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// SPDX-License-Identifier: GPL-2.0-only
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/*
* Driver for ARTPEC - 6 crypto block using the kernel asynchronous crypto api .
*
* Copyright ( C ) 2014 - 2017 Axis Communications AB
*/
# define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
# include <linux/bitfield.h>
# include <linux/crypto.h>
# include <linux/debugfs.h>
# include <linux/delay.h>
# include <linux/dma-mapping.h>
# include <linux/fault-inject.h>
# include <linux/init.h>
# include <linux/interrupt.h>
# include <linux/kernel.h>
# include <linux/list.h>
# include <linux/module.h>
# include <linux/of.h>
# include <linux/platform_device.h>
# include <linux/scatterlist.h>
# include <linux/slab.h>
# include <crypto/aes.h>
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# include <crypto/gcm.h>
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# include <crypto/internal/aead.h>
# include <crypto/internal/hash.h>
# include <crypto/internal/skcipher.h>
# include <crypto/scatterwalk.h>
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# include <crypto/sha1.h>
# include <crypto/sha2.h>
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# include <crypto/xts.h>
/* Max length of a line in all cache levels for Artpec SoCs. */
# define ARTPEC_CACHE_LINE_MAX 32
# define PDMA_OUT_CFG 0x0000
# define PDMA_OUT_BUF_CFG 0x0004
# define PDMA_OUT_CMD 0x0008
# define PDMA_OUT_DESCRQ_PUSH 0x0010
# define PDMA_OUT_DESCRQ_STAT 0x0014
# define A6_PDMA_IN_CFG 0x0028
# define A6_PDMA_IN_BUF_CFG 0x002c
# define A6_PDMA_IN_CMD 0x0030
# define A6_PDMA_IN_STATQ_PUSH 0x0038
# define A6_PDMA_IN_DESCRQ_PUSH 0x0044
# define A6_PDMA_IN_DESCRQ_STAT 0x0048
# define A6_PDMA_INTR_MASK 0x0068
# define A6_PDMA_ACK_INTR 0x006c
# define A6_PDMA_MASKED_INTR 0x0074
# define A7_PDMA_IN_CFG 0x002c
# define A7_PDMA_IN_BUF_CFG 0x0030
# define A7_PDMA_IN_CMD 0x0034
# define A7_PDMA_IN_STATQ_PUSH 0x003c
# define A7_PDMA_IN_DESCRQ_PUSH 0x0048
# define A7_PDMA_IN_DESCRQ_STAT 0x004C
# define A7_PDMA_INTR_MASK 0x006c
# define A7_PDMA_ACK_INTR 0x0070
# define A7_PDMA_MASKED_INTR 0x0078
# define PDMA_OUT_CFG_EN BIT(0)
# define PDMA_OUT_BUF_CFG_DATA_BUF_SIZE GENMASK(4, 0)
# define PDMA_OUT_BUF_CFG_DESCR_BUF_SIZE GENMASK(9, 5)
# define PDMA_OUT_CMD_START BIT(0)
# define A6_PDMA_OUT_CMD_STOP BIT(3)
# define A7_PDMA_OUT_CMD_STOP BIT(2)
# define PDMA_OUT_DESCRQ_PUSH_LEN GENMASK(5, 0)
# define PDMA_OUT_DESCRQ_PUSH_ADDR GENMASK(31, 6)
# define PDMA_OUT_DESCRQ_STAT_LEVEL GENMASK(3, 0)
# define PDMA_OUT_DESCRQ_STAT_SIZE GENMASK(7, 4)
# define PDMA_IN_CFG_EN BIT(0)
# define PDMA_IN_BUF_CFG_DATA_BUF_SIZE GENMASK(4, 0)
# define PDMA_IN_BUF_CFG_DESCR_BUF_SIZE GENMASK(9, 5)
# define PDMA_IN_BUF_CFG_STAT_BUF_SIZE GENMASK(14, 10)
# define PDMA_IN_CMD_START BIT(0)
# define A6_PDMA_IN_CMD_FLUSH_STAT BIT(2)
# define A6_PDMA_IN_CMD_STOP BIT(3)
# define A7_PDMA_IN_CMD_FLUSH_STAT BIT(1)
# define A7_PDMA_IN_CMD_STOP BIT(2)
# define PDMA_IN_STATQ_PUSH_LEN GENMASK(5, 0)
# define PDMA_IN_STATQ_PUSH_ADDR GENMASK(31, 6)
# define PDMA_IN_DESCRQ_PUSH_LEN GENMASK(5, 0)
# define PDMA_IN_DESCRQ_PUSH_ADDR GENMASK(31, 6)
# define PDMA_IN_DESCRQ_STAT_LEVEL GENMASK(3, 0)
# define PDMA_IN_DESCRQ_STAT_SIZE GENMASK(7, 4)
# define A6_PDMA_INTR_MASK_IN_DATA BIT(2)
# define A6_PDMA_INTR_MASK_IN_EOP BIT(3)
# define A6_PDMA_INTR_MASK_IN_EOP_FLUSH BIT(4)
# define A7_PDMA_INTR_MASK_IN_DATA BIT(3)
# define A7_PDMA_INTR_MASK_IN_EOP BIT(4)
# define A7_PDMA_INTR_MASK_IN_EOP_FLUSH BIT(5)
# define A6_CRY_MD_OPER GENMASK(19, 16)
# define A6_CRY_MD_HASH_SEL_CTX GENMASK(21, 20)
# define A6_CRY_MD_HASH_HMAC_FIN BIT(23)
# define A6_CRY_MD_CIPHER_LEN GENMASK(21, 20)
# define A6_CRY_MD_CIPHER_DECR BIT(22)
# define A6_CRY_MD_CIPHER_TWEAK BIT(23)
# define A6_CRY_MD_CIPHER_DSEQ BIT(24)
# define A7_CRY_MD_OPER GENMASK(11, 8)
# define A7_CRY_MD_HASH_SEL_CTX GENMASK(13, 12)
# define A7_CRY_MD_HASH_HMAC_FIN BIT(15)
# define A7_CRY_MD_CIPHER_LEN GENMASK(13, 12)
# define A7_CRY_MD_CIPHER_DECR BIT(14)
# define A7_CRY_MD_CIPHER_TWEAK BIT(15)
# define A7_CRY_MD_CIPHER_DSEQ BIT(16)
/* DMA metadata constants */
# define regk_crypto_aes_cbc 0x00000002
# define regk_crypto_aes_ctr 0x00000003
# define regk_crypto_aes_ecb 0x00000001
# define regk_crypto_aes_gcm 0x00000004
# define regk_crypto_aes_xts 0x00000005
# define regk_crypto_cache 0x00000002
# define a6_regk_crypto_dlkey 0x0000000a
# define a7_regk_crypto_dlkey 0x0000000e
# define regk_crypto_ext 0x00000001
# define regk_crypto_hmac_sha1 0x00000007
# define regk_crypto_hmac_sha256 0x00000009
# define regk_crypto_init 0x00000000
# define regk_crypto_key_128 0x00000000
# define regk_crypto_key_192 0x00000001
# define regk_crypto_key_256 0x00000002
# define regk_crypto_null 0x00000000
# define regk_crypto_sha1 0x00000006
# define regk_crypto_sha256 0x00000008
/* DMA descriptor structures */
struct pdma_descr_ctrl {
unsigned char short_descr : 1 ;
unsigned char pad1 : 1 ;
unsigned char eop : 1 ;
unsigned char intr : 1 ;
unsigned char short_len : 3 ;
unsigned char pad2 : 1 ;
} __packed ;
struct pdma_data_descr {
unsigned int len : 24 ;
unsigned int buf : 32 ;
} __packed ;
struct pdma_short_descr {
unsigned char data [ 7 ] ;
} __packed ;
struct pdma_descr {
struct pdma_descr_ctrl ctrl ;
union {
struct pdma_data_descr data ;
struct pdma_short_descr shrt ;
} ;
} ;
struct pdma_stat_descr {
unsigned char pad1 : 1 ;
unsigned char pad2 : 1 ;
unsigned char eop : 1 ;
unsigned char pad3 : 5 ;
unsigned int len : 24 ;
} ;
/* Each descriptor array can hold max 64 entries */
# define PDMA_DESCR_COUNT 64
# define MODULE_NAME "Artpec-6 CA"
/* Hash modes (including HMAC variants) */
# define ARTPEC6_CRYPTO_HASH_SHA1 1
# define ARTPEC6_CRYPTO_HASH_SHA256 2
/* Crypto modes */
# define ARTPEC6_CRYPTO_CIPHER_AES_ECB 1
# define ARTPEC6_CRYPTO_CIPHER_AES_CBC 2
# define ARTPEC6_CRYPTO_CIPHER_AES_CTR 3
# define ARTPEC6_CRYPTO_CIPHER_AES_XTS 5
/* The PDMA is a DMA-engine tightly coupled with a ciphering engine.
* It operates on a descriptor array with up to 64 descriptor entries .
* The arrays must be 64 byte aligned in memory .
*
* The ciphering unit has no registers and is completely controlled by
* a 4 - byte metadata that is inserted at the beginning of each dma packet .
*
* A dma packet is a sequence of descriptors terminated by setting the . eop
* field in the final descriptor of the packet .
*
* Multiple packets are used for providing context data , key data and
* the plain / ciphertext .
*
* PDMA Descriptors ( Array )
* + - - - - - - + - - - - - - + - - - - - - + ~ ~ + - - - - - - - + - - - - - - + - - - -
* | 0 | 1 | 2 | ~ ~ | 11 EOP | 12 | . . . .
* + - - + - - - + - - + - - - + - - - - + - + ~ ~ + - - - - - - - + - - - - + - + - - - -
* | | | | |
* | | | | |
* __ | __ + - - - - - - - + + - - - - - - - + + - - - - - - - + + - - - - +
* | MD | | Payload | | Payload | | Payload | | MD |
* + - - - - - + + - - - - - - - + + - - - - - - - + + - - - - - - - + + - - - - +
*/
struct artpec6_crypto_bounce_buffer {
struct list_head list ;
size_t length ;
struct scatterlist * sg ;
size_t offset ;
/* buf is aligned to ARTPEC_CACHE_LINE_MAX and
* holds up to ARTPEC_CACHE_LINE_MAX bytes data .
