421a0f6b97
* Firmware: drop F5 target * Rename app-loader to loader * Update code owners file * Loader: global application start lock API, minor refactoring * Archive: update loader usage * Cli: Command flags, global application start lock * Apps: update cli API usage * Bootloader: minor refactoring * Firmware: minor build refactoring * SubGhz: GUI packet test * SubGhz: drop packet transmission and unused presets * Github: drop F5 from build * Archive: favorites * Archive: a little bit more of Favorites
509 lines
18 KiB
C
509 lines
18 KiB
C
#include "api-hal-subghz.h"
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#include <api-hal-gpio.h>
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#include <api-hal-spi.h>
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#include <api-hal-interrupt.h>
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#include <api-hal-resources.h>
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#include <furi.h>
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#include <cc1101.h>
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#include <stdio.h>
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static volatile SubGhzState api_hal_subghz_state = SubGhzStateInit;
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static const uint8_t api_hal_subghz_preset_ook_async_regs[][2] = {
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// https://e2e.ti.com/support/wireless-connectivity/sub-1-ghz-group/sub-1-ghz/f/sub-1-ghz-forum/382066/cc1101---don-t-know-the-correct-registers-configuration
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/* GPIO GD0 */
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{ CC1101_IOCFG0, 0x0D }, // GD0 as async serial data output/input
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/* FIFO and internals */
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{ CC1101_FIFOTHR, 0x47 }, // The only important bit is ADC_RETENTION
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/* Packet engine */
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{ CC1101_PKTCTRL0, 0x32 }, // Async, continious, no whitening
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/* Frequency Synthesizer Control */
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{ CC1101_FSCTRL1, 0x06 }, // IF = (26*10^6) / (2^10) * 0x06 = 152343.75Hz
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// Modem Configuration
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{ CC1101_MDMCFG0, 0x00 }, // Channel spacing is 25kHz
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{ CC1101_MDMCFG1, 0x00 }, // Channel spacing is 25kHz
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{ CC1101_MDMCFG2, 0x30 }, // Format ASK/OOK, No preamble/sync
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{ CC1101_MDMCFG3, 0x32 }, // Data rate is 3.79372 kBaud
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{ CC1101_MDMCFG4, 0x67 }, // Rx BW filter is 270.833333kHz
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/* Main Radio Control State Machine */
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{ CC1101_MCSM0, 0x18 }, // Autocalibrate on idle-to-rx/tx, PO_TIMEOUT is 64 cycles(149-155us)
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/* Frequency Offset Compensation Configuration */
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{ CC1101_FOCCFG, 0x18 }, // no frequency offset compensation, POST_K same as PRE_K, PRE_K is 4K, GATE is off
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/* Automatic Gain Control */
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{ CC1101_AGCTRL1, 0x00 }, // LNA 2 gain is decreased to minimum before decreasing LNA gain
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{ CC1101_AGCTRL2, 0x07 }, // MAGN_TARGET is 42 dB
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/* Wake on radio and timeouts control */
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{ CC1101_WORCTRL, 0xFB }, // WOR_RES is 2^15 periods (0.91 - 0.94 s) 16.5 - 17.2 hours
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/* Frontend configuration */
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{ CC1101_FREND0, 0x11 }, // Adjusts current TX LO buffer + high is PATABLE[1]
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{ CC1101_FREND1, 0xB6 }, //
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/* Frequency Synthesizer Calibration, valid for 433.92 */
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{ CC1101_FSCAL3, 0xE9 },
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{ CC1101_FSCAL2, 0x2A },
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{ CC1101_FSCAL1, 0x00 },
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{ CC1101_FSCAL0, 0x1F },
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/* Magic f4ckery */
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{ CC1101_TEST2, 0x81 }, // FIFOTHR ADC_RETENTION=1 matched value
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{ CC1101_TEST1, 0x35 }, // FIFOTHR ADC_RETENTION=1 matched value
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{ CC1101_TEST0, 0x09 }, // VCO selection calibration stage is disabled
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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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0x00,
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0xC0, // 10dBm 0xC0, 7dBm 0xC8, 5dBm 0x84, 0dBm 0x60, -10dBm 0x34, -15dBm 0x1D, -20dBm 0x0E, -30dBm 0x12
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0x00,
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0x00,
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0x00,
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0x00,
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0x00,
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0x00
