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gerrit-public.fairphone.software / kernel / msm / ea2c51da25e76c7f16a26b7931232bcc39f23405 / . / drivers / crypto / msm / qce40.c
blob: 84d41da8452003fde4f79848e27e1f4fc45deb61 [file] [log] [blame]
/* Qualcomm Crypto Engine driver.
*
* Copyright (c) 2011 - 2013, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* 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.
*/
#include <linux/types.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/mod_devicetable.h>
#include <linux/device.h>
#include <linux/clk.h>
#include <linux/err.h>
#include <linux/dma-mapping.h>
#include <linux/io.h>
#include <linux/platform_device.h>
#include <linux/spinlock.h>
#include <linux/delay.h>
#include <linux/crypto.h>
#include <linux/qcedev.h>
#include <linux/bitops.h>
#include <crypto/hash.h>
#include <crypto/sha.h>
#include <mach/dma.h>
#include <mach/clk.h>
#include <mach/socinfo.h>
#include "qce.h"
#include "qce40.h"
#include "qcryptohw_40.h"
/* ADM definitions */
#define LI_SG_CMD (1 << 31) /* last index in the scatter gather cmd */
#define SRC_INDEX_SG_CMD(index) ((index & 0x3fff) << 16)
#define DST_INDEX_SG_CMD(index) (index & 0x3fff)
#define ADM_DESC_LAST (1 << 31)
#define QCE_FIFO_SIZE 0x8000
/*
* CE HW device structure.
* Each engine has an instance of the structure.
* Each engine can only handle one crypto operation at one time. It is up to
* the sw above to ensure single threading of operation on an engine.
*/
struct qce_device {
struct device *pdev; /* Handle to platform_device structure */
unsigned char *coh_vmem; /* Allocated coherent virtual memory */
dma_addr_t coh_pmem; /* Allocated coherent physical memory */
int memsize; /* Memory allocated */
void __iomem *iobase; /* Virtual io base of CE HW */
unsigned int phy_iobase; /* Physical io base of CE HW */
struct clk *ce_core_src_clk; /* Handle to CE src clk*/
struct clk *ce_core_clk; /* Handle to CE clk */
struct clk *ce_clk; /* Handle to CE clk */
qce_comp_func_ptr_t qce_cb; /* qce callback function pointer */
int assoc_nents;
int ivsize;
int authsize;
int src_nents;
int dst_nents;
void *areq;
enum qce_cipher_mode_enum mode;
struct ce_dm_data ce_dm;
};
/* Standard initialization vector for SHA-1, source: FIPS 180-2 */
static uint8_t _std_init_vector_sha1_uint8[] = {
0x67, 0x45, 0x23, 0x01, 0xEF, 0xCD, 0xAB, 0x89,
0x98, 0xBA, 0xDC, 0xFE, 0x10, 0x32, 0x54, 0x76,
0xC3, 0xD2, 0xE1, 0xF0
};
/* Standard initialization vector for SHA-256, source: FIPS 180-2 */
static uint8_t _std_init_vector_sha256_uint8[] = {
0x6A, 0x09, 0xE6, 0x67, 0xBB, 0x67, 0xAE, 0x85,
0x3C, 0x6E, 0xF3, 0x72, 0xA5, 0x4F, 0xF5, 0x3A,
0x51, 0x0E, 0x52, 0x7F, 0x9B, 0x05, 0x68, 0x8C,
0x1F, 0x83, 0xD9, 0xAB, 0x5B, 0xE0, 0xCD, 0x19
};
static void _byte_stream_swap_to_net_words(uint32_t *iv, unsigned char *b,
unsigned int len)
{
unsigned i, j;
unsigned char swap_iv[AES_IV_LENGTH];
memset(swap_iv, 0, AES_IV_LENGTH);
for (i = (AES_IV_LENGTH-len), j = len-1; i < AES_IV_LENGTH; i++, j--)
swap_iv[i] = b[j];
memcpy(iv, swap_iv, AES_IV_LENGTH);
}
static int count_sg(struct scatterlist *sg, int nbytes)
{
int i;
for (i = 0; nbytes > 0; i++, sg = scatterwalk_sg_next(sg))
nbytes -= sg->length;
return i;
}
static int qce_dma_map_sg(struct device *dev, struct scatterlist *sg, int nents,
enum dma_data_direction direction)
{
int i;
for (i = 0; i < nents; ++i) {
dma_map_sg(dev, sg, 1, direction);
sg = scatterwalk_sg_next(sg);
}
return nents;
}
static int qce_dma_unmap_sg(struct device *dev, struct scatterlist *sg,
int nents, enum dma_data_direction direction)
{
int i;
for (i = 0; i < nents; ++i) {
dma_unmap_sg(dev, sg, 1, direction);
sg = scatterwalk_sg_next(sg);
}
return nents;
}
static int dma_map_pmem_sg(struct buf_info *pmem, unsigned entries,
struct scatterlist *sg)
{
int i;
for (i = 0; i < entries; i++) {
sg->dma_address = (dma_addr_t)pmem->offset;
sg++;
pmem++;
}
return 0;
}
static int _probe_ce_engine(struct qce_device *pce_dev)
{
unsigned int val;
unsigned int rev;
unsigned int ret;
val = (uint32_t)(*((uint32_t *)pce_dev->ce_dm.buffer.version));
if (((val & 0xfffffff) != 0x0000043) &&
((val & 0xfffffff) != 0x0000042) &&
((val & 0xfffffff) != 0x0000040)) {
dev_err(pce_dev->pdev,
"Unknown Qualcomm crypto device at 0x%x 0x%x\n",
pce_dev->phy_iobase, val);
return -EIO;
};
rev = (val & CRYPTO_CORE_REV_MASK);
if (rev >= 0x42) {
dev_info(pce_dev->pdev,
"Qualcomm Crypto 4.2 device found at 0x%x\n",
pce_dev->phy_iobase);
pce_dev->ce_dm.ce_block_size = 64;
/* Configure the crypto register to support 64byte CRCI if it
* is not XPU protected and the HW version of device is greater
* than 0x42.
* Crypto config register returns a 0 when it is XPU protected.
*/
ret = readl_relaxed(pce_dev->iobase + CRYPTO_CONFIG_REG);
if (ret) {
val = BIT(CRYPTO_MASK_DOUT_INTR) |
BIT(CRYPTO_MASK_DIN_INTR) |
BIT(CRYPTO_MASK_OP_DONE_INTR) |
BIT(CRYPTO_MASK_ERR_INTR) |
(CRYPTO_REQ_SIZE_ENUM_64_BYTES <<
CRYPTO_REQ_SIZE) |
(CRYPTO_FIFO_ENUM_64_BYTES <<
CRYPTO_FIFO_THRESHOLD);
writel_relaxed(val, pce_dev->iobase +
CRYPTO_CONFIG_REG);
} /* end of if (ret) */
} else {
if (rev == 0x40) {
dev_info(pce_dev->pdev,
"Qualcomm Crypto 4.0 device found at 0x%x\n",
pce_dev->phy_iobase);
pce_dev->ce_dm.ce_block_size = 16;
}
}
dev_info(pce_dev->pdev,
"IO base 0x%x\n, ce_in channel %d , "
"ce_out channel %d\n, "
"crci_in %d, crci_out %d\n",
(unsigned int) pce_dev->iobase,
pce_dev->ce_dm.chan_ce_in, pce_dev->ce_dm.chan_ce_out,
pce_dev->ce_dm.crci_in, pce_dev->ce_dm.crci_out);
return 0;
};
static void _check_probe_done_call_back(struct msm_dmov_cmd *cmd_ptr,
unsigned int result, struct msm_dmov_errdata *err)
{
struct qce_device *pce_dev;
pce_dev = (struct qce_device *) cmd_ptr->user;
if (result != ADM_STATUS_OK) {
dev_err(pce_dev->pdev, "Qualcomm ADM status error %x\n",
result);
pce_dev->ce_dm.chan_ce_in_status = -1;
} else {
_probe_ce_engine(pce_dev);
pce_dev->ce_dm.chan_ce_in_status = 0;
}
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IDLE;
};
static int _init_ce_engine(struct qce_device *pce_dev)
{
int status;
/* Reset ce */
clk_reset(pce_dev->ce_core_clk, CLK_RESET_ASSERT);
clk_reset(pce_dev->ce_core_clk, CLK_RESET_DEASSERT);
/*
* Ensure previous instruction (any writes to CLK registers)
* to toggle the CLK reset lines was completed before configuring
* ce engine. The ce engine configuration settings should not be lost
* becasue of clk reset.
*/
mb();
/*
* Clear ACCESS_VIOL bit in CRYPTO_STATUS REGISTER
*/
status = readl_relaxed(pce_dev->iobase + CRYPTO_STATUS_REG);
*((uint32_t *)(pce_dev->ce_dm.buffer.status)) = status & (~0x40000);
/*
* Ensure ce configuration is completed.
