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/*
* Copyright ( c ) 2010 - 2011 Picochip Ltd . , Jamie Iles
*
* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation ; either version 2 of the License , or
* ( at your option ) any later version .
*
* This program is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
* GNU General Public License for more details .
*
* You should have received a copy of the GNU General Public License
* along with this program ; if not , write to the Free Software
* Foundation , Inc . , 59 Temple Place , Suite 330 , Boston , MA 02111 - 1307 USA
*/
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# include <crypto/internal/aead.h>
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# include <crypto/aes.h>
# include <crypto/algapi.h>
# include <crypto/authenc.h>
# include <crypto/des.h>
# include <crypto/md5.h>
# include <crypto/sha.h>
# include <crypto/internal/skcipher.h>
# include <linux/clk.h>
# include <linux/crypto.h>
# include <linux/delay.h>
# include <linux/dma-mapping.h>
# include <linux/dmapool.h>
# include <linux/err.h>
# include <linux/init.h>
# include <linux/interrupt.h>
# include <linux/io.h>
# include <linux/list.h>
# include <linux/module.h>
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# include <linux/of.h>
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# include <linux/platform_device.h>
# include <linux/pm.h>
# include <linux/rtnetlink.h>
# include <linux/scatterlist.h>
# include <linux/sched.h>
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# include <linux/sizes.h>
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# include <linux/slab.h>
# include <linux/timer.h>
# include "picoxcell_crypto_regs.h"
/*
* The threshold for the number of entries in the CMD FIFO available before
* the CMD0_CNT interrupt is raised . Increasing this value will reduce the
* number of interrupts raised to the CPU .
*/
# define CMD0_IRQ_THRESHOLD 1
/*
* The timeout period ( in jiffies ) for a PDU . When the the number of PDUs in
* flight is greater than the STAT_IRQ_THRESHOLD or 0 the timer is disabled .
* When there are packets in flight but lower than the threshold , we enable
* the timer and at expiry , attempt to remove any processed packets from the
* queue and if there are still packets left , schedule the timer again .
*/
# define PACKET_TIMEOUT 1
/* The priority to register each algorithm with. */
# define SPACC_CRYPTO_ALG_PRIORITY 10000
# define SPACC_CRYPTO_KASUMI_F8_KEY_LEN 16
# define SPACC_CRYPTO_IPSEC_CIPHER_PG_SZ 64
# define SPACC_CRYPTO_IPSEC_HASH_PG_SZ 64
# define SPACC_CRYPTO_IPSEC_MAX_CTXS 32
# define SPACC_CRYPTO_IPSEC_FIFO_SZ 32
# define SPACC_CRYPTO_L2_CIPHER_PG_SZ 64
# define SPACC_CRYPTO_L2_HASH_PG_SZ 64
# define SPACC_CRYPTO_L2_MAX_CTXS 128
# define SPACC_CRYPTO_L2_FIFO_SZ 128
# define MAX_DDT_LEN 16
/* DDT format. This must match the hardware DDT format exactly. */
struct spacc_ddt {
dma_addr_t p ;
u32 len ;
} ;
/*
* Asynchronous crypto request structure .
*
* This structure defines a request that is either queued for processing or
* being processed .
*/
struct spacc_req {
struct list_head list ;
struct spacc_engine * engine ;
struct crypto_async_request * req ;
int result ;
bool is_encrypt ;
unsigned ctx_id ;
dma_addr_t src_addr , dst_addr ;
struct spacc_ddt * src_ddt , * dst_ddt ;
void ( * complete ) ( struct spacc_req * req ) ;
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} ;
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struct spacc_aead {
unsigned long ctrl_default ;
unsigned long type ;
struct aead_alg alg ;
struct spacc_engine * engine ;
struct list_head entry ;
int key_offs ;
int iv_offs ;
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} ;
struct spacc_engine {
void __iomem * regs ;
struct list_head pending ;
int next_ctx ;
spinlock_t hw_lock ;
int in_flight ;
struct list_head completed ;
struct list_head in_progress ;
struct tasklet_struct complete ;
unsigned long fifo_sz ;
void __iomem * cipher_ctx_base ;
void __iomem * hash_key_base ;
struct spacc_alg * algs ;
unsigned num_algs ;
struct list_head registered_algs ;
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struct spacc_aead * aeads ;
unsigned num_aeads ;
struct list_head registered_aeads ;
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size_t cipher_pg_sz ;
size_t hash_pg_sz ;
const char * name ;
struct clk * clk ;
struct device * dev ;
unsigned max_ctxs ;
struct timer_list packet_timeout ;
unsigned stat_irq_thresh ;
struct dma_pool * req_pool ;
} ;
/* Algorithm type mask. */
# define SPACC_CRYPTO_ALG_MASK 0x7
/* SPACC definition of a crypto algorithm. */
struct spacc_alg {
unsigned long ctrl_default ;
unsigned long type ;
struct crypto_alg alg ;
struct spacc_engine * engine ;
struct list_head entry ;
int key_offs ;
int iv_offs ;
} ;
/* Generic context structure for any algorithm type. */
struct spacc_generic_ctx {
struct spacc_engine * engine ;
int flags ;
int key_offs ;
int iv_offs ;
} ;
/* Block cipher context. */
struct spacc_ablk_ctx {
struct spacc_generic_ctx generic ;
u8 key [ AES_MAX_KEY_SIZE ] ;
u8 key_len ;
/*
* The fallback cipher . If the operation can ' t be done in hardware ,
* fallback to a software version .
*/
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struct crypto_sync_skcipher * sw_cipher ;
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} ;
/* AEAD cipher context. */
struct spacc_aead_ctx {
struct spacc_generic_ctx generic ;
u8 cipher_key [ AES_MAX_KEY_SIZE ] ;
u8 hash_ctx [ SPACC_CRYPTO_IPSEC_HASH_PG_SZ ] ;
u8 cipher_key_len ;
u8 hash_key_len ;
struct crypto_aead * sw_cipher ;
} ;
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static int spacc_ablk_submit ( struct spacc_req * req ) ;
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static inline struct spacc_alg * to_spacc_alg ( struct crypto_alg * alg )
{
return alg ? container_of ( alg , struct spacc_alg , alg ) : NULL ;
}
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static inline struct spacc_aead * to_spacc_aead ( struct aead_alg * alg )
{
return container_of ( alg , struct spacc_aead , alg ) ;
}
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static inline int spacc_fifo_cmd_full ( struct spacc_engine * engine )
{
u32 fifo_stat = readl ( engine - > regs + SPA_FIFO_STAT_REG_OFFSET ) ;
return fifo_stat & SPA_FIFO_CMD_FULL ;
}
/*
* Given a cipher context , and a context number , get the base address of the
* context page .
*
* Returns the address of the context page where the key / context may
* be written .
*/
static inline void __iomem * spacc_ctx_page_addr ( struct spacc_generic_ctx * ctx ,
unsigned indx ,
bool is_cipher_ctx )
{
return is_cipher_ctx ? ctx - > engine - > cipher_ctx_base +
( indx * ctx - > engine - > cipher_pg_sz ) :
ctx - > engine - > hash_key_base + ( indx * ctx - > engine - > hash_pg_sz ) ;
}
/* The context pages can only be written with 32-bit accesses. */
static inline void memcpy_toio32 ( u32 __iomem * dst , const void * src ,
unsigned count )
{
const u32 * src32 = ( const u32 * ) src ;
while ( count - - )
writel ( * src32 + + , dst + + ) ;
}
static void spacc_cipher_write_ctx ( struct spacc_generic_ctx * ctx ,
void __iomem * page_addr , const u8 * key ,
size_t key_len , const u8 * iv , size_t iv_len )
{
void __iomem * key_ptr = page_addr + ctx - > key_offs ;
void __iomem * iv_ptr = page_addr + ctx - > iv_offs ;
memcpy_toio32 ( key_ptr , key , key_len / 4 ) ;
memcpy_toio32 ( iv_ptr , iv , iv_len / 4 ) ;
}
/*
* Load a context into the engines context memory .
*
* Returns the index of the context page where the context was loaded .
*/
static unsigned spacc_load_ctx ( struct spacc_generic_ctx * ctx ,
const u8 * ciph_key , size_t ciph_len ,
const u8 * iv , size_t ivlen , const u8 * hash_key ,
size_t hash_len )
{
unsigned indx = ctx - > engine - > next_ctx + + ;
void __iomem * ciph_page_addr , * hash_page_addr ;
ciph_page_addr = spacc_ctx_page_addr ( ctx , indx , 1 ) ;
hash_page_addr = spacc_ctx_page_addr ( ctx , indx , 0 ) ;
ctx - > engine - > next_ctx & = ctx - > engine - > fifo_sz - 1 ;
spacc_cipher_write_ctx ( ctx , ciph_page_addr , ciph_key , ciph_len , iv ,
ivlen ) ;
writel ( ciph_len | ( indx < < SPA_KEY_SZ_CTX_INDEX_OFFSET ) |
( 1 < < SPA_KEY_SZ_CIPHER_OFFSET ) ,
ctx - > engine - > regs + SPA_KEY_SZ_REG_OFFSET ) ;
if ( hash_key ) {
memcpy_toio32 ( hash_page_addr , hash_key , hash_len / 4 ) ;
writel ( hash_len | ( indx < < SPA_KEY_SZ_CTX_INDEX_OFFSET ) ,
ctx - > engine - > regs + SPA_KEY_SZ_REG_OFFSET ) ;
}
return indx ;
}
static inline void ddt_set ( struct spacc_ddt * ddt , dma_addr_t phys , size_t len )
{
ddt - > p = phys ;
ddt - > len = len ;
}
/*
* Take a crypto request and scatterlists for the data and turn them into DDTs
* for passing to the crypto engines . This also DMA maps the data so that the
* crypto engines can DMA to / from them .