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};
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void api_hal_subghz_init() {
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furi_assert(api_hal_subghz_state == SubGhzStateInit);
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api_hal_subghz_state = SubGhzStateIdle;
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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#ifdef API_HAL_SUBGHZ_TX_GPIO
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hal_gpio_init(&API_HAL_SUBGHZ_TX_GPIO, GpioModeOutputPushPull, GpioPullNo, GpioSpeedLow);
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#endif
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// Reset
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hal_gpio_init(&gpio_cc1101_g0, GpioModeAnalog, GpioPullNo, GpioSpeedLow);
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cc1101_reset(device);
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cc1101_write_reg(device, CC1101_IOCFG0, CC1101IocfgHighImpedance);
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// Prepare GD0 for power on self test
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hal_gpio_init(&gpio_cc1101_g0, GpioModeInput, GpioPullNo, GpioSpeedLow);
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// GD0 low
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cc1101_write_reg(device, CC1101_IOCFG0, CC1101IocfgHW);
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while(hal_gpio_read(&gpio_cc1101_g0) != false);
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// GD0 high
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cc1101_write_reg(device, CC1101_IOCFG0, CC1101IocfgHW | CC1101_IOCFG_INV);
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while(hal_gpio_read(&gpio_cc1101_g0) != true);
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// Reset GD0 to floating state
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cc1101_write_reg(device, CC1101_IOCFG0, CC1101IocfgHighImpedance);
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hal_gpio_init(&gpio_cc1101_g0, GpioModeAnalog, GpioPullNo, GpioSpeedLow);
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// RF switches
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hal_gpio_init(&gpio_rf_sw_0, GpioModeOutputPushPull, GpioPullNo, GpioSpeedLow);
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cc1101_write_reg(device, CC1101_IOCFG2, CC1101IocfgHW);
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// Go to sleep
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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_sleep() {
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furi_assert(api_hal_subghz_state == SubGhzStateIdle);
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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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cc1101_write_reg(device, CC1101_IOCFG0, CC1101IocfgHighImpedance);
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hal_gpio_init(&gpio_cc1101_g0, GpioModeAnalog, GpioPullNo, GpioSpeedLow);
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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 {
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furi_check(0);
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}
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}
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uint8_t api_hal_subghz_get_status() {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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CC1101StatusRaw st;
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st.status = cc1101_get_status(device);
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api_hal_spi_device_return(device);
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return st.status_raw;
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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_flush_rx() {
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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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cc1101_flush_rx(device);
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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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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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cc1101_read_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_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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hal_gpio_init(&gpio_cc1101_g0, GpioModeAnalog, GpioPullNo, GpioSpeedLow);
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cc1101_switch_to_idle(device);
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cc1101_reset(device);
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cc1101_write_reg(device, CC1101_IOCFG0, CC1101IocfgHighImpedance);
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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_and_path(uint32_t value) {
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value = api_hal_subghz_set_frequency(value);
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if(value >= 300000000 && value <= 348000335) {
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api_hal_subghz_set_path(ApiHalSubGhzPath315);
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} else if(value >= 387000000 && value <= 464000000) {
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api_hal_subghz_set_path(ApiHalSubGhzPath433);
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} else if(value >= 779000000 && value <= 928000000) {
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api_hal_subghz_set_path(ApiHalSubGhzPath868);
