx
;
690 dir
->npe_ctx_idx
+= init_len
;
691 dir
->npe_mode
|= NPE_OP_HASH_ENABLE
;
694 dir
->npe_mode
|= NPE_OP_HASH_VERIFY
;
696 ret
= register_chain_var(tfm
, HMAC_OPAD_VALUE
, otarget
,
697 init_len
, npe_ctx_addr
, key
, key_len
);
700 return register_chain_var(tfm
, HMAC_IPAD_VALUE
, itarget
,
701 init_len
, npe_ctx_addr
, key
, key_len
);
704 static int gen_rev_aes_key(struct crypto_tfm
*tfm
)
706 struct crypt_ctl
*crypt
;
707 struct ixp_ctx
*ctx
= crypto_tfm_ctx(tfm
);
708 struct ix_sa_dir
*dir
= &ctx
->decrypt
;
710 crypt
= get_crypt_desc_emerg();
714 *(u32
*)dir
->npe_ctx
|= cpu_to_be32(CIPH_ENCR
);
716 crypt
->data
.tfm
= tfm
;
717 crypt
->crypt_offs
= 0;
718 crypt
->crypt_len
= AES_BLOCK128
;
720 crypt
->crypto_ctx
= dir
->npe_ctx_phys
;
721 crypt
->icv_rev_aes
= dir
->npe_ctx_phys
+ sizeof(u32
);
722 crypt
->mode
= NPE_OP_ENC_GEN_KEY
;
723 crypt
->init_len
= dir
->npe_ctx_idx
;
724 crypt
->ctl_flags
|= CTL_FLAG_GEN_REVAES
;
726 atomic_inc(&ctx
->configuring
);
727 qmgr_put_entry(SEND_QID
, crypt_virt2phys(crypt
));
728 BUG_ON(qmgr_stat_overflow(SEND_QID
));
732 static int setup_cipher(struct crypto_tfm
*tfm
, int encrypt
,
733 const u8
*key
, int key_len
)
738 struct ix_sa_dir
*dir
;
739 struct ixp_ctx
*ctx
= crypto_tfm_ctx(tfm
);
740 u32
*flags
= &tfm
->crt_flags
;
742 dir
= encrypt
? &ctx
->encrypt
: &ctx
->decrypt
;
743 cinfo
= dir
->npe_ctx
;
746 cipher_cfg
= cipher_cfg_enc(tfm
);
747 dir
->npe_mode
|= NPE_OP_CRYPT_ENCRYPT
;
749 cipher_cfg
= cipher_cfg_dec(tfm
);
751 if (cipher_cfg
& MOD_AES
) {
753 case 16: keylen_cfg
= MOD_AES128
; break;
754 case 24: keylen_cfg
= MOD_AES192
; break;
755 case 32: keylen_cfg
= MOD_AES256
; break;
757 *flags
|= CRYPTO_TFM_RES_BAD_KEY_LEN
;
760 cipher_cfg
|= keylen_cfg
;
761 } else if (cipher_cfg
& MOD_3DES
) {
762 const u32
*K
= (const u32
*)key
;
763 if (unlikely(!((K
[0] ^ K
[2]) | (K
[1] ^ K
[3])) ||
764 !((K
[2] ^ K
[4]) | (K
[3] ^ K
[5]))))
766 *flags
|= CRYPTO_TFM_RES_BAD_KEY_SCHED
;
770 u32 tmp
[DES_EXPKEY_WORDS
];
771 if (des_ekey(tmp
, key
) == 0) {
772 *flags
|= CRYPTO_TFM_RES_WEAK_KEY
;
775 /* write cfg word to cryptinfo */
776 *(u32
*)cinfo
= cpu_to_be32(cipher_cfg
);
777 cinfo
+= sizeof(cipher_cfg
);
779 /* write cipher key to cryptinfo */
780 memcpy(cinfo
, key
, key_len
);
781 /* NPE wants keylen set to DES3_EDE_KEY_SIZE even for single DES */
782 if (key_len
< DES3_EDE_KEY_SIZE
&& !(cipher_cfg
& MOD_AES
)) {
783 memset(cinfo
+ key_len
, 0, DES3_EDE_KEY_SIZE
-key_len
);
784 key_len
= DES3_EDE_KEY_SIZE
;
786 dir
->npe_ctx_idx
= sizeof(cipher_cfg