*/
static struct spacc_ddt * spacc_sg_to_ddt ( struct spacc_engine * engine ,
struct scatterlist * payload ,
unsigned nbytes ,
enum dma_data_direction dir ,
dma_addr_t * ddt_phys )
{
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unsigned mapped_ents ;
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struct scatterlist * cur ;
struct spacc_ddt * ddt ;
int i ;
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int nents ;
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nents = sg_nents_for_len ( payload , nbytes ) ;
if ( nents < 0 ) {
dev_err ( engine - > dev , " Invalid numbers of SG. \n " ) ;
return NULL ;
}
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mapped_ents = dma_map_sg ( engine - > dev , payload , nents , dir ) ;
if ( mapped_ents + 1 > MAX_DDT_LEN )
goto out ;
ddt = dma_pool_alloc ( engine - > req_pool , GFP_ATOMIC , ddt_phys ) ;
if ( ! ddt )
goto out ;
for_each_sg ( payload , cur , mapped_ents , i )
ddt_set ( & ddt [ i ] , sg_dma_address ( cur ) , sg_dma_len ( cur ) ) ;
ddt_set ( & ddt [ mapped_ents ] , 0 , 0 ) ;
return ddt ;
out :
dma_unmap_sg ( engine - > dev , payload , nents , dir ) ;
return NULL ;
}
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static int spacc_aead_make_ddts ( struct aead_request * areq )
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{
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struct crypto_aead * aead = crypto_aead_reqtfm ( areq ) ;
struct spacc_req * req = aead_request_ctx ( areq ) ;
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struct spacc_engine * engine = req - > engine ;
struct spacc_ddt * src_ddt , * dst_ddt ;
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unsigned total ;
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int src_nents , dst_nents ;
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struct scatterlist * cur ;
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int i , dst_ents , src_ents ;
total = areq - > assoclen + areq - > cryptlen ;
if ( req - > is_encrypt )
total + = crypto_aead_authsize ( aead ) ;
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src_nents = sg_nents_for_len ( areq - > src , total ) ;
if ( src_nents < 0 ) {
dev_err ( engine - > dev , " Invalid numbers of src SG. \n " ) ;
return src_nents ;
}
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if ( src_nents + 1 > MAX_DDT_LEN )
return - E2BIG ;
dst_nents = 0 ;
if ( areq - > src ! = areq - > dst ) {
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dst_nents = sg_nents_for_len ( areq - > dst , total ) ;
if ( dst_nents < 0 ) {
dev_err ( engine - > dev , " Invalid numbers of dst SG. \n " ) ;
return dst_nents ;
}
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if ( src_nents + 1 > MAX_DDT_LEN )
return - E2BIG ;
}
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src_ddt = dma_pool_alloc ( engine - > req_pool , GFP_ATOMIC , & req - > src_addr ) ;
if ( ! src_ddt )
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goto err ;
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dst_ddt = dma_pool_alloc ( engine - > req_pool , GFP_ATOMIC , & req - > dst_addr ) ;
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if ( ! dst_ddt )
goto err_free_src ;
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req - > src_ddt = src_ddt ;
req - > dst_ddt = dst_ddt ;
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if ( dst_nents ) {
src_ents = dma_map_sg ( engine - > dev , areq - > src , src_nents ,
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DMA_TO_DEVICE ) ;
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if ( ! src_ents )
goto err_free_dst ;
dst_ents = dma_map_sg ( engine - > dev , areq - > dst , dst_nents ,
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DMA_FROM_DEVICE ) ;
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if ( ! dst_ents ) {
dma_unmap_sg ( engine - > dev , areq - > src , src_nents ,
DMA_TO_DEVICE ) ;
goto err_free_dst ;
}
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} else {
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src_ents = dma_map_sg ( engine - > dev , areq - > src , src_nents ,
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DMA_BIDIRECTIONAL ) ;
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if ( ! src_ents )
goto err_free_dst ;
dst_ents = src_ents ;
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}
/*
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* Now map in the payload for the source and destination and terminate
* with the NULL pointers .
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*/
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for_each_sg ( areq - > src , cur , src_ents , i )
ddt_set ( src_ddt + + , sg_dma_address ( cur ) , sg_dma_len ( cur ) ) ;
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/* For decryption we need to skip the associated data. */
total = req - > is_encrypt ? 0 : areq - > assoclen ;
for_each_sg ( areq - > dst , cur , dst_ents , i ) {
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unsigned len = sg_dma_len ( cur ) ;
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if ( len < = total ) {
total - = len ;
continue ;
}
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ddt_set ( dst_ddt + + , sg_dma_address ( cur ) + total , len - total ) ;
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}
ddt_set ( src_ddt , 0 , 0 ) ;
ddt_set ( dst_ddt , 0 , 0 ) ;
return 0 ;
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err_free_dst :
dma_pool_free ( engine - > req_pool , dst_ddt , req - > dst_addr ) ;
err_free_src :
dma_pool_free ( engine - > req_pool , src_ddt , req - > src_addr ) ;
err :
return - ENOMEM ;
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}
static void spacc_aead_free_ddts ( struct spacc_req * req )
{
struct aead_request * areq = container_of ( req - > req , struct aead_request ,
base ) ;
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struct crypto_aead * aead = crypto_aead_reqtfm ( areq ) ;
unsigned total = areq - > assoclen + areq - > cryptlen +
( req - > is_encrypt ? crypto_aead_authsize ( aead ) : 0 ) ;
struct spacc_aead_ctx * aead_ctx = crypto_aead_ctx ( aead ) ;
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struct spacc_engine * engine = aead_ctx - > generic . engine ;
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int nents = sg_nents_for_len ( areq - > src , total ) ;
/* sg_nents_for_len should not fail since it works when mapping sg */
if ( unlikely ( nents < 0 ) ) {
dev_err ( engine - > dev , " Invalid numbers of src SG. \n " ) ;
return ;
}
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if ( areq - > src ! = areq - > dst ) {
dma_unmap_sg ( engine - > dev , areq - > src , nents , DMA_TO_DEVICE ) ;
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nents = sg_nents_for_len ( areq - > dst , total ) ;
if ( unlikely ( nents < 0 ) ) {
dev_err ( engine - > dev , " Invalid numbers of dst SG. \n " ) ;
return ;
}
dma_unmap_sg ( engine - > dev , areq - > dst , nents , DMA_FROM_DEVICE ) ;
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} else
dma_unmap_sg ( engine - > dev , areq - > src , nents , DMA_BIDIRECTIONAL ) ;
dma_pool_free ( engine - > req_pool , req - > src_ddt , req - > src_addr ) ;
dma_pool_free ( engine - > req_pool , req - > dst_ddt , req - > dst_addr ) ;
}
static void spacc_free_ddt ( struct spacc_req * req , struct spacc_ddt * ddt ,
dma_addr_t ddt_addr , struct scatterlist * payload ,
unsigned nbytes , enum dma_data_direction dir )
{
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int nents = sg_nents_for_len ( payload , nbytes ) ;
if ( nents < 0 ) {
dev_err ( req - > engine - > dev , " Invalid numbers of SG. \n " ) ;
return ;
}
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dma_unmap_sg ( req - > engine - > dev , payload , nents , dir ) ;
dma_pool_free ( req - > engine - > req_pool , ddt , ddt_addr ) ;
}
static int spacc_aead_setkey ( struct crypto_aead * tfm , const u8 * key ,
unsigned int keylen )
{
struct spacc_aead_ctx * ctx = crypto_aead_ctx ( tfm ) ;
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struct crypto_authenc_keys keys ;
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int err ;
crypto_aead_clear_flags ( ctx - > sw_cipher , CRYPTO_TFM_REQ_MASK ) ;
crypto_aead_set_flags ( ctx - > sw_cipher , crypto_aead_get_flags ( tfm ) &
CRYPTO_TFM_REQ_MASK ) ;
err = crypto_aead_setkey ( ctx - > sw_cipher , key , keylen ) ;
crypto_aead_clear_flags ( tfm , CRYPTO_TFM_RES_MASK ) ;
crypto_aead_set_flags ( tfm , crypto_aead_get_flags ( ctx - > sw_cipher ) &
CRYPTO_TFM_RES_MASK ) ;
if ( err )
return err ;
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if ( crypto_authenc_extractkeys ( & keys , key , keylen ) ! = 0 )
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goto badkey ;
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if ( keys . enckeylen > AES_MAX_KEY_SIZE )
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goto badkey ;
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if ( keys . authkeylen > sizeof ( ctx - > hash_ctx ) )
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goto badkey ;
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memcpy ( ctx - > cipher_key , keys . enckey , keys . enckeylen ) ;
ctx - > cipher_key_len = keys . enckeylen ;
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memcpy ( ctx - > hash_ctx , keys . authkey , keys . authkeylen ) ;
ctx - > hash_key_len = keys . authkeylen ;
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memzero_explicit ( & keys , sizeof ( keys ) ) ;
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return 0 ;
badkey :
crypto_aead_set_flags ( tfm , CRYPTO_TFM_RES_BAD_KEY_LEN ) ;
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memzero_explicit ( & keys , sizeof ( keys ) ) ;
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return - EINVAL ;
}
static int spacc_aead_setauthsize ( struct crypto_aead * tfm ,
unsigned int authsize )
{
struct spacc_aead_ctx * ctx = crypto_tfm_ctx ( crypto_aead_tfm ( tfm ) ) ;
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return crypto_aead_setauthsize ( ctx - > sw_cipher , authsize ) ;
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}
/*
* Check if an AEAD request requires a fallback operation . Some requests can ' t
* be completed in hardware because the hardware may not support certain key
* sizes . In these cases we need to complete the request in software .