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} else {
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furi_check(0);
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}
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return value;
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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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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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const ApiHalSpiDevice* device = api_hal_spi_device_get(ApiHalSpiDeviceIdSubGhz);
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if (path == ApiHalSubGhzPath433) {
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hal_gpio_write(&gpio_rf_sw_0, 0);
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cc1101_write_reg(device, CC1101_IOCFG2, CC1101IocfgHW | CC1101_IOCFG_INV);
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} else if (path == ApiHalSubGhzPath315) {
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hal_gpio_write(&gpio_rf_sw_0, 1);
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cc1101_write_reg(device, CC1101_IOCFG2, CC1101IocfgHW);
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} else if (path == ApiHalSubGhzPath868) {
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hal_gpio_write(&gpio_rf_sw_0, 1);
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cc1101_write_reg(device, CC1101_IOCFG2, CC1101IocfgHW | CC1101_IOCFG_INV);
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} else if (path == ApiHalSubGhzPathIsolate) {
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hal_gpio_write(&gpio_rf_sw_0, 0);
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cc1101_write_reg(device, CC1101_IOCFG2, CC1101IocfgHW);
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} else {
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furi_check(0);
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}
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api_hal_spi_device_return(device);
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}
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volatile uint32_t api_hal_subghz_capture_delta_duration = 0;
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volatile ApiHalSubGhzCaptureCallback api_hal_subghz_capture_callback = NULL;
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volatile void* api_hal_subghz_capture_callback_context = NULL;
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static void api_hal_subghz_capture_ISR() {
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// Channel 1
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if(LL_TIM_IsActiveFlag_CC1(TIM2)) {
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LL_TIM_ClearFlag_CC1(TIM2);
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api_hal_subghz_capture_delta_duration = LL_TIM_IC_GetCaptureCH1(TIM2);
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if (api_hal_subghz_capture_callback) {
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api_hal_subghz_capture_callback(true, api_hal_subghz_capture_delta_duration,
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(void*)api_hal_subghz_capture_callback_context
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);
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}
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}
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// Channel 2
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if(LL_TIM_IsActiveFlag_CC2(TIM2)) {
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LL_TIM_ClearFlag_CC2(TIM2);
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if (api_hal_subghz_capture_callback) {
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api_hal_subghz_capture_callback(false, LL_TIM_IC_GetCaptureCH2(TIM2) - api_hal_subghz_capture_delta_duration,
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(void*)api_hal_subghz_capture_callback_context
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);
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}
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}
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}
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void api_hal_subghz_set_async_rx_callback(ApiHalSubGhzCaptureCallback callback, void* context) {
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api_hal_subghz_capture_callback = callback;
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api_hal_subghz_capture_callback_context = context;
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}
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void api_hal_subghz_start_async_rx() {
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furi_assert(api_hal_subghz_state == SubGhzStateIdle);
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api_hal_subghz_state = SubGhzStateAsyncRx;
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hal_gpio_init_ex(&gpio_cc1101_g0, GpioModeAltFunctionPushPull, GpioPullNo, GpioSpeedLow, GpioAltFn1TIM2);
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// Timer: base
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LL_TIM_InitTypeDef TIM_InitStruct = {0};
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TIM_InitStruct.Prescaler = 64-1;
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TIM_InitStruct.CounterMode = LL_TIM_COUNTERMODE_UP;
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TIM_InitStruct.Autoreload = 0x7FFFFFFE;
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TIM_InitStruct.ClockDivision = LL_TIM_CLOCKDIVISION_DIV1;
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LL_TIM_Init(TIM2, &TIM_InitStruct);
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// Timer: advanced