*/
mb();
pce_dev->ce_dm.chan_ce_in_cmd->complete_func =
_check_probe_done_call_back;
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
pce_dev->ce_dm.cmdptrlist.probe_ce_hw;
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IN_PROG;
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_COMP;
msm_dmov_enqueue_cmd(pce_dev->ce_dm.chan_ce_in,
pce_dev->ce_dm.chan_ce_in_cmd);
return 0;
};
static int _ce_setup_hash_cmdrptrlist(struct qce_device *pce_dev,
struct qce_sha_req *sreq)
{
struct ce_cmdptrlists_ops *cmdptrlist = &pce_dev->ce_dm.cmdptrlist;
switch (sreq->alg) {
case QCE_HASH_SHA1:
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr = cmdptrlist->auth_sha1;
break;
case QCE_HASH_SHA256:
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr = cmdptrlist->auth_sha256;
break;
case QCE_HASH_SHA1_HMAC:
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->auth_sha1_hmac;
break;
case QCE_HASH_SHA256_HMAC:
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->auth_sha256_hmac;
break;
case QCE_HASH_AES_CMAC:
if (sreq->authklen == AES128_KEY_SIZE)
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->auth_aes_128_cmac;
else
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->auth_aes_256_cmac;
break;
default:
break;
}
return 0;
}
static int _ce_setup_hash(struct qce_device *pce_dev, struct qce_sha_req *sreq)
{
uint32_t diglen;
int i;
uint32_t auth_cfg = 0;
bool sha1 = false;
if (sreq->alg == QCE_HASH_AES_CMAC) {
memcpy(pce_dev->ce_dm.buffer.auth_key, sreq->authkey,
sreq->authklen);
auth_cfg |= (1 << CRYPTO_LAST);
auth_cfg |= (CRYPTO_AUTH_MODE_CMAC << CRYPTO_AUTH_MODE);
auth_cfg |= (CRYPTO_AUTH_SIZE_ENUM_16_BYTES <<
CRYPTO_AUTH_SIZE);
auth_cfg |= CRYPTO_AUTH_ALG_AES << CRYPTO_AUTH_ALG;
switch (sreq->authklen) {
case AES128_KEY_SIZE:
auth_cfg |= (CRYPTO_AUTH_KEY_SZ_AES128 <<
CRYPTO_AUTH_KEY_SIZE);
break;
case AES256_KEY_SIZE:
auth_cfg |= (CRYPTO_AUTH_KEY_SZ_AES256 <<
CRYPTO_AUTH_KEY_SIZE);
break;
default:
break;
}
goto go_proc;
}
/* if not the last, the size has to be on the block boundary */
if (sreq->last_blk == 0 && (sreq->size % SHA256_BLOCK_SIZE))
return -EIO;
switch (sreq->alg) {
case QCE_HASH_SHA1:
case QCE_HASH_SHA1_HMAC:
diglen = SHA1_DIGEST_SIZE;
sha1 = true;
break;
case QCE_HASH_SHA256:
case QCE_HASH_SHA256_HMAC:
diglen = SHA256_DIGEST_SIZE;
break;
default:
return -EINVAL;
}
if ((sreq->alg == QCE_HASH_SHA1_HMAC) ||
(sreq->alg == QCE_HASH_SHA256_HMAC)) {
memcpy(pce_dev->ce_dm.buffer.auth_key, sreq->authkey,
sreq->authklen);
auth_cfg |= (CRYPTO_AUTH_MODE_HMAC << CRYPTO_AUTH_MODE);
} else {
auth_cfg |= (CRYPTO_AUTH_MODE_HASH << CRYPTO_AUTH_MODE);
}
/* write 20/32 bytes, 5/8 words into auth_iv for SHA1/SHA256 */
if (sreq->first_blk) {
if (sha1)
memcpy(pce_dev->ce_dm.buffer.auth_iv,
_std_init_vector_sha1_uint8, diglen);
else
memcpy(pce_dev->ce_dm.buffer.auth_iv,
_std_init_vector_sha256_uint8, diglen);
} else {
memcpy(pce_dev->ce_dm.buffer.auth_iv, sreq->digest,
diglen);
}
/* write auth_bytecnt 0/1/2/3, start with 0 */
for (i = 0; i < 4; i++)
*(((uint32_t *)(pce_dev->ce_dm.buffer.auth_byte_count) + i)) =
sreq->auth_data[i];
/* write seg_cfg */
if (sha1)
auth_cfg |= (CRYPTO_AUTH_SIZE_SHA1 << CRYPTO_AUTH_SIZE);
else
auth_cfg |= (CRYPTO_AUTH_SIZE_SHA256 << CRYPTO_AUTH_SIZE);
if (sreq->last_blk)
auth_cfg |= 1 << CRYPTO_LAST;
auth_cfg |= CRYPTO_AUTH_ALG_SHA << CRYPTO_AUTH_ALG;
go_proc:
auth_cfg |= (CRYPTO_AUTH_POS_BEFORE << CRYPTO_AUTH_POS);
/* write auth seg cfg */
*((uint32_t *)(pce_dev->ce_dm.buffer.auth_seg_cfg_size_start)) =
auth_cfg;
/* write auth seg size */
*((uint32_t *)(pce_dev->ce_dm.buffer.auth_seg_cfg_size_start) + 1) =
sreq->size;
/* write auth seg size start*/
*((uint32_t *)(pce_dev->ce_dm.buffer.auth_seg_cfg_size_start)+2) = 0;
/* write seg size */
*((uint32_t *)(pce_dev->ce_dm.buffer.seg_size)) = sreq->size;
_ce_setup_hash_cmdrptrlist(pce_dev, sreq);
return 0;
}
static int _ce_setup_cipher_cmdrptrlist(struct qce_device *pce_dev,
struct qce_req *creq)
{
struct ce_cmdptrlists_ops *cmdptrlist =
&pce_dev->ce_dm.cmdptrlist;
if (creq->alg != CIPHER_ALG_AES) {
switch (creq->alg) {
case CIPHER_ALG_DES:
if (creq->mode == QCE_MODE_ECB) {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_des_ecb;
} else {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_des_cbc;
}
break;
case CIPHER_ALG_3DES:
if (creq->mode == QCE_MODE_ECB) {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_3des_ecb;
} else {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_3des_cbc;
}
break;
default:
break;
}
} else {
switch (creq->mode) {
case QCE_MODE_ECB:
if (creq->encklen == AES128_KEY_SIZE) {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_aes_128_ecb;
} else {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_aes_256_ecb;
}
break;
case QCE_MODE_CBC:
if (creq->encklen == AES128_KEY_SIZE) {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_aes_128_cbc_ctr;
} else {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_aes_256_cbc_ctr;
}
break;
case QCE_MODE_CTR:
if (creq->encklen == AES128_KEY_SIZE) {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_aes_128_cbc_ctr;
} else {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_aes_256_cbc_ctr;
}
break;
case QCE_MODE_XTS:
if (creq->encklen == AES128_KEY_SIZE) {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_aes_128_xts;
} else {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->cipher_aes_256_xts;
}
break;
case QCE_MODE_CCM:
if (creq->encklen == AES128_KEY_SIZE) {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->aead_aes_128_ccm;
} else {
pce_dev->ce_dm.chan_ce_in_cmd->cmdptr =
cmdptrlist->aead_aes_256_ccm;
}
break;
default:
break;
}
}
switch (creq->mode) {
case QCE_MODE_CCM:
pce_dev->ce_dm.chan_ce_out_cmd->cmdptr =
cmdptrlist->aead_ce_out;
break;
case QCE_MODE_ECB:
pce_dev->ce_dm.chan_ce_out_cmd->cmdptr =
cmdptrlist->cipher_ce_out;
break;
default:
pce_dev->ce_dm.chan_ce_out_cmd->cmdptr =
cmdptrlist->cipher_ce_out_get_iv;
break;
}
return 0;
}
static int _ce_setup_cipher(struct qce_device *pce_dev, struct qce_req *creq,
uint32_t totallen_in, uint32_t coffset)
{
uint32_t enck_size_in_word = creq->encklen / sizeof(uint32_t);
uint32_t encr_cfg = 0;
uint32_t ivsize = creq->ivsize;
struct ce_reg_buffer_addr *buffer = &pce_dev->ce_dm.buffer;
if (creq->mode == QCE_MODE_XTS)
memcpy(buffer->encr_key, creq->enckey,
creq->encklen/2);
else
memcpy(buffer->encr_key, creq->enckey, creq->encklen);
if ((creq->op == QCE_REQ_AEAD) && (creq->mode == QCE_MODE_CCM)) {
uint32_t noncelen32 = MAX_NONCE/sizeof(uint32_t);
uint32_t auth_cfg = 0;
/* write nonce */
memcpy(buffer->auth_nonce_info, creq->nonce, MAX_NONCE);
memcpy(buffer->auth_key, creq->enckey, creq->encklen);
auth_cfg |= (noncelen32 << CRYPTO_AUTH_NONCE_NUM_WORDS);
auth_cfg &= ~(1 << CRYPTO_USE_HW_KEY_AUTH);
auth_cfg |= (1 << CRYPTO_LAST);