*/
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static int spacc_aead_need_fallback ( struct aead_request * aead_req )
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{
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struct crypto_aead * aead = crypto_aead_reqtfm ( aead_req ) ;
struct aead_alg * alg = crypto_aead_alg ( aead ) ;
struct spacc_aead * spacc_alg = to_spacc_aead ( alg ) ;
struct spacc_aead_ctx * ctx = crypto_aead_ctx ( aead ) ;
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/*
* If we have a non - supported key - length , then we need to do a
* software fallback .
*/
if ( ( spacc_alg - > ctrl_default & SPACC_CRYPTO_ALG_MASK ) = =
SPA_CTRL_CIPH_ALG_AES & &
ctx - > cipher_key_len ! = AES_KEYSIZE_128 & &
ctx - > cipher_key_len ! = AES_KEYSIZE_256 )
return 1 ;
return 0 ;
}
static int spacc_aead_do_fallback ( struct aead_request * req , unsigned alg_type ,
bool is_encrypt )
{
struct crypto_tfm * old_tfm = crypto_aead_tfm ( crypto_aead_reqtfm ( req ) ) ;
struct spacc_aead_ctx * ctx = crypto_tfm_ctx ( old_tfm ) ;
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struct aead_request * subreq = aead_request_ctx ( req ) ;
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aead_request_set_tfm ( subreq , ctx - > sw_cipher ) ;
aead_request_set_callback ( subreq , req - > base . flags ,
req - > base . complete , req - > base . data ) ;
aead_request_set_crypt ( subreq , req - > src , req - > dst , req - > cryptlen ,
req - > iv ) ;
aead_request_set_ad ( subreq , req - > assoclen ) ;
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return is_encrypt ? crypto_aead_encrypt ( subreq ) :
crypto_aead_decrypt ( subreq ) ;
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}
static void spacc_aead_complete ( struct spacc_req * req )
{
spacc_aead_free_ddts ( req ) ;
req - > req - > complete ( req - > req , req - > result ) ;
}
static int spacc_aead_submit ( struct spacc_req * req )
{
struct aead_request * aead_req =
container_of ( req - > req , struct aead_request , base ) ;
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struct crypto_aead * aead = crypto_aead_reqtfm ( aead_req ) ;
unsigned int authsize = crypto_aead_authsize ( aead ) ;
struct spacc_aead_ctx * ctx = crypto_aead_ctx ( aead ) ;
struct aead_alg * alg = crypto_aead_alg ( aead ) ;
struct spacc_aead * spacc_alg = to_spacc_aead ( alg ) ;
struct spacc_engine * engine = ctx - > generic . engine ;
u32 ctrl , proc_len , assoc_len ;
2011-02-21 08:43:21 +03:00
req - > result = - EINPROGRESS ;
req - > ctx_id = spacc_load_ctx ( & ctx - > generic , ctx - > cipher_key ,
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ctx - > cipher_key_len , aead_req - > iv , crypto_aead_ivsize ( aead ) ,
2011-02-21 08:43:21 +03:00
ctx - > hash_ctx , ctx - > hash_key_len ) ;
/* Set the source and destination DDT pointers. */
writel ( req - > src_addr , engine - > regs + SPA_SRC_PTR_REG_OFFSET ) ;
writel ( req - > dst_addr , engine - > regs + SPA_DST_PTR_REG_OFFSET ) ;
writel ( 0 , engine - > regs + SPA_OFFSET_REG_OFFSET ) ;
assoc_len = aead_req - > assoclen ;
proc_len = aead_req - > cryptlen + assoc_len ;
/*
* If we are decrypting , we need to take the length of the ICV out of
* the processing length .
*/
if ( ! req - > is_encrypt )
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proc_len - = authsize ;
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writel ( proc_len , engine - > regs + SPA_PROC_LEN_REG_OFFSET ) ;
writel ( assoc_len , engine - > regs + SPA_AAD_LEN_REG_OFFSET ) ;
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writel ( authsize , engine - > regs + SPA_ICV_LEN_REG_OFFSET ) ;
2011-02-21 08:43:21 +03:00
writel ( 0 , engine - > regs + SPA_ICV_OFFSET_REG_OFFSET ) ;
writel ( 0 , engine - > regs + SPA_AUX_INFO_REG_OFFSET ) ;
ctrl = spacc_alg - > ctrl_default | ( req - > ctx_id < < SPA_CTRL_CTX_IDX ) |
( 1 < < SPA_CTRL_ICV_APPEND ) ;
if ( req - > is_encrypt )
ctrl | = ( 1 < < SPA_CTRL_ENCRYPT_IDX ) | ( 1 < < SPA_CTRL_AAD_COPY ) ;
else
ctrl | = ( 1 < < SPA_CTRL_KEY_EXP ) ;
mod_timer ( & engine - > packet_timeout , jiffies + PACKET_TIMEOUT ) ;
writel ( ctrl , engine - > regs + SPA_CTRL_REG_OFFSET ) ;
return - EINPROGRESS ;
}
2011-03-27 06:48:29 +04:00
static int spacc_req_submit ( struct spacc_req * req ) ;
static void spacc_push ( struct spacc_engine * engine )
{
struct spacc_req * req ;
while ( ! list_empty ( & engine - > pending ) & &
engine - > in_flight + 1 < = engine - > fifo_sz ) {
+ + engine - > in_flight ;
req = list_first_entry ( & engine - > pending , struct spacc_req ,
list ) ;
list_move_tail ( & req - > list , & engine - > in_progress ) ;
req - > result = spacc_req_submit ( req ) ;
}
}
2011-02-21 08:43:21 +03:00
/*
* Setup an AEAD request for processing . This will configure the engine , load
* the context and then start the packet processing .
*/
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static int spacc_aead_setup ( struct aead_request * req ,
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unsigned alg_type , bool is_encrypt )
{
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struct crypto_aead * aead = crypto_aead_reqtfm ( req ) ;
struct aead_alg * alg = crypto_aead_alg ( aead ) ;
struct spacc_engine * engine = to_spacc_aead ( alg ) - > engine ;
2011-02-21 08:43:21 +03:00
struct spacc_req * dev_req = aead_request_ctx ( req ) ;
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int err ;
2011-02-21 08:43:21 +03:00
unsigned long flags ;
dev_req - > req = & req - > base ;
dev_req - > is_encrypt = is_encrypt ;
dev_req - > result = - EBUSY ;
dev_req - > engine = engine ;
dev_req - > complete = spacc_aead_complete ;
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if ( unlikely ( spacc_aead_need_fallback ( req ) | |
( ( err = spacc_aead_make_ddts ( req ) ) = = - E2BIG ) ) )
2011-02-21 08:43:21 +03:00
return spacc_aead_do_fallback ( req , alg_type , is_encrypt ) ;
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if ( err )
goto out ;
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err = - EINPROGRESS ;
spin_lock_irqsave ( & engine - > hw_lock , flags ) ;
2011-03-27 06:48:29 +04:00
if ( unlikely ( spacc_fifo_cmd_full ( engine ) ) | |
engine - > in_flight + 1 > engine - > fifo_sz ) {
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if ( ! ( req - > base . flags & CRYPTO_TFM_REQ_MAY_BACKLOG ) ) {
err = - EBUSY ;
spin_unlock_irqrestore ( & engine - > hw_lock , flags ) ;
goto out_free_ddts ;
}
list_add_tail ( & dev_req - > list , & engine - > pending ) ;
} else {
2011-03-27 06:48:29 +04:00
list_add_tail ( & dev_req - > list , & engine - > pending ) ;
spacc_push ( engine ) ;
2011-02-21 08:43:21 +03:00
}
spin_unlock_irqrestore ( & engine - > hw_lock , flags ) ;
goto out ;
out_free_ddts :
spacc_aead_free_ddts ( dev_req ) ;
out :
return err ;
}
static int spacc_aead_encrypt ( struct aead_request * req )
{
struct crypto_aead * aead = crypto_aead_reqtfm ( req ) ;
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struct spacc_aead * alg = to_spacc_aead ( crypto_aead_alg ( aead ) ) ;
2011-02-21 08:43:21 +03:00
2015-07-30 12:53:19 +03:00
return spacc_aead_setup ( req , alg - > type , 1 ) ;
2011-02-21 08:43:21 +03:00
}
static int spacc_aead_decrypt ( struct aead_request * req )
{
struct crypto_aead * aead = crypto_aead_reqtfm ( req ) ;
2015-07-30 12:53:19 +03:00
struct spacc_aead * alg = to_spacc_aead ( crypto_aead_alg ( aead ) ) ;
2011-02-21 08:43:21 +03:00
2015-07-30 12:53:19 +03:00
return spacc_aead_setup ( req , alg - > type , 0 ) ;
2011-02-21 08:43:21 +03:00
}
/*
* Initialise a new AEAD context . This is responsible for allocating the
* fallback cipher and initialising the context .
