mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-24 03:33:08 +00:00
e0bc80cd8b
* SubGhz: increase output power to max * Dolphin scene: refactor code.
181 lines
6.3 KiB
C
181 lines
6.3 KiB
C
#include "api-hal-subghz.h"
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#include <stm32wbxx_ll_gpio.h>
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#include <api-hal-gpio.h>
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#include <api-hal-spi.h>
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#include <cc1101.h>
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#include <stdio.h>
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#include "main.h"
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static const uint8_t api_hal_subghz_preset_ook_async_regs[][2] = {
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/* Base setting */
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{ CC1101_IOCFG0, 0x0D }, // GD0 as async serial data output/input
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{ CC1101_FSCTRL1, 0x06 }, // Set IF 26m/2^10*2=2.2MHz
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{ CC1101_MCSM0, 0x18 }, // Autocalibrate on idle to TRX, ~150us OSC guard time
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/* Async OOK Specific things */
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{ CC1101_MDMCFG2, 0x30 }, // ASK/OOK, No preamble/sync
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{ CC1101_PKTCTRL0, 0x32 }, // Async, no CRC, Infinite
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{ CC1101_FREND0, 0x01 }, // OOK/ASK PATABLE
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/* End */
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{ 0, 0 },
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};
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static const uint8_t api_hal_subghz_preset_ook_async_patable[8] = {
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0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
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};
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static const uint8_t api_hal_subghz_preset_2fsk_packet_regs[][2] = {
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/* Base setting */
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{ CC1101_IOCFG0, 0x06 }, // GD0 as async serial data output/input
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{ CC1101_FSCTRL1, 0x06 }, // Set IF 26m/2^10*2=2.2MHz
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{ CC1101_MCSM0, 0x18 }, // Autocalibrate on idle to TRX, ~150us OSC guard time
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/* End */
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{ 0, 0 },
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};
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static const uint8_t api_hal_subghz_preset_2fsk_packet_patable[8] = {
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0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
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};
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void api_hal_subghz_init() {
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LL_GPIO_SetPinMode(RF_SW_0_GPIO_Port, RF_SW_0_Pin, LL_GPIO_MODE_OUTPUT);
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LL_GPIO_SetPinSpeed(RF_SW_0_GPIO_Port, RF_SW_0_Pin, LL_GPIO_SPEED_FREQ_LOW);
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LL_GPIO_SetPinOutputType(RF_SW_0_GPIO_Port, RF_SW_0_Pin, LL_GPIO_OUTPUT_PUSHPULL);
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LL_GPIO_SetPinMode(RF_SW_1_GPIO_Port, RF_SW_1_Pin, LL_GPIO_MODE_OUTPUT);
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LL_GPIO_SetPinSpeed(RF_SW_1_GPIO_Port, RF_SW_1_Pin, LL_GPIO_SPEED_FREQ_LOW);
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LL_GPIO_SetPinOutputType(RF_SW_1_GPIO_Port, RF_SW_1_Pin, LL_GPIO_OUTPUT_PUSHPULL);
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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// Reset and shutdown
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cc1101_reset(device);
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cc1101_write_reg(device, CC1101_IOCFG0, 0x2E); // High impedance 3-state
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cc1101_shutdown(device);
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api_hal_spi_device_return(device);
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}
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void api_hal_subghz_dump_state() {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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printf(
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"[api_hal_subghz] cc1101 chip %d, version %d\r\n",
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cc1101_get_partnumber(device),
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cc1101_get_version(device)
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);
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api_hal_spi_device_return(device);
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}
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void api_hal_subghz_load_preset(ApiHalSubGhzPreset preset) {
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if(preset == ApiHalSubGhzPresetOokAsync) {
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api_hal_subghz_load_registers(api_hal_subghz_preset_ook_async_regs);
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api_hal_subghz_load_patable(api_hal_subghz_preset_ook_async_patable);
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} else if(preset == ApiHalSubGhzPreset2FskPacket) {
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api_hal_subghz_load_registers(api_hal_subghz_preset_2fsk_packet_regs);
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api_hal_subghz_load_patable(api_hal_subghz_preset_2fsk_packet_patable);
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}
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}
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void api_hal_subghz_load_registers(const uint8_t data[][2]) {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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cc1101_reset(device);
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uint32_t i = 0;
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while (data[i][0]) {
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cc1101_write_reg(device, data[i][0], data[i][1]);