*/
void * buf ;
} ;
struct artpec6_crypto_dma_map {
dma_addr_t dma_addr ;
size_t size ;
enum dma_data_direction dir ;
} ;
struct artpec6_crypto_dma_descriptors {
struct pdma_descr out [ PDMA_DESCR_COUNT ] __aligned ( 64 ) ;
struct pdma_descr in [ PDMA_DESCR_COUNT ] __aligned ( 64 ) ;
u32 stat [ PDMA_DESCR_COUNT ] __aligned ( 64 ) ;
struct list_head bounce_buffers ;
/* Enough maps for all out/in buffers, and all three descr. arrays */
struct artpec6_crypto_dma_map maps [ PDMA_DESCR_COUNT * 2 + 2 ] ;
dma_addr_t out_dma_addr ;
dma_addr_t in_dma_addr ;
dma_addr_t stat_dma_addr ;
size_t out_cnt ;
size_t in_cnt ;
size_t map_count ;
} ;
enum artpec6_crypto_variant {
ARTPEC6_CRYPTO ,
ARTPEC7_CRYPTO ,
} ;
struct artpec6_crypto {
void __iomem * base ;
spinlock_t queue_lock ;
struct list_head queue ; /* waiting for pdma fifo space */
struct list_head pending ; /* submitted to pdma fifo */
struct tasklet_struct task ;
struct kmem_cache * dma_cache ;
int pending_count ;
struct timer_list timer ;
enum artpec6_crypto_variant variant ;
void * pad_buffer ; /* cache-aligned block padding buffer */
void * zero_buffer ;
} ;
enum artpec6_crypto_hash_flags {
HASH_FLAG_INIT_CTX = 2 ,
HASH_FLAG_UPDATE = 4 ,
HASH_FLAG_FINALIZE = 8 ,
HASH_FLAG_HMAC = 16 ,
HASH_FLAG_UPDATE_KEY = 32 ,
} ;
struct artpec6_crypto_req_common {
struct list_head list ;
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struct list_head complete_in_progress ;
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struct artpec6_crypto_dma_descriptors * dma ;
struct crypto_async_request * req ;
void ( * complete ) ( struct crypto_async_request * req ) ;
gfp_t gfp_flags ;
} ;
struct artpec6_hash_request_context {
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char partial_buffer [ SHA256_BLOCK_SIZE ] ;
char partial_buffer_out [ SHA256_BLOCK_SIZE ] ;
char key_buffer [ SHA256_BLOCK_SIZE ] ;
char pad_buffer [ SHA256_BLOCK_SIZE + 32 ] ;
unsigned char digeststate [ SHA256_DIGEST_SIZE ] ;
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size_t partial_bytes ;
u64 digcnt ;
u32 key_md ;
u32 hash_md ;
enum artpec6_crypto_hash_flags hash_flags ;
struct artpec6_crypto_req_common common ;
} ;
struct artpec6_hash_export_state {
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char partial_buffer [ SHA256_BLOCK_SIZE ] ;
unsigned char digeststate [ SHA256_DIGEST_SIZE ] ;
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size_t partial_bytes ;
u64 digcnt ;
int oper ;
unsigned int hash_flags ;
} ;
struct artpec6_hashalg_context {
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char hmac_key [ SHA256_BLOCK_SIZE ] ;
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size_t hmac_key_length ;
struct crypto_shash * child_hash ;
} ;
struct artpec6_crypto_request_context {
u32 cipher_md ;
bool decrypt ;
struct artpec6_crypto_req_common common ;
} ;
struct artpec6_cryptotfm_context {
unsigned char aes_key [ 2 * AES_MAX_KEY_SIZE ] ;
size_t key_length ;
u32 key_md ;
int crypto_type ;
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struct crypto_sync_skcipher * fallback ;
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} ;
struct artpec6_crypto_aead_hw_ctx {
__be64 aad_length_bits ;
__be64 text_length_bits ;
__u8 J0 [ AES_BLOCK_SIZE ] ;
} ;
struct artpec6_crypto_aead_req_ctx {
struct artpec6_crypto_aead_hw_ctx hw_ctx ;
u32 cipher_md ;
bool decrypt ;
struct artpec6_crypto_req_common common ;
__u8 decryption_tag [ AES_BLOCK_SIZE ] ____cacheline_aligned ;
} ;
/* The crypto framework makes it hard to avoid this global. */
static struct device * artpec6_crypto_dev ;
# ifdef CONFIG_FAULT_INJECTION
static DECLARE_FAULT_ATTR ( artpec6_crypto_fail_status_read ) ;
static DECLARE_FAULT_ATTR ( artpec6_crypto_fail_dma_array_full ) ;
# endif
enum {
ARTPEC6_CRYPTO_PREPARE_HASH_NO_START ,
ARTPEC6_CRYPTO_PREPARE_HASH_START ,
} ;
static int artpec6_crypto_prepare_aead ( struct aead_request * areq ) ;
static int artpec6_crypto_prepare_crypto ( struct skcipher_request * areq ) ;
static int artpec6_crypto_prepare_hash ( struct ahash_request * areq ) ;
static void
artpec6_crypto_complete_crypto ( struct crypto_async_request * req ) ;
static void
artpec6_crypto_complete_cbc_encrypt ( struct crypto_async_request * req ) ;
static void
artpec6_crypto_complete_cbc_decrypt ( struct crypto_async_request * req ) ;
static void
artpec6_crypto_complete_aead ( struct crypto_async_request * req ) ;
static void
artpec6_crypto_complete_hash ( struct crypto_async_request * req ) ;
static int
artpec6_crypto_common_destroy ( struct artpec6_crypto_req_common * common ) ;
static void
artpec6_crypto_start_dma ( struct artpec6_crypto_req_common * common ) ;
struct artpec6_crypto_walk {
struct scatterlist * sg ;
size_t offset ;
} ;
static void artpec6_crypto_walk_init ( struct artpec6_crypto_walk * awalk ,
struct scatterlist * sg )
{
awalk - > sg = sg ;
awalk - > offset = 0 ;
}
static size_t artpec6_crypto_walk_advance ( struct artpec6_crypto_walk * awalk ,
size_t nbytes )
{
while ( nbytes & & awalk - > sg ) {
size_t piece ;
WARN_ON ( awalk - > offset > awalk - > sg - > length ) ;
piece = min ( nbytes , ( size_t ) awalk - > sg - > length - awalk - > offset ) ;
nbytes - = piece ;
awalk - > offset + = piece ;
if ( awalk - > offset = = awalk - > sg - > length ) {
awalk - > sg = sg_next ( awalk - > sg ) ;
awalk - > offset = 0 ;
}
}
return nbytes ;
}
static size_t
artpec6_crypto_walk_chunklen ( const struct artpec6_crypto_walk * awalk )
{
WARN_ON ( awalk - > sg - > length = = awalk - > offset ) ;
return awalk - > sg - > length - awalk - > offset ;
}
static dma_addr_t
artpec6_crypto_walk_chunk_phys ( const struct artpec6_crypto_walk * awalk )
{
return sg_phys ( awalk - > sg ) + awalk - > offset ;
}
static void
artpec6_crypto_copy_bounce_buffers ( struct artpec6_crypto_req_common * common )
{
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
struct artpec6_crypto_bounce_buffer * b ;
struct artpec6_crypto_bounce_buffer * next ;
list_for_each_entry_safe ( b , next , & dma - > bounce_buffers , list ) {
pr_debug ( " bounce entry %p: %zu bytes @ %zu from %p \n " ,
b , b - > length , b - > offset , b - > buf ) ;
sg_pcopy_from_buffer ( b - > sg ,
1 ,
b - > buf ,
b - > length ,
b - > offset ) ;
list_del ( & b - > list ) ;
kfree ( b ) ;
}
}
static inline bool artpec6_crypto_busy ( void )
{
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
int fifo_count = ac - > pending_count ;
return fifo_count > 6 ;
}
static int artpec6_crypto_submit ( struct artpec6_crypto_req_common * req )
{
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
int ret = - EBUSY ;
spin_lock_bh ( & ac - > queue_lock ) ;
if ( ! artpec6_crypto_busy ( ) ) {
list_add_tail ( & req - > list , & ac - > pending ) ;
artpec6_crypto_start_dma ( req ) ;
ret = - EINPROGRESS ;
} else if ( req - > req - > flags & CRYPTO_TFM_REQ_MAY_BACKLOG ) {
list_add_tail ( & req - > list , & ac - > queue ) ;
} else {
artpec6_crypto_common_destroy ( req ) ;
}
spin_unlock_bh ( & ac - > queue_lock ) ;
return ret ;
}
static void artpec6_crypto_start_dma ( struct artpec6_crypto_req_common * common )
{
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
enum artpec6_crypto_variant variant = ac - > variant ;
void __iomem * base = ac - > base ;
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
u32 ind , statd , outd ;
/* Make descriptor content visible to the DMA before starting it. */
wmb ( ) ;
ind = FIELD_PREP ( PDMA_IN_DESCRQ_PUSH_LEN , dma - > in_cnt - 1 ) |
FIELD_PREP ( PDMA_IN_DESCRQ_PUSH_ADDR , dma - > in_dma_addr > > 6 ) ;
statd = FIELD_PREP ( PDMA_IN_STATQ_PUSH_LEN , dma - > in_cnt - 1 ) |
FIELD_PREP ( PDMA_IN_STATQ_PUSH_ADDR , dma - > stat_dma_addr > > 6 ) ;
outd = FIELD_PREP ( PDMA_OUT_DESCRQ_PUSH_LEN , dma - > out_cnt - 1 ) |
FIELD_PREP ( PDMA_OUT_DESCRQ_PUSH_ADDR , dma - > out_dma_addr > > 6 ) ;
if ( variant = = ARTPEC6_CRYPTO ) {
writel_relaxed ( ind , base + A6_PDMA_IN_DESCRQ_PUSH ) ;
writel_relaxed ( statd , base + A6_PDMA_IN_STATQ_PUSH ) ;
writel_relaxed ( PDMA_IN_CMD_START , base + A6_PDMA_IN_CMD ) ;
} else {
writel_relaxed ( ind , base + A7_PDMA_IN_DESCRQ_PUSH ) ;
writel_relaxed ( statd , base + A7_PDMA_IN_STATQ_PUSH ) ;
writel_relaxed ( PDMA_IN_CMD_START , base + A7_PDMA_IN_CMD ) ;
}
writel_relaxed ( outd , base + PDMA_OUT_DESCRQ_PUSH ) ;
writel_relaxed ( PDMA_OUT_CMD_START , base + PDMA_OUT_CMD ) ;
ac - > pending_count + + ;
}
static void
artpec6_crypto_init_dma_operation ( struct artpec6_crypto_req_common * common )
{
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
dma - > out_cnt = 0 ;
dma - > in_cnt = 0 ;
dma - > map_count = 0 ;
INIT_LIST_HEAD ( & dma - > bounce_buffers ) ;
}
static bool fault_inject_dma_descr ( void )
{
# ifdef CONFIG_FAULT_INJECTION
return should_fail ( & artpec6_crypto_fail_dma_array_full , 1 ) ;
# else
return false ;
# endif
}
/** artpec6_crypto_setup_out_descr_phys - Setup an out channel with a
* physical address
*
* @ addr : The physical address of the data buffer
* @ len : The length of the data buffer
* @ eop : True if this is the last buffer in the packet
*
* @ return 0 on success or - ENOSPC if there are no more descriptors available
*/
static int
artpec6_crypto_setup_out_descr_phys ( struct artpec6_crypto_req_common * common ,
dma_addr_t addr , size_t len , bool eop )
{
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
struct pdma_descr * d ;
if ( dma - > out_cnt > = PDMA_DESCR_COUNT | |
fault_inject_dma_descr ( ) ) {
pr_err ( " No free OUT DMA descriptors available! \n " ) ;
return - ENOSPC ;
}
d = & dma - > out [ dma - > out_cnt + + ] ;
memset ( d , 0 , sizeof ( * d ) ) ;
d - > ctrl . short_descr = 0 ;
d - > ctrl . eop = eop ;
d - > data . len = len ;
d - > data . buf = addr ;
return 0 ;
}
/** artpec6_crypto_setup_out_descr_short - Setup a short out descriptor
*
* @ dst : The virtual address of the data
* @ len : The length of the data , must be between 1 to 7 bytes
* @ eop : True if this is the last buffer in the packet
*
* @ return 0 on success
* - ENOSPC if no more descriptors are available
* - EINVAL if the data length exceeds 7 bytes
*/
static int
artpec6_crypto_setup_out_descr_short ( struct artpec6_crypto_req_common * common ,
void * dst , unsigned int len , bool eop )
{
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
struct pdma_descr * d ;
if ( dma - > out_cnt > = PDMA_DESCR_COUNT | |
fault_inject_dma_descr ( ) ) {
pr_err ( " No free OUT DMA descriptors available! \n " ) ;
return - ENOSPC ;
} else if ( len > 7 | | len < 1 ) {
return - EINVAL ;
}
d = & dma - > out [ dma - > out_cnt + + ] ;
memset ( d , 0 , sizeof ( * d ) ) ;
d - > ctrl . short_descr = 1 ;
d - > ctrl . short_len = len ;
d - > ctrl . eop = eop ;
memcpy ( d - > shrt . data , dst , len ) ;
return 0 ;
}
static int artpec6_crypto_dma_map_page ( struct artpec6_crypto_req_common * common ,
struct page * page , size_t offset ,
size_t size ,
enum dma_data_direction dir ,
dma_addr_t * dma_addr_out )
{
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
struct device * dev = artpec6_crypto_dev ;
struct artpec6_crypto_dma_map * map ;
dma_addr_t dma_addr ;
* dma_addr_out = 0 ;
if ( dma - > map_count > = ARRAY_SIZE ( dma - > maps ) )
return - ENOMEM ;
dma_addr = dma_map_page ( dev , page , offset , size , dir ) ;
if ( dma_mapping_error ( dev , dma_addr ) )
return - ENOMEM ;
map = & dma - > maps [ dma - > map_count + + ] ;
map - > size = size ;
map - > dma_addr = dma_addr ;
map - > dir = dir ;
* dma_addr_out = dma_addr ;
return 0 ;
}
static int
artpec6_crypto_dma_map_single ( struct artpec6_crypto_req_common * common ,
void * ptr , size_t size ,
enum dma_data_direction dir ,
dma_addr_t * dma_addr_out )
{
struct page * page = virt_to_page ( ptr ) ;
size_t offset = ( uintptr_t ) ptr & ~ PAGE_MASK ;
return artpec6_crypto_dma_map_page ( common , page , offset , size , dir ,
dma_addr_out ) ;
}
static int
artpec6_crypto_dma_map_descs ( struct artpec6_crypto_req_common * common )
{
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
int ret ;
ret = artpec6_crypto_dma_map_single ( common , dma - > in ,
sizeof ( dma - > in [ 0 ] ) * dma - > in_cnt ,
DMA_TO_DEVICE , & dma - > in_dma_addr ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_dma_map_single ( common , dma - > out ,
sizeof ( dma - > out [ 0 ] ) * dma - > out_cnt ,
DMA_TO_DEVICE , & dma - > out_dma_addr ) ;
if ( ret )
return ret ;
/* We only read one stat descriptor */
dma - > stat [ dma - > in_cnt - 1 ] = 0 ;
/*
* DMA_BIDIRECTIONAL since we need our zeroing of the stat descriptor
* to be written .