if (creq->dir == QCE_ENCRYPT)
auth_cfg |= (CRYPTO_AUTH_POS_BEFORE << CRYPTO_AUTH_POS);
else
auth_cfg |= (CRYPTO_AUTH_POS_AFTER << CRYPTO_AUTH_POS);
auth_cfg |= (((creq->authsize >> 1) - 2) << CRYPTO_AUTH_SIZE);
auth_cfg |= (CRYPTO_AUTH_MODE_CCM << CRYPTO_AUTH_MODE);
if (creq->authklen == AES128_KEY_SIZE)
auth_cfg |= (CRYPTO_AUTH_KEY_SZ_AES128 <<
CRYPTO_AUTH_KEY_SIZE);
else {
if (creq->authklen == AES256_KEY_SIZE)
auth_cfg |= (CRYPTO_AUTH_KEY_SZ_AES256 <<
CRYPTO_AUTH_KEY_SIZE);
}
auth_cfg |= (CRYPTO_AUTH_ALG_AES << CRYPTO_AUTH_ALG);
*((uint32_t *)(buffer->auth_seg_cfg_size_start)) = auth_cfg;
if (creq->dir == QCE_ENCRYPT)
*((uint32_t *)(buffer->auth_seg_cfg_size_start) + 1) =
totallen_in;
else
*((uint32_t *)(buffer->auth_seg_cfg_size_start) + 1) =
(totallen_in - creq->authsize);
*((uint32_t *)(buffer->auth_seg_cfg_size_start) + 2) = 0;
}
*((uint32_t *)(buffer->auth_seg_cfg_size_start) + 2) = 0;
switch (creq->mode) {
case QCE_MODE_ECB:
encr_cfg |= (CRYPTO_ENCR_MODE_ECB << CRYPTO_ENCR_MODE);
break;
case QCE_MODE_CBC:
encr_cfg |= (CRYPTO_ENCR_MODE_CBC << CRYPTO_ENCR_MODE);
break;
case QCE_MODE_XTS:
encr_cfg |= (CRYPTO_ENCR_MODE_XTS << CRYPTO_ENCR_MODE);
break;
case QCE_MODE_CCM:
encr_cfg |= (CRYPTO_ENCR_MODE_CCM << CRYPTO_ENCR_MODE);
break;
case QCE_MODE_CTR:
default:
encr_cfg |= (CRYPTO_ENCR_MODE_CTR << CRYPTO_ENCR_MODE);
break;
}
pce_dev->mode = creq->mode;
switch (creq->alg) {
case CIPHER_ALG_DES:
if (creq->mode != QCE_MODE_ECB)
memcpy(buffer->encr_cntr_iv, creq->iv, ivsize);
encr_cfg |= ((CRYPTO_ENCR_KEY_SZ_DES << CRYPTO_ENCR_KEY_SZ) |
(CRYPTO_ENCR_ALG_DES << CRYPTO_ENCR_ALG));
break;
case CIPHER_ALG_3DES:
if (creq->mode != QCE_MODE_ECB)
memcpy(buffer->encr_cntr_iv, creq->iv, ivsize);
encr_cfg |= ((CRYPTO_ENCR_KEY_SZ_3DES << CRYPTO_ENCR_KEY_SZ) |
(CRYPTO_ENCR_ALG_DES << CRYPTO_ENCR_ALG));
break;
case CIPHER_ALG_AES:
default:
if (creq->mode == QCE_MODE_XTS) {
memcpy(buffer->encr_xts_key, (creq->enckey +
creq->encklen/2), creq->encklen/2);
*((uint32_t *)(buffer->encr_xts_du_size)) =
creq->cryptlen;
}
if (creq->mode != QCE_MODE_ECB) {
if (creq->mode == QCE_MODE_XTS)
_byte_stream_swap_to_net_words(
(uint32_t *)(buffer->encr_cntr_iv),
creq->iv, ivsize);
else
memcpy(buffer->encr_cntr_iv, creq->iv,
ivsize);
}
/* set number of counter bits */
*((uint32_t *)(buffer->encr_mask)) = (uint32_t)0xffffffff;
if (creq->op == QCE_REQ_ABLK_CIPHER_NO_KEY) {
encr_cfg |= (CRYPTO_ENCR_KEY_SZ_AES128 <<
CRYPTO_ENCR_KEY_SZ);
encr_cfg |= CRYPTO_ENCR_ALG_AES << CRYPTO_ENCR_ALG;
} else {
uint32_t key_size;
if (creq->mode == QCE_MODE_XTS) {
key_size = creq->encklen/2;
enck_size_in_word = key_size/sizeof(uint32_t);
} else {
key_size = creq->encklen;
}
switch (key_size) {
case AES128_KEY_SIZE:
encr_cfg |= (CRYPTO_ENCR_KEY_SZ_AES128 <<
CRYPTO_ENCR_KEY_SZ);
break;
case AES256_KEY_SIZE:
default:
encr_cfg |= (CRYPTO_ENCR_KEY_SZ_AES256 <<
CRYPTO_ENCR_KEY_SZ);
break;
} /* end of switch (creq->encklen) */
encr_cfg |= CRYPTO_ENCR_ALG_AES << CRYPTO_ENCR_ALG;
} /* else of if (creq->op == QCE_REQ_ABLK_CIPHER_NO_KEY) */
break;
} /* end of switch (creq->mode) */
/* write encr seg cfg */
encr_cfg |= ((creq->dir == QCE_ENCRYPT) ? 1 : 0) << CRYPTO_ENCODE;
/* write encr seg cfg */
*((uint32_t *)(buffer->encr_seg_cfg_size_start)) = encr_cfg;
/* write encr seg size */
if ((creq->mode == QCE_MODE_CCM) && (creq->dir == QCE_DECRYPT))
*((uint32_t *)(buffer->encr_seg_cfg_size_start) + 1) =
(creq->cryptlen + creq->authsize);
else
*((uint32_t *)(buffer->encr_seg_cfg_size_start) + 1) =
creq->cryptlen;
*((uint32_t *)(buffer->encr_seg_cfg_size_start) + 2) =
(coffset & 0xffff);
*((uint32_t *)(buffer->seg_size)) = totallen_in;
_ce_setup_cipher_cmdrptrlist(pce_dev, creq);
return 0;
};
static int _aead_complete(struct qce_device *pce_dev)
{
struct aead_request *areq;
areq = (struct aead_request *) pce_dev->areq;
if (areq->src != areq->dst) {
qce_dma_unmap_sg(pce_dev->pdev, areq->dst, pce_dev->dst_nents,
DMA_FROM_DEVICE);
}
qce_dma_unmap_sg(pce_dev->pdev, areq->src, pce_dev->src_nents,
(areq->src == areq->dst) ? DMA_BIDIRECTIONAL :
DMA_TO_DEVICE);
qce_dma_unmap_sg(pce_dev->pdev, areq->assoc, pce_dev->assoc_nents,
DMA_TO_DEVICE);
/* check MAC */
if (pce_dev->mode == QCE_MODE_CCM) {
uint32_t result;
result =
(uint32_t)(*((uint32_t *)pce_dev->ce_dm.buffer.status));
result &= (1 << CRYPTO_MAC_FAILED);
result |= (pce_dev->ce_dm.chan_ce_in_status |
pce_dev->ce_dm.chan_ce_out_status);
pce_dev->qce_cb(areq, pce_dev->ce_dm.buffer.auth_result, NULL,
result);
}
return 0;
};
static void _sha_complete(struct qce_device *pce_dev)
{
struct ahash_request *areq;
areq = (struct ahash_request *) pce_dev->areq;
qce_dma_unmap_sg(pce_dev->pdev, areq->src, pce_dev->src_nents,
DMA_TO_DEVICE);
pce_dev->qce_cb(areq, pce_dev->ce_dm.buffer.auth_result,
pce_dev->ce_dm.buffer.auth_byte_count,
pce_dev->ce_dm.chan_ce_in_status);
};
static int _ablk_cipher_complete(struct qce_device *pce_dev)
{
struct ablkcipher_request *areq;
areq = (struct ablkcipher_request *) pce_dev->areq;
if (areq->src != areq->dst) {
qce_dma_unmap_sg(pce_dev->pdev, areq->dst,
pce_dev->dst_nents, DMA_FROM_DEVICE);
}
qce_dma_unmap_sg(pce_dev->pdev, areq->src, pce_dev->src_nents,
(areq->src == areq->dst) ? DMA_BIDIRECTIONAL :
DMA_TO_DEVICE);
if (pce_dev->mode == QCE_MODE_ECB) {
pce_dev->qce_cb(areq, NULL, NULL,
pce_dev->ce_dm.chan_ce_in_status |
pce_dev->ce_dm.chan_ce_out_status);
} else {
pce_dev->qce_cb(areq, NULL, pce_dev->ce_dm.buffer.encr_cntr_iv,
pce_dev->ce_dm.chan_ce_in_status |
pce_dev->ce_dm.chan_ce_out_status);
}
return 0;
};
static int _ablk_cipher_use_pmem_complete(struct qce_device *pce_dev)
{
struct ablkcipher_request *areq;
areq = (struct ablkcipher_request *) pce_dev->areq;
if (pce_dev->mode == QCE_MODE_ECB) {
pce_dev->qce_cb(areq, NULL, NULL,
pce_dev->ce_dm.chan_ce_in_status |
pce_dev->ce_dm.chan_ce_out_status);
} else {
pce_dev->qce_cb(areq, NULL, pce_dev->ce_dm.buffer.encr_cntr_iv,
pce_dev->ce_dm.chan_ce_in_status |
pce_dev->ce_dm.chan_ce_out_status);
}
return 0;
};
static int qce_split_and_insert_dm_desc(struct dmov_desc *pdesc,
unsigned int plen, unsigned int paddr, int *index)
{
while (plen > QCE_FIFO_SIZE) {
pdesc->len = QCE_FIFO_SIZE;
if (paddr > 0) {
pdesc->addr = paddr;
paddr += QCE_FIFO_SIZE;
}
plen -= pdesc->len;
if (plen > 0) {
*index = (*index) + 1;
if ((*index) >= QCE_MAX_NUM_DESC)
return -ENOMEM;
pdesc++;
}
}
if ((plen > 0) && (plen <= QCE_FIFO_SIZE)) {
pdesc->len = plen;
if (paddr > 0)
pdesc->addr = paddr;
}
return 0;
}
static int _chain_sg_buffer_in(struct qce_device *pce_dev,
struct scatterlist *sg, unsigned int nbytes)
{
unsigned int len;
unsigned int dlen;
struct dmov_desc *pdesc;
pdesc = pce_dev->ce_dm.ce_in_src_desc +
pce_dev->ce_dm.ce_in_src_desc_index;
/*
* Two consective chunks may be handled by the old
* buffer descriptor.