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i++;
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}
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api_hal_spi_device_return(device);
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}
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void api_hal_subghz_load_patable(const uint8_t data[8]) {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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cc1101_set_pa_table(device, data);
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api_hal_spi_device_return(device);
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}
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void api_hal_subghz_write_packet(const uint8_t* data, uint8_t size) {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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cc1101_flush_tx(device);
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cc1101_write_fifo(device, data, size);
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api_hal_spi_device_return(device);
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}
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void api_hal_subghz_read_packet(uint8_t* data, uint8_t size) {
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}
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void api_hal_subghz_shutdown() {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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// Reset and shutdown
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cc1101_shutdown(device);
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api_hal_spi_device_return(device);
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}
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void api_hal_subghz_reset() {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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cc1101_reset(device);
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api_hal_spi_device_return(device);
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}
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void api_hal_subghz_idle() {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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cc1101_switch_to_idle(device);
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api_hal_spi_device_return(device);
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}
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void api_hal_subghz_rx() {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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cc1101_switch_to_rx(device);
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api_hal_spi_device_return(device);
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}
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void api_hal_subghz_tx() {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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cc1101_switch_to_tx(device);
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api_hal_spi_device_return(device);
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}
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float api_hal_subghz_get_rssi() {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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int32_t rssi_dec = cc1101_get_rssi(device);
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api_hal_spi_device_return(device);
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float rssi = rssi_dec;
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if(rssi_dec >= 128) {
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rssi = ((rssi - 256.0f) / 2.0f) - 74.0f;
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} else {
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rssi = (rssi / 2.0f) - 74.0f;
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}
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return rssi;
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}
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uint32_t api_hal_subghz_set_frequency(uint32_t value) {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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// Compensate rounding
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if (value % cc1101_get_frequency_step(device) > (cc1101_get_frequency_step(device) / 2)) {
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value += cc1101_get_frequency_step(device);
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}
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uint32_t real_frequency = cc1101_set_frequency(device, value);
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cc1101_calibrate(device);
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api_hal_spi_device_return(device);
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return real_frequency;
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}
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void api_hal_subghz_set_path(ApiHalSubGhzPath path) {
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if (path == ApiHalSubGhzPath1) {
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LL_GPIO_ResetOutputPin(RF_SW_0_GPIO_Port, RF_SW_0_Pin);
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LL_GPIO_SetOutputPin(RF_SW_1_GPIO_Port, RF_SW_1_Pin);
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} else if (path == ApiHalSubGhzPath2) {
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LL_GPIO_SetOutputPin(RF_SW_0_GPIO_Port, RF_SW_0_Pin);
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LL_GPIO_ResetOutputPin(RF_SW_1_GPIO_Port, RF_SW_1_Pin);
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} else if (path == ApiHalSubGhzPath3) {
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LL_GPIO_SetOutputPin(RF_SW_0_GPIO_Port, RF_SW_0_Pin);
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LL_GPIO_SetOutputPin(RF_SW_1_GPIO_Port, RF_SW_1_Pin);
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} else if (path == ApiHalSubGhzPathIsolate) {
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LL_GPIO_ResetOutputPin(RF_SW_0_GPIO_Port, RF_SW_0_Pin);
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LL_GPIO_ResetOutputPin(RF_SW_1_GPIO_Port, RF_SW_1_Pin);
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} else {
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}
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}
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