) + key_len
;
787 dir
->npe_mode
|= NPE_OP_CRYPT_ENABLE
;
788 if ((cipher_cfg
& MOD_AES
) && !encrypt
) {
789 return gen_rev_aes_key(tfm
);
794 static struct buffer_desc
*chainup_buffers(struct device
*dev
,
795 struct scatterlist
*sg
, unsigned nbytes
,
796 struct buffer_desc
*buf
, gfp_t flags
,
797 enum dma_data_direction dir
)
799 for (; nbytes
> 0; sg
= sg_next(sg
)) {
800 unsigned len
= min(nbytes
, sg
->length
);
801 struct buffer_desc
*next_buf
;
807 next_buf
= dma_pool_alloc(buffer_pool
, flags
, &next_buf_phys
);
812 sg_dma_address(sg
) = dma_map_single(dev
, ptr
, len
, dir
);
813 buf
->next
= next_buf
;
814 buf
->phys_next
= next_buf_phys
;
817 buf
->phys_addr
= sg_dma_address(sg
);
826 static int ablk_setkey(struct crypto_ablkcipher
*tfm
, const u8
*key
,
827 unsigned int key_len
)
829 struct ixp_ctx
*ctx
= crypto_ablkcipher_ctx(tfm
);
830 u32
*flags
= &tfm
->base
.crt_flags
;
833 init_completion(&ctx
->completion
);
834 atomic_inc(&ctx
->configuring
);
836 reset_sa_dir(&ctx
->encrypt
);
837 reset_sa_dir(&ctx
->decrypt
);
839 ctx
->encrypt
.npe_mode
= NPE_OP_HMAC_DISABLE
;
840 ctx
->decrypt
.npe_mode
= NPE_OP_HMAC_DISABLE
;
842 ret
= setup_cipher(&tfm
->base
, 0, key
, key_len
);
845 ret
= setup_cipher(&tfm
->base
, 1, key
, key_len
);
849 if (*flags
& CRYPTO_TFM_RES_WEAK_KEY
) {
850 if (*flags
& CRYPTO_TFM_REQ_WEAK_KEY
) {
853 *flags
&= ~CRYPTO_TFM_RES_WEAK_KEY
;
857 if (!atomic_dec_and_test(&ctx
->configuring
))
858 wait_for_completion(&ctx
->completion
);
862 static int ablk_rfc3686_setkey(struct crypto_ablkcipher
*tfm
, const u8
*key
,
863 unsigned int key_len
)
865 struct ixp_ctx
*ctx
= crypto_ablkcipher_ctx(tfm
);
867 /* the nonce is stored in bytes at end of key */
868 if (key_len
< CTR_RFC3686_NONCE_SIZE
)
871 memcpy(ctx
->nonce
, key
+ (key_len
- CTR_RFC3686_NONCE_SIZE
),
872 CTR_RFC3686_NONCE_SIZE
);
874 key_len
-= CTR_RFC3686_NONCE_SIZE
;
875 return ablk_setkey(tfm
, key
, key_len
);
878 static int ablk_perform(struct ablkcipher_request
*req
, int encrypt
)
880 struct crypto_ablkcipher
*tfm
= crypto_ablkcipher_reqtfm(req
);
881 struct ixp_ctx
*ctx
= crypto_ablkcipher_ctx(tfm
);
882 unsigned ivsize
= crypto_ablkcipher_ivsize(tfm
);
883 struct ix_sa_dir
*dir
;
884 struct crypt_ctl
*crypt
;
885 unsigned int nbytes
= req
->nbytes
;
886 enum dma_data_direction src_direction
= DMA_BIDIRECTIONAL
;
887 struct ablk_ctx
*req_ctx
= ablkcipher_request_ctx(req
);
888 struct buffer_desc src_hook
;
889 struct device
*dev
= &pdev
->dev
;
890 gfp_t flags
= req
->base
.flags
& CRYPTO_TFM_REQ_MAY_SLEEP
?