*/
2015-07-30 12:53:19 +03:00
static int spacc_aead_cra_init ( struct crypto_aead * tfm )
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{
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struct spacc_aead_ctx * ctx = crypto_aead_ctx ( tfm ) ;
struct aead_alg * alg = crypto_aead_alg ( tfm ) ;
struct spacc_aead * spacc_alg = to_spacc_aead ( alg ) ;
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struct spacc_engine * engine = spacc_alg - > engine ;
ctx - > generic . flags = spacc_alg - > type ;
ctx - > generic . engine = engine ;
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ctx - > sw_cipher = crypto_alloc_aead ( alg - > base . cra_name , 0 ,
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CRYPTO_ALG_NEED_FALLBACK ) ;
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if ( IS_ERR ( ctx - > sw_cipher ) )
return PTR_ERR ( ctx - > sw_cipher ) ;
2011-02-21 08:43:21 +03:00
ctx - > generic . key_offs = spacc_alg - > key_offs ;
ctx - > generic . iv_offs = spacc_alg - > iv_offs ;
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crypto_aead_set_reqsize (
tfm ,
max ( sizeof ( struct spacc_req ) ,
sizeof ( struct aead_request ) +
crypto_aead_reqsize ( ctx - > sw_cipher ) ) ) ;
2011-02-21 08:43:21 +03:00
return 0 ;
}
/*
* Destructor for an AEAD context . This is called when the transform is freed
* and must free the fallback cipher .
*/
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static void spacc_aead_cra_exit ( struct crypto_aead * tfm )
2011-02-21 08:43:21 +03:00
{
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struct spacc_aead_ctx * ctx = crypto_aead_ctx ( tfm ) ;
2011-02-21 08:43:21 +03:00
2015-07-30 12:53:19 +03:00
crypto_free_aead ( ctx - > sw_cipher ) ;
2011-02-21 08:43:21 +03:00
}
/*
* Set the DES key for a block cipher transform . This also performs weak key
* checking if the transform has requested it .
*/
static int spacc_des_setkey ( struct crypto_ablkcipher * cipher , const u8 * key ,
unsigned int len )
{
struct crypto_tfm * tfm = crypto_ablkcipher_tfm ( cipher ) ;
struct spacc_ablk_ctx * ctx = crypto_tfm_ctx ( tfm ) ;
u32 tmp [ DES_EXPKEY_WORDS ] ;
if ( len > DES3_EDE_KEY_SIZE ) {
crypto_ablkcipher_set_flags ( cipher , CRYPTO_TFM_RES_BAD_KEY_LEN ) ;
return - EINVAL ;
}
if ( unlikely ( ! des_ekey ( tmp , key ) ) & &
( crypto_ablkcipher_get_flags ( cipher ) & CRYPTO_TFM_REQ_WEAK_KEY ) ) {
tfm - > crt_flags | = CRYPTO_TFM_RES_WEAK_KEY ;
return - EINVAL ;
}
memcpy ( ctx - > key , key , len ) ;
ctx - > key_len = len ;
return 0 ;
}
/*
* Set the key for an AES block cipher . Some key lengths are not supported in
* hardware so this must also check whether a fallback is needed .
*/
static int spacc_aes_setkey ( struct crypto_ablkcipher * cipher , const u8 * key ,
unsigned int len )
{
struct crypto_tfm * tfm = crypto_ablkcipher_tfm ( cipher ) ;
struct spacc_ablk_ctx * ctx = crypto_tfm_ctx ( tfm ) ;
int err = 0 ;
if ( len > AES_MAX_KEY_SIZE ) {
crypto_ablkcipher_set_flags ( cipher , CRYPTO_TFM_RES_BAD_KEY_LEN ) ;
return - EINVAL ;
}
/*
* IPSec engine only supports 128 and 256 bit AES keys . If we get a
* request for any other size ( 192 bits ) then we need to do a software
* fallback .
*/
2016-06-29 13:04:03 +03:00
if ( len ! = AES_KEYSIZE_128 & & len ! = AES_KEYSIZE_256 ) {
if ( ! ctx - > sw_cipher )
return - EINVAL ;
2011-02-21 08:43:21 +03:00
/*
* Set the fallback transform to use the same request flags as
* the hardware transform .
*/
2018-09-19 05:10:59 +03:00
crypto_sync_skcipher_clear_flags ( ctx - > sw_cipher ,
2016-06-29 13:04:03 +03:00
CRYPTO_TFM_REQ_MASK ) ;
2018-09-19 05:10:59 +03:00
crypto_sync_skcipher_set_flags ( ctx - > sw_cipher ,
2016-06-29 13:04:03 +03:00
cipher - > base . crt_flags &
CRYPTO_TFM_REQ_MASK ) ;
2018-09-19 05:10:59 +03:00
err = crypto_sync_skcipher_setkey ( ctx - > sw_cipher , key , len ) ;
2016-06-29 13:04:03 +03:00
tfm - > crt_flags & = ~ CRYPTO_TFM_RES_MASK ;
tfm - > crt_flags | =
2018-09-19 05:10:59 +03:00
crypto_sync_skcipher_get_flags ( ctx - > sw_cipher ) &
2016-06-29 13:04:03 +03:00
CRYPTO_TFM_RES_MASK ;
2011-02-21 08:43:21 +03:00
if ( err )
goto sw_setkey_failed ;
2016-06-29 13:04:03 +03:00
}
2011-02-21 08:43:21 +03:00
memcpy ( ctx - > key , key , len ) ;
ctx - > key_len = len ;
sw_setkey_failed :
return err ;
}
static int spacc_kasumi_f8_setkey ( struct crypto_ablkcipher * cipher ,
const u8 * key , unsigned int len )
{
struct crypto_tfm * tfm = crypto_ablkcipher_tfm ( cipher ) ;
struct spacc_ablk_ctx * ctx = crypto_tfm_ctx ( tfm ) ;
int err = 0 ;
if ( len > AES_MAX_KEY_SIZE ) {
crypto_ablkcipher_set_flags ( cipher , CRYPTO_TFM_RES_BAD_KEY_LEN ) ;
err = - EINVAL ;
goto out ;
}
memcpy ( ctx - > key , key , len ) ;
ctx - > key_len = len ;
out :
return err ;
}
static int spacc_ablk_need_fallback ( struct spacc_req * req )
{
struct spacc_ablk_ctx * ctx ;
struct crypto_tfm * tfm = req - > req - > tfm ;
struct crypto_alg * alg = req - > req - > tfm - > __crt_alg ;
struct spacc_alg * spacc_alg = to_spacc_alg ( alg ) ;
ctx = crypto_tfm_ctx ( tfm ) ;
return ( spacc_alg - > ctrl_default & SPACC_CRYPTO_ALG_MASK ) = =
SPA_CTRL_CIPH_ALG_AES & &
ctx - > key_len ! = AES_KEYSIZE_128 & &
ctx - > key_len ! = AES_KEYSIZE_256 ;
}
static void spacc_ablk_complete ( struct spacc_req * req )
{
2015-12-28 16:53:07 +03:00
struct ablkcipher_request * ablk_req = ablkcipher_request_cast ( req - > req ) ;
2011-02-21 08:43:21 +03:00
if ( ablk_req - > src ! = ablk_req - > dst ) {
spacc_free_ddt ( req , req - > src_ddt , req - > src_addr , ablk_req - > src ,
ablk_req - > nbytes , DMA_TO_DEVICE ) ;
spacc_free_ddt ( req , req - > dst_ddt , req - > dst_addr , ablk_req - > dst ,
ablk_req - > nbytes , DMA_FROM_DEVICE ) ;
} else
spacc_free_ddt ( req , req - > dst_ddt , req - > dst_addr , ablk_req - > dst ,
ablk_req - > nbytes , DMA_BIDIRECTIONAL ) ;
req - > req - > complete ( req - > req , req - > result ) ;
}
static int spacc_ablk_submit ( struct spacc_req * req )
{
struct crypto_tfm * tfm = req - > req - > tfm ;
struct spacc_ablk_ctx * ctx = crypto_tfm_ctx ( tfm ) ;
struct ablkcipher_request * ablk_req = ablkcipher_request_cast ( req - > req ) ;
struct crypto_alg * alg = req - > req - > tfm - > __crt_alg ;
struct spacc_alg * spacc_alg = to_spacc_alg ( alg ) ;
struct spacc_engine * engine = ctx - > generic . engine ;
u32 ctrl ;
req - > ctx_id = spacc_load_ctx ( & ctx - > generic , ctx - > key ,
ctx - > key_len , ablk_req - > info , alg - > cra_ablkcipher . ivsize ,
NULL , 0 ) ;
writel ( req - > src_addr , engine - > regs + SPA_SRC_PTR_REG_OFFSET ) ;
writel ( req - > dst_addr , engine - > regs + SPA_DST_PTR_REG_OFFSET ) ;
writel ( 0 , engine - > regs + SPA_OFFSET_REG_OFFSET ) ;
writel ( ablk_req - > nbytes , engine - > regs + SPA_PROC_LEN_REG_OFFSET ) ;
writel ( 0 , engine - > regs + SPA_ICV_OFFSET_REG_OFFSET ) ;
writel ( 0 , engine - > regs + SPA_AUX_INFO_REG_OFFSET ) ;
writel ( 0 , engine - > regs + SPA_AAD_LEN_REG_OFFSET ) ;
ctrl = spacc_alg - > ctrl_default | ( req - > ctx_id < < SPA_CTRL_CTX_IDX ) |
( req - > is_encrypt ? ( 1 < < SPA_CTRL_ENCRYPT_IDX ) :
( 1 < < SPA_CTRL_KEY_EXP ) ) ;
mod_timer ( & engine - > packet_timeout , jiffies + PACKET_TIMEOUT ) ;
writel ( ctrl , engine - > regs + SPA_CTRL_REG_OFFSET ) ;
return - EINPROGRESS ;
}
static int spacc_ablk_do_fallback ( struct ablkcipher_request * req ,
unsigned alg_type , bool is_encrypt )
{
struct crypto_tfm * old_tfm =
crypto_ablkcipher_tfm ( crypto_ablkcipher_reqtfm ( req ) ) ;
struct spacc_ablk_ctx * ctx = crypto_tfm_ctx ( old_tfm ) ;
2018-09-19 05:10:59 +03:00
SYNC_SKCIPHER_REQUEST_ON_STACK ( subreq , ctx - > sw_cipher ) ;
2011-02-21 08:43:21 +03:00
int err ;
/*
* Change the request to use the software fallback transform , and once
* the ciphering has completed , put the old transform back into the
* request .