*/
while (nbytes > 0) {
len = min(nbytes, sg_dma_len(sg));
dlen = pdesc->len & ADM_DESC_LENGTH_MASK;
nbytes -= len;
if (dlen == 0) {
pdesc->addr = sg_dma_address(sg);
pdesc->len = len;
if (pdesc->len > QCE_FIFO_SIZE)
qce_split_and_insert_dm_desc(pdesc, pdesc->len,
sg_dma_address(sg),
&pce_dev->ce_dm.ce_in_src_desc_index);
} else if (sg_dma_address(sg) == (pdesc->addr + dlen)) {
pdesc->len = dlen + len;
if (pdesc->len > QCE_FIFO_SIZE)
qce_split_and_insert_dm_desc(pdesc, pdesc->len,
pdesc->addr,
&pce_dev->ce_dm.ce_in_src_desc_index);
} else {
pce_dev->ce_dm.ce_in_src_desc_index++;
if (pce_dev->ce_dm.ce_in_src_desc_index >=
QCE_MAX_NUM_DESC)
return -ENOMEM;
pdesc++;
pdesc->len = len;
pdesc->addr = sg_dma_address(sg);
if (pdesc->len > QCE_FIFO_SIZE)
qce_split_and_insert_dm_desc(pdesc, pdesc->len,
sg_dma_address(sg),
&pce_dev->ce_dm.ce_in_src_desc_index);
}
if (nbytes > 0)
sg = scatterwalk_sg_next(sg);
}
return 0;
}
static int _chain_pm_buffer_in(struct qce_device *pce_dev,
unsigned int pmem, unsigned int nbytes)
{
unsigned int dlen;
struct dmov_desc *pdesc;
pdesc = pce_dev->ce_dm.ce_in_src_desc +
pce_dev->ce_dm.ce_in_src_desc_index;
dlen = pdesc->len & ADM_DESC_LENGTH_MASK;
if (dlen == 0) {
pdesc->addr = pmem;
pdesc->len = nbytes;
} else if (pmem == (pdesc->addr + dlen)) {
pdesc->len = dlen + nbytes;
} else {
pce_dev->ce_dm.ce_in_src_desc_index++;
if (pce_dev->ce_dm.ce_in_src_desc_index >=
QCE_MAX_NUM_DESC)
return -ENOMEM;
pdesc++;
pdesc->len = nbytes;
pdesc->addr = pmem;
}
return 0;
}
static void _chain_buffer_in_init(struct qce_device *pce_dev)
{
struct dmov_desc *pdesc;
pce_dev->ce_dm.ce_in_src_desc_index = 0;
pce_dev->ce_dm.ce_in_dst_desc_index = 0;
pdesc = pce_dev->ce_dm.ce_in_src_desc;
pdesc->len = 0;
}
static void _ce_in_final(struct qce_device *pce_dev, unsigned total)
{
struct dmov_desc *pdesc;
dmov_sg *pcmd;
pdesc = pce_dev->ce_dm.ce_in_src_desc +
pce_dev->ce_dm.ce_in_src_desc_index;
pdesc->len |= ADM_DESC_LAST;
pdesc = pce_dev->ce_dm.ce_in_dst_desc;
if (total > QCE_FIFO_SIZE) {
qce_split_and_insert_dm_desc(pdesc, total, 0,
&pce_dev->ce_dm.ce_in_dst_desc_index);
pdesc = pce_dev->ce_dm.ce_in_dst_desc +
pce_dev->ce_dm.ce_in_dst_desc_index;
pdesc->len |= ADM_DESC_LAST;
} else
pdesc->len = ADM_DESC_LAST | total;
pcmd = (dmov_sg *) pce_dev->ce_dm.cmdlist.ce_data_in;
pcmd->cmd |= CMD_LC;
}
#ifdef QCE_DEBUG
static void _ce_in_dump(struct qce_device *pce_dev)
{
int i;
struct dmov_desc *pdesc;
dev_info(pce_dev->pdev, "_ce_in_dump: src\n");
for (i = 0; i <= pce_dev->ce_dm.ce_in_src_desc_index; i++) {
pdesc = pce_dev->ce_dm.ce_in_src_desc + i;
dev_info(pce_dev->pdev, "%x , %x\n", pdesc->addr,
pdesc->len);
}
dev_info(pce_dev->pdev, "_ce_in_dump: dst\n");
for (i = 0; i <= pce_dev->ce_dm.ce_in_dst_desc_index; i++) {
pdesc = pce_dev->ce_dm.ce_in_dst_desc + i;
dev_info(pce_dev->pdev, "%x , %x\n", pdesc->addr,
pdesc->len);
}
};
static void _ce_out_dump(struct qce_device *pce_dev)
{
int i;
struct dmov_desc *pdesc;
dev_info(pce_dev->pdev, "_ce_out_dump: src\n");
for (i = 0; i <= pce_dev->ce_dm.ce_out_src_desc_index; i++) {
pdesc = pce_dev->ce_dm.ce_out_src_desc + i;
dev_info(pce_dev->pdev, "%x , %x\n", pdesc->addr,
pdesc->len);
}
dev_info(pce_dev->pdev, "_ce_out_dump: dst\n");
for (i = 0; i <= pce_dev->ce_dm.ce_out_dst_desc_index; i++) {
pdesc = pce_dev->ce_dm.ce_out_dst_desc + i;
dev_info(pce_dev->pdev, "%x , %x\n", pdesc->addr,
pdesc->len);
}
};
#else
static void _ce_in_dump(struct qce_device *pce_dev)
{
};
static void _ce_out_dump(struct qce_device *pce_dev)
{
};
#endif
static int _chain_sg_buffer_out(struct qce_device *pce_dev,
struct scatterlist *sg, unsigned int nbytes)
{
unsigned int len;
unsigned int dlen;
struct dmov_desc *pdesc;
pdesc = pce_dev->ce_dm.ce_out_dst_desc +
pce_dev->ce_dm.ce_out_dst_desc_index;
/*
* Two consective chunks may be handled by the old
* buffer descriptor.
*/
while (nbytes > 0) {
len = min(nbytes, sg_dma_len(sg));
dlen = pdesc->len & ADM_DESC_LENGTH_MASK;
nbytes -= len;
if (dlen == 0) {
pdesc->addr = sg_dma_address(sg);
pdesc->len = len;
if (pdesc->len > QCE_FIFO_SIZE)
qce_split_and_insert_dm_desc(pdesc, pdesc->len,
sg_dma_address(sg),
&pce_dev->ce_dm.ce_out_dst_desc_index);
} else if (sg_dma_address(sg) == (pdesc->addr + dlen)) {
pdesc->len = dlen + len;
if (pdesc->len > QCE_FIFO_SIZE)
qce_split_and_insert_dm_desc(pdesc, pdesc->len,
pdesc->addr,
&pce_dev->ce_dm.ce_out_dst_desc_index);
} else {
pce_dev->ce_dm.ce_out_dst_desc_index++;
if (pce_dev->ce_dm.ce_out_dst_desc_index >=
QCE_MAX_NUM_DESC)
return -EIO;
pdesc++;
pdesc->len = len;
pdesc->addr = sg_dma_address(sg);
if (pdesc->len > QCE_FIFO_SIZE)
qce_split_and_insert_dm_desc(pdesc, pdesc->len,
sg_dma_address(sg),
&pce_dev->ce_dm.ce_out_dst_desc_index);
}
if (nbytes > 0)
sg = scatterwalk_sg_next(sg);
}
return 0;
}
static int _chain_pm_buffer_out(struct qce_device *pce_dev,
unsigned int pmem, unsigned int nbytes)
{
unsigned int dlen;
struct dmov_desc *pdesc;
pdesc = pce_dev->ce_dm.ce_out_dst_desc +
pce_dev->ce_dm.ce_out_dst_desc_index;
dlen = pdesc->len & ADM_DESC_LENGTH_MASK;
if (dlen == 0) {
pdesc->addr = pmem;
pdesc->len = nbytes;
} else if (pmem == (pdesc->addr + dlen)) {
pdesc->len = dlen + nbytes;
} else {
pce_dev->ce_dm.ce_out_dst_desc_index++;
if (pce_dev->ce_dm.ce_out_dst_desc_index >= QCE_MAX_NUM_DESC)
return -EIO;
pdesc++;
pdesc->len = nbytes;
pdesc->addr = pmem;
}
return 0;
};
static void _chain_buffer_out_init(struct qce_device *pce_dev)
{
struct dmov_desc *pdesc;
pce_dev->ce_dm.ce_out_dst_desc_index = 0;
pce_dev->ce_dm.ce_out_src_desc_index = 0;
pdesc = pce_dev->ce_dm.ce_out_dst_desc;
pdesc->len = 0;
};
static void _ce_out_final(struct qce_device *pce_dev, unsigned total)
{
struct dmov_desc *pdesc;
dmov_sg *pcmd;
pdesc = pce_dev->ce_dm.ce_out_dst_desc +
pce_dev->ce_dm.ce_out_dst_desc_index;
pdesc->len |= ADM_DESC_LAST;
pdesc = pce_dev->ce_dm.ce_out_src_desc +
pce_dev->ce_dm.ce_out_src_desc_index;
if (total > QCE_FIFO_SIZE) {
qce_split_and_insert_dm_desc(pdesc, total, 0,
&pce_dev->ce_dm.ce_out_src_desc_index);
pdesc = pce_dev->ce_dm.ce_out_src_desc +
pce_dev->ce_dm.ce_out_src_desc_index;
pdesc->len |= ADM_DESC_LAST;
} else
pdesc->len = ADM_DESC_LAST | total;
pcmd = (dmov_sg *) pce_dev->ce_dm.cmdlist.ce_data_out;
pcmd->cmd |= CMD_LC;
};
static void _aead_ce_in_call_back(struct msm_dmov_cmd *cmd_ptr,
unsigned int result, struct msm_dmov_errdata *err)
{
struct qce_device *pce_dev;
pce_dev = (struct qce_device *) cmd_ptr->user;
if (result != ADM_STATUS_OK) {
dev_err(pce_dev->pdev, "Qualcomm ADM status error %x\n",
result);
pce_dev->ce_dm.chan_ce_in_status = -1;
} else {
pce_dev->ce_dm.chan_ce_in_status = 0;
}
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_COMP;
if (pce_dev->ce_dm.chan_ce_out_state == QCE_CHAN_STATE_COMP) {
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IDLE;
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_IDLE;
/* done */
_aead_complete(pce_dev);
}
};
static void _aead_ce_out_call_back(struct msm_dmov_cmd *cmd_ptr,
unsigned int result, struct msm_dmov_errdata *err)
{
struct qce_device *pce_dev;
pce_dev = (struct qce_device *) cmd_ptr->user;
if (result != ADM_STATUS_OK) {
dev_err(pce_dev->pdev, "Qualcomm ADM status error %x\n",
result);
pce_dev->ce_dm.chan_ce_out_status = -1;
} else {
pce_dev->ce_dm.chan_ce_out_status = 0;
};
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_COMP;
if (pce_dev->ce_dm.chan_ce_in_state == QCE_CHAN_STATE_COMP) {
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IDLE;
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_IDLE;
/* done */
_aead_complete(pce_dev);
}
};
static void _sha_ce_in_call_back(struct msm_dmov_cmd *cmd_ptr,
unsigned int result, struct msm_dmov_errdata *err)
{
struct qce_device *pce_dev;
pce_dev = (struct qce_device *) cmd_ptr->user;
if (result != ADM_STATUS_OK) {
dev_err(pce_dev->pdev, "Qualcomm ADM status error %x\n",
result);
pce_dev->ce_dm.chan_ce_in_status = -1;
} else {
pce_dev->ce_dm.chan_ce_in_status = 0;
}
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IDLE;
_sha_complete(pce_dev);
};
static void _ablk_cipher_ce_in_call_back(struct msm_dmov_cmd *cmd_ptr,
unsigned int result, struct msm_dmov_errdata *err)
{
struct qce_device *pce_dev;
pce_dev = (struct qce_device *) cmd_ptr->user;
if (result != ADM_STATUS_OK) {
dev_err(pce_dev->pdev, "Qualcomm ADM status error %x\n",
result);
pce_dev->ce_dm.chan_ce_in_status = -1;
} else {
pce_dev->ce_dm.chan_ce_in_status = 0;
}
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_COMP;
if (pce_dev->ce_dm.chan_ce_out_state == QCE_CHAN_STATE_COMP) {
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IDLE;
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_IDLE;
/* done */
_ablk_cipher_complete(pce_dev);
}
};
static void _ablk_cipher_ce_out_call_back(struct msm_dmov_cmd *cmd_ptr,
unsigned int result, struct msm_dmov_errdata *err)
{
struct qce_device *pce_dev;
pce_dev = (struct qce_device *) cmd_ptr->user;
if (result != ADM_STATUS_OK) {
dev_err(pce_dev->pdev, "Qualcomm ADM status error %x\n",
result);
pce_dev->ce_dm.chan_ce_out_status = -1;
} else {
pce_dev->ce_dm.chan_ce_out_status = 0;
};
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_COMP;
if (pce_dev->ce_dm.chan_ce_in_state == QCE_CHAN_STATE_COMP) {
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IDLE;
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_IDLE;
/* done */
_ablk_cipher_complete(pce_dev);
}
};
static void _ablk_cipher_ce_in_call_back_pmem(struct msm_dmov_cmd *cmd_ptr,
unsigned int result, struct msm_dmov_errdata *err)
{
struct qce_device *pce_dev;
pce_dev = (struct qce_device *) cmd_ptr->user;
if (result != ADM_STATUS_OK) {
dev_err(pce_dev->pdev, "Qualcomm ADM status error %x\n",
result);
pce_dev->ce_dm.chan_ce_in_status = -1;
} else {
pce_dev->ce_dm.chan_ce_in_status = 0;
}
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_COMP;
if (pce_dev->ce_dm.chan_ce_out_state == QCE_CHAN_STATE_COMP) {
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IDLE;
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_IDLE;
/* done */
_ablk_cipher_use_pmem_complete(pce_dev);
}
};
static void _ablk_cipher_ce_out_call_back_pmem(struct msm_dmov_cmd *cmd_ptr,
unsigned int result, struct msm_dmov_errdata *err)
{
struct qce_device *pce_dev;
pce_dev = (struct qce_device *) cmd_ptr->user;