891 GFP_KERNEL
: GFP_ATOMIC
;
893 if (qmgr_stat_full(SEND_QID
))
895 if (atomic_read(&ctx
->configuring
))
898 dir
= encrypt
? &ctx
->encrypt
: &ctx
->decrypt
;
900 crypt
= get_crypt_desc();
904 crypt
->data
.ablk_req
= req
;
905 crypt
->crypto_ctx
= dir
->npe_ctx_phys
;
906 crypt
->mode
= dir
->npe_mode
;
907 crypt
->init_len
= dir
->npe_ctx_idx
;
909 crypt
->crypt_offs
= 0;
910 crypt
->crypt_len
= nbytes
;
912 BUG_ON(ivsize
&& !req
->info
);
913 memcpy(crypt
->iv
, req
->info
, ivsize
);
914 if (req
->src
!= req
->dst
) {
915 struct buffer_desc dst_hook
;
916 crypt
->mode
|= NPE_OP_NOT_IN_PLACE
;
917 /* This was never tested by Intel
918 * for more than one dst buffer, I think. */
920 if (!chainup_buffers(dev
, req
->dst
, nbytes
, &dst_hook
,
921 flags
, DMA_FROM_DEVICE
))
923 src_direction
= DMA_TO_DEVICE
;
924 req_ctx
->dst
= dst_hook
.next
;
925 crypt
->dst_buf
= dst_hook
.phys_next
;
930 if (!chainup_buffers(dev
, req
->src
, nbytes
, &src_hook
,
931 flags
, src_direction
))
934 req_ctx
->src
= src_hook
.next
;
935 crypt
->src_buf
= src_hook
.phys_next
;
936 crypt
->ctl_flags
|= CTL_FLAG_PERFORM_ABLK
;
937 qmgr_put_entry(SEND_QID
, crypt_virt2phys(crypt
));
938 BUG_ON(qmgr_stat_overflow(SEND_QID
));
942 free_buf_chain(dev
, req_ctx
->src
, crypt
->src_buf
);
944 if (req
->src
!= req
->dst
) {
945 free_buf_chain(dev
, req_ctx
->dst
, crypt
->dst_buf
);
947 crypt
->ctl_flags
= CTL_FLAG_UNUSED
;
951 static int ablk_encrypt(struct ablkcipher_request
*req
)
953 return ablk_perform(req
, 1);
956 static int ablk_decrypt(struct ablkcipher_request
*req
)
958 return ablk_perform(req
, 0);
961 static int ablk_rfc3686_crypt(struct ablkcipher_request
*req
)
963 struct crypto_ablkcipher
*tfm
= crypto_ablkcipher_reqtfm(req
);
964 struct ixp_ctx
*ctx
= crypto_ablkcipher_ctx(tfm
);
965 u8 iv
[CTR_RFC3686_BLOCK_SIZE
];
966 u8
*info
= req
->info
;
969 /* set up counter block */
970 memcpy(iv
, ctx
->nonce
, CTR_RFC3686_NONCE_SIZE
);
971 memcpy(iv
+ CTR_RFC3686_NONCE_SIZE
, info
, CTR_RFC3686_IV_SIZE
);
973 /* initialize counter portion of counter block */
974 *(__be32
*)(iv
+ CTR_RFC3686_NONCE_SIZE
+ CTR_RFC3686_IV_SIZE
) =
978 ret
= ablk_perform(req
, 1);
983 static int aead_perform(struct aead_request
*req
, int encrypt
,
984 int cryptoffset
, int eff_cryptlen
, u8
*iv
)
986 struct crypto_aead
*tfm
= crypto_aead_reqtfm(req
);
987 struct ixp_ctx
*ctx
= crypto_aead_ctx(tfm
);
988 unsigned ivsize
= crypto_aead_ivsize(tfm
);
989 unsigned authsize
= crypto_aead_authsize(tfm
);
990 struct ix_sa_dir
*dir
;
991 struct crypt_ctl
*crypt
;
992 unsigned int cryptlen
;
993 struct buffer_desc
*buf
, src_hook
;
994 struct aead_ctx
*req_ctx
= aead_request_ctx(req
);
995 struct device
*dev
= &pdev
->dev
;
996 gfp_t flags
= req
->base
.flags
& CRYPTO_TFM_REQ_MAY_SLEEP
?