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LL_TIM_SetClockSource(TIM2, LL_TIM_CLOCKSOURCE_INTERNAL);
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LL_TIM_DisableARRPreload(TIM2);
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LL_TIM_SetTriggerInput(TIM2, LL_TIM_TS_TI2FP2);
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LL_TIM_SetSlaveMode(TIM2, LL_TIM_SLAVEMODE_RESET);
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LL_TIM_SetTriggerOutput(TIM2, LL_TIM_TRGO_RESET);
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LL_TIM_EnableMasterSlaveMode(TIM2);
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LL_TIM_DisableDMAReq_TRIG(TIM2);
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LL_TIM_DisableIT_TRIG(TIM2);
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// Timer: channel 1 indirect
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LL_TIM_IC_SetActiveInput(TIM2, LL_TIM_CHANNEL_CH1, LL_TIM_ACTIVEINPUT_INDIRECTTI);
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LL_TIM_IC_SetPrescaler(TIM2, LL_TIM_CHANNEL_CH1, LL_TIM_ICPSC_DIV1);
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LL_TIM_IC_SetPolarity(TIM2, LL_TIM_CHANNEL_CH1, LL_TIM_IC_POLARITY_FALLING);
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LL_TIM_IC_SetFilter(TIM2, LL_TIM_CHANNEL_CH1, LL_TIM_IC_FILTER_FDIV1);
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// Timer: channel 2 direct
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LL_TIM_IC_SetActiveInput(TIM2, LL_TIM_CHANNEL_CH2, LL_TIM_ACTIVEINPUT_DIRECTTI);
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LL_TIM_IC_SetPrescaler(TIM2, LL_TIM_CHANNEL_CH2, LL_TIM_ICPSC_DIV1);
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LL_TIM_IC_SetPolarity(TIM2, LL_TIM_CHANNEL_CH2, LL_TIM_IC_POLARITY_RISING);
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LL_TIM_IC_SetFilter(TIM2, LL_TIM_CHANNEL_CH2, LL_TIM_IC_FILTER_FDIV1);
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// ISR setup
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api_hal_interrupt_set_timer_isr(TIM2, api_hal_subghz_capture_ISR);
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NVIC_SetPriority(TIM2_IRQn, NVIC_EncodePriority(NVIC_GetPriorityGrouping(),5, 0));
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NVIC_EnableIRQ(TIM2_IRQn);
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// Interrupts and channels
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LL_TIM_EnableIT_CC1(TIM2);
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LL_TIM_EnableIT_CC2(TIM2);
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LL_TIM_CC_EnableChannel(TIM2, LL_TIM_CHANNEL_CH1);
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LL_TIM_CC_EnableChannel(TIM2, LL_TIM_CHANNEL_CH2);
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// Start timer
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LL_TIM_SetCounter(TIM2, 0);
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LL_TIM_EnableCounter(TIM2);
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// Switch to RX
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api_hal_subghz_rx();
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}
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void api_hal_subghz_stop_async_rx() {
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furi_assert(api_hal_subghz_state == SubGhzStateAsyncRx);
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api_hal_subghz_state = SubGhzStateIdle;
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// Shutdown radio
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api_hal_subghz_idle();
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LL_TIM_DeInit(TIM2);
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api_hal_interrupt_set_timer_isr(TIM2, NULL);
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hal_gpio_init(&gpio_cc1101_g0, GpioModeAnalog, GpioPullNo, GpioSpeedLow);
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}
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volatile size_t api_hal_subghz_tx_repeat = 0;
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static void api_hal_subghz_tx_dma_isr() {
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if (LL_DMA_IsActiveFlag_TC1(DMA1)) {
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LL_DMA_ClearFlag_TC1(DMA1);
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furi_assert(api_hal_subghz_state == SubGhzStateAsyncTx);
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if (--api_hal_subghz_tx_repeat == 0) {
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api_hal_subghz_state = SubGhzStateAsyncTxLast;
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LL_DMA_DisableChannel(DMA1, LL_DMA_CHANNEL_1);
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}
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}
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}
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static void api_hal_subghz_tx_timer_isr() {
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if(LL_TIM_IsActiveFlag_UPDATE(TIM2)) {
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LL_TIM_ClearFlag_UPDATE(TIM2);
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if (api_hal_subghz_state == SubGhzStateAsyncTxLast) {
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LL_TIM_DisableCounter(TIM2);
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api_hal_subghz_state = SubGhzStateAsyncTxEnd;
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}
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}
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}
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void api_hal_subghz_start_async_tx(uint32_t* buffer, size_t buffer_size, size_t repeat) {
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furi_assert(api_hal_subghz_state == SubGhzStateIdle);