*/
return artpec6_crypto_dma_map_single ( common ,
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dma - > stat ,
sizeof ( dma - > stat [ 0 ] ) * dma - > in_cnt ,
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DMA_BIDIRECTIONAL ,
& dma - > stat_dma_addr ) ;
}
static void
artpec6_crypto_dma_unmap_all ( struct artpec6_crypto_req_common * common )
{
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
struct device * dev = artpec6_crypto_dev ;
int i ;
for ( i = 0 ; i < dma - > map_count ; i + + ) {
struct artpec6_crypto_dma_map * map = & dma - > maps [ i ] ;
dma_unmap_page ( dev , map - > dma_addr , map - > size , map - > dir ) ;
}
dma - > map_count = 0 ;
}
/** artpec6_crypto_setup_out_descr - Setup an out descriptor
*
* @ dst : The virtual address of the data
* @ len : The length of the data
* @ eop : True if this is the last buffer in the packet
* @ use_short : If this is true and the data length is 7 bytes or less then
* a short descriptor will be used
*
* @ return 0 on success
* Any errors from artpec6_crypto_setup_out_descr_short ( ) or
* setup_out_descr_phys ( )
*/
static int
artpec6_crypto_setup_out_descr ( struct artpec6_crypto_req_common * common ,
void * dst , unsigned int len , bool eop ,
bool use_short )
{
if ( use_short & & len < 7 ) {
return artpec6_crypto_setup_out_descr_short ( common , dst , len ,
eop ) ;
} else {
int ret ;
dma_addr_t dma_addr ;
ret = artpec6_crypto_dma_map_single ( common , dst , len ,
DMA_TO_DEVICE ,
& dma_addr ) ;
if ( ret )
return ret ;
return artpec6_crypto_setup_out_descr_phys ( common , dma_addr ,
len , eop ) ;
}
}
/** artpec6_crypto_setup_in_descr_phys - Setup an in channel with a
* physical address
*
* @ addr : The physical address of the data buffer
* @ len : The length of the data buffer
* @ intr : True if an interrupt should be fired after HW processing of this
* descriptor
*
*/
static int
artpec6_crypto_setup_in_descr_phys ( struct artpec6_crypto_req_common * common ,
dma_addr_t addr , unsigned int len , bool intr )
{
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
struct pdma_descr * d ;
if ( dma - > in_cnt > = PDMA_DESCR_COUNT | |
fault_inject_dma_descr ( ) ) {
pr_err ( " No free IN DMA descriptors available! \n " ) ;
return - ENOSPC ;
}
d = & dma - > in [ dma - > in_cnt + + ] ;
memset ( d , 0 , sizeof ( * d ) ) ;
d - > ctrl . intr = intr ;
d - > data . len = len ;
d - > data . buf = addr ;
return 0 ;
}
/** artpec6_crypto_setup_in_descr - Setup an in channel descriptor
*
* @ buffer : The virtual address to of the data buffer
* @ len : The length of the data buffer
* @ last : If this is the last data buffer in the request ( i . e . an interrupt
* is needed
*
* Short descriptors are not used for the in channel
*/
static int
artpec6_crypto_setup_in_descr ( struct artpec6_crypto_req_common * common ,
void * buffer , unsigned int len , bool last )
{
dma_addr_t dma_addr ;
int ret ;
ret = artpec6_crypto_dma_map_single ( common , buffer , len ,
DMA_FROM_DEVICE , & dma_addr ) ;
if ( ret )
return ret ;
return artpec6_crypto_setup_in_descr_phys ( common , dma_addr , len , last ) ;
}
static struct artpec6_crypto_bounce_buffer *
artpec6_crypto_alloc_bounce ( gfp_t flags )
{
void * base ;
size_t alloc_size = sizeof ( struct artpec6_crypto_bounce_buffer ) +
2 * ARTPEC_CACHE_LINE_MAX ;
struct artpec6_crypto_bounce_buffer * bbuf = kzalloc ( alloc_size , flags ) ;
if ( ! bbuf )
return NULL ;
base = bbuf + 1 ;
bbuf - > buf = PTR_ALIGN ( base , ARTPEC_CACHE_LINE_MAX ) ;
return bbuf ;
}
static int setup_bounce_buffer_in ( struct artpec6_crypto_req_common * common ,
struct artpec6_crypto_walk * walk , size_t size )
{
struct artpec6_crypto_bounce_buffer * bbuf ;
int ret ;
bbuf = artpec6_crypto_alloc_bounce ( common - > gfp_flags ) ;
if ( ! bbuf )
return - ENOMEM ;
bbuf - > length = size ;
bbuf - > sg = walk - > sg ;
bbuf - > offset = walk - > offset ;
ret = artpec6_crypto_setup_in_descr ( common , bbuf - > buf , size , false ) ;
if ( ret ) {
kfree ( bbuf ) ;
return ret ;
}
pr_debug ( " BOUNCE %zu offset %zu \n " , size , walk - > offset ) ;
list_add_tail ( & bbuf - > list , & common - > dma - > bounce_buffers ) ;
return 0 ;
}
static int
artpec6_crypto_setup_sg_descrs_in ( struct artpec6_crypto_req_common * common ,
struct artpec6_crypto_walk * walk ,
size_t count )
{
size_t chunk ;
int ret ;
dma_addr_t addr ;
while ( walk - > sg & & count ) {
chunk = min ( count , artpec6_crypto_walk_chunklen ( walk ) ) ;
addr = artpec6_crypto_walk_chunk_phys ( walk ) ;
/* When destination buffers are not aligned to the cache line
* size we need bounce buffers . The DMA - API requires that the
* entire line is owned by the DMA buffer and this holds also
* for the case when coherent DMA is used .
*/
if ( ! IS_ALIGNED ( addr , ARTPEC_CACHE_LINE_MAX ) ) {
chunk = min_t ( dma_addr_t , chunk ,
ALIGN ( addr , ARTPEC_CACHE_LINE_MAX ) -
addr ) ;
pr_debug ( " CHUNK-b %pad:%zu \n " , & addr , chunk ) ;
ret = setup_bounce_buffer_in ( common , walk , chunk ) ;
} else if ( chunk < ARTPEC_CACHE_LINE_MAX ) {
pr_debug ( " CHUNK-b %pad:%zu \n " , & addr , chunk ) ;
ret = setup_bounce_buffer_in ( common , walk , chunk ) ;
} else {
dma_addr_t dma_addr ;
chunk = chunk & ~ ( ARTPEC_CACHE_LINE_MAX - 1 ) ;
pr_debug ( " CHUNK %pad:%zu \n " , & addr , chunk ) ;
ret = artpec6_crypto_dma_map_page ( common ,
sg_page ( walk - > sg ) ,
walk - > sg - > offset +
walk - > offset ,
chunk ,
DMA_FROM_DEVICE ,
& dma_addr ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_setup_in_descr_phys ( common ,
dma_addr ,
chunk , false ) ;
}
if ( ret )
return ret ;
count = count - chunk ;
artpec6_crypto_walk_advance ( walk , chunk ) ;
}
if ( count )
pr_err ( " EOL unexpected %zu bytes left \n " , count ) ;
return count ? - EINVAL : 0 ;
}
static int
artpec6_crypto_setup_sg_descrs_out ( struct artpec6_crypto_req_common * common ,
struct artpec6_crypto_walk * walk ,
size_t count )
{
size_t chunk ;
int ret ;
dma_addr_t addr ;
while ( walk - > sg & & count ) {
chunk = min ( count , artpec6_crypto_walk_chunklen ( walk ) ) ;
addr = artpec6_crypto_walk_chunk_phys ( walk ) ;
pr_debug ( " OUT-CHUNK %pad:%zu \n " , & addr , chunk ) ;
if ( addr & 3 ) {
char buf [ 3 ] ;
chunk = min_t ( size_t , chunk , ( 4 - ( addr & 3 ) ) ) ;
sg_pcopy_to_buffer ( walk - > sg , 1 , buf , chunk ,
walk - > offset ) ;
ret = artpec6_crypto_setup_out_descr_short ( common , buf ,
chunk ,
false ) ;
} else {
dma_addr_t dma_addr ;
ret = artpec6_crypto_dma_map_page ( common ,
sg_page ( walk - > sg ) ,
walk - > sg - > offset +
walk - > offset ,
chunk ,
DMA_TO_DEVICE ,
& dma_addr ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_setup_out_descr_phys ( common ,
dma_addr ,
chunk , false ) ;
}
if ( ret )
return ret ;
count = count - chunk ;
artpec6_crypto_walk_advance ( walk , chunk ) ;
}
if ( count )
pr_err ( " EOL unexpected %zu bytes left \n " , count ) ;
return count ? - EINVAL : 0 ;
}
/** artpec6_crypto_terminate_out_descrs - Set the EOP on the last out descriptor
*
* If the out descriptor list is non - empty , then the eop flag on the
* last used out descriptor will be set .
*
* @ return 0 on success
* - EINVAL if the out descriptor is empty or has overflown
*/
static int
artpec6_crypto_terminate_out_descrs ( struct artpec6_crypto_req_common * common )
{
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
struct pdma_descr * d ;
if ( ! dma - > out_cnt | | dma - > out_cnt > PDMA_DESCR_COUNT ) {
pr_err ( " %s: OUT descriptor list is %s \n " ,
MODULE_NAME , dma - > out_cnt ? " empty " : " full " ) ;
return - EINVAL ;
}
d = & dma - > out [ dma - > out_cnt - 1 ] ;
d - > ctrl . eop = 1 ;
return 0 ;
}
/** artpec6_crypto_terminate_in_descrs - Set the interrupt flag on the last
* in descriptor
*
* See artpec6_crypto_terminate_out_descrs ( ) for return values
*/
static int
artpec6_crypto_terminate_in_descrs ( struct artpec6_crypto_req_common * common )
{
struct artpec6_crypto_dma_descriptors * dma = common - > dma ;
struct pdma_descr * d ;
if ( ! dma - > in_cnt | | dma - > in_cnt > PDMA_DESCR_COUNT ) {
pr_err ( " %s: IN descriptor list is %s \n " ,
MODULE_NAME , dma - > in_cnt ? " empty " : " full " ) ;
return - EINVAL ;
}
d = & dma - > in [ dma - > in_cnt - 1 ] ;
d - > ctrl . intr = 1 ;
return 0 ;
}
/** create_hash_pad - Create a Secure Hash conformant pad
*
* @ dst : The destination buffer to write the pad . Must be at least 64 bytes
* @ dgstlen : The total length of the hash digest in bytes
* @ bitcount : The total length of the digest in bits
*
* @ return The total number of padding bytes written to @ dst
*/
static size_t
create_hash_pad ( int oper , unsigned char * dst , u64 dgstlen , u64 bitcount )
{
unsigned int mod , target , diff , pad_bytes , size_bytes ;
__be64 bits = __cpu_to_be64 ( bitcount ) ;
switch ( oper ) {
case regk_crypto_sha1 :
case regk_crypto_sha256 :
case regk_crypto_hmac_sha1 :
case regk_crypto_hmac_sha256 :
target = 448 / 8 ;
mod = 512 / 8 ;
size_bytes = 8 ;
break ;
default :
target = 896 / 8 ;
mod = 1024 / 8 ;
size_bytes = 16 ;
break ;
}
target - = 1 ;
diff = dgstlen & ( mod - 1 ) ;
pad_bytes = diff > target ? target + mod - diff : target - diff ;
memset ( dst + 1 , 0 , pad_bytes ) ;
dst [ 0 ] = 0x80 ;
if ( size_bytes = = 16 ) {
memset ( dst + 1 + pad_bytes , 0 , 8 ) ;
memcpy ( dst + 1 + pad_bytes + 8 , & bits , 8 ) ;
} else {
memcpy ( dst + 1 + pad_bytes , & bits , 8 ) ;
}
return pad_bytes + size_bytes + 1 ;
}
static int artpec6_crypto_common_init ( struct artpec6_crypto_req_common * common ,
struct crypto_async_request * parent ,
void ( * complete ) ( struct crypto_async_request * req ) ,
struct scatterlist * dstsg , unsigned int nbytes )
{
gfp_t flags ;
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
flags = ( parent - > flags & CRYPTO_TFM_REQ_MAY_SLEEP ) ?
GFP_KERNEL : GFP_ATOMIC ;
common - > gfp_flags = flags ;
common - > dma = kmem_cache_alloc ( ac - > dma_cache , flags ) ;
if ( ! common - > dma )
return - ENOMEM ;
common - > req = parent ;
common - > complete = complete ;
return 0 ;
}
static void
artpec6_crypto_bounce_destroy ( struct artpec6_crypto_dma_descriptors * dma )
{
struct artpec6_crypto_bounce_buffer * b ;
struct artpec6_crypto_bounce_buffer * next ;
list_for_each_entry_safe ( b , next , & dma - > bounce_buffers , list ) {
kfree ( b ) ;
}
}
static int
artpec6_crypto_common_destroy ( struct artpec6_crypto_req_common * common )
{
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
artpec6_crypto_dma_unmap_all ( common ) ;
artpec6_crypto_bounce_destroy ( common - > dma ) ;
kmem_cache_free ( ac - > dma_cache , common - > dma ) ;
common - > dma = NULL ;
return 0 ;
}
/*
* Ciphering functions .
*/
static int artpec6_crypto_encrypt ( struct skcipher_request * req )
{
struct crypto_skcipher * cipher = crypto_skcipher_reqtfm ( req ) ;
struct artpec6_cryptotfm_context * ctx = crypto_skcipher_ctx ( cipher ) ;
struct artpec6_crypto_request_context * req_ctx = NULL ;
void ( * complete ) ( struct crypto_async_request * req ) ;
int ret ;
req_ctx = skcipher_request_ctx ( req ) ;
switch ( ctx - > crypto_type ) {
case ARTPEC6_CRYPTO_CIPHER_AES_CBC :
case ARTPEC6_CRYPTO_CIPHER_AES_ECB :
case ARTPEC6_CRYPTO_CIPHER_AES_XTS :
req_ctx - > decrypt = 0 ;
break ;
default :
break ;
}
switch ( ctx - > crypto_type ) {
case ARTPEC6_CRYPTO_CIPHER_AES_CBC :
complete = artpec6_crypto_complete_cbc_encrypt ;
break ;
default :
complete = artpec6_crypto_complete_crypto ;
break ;
}
ret = artpec6_crypto_common_init ( & req_ctx - > common ,
& req - > base ,
complete ,
req - > dst , req - > cryptlen ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_prepare_crypto ( req ) ;
if ( ret ) {
artpec6_crypto_common_destroy ( & req_ctx - > common ) ;
return ret ;
}
return artpec6_crypto_submit ( & req_ctx - > common ) ;
}
static int artpec6_crypto_decrypt ( struct skcipher_request * req )
{
int ret ;
struct crypto_skcipher * cipher = crypto_skcipher_reqtfm ( req ) ;
struct artpec6_cryptotfm_context * ctx = crypto_skcipher_ctx ( cipher ) ;
struct artpec6_crypto_request_context * req_ctx = NULL ;
void ( * complete ) ( struct crypto_async_request * req ) ;
req_ctx = skcipher_request_ctx ( req ) ;
switch ( ctx - > crypto_type ) {
case ARTPEC6_CRYPTO_CIPHER_AES_CBC :
case ARTPEC6_CRYPTO_CIPHER_AES_ECB :
case ARTPEC6_CRYPTO_CIPHER_AES_XTS :
req_ctx - > decrypt = 1 ;
break ;
default :
break ;
}
switch ( ctx - > crypto_type ) {
case ARTPEC6_CRYPTO_CIPHER_AES_CBC :
complete = artpec6_crypto_complete_cbc_decrypt ;
break ;
default :
complete = artpec6_crypto_complete_crypto ;
break ;
}
ret = artpec6_crypto_common_init ( & req_ctx - > common , & req - > base ,
complete ,
req - > dst , req - > cryptlen ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_prepare_crypto ( req ) ;
if ( ret ) {
artpec6_crypto_common_destroy ( & req_ctx - > common ) ;
return ret ;
}
return artpec6_crypto_submit ( & req_ctx - > common ) ;
}
static int
artpec6_crypto_ctr_crypt ( struct skcipher_request * req , bool encrypt )
{
struct crypto_skcipher * cipher = crypto_skcipher_reqtfm ( req ) ;
struct artpec6_cryptotfm_context * ctx = crypto_skcipher_ctx ( cipher ) ;
size_t iv_len = crypto_skcipher_ivsize ( cipher ) ;
unsigned int counter = be32_to_cpup ( ( __be32 * )
( req - > iv + iv_len - 4 ) ) ;
unsigned int nblks = ALIGN ( req - > cryptlen , AES_BLOCK_SIZE ) /
AES_BLOCK_SIZE ;
/*
* The hardware uses only the last 32 - bits as the counter while the
* kernel tests ( aes_ctr_enc_tv_template [ 4 ] for example ) expect that
* the whole IV is a counter . So fallback if the counter is going to
* overlow .