997 GFP_KERNEL
: GFP_ATOMIC
;
998 enum dma_data_direction src_direction
= DMA_BIDIRECTIONAL
;
999 unsigned int lastlen
;
1001 if (qmgr_stat_full(SEND_QID
))
1003 if (atomic_read(&ctx
->configuring
))
1007 dir
= &ctx
->encrypt
;
1008 cryptlen
= req
->cryptlen
;
1010 dir
= &ctx
->decrypt
;
1011 /* req->cryptlen includes the authsize when decrypting */
1012 cryptlen
= req
->cryptlen
-authsize
;
1013 eff_cryptlen
-= authsize
;
1015 crypt
= get_crypt_desc();
1019 crypt
->data
.aead_req
= req
;
1020 crypt
->crypto_ctx
= dir
->npe_ctx_phys
;
1021 crypt
->mode
= dir
->npe_mode
;
1022 crypt
->init_len
= dir
->npe_ctx_idx
;
1024 crypt
->crypt_offs
= cryptoffset
;
1025 crypt
->crypt_len
= eff_cryptlen
;
1027 crypt
->auth_offs
= 0;
1028 crypt
->auth_len
= req
->assoclen
+ cryptlen
;
1029 BUG_ON(ivsize
&& !req
->iv
);
1030 memcpy(crypt
->iv
, req
->iv
, ivsize
);
1032 buf
= chainup_buffers(dev
, req
->src
, crypt
->auth_len
,
1033 &src_hook
, flags
, src_direction
);
1034 req_ctx
->src
= src_hook
.next
;
1035 crypt
->src_buf
= src_hook
.phys_next
;
1039 lastlen
= buf
->buf_len
;
1040 if (lastlen
>= authsize
)
1041 crypt
->icv_rev_aes
= buf
->phys_addr
+
1042 buf
->buf_len
- authsize
;
1044 req_ctx
->dst
= NULL
;
1046 if (req
->src
!= req
->dst
) {
1047 struct buffer_desc dst_hook
;
1049 crypt
->mode
|= NPE_OP_NOT_IN_PLACE
;
1050 src_direction
= DMA_TO_DEVICE
;
1052 buf
= chainup_buffers(dev
, req
->dst
, crypt
->auth_len
,
1053 &dst_hook
, flags
, DMA_FROM_DEVICE
);
1054 req_ctx
->dst
= dst_hook
.next
;
1055 crypt
->dst_buf
= dst_hook
.phys_next
;
1061 lastlen
= buf
->buf_len
;
1062 if (lastlen
>= authsize
)
1063 crypt
->icv_rev_aes
= buf
->phys_addr
+
1064 buf
->buf_len
- authsize
;
1068 if (unlikely(lastlen
< authsize
)) {
1069 /* The 12 hmac bytes are scattered,
1070 * we need to copy them into a safe buffer */
1071 req_ctx
->hmac_virt
= dma_pool_alloc(buffer_pool
, flags
,
1072 &crypt
->icv_rev_aes
);
1073 if (unlikely(!req_ctx
->hmac_virt
))
1076 scatterwalk_map_and_copy(req_ctx
->hmac_virt
,
1077 req
->src
, cryptlen
, authsize
, 0);
1079 req_ctx
->encrypt
= encrypt
;
1081 req_ctx
->hmac_virt
= NULL
;
1084 crypt
->ctl_flags
|= CTL_FLAG_PERFORM_AEAD
;
1085 qmgr_put_entry(SEND_QID
, crypt_virt2phys(crypt
));
1086 BUG_ON(qmgr_stat_overflow(SEND_QID
));
1087 return -EINPROGRESS
;
1090 free_buf_chain(dev
, req_ctx
->dst
, crypt
->dst_buf
);
1092 free_buf_chain(dev
, req_ctx
->src
, crypt
->src_buf
);
1093 crypt
->ctl_flags
= CTL_FLAG_UNUSED
;