if (result != ADM_STATUS_OK) {
dev_err(pce_dev->pdev, "Qualcomm ADM status error %x\n",
result);
pce_dev->ce_dm.chan_ce_out_status = -1;
} else {
pce_dev->ce_dm.chan_ce_out_status = 0;
};
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_COMP;
if (pce_dev->ce_dm.chan_ce_in_state == QCE_CHAN_STATE_COMP) {
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IDLE;
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_IDLE;
/* done */
_ablk_cipher_use_pmem_complete(pce_dev);
}
};
static int qce_setup_cmd_buffers(struct qce_device *pce_dev,
unsigned char **pvaddr)
{
struct ce_reg_buffers *addr = (struct ce_reg_buffers *)(*pvaddr);
struct ce_reg_buffer_addr *buffer = &pce_dev->ce_dm.buffer;
/*
* Designate chunks of the allocated memory to various
* buffer pointers
*/
buffer->reset_buf_64 = addr->reset_buf_64;
buffer->version = addr->version;
buffer->encr_seg_cfg_size_start = addr->encr_seg_cfg_size_start;
buffer->encr_key = addr->encr_key;
buffer->encr_xts_key = addr->encr_xts_key;
buffer->encr_xts_du_size = addr->encr_xts_du_size;
buffer->encr_cntr_iv = addr->encr_cntr_iv;
buffer->encr_mask = addr->encr_mask;
buffer->auth_seg_cfg_size_start = addr->auth_seg_cfg_size_start;
buffer->auth_key = addr->auth_key;
buffer->auth_iv = addr->auth_iv;
buffer->auth_result = addr->auth_result;
buffer->auth_nonce_info = addr->auth_nonce_info;
buffer->auth_byte_count = addr->auth_byte_count;
buffer->seg_size = addr->seg_size;
buffer->go_proc = addr->go_proc;
buffer->status = addr->status;
buffer->pad = addr->pad;
memset(buffer->reset_buf_64, 0, 64);
*((uint32_t *)buffer->encr_mask) = (uint32_t)(0xffffffff);
*((uint32_t *)buffer->go_proc) = (uint32_t)(1 << CRYPTO_GO);
*pvaddr += sizeof(struct ce_reg_buffers);
return 0;
}
static int _setup_cipher_cmdlists(struct qce_device *pce_dev,
unsigned char **pvaddr)
{
dmov_s *pscmd = (dmov_s *)(*pvaddr);
/*
* Designate chunks of the allocated memory to various
* command list pointers related to cipher operation
*/
pce_dev->ce_dm.cmdlist.set_cipher_cfg = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_SEG_CFG_REG +
pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 3;
pscmd->src =
GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_seg_cfg_size_start);
pscmd++;
pce_dev->ce_dm.cmdlist.set_cipher_aes_128_key = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_KEY0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_key);
pscmd++;
pce_dev->ce_dm.cmdlist.set_cipher_aes_256_key = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_KEY0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 8;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_key);
pscmd++;
pce_dev->ce_dm.cmdlist.set_cipher_des_key = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_KEY0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 2;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_key);
pscmd++;
pce_dev->ce_dm.cmdlist.set_cipher_3des_key = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_KEY0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 6;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_key);
pscmd++;
pce_dev->ce_dm.cmdlist.set_cipher_aes_128_xts_key = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_XTS_KEY0_REG +
pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_xts_key);
pscmd++;
pce_dev->ce_dm.cmdlist.set_cipher_aes_256_xts_key = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_XTS_KEY0_REG +
pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 8;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_xts_key);
pscmd++;
pce_dev->ce_dm.cmdlist.set_cipher_xts_du_size = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_XTS_DU_SIZE_REG +
pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_xts_du_size);
pscmd++;
pce_dev->ce_dm.cmdlist.set_cipher_aes_iv = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_CNTR0_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_cntr_iv);
pscmd++;
pce_dev->ce_dm.cmdlist.set_cipher_des_iv = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_CNTR0_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 2;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_cntr_iv);
pscmd++;
pce_dev->ce_dm.cmdlist.get_cipher_iv = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->src = (unsigned) (CRYPTO_CNTR0_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->dst = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_cntr_iv);
pscmd++;
pce_dev->ce_dm.cmdlist.set_cipher_mask = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_CNTR_MASK_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.encr_mask);
pscmd++;
/* RESET CIPHER AND AUTH REGISTERS COMMAND LISTS*/
pce_dev->ce_dm.cmdlist.reset_cipher_key = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_KEY0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 8;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.reset_buf_64);
pscmd++;
pce_dev->ce_dm.cmdlist.reset_cipher_xts_key = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_XTS_KEY0_REG +
pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 8;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.reset_buf_64);
pscmd++;
pce_dev->ce_dm.cmdlist.reset_cipher_iv = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_CNTR0_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.reset_buf_64);
pscmd++;
pce_dev->ce_dm.cmdlist.reset_cipher_cfg = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_ENCR_SEG_CFG_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.reset_buf_64);
pscmd++;
*pvaddr = (unsigned char *) pscmd;
return 0;
}
static int _setup_auth_cmdlists(struct qce_device *pce_dev,
unsigned char **pvaddr)
{
dmov_s *pscmd = (dmov_s *)(*pvaddr);
/*
* Designate chunks of the allocated memory to various
* command list pointers related to authentication operation
*/
pce_dev->ce_dm.cmdlist.set_auth_cfg = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_SEG_CFG_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 3;
pscmd->src =
GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_seg_cfg_size_start);
pscmd++;
pce_dev->ce_dm.cmdlist.set_auth_key_128 = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_KEY0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_key);
pscmd++;
pce_dev->ce_dm.cmdlist.set_auth_key_256 = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_KEY0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 8;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_key);
pscmd++;
pce_dev->ce_dm.cmdlist.set_auth_key_512 = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_KEY0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 16;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_key);
pscmd++;
pce_dev->ce_dm.cmdlist.set_auth_iv_16 = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_iv);
pscmd++;
pce_dev->ce_dm.cmdlist.get_auth_result_16 = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->src = (unsigned) (CRYPTO_AUTH_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->dst = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_result);
pscmd++;
pce_dev->ce_dm.cmdlist.set_auth_iv_20 = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 5;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_iv);
pscmd++;
pce_dev->ce_dm.cmdlist.get_auth_result_20 = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->src = (unsigned) (CRYPTO_AUTH_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 5;
pscmd->dst = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_result);
pscmd++;
pce_dev->ce_dm.cmdlist.set_auth_iv_32 = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 8;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_iv);
pscmd++;
pce_dev->ce_dm.cmdlist.get_auth_result_32 = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->src = (unsigned) (CRYPTO_AUTH_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 8;
pscmd->dst = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_result);
pscmd++;
pce_dev->ce_dm.cmdlist.set_auth_byte_count = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_BYTECNT0_REG +
pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_byte_count);
pscmd++;
pce_dev->ce_dm.cmdlist.get_auth_byte_count = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->src = (unsigned) (CRYPTO_AUTH_BYTECNT0_REG +
pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->dst = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_byte_count);
pscmd++;
pce_dev->ce_dm.cmdlist.set_auth_nonce_info = pscmd;
pscmd->cmd = CMD_LC | CMD_SRC_SWAP_BYTES |
CMD_SRC_SWAP_SHORTS | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_INFO_NONCE0_REG +
pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.auth_nonce_info);
pscmd++;
/* RESET CIPHER AND AUTH REGISTERS COMMAND LISTS*/
pce_dev->ce_dm.cmdlist.reset_auth_key = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_KEY0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 16;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.reset_buf_64);
pscmd++;
pce_dev->ce_dm.cmdlist.reset_auth_iv = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_IV0_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 16;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.reset_buf_64);
pscmd++;
pce_dev->ce_dm.cmdlist.reset_auth_cfg = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_SEG_CFG_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.reset_buf_64);
pscmd++;
pce_dev->ce_dm.cmdlist.reset_auth_byte_count = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_AUTH_BYTECNT0_REG +
pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE * 4;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.reset_buf_64);
pscmd++;
/* WAIT UNTIL MAC OP IS DONE*/
pce_dev->ce_dm.cmdlist.get_status_wait = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->src = (unsigned) (CRYPTO_STATUS_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE;
pscmd->dst = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.status);
pscmd++;
*pvaddr = (unsigned char *) pscmd;
return 0;
}
static int qce_setup_cmdlists(struct qce_device *pce_dev,
unsigned char **pvaddr)
{
dmov_sg *pcmd;
dmov_s *pscmd;
unsigned char *vaddr = *pvaddr;
struct dmov_desc *pdesc;
int i = 0;
/*
* Designate chunks of the allocated memory to various
* command list pointers related to operation define
* in ce_cmdlists structure.
