esp-idf/components/mbedtls/port/sha/dma/sha.c

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/*
* ESP hardware accelerated SHA1/256/512 implementation
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* based on mbedTLS FIPS-197 compliant version.
*
* Copyright (C) 2006-2015, ARM Limited, All Rights Reserved
* Additions Copyright (C) 2016-2020, Espressif Systems (Shanghai) PTE Ltd
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* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
/*
* The SHA-1 standard was published by NIST in 1993.
*
* http://www.itl.nist.gov/fipspubs/fip180-1.htm
*/
#include <string.h>
#include <stdio.h>
#include <sys/lock.h>
#include "esp_log.h"
#include "esp_memory_utils.h"
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#include "esp_crypto_lock.h"
#include "esp_attr.h"
#include "soc/lldesc.h"
#include "soc/ext_mem_defs.h"
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#include "soc/periph_defs.h"
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#include "freertos/FreeRTOS.h"
#include "freertos/semphr.h"
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#include "esp_private/periph_ctrl.h"
#include "sys/param.h"
#include "sha/sha_dma.h"
#include "hal/sha_hal.h"
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#include "soc/soc_caps.h"
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#include "esp_sha_dma_priv.h"
#if CONFIG_IDF_TARGET_ESP32S2
#include "esp32s2/rom/cache.h"
#elif CONFIG_IDF_TARGET_ESP32S3
#include "esp32s3/rom/cache.h"
#elif CONFIG_IDF_TARGET_ESP32C3
#include "esp32s3/rom/cache.h"
#elif CONFIG_IDF_TARGET_ESP32H2
#include "esp32h2/rom/cache.h"
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#elif CONFIG_IDF_TARGET_ESP32C2
#include "esp32c2/rom/cache.h"
#endif
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#if SOC_SHA_GDMA
#define SHA_LOCK() esp_crypto_sha_aes_lock_acquire()
#define SHA_RELEASE() esp_crypto_sha_aes_lock_release()
#elif SOC_SHA_CRYPTO_DMA
#define SHA_LOCK() esp_crypto_dma_lock_acquire()
#define SHA_RELEASE() esp_crypto_dma_lock_release()
#endif
const static char *TAG = "esp-sha";
static bool s_check_dma_capable(const void *p);
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/* These are static due to:
* * Must be in DMA capable memory, so stack is not a safe place to put them
* * To avoid having to malloc/free them for every DMA operation
*/
static DRAM_ATTR lldesc_t s_dma_descr_input;
static DRAM_ATTR lldesc_t s_dma_descr_buf;
void esp_sha_write_digest_state(esp_sha_type sha_type, void *digest_state)
{
sha_hal_write_digest(sha_type, digest_state);
}
void esp_sha_read_digest_state(esp_sha_type sha_type, void *digest_state)
{
sha_hal_read_digest(sha_type, digest_state);
}
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/* Return block size (in bytes) for a given SHA type */
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inline static size_t block_length(esp_sha_type type)
{
switch (type) {
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case SHA1:
case SHA2_224:
case SHA2_256:
return 64;
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#if SOC_SHA_SUPPORT_SHA384
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case SHA2_384:
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#endif
#if SOC_SHA_SUPPORT_SHA512
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case SHA2_512:
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#endif
#if SOC_SHA_SUPPORT_SHA512_T
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case SHA2_512224:
case SHA2_512256:
case SHA2_512T:
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#endif