1097 static int aead_setup(struct crypto_aead
*tfm
, unsigned int authsize
)
1099 struct ixp_ctx
*ctx
= crypto_aead_ctx(tfm
);
1100 u32
*flags
= &tfm
->base
.crt_flags
;
1101 unsigned digest_len
= crypto_aead_maxauthsize(tfm
);
1104 if (!ctx
->enckey_len
&& !ctx
->authkey_len
)
1106 init_completion(&ctx
->completion
);
1107 atomic_inc(&ctx
->configuring
);
1109 reset_sa_dir(&ctx
->encrypt
);
1110 reset_sa_dir(&ctx
->decrypt
);
1112 ret
= setup_cipher(&tfm
->base
, 0, ctx
->enckey
, ctx
->enckey_len
);
1115 ret
= setup_cipher(&tfm
->base
, 1, ctx
->enckey
, ctx
->enckey_len
);
1118 ret
= setup_auth(&tfm
->base
, 0, authsize
, ctx
->authkey
,
1119 ctx
->authkey_len
, digest_len
);
1122 ret
= setup_auth(&tfm
->base
, 1, authsize
, ctx
->authkey
,
1123 ctx
->authkey_len
, digest_len
);
1127 if (*flags
& CRYPTO_TFM_RES_WEAK_KEY
) {
1128 if (*flags
& CRYPTO_TFM_REQ_WEAK_KEY
) {
1132 *flags
&= ~CRYPTO_TFM_RES_WEAK_KEY
;
1136 if (!atomic_dec_and_test(&ctx
->configuring
))
1137 wait_for_completion(&ctx
->completion
);
1141 static int aead_setauthsize(struct crypto_aead
*tfm
, unsigned int authsize
)
1143 int max
= crypto_aead_maxauthsize(tfm
) >> 2;
1145 if ((authsize
>>2) < 1 || (authsize
>>2) > max
|| (authsize
& 3))
1147 return aead_setup(tfm
, authsize
);
1150 static int aead_setkey(struct crypto_aead
*tfm
, const u8
*key
,
1151 unsigned int keylen
)
1153 struct ixp_ctx
*ctx
= crypto_aead_ctx(tfm
);
1154 struct crypto_authenc_keys keys
;
1156 if (crypto_authenc_extractkeys(&keys
, key
, keylen
) != 0)
1159 if (keys
.authkeylen
> sizeof(ctx
->authkey
))
1162 if (keys
.enckeylen
> sizeof(ctx
->enckey
))
1165 memcpy(ctx
->authkey
, keys
.authkey
, keys
.authkeylen
);
1166 memcpy(ctx
->enckey
, keys
.enckey
, keys
.enckeylen
);
1167 ctx
->authkey_len
= keys
.authkeylen
;
1168 ctx
->enckey_len
= keys
.enckeylen
;
1170 return aead_setup(tfm
, crypto_aead_authsize(tfm
));
1172 crypto_aead_set_flags(tfm
, CRYPTO_TFM_RES_BAD_KEY_LEN
);
1176 static int aead_encrypt(struct aead_request
*req
)
1178 return aead_perform(req
, 1, req
->assoclen
, req
->cryptlen
, req
->iv
);
1181 static int aead_decrypt(struct aead_request
*req
)
1183 return aead_perform(req
, 0, req
->assoclen
, req
->cryptlen
, req
->iv
);
1186 static struct ixp_alg ixp4xx_algos
[] = {
1189 .cra_name
= "cbc(des)",
1190 .cra_blocksize
= DES_BLOCK_SIZE
,
1191 .cra_u
= { .ablkcipher
= {
1192 .min_keysize
= DES_KEY_SIZE
,
1193 .max_keysize
= DES_KEY_SIZE
,
1194 .ivsize
= DES_BLOCK_SIZE
,
1199 .cfg_enc
= CIPH_ENCR
| MOD_DES