*/
vaddr = (unsigned char *) ALIGN(((unsigned int)vaddr), 16);
*pvaddr = (unsigned char *) vaddr;
_setup_cipher_cmdlists(pce_dev, pvaddr);
_setup_auth_cmdlists(pce_dev, pvaddr);
pscmd = (dmov_s *)(*pvaddr);
/* GET HW VERSION COMMAND LIST */
pce_dev->ce_dm.cmdlist.get_hw_version = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE | CMD_OCB;
pscmd->src = (unsigned) (CRYPTO_VERSION_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE;
pscmd->dst = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.version);
pscmd++;
/* SET SEG SIZE REGISTER and OCB COMMAND LIST */
pce_dev->ce_dm.cmdlist.set_seg_size_ocb = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE | CMD_OCB;
pscmd->dst = (unsigned) (CRYPTO_SEG_SIZE_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.seg_size);
pscmd++;
/* OCU COMMAND LIST */
pce_dev->ce_dm.cmdlist.get_status_ocu = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE | CMD_OCU;
pscmd->src = (unsigned) (CRYPTO_STATUS_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE;
pscmd->dst = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.status);
pscmd++;
/* CLEAR STATUS COMMAND LIST */
pce_dev->ce_dm.cmdlist.clear_status = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE | CMD_OCU;
pscmd->dst = (unsigned) (CRYPTO_STATUS_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.status);
pscmd++;
/* SET GO_PROC REGISTERS COMMAND LIST */
pce_dev->ce_dm.cmdlist.set_go_proc = pscmd;
pscmd->cmd = CMD_LC | CMD_MODE_SINGLE;
pscmd->dst = (unsigned) (CRYPTO_GOPROC_REG + pce_dev->phy_iobase);
pscmd->len = CRYPTO_REG_SIZE;
pscmd->src = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.go_proc);
pscmd++;
pcmd = (dmov_sg *)pscmd;
pce_dev->ce_dm.cmdlist.ce_data_in = pcmd;
/* swap byte and half word , dst crci , scatter gather */
pcmd->cmd = CMD_DST_SWAP_BYTES | CMD_DST_SWAP_SHORTS |
CMD_DST_CRCI(pce_dev->ce_dm.crci_in) | CMD_MODE_SG;
pdesc = pce_dev->ce_dm.ce_in_src_desc;
pdesc->addr = 0; /* to be filled in each operation */
pdesc->len = 0; /* to be filled in each operation */
pdesc = pce_dev->ce_dm.ce_in_dst_desc;
for (i = 0; i < QCE_MAX_NUM_DESC; i++) {
pdesc->addr = (CRYPTO_DATA_SHADOW0 + pce_dev->phy_iobase);
pdesc->len = 0; /* to be filled in each operation */
pdesc++;
}
pcmd->src_dscr = GET_PHYS_ADDR(pce_dev->ce_dm.ce_in_src_desc);
pcmd->dst_dscr = GET_PHYS_ADDR(pce_dev->ce_dm.ce_in_dst_desc);
pcmd->_reserved = LI_SG_CMD | SRC_INDEX_SG_CMD(0) |
DST_INDEX_SG_CMD(0);
pcmd++;
pce_dev->ce_dm.cmdlist.ce_data_out = pcmd;
/* swap byte, half word, source crci, scatter gather */
pcmd->cmd = CMD_SRC_SWAP_BYTES | CMD_SRC_SWAP_SHORTS |
CMD_SRC_CRCI(pce_dev->ce_dm.crci_out) | CMD_MODE_SG;
pdesc = pce_dev->ce_dm.ce_out_src_desc;
for (i = 0; i < QCE_MAX_NUM_DESC; i++) {
pdesc->addr = (CRYPTO_DATA_SHADOW0 + pce_dev->phy_iobase);
pdesc->len = 0; /* to be filled in each operation */
pdesc++;
}
pdesc = pce_dev->ce_dm.ce_out_dst_desc;
pdesc->addr = 0; /* to be filled in each operation */
pdesc->len = 0; /* to be filled in each operation */
pcmd->src_dscr = GET_PHYS_ADDR(pce_dev->ce_dm.ce_out_src_desc);
pcmd->dst_dscr = GET_PHYS_ADDR(pce_dev->ce_dm.ce_out_dst_desc);
pcmd->_reserved = LI_SG_CMD | SRC_INDEX_SG_CMD(0) |
DST_INDEX_SG_CMD(0);
pcmd++;
*pvaddr = (unsigned char *) pcmd;
return 0;
}
static int _setup_cipher_cmdptrlists(struct qce_device *pce_dev,
unsigned char **pvaddr)
{
uint32_t * cmd_ptr_vaddr = (uint32_t *)(*pvaddr);
struct ce_cmdlists *cmdlist = &pce_dev->ce_dm.cmdlist;
struct ce_cmdptrlists_ops *cmdptrlist = &pce_dev->ce_dm.cmdptrlist;
/*
* Designate chunks of the allocated memory to various
* command list pointers related to cipher operations defined
* in ce_cmdptrlists_ops structure.
*/
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_aes_128_cbc_ctr = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_128_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_mask);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_aes_256_cbc_ctr = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_256_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_mask);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_aes_128_ecb = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_128_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_mask);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *)ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_aes_256_ecb = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_256_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_mask);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *)ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_aes_128_xts = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_128_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_128_xts_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_xts_du_size);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_mask);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_aes_256_xts = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_256_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_256_xts_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_xts_du_size);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_mask);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *)ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_des_cbc = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_des_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_des_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *)ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_des_ecb = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_des_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_3des_cbc = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_3des_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_des_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_3des_ecb = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_3des_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_ce_out = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->ce_data_out);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->get_status_ocu);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->cipher_ce_out_get_iv = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->ce_data_out);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_cipher_iv);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->get_status_ocu);
*pvaddr = (unsigned char *) cmd_ptr_vaddr;
return 0;
}
static int _setup_auth_cmdptrlists(struct qce_device *pce_dev,
unsigned char **pvaddr)
{
uint32_t * cmd_ptr_vaddr = (uint32_t *)(*pvaddr);
struct ce_cmdlists *cmdlist = &pce_dev->ce_dm.cmdlist;
struct ce_cmdptrlists_ops *cmdptrlist = &pce_dev->ce_dm.cmdptrlist;
/*
* Designate chunks of the allocated memory to various
* command list pointers related to authentication operations
* defined in ce_cmdptrlists_ops structure.
*/
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->auth_sha1 = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_iv_20);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->ce_data_in);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_result_20);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->get_status_ocu);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->auth_sha256 = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_iv_32);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->ce_data_in);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_result_32);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->get_status_ocu);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->auth_sha1_hmac = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_key_512);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_iv_20);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->ce_data_in);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_result_20);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->get_status_ocu);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->auth_sha256_hmac = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_key_512);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_iv_32);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->ce_data_in);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_result_32);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->get_status_ocu);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->auth_aes_128_cmac = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_key_128);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->ce_data_in);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_result_16);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->get_status_ocu);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->auth_aes_256_cmac = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_key_256);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->ce_data_in);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_auth_result_16);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->get_status_ocu);
*pvaddr = (unsigned char *) cmd_ptr_vaddr;
return 0;
}
static int _setup_aead_cmdptrlists(struct qce_device *pce_dev,
unsigned char **pvaddr)
{
uint32_t * cmd_ptr_vaddr = (uint32_t *)(*pvaddr);
struct ce_cmdlists *cmdlist = &pce_dev->ce_dm.cmdlist;
struct ce_cmdptrlists_ops *cmdptrlist = &pce_dev->ce_dm.cmdptrlist;
/*
* Designate chunks of the allocated memory to various
* command list pointers related to aead operations
* defined in ce_cmdptrlists_ops structure.
*/
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->aead_aes_128_ccm = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_key_128);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_nonce_info);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_128_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_mask);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->aead_aes_256_ccm = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_seg_size_ocb);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->reset_auth_byte_count);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_key_256);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_nonce_info);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_auth_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_cfg);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_256_key);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_aes_iv);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_cipher_mask);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->set_go_proc);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->ce_data_in);
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->aead_ce_out = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->ce_data_out);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_status_wait);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->get_status_ocu);
*pvaddr = (unsigned char *) cmd_ptr_vaddr;
return 0;
}
static int qce_setup_cmdptrlists(struct qce_device *pce_dev,
unsigned char **pvaddr)
{
uint32_t * cmd_ptr_vaddr = (uint32_t *)(*pvaddr);
struct ce_cmdlists *cmdlist = &pce_dev->ce_dm.cmdlist;
struct ce_cmdptrlists_ops *cmdptrlist = &pce_dev->ce_dm.cmdptrlist;
/*
* Designate chunks of the allocated memory to various
* command list pointers related to operations defined
* in ce_cmdptrlists_ops structure.