*/
if ( counter + nblks < counter ) {
int ret ;
pr_debug ( " counter %x will overflow (nblks %u), falling back \n " ,
counter , counter + nblks ) ;
2018-09-19 05:10:55 +03:00
ret = crypto_sync_skcipher_setkey ( ctx - > fallback , ctx - > aes_key ,
ctx - > key_length ) ;
2017-08-10 15:53:53 +03:00
if ( ret )
return ret ;
{
2018-09-19 05:10:55 +03:00
SYNC_SKCIPHER_REQUEST_ON_STACK ( subreq , ctx - > fallback ) ;
2017-08-10 15:53:53 +03:00
2018-09-19 05:10:55 +03:00
skcipher_request_set_sync_tfm ( subreq , ctx - > fallback ) ;
2017-08-10 15:53:53 +03:00
skcipher_request_set_callback ( subreq , req - > base . flags ,
NULL , NULL ) ;
skcipher_request_set_crypt ( subreq , req - > src , req - > dst ,
req - > cryptlen , req - > iv ) ;
ret = encrypt ? crypto_skcipher_encrypt ( subreq )
: crypto_skcipher_decrypt ( subreq ) ;
skcipher_request_zero ( subreq ) ;
}
return ret ;
}
return encrypt ? artpec6_crypto_encrypt ( req )
: artpec6_crypto_decrypt ( req ) ;
}
static int artpec6_crypto_ctr_encrypt ( struct skcipher_request * req )
{
return artpec6_crypto_ctr_crypt ( req , true ) ;
}
static int artpec6_crypto_ctr_decrypt ( struct skcipher_request * req )
{
return artpec6_crypto_ctr_crypt ( req , false ) ;
}
/*
* AEAD functions
*/
static int artpec6_crypto_aead_init ( struct crypto_aead * tfm )
{
struct artpec6_cryptotfm_context * tfm_ctx = crypto_aead_ctx ( tfm ) ;
memset ( tfm_ctx , 0 , sizeof ( * tfm_ctx ) ) ;
crypto_aead_set_reqsize ( tfm ,
sizeof ( struct artpec6_crypto_aead_req_ctx ) ) ;
return 0 ;
}
static int artpec6_crypto_aead_set_key ( struct crypto_aead * tfm , const u8 * key ,
unsigned int len )
{
struct artpec6_cryptotfm_context * ctx = crypto_tfm_ctx ( & tfm - > base ) ;
crypto: remove CRYPTO_TFM_RES_BAD_KEY_LEN
The CRYPTO_TFM_RES_BAD_KEY_LEN flag was apparently meant as a way to
make the ->setkey() functions provide more information about errors.
However, no one actually checks for this flag, which makes it pointless.
Also, many algorithms fail to set this flag when given a bad length key.
Reviewing just the generic implementations, this is the case for
aes-fixed-time, cbcmac, echainiv, nhpoly1305, pcrypt, rfc3686, rfc4309,
rfc7539, rfc7539esp, salsa20, seqiv, and xcbc. But there are probably
many more in arch/*/crypto/ and drivers/crypto/.
Some algorithms can even set this flag when the key is the correct
length. For example, authenc and authencesn set it when the key payload
is malformed in any way (not just a bad length), the atmel-sha and ccree
drivers can set it if a memory allocation fails, and the chelsio driver
sets it for bad auth tag lengths, not just bad key lengths.
So even if someone actually wanted to start checking this flag (which
seems unlikely, since it's been unused for a long time), there would be
a lot of work needed to get it working correctly. But it would probably
be much better to go back to the drawing board and just define different
return values, like -EINVAL if the key is invalid for the algorithm vs.
-EKEYREJECTED if the key was rejected by a policy like "no weak keys".
That would be much simpler, less error-prone, and easier to test.
So just remove this flag.
Signed-off-by: Eric Biggers <ebiggers@google.com>
Reviewed-by: Horia Geantă <horia.geanta@nxp.com>
Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
2019-12-31 06:19:36 +03:00
if ( len ! = 16 & & len ! = 24 & & len ! = 32 )
2019-12-31 06:19:32 +03:00
return - EINVAL ;
2017-08-10 15:53:53 +03:00
ctx - > key_length = len ;
memcpy ( ctx - > aes_key , key , len ) ;
return 0 ;
}
static int artpec6_crypto_aead_encrypt ( struct aead_request * req )
{
int ret ;
struct artpec6_crypto_aead_req_ctx * req_ctx = aead_request_ctx ( req ) ;
req_ctx - > decrypt = false ;
ret = artpec6_crypto_common_init ( & req_ctx - > common , & req - > base ,
artpec6_crypto_complete_aead ,
NULL , 0 ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_prepare_aead ( req ) ;
if ( ret ) {
artpec6_crypto_common_destroy ( & req_ctx - > common ) ;
return ret ;
}
return artpec6_crypto_submit ( & req_ctx - > common ) ;
}
static int artpec6_crypto_aead_decrypt ( struct aead_request * req )
{
int ret ;
struct artpec6_crypto_aead_req_ctx * req_ctx = aead_request_ctx ( req ) ;
req_ctx - > decrypt = true ;
if ( req - > cryptlen < AES_BLOCK_SIZE )
return - EINVAL ;
ret = artpec6_crypto_common_init ( & req_ctx - > common ,
& req - > base ,
artpec6_crypto_complete_aead ,
NULL , 0 ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_prepare_aead ( req ) ;
if ( ret ) {
artpec6_crypto_common_destroy ( & req_ctx - > common ) ;
return ret ;
}
return artpec6_crypto_submit ( & req_ctx - > common ) ;
}
static int artpec6_crypto_prepare_hash ( struct ahash_request * areq )
{
struct artpec6_hashalg_context * ctx = crypto_tfm_ctx ( areq - > base . tfm ) ;
struct artpec6_hash_request_context * req_ctx = ahash_request_ctx ( areq ) ;
size_t digestsize = crypto_ahash_digestsize ( crypto_ahash_reqtfm ( areq ) ) ;
2019-01-23 14:59:40 +03:00
size_t contextsize = digestsize ;
2017-08-10 15:53:53 +03:00
size_t blocksize = crypto_tfm_alg_blocksize (
crypto_ahash_tfm ( crypto_ahash_reqtfm ( areq ) ) ) ;
struct artpec6_crypto_req_common * common = & req_ctx - > common ;
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
enum artpec6_crypto_variant variant = ac - > variant ;
u32 sel_ctx ;
bool ext_ctx = false ;
bool run_hw = false ;
int error = 0 ;
artpec6_crypto_init_dma_operation ( common ) ;
/* Upload HMAC key, must be first the first packet */
if ( req_ctx - > hash_flags & HASH_FLAG_HMAC ) {
if ( variant = = ARTPEC6_CRYPTO ) {
req_ctx - > key_md = FIELD_PREP ( A6_CRY_MD_OPER ,
a6_regk_crypto_dlkey ) ;
} else {
req_ctx - > key_md = FIELD_PREP ( A7_CRY_MD_OPER ,
a7_regk_crypto_dlkey ) ;
}
/* Copy and pad up the key */
memcpy ( req_ctx - > key_buffer , ctx - > hmac_key ,
ctx - > hmac_key_length ) ;
memset ( req_ctx - > key_buffer + ctx - > hmac_key_length , 0 ,
blocksize - ctx - > hmac_key_length ) ;
error = artpec6_crypto_setup_out_descr ( common ,
( void * ) & req_ctx - > key_md ,
sizeof ( req_ctx - > key_md ) , false , false ) ;
if ( error )
return error ;
error = artpec6_crypto_setup_out_descr ( common ,
req_ctx - > key_buffer , blocksize ,
true , false ) ;
if ( error )
return error ;
}
if ( ! ( req_ctx - > hash_flags & HASH_FLAG_INIT_CTX ) ) {
/* Restore context */
sel_ctx = regk_crypto_ext ;
ext_ctx = true ;
} else {
sel_ctx = regk_crypto_init ;
}
if ( variant = = ARTPEC6_CRYPTO ) {
req_ctx - > hash_md & = ~ A6_CRY_MD_HASH_SEL_CTX ;
req_ctx - > hash_md | = FIELD_PREP ( A6_CRY_MD_HASH_SEL_CTX , sel_ctx ) ;
/* If this is the final round, set the final flag */
if ( req_ctx - > hash_flags & HASH_FLAG_FINALIZE )
req_ctx - > hash_md | = A6_CRY_MD_HASH_HMAC_FIN ;
} else {
req_ctx - > hash_md & = ~ A7_CRY_MD_HASH_SEL_CTX ;
req_ctx - > hash_md | = FIELD_PREP ( A7_CRY_MD_HASH_SEL_CTX , sel_ctx ) ;
/* If this is the final round, set the final flag */
if ( req_ctx - > hash_flags & HASH_FLAG_FINALIZE )
req_ctx - > hash_md | = A7_CRY_MD_HASH_HMAC_FIN ;
}
/* Setup up metadata descriptors */
error = artpec6_crypto_setup_out_descr ( common ,
( void * ) & req_ctx - > hash_md ,
sizeof ( req_ctx - > hash_md ) , false , false ) ;
if ( error )
return error ;
error = artpec6_crypto_setup_in_descr ( common , ac - > pad_buffer , 4 , false ) ;
if ( error )
return error ;
if ( ext_ctx ) {
error = artpec6_crypto_setup_out_descr ( common ,
req_ctx - > digeststate ,
contextsize , false , false ) ;
if ( error )
return error ;
}
if ( req_ctx - > hash_flags & HASH_FLAG_UPDATE ) {
size_t done_bytes = 0 ;
size_t total_bytes = areq - > nbytes + req_ctx - > partial_bytes ;
size_t ready_bytes = round_down ( total_bytes , blocksize ) ;
struct artpec6_crypto_walk walk ;
run_hw = ready_bytes > 0 ;
if ( req_ctx - > partial_bytes & & ready_bytes ) {
/* We have a partial buffer and will at least some bytes
* to the HW . Empty this partial buffer before tackling
* the SG lists
*/
memcpy ( req_ctx - > partial_buffer_out ,
req_ctx - > partial_buffer ,
req_ctx - > partial_bytes ) ;
error = artpec6_crypto_setup_out_descr ( common ,
req_ctx - > partial_buffer_out ,
req_ctx - > partial_bytes ,
false , true ) ;
if ( error )
return error ;
/* Reset partial buffer */
done_bytes + = req_ctx - > partial_bytes ;
req_ctx - > partial_bytes = 0 ;
}
artpec6_crypto_walk_init ( & walk , areq - > src ) ;
error = artpec6_crypto_setup_sg_descrs_out ( common , & walk ,
ready_bytes -
done_bytes ) ;
if ( error )
return error ;
if ( walk . sg ) {
size_t sg_skip = ready_bytes - done_bytes ;
size_t sg_rem = areq - > nbytes - sg_skip ;
sg_pcopy_to_buffer ( areq - > src , sg_nents ( areq - > src ) ,
req_ctx - > partial_buffer +
req_ctx - > partial_bytes ,
sg_rem , sg_skip ) ;
req_ctx - > partial_bytes + = sg_rem ;
}
req_ctx - > digcnt + = ready_bytes ;
req_ctx - > hash_flags & = ~ ( HASH_FLAG_UPDATE ) ;
}
/* Finalize */
if ( req_ctx - > hash_flags & HASH_FLAG_FINALIZE ) {
size_t hash_pad_len ;
u64 digest_bits ;
u32 oper ;
if ( variant = = ARTPEC6_CRYPTO )
oper = FIELD_GET ( A6_CRY_MD_OPER , req_ctx - > hash_md ) ;
else
oper = FIELD_GET ( A7_CRY_MD_OPER , req_ctx - > hash_md ) ;
/* Write out the partial buffer if present */
if ( req_ctx - > partial_bytes ) {
memcpy ( req_ctx - > partial_buffer_out ,
req_ctx - > partial_buffer ,
req_ctx - > partial_bytes ) ;
error = artpec6_crypto_setup_out_descr ( common ,
req_ctx - > partial_buffer_out ,
req_ctx - > partial_bytes ,
false , true ) ;
if ( error )
return error ;
req_ctx - > digcnt + = req_ctx - > partial_bytes ;
req_ctx - > partial_bytes = 0 ;
}
if ( req_ctx - > hash_flags & HASH_FLAG_HMAC )
digest_bits = 8 * ( req_ctx - > digcnt + blocksize ) ;
else
digest_bits = 8 * req_ctx - > digcnt ;
/* Add the hash pad */
hash_pad_len = create_hash_pad ( oper , req_ctx - > pad_buffer ,
req_ctx - > digcnt , digest_bits ) ;
error = artpec6_crypto_setup_out_descr ( common ,
req_ctx - > pad_buffer ,
hash_pad_len , false ,
true ) ;
req_ctx - > digcnt = 0 ;
if ( error )
return error ;
/* Descriptor for the final result */
error = artpec6_crypto_setup_in_descr ( common , areq - > result ,
digestsize ,
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true ) ;
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if ( error )
return error ;
} else { /* This is not the final operation for this request */
if ( ! run_hw )
return ARTPEC6_CRYPTO_PREPARE_HASH_NO_START ;
/* Save the result to the context */
error = artpec6_crypto_setup_in_descr ( common ,
req_ctx - > digeststate ,
contextsize , false ) ;
if ( error )
return error ;
/* fall through */
}
req_ctx - > hash_flags & = ~ ( HASH_FLAG_INIT_CTX | HASH_FLAG_UPDATE |
HASH_FLAG_FINALIZE ) ;
error = artpec6_crypto_terminate_in_descrs ( common ) ;