| MOD_CBC_ENC
| KEYLEN_192
,
1200 .cfg_dec
= CIPH_DECR
| MOD_DES
| MOD_CBC_DEC
| KEYLEN_192
,
1204 .cra_name
= "ecb(des)",
1205 .cra_blocksize
= DES_BLOCK_SIZE
,
1206 .cra_u
= { .ablkcipher
= {
1207 .min_keysize
= DES_KEY_SIZE
,
1208 .max_keysize
= DES_KEY_SIZE
,
1212 .cfg_enc
= CIPH_ENCR
| MOD_DES
| MOD_ECB
| KEYLEN_192
,
1213 .cfg_dec
= CIPH_DECR
| MOD_DES
| MOD_ECB
| KEYLEN_192
,
1216 .cra_name
= "cbc(des3_ede)",
1217 .cra_blocksize
= DES3_EDE_BLOCK_SIZE
,
1218 .cra_u
= { .ablkcipher
= {
1219 .min_keysize
= DES3_EDE_KEY_SIZE
,
1220 .max_keysize
= DES3_EDE_KEY_SIZE
,
1221 .ivsize
= DES3_EDE_BLOCK_SIZE
,
1226 .cfg_enc
= CIPH_ENCR
| MOD_3DES
| MOD_CBC_ENC
| KEYLEN_192
,
1227 .cfg_dec
= CIPH_DECR
| MOD_3DES
| MOD_CBC_DEC
| KEYLEN_192
,
1230 .cra_name
= "ecb(des3_ede)",
1231 .cra_blocksize
= DES3_EDE_BLOCK_SIZE
,
1232 .cra_u
= { .ablkcipher
= {
1233 .min_keysize
= DES3_EDE_KEY_SIZE
,
1234 .max_keysize
= DES3_EDE_KEY_SIZE
,
1238 .cfg_enc
= CIPH_ENCR
| MOD_3DES
| MOD_ECB
| KEYLEN_192
,
1239 .cfg_dec
= CIPH_DECR
| MOD_3DES
| MOD_ECB
| KEYLEN_192
,
1242 .cra_name
= "cbc(aes)",
1243 .cra_blocksize
= AES_BLOCK_SIZE
,
1244 .cra_u
= { .ablkcipher
= {
1245 .min_keysize
= AES_MIN_KEY_SIZE
,
1246 .max_keysize
= AES_MAX_KEY_SIZE
,
1247 .ivsize
= AES_BLOCK_SIZE
,
1252 .cfg_enc
= CIPH_ENCR
| MOD_AES
| MOD_CBC_ENC
,
1253 .cfg_dec
= CIPH_DECR
| MOD_AES
| MOD_CBC_DEC
,
1256 .cra_name
= "ecb(aes)",
1257 .cra_blocksize
= AES_BLOCK_SIZE
,
1258 .cra_u
= { .ablkcipher
= {
1259 .min_keysize
= AES_MIN_KEY_SIZE
,
1260 .max_keysize
= AES_MAX_KEY_SIZE
,
1264 .cfg_enc
= CIPH_ENCR
| MOD_AES
| MOD_ECB
,
1265 .cfg_dec
= CIPH_DECR
| MOD_AES
| MOD_ECB
,
1268 .cra_name
= "ctr(aes)",
1269 .cra_blocksize
= AES_BLOCK_SIZE
,
1270 .cra_u
= { .ablkcipher
= {
1271 .min_keysize
= AES_MIN_KEY_SIZE
,
1272 .max_keysize
= AES_MAX_KEY_SIZE
,
1273 .ivsize
= AES_BLOCK_SIZE
,
1278 .cfg_enc
= CIPH_ENCR
| MOD_AES
| MOD_CTR
,
1279 .cfg_dec
= CIPH_ENCR
| MOD_AES
| MOD_CTR
,
1282 .cra_name
= "rfc3686(ctr(aes))",
1283 .cra_blocksize
= AES_BLOCK_SIZE
,
1284 .cra_u
= { .ablkcipher
= {
1285 .min_keysize
= AES_MIN_KEY_SIZE
,
1286 .max_keysize
= AES_MAX_KEY_SIZE
,
1287 .ivsize
= AES_BLOCK_SIZE
,
1289 .setkey
= ablk_rfc3686_setkey
,
1290 .encrypt
= ablk_rfc3686_crypt
,
1291 .decrypt
= ablk_rfc3686_crypt
}
1294 .cfg_enc
= CIPH_ENCR
| MOD_AES
| MOD_CTR
,
1295 .cfg_dec
= CIPH_ENCR
| MOD_AES
| MOD_CTR
,
1298 static struct ixp_aead_alg ixp4xx_aeads
[] = {
1302 .cra_name
= "authenc(hmac(md5),cbc(des))",
1303 .cra_blocksize