*/
2018-09-19 05:10:59 +03:00
skcipher_request_set_sync_tfm ( subreq , ctx - > sw_cipher ) ;
2016-06-29 13:04:03 +03:00
skcipher_request_set_callback ( subreq , req - > base . flags , NULL , NULL ) ;
skcipher_request_set_crypt ( subreq , req - > src , req - > dst ,
req - > nbytes , req - > info ) ;
err = is_encrypt ? crypto_skcipher_encrypt ( subreq ) :
crypto_skcipher_decrypt ( subreq ) ;
skcipher_request_zero ( subreq ) ;
2011-02-21 08:43:21 +03:00
return err ;
}
static int spacc_ablk_setup ( struct ablkcipher_request * req , unsigned alg_type ,
bool is_encrypt )
{
struct crypto_alg * alg = req - > base . tfm - > __crt_alg ;
struct spacc_engine * engine = to_spacc_alg ( alg ) - > engine ;
struct spacc_req * dev_req = ablkcipher_request_ctx ( req ) ;
unsigned long flags ;
int err = - ENOMEM ;
dev_req - > req = & req - > base ;
dev_req - > is_encrypt = is_encrypt ;
dev_req - > engine = engine ;
dev_req - > complete = spacc_ablk_complete ;
dev_req - > result = - EINPROGRESS ;
if ( unlikely ( spacc_ablk_need_fallback ( dev_req ) ) )
return spacc_ablk_do_fallback ( req , alg_type , is_encrypt ) ;
/*
* Create the DDT ' s for the engine . If we share the same source and
* destination then we can optimize by reusing the DDT ' s .
*/
if ( req - > src ! = req - > dst ) {
dev_req - > src_ddt = spacc_sg_to_ddt ( engine , req - > src ,
req - > nbytes , DMA_TO_DEVICE , & dev_req - > src_addr ) ;
if ( ! dev_req - > src_ddt )
goto out ;
dev_req - > dst_ddt = spacc_sg_to_ddt ( engine , req - > dst ,
req - > nbytes , DMA_FROM_DEVICE , & dev_req - > dst_addr ) ;
if ( ! dev_req - > dst_ddt )
goto out_free_src ;
} else {
dev_req - > dst_ddt = spacc_sg_to_ddt ( engine , req - > dst ,
req - > nbytes , DMA_BIDIRECTIONAL , & dev_req - > dst_addr ) ;
if ( ! dev_req - > dst_ddt )
goto out ;
dev_req - > src_ddt = NULL ;
dev_req - > src_addr = dev_req - > dst_addr ;
}
err = - EINPROGRESS ;
spin_lock_irqsave ( & engine - > hw_lock , flags ) ;
/*
* Check if the engine will accept the operation now . If it won ' t then
* we either stick it on the end of a pending list if we can backlog ,
* or bailout with an error if not .
*/
2011-03-27 06:48:29 +04:00
if ( unlikely ( spacc_fifo_cmd_full ( engine ) ) | |
engine - > in_flight + 1 > engine - > fifo_sz ) {
2011-02-21 08:43:21 +03:00
if ( ! ( req - > base . flags & CRYPTO_TFM_REQ_MAY_BACKLOG ) ) {
err = - EBUSY ;
spin_unlock_irqrestore ( & engine - > hw_lock , flags ) ;
goto out_free_ddts ;
}
list_add_tail ( & dev_req - > list , & engine - > pending ) ;
} else {
2011-03-27 06:48:29 +04:00
list_add_tail ( & dev_req - > list , & engine - > pending ) ;
spacc_push ( engine ) ;
2011-02-21 08:43:21 +03:00
}
spin_unlock_irqrestore ( & engine - > hw_lock , flags ) ;
goto out ;
out_free_ddts :
spacc_free_ddt ( dev_req , dev_req - > dst_ddt , dev_req - > dst_addr , req - > dst ,
req - > nbytes , req - > src = = req - > dst ?
DMA_BIDIRECTIONAL : DMA_FROM_DEVICE ) ;
out_free_src :
if ( req - > src ! = req - > dst )
spacc_free_ddt ( dev_req , dev_req - > src_ddt , dev_req - > src_addr ,
req - > src , req - > nbytes , DMA_TO_DEVICE ) ;
out :
return err ;
}
static int spacc_ablk_cra_init ( struct crypto_tfm * tfm )
{
struct spacc_ablk_ctx * ctx = crypto_tfm_ctx ( tfm ) ;
struct crypto_alg * alg = tfm - > __crt_alg ;
struct spacc_alg * spacc_alg = to_spacc_alg ( alg ) ;
struct spacc_engine * engine = spacc_alg - > engine ;
ctx - > generic . flags = spacc_alg - > type ;
ctx - > generic . engine = engine ;
if ( alg - > cra_flags & CRYPTO_ALG_NEED_FALLBACK ) {
2018-09-19 05:10:59 +03:00
ctx - > sw_cipher = crypto_alloc_sync_skcipher (
alg - > cra_name , 0 , CRYPTO_ALG_NEED_FALLBACK ) ;
2011-02-21 08:43:21 +03:00
if ( IS_ERR ( ctx - > sw_cipher ) ) {
dev_warn ( engine - > dev , " failed to allocate fallback for %s \n " ,
alg - > cra_name ) ;
2016-06-29 13:04:03 +03:00
return PTR_ERR ( ctx - > sw_cipher ) ;
2011-02-21 08:43:21 +03:00
}
}
ctx - > generic . key_offs = spacc_alg - > key_offs ;
ctx - > generic . iv_offs = spacc_alg - > iv_offs ;
tfm - > crt_ablkcipher . reqsize = sizeof ( struct spacc_req ) ;
return 0 ;
}
static void spacc_ablk_cra_exit ( struct crypto_tfm * tfm )
{
struct spacc_ablk_ctx * ctx = crypto_tfm_ctx ( tfm ) ;
2018-09-19 05:10:59 +03:00
crypto_free_sync_skcipher ( ctx - > sw_cipher ) ;
2011-02-21 08:43:21 +03:00
}
static int spacc_ablk_encrypt ( struct ablkcipher_request * req )
{
struct crypto_ablkcipher * cipher = crypto_ablkcipher_reqtfm ( req ) ;
struct crypto_tfm * tfm = crypto_ablkcipher_tfm ( cipher ) ;
struct spacc_alg * alg = to_spacc_alg ( tfm - > __crt_alg ) ;
return spacc_ablk_setup ( req , alg - > type , 1 ) ;
}
static int spacc_ablk_decrypt ( struct ablkcipher_request * req )
{
struct crypto_ablkcipher * cipher = crypto_ablkcipher_reqtfm ( req ) ;
struct crypto_tfm * tfm = crypto_ablkcipher_tfm ( cipher ) ;
struct spacc_alg * alg = to_spacc_alg ( tfm - > __crt_alg ) ;
return spacc_ablk_setup ( req , alg - > type , 0 ) ;
}
static inline int spacc_fifo_stat_empty ( struct spacc_engine * engine )
{
return readl ( engine - > regs + SPA_FIFO_STAT_REG_OFFSET ) &
SPA_FIFO_STAT_EMPTY ;
}
static void spacc_process_done ( struct spacc_engine * engine )
{
struct spacc_req * req ;
unsigned long flags ;
spin_lock_irqsave ( & engine - > hw_lock , flags ) ;
while ( ! spacc_fifo_stat_empty ( engine ) ) {
req = list_first_entry ( & engine - > in_progress , struct spacc_req ,
list ) ;
list_move_tail ( & req - > list , & engine - > completed ) ;
2011-03-27 06:48:29 +04:00
- - engine - > in_flight ;
2011-02-21 08:43:21 +03:00
/* POP the status register. */
writel ( ~ 0 , engine - > regs + SPA_STAT_POP_REG_OFFSET ) ;
req - > result = ( readl ( engine - > regs + SPA_STATUS_REG_OFFSET ) &
SPA_STATUS_RES_CODE_MASK ) > > SPA_STATUS_RES_CODE_OFFSET ;
/*
* Convert the SPAcc error status into the standard POSIX error
* codes .