if ( error )
return error ;
error = artpec6_crypto_terminate_out_descrs ( common ) ;
if ( error )
return error ;
error = artpec6_crypto_dma_map_descs ( common ) ;
if ( error )
return error ;
return ARTPEC6_CRYPTO_PREPARE_HASH_START ;
}
static int artpec6_crypto_aes_ecb_init ( struct crypto_skcipher * tfm )
{
struct artpec6_cryptotfm_context * ctx = crypto_skcipher_ctx ( tfm ) ;
tfm - > reqsize = sizeof ( struct artpec6_crypto_request_context ) ;
ctx - > crypto_type = ARTPEC6_CRYPTO_CIPHER_AES_ECB ;
return 0 ;
}
static int artpec6_crypto_aes_ctr_init ( struct crypto_skcipher * tfm )
{
struct artpec6_cryptotfm_context * ctx = crypto_skcipher_ctx ( tfm ) ;
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ctx - > fallback =
crypto_alloc_sync_skcipher ( crypto_tfm_alg_name ( & tfm - > base ) ,
0 , CRYPTO_ALG_NEED_FALLBACK ) ;
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if ( IS_ERR ( ctx - > fallback ) )
return PTR_ERR ( ctx - > fallback ) ;
tfm - > reqsize = sizeof ( struct artpec6_crypto_request_context ) ;
ctx - > crypto_type = ARTPEC6_CRYPTO_CIPHER_AES_CTR ;
return 0 ;
}
static int artpec6_crypto_aes_cbc_init ( struct crypto_skcipher * tfm )
{
struct artpec6_cryptotfm_context * ctx = crypto_skcipher_ctx ( tfm ) ;
tfm - > reqsize = sizeof ( struct artpec6_crypto_request_context ) ;
ctx - > crypto_type = ARTPEC6_CRYPTO_CIPHER_AES_CBC ;
return 0 ;
}
static int artpec6_crypto_aes_xts_init ( struct crypto_skcipher * tfm )
{
struct artpec6_cryptotfm_context * ctx = crypto_skcipher_ctx ( tfm ) ;
tfm - > reqsize = sizeof ( struct artpec6_crypto_request_context ) ;
ctx - > crypto_type = ARTPEC6_CRYPTO_CIPHER_AES_XTS ;
return 0 ;
}
static void artpec6_crypto_aes_exit ( struct crypto_skcipher * tfm )
{
struct artpec6_cryptotfm_context * ctx = crypto_skcipher_ctx ( tfm ) ;
memset ( ctx , 0 , sizeof ( * ctx ) ) ;
}
static void artpec6_crypto_aes_ctr_exit ( struct crypto_skcipher * tfm )
{
struct artpec6_cryptotfm_context * ctx = crypto_skcipher_ctx ( tfm ) ;
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crypto_free_sync_skcipher ( ctx - > fallback ) ;
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artpec6_crypto_aes_exit ( tfm ) ;
}
static int
artpec6_crypto_cipher_set_key ( struct crypto_skcipher * cipher , const u8 * key ,
unsigned int keylen )
{
struct artpec6_cryptotfm_context * ctx =
crypto_skcipher_ctx ( cipher ) ;
switch ( keylen ) {
case 16 :
case 24 :
case 32 :
break ;
default :
return - EINVAL ;
}
memcpy ( ctx - > aes_key , key , keylen ) ;
ctx - > key_length = keylen ;
return 0 ;
}
static int
artpec6_crypto_xts_set_key ( struct crypto_skcipher * cipher , const u8 * key ,
unsigned int keylen )
{
struct artpec6_cryptotfm_context * ctx =
crypto_skcipher_ctx ( cipher ) ;
int ret ;
ret = xts_check_key ( & cipher - > base , key , keylen ) ;
if ( ret )
return ret ;
switch ( keylen ) {
case 32 :
case 48 :
case 64 :
break ;
default :
return - EINVAL ;
}
memcpy ( ctx - > aes_key , key , keylen ) ;
ctx - > key_length = keylen ;
return 0 ;
}
/** artpec6_crypto_process_crypto - Prepare an async block cipher crypto request
*
* @ req : The asynch request to process
*
* @ return 0 if the dma job was successfully prepared
* < 0 on error
*
* This function sets up the PDMA descriptors for a block cipher request .
*
* The required padding is added for AES - CTR using a statically defined
* buffer .
*
* The PDMA descriptor list will be as follows :
*
* OUT : [ KEY_MD ] [ KEY ] [ EOP ] < CIPHER_MD > [ IV ] < data_0 > . . . [ data_n ] [ AES - CTR_pad ] < eop >
* IN : < CIPHER_MD > < data_0 > . . . [ data_n ] < intr >
*
*/
static int artpec6_crypto_prepare_crypto ( struct skcipher_request * areq )
{
int ret ;
struct artpec6_crypto_walk walk ;
struct crypto_skcipher * cipher = crypto_skcipher_reqtfm ( areq ) ;
struct artpec6_cryptotfm_context * ctx = crypto_skcipher_ctx ( cipher ) ;
struct artpec6_crypto_request_context * req_ctx = NULL ;
size_t iv_len = crypto_skcipher_ivsize ( cipher ) ;
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
enum artpec6_crypto_variant variant = ac - > variant ;
struct artpec6_crypto_req_common * common ;
bool cipher_decr = false ;
size_t cipher_klen ;
u32 cipher_len = 0 ; /* Same as regk_crypto_key_128 for NULL crypto */
u32 oper ;
req_ctx = skcipher_request_ctx ( areq ) ;
common = & req_ctx - > common ;
artpec6_crypto_init_dma_operation ( common ) ;
if ( variant = = ARTPEC6_CRYPTO )
ctx - > key_md = FIELD_PREP ( A6_CRY_MD_OPER , a6_regk_crypto_dlkey ) ;
else
ctx - > key_md = FIELD_PREP ( A7_CRY_MD_OPER , a7_regk_crypto_dlkey ) ;
ret = artpec6_crypto_setup_out_descr ( common , ( void * ) & ctx - > key_md ,
sizeof ( ctx - > key_md ) , false , false ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_setup_out_descr ( common , ctx - > aes_key ,
ctx - > key_length , true , false ) ;
if ( ret )
return ret ;
req_ctx - > cipher_md = 0 ;
if ( ctx - > crypto_type = = ARTPEC6_CRYPTO_CIPHER_AES_XTS )
cipher_klen = ctx - > key_length / 2 ;
else
cipher_klen = ctx - > key_length ;
/* Metadata */
switch ( cipher_klen ) {
case 16 :
cipher_len = regk_crypto_key_128 ;
break ;
case 24 :
cipher_len = regk_crypto_key_192 ;
break ;
case 32 :
cipher_len = regk_crypto_key_256 ;
break ;
default :
pr_err ( " %s: Invalid key length %d! \n " ,
MODULE_NAME , ctx - > key_length ) ;
return - EINVAL ;
}
switch ( ctx - > crypto_type ) {
case ARTPEC6_CRYPTO_CIPHER_AES_ECB :
oper = regk_crypto_aes_ecb ;
cipher_decr = req_ctx - > decrypt ;
break ;
case ARTPEC6_CRYPTO_CIPHER_AES_CBC :
oper = regk_crypto_aes_cbc ;
cipher_decr = req_ctx - > decrypt ;
break ;
case ARTPEC6_CRYPTO_CIPHER_AES_CTR :
oper = regk_crypto_aes_ctr ;
cipher_decr = false ;
break ;
case ARTPEC6_CRYPTO_CIPHER_AES_XTS :
oper = regk_crypto_aes_xts ;
cipher_decr = req_ctx - > decrypt ;
if ( variant = = ARTPEC6_CRYPTO )
req_ctx - > cipher_md | = A6_CRY_MD_CIPHER_DSEQ ;
else
req_ctx - > cipher_md | = A7_CRY_MD_CIPHER_DSEQ ;
break ;
default :
pr_err ( " %s: Invalid cipher mode %d! \n " ,
MODULE_NAME , ctx - > crypto_type ) ;
return - EINVAL ;
}
if ( variant = = ARTPEC6_CRYPTO ) {
req_ctx - > cipher_md | = FIELD_PREP ( A6_CRY_MD_OPER , oper ) ;
req_ctx - > cipher_md | = FIELD_PREP ( A6_CRY_MD_CIPHER_LEN ,
cipher_len ) ;
if ( cipher_decr )
req_ctx - > cipher_md | = A6_CRY_MD_CIPHER_DECR ;
} else {
req_ctx - > cipher_md | = FIELD_PREP ( A7_CRY_MD_OPER , oper ) ;
req_ctx - > cipher_md | = FIELD_PREP ( A7_CRY_MD_CIPHER_LEN ,
cipher_len ) ;
if ( cipher_decr )
req_ctx - > cipher_md | = A7_CRY_MD_CIPHER_DECR ;
}
ret = artpec6_crypto_setup_out_descr ( common ,
& req_ctx - > cipher_md ,
sizeof ( req_ctx - > cipher_md ) ,
false , false ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_setup_in_descr ( common , ac - > pad_buffer , 4 , false ) ;
if ( ret )
return ret ;
if ( iv_len ) {
ret = artpec6_crypto_setup_out_descr ( common , areq - > iv , iv_len ,
false , false ) ;
if ( ret )
return ret ;
}
/* Data out */
artpec6_crypto_walk_init ( & walk , areq - > src ) ;
ret = artpec6_crypto_setup_sg_descrs_out ( common , & walk , areq - > cryptlen ) ;
if ( ret )
return ret ;
/* Data in */
artpec6_crypto_walk_init ( & walk , areq - > dst ) ;
ret = artpec6_crypto_setup_sg_descrs_in ( common , & walk , areq - > cryptlen ) ;
if ( ret )
return ret ;
/* CTR-mode padding required by the HW. */
if ( ctx - > crypto_type = = ARTPEC6_CRYPTO_CIPHER_AES_CTR | |
ctx - > crypto_type = = ARTPEC6_CRYPTO_CIPHER_AES_XTS ) {
size_t pad = ALIGN ( areq - > cryptlen , AES_BLOCK_SIZE ) -
areq - > cryptlen ;
if ( pad ) {
ret = artpec6_crypto_setup_out_descr ( common ,
ac - > pad_buffer ,
pad , false , false ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_setup_in_descr ( common ,
ac - > pad_buffer , pad ,
false ) ;
if ( ret )
return ret ;
}
}
ret = artpec6_crypto_terminate_out_descrs ( common ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_terminate_in_descrs ( common ) ;
if ( ret )
return ret ;
return artpec6_crypto_dma_map_descs ( common ) ;
}
static int artpec6_crypto_prepare_aead ( struct aead_request * areq )
{
size_t count ;
int ret ;
size_t input_length ;
struct artpec6_cryptotfm_context * ctx = crypto_tfm_ctx ( areq - > base . tfm ) ;
struct artpec6_crypto_aead_req_ctx * req_ctx = aead_request_ctx ( areq ) ;
struct crypto_aead * cipher = crypto_aead_reqtfm ( areq ) ;
struct artpec6_crypto_req_common * common = & req_ctx - > common ;
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
enum artpec6_crypto_variant variant = ac - > variant ;
u32 md_cipher_len ;
artpec6_crypto_init_dma_operation ( common ) ;
/* Key */
if ( variant = = ARTPEC6_CRYPTO ) {
ctx - > key_md = FIELD_PREP ( A6_CRY_MD_OPER ,
a6_regk_crypto_dlkey ) ;
} else {
ctx - > key_md = FIELD_PREP ( A7_CRY_MD_OPER ,
a7_regk_crypto_dlkey ) ;
}
ret = artpec6_crypto_setup_out_descr ( common , ( void * ) & ctx - > key_md ,
sizeof ( ctx - > key_md ) , false , false ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_setup_out_descr ( common , ctx - > aes_key ,
ctx - > key_length , true , false ) ;
if ( ret )
return ret ;
req_ctx - > cipher_md = 0 ;
switch ( ctx - > key_length ) {
case 16 :
md_cipher_len = regk_crypto_key_128 ;
break ;
case 24 :
md_cipher_len = regk_crypto_key_192 ;
break ;
case 32 :
md_cipher_len = regk_crypto_key_256 ;
break ;
default :
return - EINVAL ;
}
if ( variant = = ARTPEC6_CRYPTO ) {
req_ctx - > cipher_md | = FIELD_PREP ( A6_CRY_MD_OPER ,
regk_crypto_aes_gcm ) ;
req_ctx - > cipher_md | = FIELD_PREP ( A6_CRY_MD_CIPHER_LEN ,
md_cipher_len ) ;
if ( req_ctx - > decrypt )
req_ctx - > cipher_md | = A6_CRY_MD_CIPHER_DECR ;
} else {
req_ctx - > cipher_md | = FIELD_PREP ( A7_CRY_MD_OPER ,
regk_crypto_aes_gcm ) ;
req_ctx - > cipher_md | = FIELD_PREP ( A7_CRY_MD_CIPHER_LEN ,
md_cipher_len ) ;
if ( req_ctx - > decrypt )
req_ctx - > cipher_md | = A7_CRY_MD_CIPHER_DECR ;
}
ret = artpec6_crypto_setup_out_descr ( common ,
( void * ) & req_ctx - > cipher_md ,
sizeof ( req_ctx - > cipher_md ) , false ,
false ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_setup_in_descr ( common , ac - > pad_buffer , 4 , false ) ;
if ( ret )
return ret ;
/* For the decryption, cryptlen includes the tag. */
input_length = areq - > cryptlen ;
if ( req_ctx - > decrypt )
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input_length - = crypto_aead_authsize ( cipher ) ;
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/* Prepare the context buffer */
req_ctx - > hw_ctx . aad_length_bits =
__cpu_to_be64 ( 8 * areq - > assoclen ) ;
req_ctx - > hw_ctx . text_length_bits =
__cpu_to_be64 ( 8 * input_length ) ;
memcpy ( req_ctx - > hw_ctx . J0 , areq - > iv , crypto_aead_ivsize ( cipher ) ) ;
// The HW omits the initial increment of the counter field.