= DES_BLOCK_SIZE
,
1305 .ivsize
= DES_BLOCK_SIZE
,
1306 .maxauthsize
= MD5_DIGEST_SIZE
,
1308 .hash
= &hash_alg_md5
,
1309 .cfg_enc
= CIPH_ENCR
| MOD_DES
| MOD_CBC_ENC
| KEYLEN_192
,
1310 .cfg_dec
= CIPH_DECR
| MOD_DES
| MOD_CBC_DEC
| KEYLEN_192
,
1314 .cra_name
= "authenc(hmac(md5),cbc(des3_ede))",
1315 .cra_blocksize
= DES3_EDE_BLOCK_SIZE
,
1317 .ivsize
= DES3_EDE_BLOCK_SIZE
,
1318 .maxauthsize
= MD5_DIGEST_SIZE
,
1320 .hash
= &hash_alg_md5
,
1321 .cfg_enc
= CIPH_ENCR
| MOD_3DES
| MOD_CBC_ENC
| KEYLEN_192
,
1322 .cfg_dec
= CIPH_DECR
| MOD_3DES
| MOD_CBC_DEC
| KEYLEN_192
,
1326 .cra_name
= "authenc(hmac(sha1),cbc(des))",
1327 .cra_blocksize
= DES_BLOCK_SIZE
,
1329 .ivsize
= DES_BLOCK_SIZE
,
1330 .maxauthsize
= SHA1_DIGEST_SIZE
,
1332 .hash
= &hash_alg_sha1
,
1333 .cfg_enc
= CIPH_ENCR
| MOD_DES
| MOD_CBC_ENC
| KEYLEN_192
,
1334 .cfg_dec
= CIPH_DECR
| MOD_DES
| MOD_CBC_DEC
| KEYLEN_192
,
1338 .cra_name
= "authenc(hmac(sha1),cbc(des3_ede))",
1339 .cra_blocksize
= DES3_EDE_BLOCK_SIZE
,
1341 .ivsize
= DES3_EDE_BLOCK_SIZE
,
1342 .maxauthsize
= SHA1_DIGEST_SIZE
,
1344 .hash
= &hash_alg_sha1
,
1345 .cfg_enc
= CIPH_ENCR
| MOD_3DES
| MOD_CBC_ENC
| KEYLEN_192
,
1346 .cfg_dec
= CIPH_DECR
| MOD_3DES
| MOD_CBC_DEC
| KEYLEN_192
,
1350 .cra_name
= "authenc(hmac(md5),cbc(aes))",
1351 .cra_blocksize
= AES_BLOCK_SIZE
,
1353 .ivsize
= AES_BLOCK_SIZE
,
1354 .maxauthsize
= MD5_DIGEST_SIZE
,
1356 .hash
= &hash_alg_md5
,
1357 .cfg_enc
= CIPH_ENCR
| MOD_AES
| MOD_CBC_ENC
,
1358 .cfg_dec
= CIPH_DECR
| MOD_AES
| MOD_CBC_DEC
,
1362 .cra_name
= "authenc(hmac(sha1),cbc(aes))",
1363 .cra_blocksize
= AES_BLOCK_SIZE
,
1365 .ivsize
= AES_BLOCK_SIZE
,
1366 .maxauthsize
= SHA1_DIGEST_SIZE
,
1368 .hash
= &hash_alg_sha1
,
1369 .cfg_enc
= CIPH_ENCR
| MOD_AES
| MOD_CBC_ENC
,
1370 .cfg_dec
= CIPH_DECR
| MOD_AES
| MOD_CBC_DEC
,
1373 #define IXP_POSTFIX "-ixp4xx"
1375 static const struct platform_device_info ixp_dev_info __initdata
= {
1376 .name
= DRIVER_NAME
,
1378 .dma_mask
= DMA_BIT_MASK(32),
1381 static int __init
ixp_module_init(void)
1383 int num
= ARRAY_SIZE(ixp4xx_algos
);
1386 pdev
= platform_device_register_full(&ixp_dev_info
);
1388 return PTR_ERR(pdev
);
1390 spin_lock_init(&desc_lock
);
1391 spin_lock_init(&emerg_lock
);
1393 err
= init_ixp_crypto(&pdev
->dev
);
1395 platform_device_unregister(pdev
);
1398 for (i
=0; i
< num
; i
++) {
1399 struct crypto_alg
*cra
= &ixp4xx_algos
[i
].crypto
;
1401 if (snprintf(cra
->cra_driver_name
, CRYPTO_MAX_ALG_NAME
,
1402 "%s"IXP_POSTFIX