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return 128;
default:
return 0;
}
}
/* Enable SHA peripheral and then lock it */
void esp_sha_acquire_hardware()
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{
SHA_LOCK(); /* Released when releasing hw with esp_sha_release_hardware() */
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/* Enable SHA and DMA hardware */
#if SOC_SHA_CRYPTO_DMA
periph_module_enable(PERIPH_SHA_DMA_MODULE);
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#elif SOC_SHA_GDMA
periph_module_enable(PERIPH_SHA_MODULE);
#endif
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}
/* Disable SHA peripheral block and then release it */
void esp_sha_release_hardware()
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{
/* Disable SHA and DMA hardware */
#if SOC_SHA_CRYPTO_DMA
periph_module_disable(PERIPH_SHA_DMA_MODULE);
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#elif SOC_SHA_GDMA
periph_module_disable(PERIPH_SHA_MODULE);
#endif
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SHA_RELEASE();
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}
#if SOC_SHA_SUPPORT_SHA512_T
/* The initial hash value for SHA512/t is generated according to the
algorithm described in the TRM, chapter SHA-Accelerator
*/
int esp_sha_512_t_init_hash(uint16_t t)
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{
uint32_t t_string = 0;
uint8_t t0, t1, t2, t_len;
if (t == 384) {
ESP_LOGE(TAG, "Invalid t for SHA512/t, t = %u,cannot be 384", t);
return -1;
}
if (t <= 9) {
t_string = (uint32_t)((1 << 23) | ((0x30 + t) << 24));
t_len = 0x48;
} else if (t <= 99) {
t0 = t % 10;
t1 = (t / 10) % 10;
t_string = (uint32_t)((1 << 15) | ((0x30 + t0) << 16) |
(((0x30 + t1) << 24)));
t_len = 0x50;
} else if (t <= 512) {
t0 = t % 10;
t1 = (t / 10) % 10;
t2 = t / 100;
t_string = (uint32_t)((1 << 7) | ((0x30 + t0) << 8) |
(((0x30 + t1) << 16) + ((0x30 + t2) << 24)));
t_len = 0x58;
} else {
ESP_LOGE(TAG, "Invalid t for SHA512/t, t = %u, must equal or less than 512", t);
return -1;
}
sha_hal_sha512_init_hash(t_string, t_len);
return 0;
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}
#endif //SOC_SHA_SUPPORT_SHA512_T
/* Hash the input block by block, using non-DMA mode */
static void esp_sha_block_mode(esp_sha_type sha_type, const uint8_t *input, uint32_t ilen,
const uint8_t *buf, uint32_t buf_len, bool is_first_block)
{
size_t blk_len = 0;
size_t blk_word_len = 0;
int num_block = 0;
blk_len = block_length(sha_type);
blk_word_len = blk_len / 4;
num_block = ilen / blk_len;
if (buf_len != 0) {
sha_hal_hash_block(sha_type, buf, blk_word_len, is_first_block);
is_first_block = false;
}
for (int i = 0; i < num_block; i++) {
sha_hal_hash_block(sha_type, input + blk_len * i, blk_word_len, is_first_block);
is_first_block = false;
}
}
static int esp_sha_dma_process(esp_sha_type sha_type, const void *input, uint32_t ilen,
const void *buf, uint32_t buf_len, bool is_first_block);
/* Performs SHA on multiple blocks at a time using DMA
splits up into smaller operations for inputs that exceed a single DMA list
*/
int esp_sha_dma(esp_sha_type sha_type, const void *input, uint32_t ilen,
const void *buf, uint32_t buf_len, bool is_first_block)
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{
int ret = 0;
unsigned char *dma_cap_buf = NULL;
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if (buf_len > block_length(sha_type)) {
ESP_LOGE(TAG, "SHA DMA buf_len cannot exceed max size for a single block");
return -1;
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}
/* DMA cannot access memory in flash, hash block by block instead of using DMA */