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memcpy ( req_ctx - > hw_ctx . J0 + GCM_AES_IV_SIZE , " \x00 \x00 \x00 \x01 " , 4 ) ;
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ret = artpec6_crypto_setup_out_descr ( common , & req_ctx - > hw_ctx ,
sizeof ( struct artpec6_crypto_aead_hw_ctx ) , false , false ) ;
if ( ret )
return ret ;
{
struct artpec6_crypto_walk walk ;
artpec6_crypto_walk_init ( & walk , areq - > src ) ;
/* Associated data */
count = areq - > assoclen ;
ret = artpec6_crypto_setup_sg_descrs_out ( common , & walk , count ) ;
if ( ret )
return ret ;
if ( ! IS_ALIGNED ( areq - > assoclen , 16 ) ) {
size_t assoc_pad = 16 - ( areq - > assoclen % 16 ) ;
/* The HW mandates zero padding here */
ret = artpec6_crypto_setup_out_descr ( common ,
ac - > zero_buffer ,
assoc_pad , false ,
false ) ;
if ( ret )
return ret ;
}
/* Data to crypto */
count = input_length ;
ret = artpec6_crypto_setup_sg_descrs_out ( common , & walk , count ) ;
if ( ret )
return ret ;
if ( ! IS_ALIGNED ( input_length , 16 ) ) {
size_t crypto_pad = 16 - ( input_length % 16 ) ;
/* The HW mandates zero padding here */
ret = artpec6_crypto_setup_out_descr ( common ,
ac - > zero_buffer ,
crypto_pad ,
false ,
false ) ;
if ( ret )
return ret ;
}
}
/* Data from crypto */
{
struct artpec6_crypto_walk walk ;
size_t output_len = areq - > cryptlen ;
if ( req_ctx - > decrypt )
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output_len - = crypto_aead_authsize ( cipher ) ;
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artpec6_crypto_walk_init ( & walk , areq - > dst ) ;
/* skip associated data in the output */
count = artpec6_crypto_walk_advance ( & walk , areq - > assoclen ) ;
if ( count )
return - EINVAL ;
count = output_len ;
ret = artpec6_crypto_setup_sg_descrs_in ( common , & walk , count ) ;
if ( ret )
return ret ;
/* Put padding between the cryptotext and the auth tag */
if ( ! IS_ALIGNED ( output_len , 16 ) ) {
size_t crypto_pad = 16 - ( output_len % 16 ) ;
ret = artpec6_crypto_setup_in_descr ( common ,
ac - > pad_buffer ,
crypto_pad , false ) ;
if ( ret )
return ret ;
}
/* The authentication tag shall follow immediately after
* the output ciphertext . For decryption it is put in a context
* buffer for later compare against the input tag .
*/
if ( req_ctx - > decrypt ) {
ret = artpec6_crypto_setup_in_descr ( common ,
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req_ctx - > decryption_tag , AES_BLOCK_SIZE , false ) ;
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if ( ret )
return ret ;
} else {
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/* For encryption the requested tag size may be smaller
* than the hardware ' s generated tag .
*/
size_t authsize = crypto_aead_authsize ( cipher ) ;
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ret = artpec6_crypto_setup_sg_descrs_in ( common , & walk ,
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authsize ) ;
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if ( ret )
return ret ;
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if ( authsize < AES_BLOCK_SIZE ) {
count = AES_BLOCK_SIZE - authsize ;
ret = artpec6_crypto_setup_in_descr ( common ,
ac - > pad_buffer ,
count , false ) ;
if ( ret )
return ret ;
}
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}
}
ret = artpec6_crypto_terminate_in_descrs ( common ) ;
if ( ret )
return ret ;
ret = artpec6_crypto_terminate_out_descrs ( common ) ;
if ( ret )
return ret ;
return artpec6_crypto_dma_map_descs ( common ) ;
}
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static void artpec6_crypto_process_queue ( struct artpec6_crypto * ac ,
struct list_head * completions )
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{
struct artpec6_crypto_req_common * req ;
while ( ! list_empty ( & ac - > queue ) & & ! artpec6_crypto_busy ( ) ) {
req = list_first_entry ( & ac - > queue ,
struct artpec6_crypto_req_common ,
list ) ;
list_move_tail ( & req - > list , & ac - > pending ) ;
artpec6_crypto_start_dma ( req ) ;
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list_add_tail ( & req - > complete_in_progress , completions ) ;
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}
/*
* In some cases , the hardware can raise an in_eop_flush interrupt
* before actually updating the status , so we have an timer which will
* recheck the status on timeout . Since the cases are expected to be
* very rare , we use a relatively large timeout value . There should be
* no noticeable negative effect if we timeout spuriously .
*/
if ( ac - > pending_count )
mod_timer ( & ac - > timer , jiffies + msecs_to_jiffies ( 100 ) ) ;
else
del_timer ( & ac - > timer ) ;
}
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static void artpec6_crypto_timeout ( struct timer_list * t )
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{
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struct artpec6_crypto * ac = from_timer ( ac , t , timer ) ;
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dev_info_ratelimited ( artpec6_crypto_dev , " timeout \n " ) ;
tasklet_schedule ( & ac - > task ) ;
}
static void artpec6_crypto_task ( unsigned long data )
{
struct artpec6_crypto * ac = ( struct artpec6_crypto * ) data ;
struct artpec6_crypto_req_common * req ;
struct artpec6_crypto_req_common * n ;
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struct list_head complete_done ;
struct list_head complete_in_progress ;
INIT_LIST_HEAD ( & complete_done ) ;
INIT_LIST_HEAD ( & complete_in_progress ) ;
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if ( list_empty ( & ac - > pending ) ) {
pr_debug ( " Spurious IRQ \n " ) ;
return ;
}
spin_lock_bh ( & ac - > queue_lock ) ;
list_for_each_entry_safe ( req , n , & ac - > pending , list ) {
struct artpec6_crypto_dma_descriptors * dma = req - > dma ;
u32 stat ;
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dma_addr_t stataddr ;
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stataddr = dma - > stat_dma_addr + 4 * ( req - > dma - > in_cnt - 1 ) ;
dma_sync_single_for_cpu ( artpec6_crypto_dev ,
stataddr ,
4 ,
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DMA_BIDIRECTIONAL ) ;
stat = req - > dma - > stat [ req - > dma - > in_cnt - 1 ] ;
/* A non-zero final status descriptor indicates
* this job has finished .
*/
pr_debug ( " Request %p status is %X \n " , req , stat ) ;
if ( ! stat )
break ;
/* Allow testing of timeout handling with fault injection */
# ifdef CONFIG_FAULT_INJECTION
if ( should_fail ( & artpec6_crypto_fail_status_read , 1 ) )
continue ;
# endif
pr_debug ( " Completing request %p \n " , req ) ;
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list_move_tail ( & req - > list , & complete_done ) ;
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ac - > pending_count - - ;
}
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artpec6_crypto_process_queue ( ac , & complete_in_progress ) ;
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spin_unlock_bh ( & ac - > queue_lock ) ;
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/* Perform the completion callbacks without holding the queue lock
* to allow new request submissions from the callbacks .
*/
list_for_each_entry_safe ( req , n , & complete_done , list ) {
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artpec6_crypto_dma_unmap_all ( req ) ;
artpec6_crypto_copy_bounce_buffers ( req ) ;
artpec6_crypto_common_destroy ( req ) ;
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req - > complete ( req - > req ) ;
}
list_for_each_entry_safe ( req , n , & complete_in_progress ,
complete_in_progress ) {
req - > req - > complete ( req - > req , - EINPROGRESS ) ;
}
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}
static void artpec6_crypto_complete_crypto ( struct crypto_async_request * req )
{
req - > complete ( req , 0 ) ;
}
static void
artpec6_crypto_complete_cbc_decrypt ( struct crypto_async_request * req )
{
struct skcipher_request * cipher_req = container_of ( req ,
struct skcipher_request , base ) ;
scatterwalk_map_and_copy ( cipher_req - > iv , cipher_req - > src ,
cipher_req - > cryptlen - AES_BLOCK_SIZE ,
AES_BLOCK_SIZE , 0 ) ;
req - > complete ( req , 0 ) ;
}
static void
artpec6_crypto_complete_cbc_encrypt ( struct crypto_async_request * req )
{
struct skcipher_request * cipher_req = container_of ( req ,
struct skcipher_request , base ) ;
scatterwalk_map_and_copy ( cipher_req - > iv , cipher_req - > dst ,
cipher_req - > cryptlen - AES_BLOCK_SIZE ,
AES_BLOCK_SIZE , 0 ) ;
req - > complete ( req , 0 ) ;
}
static void artpec6_crypto_complete_aead ( struct crypto_async_request * req )
{
int result = 0 ;
/* Verify GCM hashtag. */
struct aead_request * areq = container_of ( req ,
struct aead_request , base ) ;
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struct crypto_aead * aead = crypto_aead_reqtfm ( areq ) ;
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struct artpec6_crypto_aead_req_ctx * req_ctx = aead_request_ctx ( areq ) ;
if ( req_ctx - > decrypt ) {
u8 input_tag [ AES_BLOCK_SIZE ] ;
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unsigned int authsize = crypto_aead_authsize ( aead ) ;
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sg_pcopy_to_buffer ( areq - > src ,
sg_nents ( areq - > src ) ,
input_tag ,
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authsize ,
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areq - > assoclen + areq - > cryptlen -
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authsize ) ;
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if ( crypto_memneq ( req_ctx - > decryption_tag ,
input_tag ,
authsize ) ) {
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pr_debug ( " ***EBADMSG: \n " ) ;
print_hex_dump_debug ( " ref: " , DUMP_PREFIX_ADDRESS , 32 , 1 ,
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input_tag , authsize , true ) ;
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print_hex_dump_debug ( " out: " , DUMP_PREFIX_ADDRESS , 32 , 1 ,
req_ctx - > decryption_tag ,
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authsize , true ) ;
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result = - EBADMSG ;
}
}
req - > complete ( req , result ) ;
}
static void artpec6_crypto_complete_hash ( struct crypto_async_request * req )
{
req - > complete ( req , 0 ) ;
}
/*------------------- Hash functions -----------------------------------------*/
static int
artpec6_crypto_hash_set_key ( struct crypto_ahash * tfm ,
const u8 * key , unsigned int keylen )
{
struct artpec6_hashalg_context * tfm_ctx = crypto_tfm_ctx ( & tfm - > base ) ;
size_t blocksize ;
int ret ;
if ( ! keylen ) {
pr_err ( " Invalid length (%d) of HMAC key \n " ,
keylen ) ;
return - EINVAL ;
}
memset ( tfm_ctx - > hmac_key , 0 , sizeof ( tfm_ctx - > hmac_key ) ) ;
blocksize = crypto_tfm_alg_blocksize ( crypto_ahash_tfm ( tfm ) ) ;
if ( keylen > blocksize ) {
tfm_ctx - > hmac_key_length = blocksize ;