*/
if ( unlikely ( req - > result ) ) {
switch ( req - > result ) {
case SPA_STATUS_ICV_FAIL :
req - > result = - EBADMSG ;
break ;
case SPA_STATUS_MEMORY_ERROR :
dev_warn ( engine - > dev ,
" memory error triggered \n " ) ;
req - > result = - EFAULT ;
break ;
case SPA_STATUS_BLOCK_ERROR :
dev_warn ( engine - > dev ,
" block error triggered \n " ) ;
req - > result = - EIO ;
break ;
}
}
}
tasklet_schedule ( & engine - > complete ) ;
spin_unlock_irqrestore ( & engine - > hw_lock , flags ) ;
}
static irqreturn_t spacc_spacc_irq ( int irq , void * dev )
{
struct spacc_engine * engine = ( struct spacc_engine * ) dev ;
u32 spacc_irq_stat = readl ( engine - > regs + SPA_IRQ_STAT_REG_OFFSET ) ;
writel ( spacc_irq_stat , engine - > regs + SPA_IRQ_STAT_REG_OFFSET ) ;
spacc_process_done ( engine ) ;
return IRQ_HANDLED ;
}
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static void spacc_packet_timeout ( struct timer_list * t )
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{
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struct spacc_engine * engine = from_timer ( engine , t , packet_timeout ) ;
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spacc_process_done ( engine ) ;
}
static int spacc_req_submit ( struct spacc_req * req )
{
struct crypto_alg * alg = req - > req - > tfm - > __crt_alg ;
if ( CRYPTO_ALG_TYPE_AEAD = = ( CRYPTO_ALG_TYPE_MASK & alg - > cra_flags ) )
return spacc_aead_submit ( req ) ;
else
return spacc_ablk_submit ( req ) ;
}
static void spacc_spacc_complete ( unsigned long data )
{
struct spacc_engine * engine = ( struct spacc_engine * ) data ;
struct spacc_req * req , * tmp ;
unsigned long flags ;
LIST_HEAD ( completed ) ;
spin_lock_irqsave ( & engine - > hw_lock , flags ) ;
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list_splice_init ( & engine - > completed , & completed ) ;
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spacc_push ( engine ) ;
if ( engine - > in_flight )
mod_timer ( & engine - > packet_timeout , jiffies + PACKET_TIMEOUT ) ;
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spin_unlock_irqrestore ( & engine - > hw_lock , flags ) ;
list_for_each_entry_safe ( req , tmp , & completed , list ) {
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list_del ( & req - > list ) ;
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req - > complete ( req ) ;
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}
}
# ifdef CONFIG_PM
static int spacc_suspend ( struct device * dev )
{
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struct spacc_engine * engine = dev_get_drvdata ( dev ) ;
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/*
* We only support standby mode . All we have to do is gate the clock to
* the spacc . The hardware will preserve state until we turn it back
* on again .
*/
clk_disable ( engine - > clk ) ;
return 0 ;
}
static int spacc_resume ( struct device * dev )
{
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struct spacc_engine * engine = dev_get_drvdata ( dev ) ;
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return clk_enable ( engine - > clk ) ;
}
static const struct dev_pm_ops spacc_pm_ops = {
. suspend = spacc_suspend ,
. resume = spacc_resume ,
} ;
# endif /* CONFIG_PM */
static inline struct spacc_engine * spacc_dev_to_engine ( struct device * dev )
{
return dev ? platform_get_drvdata ( to_platform_device ( dev ) ) : NULL ;
}
static ssize_t spacc_stat_irq_thresh_show ( struct device * dev ,
struct device_attribute * attr ,
char * buf )
{
struct spacc_engine * engine = spacc_dev_to_engine ( dev ) ;
return snprintf ( buf , PAGE_SIZE , " %u \n " , engine - > stat_irq_thresh ) ;
}
static ssize_t spacc_stat_irq_thresh_store ( struct device * dev ,
struct device_attribute * attr ,
const char * buf , size_t len )
{
struct spacc_engine * engine = spacc_dev_to_engine ( dev ) ;
unsigned long thresh ;
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if ( kstrtoul ( buf , 0 , & thresh ) )
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return - EINVAL ;
thresh = clamp ( thresh , 1UL , engine - > fifo_sz - 1 ) ;
engine - > stat_irq_thresh = thresh ;
writel ( engine - > stat_irq_thresh < < SPA_IRQ_CTRL_STAT_CNT_OFFSET ,
engine - > regs + SPA_IRQ_CTRL_REG_OFFSET ) ;
return len ;
}
static DEVICE_ATTR ( stat_irq_thresh , 0644 , spacc_stat_irq_thresh_show ,
spacc_stat_irq_thresh_store ) ;
static struct spacc_alg ipsec_engine_algs [ ] = {
{
. ctrl_default = SPA_CTRL_CIPH_ALG_AES | SPA_CTRL_CIPH_MODE_CBC ,
. key_offs = 0 ,
. iv_offs = AES_MAX_KEY_SIZE ,
. alg = {
. cra_name = " cbc(aes) " ,
. cra_driver_name = " cbc-aes-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
. cra_flags = CRYPTO_ALG_TYPE_ABLKCIPHER |
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CRYPTO_ALG_KERN_DRIVER_ONLY |
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CRYPTO_ALG_ASYNC |
CRYPTO_ALG_NEED_FALLBACK ,
. cra_blocksize = AES_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_ablk_ctx ) ,
. cra_type = & crypto_ablkcipher_type ,
. cra_module = THIS_MODULE ,
. cra_ablkcipher = {
. setkey = spacc_aes_setkey ,
. encrypt = spacc_ablk_encrypt ,
. decrypt = spacc_ablk_decrypt ,
. min_keysize = AES_MIN_KEY_SIZE ,
. max_keysize = AES_MAX_KEY_SIZE ,
. ivsize = AES_BLOCK_SIZE ,
} ,
. cra_init = spacc_ablk_cra_init ,
. cra_exit = spacc_ablk_cra_exit ,
} ,
} ,
{
. key_offs = 0 ,
. iv_offs = AES_MAX_KEY_SIZE ,
. ctrl_default = SPA_CTRL_CIPH_ALG_AES | SPA_CTRL_CIPH_MODE_ECB ,
. alg = {
. cra_name = " ecb(aes) " ,
. cra_driver_name = " ecb-aes-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
. cra_flags = CRYPTO_ALG_TYPE_ABLKCIPHER |
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CRYPTO_ALG_KERN_DRIVER_ONLY |
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CRYPTO_ALG_ASYNC | CRYPTO_ALG_NEED_FALLBACK ,
. cra_blocksize = AES_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_ablk_ctx ) ,
. cra_type = & crypto_ablkcipher_type ,
. cra_module = THIS_MODULE ,
. cra_ablkcipher = {
. setkey = spacc_aes_setkey ,
. encrypt = spacc_ablk_encrypt ,
. decrypt = spacc_ablk_decrypt ,
. min_keysize = AES_MIN_KEY_SIZE ,
. max_keysize = AES_MAX_KEY_SIZE ,
} ,
. cra_init = spacc_ablk_cra_init ,
. cra_exit = spacc_ablk_cra_exit ,
} ,
} ,
{
. key_offs = DES_BLOCK_SIZE ,
. iv_offs = 0 ,
. ctrl_default = SPA_CTRL_CIPH_ALG_DES | SPA_CTRL_CIPH_MODE_CBC ,
. alg = {
. cra_name = " cbc(des) " ,
. cra_driver_name = " cbc-des-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
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. cra_flags = CRYPTO_ALG_TYPE_ABLKCIPHER |
CRYPTO_ALG_ASYNC |
CRYPTO_ALG_KERN_DRIVER_ONLY ,
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. cra_blocksize = DES_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_ablk_ctx ) ,
. cra_type = & crypto_ablkcipher_type ,
. cra_module = THIS_MODULE ,
. cra_ablkcipher = {
. setkey = spacc_des_setkey ,
. encrypt = spacc_ablk_encrypt ,
. decrypt = spacc_ablk_decrypt ,
. min_keysize = DES_KEY_SIZE ,
. max_keysize = DES_KEY_SIZE ,
. ivsize = DES_BLOCK_SIZE ,
} ,
. cra_init = spacc_ablk_cra_init ,
. cra_exit = spacc_ablk_cra_exit ,
} ,
} ,
{
. key_offs = DES_BLOCK_SIZE ,
. iv_offs = 0 ,
. ctrl_default = SPA_CTRL_CIPH_ALG_DES | SPA_CTRL_CIPH_MODE_ECB ,
. alg = {
. cra_name = " ecb(des) " ,
. cra_driver_name = " ecb-des-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
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. cra_flags = CRYPTO_ALG_TYPE_ABLKCIPHER |
CRYPTO_ALG_ASYNC |
CRYPTO_ALG_KERN_DRIVER_ONLY ,
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. cra_blocksize = DES_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_ablk_ctx ) ,
. cra_type = & crypto_ablkcipher_type ,
. cra_module = THIS_MODULE ,
. cra_ablkcipher = {
. setkey = spacc_des_setkey ,
. encrypt = spacc_ablk_encrypt ,
. decrypt = spacc_ablk_decrypt ,
. min_keysize = DES_KEY_SIZE ,
. max_keysize = DES_KEY_SIZE ,
} ,
. cra_init = spacc_ablk_cra_init ,
. cra_exit = spacc_ablk_cra_exit ,
} ,
} ,
{
. key_offs = DES_BLOCK_SIZE ,
. iv_offs = 0 ,
. ctrl_default = SPA_CTRL_CIPH_ALG_DES | SPA_CTRL_CIPH_MODE_CBC ,
. alg = {
. cra_name = " cbc(des3_ede) " ,
. cra_driver_name = " cbc-des3-ede-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
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. cra_flags = CRYPTO_ALG_TYPE_ABLKCIPHER |
CRYPTO_ALG_ASYNC |
CRYPTO_ALG_KERN_DRIVER_ONLY ,
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. cra_blocksize = DES3_EDE_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_ablk_ctx ) ,
. cra_type = & crypto_ablkcipher_type ,
. cra_module = THIS_MODULE ,
. cra_ablkcipher = {
. setkey = spacc_des_setkey ,
. encrypt = spacc_ablk_encrypt ,
. decrypt = spacc_ablk_decrypt ,
. min_keysize = DES3_EDE_KEY_SIZE ,
. max_keysize = DES3_EDE_KEY_SIZE ,
. ivsize = DES3_EDE_BLOCK_SIZE ,
} ,
. cra_init = spacc_ablk_cra_init ,
. cra_exit = spacc_ablk_cra_exit ,