*/
cmd_ptr_vaddr = (uint32_t *) ALIGN(((unsigned int) cmd_ptr_vaddr), 16);
cmdptrlist->probe_ce_hw = QCE_SET_CMD_PTR(cmd_ptr_vaddr);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->get_hw_version);
*cmd_ptr_vaddr++ = QCE_SET_CMD_PTR(cmdlist->clear_status);
*cmd_ptr_vaddr++ = QCE_SET_LAST_CMD_PTR(cmdlist->get_status_ocu);
*pvaddr = (unsigned char *) cmd_ptr_vaddr;
_setup_cipher_cmdptrlists(pce_dev, pvaddr);
_setup_auth_cmdptrlists(pce_dev, pvaddr);
_setup_aead_cmdptrlists(pce_dev, pvaddr);
return 0;
}
static int qce_setup_ce_dm_data(struct qce_device *pce_dev)
{
unsigned char *vaddr;
/* 1. ce_in channel data xfer command src descriptors, 128 entries */
vaddr = pce_dev->coh_vmem;
vaddr = (unsigned char *) ALIGN(((unsigned int)vaddr), 16);
pce_dev->ce_dm.ce_in_src_desc = (struct dmov_desc *) vaddr;
vaddr = vaddr + (sizeof(struct dmov_desc) * QCE_MAX_NUM_DESC);
/* 2. ce_in channel data xfer command dst descriptors, 128 entries */
vaddr = (unsigned char *) ALIGN(((unsigned int)vaddr), 16);
pce_dev->ce_dm.ce_in_dst_desc = (struct dmov_desc *) vaddr;
vaddr = vaddr + (sizeof(struct dmov_desc) * QCE_MAX_NUM_DESC);
/* 3. ce_out channel data xfer command src descriptors, 128 entries */
vaddr = (unsigned char *) ALIGN(((unsigned int)vaddr), 16);
pce_dev->ce_dm.ce_out_src_desc = (struct dmov_desc *) vaddr;
vaddr = vaddr + (sizeof(struct dmov_desc) * QCE_MAX_NUM_DESC);
/* 4. ce_out channel data xfer command dst descriptors, 128 entries. */
vaddr = (unsigned char *) ALIGN(((unsigned int)vaddr), 16);
pce_dev->ce_dm.ce_out_dst_desc = (struct dmov_desc *) vaddr;
vaddr = vaddr + (sizeof(struct dmov_desc) * QCE_MAX_NUM_DESC);
qce_setup_cmd_buffers(pce_dev, &vaddr);
qce_setup_cmdlists(pce_dev, &vaddr);
qce_setup_cmdptrlists(pce_dev, &vaddr);
pce_dev->ce_dm.buffer.ignore_data = vaddr;
pce_dev->ce_dm.phy_ce_pad = GET_PHYS_ADDR(pce_dev->ce_dm.buffer.pad);
pce_dev->ce_dm.phy_ce_out_ignore =
GET_PHYS_ADDR(pce_dev->ce_dm.buffer.ignore_data);
pce_dev->ce_dm.chan_ce_in_cmd->user = (void *) pce_dev;
pce_dev->ce_dm.chan_ce_in_cmd->exec_func = NULL;
pce_dev->ce_dm.chan_ce_out_cmd->user = (void *) pce_dev;
pce_dev->ce_dm.chan_ce_out_cmd->exec_func = NULL;
return 0;
}
static int _qce_start_dma(struct qce_device *pce_dev, bool ce_in, bool ce_out)
{
if (ce_in)
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IN_PROG;
else
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_COMP;
if (ce_out)
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_IN_PROG;
else
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_COMP;
if (ce_in)
msm_dmov_enqueue_cmd(pce_dev->ce_dm.chan_ce_in,
pce_dev->ce_dm.chan_ce_in_cmd);
if (ce_out)
msm_dmov_enqueue_cmd(pce_dev->ce_dm.chan_ce_out,
pce_dev->ce_dm.chan_ce_out_cmd);
return 0;
};
int qce_aead_req(void *handle, struct qce_req *q_req)
{
struct qce_device *pce_dev = (struct qce_device *) handle;
struct aead_request *areq = (struct aead_request *) q_req->areq;
uint32_t authsize = q_req->authsize;
uint32_t totallen_in, totallen_out, out_len;
uint32_t pad_len_in, pad_len_out;
int rc = 0;
int ce_block_size;
ce_block_size = pce_dev->ce_dm.ce_block_size;
if (q_req->dir == QCE_ENCRYPT) {
uint32_t pad_mac_len_out;
q_req->cryptlen = areq->cryptlen;
totallen_in = q_req->cryptlen + areq->assoclen;
pad_len_in = ALIGN(totallen_in, ce_block_size) - totallen_in;
out_len = areq->cryptlen + authsize;
totallen_out = q_req->cryptlen + authsize + areq->assoclen;
pad_mac_len_out = ALIGN(authsize, ce_block_size) - authsize;
totallen_out += pad_mac_len_out;
pad_len_out = ALIGN(totallen_out, ce_block_size) -
totallen_out + pad_mac_len_out;
} else {
q_req->cryptlen = areq->cryptlen - authsize;
totallen_in = areq->cryptlen + areq->assoclen;
pad_len_in = ALIGN(totallen_in, ce_block_size) - totallen_in;
out_len = q_req->cryptlen;
totallen_out = totallen_in;
pad_len_out = ALIGN(totallen_out, ce_block_size) - totallen_out;
pad_len_out += authsize;
}
_chain_buffer_in_init(pce_dev);
_chain_buffer_out_init(pce_dev);
pce_dev->assoc_nents = 0;
pce_dev->src_nents = 0;
pce_dev->dst_nents = 0;
pce_dev->ivsize = q_req->ivsize;
pce_dev->authsize = q_req->authsize;
/* associated data input */
pce_dev->assoc_nents = count_sg(areq->assoc, areq->assoclen);
qce_dma_map_sg(pce_dev->pdev, areq->assoc, pce_dev->assoc_nents,
DMA_TO_DEVICE);
if (_chain_sg_buffer_in(pce_dev, areq->assoc, areq->assoclen) < 0) {
rc = -ENOMEM;
goto bad;
}
/* cipher input */
pce_dev->src_nents = count_sg(areq->src, areq->cryptlen);
qce_dma_map_sg(pce_dev->pdev, areq->src, pce_dev->src_nents,
(areq->src == areq->dst) ? DMA_BIDIRECTIONAL :
DMA_TO_DEVICE);
if (_chain_sg_buffer_in(pce_dev, areq->src, areq->cryptlen) < 0) {
rc = -ENOMEM;
goto bad;
}
/* pad data in */
if (pad_len_in) {
if (_chain_pm_buffer_in(pce_dev, pce_dev->ce_dm.phy_ce_pad,
pad_len_in) < 0) {
rc = -ENOMEM;
goto bad;
}
}
/* ignore associated data */
if (_chain_pm_buffer_out(pce_dev, pce_dev->ce_dm.phy_ce_out_ignore,
areq->assoclen) < 0) {
rc = -ENOMEM;
goto bad;
}
/* cipher + mac output for encryption */
if (areq->src != areq->dst) {
pce_dev->dst_nents = count_sg(areq->dst, out_len);
qce_dma_map_sg(pce_dev->pdev, areq->dst, pce_dev->dst_nents,
DMA_FROM_DEVICE);
};
if (_chain_sg_buffer_out(pce_dev, areq->dst, out_len) < 0) {
rc = -ENOMEM;
goto bad;
}
/* pad data out */
if (pad_len_out) {
if (_chain_pm_buffer_out(pce_dev, pce_dev->ce_dm.phy_ce_pad,
pad_len_out) < 0) {
rc = -ENOMEM;
goto bad;
}
}
/* finalize the ce_in and ce_out channels command lists */
_ce_in_final(pce_dev, ALIGN(totallen_in, ce_block_size));
_ce_out_final(pce_dev, ALIGN(totallen_out, ce_block_size));
/* set up crypto device */
rc = _ce_setup_cipher(pce_dev, q_req, totallen_in, areq->assoclen);
if (rc < 0)
goto bad;
/* setup for callback, and issue command to adm */
pce_dev->areq = q_req->areq;
pce_dev->qce_cb = q_req->qce_cb;
pce_dev->ce_dm.chan_ce_in_cmd->complete_func = _aead_ce_in_call_back;
pce_dev->ce_dm.chan_ce_out_cmd->complete_func = _aead_ce_out_call_back;
_ce_in_dump(pce_dev);
_ce_out_dump(pce_dev);
rc = _qce_start_dma(pce_dev, true, true);
if (rc == 0)
return 0;
bad:
if (pce_dev->assoc_nents) {
qce_dma_unmap_sg(pce_dev->pdev, areq->assoc,
pce_dev->assoc_nents, DMA_TO_DEVICE);
}
if (pce_dev->src_nents) {
qce_dma_unmap_sg(pce_dev->pdev, areq->src, pce_dev->src_nents,
(areq->src == areq->dst) ? DMA_BIDIRECTIONAL :
DMA_TO_DEVICE);
}
if (pce_dev->dst_nents) {
qce_dma_unmap_sg(pce_dev->pdev, areq->dst, pce_dev->dst_nents,
DMA_FROM_DEVICE);
}
return rc;
}
EXPORT_SYMBOL(qce_aead_req);
int qce_ablk_cipher_req(void *handle, struct qce_req *c_req)
{
int rc = 0;
struct qce_device *pce_dev = (struct qce_device *) handle;
struct ablkcipher_request *areq = (struct ablkcipher_request *)
c_req->areq;
uint32_t pad_len = ALIGN(areq->nbytes, pce_dev->ce_dm.ce_block_size)
- areq->nbytes;
_chain_buffer_in_init(pce_dev);
_chain_buffer_out_init(pce_dev);
pce_dev->src_nents = 0;
pce_dev->dst_nents = 0;
/* cipher input */
pce_dev->src_nents = count_sg(areq->src, areq->nbytes);
if (c_req->use_pmem != 1)
qce_dma_map_sg(pce_dev->pdev, areq->src, pce_dev->src_nents,
(areq->src == areq->dst) ? DMA_BIDIRECTIONAL :
DMA_TO_DEVICE);
else
dma_map_pmem_sg(&c_req->pmem->src[0], pce_dev->src_nents,
areq->src);
if (_chain_sg_buffer_in(pce_dev, areq->src, areq->nbytes) < 0) {
rc = -ENOMEM;
goto bad;
}
/* cipher output */
if (areq->src != areq->dst) {
pce_dev->dst_nents = count_sg(areq->dst, areq->nbytes);
if (c_req->use_pmem != 1)
qce_dma_map_sg(pce_dev->pdev, areq->dst,
pce_dev->dst_nents, DMA_FROM_DEVICE);
else
dma_map_pmem_sg(&c_req->pmem->dst[0],
pce_dev->dst_nents, areq->dst);
};
if (_chain_sg_buffer_out(pce_dev, areq->dst, areq->nbytes) < 0) {
rc = -ENOMEM;
goto bad;
}
/* pad data */
if (pad_len) {
if (_chain_pm_buffer_in(pce_dev, pce_dev->ce_dm.phy_ce_pad,
pad_len) < 0) {
rc = -ENOMEM;
goto bad;
}
if (_chain_pm_buffer_out(pce_dev, pce_dev->ce_dm.phy_ce_pad,
pad_len) < 0) {
rc = -ENOMEM;
goto bad;
}
}
/* finalize the ce_in and ce_out channels command lists */
_ce_in_final(pce_dev, areq->nbytes + pad_len);
_ce_out_final(pce_dev, areq->nbytes + pad_len);
_ce_in_dump(pce_dev);
_ce_out_dump(pce_dev);
/* set up crypto device */
rc = _ce_setup_cipher(pce_dev, c_req, areq->nbytes, 0);
if (rc < 0)
goto bad;
/* setup for callback, and issue command to adm */
pce_dev->areq = areq;
pce_dev->qce_cb = c_req->qce_cb;
if (c_req->use_pmem == 1) {
pce_dev->ce_dm.chan_ce_in_cmd->complete_func =
_ablk_cipher_ce_in_call_back_pmem;
pce_dev->ce_dm.chan_ce_out_cmd->complete_func =
_ablk_cipher_ce_out_call_back_pmem;
} else {
pce_dev->ce_dm.chan_ce_in_cmd->complete_func =
_ablk_cipher_ce_in_call_back;
pce_dev->ce_dm.chan_ce_out_cmd->complete_func =
_ablk_cipher_ce_out_call_back;
}
rc = _qce_start_dma(pce_dev, true, true);
if (rc == 0)
return 0;
bad:
if (c_req->use_pmem != 1) {
if (pce_dev->dst_nents) {
qce_dma_unmap_sg(pce_dev->pdev, areq->dst,
pce_dev->dst_nents, DMA_FROM_DEVICE);
}
if (pce_dev->src_nents) {
qce_dma_unmap_sg(pce_dev->pdev, areq->src,
pce_dev->src_nents,
(areq->src == areq->dst) ?