if (!s_check_dma_capable(input) && (ilen != 0)) {
esp_sha_block_mode(sha_type, input, ilen, buf, buf_len, is_first_block);
return 0;
}
#if (CONFIG_SPIRAM && SOC_PSRAM_DMA_CAPABLE)
if (esp_ptr_external_ram(input)) {
Cache_WriteBack_Addr((uint32_t)input, ilen);
}
if (esp_ptr_external_ram(buf)) {
Cache_WriteBack_Addr((uint32_t)buf, buf_len);
}
#endif
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/* Copy to internal buf if buf is in non DMA capable memory */
if (!s_check_dma_capable(buf) && (buf_len != 0)) {
dma_cap_buf = heap_caps_malloc(sizeof(unsigned char) * buf_len, MALLOC_CAP_8BIT|MALLOC_CAP_DMA|MALLOC_CAP_INTERNAL);
if (dma_cap_buf == NULL) {
ESP_LOGE(TAG, "Failed to allocate buf memory");
ret = -1;
goto cleanup;
}
memcpy(dma_cap_buf, buf, buf_len);
buf = dma_cap_buf;
}
uint32_t dma_op_num;
if (ilen > 0) {
/* Number of DMA operations based on maximum chunk size in single operation */
dma_op_num = (ilen + SOC_SHA_DMA_MAX_BUFFER_SIZE - 1) / SOC_SHA_DMA_MAX_BUFFER_SIZE;
} else {
/* For zero input length, we must allow at-least 1 DMA operation to see
* if there is any pending data that is yet to be copied out */
dma_op_num = 1;
}
/* The max amount of blocks in a single hardware operation is 2^6 - 1 = 63
Thus we only do a single DMA input list + dma buf list,
which is max 3968/64 + 64/64 = 63 blocks */
for (int i = 0; i < dma_op_num; i++) {
int dma_chunk_len = MIN(ilen, SOC_SHA_DMA_MAX_BUFFER_SIZE);
ret = esp_sha_dma_process(sha_type, input, dma_chunk_len, buf, buf_len, is_first_block);
if (ret != 0) {
goto cleanup;
}
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ilen -= dma_chunk_len;
input += dma_chunk_len;
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// Only append buf to the first operation
buf_len = 0;
is_first_block = false;
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}
cleanup:
free(dma_cap_buf);
return ret;
}
/* Performs SHA on multiple blocks at a time */
static esp_err_t esp_sha_dma_process(esp_sha_type sha_type, const void *input, uint32_t ilen,
const void *buf, uint32_t buf_len, bool is_first_block)
{
int ret = 0;
lldesc_t *dma_descr_head;
size_t num_blks = (ilen + buf_len) / block_length(sha_type);
memset(&s_dma_descr_input, 0, sizeof(lldesc_t));
memset(&s_dma_descr_buf, 0, sizeof(lldesc_t));
/* DMA descriptor for Memory to DMA-SHA transfer */
if (ilen) {
s_dma_descr_input.length = ilen;
s_dma_descr_input.size = ilen;
s_dma_descr_input.owner = 1;
s_dma_descr_input.eof = 1;
s_dma_descr_input.buf = (uint8_t *)input;
dma_descr_head = &s_dma_descr_input;
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}
/* Check after input to overide head if there is any buf*/
if (buf_len) {
s_dma_descr_buf.length = buf_len;
s_dma_descr_buf.size = buf_len;
s_dma_descr_buf.owner = 1;
s_dma_descr_buf.eof = 1;
s_dma_descr_buf.buf = (uint8_t *)buf;
dma_descr_head = &s_dma_descr_buf;
}
/* Link DMA lists */
if (buf_len && ilen) {
s_dma_descr_buf.eof = 0;
s_dma_descr_buf.empty = (uint32_t)(&s_dma_descr_input);
}
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if (esp_sha_dma_start(dma_descr_head) != ESP_OK) {
ESP_LOGE(TAG, "esp_sha_dma_start failed, no DMA channel available");
return -1;
}
sha_hal_hash_dma(sha_type, num_blks, is_first_block);
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sha_hal_wait_idle();
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return ret;
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}
static bool s_check_dma_capable(const void *p)
{
bool is_capable = false;
#if CONFIG_SPIRAM
is_capable |= esp_ptr_dma_ext_capable(p);
#endif
is_capable |= esp_ptr_dma_capable(p);
return is_capable;
}