} ,
} ,
{
. key_offs = DES_BLOCK_SIZE ,
. iv_offs = 0 ,
. ctrl_default = SPA_CTRL_CIPH_ALG_DES | SPA_CTRL_CIPH_MODE_ECB ,
. alg = {
. cra_name = " ecb(des3_ede) " ,
. cra_driver_name = " ecb-des3-ede-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
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. cra_flags = CRYPTO_ALG_TYPE_ABLKCIPHER |
CRYPTO_ALG_ASYNC |
CRYPTO_ALG_KERN_DRIVER_ONLY ,
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. cra_blocksize = DES3_EDE_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_ablk_ctx ) ,
. cra_type = & crypto_ablkcipher_type ,
. cra_module = THIS_MODULE ,
. cra_ablkcipher = {
. setkey = spacc_des_setkey ,
. encrypt = spacc_ablk_encrypt ,
. decrypt = spacc_ablk_decrypt ,
. min_keysize = DES3_EDE_KEY_SIZE ,
. max_keysize = DES3_EDE_KEY_SIZE ,
} ,
. cra_init = spacc_ablk_cra_init ,
. cra_exit = spacc_ablk_cra_exit ,
} ,
} ,
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} ;
static struct spacc_aead ipsec_engine_aeads [ ] = {
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{
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. ctrl_default = SPA_CTRL_CIPH_ALG_AES |
SPA_CTRL_CIPH_MODE_CBC |
SPA_CTRL_HASH_ALG_SHA |
SPA_CTRL_HASH_MODE_HMAC ,
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. key_offs = 0 ,
. iv_offs = AES_MAX_KEY_SIZE ,
. alg = {
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. base = {
. cra_name = " authenc(hmac(sha1),cbc(aes)) " ,
. cra_driver_name = " authenc-hmac-sha1- "
" cbc-aes-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_NEED_FALLBACK |
CRYPTO_ALG_KERN_DRIVER_ONLY ,
. cra_blocksize = AES_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_aead_ctx ) ,
. cra_module = THIS_MODULE ,
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} ,
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. setkey = spacc_aead_setkey ,
. setauthsize = spacc_aead_setauthsize ,
. encrypt = spacc_aead_encrypt ,
. decrypt = spacc_aead_decrypt ,
. ivsize = AES_BLOCK_SIZE ,
. maxauthsize = SHA1_DIGEST_SIZE ,
. init = spacc_aead_cra_init ,
. exit = spacc_aead_cra_exit ,
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} ,
} ,
{
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. ctrl_default = SPA_CTRL_CIPH_ALG_AES |
SPA_CTRL_CIPH_MODE_CBC |
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SPA_CTRL_HASH_ALG_SHA256 |
SPA_CTRL_HASH_MODE_HMAC ,
. key_offs = 0 ,
. iv_offs = AES_MAX_KEY_SIZE ,
. alg = {
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. base = {
. cra_name = " authenc(hmac(sha256),cbc(aes)) " ,
. cra_driver_name = " authenc-hmac-sha256- "
" cbc-aes-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_NEED_FALLBACK |
CRYPTO_ALG_KERN_DRIVER_ONLY ,
. cra_blocksize = AES_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_aead_ctx ) ,
. cra_module = THIS_MODULE ,
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} ,
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. setkey = spacc_aead_setkey ,
. setauthsize = spacc_aead_setauthsize ,
. encrypt = spacc_aead_encrypt ,
. decrypt = spacc_aead_decrypt ,
. ivsize = AES_BLOCK_SIZE ,
. maxauthsize = SHA256_DIGEST_SIZE ,
. init = spacc_aead_cra_init ,
. exit = spacc_aead_cra_exit ,
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} ,
} ,
{
. key_offs = 0 ,
. iv_offs = AES_MAX_KEY_SIZE ,
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. ctrl_default = SPA_CTRL_CIPH_ALG_AES |
SPA_CTRL_CIPH_MODE_CBC |
SPA_CTRL_HASH_ALG_MD5 |
SPA_CTRL_HASH_MODE_HMAC ,
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. alg = {
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. base = {
. cra_name = " authenc(hmac(md5),cbc(aes)) " ,
. cra_driver_name = " authenc-hmac-md5- "
" cbc-aes-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_NEED_FALLBACK |
CRYPTO_ALG_KERN_DRIVER_ONLY ,
. cra_blocksize = AES_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_aead_ctx ) ,
. cra_module = THIS_MODULE ,
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} ,
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. setkey = spacc_aead_setkey ,
. setauthsize = spacc_aead_setauthsize ,
. encrypt = spacc_aead_encrypt ,
. decrypt = spacc_aead_decrypt ,
. ivsize = AES_BLOCK_SIZE ,
. maxauthsize = MD5_DIGEST_SIZE ,
. init = spacc_aead_cra_init ,
. exit = spacc_aead_cra_exit ,
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} ,
} ,
{
. key_offs = DES_BLOCK_SIZE ,
. iv_offs = 0 ,
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. ctrl_default = SPA_CTRL_CIPH_ALG_DES |
SPA_CTRL_CIPH_MODE_CBC |
SPA_CTRL_HASH_ALG_SHA |
SPA_CTRL_HASH_MODE_HMAC ,
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. alg = {
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. base = {
. cra_name = " authenc(hmac(sha1),cbc(des3_ede)) " ,
. cra_driver_name = " authenc-hmac-sha1- "
" cbc-3des-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_NEED_FALLBACK |
CRYPTO_ALG_KERN_DRIVER_ONLY ,
. cra_blocksize = DES3_EDE_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_aead_ctx ) ,
. cra_module = THIS_MODULE ,
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} ,
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. setkey = spacc_aead_setkey ,
. setauthsize = spacc_aead_setauthsize ,
. encrypt = spacc_aead_encrypt ,
. decrypt = spacc_aead_decrypt ,
. ivsize = DES3_EDE_BLOCK_SIZE ,
. maxauthsize = SHA1_DIGEST_SIZE ,
. init = spacc_aead_cra_init ,
. exit = spacc_aead_cra_exit ,
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} ,
} ,
{
. key_offs = DES_BLOCK_SIZE ,
. iv_offs = 0 ,
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. ctrl_default = SPA_CTRL_CIPH_ALG_AES |
SPA_CTRL_CIPH_MODE_CBC |
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SPA_CTRL_HASH_ALG_SHA256 |
SPA_CTRL_HASH_MODE_HMAC ,
. alg = {
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. base = {
. cra_name = " authenc(hmac(sha256), "
" cbc(des3_ede)) " ,
. cra_driver_name = " authenc-hmac-sha256- "
" cbc-3des-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_NEED_FALLBACK |
CRYPTO_ALG_KERN_DRIVER_ONLY ,
. cra_blocksize = DES3_EDE_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_aead_ctx ) ,
. cra_module = THIS_MODULE ,
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} ,
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. setkey = spacc_aead_setkey ,
. setauthsize = spacc_aead_setauthsize ,
. encrypt = spacc_aead_encrypt ,
. decrypt = spacc_aead_decrypt ,
. ivsize = DES3_EDE_BLOCK_SIZE ,
. maxauthsize = SHA256_DIGEST_SIZE ,
. init = spacc_aead_cra_init ,
. exit = spacc_aead_cra_exit ,
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} ,
} ,
{
. key_offs = DES_BLOCK_SIZE ,
. iv_offs = 0 ,
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. ctrl_default = SPA_CTRL_CIPH_ALG_DES |
SPA_CTRL_CIPH_MODE_CBC |
SPA_CTRL_HASH_ALG_MD5 |
SPA_CTRL_HASH_MODE_HMAC ,
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. alg = {
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. base = {
. cra_name = " authenc(hmac(md5),cbc(des3_ede)) " ,
. cra_driver_name = " authenc-hmac-md5- "
" cbc-3des-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
. cra_flags = CRYPTO_ALG_ASYNC |
CRYPTO_ALG_NEED_FALLBACK |
CRYPTO_ALG_KERN_DRIVER_ONLY ,
. cra_blocksize = DES3_EDE_BLOCK_SIZE ,
. cra_ctxsize = sizeof ( struct spacc_aead_ctx ) ,
. cra_module = THIS_MODULE ,
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} ,
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. setkey = spacc_aead_setkey ,
. setauthsize = spacc_aead_setauthsize ,
. encrypt = spacc_aead_encrypt ,
. decrypt = spacc_aead_decrypt ,
. ivsize = DES3_EDE_BLOCK_SIZE ,
. maxauthsize = MD5_DIGEST_SIZE ,
. init = spacc_aead_cra_init ,
. exit = spacc_aead_cra_exit ,
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} ,
} ,
} ;
static struct spacc_alg l2_engine_algs [ ] = {
{
. key_offs = 0 ,
. iv_offs = SPACC_CRYPTO_KASUMI_F8_KEY_LEN ,
. ctrl_default = SPA_CTRL_CIPH_ALG_KASUMI |
SPA_CTRL_CIPH_MODE_F8 ,
. alg = {
. cra_name = " f8(kasumi) " ,
. cra_driver_name = " f8-kasumi-picoxcell " ,
. cra_priority = SPACC_CRYPTO_ALG_PRIORITY ,
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. cra_flags = CRYPTO_ALG_ASYNC |
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CRYPTO_ALG_KERN_DRIVER_ONLY ,
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. cra_blocksize = 8 ,
. cra_ctxsize = sizeof ( struct spacc_ablk_ctx ) ,
. cra_type = & crypto_ablkcipher_type ,
. cra_module = THIS_MODULE ,
. cra_ablkcipher = {
. setkey = spacc_kasumi_f8_setkey ,
. encrypt = spacc_ablk_encrypt ,
. decrypt = spacc_ablk_decrypt ,
. min_keysize = 16 ,
. max_keysize = 16 ,
. ivsize = 8 ,
} ,
. cra_init = spacc_ablk_cra_init ,
. cra_exit = spacc_ablk_cra_exit ,
} ,
} ,
} ;
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# ifdef CONFIG_OF
static const struct of_device_id spacc_of_id_table [ ] = {