DMA_BIDIRECTIONAL :
DMA_TO_DEVICE);
}
}
return rc;
}
EXPORT_SYMBOL(qce_ablk_cipher_req);
int qce_process_sha_req(void *handle, struct qce_sha_req *sreq)
{
struct qce_device *pce_dev = (struct qce_device *) handle;
int rc;
uint32_t pad_len = ALIGN(sreq->size, pce_dev->ce_dm.ce_block_size) -
sreq->size;
struct ahash_request *areq = (struct ahash_request *)sreq->areq;
_chain_buffer_in_init(pce_dev);
pce_dev->src_nents = count_sg(sreq->src, sreq->size);
qce_dma_map_sg(pce_dev->pdev, sreq->src, pce_dev->src_nents,
DMA_TO_DEVICE);
if (_chain_sg_buffer_in(pce_dev, sreq->src, sreq->size) < 0) {
rc = -ENOMEM;
goto bad;
}
if (pad_len) {
if (_chain_pm_buffer_in(pce_dev, pce_dev->ce_dm.phy_ce_pad,
pad_len) < 0) {
rc = -ENOMEM;
goto bad;
}
}
_ce_in_final(pce_dev, sreq->size + pad_len);
_ce_in_dump(pce_dev);
rc = _ce_setup_hash(pce_dev, sreq);
if (rc < 0)
goto bad;
pce_dev->areq = areq;
pce_dev->qce_cb = sreq->qce_cb;
pce_dev->ce_dm.chan_ce_in_cmd->complete_func = _sha_ce_in_call_back;
rc = _qce_start_dma(pce_dev, true, false);
if (rc == 0)
return 0;
bad:
if (pce_dev->src_nents) {
qce_dma_unmap_sg(pce_dev->pdev, sreq->src,
pce_dev->src_nents, DMA_TO_DEVICE);
}
return rc;
}
EXPORT_SYMBOL(qce_process_sha_req);
/* crypto engine open function. */
void *qce_open(struct platform_device *pdev, int *rc)
{
struct qce_device *pce_dev;
struct resource *resource;
struct clk *ce_core_clk;
struct clk *ce_clk;
struct clk *ce_core_src_clk;
int ret = 0;
pce_dev = kzalloc(sizeof(struct qce_device), GFP_KERNEL);
if (!pce_dev) {
*rc = -ENOMEM;
dev_err(&pdev->dev, "Can not allocate memory\n");
return NULL;
}
pce_dev->pdev = &pdev->dev;
resource = platform_get_resource(pdev, IORESOURCE_MEM, 0);
if (!resource) {
*rc = -ENXIO;
dev_err(pce_dev->pdev, "Missing MEM resource\n");
goto err_pce_dev;
};
pce_dev->phy_iobase = resource->start;
pce_dev->iobase = ioremap_nocache(resource->start,
resource->end - resource->start + 1);
if (!pce_dev->iobase) {
*rc = -ENOMEM;
dev_err(pce_dev->pdev, "Can not map io memory\n");
goto err_pce_dev;
}
pce_dev->ce_dm.chan_ce_in_cmd = kzalloc(sizeof(struct msm_dmov_cmd),
GFP_KERNEL);
pce_dev->ce_dm.chan_ce_out_cmd = kzalloc(sizeof(struct msm_dmov_cmd),
GFP_KERNEL);
if (pce_dev->ce_dm.chan_ce_in_cmd == NULL ||
pce_dev->ce_dm.chan_ce_out_cmd == NULL) {
dev_err(pce_dev->pdev, "Can not allocate memory\n");
*rc = -ENOMEM;
goto err_dm_chan_cmd;
}
resource = platform_get_resource_byname(pdev, IORESOURCE_DMA,
"crypto_channels");
if (!resource) {
*rc = -ENXIO;
dev_err(pce_dev->pdev, "Missing DMA channel resource\n");
goto err_dm_chan_cmd;
};
pce_dev->ce_dm.chan_ce_in = resource->start;
pce_dev->ce_dm.chan_ce_out = resource->end;
resource = platform_get_resource_byname(pdev, IORESOURCE_DMA,
"crypto_crci_in");
if (!resource) {
*rc = -ENXIO;
dev_err(pce_dev->pdev, "Missing DMA crci in resource\n");
goto err_dm_chan_cmd;
};
pce_dev->ce_dm.crci_in = resource->start;
resource = platform_get_resource_byname(pdev, IORESOURCE_DMA,
"crypto_crci_out");
if (!resource) {
*rc = -ENXIO;
dev_err(pce_dev->pdev, "Missing DMA crci out resource\n");
goto err_dm_chan_cmd;
};
pce_dev->ce_dm.crci_out = resource->start;
pce_dev->memsize = 2 * PAGE_SIZE;
pce_dev->coh_vmem = dma_alloc_coherent(pce_dev->pdev,
pce_dev->memsize, &pce_dev->coh_pmem, GFP_KERNEL);
if (pce_dev->coh_vmem == NULL) {
*rc = -ENOMEM;
dev_err(pce_dev->pdev, "Can not allocate coherent memory.\n");
goto err;
}
/* Get CE3 src core clk. */
ce_core_src_clk = clk_get(pce_dev->pdev, "ce3_core_src_clk");
if (!IS_ERR(ce_core_src_clk)) {
pce_dev->ce_core_src_clk = ce_core_src_clk;
/* Set the core src clk @100Mhz */
ret = clk_set_rate(pce_dev->ce_core_src_clk, 100000000);
if (ret) {
clk_put(pce_dev->ce_core_src_clk);
goto err;
}
} else
pce_dev->ce_core_src_clk = NULL;
/* Get CE core clk */
ce_core_clk = clk_get(pce_dev->pdev, "core_clk");
if (IS_ERR(ce_core_clk)) {
*rc = PTR_ERR(ce_core_clk);
if (pce_dev->ce_core_src_clk != NULL)
clk_put(pce_dev->ce_core_src_clk);
goto err;
}
pce_dev->ce_core_clk = ce_core_clk;
/* Get CE clk */
ce_clk = clk_get(pce_dev->pdev, "iface_clk");
if (IS_ERR(ce_clk)) {
*rc = PTR_ERR(ce_clk);
if (pce_dev->ce_core_src_clk != NULL)
clk_put(pce_dev->ce_core_src_clk);
clk_put(pce_dev->ce_core_clk);
goto err;
}
pce_dev->ce_clk = ce_clk;
/* Enable CE core clk */
*rc = clk_prepare_enable(pce_dev->ce_core_clk);
if (*rc) {
if (pce_dev->ce_core_src_clk != NULL)
clk_put(pce_dev->ce_core_src_clk);
clk_put(pce_dev->ce_core_clk);
clk_put(pce_dev->ce_clk);
goto err;
} else {
/* Enable CE clk */
*rc = clk_prepare_enable(pce_dev->ce_clk);
if (*rc) {
clk_disable_unprepare(pce_dev->ce_core_clk);
if (pce_dev->ce_core_src_clk != NULL)
clk_put(pce_dev->ce_core_src_clk);
clk_put(pce_dev->ce_core_clk);
clk_put(pce_dev->ce_clk);
goto err;
}
}
qce_setup_ce_dm_data(pce_dev);
pce_dev->ce_dm.chan_ce_in_state = QCE_CHAN_STATE_IDLE;
pce_dev->ce_dm.chan_ce_out_state = QCE_CHAN_STATE_IDLE;
if (_init_ce_engine(pce_dev)) {
*rc = -ENXIO;
goto err;
}
*rc = 0;
return pce_dev;
err:
if (pce_dev->coh_vmem)
dma_free_coherent(pce_dev->pdev, pce_dev->memsize,
pce_dev->coh_vmem, pce_dev->coh_pmem);
err_dm_chan_cmd:
kfree(pce_dev->ce_dm.chan_ce_in_cmd);
kfree(pce_dev->ce_dm.chan_ce_out_cmd);
if (pce_dev->iobase)
iounmap(pce_dev->iobase);
err_pce_dev:
kfree(pce_dev);
return NULL;
}
EXPORT_SYMBOL(qce_open);
/* crypto engine close function. */
int qce_close(void *handle)
{
struct qce_device *pce_dev = (struct qce_device *) handle;
if (handle == NULL)
return -ENODEV;
if (pce_dev->iobase)
iounmap(pce_dev->iobase);
if (pce_dev->coh_vmem)
dma_free_coherent(pce_dev->pdev, pce_dev->memsize,
pce_dev->coh_vmem, pce_dev->coh_pmem);
clk_disable_unprepare(pce_dev->ce_clk);
clk_disable_unprepare(pce_dev->ce_core_clk);
if (pce_dev->ce_core_src_clk != NULL)
clk_put(pce_dev->ce_core_src_clk);
clk_put(pce_dev->ce_clk);
clk_put(pce_dev->ce_core_clk);
kfree(pce_dev->ce_dm.chan_ce_in_cmd);
kfree(pce_dev->ce_dm.chan_ce_out_cmd);
kfree(handle);
return 0;
}
EXPORT_SYMBOL(qce_close);
int qce_hw_support(void *handle, struct ce_hw_support *ce_support)
{
if (ce_support == NULL)
return -EINVAL;
ce_support->sha1_hmac_20 = false;
ce_support->sha1_hmac = false;
ce_support->sha256_hmac = false;
ce_support->sha_hmac = false;
ce_support->cmac = true;
ce_support->aes_key_192 = false;
ce_support->aes_xts = true;
ce_support->aes_ccm = true;
ce_support->ota = false;
ce_support->aligned_only = false;
ce_support->bam = false;
return 0;
}
EXPORT_SYMBOL(qce_hw_support);
MODULE_LICENSE("GPL v2");
MODULE_DESCRIPTION("Crypto Engine driver");