mirror of
https://github.com/DarkFlippers/unleashed-firmware.git
synced 2024-12-30 00:32:06 +03:00
7ce305fca3
* C2OTA: wip * Update Cube to 1.13.3 * Fixed prio * Functional Core2 updater * Removed hardware CRC usage; code cleanup & linter fixes * Moved hardcoded stack params to copro.mk * Fixing CI bundling of core2 fw * Removed last traces of hardcoded radio stack * OB processing draft * Python scripts cleanup * Support for comments in ob data * Sacrificed SD card icon in favor of faster update. Waiting for Storage fix * Additional handling for OB mismatched values * Description for new furi_hal apis; spelling fixes * Rework of OB write, WIP * Properly restarting OB verification loop * Split update_task_workers.c * Checking OBs after enabling post-update mode * Moved OB verification before flashing * Removed ob.data for custom stacks * Fixed progress calculation for OB * Removed unnecessary OB mask cast Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com>
94 lines
3.1 KiB
C
94 lines
3.1 KiB
C
#include <furi_hal.h>
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#include <stm32wbxx_ll_crc.h>
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typedef enum {
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CRC_State_Reset,
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CRC_State_Ready,
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CRC_State_Busy,
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} CRC_State;
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typedef struct {
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CRC_State state;
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osMutexId_t mtx;
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} HAL_CRC_Control;
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static volatile HAL_CRC_Control hal_crc_control = {
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.state = CRC_State_Reset,
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.mtx = NULL,
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};
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void furi_hal_crc_init(bool synchronize) {
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/* initialize peripheral with default generating polynomial */
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LL_CRC_SetInputDataReverseMode(CRC, LL_CRC_INDATA_REVERSE_BYTE);
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LL_CRC_SetOutputDataReverseMode(CRC, LL_CRC_OUTDATA_REVERSE_BIT);
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LL_CRC_SetPolynomialCoef(CRC, LL_CRC_DEFAULT_CRC32_POLY);
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LL_CRC_SetPolynomialSize(CRC, LL_CRC_POLYLENGTH_32B);
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LL_CRC_SetInitialData(CRC, LL_CRC_DEFAULT_CRC_INITVALUE);
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if(synchronize) {
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hal_crc_control.mtx = osMutexNew(NULL);
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}
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hal_crc_control.state = CRC_State_Ready;
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}
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void furi_hal_crc_reset() {
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furi_check(hal_crc_control.state == CRC_State_Ready);
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if(hal_crc_control.mtx) {
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furi_check(osMutexGetOwner(hal_crc_control.mtx) == osThreadGetId());
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osMutexRelease(hal_crc_control.mtx);
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}
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LL_CRC_ResetCRCCalculationUnit(CRC);
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}
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static uint32_t furi_hal_crc_handle_8(uint8_t pBuffer[], uint32_t BufferLength) {
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uint32_t i; /* input data buffer index */
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hal_crc_control.state = CRC_State_Busy;
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/* Processing time optimization: 4 bytes are entered in a row with a single word write,
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* last bytes must be carefully fed to the CRC calculator to ensure a correct type
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* handling by the peripheral */
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for(i = 0U; i < (BufferLength / 4U); i++) {
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LL_CRC_FeedData32(
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CRC,
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((uint32_t)pBuffer[4U * i] << 24U) | ((uint32_t)pBuffer[(4U * i) + 1U] << 16U) |
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((uint32_t)pBuffer[(4U * i) + 2U] << 8U) | (uint32_t)pBuffer[(4U * i) + 3U]);
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}
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/* last bytes specific handling */
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if((BufferLength % 4U) != 0U) {
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if((BufferLength % 4U) == 1U) {
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LL_CRC_FeedData8(CRC, pBuffer[4U * i]);
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} else if((BufferLength % 4U) == 2U) {
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LL_CRC_FeedData16(
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CRC, ((uint16_t)(pBuffer[4U * i]) << 8U) | (uint16_t)pBuffer[(4U * i) + 1U]);
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} else if((BufferLength % 4U) == 3U) {
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LL_CRC_FeedData16(
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CRC, ((uint16_t)(pBuffer[4U * i]) << 8U) | (uint16_t)pBuffer[(4U * i) + 1U]);
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LL_CRC_FeedData8(CRC, pBuffer[(4U * i) + 2U]);
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}
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}
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hal_crc_control.state = CRC_State_Ready;
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/* Return the CRC computed value */
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return LL_CRC_ReadData32(CRC);
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}
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static uint32_t furi_hal_crc_accumulate(uint32_t pBuffer[], uint32_t BufferLength) {
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furi_check(hal_crc_control.state == CRC_State_Ready);
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if(hal_crc_control.mtx) {
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furi_check(osMutexGetOwner(hal_crc_control.mtx) != NULL);
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}
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return furi_hal_crc_handle_8((uint8_t*)pBuffer, BufferLength);
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}
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uint32_t furi_hal_crc_feed(void* data, uint16_t length) {
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return ~furi_hal_crc_accumulate(data, length);
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}
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bool furi_hal_crc_acquire(uint32_t timeout) {
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furi_assert(hal_crc_control.mtx);
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if(osMutexAcquire(hal_crc_control.mtx, timeout) == osOK) {
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LL_CRC_ResetCRCCalculationUnit(CRC);
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return true;
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}
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return false;
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}
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