{ . compatible = " picochip,spacc-ipsec " } ,
{ . compatible = " picochip,spacc-l2 " } ,
{ }
} ;
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MODULE_DEVICE_TABLE ( of , spacc_of_id_table ) ;
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# endif /* CONFIG_OF */
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static int spacc_probe ( struct platform_device * pdev )
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{
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int i , err , ret ;
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struct resource * mem , * irq ;
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struct device_node * np = pdev - > dev . of_node ;
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struct spacc_engine * engine = devm_kzalloc ( & pdev - > dev , sizeof ( * engine ) ,
GFP_KERNEL ) ;
if ( ! engine )
return - ENOMEM ;
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if ( of_device_is_compatible ( np , " picochip,spacc-ipsec " ) ) {
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engine - > max_ctxs = SPACC_CRYPTO_IPSEC_MAX_CTXS ;
engine - > cipher_pg_sz = SPACC_CRYPTO_IPSEC_CIPHER_PG_SZ ;
engine - > hash_pg_sz = SPACC_CRYPTO_IPSEC_HASH_PG_SZ ;
engine - > fifo_sz = SPACC_CRYPTO_IPSEC_FIFO_SZ ;
engine - > algs = ipsec_engine_algs ;
engine - > num_algs = ARRAY_SIZE ( ipsec_engine_algs ) ;
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engine - > aeads = ipsec_engine_aeads ;
engine - > num_aeads = ARRAY_SIZE ( ipsec_engine_aeads ) ;
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} else if ( of_device_is_compatible ( np , " picochip,spacc-l2 " ) ) {
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engine - > max_ctxs = SPACC_CRYPTO_L2_MAX_CTXS ;
engine - > cipher_pg_sz = SPACC_CRYPTO_L2_CIPHER_PG_SZ ;
engine - > hash_pg_sz = SPACC_CRYPTO_L2_HASH_PG_SZ ;
engine - > fifo_sz = SPACC_CRYPTO_L2_FIFO_SZ ;
engine - > algs = l2_engine_algs ;
engine - > num_algs = ARRAY_SIZE ( l2_engine_algs ) ;
} else {
return - EINVAL ;
}
engine - > name = dev_name ( & pdev - > dev ) ;
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mem = platform_get_resource ( pdev , IORESOURCE_MEM , 0 ) ;
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engine - > regs = devm_ioremap_resource ( & pdev - > dev , mem ) ;
if ( IS_ERR ( engine - > regs ) )
return PTR_ERR ( engine - > regs ) ;
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irq = platform_get_resource ( pdev , IORESOURCE_IRQ , 0 ) ;
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if ( ! irq ) {
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dev_err ( & pdev - > dev , " no memory/irq resource for engine \n " ) ;
return - ENXIO ;
}
if ( devm_request_irq ( & pdev - > dev , irq - > start , spacc_spacc_irq , 0 ,
engine - > name , engine ) ) {
dev_err ( engine - > dev , " failed to request IRQ \n " ) ;
return - EBUSY ;
}
engine - > dev = & pdev - > dev ;
engine - > cipher_ctx_base = engine - > regs + SPA_CIPH_KEY_BASE_REG_OFFSET ;
engine - > hash_key_base = engine - > regs + SPA_HASH_KEY_BASE_REG_OFFSET ;
engine - > req_pool = dmam_pool_create ( engine - > name , engine - > dev ,
MAX_DDT_LEN * sizeof ( struct spacc_ddt ) , 8 , SZ_64K ) ;
if ( ! engine - > req_pool )
return - ENOMEM ;
spin_lock_init ( & engine - > hw_lock ) ;
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engine - > clk = clk_get ( & pdev - > dev , " ref " ) ;
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if ( IS_ERR ( engine - > clk ) ) {
dev_info ( & pdev - > dev , " clk unavailable \n " ) ;
return PTR_ERR ( engine - > clk ) ;
}
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if ( clk_prepare_enable ( engine - > clk ) ) {
dev_info ( & pdev - > dev , " unable to prepare/enable clk \n " ) ;
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ret = - EIO ;
goto err_clk_put ;
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}
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ret = device_create_file ( & pdev - > dev , & dev_attr_stat_irq_thresh ) ;
if ( ret )
goto err_clk_disable ;
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/*
* Use an IRQ threshold of 50 % as a default . This seems to be a
* reasonable trade off of latency against throughput but can be
* changed at runtime .
*/
engine - > stat_irq_thresh = ( engine - > fifo_sz / 2 ) ;
/*
* Configure the interrupts . We only use the STAT_CNT interrupt as we
* only submit a new packet for processing when we complete another in
* the queue . This minimizes time spent in the interrupt handler .
*/
writel ( engine - > stat_irq_thresh < < SPA_IRQ_CTRL_STAT_CNT_OFFSET ,
engine - > regs + SPA_IRQ_CTRL_REG_OFFSET ) ;
writel ( SPA_IRQ_EN_STAT_EN | SPA_IRQ_EN_GLBL_EN ,
engine - > regs + SPA_IRQ_EN_REG_OFFSET ) ;
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timer_setup ( & engine - > packet_timeout , spacc_packet_timeout , 0 ) ;
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INIT_LIST_HEAD ( & engine - > pending ) ;
INIT_LIST_HEAD ( & engine - > completed ) ;
INIT_LIST_HEAD ( & engine - > in_progress ) ;
engine - > in_flight = 0 ;
tasklet_init ( & engine - > complete , spacc_spacc_complete ,
( unsigned long ) engine ) ;
platform_set_drvdata ( pdev , engine ) ;
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ret = - EINVAL ;
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INIT_LIST_HEAD ( & engine - > registered_algs ) ;
for ( i = 0 ; i < engine - > num_algs ; + + i ) {
engine - > algs [ i ] . engine = engine ;
err = crypto_register_alg ( & engine - > algs [ i ] . alg ) ;
if ( ! err ) {
list_add_tail ( & engine - > algs [ i ] . entry ,
& engine - > registered_algs ) ;
ret = 0 ;
}
if ( err )
dev_err ( engine - > dev , " failed to register alg \" %s \" \n " ,
engine - > algs [ i ] . alg . cra_name ) ;
else
dev_dbg ( engine - > dev , " registered alg \" %s \" \n " ,
engine - > algs [ i ] . alg . cra_name ) ;
}
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INIT_LIST_HEAD ( & engine - > registered_aeads ) ;
for ( i = 0 ; i < engine - > num_aeads ; + + i ) {
engine - > aeads [ i ] . engine = engine ;
err = crypto_register_aead ( & engine - > aeads [ i ] . alg ) ;
if ( ! err ) {
list_add_tail ( & engine - > aeads [ i ] . entry ,
& engine - > registered_aeads ) ;
ret = 0 ;
}
if ( err )
dev_err ( engine - > dev , " failed to register alg \" %s \" \n " ,
engine - > aeads [ i ] . alg . base . cra_name ) ;
else
dev_dbg ( engine - > dev , " registered alg \" %s \" \n " ,
engine - > aeads [ i ] . alg . base . cra_name ) ;
}
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if ( ! ret )
return 0 ;
del_timer_sync ( & engine - > packet_timeout ) ;
device_remove_file ( & pdev - > dev , & dev_attr_stat_irq_thresh ) ;
err_clk_disable :
clk_disable_unprepare ( engine - > clk ) ;
err_clk_put :
clk_put ( engine - > clk ) ;
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return ret ;
}
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static int spacc_remove ( struct platform_device * pdev )
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{
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struct spacc_aead * aead , * an ;
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struct spacc_alg * alg , * next ;
struct spacc_engine * engine = platform_get_drvdata ( pdev ) ;
del_timer_sync ( & engine - > packet_timeout ) ;
device_remove_file ( & pdev - > dev , & dev_attr_stat_irq_thresh ) ;
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list_for_each_entry_safe ( aead , an , & engine - > registered_aeads , entry ) {
list_del ( & aead - > entry ) ;
crypto_unregister_aead ( & aead - > alg ) ;
}
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list_for_each_entry_safe ( alg , next , & engine - > registered_algs , entry ) {
list_del ( & alg - > entry ) ;
crypto_unregister_alg ( & alg - > alg ) ;
}
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clk_disable_unprepare ( engine - > clk ) ;
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clk_put ( engine - > clk ) ;
return 0 ;
}
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static struct platform_driver spacc_driver = {
. probe = spacc_probe ,
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. remove = spacc_remove ,
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. driver = {
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. name = " picochip,spacc " ,
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# ifdef CONFIG_PM
. pm = & spacc_pm_ops ,
# endif /* CONFIG_PM */
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. of_match_table = of_match_ptr ( spacc_of_id_table ) ,
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} ,
} ;
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module_platform_driver ( spacc_driver ) ;
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MODULE_LICENSE ( " GPL " ) ;
MODULE_AUTHOR ( " Jamie Iles " ) ;