mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-20 17:53:20 +00:00
5439e232cc
* API HAL SPI: refactoring, split into layers, prepare ST HAL separation. API HAL SubGhz: initialize on start. Drivers: add basic cc1101 driver. Update API usage. Debug: increase max debugger port speed. Remove subghz apps. * CC1101: chip status handling. ApiHalSpi: increase SubGhz bus speed to 8mhz. F4: backport subghz initialization. * Api Hal SubGhz: rx path and frequency. CC1101: frequency control. * SubGhz Application: basic tests * SubGhz app: tone and packet test. API HAL SUBGHZ: update configs, add missing bits and pieces.
180 lines
4.9 KiB
C
180 lines
4.9 KiB
C
#include "api-hal-spi.h"
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#include <api-hal-resources.h>
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#include <stdbool.h>
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#include <string.h>
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#include <spi.h>
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#include <furi.h>
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extern void Enable_SPI(SPI_HandleTypeDef* spi);
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void api_hal_spi_init() {
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// Spi structure is const, but mutex is not
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// Need some hell-ish casting to make it work
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*(osMutexId_t*)spi_r.mutex = osMutexNew(NULL);
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*(osMutexId_t*)spi_d.mutex = osMutexNew(NULL);
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//
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for (size_t i=0; i<ApiHalSpiDeviceIdMax; ++i) {
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hal_gpio_init(
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api_hal_spi_devices[i].chip_select,
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GpioModeOutputPushPull,
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GpioPullNo,
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GpioSpeedVeryHigh
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);
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}
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}
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void api_hal_spi_bus_lock(const ApiHalSpiBus* bus) {
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furi_assert(bus);
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if (bus->mutex) {
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osMutexAcquire(*bus->mutex, osWaitForever);
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}
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}
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void api_hal_spi_bus_unlock(const ApiHalSpiBus* bus) {
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furi_assert(bus);
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if (bus->mutex) {
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osMutexRelease(*bus->mutex);
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}
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}
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bool api_hal_spi_bus_rx(const ApiHalSpiBus* bus, uint8_t* buffer, size_t size, uint32_t timeout) {
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furi_assert(bus);
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furi_assert(buffer);
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furi_assert(size > 0);
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HAL_StatusTypeDef ret = HAL_SPI_Receive((SPI_HandleTypeDef *)bus->spi, buffer, size, HAL_MAX_DELAY);
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return ret == HAL_OK;
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}
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bool api_hal_spi_bus_tx(const ApiHalSpiBus* bus, uint8_t* buffer, size_t size, uint32_t timeout) {
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furi_assert(bus);
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furi_assert(buffer);
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furi_assert(size > 0);
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HAL_StatusTypeDef ret = HAL_SPI_Transmit((SPI_HandleTypeDef *)bus->spi, buffer, size, HAL_MAX_DELAY);
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return ret == HAL_OK;
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}
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bool api_hal_spi_bus_trx(const ApiHalSpiBus* bus, uint8_t* tx_buffer, uint8_t* rx_buffer, size_t size, uint32_t timeout) {
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furi_assert(bus);
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furi_assert(tx_buffer);
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furi_assert(rx_buffer);
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furi_assert(size > 0);
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HAL_StatusTypeDef ret = HAL_SPI_TransmitReceive((SPI_HandleTypeDef *)bus->spi, tx_buffer, rx_buffer, size, HAL_MAX_DELAY);
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return ret == HAL_OK;
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}
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const ApiHalSpiDevice* api_hal_spi_device_get(ApiHalSpiDeviceId device_id) {
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furi_assert(device_id < ApiHalSpiDeviceIdMax);
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const ApiHalSpiDevice* device = &api_hal_spi_devices[device_id];
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assert(device);
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api_hal_spi_bus_lock(device->bus);
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if (device->config) {
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memcpy((SPI_InitTypeDef*)&device->bus->spi->Init, device->config, sizeof(SPI_InitTypeDef));
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if(HAL_SPI_Init((SPI_HandleTypeDef *)device->bus->spi) != HAL_OK) {
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Error_Handler();
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}
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Enable_SPI((SPI_HandleTypeDef *)device->bus->spi);
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}
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return device;
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}
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void api_hal_spi_device_return(const ApiHalSpiDevice* device) {
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api_hal_spi_bus_unlock(device->bus);
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}
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bool api_hal_spi_device_rx(const ApiHalSpiDevice* device, uint8_t* buffer, size_t size, uint32_t timeout) {
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furi_assert(device);
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furi_assert(buffer);
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furi_assert(size > 0);
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if (device->chip_select) {
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hal_gpio_write(device->chip_select, false);
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}
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bool ret = api_hal_spi_bus_rx(device->bus, buffer, size, HAL_MAX_DELAY);
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if (device->chip_select) {
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hal_gpio_write(device->chip_select, true);
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}
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return ret;
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}
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bool api_hal_spi_device_tx(const ApiHalSpiDevice* device, uint8_t* buffer, size_t size, uint32_t timeout) {
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furi_assert(device);
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furi_assert(buffer);
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furi_assert(size > 0);
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if (device->chip_select) {
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hal_gpio_write(device->chip_select, false);
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}
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bool ret = api_hal_spi_bus_tx(device->bus, buffer, size, HAL_MAX_DELAY);
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if (device->chip_select) {
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hal_gpio_write(device->chip_select, true);
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}
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return ret;
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}
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bool api_hal_spi_device_trx(const ApiHalSpiDevice* device, uint8_t* tx_buffer, uint8_t* rx_buffer, size_t size, uint32_t timeout) {
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furi_assert(device);
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furi_assert(tx_buffer);
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furi_assert(rx_buffer);
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furi_assert(size > 0);
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if (device->chip_select) {
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hal_gpio_write(device->chip_select, false);
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}
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bool ret = api_hal_spi_bus_trx(device->bus, tx_buffer, rx_buffer, size, HAL_MAX_DELAY);
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if (device->chip_select) {
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hal_gpio_write(device->chip_select, true);
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}
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return ret;
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}
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void api_hal_spi_apply_config(const SPIDevice* device) {
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osKernelLock();
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memcpy((SPI_InitTypeDef*)&device->bus->spi->Init, &device->config, sizeof(SPI_InitTypeDef));
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if(HAL_SPI_Init((SPI_HandleTypeDef*)device->bus->spi) != HAL_OK) {
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Error_Handler();
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}
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Enable_SPI((SPI_HandleTypeDef*)device->bus->spi);
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osKernelUnlock();
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}
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bool api_hal_spi_config_are_actual(const SPIDevice* device) {
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return (memcmp(&device->config, &device->bus->spi->Init, sizeof(SPI_InitTypeDef)) == 0);
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}
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void api_hal_spi_config_device(const SPIDevice* device) {
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if(!api_hal_spi_config_are_actual(device)) {
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api_hal_spi_apply_config(device);
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}
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}
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void api_hal_spi_lock_device(const SPIDevice* device) {
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api_hal_spi_bus_lock(device->bus);
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api_hal_spi_config_device(device);
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}
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void api_hal_spi_unlock_device(const SPIDevice* device) {
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api_hal_spi_bus_unlock(device->bus);
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}
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