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ret = crypto_shash_tfm_digest ( tfm_ctx - > child_hash , key , keylen ,
tfm_ctx - > hmac_key ) ;
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if ( ret )
return ret ;
} else {
memcpy ( tfm_ctx - > hmac_key , key , keylen ) ;
tfm_ctx - > hmac_key_length = keylen ;
}
return 0 ;
}
static int
artpec6_crypto_init_hash ( struct ahash_request * req , u8 type , int hmac )
{
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
enum artpec6_crypto_variant variant = ac - > variant ;
struct artpec6_hash_request_context * req_ctx = ahash_request_ctx ( req ) ;
u32 oper ;
memset ( req_ctx , 0 , sizeof ( * req_ctx ) ) ;
req_ctx - > hash_flags = HASH_FLAG_INIT_CTX ;
if ( hmac )
req_ctx - > hash_flags | = ( HASH_FLAG_HMAC | HASH_FLAG_UPDATE_KEY ) ;
switch ( type ) {
case ARTPEC6_CRYPTO_HASH_SHA1 :
oper = hmac ? regk_crypto_hmac_sha1 : regk_crypto_sha1 ;
break ;
case ARTPEC6_CRYPTO_HASH_SHA256 :
oper = hmac ? regk_crypto_hmac_sha256 : regk_crypto_sha256 ;
break ;
default :
pr_err ( " %s: Unsupported hash type 0x%x \n " , MODULE_NAME , type ) ;
return - EINVAL ;
}
if ( variant = = ARTPEC6_CRYPTO )
req_ctx - > hash_md = FIELD_PREP ( A6_CRY_MD_OPER , oper ) ;
else
req_ctx - > hash_md = FIELD_PREP ( A7_CRY_MD_OPER , oper ) ;
return 0 ;
}
static int artpec6_crypto_prepare_submit_hash ( struct ahash_request * req )
{
struct artpec6_hash_request_context * req_ctx = ahash_request_ctx ( req ) ;
int ret ;
if ( ! req_ctx - > common . dma ) {
ret = artpec6_crypto_common_init ( & req_ctx - > common ,
& req - > base ,
artpec6_crypto_complete_hash ,
NULL , 0 ) ;
if ( ret )
return ret ;
}
ret = artpec6_crypto_prepare_hash ( req ) ;
switch ( ret ) {
case ARTPEC6_CRYPTO_PREPARE_HASH_START :
ret = artpec6_crypto_submit ( & req_ctx - > common ) ;
break ;
case ARTPEC6_CRYPTO_PREPARE_HASH_NO_START :
ret = 0 ;
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fallthrough ;
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default :
artpec6_crypto_common_destroy ( & req_ctx - > common ) ;
break ;
}
return ret ;
}
static int artpec6_crypto_hash_final ( struct ahash_request * req )
{
struct artpec6_hash_request_context * req_ctx = ahash_request_ctx ( req ) ;
req_ctx - > hash_flags | = HASH_FLAG_FINALIZE ;
return artpec6_crypto_prepare_submit_hash ( req ) ;
}
static int artpec6_crypto_hash_update ( struct ahash_request * req )
{
struct artpec6_hash_request_context * req_ctx = ahash_request_ctx ( req ) ;
req_ctx - > hash_flags | = HASH_FLAG_UPDATE ;
return artpec6_crypto_prepare_submit_hash ( req ) ;
}
static int artpec6_crypto_sha1_init ( struct ahash_request * req )
{
return artpec6_crypto_init_hash ( req , ARTPEC6_CRYPTO_HASH_SHA1 , 0 ) ;
}
static int artpec6_crypto_sha1_digest ( struct ahash_request * req )
{
struct artpec6_hash_request_context * req_ctx = ahash_request_ctx ( req ) ;
artpec6_crypto_init_hash ( req , ARTPEC6_CRYPTO_HASH_SHA1 , 0 ) ;
req_ctx - > hash_flags | = HASH_FLAG_UPDATE | HASH_FLAG_FINALIZE ;
return artpec6_crypto_prepare_submit_hash ( req ) ;
}
static int artpec6_crypto_sha256_init ( struct ahash_request * req )
{
return artpec6_crypto_init_hash ( req , ARTPEC6_CRYPTO_HASH_SHA256 , 0 ) ;
}
static int artpec6_crypto_sha256_digest ( struct ahash_request * req )
{
struct artpec6_hash_request_context * req_ctx = ahash_request_ctx ( req ) ;
artpec6_crypto_init_hash ( req , ARTPEC6_CRYPTO_HASH_SHA256 , 0 ) ;
req_ctx - > hash_flags | = HASH_FLAG_UPDATE | HASH_FLAG_FINALIZE ;
return artpec6_crypto_prepare_submit_hash ( req ) ;
}
static int artpec6_crypto_hmac_sha256_init ( struct ahash_request * req )
{
return artpec6_crypto_init_hash ( req , ARTPEC6_CRYPTO_HASH_SHA256 , 1 ) ;
}
static int artpec6_crypto_hmac_sha256_digest ( struct ahash_request * req )
{
struct artpec6_hash_request_context * req_ctx = ahash_request_ctx ( req ) ;
artpec6_crypto_init_hash ( req , ARTPEC6_CRYPTO_HASH_SHA256 , 1 ) ;
req_ctx - > hash_flags | = HASH_FLAG_UPDATE | HASH_FLAG_FINALIZE ;
return artpec6_crypto_prepare_submit_hash ( req ) ;
}
static int artpec6_crypto_ahash_init_common ( struct crypto_tfm * tfm ,
const char * base_hash_name )
{
struct artpec6_hashalg_context * tfm_ctx = crypto_tfm_ctx ( tfm ) ;
crypto_ahash_set_reqsize ( __crypto_ahash_cast ( tfm ) ,
sizeof ( struct artpec6_hash_request_context ) ) ;
memset ( tfm_ctx , 0 , sizeof ( * tfm_ctx ) ) ;
if ( base_hash_name ) {
struct crypto_shash * child ;
child = crypto_alloc_shash ( base_hash_name , 0 ,
CRYPTO_ALG_NEED_FALLBACK ) ;
if ( IS_ERR ( child ) )
return PTR_ERR ( child ) ;
tfm_ctx - > child_hash = child ;
}
return 0 ;
}
static int artpec6_crypto_ahash_init ( struct crypto_tfm * tfm )
{
return artpec6_crypto_ahash_init_common ( tfm , NULL ) ;
}
static int artpec6_crypto_ahash_init_hmac_sha256 ( struct crypto_tfm * tfm )
{
return artpec6_crypto_ahash_init_common ( tfm , " sha256 " ) ;
}
static void artpec6_crypto_ahash_exit ( struct crypto_tfm * tfm )
{
struct artpec6_hashalg_context * tfm_ctx = crypto_tfm_ctx ( tfm ) ;
if ( tfm_ctx - > child_hash )
crypto_free_shash ( tfm_ctx - > child_hash ) ;
memset ( tfm_ctx - > hmac_key , 0 , sizeof ( tfm_ctx - > hmac_key ) ) ;
tfm_ctx - > hmac_key_length = 0 ;
}
static int artpec6_crypto_hash_export ( struct ahash_request * req , void * out )
{
const struct artpec6_hash_request_context * ctx = ahash_request_ctx ( req ) ;
struct artpec6_hash_export_state * state = out ;
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
enum artpec6_crypto_variant variant = ac - > variant ;
BUILD_BUG_ON ( sizeof ( state - > partial_buffer ) ! =
sizeof ( ctx - > partial_buffer ) ) ;
BUILD_BUG_ON ( sizeof ( state - > digeststate ) ! = sizeof ( ctx - > digeststate ) ) ;
state - > digcnt = ctx - > digcnt ;
state - > partial_bytes = ctx - > partial_bytes ;
state - > hash_flags = ctx - > hash_flags ;
if ( variant = = ARTPEC6_CRYPTO )
state - > oper = FIELD_GET ( A6_CRY_MD_OPER , ctx - > hash_md ) ;
else
state - > oper = FIELD_GET ( A7_CRY_MD_OPER , ctx - > hash_md ) ;
memcpy ( state - > partial_buffer , ctx - > partial_buffer ,
sizeof ( state - > partial_buffer ) ) ;
memcpy ( state - > digeststate , ctx - > digeststate ,
sizeof ( state - > digeststate ) ) ;
return 0 ;
}
static int artpec6_crypto_hash_import ( struct ahash_request * req , const void * in )
{
struct artpec6_hash_request_context * ctx = ahash_request_ctx ( req ) ;
const struct artpec6_hash_export_state * state = in ;
struct artpec6_crypto * ac = dev_get_drvdata ( artpec6_crypto_dev ) ;
enum artpec6_crypto_variant variant = ac - > variant ;
memset ( ctx , 0 , sizeof ( * ctx ) ) ;
ctx - > digcnt = state - > digcnt ;
ctx - > partial_bytes = state - > partial_bytes ;
ctx - > hash_flags = state - > hash_flags ;
if ( variant = = ARTPEC6_CRYPTO )
ctx - > hash_md = FIELD_PREP ( A6_CRY_MD_OPER , state - > oper ) ;
else
ctx - > hash_md = FIELD_PREP ( A7_CRY_MD_OPER , state - > oper ) ;
memcpy ( ctx - > partial_buffer , state - > partial_buffer ,
sizeof ( state - > partial_buffer ) ) ;
memcpy ( ctx - > digeststate , state - > digeststate ,
sizeof ( state - > digeststate ) ) ;
return 0 ;
}
static int init_crypto_hw ( struct artpec6_crypto * ac )
{
enum artpec6_crypto_variant variant = ac - > variant ;
void __iomem * base = ac - > base ;
u32 out_descr_buf_size ;
u32 out_data_buf_size ;
u32 in_data_buf_size ;
u32 in_descr_buf_size ;
u32 in_stat_buf_size ;
u32 in , out ;
/*
* The PDMA unit contains 1984 bytes of internal memory for the OUT
* channels and 1024 bytes for the IN channel . This is an elastic
* memory used to internally store the descriptors and data . The values
* ares specified in 64 byte incremements . Trustzone buffers are not
* used at this stage .
*/
out_data_buf_size = 16 ; /* 1024 bytes for data */
out_descr_buf_size = 15 ; /* 960 bytes for descriptors */
in_data_buf_size = 8 ; /* 512 bytes for data */
in_descr_buf_size = 4 ; /* 256 bytes for descriptors */
in_stat_buf_size = 4 ; /* 256 bytes for stat descrs */
BUILD_BUG_ON_MSG ( ( out_data_buf_size
+ out_descr_buf_size ) * 64 > 1984 ,
" Invalid OUT configuration " ) ;
BUILD_BUG_ON_MSG ( ( in_data_buf_size
+ in_descr_buf_size
+ in_stat_buf_size ) * 64 > 1024 ,
" Invalid IN configuration " ) ;
in = FIELD_PREP ( PDMA_IN_BUF_CFG_DATA_BUF_SIZE , in_data_buf_size ) |
FIELD_PREP ( PDMA_IN_BUF_CFG_DESCR_BUF_SIZE , in_descr_buf_size ) |
FIELD_PREP ( PDMA_IN_BUF_CFG_STAT_BUF_SIZE , in_stat_buf_size ) ;
out = FIELD_PREP ( PDMA_OUT_BUF_CFG_DATA_BUF_SIZE , out_data_buf_size ) |
FIELD_PREP ( PDMA_OUT_BUF_CFG_DESCR_BUF_SIZE , out_descr_buf_size ) ;
writel_relaxed ( out , base + PDMA_OUT_BUF_CFG ) ;
writel_relaxed ( PDMA_OUT_CFG_EN , base + PDMA_OUT_CFG ) ;
if ( variant = = ARTPEC6_CRYPTO ) {
writel_relaxed ( in , base + A6_PDMA_IN_BUF_CFG ) ;
writel_relaxed ( PDMA_IN_CFG_EN , base + A6_PDMA_IN_CFG ) ;
writel_relaxed ( A6_PDMA_INTR_MASK_IN_DATA |
A6_PDMA_INTR_MASK_IN_EOP_FLUSH ,
base + A6_PDMA_INTR_MASK ) ;
} else {
writel_relaxed ( in , base + A7_PDMA_IN_BUF_CFG ) ;
writel_relaxed ( PDMA_IN_CFG_EN , base + A7_PDMA_IN_CFG ) ;
writel_relaxed ( A7_PDMA_INTR_MASK_IN_DATA |
A7_PDMA_INTR_MASK_IN_EOP_FLUSH ,
base + A7_PDMA_INTR_MASK ) ;
}
return 0 ;
}
static void artpec6_crypto_disable_hw ( struct artpec6_crypto * ac )
{
enum artpec6_crypto_variant variant = ac - > variant ;
void __iomem * base = ac - > base ;
if ( variant = = ARTPEC6_CRYPTO ) {
writel_relaxed ( A6_PDMA_IN_CMD_STOP , base + A6_PDMA_IN_CMD ) ;
writel_relaxed ( 0 , base + A6_PDMA_IN_CFG ) ;
writel_relaxed ( A6_PDMA_OUT_CMD_STOP , base + PDMA_OUT_CMD ) ;
} else {
writel_relaxed ( A7_PDMA_IN_CMD_STOP , base + A7_PDMA_IN_CMD ) ;
writel_relaxed ( 0 , base + A7_PDMA_IN_CFG ) ;
writel_relaxed ( A7_PDMA_OUT_CMD_STOP , base + PDMA_OUT_CMD ) ;
}
writel_relaxed ( 0 , base + PDMA_OUT_CFG ) ;
}
static irqreturn_t artpec6_crypto_irq ( int irq , void * dev_id )
{
struct artpec6_crypto * ac = dev_id ;
enum artpec6_crypto_variant variant = ac - > variant ;
void __iomem * base = ac - > base ;
u32 mask_in_data , mask_in_eop_flush ;
u32 in_cmd_flush_stat , in_cmd_reg ;
u32 ack_intr_reg ;
u32 ack = 0 ;
u32 intr ;
if ( variant = = ARTPEC6_CRYPTO ) {
intr = readl_relaxed ( base + A6_PDMA_MASKED_INTR ) ;
mask_in_data = A6_PDMA_INTR_MASK_IN_DATA ;
mask_in_eop_flush = A6_PDMA_INTR_MASK_IN_EOP_FLUSH ;
in_cmd_flush_stat = A6_PDMA_IN_CMD_FLUSH_STAT ;
in_cmd_reg = A6_PDMA_IN_CMD ;
ack_intr_reg = A6_PDMA_ACK_INTR ;
} else {
intr = readl_relaxed ( base + A7_PDMA_MASKED_INTR ) ;
mask_in_data = A7_PDMA_INTR_MASK_IN_DATA ;
mask_in_eop_flush = A7_PDMA_INTR_MASK_IN_EOP_FLUSH ;
in_cmd_flush_stat = A7_PDMA_IN_CMD_FLUSH_STAT ;
in_cmd_reg = A7_PDMA_IN_CMD ;
ack_intr_reg = A7_PDMA_ACK_INTR ;
}
/* We get two interrupt notifications from each job.
* The in_data means all data was sent to memory and then
* we request a status flush command to write the per - job
* status to its status vector . This ensures that the
* tasklet can detect exactly how many submitted jobs
* that have finished .