, cra
->cra_name
) >=
1403 CRYPTO_MAX_ALG_NAME
)
1407 if (!support_aes
&& (ixp4xx_algos
[i
].cfg_enc
& MOD_AES
)) {
1412 cra
->cra_type
= &crypto_ablkcipher_type
;
1413 cra
->cra_flags
= CRYPTO_ALG_TYPE_ABLKCIPHER
|
1414 CRYPTO_ALG_KERN_DRIVER_ONLY
|
1416 if (!cra
->cra_ablkcipher
.setkey
)
1417 cra
->cra_ablkcipher
.setkey
= ablk_setkey
;
1418 if (!cra
->cra_ablkcipher
.encrypt
)
1419 cra
->cra_ablkcipher
.encrypt
= ablk_encrypt
;
1420 if (!cra
->cra_ablkcipher
.decrypt
)
1421 cra
->cra_ablkcipher
.decrypt
= ablk_decrypt
;
1422 cra
->cra_init
= init_tfm_ablk
;
1424 cra
->cra_ctxsize
= sizeof(struct ixp_ctx
);
1425 cra
->cra_module
= THIS_MODULE
;
1426 cra
->cra_alignmask
= 3;
1427 cra
->cra_priority
= 300;
1428 cra
->cra_exit
= exit_tfm
;
1429 if (crypto_register_alg(cra
))
1430 printk(KERN_ERR
"Failed to register '%s'\n",
1433 ixp4xx_algos
[i
].registered
= 1;
1436 for (i
= 0; i
< ARRAY_SIZE(ixp4xx_aeads
); i
++) {
1437 struct aead_alg
*cra
= &ixp4xx_aeads
[i
].crypto
;
1439 if (snprintf(cra
->base
.cra_driver_name
, CRYPTO_MAX_ALG_NAME
,
1440 "%s"IXP_POSTFIX
, cra
->base
.cra_name
) >=
1441 CRYPTO_MAX_ALG_NAME
)
1443 if (!support_aes
&& (ixp4xx_algos
[i
].cfg_enc
& MOD_AES
))
1447 cra
->base
.cra_flags
= CRYPTO_ALG_KERN_DRIVER_ONLY
|
1449 cra
->setkey
= aead_setkey
;
1450 cra
->setauthsize
= aead_setauthsize
;
1451 cra
->encrypt
= aead_encrypt
;
1452 cra
->decrypt
= aead_decrypt
;
1453 cra
->init
= init_tfm_aead
;
1454 cra
->exit
= exit_tfm_aead
;
1456 cra
->base
.cra_ctxsize
= sizeof(struct ixp_ctx
);
1457 cra
->base
.cra_module
= THIS_MODULE
;
1458 cra
->base
.cra_alignmask
= 3;
1459 cra
->base
.cra_priority
= 300;
1461 if (crypto_register_aead(cra
))
1462 printk(KERN_ERR
"Failed to register '%s'\n",
1463 cra
->base
.cra_driver_name
);
1465 ixp4xx_aeads
[i
].registered
= 1;
1470 static void __exit
ixp_module_exit(void)
1472 int num
= ARRAY_SIZE(ixp4xx_algos
);
1475 for (i
= 0; i
< ARRAY_SIZE(ixp4xx_aeads
); i
++) {
1476 if (ixp4xx_aeads
[i
].registered
)
1477 crypto_unregister_aead(&ixp4xx_aeads
[i
].crypto
);
1480 for (i
=0; i
< num
; i
++) {
1481 if (ixp4xx_algos
[i
].registered
)
1482 crypto_unregister_alg(&ixp4xx_algos
[i
].crypto
);
1484 release_ixp_crypto(&pdev
->dev
);
1485 platform_device_unregister(pdev
);
1488 module_init(ixp_module_init
);
1489 module_exit(ixp_module_exit
);
1491 MODULE_LICENSE("GPL");
1492 MODULE_AUTHOR("Christian Hohnstaedt <chohnstaedt@innominate.com>");
1493 MODULE_DESCRIPTION("IXP4xx hardware crypto");