*/
if ( intr & mask_in_data )
ack | = mask_in_data ;
if ( intr & mask_in_eop_flush )
ack | = mask_in_eop_flush ;
else
writel_relaxed ( in_cmd_flush_stat , base + in_cmd_reg ) ;
writel_relaxed ( ack , base + ack_intr_reg ) ;
if ( intr & mask_in_eop_flush )
tasklet_schedule ( & ac - > task ) ;
return IRQ_HANDLED ;
}
/*------------------- Algorithm definitions ----------------------------------*/
/* Hashes */
static struct ahash_alg hash_algos [ ] = {
/* SHA-1 */
{
. init = artpec6_crypto_sha1_init ,
. update = artpec6_crypto_hash_update ,
. final = artpec6_crypto_hash_final ,
. digest = artpec6_crypto_sha1_digest ,
. import = artpec6_crypto_hash_import ,
. export = artpec6_crypto_hash_export ,
. halg . digestsize = SHA1_DIGEST_SIZE ,
. halg . statesize = sizeof ( struct artpec6_hash_export_state ) ,
. halg . base = {
. cra_name = " sha1 " ,
. cra_driver_name = " artpec-sha1 " ,
. cra_priority = 300 ,
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. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_ALLOCATES_MEMORY ,
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. cra_blocksize = SHA1_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct artpec6_hashalg_context ) ,
. cra_alignmask = 3 ,
. cra_module = THIS_MODULE ,
. cra_init = artpec6_crypto_ahash_init ,
. cra_exit = artpec6_crypto_ahash_exit ,
}
} ,
/* SHA-256 */
{
. init = artpec6_crypto_sha256_init ,
. update = artpec6_crypto_hash_update ,
. final = artpec6_crypto_hash_final ,
. digest = artpec6_crypto_sha256_digest ,
. import = artpec6_crypto_hash_import ,
. export = artpec6_crypto_hash_export ,
. halg . digestsize = SHA256_DIGEST_SIZE ,
. halg . statesize = sizeof ( struct artpec6_hash_export_state ) ,
. halg . base = {
. cra_name = " sha256 " ,
. cra_driver_name = " artpec-sha256 " ,
. cra_priority = 300 ,
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. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_ALLOCATES_MEMORY ,
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. cra_blocksize = SHA256_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct artpec6_hashalg_context ) ,
. cra_alignmask = 3 ,
. cra_module = THIS_MODULE ,
. cra_init = artpec6_crypto_ahash_init ,
. cra_exit = artpec6_crypto_ahash_exit ,
}
} ,
/* HMAC SHA-256 */
{
. init = artpec6_crypto_hmac_sha256_init ,
. update = artpec6_crypto_hash_update ,
. final = artpec6_crypto_hash_final ,
. digest = artpec6_crypto_hmac_sha256_digest ,
. import = artpec6_crypto_hash_import ,
. export = artpec6_crypto_hash_export ,
. setkey = artpec6_crypto_hash_set_key ,
. halg . digestsize = SHA256_DIGEST_SIZE ,
. halg . statesize = sizeof ( struct artpec6_hash_export_state ) ,
. halg . base = {
. cra_name = " hmac(sha256) " ,
. cra_driver_name = " artpec-hmac-sha256 " ,
. cra_priority = 300 ,
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. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_ALLOCATES_MEMORY ,
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. cra_blocksize = SHA256_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct artpec6_hashalg_context ) ,
. cra_alignmask = 3 ,
. cra_module = THIS_MODULE ,
. cra_init = artpec6_crypto_ahash_init_hmac_sha256 ,
. cra_exit = artpec6_crypto_ahash_exit ,
}
} ,
} ;
/* Crypto */
static struct skcipher_alg crypto_algos [ ] = {
/* AES - ECB */
{
. base = {
. cra_name = " ecb(aes) " ,
. cra_driver_name = " artpec6-ecb-aes " ,
. cra_priority = 300 ,
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. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_ALLOCATES_MEMORY ,
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. cra_blocksize = AES_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct artpec6_cryptotfm_context ) ,
. cra_alignmask = 3 ,
. cra_module = THIS_MODULE ,
} ,
. min_keysize = AES_MIN_KEY_SIZE ,
. max_keysize = AES_MAX_KEY_SIZE ,
. setkey = artpec6_crypto_cipher_set_key ,
. encrypt = artpec6_crypto_encrypt ,
. decrypt = artpec6_crypto_decrypt ,
. init = artpec6_crypto_aes_ecb_init ,
. exit = artpec6_crypto_aes_exit ,
} ,
/* AES - CTR */
{
. base = {
. cra_name = " ctr(aes) " ,
. cra_driver_name = " artpec6-ctr-aes " ,
. cra_priority = 300 ,
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. cra_flags = CRYPTO_ALG_ASYNC |
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CRYPTO_ALG_ALLOCATES_MEMORY |
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CRYPTO_ALG_NEED_FALLBACK ,
. cra_blocksize = 1 ,
. cra_ctxsize = sizeof ( struct artpec6_cryptotfm_context ) ,
. cra_alignmask = 3 ,
. cra_module = THIS_MODULE ,
} ,
. min_keysize = AES_MIN_KEY_SIZE ,
. max_keysize = AES_MAX_KEY_SIZE ,
. ivsize = AES_BLOCK_SIZE ,
. setkey = artpec6_crypto_cipher_set_key ,
. encrypt = artpec6_crypto_ctr_encrypt ,
. decrypt = artpec6_crypto_ctr_decrypt ,
. init = artpec6_crypto_aes_ctr_init ,
. exit = artpec6_crypto_aes_ctr_exit ,
} ,
/* AES - CBC */
{
. base = {
. cra_name = " cbc(aes) " ,
. cra_driver_name = " artpec6-cbc-aes " ,
. cra_priority = 300 ,
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. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_ALLOCATES_MEMORY ,
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. cra_blocksize = AES_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct artpec6_cryptotfm_context ) ,
. cra_alignmask = 3 ,
. cra_module = THIS_MODULE ,
} ,
. min_keysize = AES_MIN_KEY_SIZE ,
. max_keysize = AES_MAX_KEY_SIZE ,
. ivsize = AES_BLOCK_SIZE ,
. setkey = artpec6_crypto_cipher_set_key ,
. encrypt = artpec6_crypto_encrypt ,
. decrypt = artpec6_crypto_decrypt ,
. init = artpec6_crypto_aes_cbc_init ,
. exit = artpec6_crypto_aes_exit
} ,
/* AES - XTS */
{
. base = {
. cra_name = " xts(aes) " ,
. cra_driver_name = " artpec6-xts-aes " ,
. cra_priority = 300 ,
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. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_ALLOCATES_MEMORY ,
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. cra_blocksize = 1 ,
. cra_ctxsize = sizeof ( struct artpec6_cryptotfm_context ) ,
. cra_alignmask = 3 ,
. cra_module = THIS_MODULE ,
} ,
. min_keysize = 2 * AES_MIN_KEY_SIZE ,
. max_keysize = 2 * AES_MAX_KEY_SIZE ,
. ivsize = 16 ,
. setkey = artpec6_crypto_xts_set_key ,
. encrypt = artpec6_crypto_encrypt ,
. decrypt = artpec6_crypto_decrypt ,
. init = artpec6_crypto_aes_xts_init ,
. exit = artpec6_crypto_aes_exit ,
} ,
} ;
static struct aead_alg aead_algos [ ] = {
{
. init = artpec6_crypto_aead_init ,
. setkey = artpec6_crypto_aead_set_key ,
. encrypt = artpec6_crypto_aead_encrypt ,
. decrypt = artpec6_crypto_aead_decrypt ,
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. ivsize = GCM_AES_IV_SIZE ,
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. maxauthsize = AES_BLOCK_SIZE ,
. base = {
. cra_name = " gcm(aes) " ,
. cra_driver_name = " artpec-gcm-aes " ,
. cra_priority = 300 ,
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. cra_flags = CRYPTO_ALG_ASYNC |
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CRYPTO_ALG_ALLOCATES_MEMORY |
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CRYPTO_ALG_KERN_DRIVER_ONLY ,
. cra_blocksize = 1 ,
. cra_ctxsize = sizeof ( struct artpec6_cryptotfm_context ) ,
. cra_alignmask = 3 ,
. cra_module = THIS_MODULE ,
} ,
}
} ;
# ifdef CONFIG_DEBUG_FS
struct dbgfs_u32 {
char * name ;
mode_t mode ;
u32 * flag ;
char * desc ;
} ;
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static struct dentry * dbgfs_root ;
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static void artpec6_crypto_init_debugfs ( void )
{
dbgfs_root = debugfs_create_dir ( " artpec6_crypto " , NULL ) ;
# ifdef CONFIG_FAULT_INJECTION
fault_create_debugfs_attr ( " fail_status_read " , dbgfs_root ,
& artpec6_crypto_fail_status_read ) ;
fault_create_debugfs_attr ( " fail_dma_array_full " , dbgfs_root ,
& artpec6_crypto_fail_dma_array_full ) ;
# endif
}
static void artpec6_crypto_free_debugfs ( void )
{
debugfs_remove_recursive ( dbgfs_root ) ;
dbgfs_root = NULL ;
}
# endif
static const struct of_device_id artpec6_crypto_of_match [ ] = {
{ . compatible = " axis,artpec6-crypto " , . data = ( void * ) ARTPEC6_CRYPTO } ,
{ . compatible = " axis,artpec7-crypto " , . data = ( void * ) ARTPEC7_CRYPTO } ,
{ }
} ;
MODULE_DEVICE_TABLE ( of , artpec6_crypto_of_match ) ;
static int artpec6_crypto_probe ( struct platform_device * pdev )
{
const struct of_device_id * match ;
enum artpec6_crypto_variant variant ;
struct artpec6_crypto * ac ;
struct device * dev = & pdev - > dev ;
void __iomem * base ;
int irq ;
int err ;
if ( artpec6_crypto_dev )
return - ENODEV ;
match = of_match_node ( artpec6_crypto_of_match , dev - > of_node ) ;
if ( ! match )
return - EINVAL ;
variant = ( enum artpec6_crypto_variant ) match - > data ;
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base = devm_platform_ioremap_resource ( pdev , 0 ) ;
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if ( IS_ERR ( base ) )
return PTR_ERR ( base ) ;
irq = platform_get_irq ( pdev , 0 ) ;
if ( irq < 0 )
return - ENODEV ;
ac = devm_kzalloc ( & pdev - > dev , sizeof ( struct artpec6_crypto ) ,
GFP_KERNEL ) ;
if ( ! ac )
return - ENOMEM ;
platform_set_drvdata ( pdev , ac ) ;
ac - > variant = variant ;
spin_lock_init ( & ac - > queue_lock ) ;
INIT_LIST_HEAD ( & ac - > queue ) ;
INIT_LIST_HEAD ( & ac - > pending ) ;
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timer_setup ( & ac - > timer , artpec6_crypto_timeout , 0 ) ;
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ac - > base = base ;
ac - > dma_cache = kmem_cache_create ( " artpec6_crypto_dma " ,
sizeof ( struct artpec6_crypto_dma_descriptors ) ,
64 ,
0 ,
NULL ) ;
if ( ! ac - > dma_cache )
return - ENOMEM ;
# ifdef CONFIG_DEBUG_FS
artpec6_crypto_init_debugfs ( ) ;
# endif
tasklet_init ( & ac - > task , artpec6_crypto_task ,
( unsigned long ) ac ) ;
ac - > pad_buffer = devm_kzalloc ( & pdev - > dev , 2 * ARTPEC_CACHE_LINE_MAX ,
GFP_KERNEL ) ;
if ( ! ac - > pad_buffer )
return - ENOMEM ;
ac - > pad_buffer = PTR_ALIGN ( ac - > pad_buffer , ARTPEC_CACHE_LINE_MAX ) ;
ac - > zero_buffer = devm_kzalloc ( & pdev - > dev , 2 * ARTPEC_CACHE_LINE_MAX ,
GFP_KERNEL ) ;
if ( ! ac - > zero_buffer )
return - ENOMEM ;
ac - > zero_buffer = PTR_ALIGN ( ac - > zero_buffer , ARTPEC_CACHE_LINE_MAX ) ;
err = init_crypto_hw ( ac ) ;
if ( err )
goto free_cache ;
err = devm_request_irq ( & pdev - > dev , irq , artpec6_crypto_irq , 0 ,
" artpec6-crypto " , ac ) ;
if ( err )
goto disable_hw ;
artpec6_crypto_dev = & pdev - > dev ;
err = crypto_register_ahashes ( hash_algos , ARRAY_SIZE ( hash_algos ) ) ;
if ( err ) {
dev_err ( dev , " Failed to register ahashes \n " ) ;
goto disable_hw ;
}
err = crypto_register_skciphers ( crypto_algos , ARRAY_SIZE ( crypto_algos ) ) ;
if ( err ) {
dev_err ( dev , " Failed to register ciphers \n " ) ;
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goto unregister_ahashes ;
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}
err = crypto_register_aeads ( aead_algos , ARRAY_SIZE ( aead_algos ) ) ;
if ( err ) {
dev_err ( dev , " Failed to register aeads \n " ) ;
goto unregister_algs ;
}
return 0 ;
unregister_algs :
crypto_unregister_skciphers ( crypto_algos , ARRAY_SIZE ( crypto_algos ) ) ;
unregister_ahashes :
crypto_unregister_ahashes ( hash_algos , ARRAY_SIZE ( hash_algos ) ) ;
disable_hw :
artpec6_crypto_disable_hw ( ac ) ;
free_cache :
kmem_cache_destroy ( ac - > dma_cache ) ;
return err ;
}
static int artpec6_crypto_remove ( struct platform_device * pdev )
{
struct artpec6_crypto * ac = platform_get_drvdata ( pdev ) ;
int irq = platform_get_irq ( pdev , 0 ) ;
crypto_unregister_ahashes ( hash_algos , ARRAY_SIZE ( hash_algos ) ) ;
crypto_unregister_skciphers ( crypto_algos , ARRAY_SIZE ( crypto_algos ) ) ;
crypto_unregister_aeads ( aead_algos , ARRAY_SIZE ( aead_algos ) ) ;
tasklet_disable ( & ac - > task ) ;
devm_free_irq ( & pdev - > dev , irq , ac ) ;
tasklet_kill ( & ac - > task ) ;
del_timer_sync ( & ac - > timer ) ;
artpec6_crypto_disable_hw ( ac ) ;
kmem_cache_destroy ( ac - > dma_cache ) ;
# ifdef CONFIG_DEBUG_FS
artpec6_crypto_free_debugfs ( ) ;
# endif
return 0 ;
}
static struct platform_driver artpec6_crypto_driver = {
. probe = artpec6_crypto_probe ,
. remove = artpec6_crypto_remove ,
. driver = {
. name = " artpec6-crypto " ,
. of_match_table = artpec6_crypto_of_match ,
} ,
} ;
module_platform_driver ( artpec6_crypto_driver ) ;
MODULE_AUTHOR ( " Axis Communications AB " ) ;
MODULE_DESCRIPTION ( " ARTPEC-6 Crypto driver " ) ;
MODULE_LICENSE ( " GPL " ) ;