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api_hal_subghz_state = SubGhzStateAsyncTx;
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api_hal_subghz_tx_repeat = repeat;
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// Connect CC1101_GD0 to TIM2 as output
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hal_gpio_init_ex(&gpio_cc1101_g0, GpioModeAltFunctionPushPull, GpioPullDown, GpioSpeedLow, GpioAltFn1TIM2);
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// Configure DMA
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LL_DMA_InitTypeDef dma_config = {0};
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dma_config.PeriphOrM2MSrcAddress = (uint32_t)&(TIM2->ARR);
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dma_config.MemoryOrM2MDstAddress = (uint32_t)buffer;
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dma_config.Direction = LL_DMA_DIRECTION_MEMORY_TO_PERIPH;
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dma_config.Mode = LL_DMA_MODE_CIRCULAR;
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dma_config.PeriphOrM2MSrcIncMode = LL_DMA_PERIPH_NOINCREMENT;
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dma_config.MemoryOrM2MDstIncMode = LL_DMA_MEMORY_INCREMENT;
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dma_config.PeriphOrM2MSrcDataSize = LL_DMA_PDATAALIGN_WORD;
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dma_config.MemoryOrM2MDstDataSize = LL_DMA_MDATAALIGN_WORD;
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dma_config.NbData = buffer_size / sizeof(uint32_t);
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dma_config.PeriphRequest = LL_DMAMUX_REQ_TIM2_UP;
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dma_config.Priority = LL_DMA_MODE_NORMAL;
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LL_DMA_Init(DMA1, LL_DMA_CHANNEL_1, &dma_config);
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api_hal_interrupt_set_dma_channel_isr(DMA1, LL_DMA_CHANNEL_1, api_hal_subghz_tx_dma_isr);
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LL_DMA_EnableIT_TC(DMA1, LL_DMA_CHANNEL_1);
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LL_DMA_EnableChannel(DMA1, LL_DMA_CHANNEL_1);
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// Configure TIM2
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LL_TIM_InitTypeDef TIM_InitStruct = {0};
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TIM_InitStruct.Prescaler = 64-1;
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TIM_InitStruct.CounterMode = LL_TIM_COUNTERMODE_UP;
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TIM_InitStruct.Autoreload = 1000;
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TIM_InitStruct.ClockDivision = LL_TIM_CLOCKDIVISION_DIV1;
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LL_TIM_Init(TIM2, &TIM_InitStruct);
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LL_TIM_SetClockSource(TIM2, LL_TIM_CLOCKSOURCE_INTERNAL);
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LL_TIM_EnableARRPreload(TIM2);
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// Configure TIM2 CH2
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LL_TIM_OC_InitTypeDef TIM_OC_InitStruct = {0};
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TIM_OC_InitStruct.OCMode = LL_TIM_OCMODE_TOGGLE;
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TIM_OC_InitStruct.OCState = LL_TIM_OCSTATE_DISABLE;
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TIM_OC_InitStruct.OCNState = LL_TIM_OCSTATE_DISABLE;
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TIM_OC_InitStruct.CompareValue = 0;
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TIM_OC_InitStruct.OCPolarity = LL_TIM_OCPOLARITY_HIGH;
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LL_TIM_OC_Init(TIM2, LL_TIM_CHANNEL_CH2, &TIM_OC_InitStruct);
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LL_TIM_OC_DisableFast(TIM2, LL_TIM_CHANNEL_CH2);
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LL_TIM_DisableMasterSlaveMode(TIM2);
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api_hal_interrupt_set_timer_isr(TIM2, api_hal_subghz_tx_timer_isr);
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LL_TIM_EnableIT_UPDATE(TIM2);
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LL_TIM_EnableDMAReq_UPDATE(TIM2);
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LL_TIM_CC_EnableChannel(TIM2, LL_TIM_CHANNEL_CH2);
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// Start counter
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LL_TIM_GenerateEvent_UPDATE(TIM2);
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#ifdef API_HAL_SUBGHZ_TX_GPIO
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hal_gpio_write(&API_HAL_SUBGHZ_TX_GPIO, true);
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#endif
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api_hal_subghz_tx();
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LL_TIM_SetCounter(TIM2, 0);
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LL_TIM_EnableCounter(TIM2);
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}
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size_t api_hal_subghz_get_async_tx_repeat_left() {
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return api_hal_subghz_tx_repeat;
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}
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|
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void api_hal_subghz_wait_async_tx() {
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while(api_hal_subghz_state != SubGhzStateAsyncTxEnd) osDelay(1);
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}
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void api_hal_subghz_stop_async_tx() {
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furi_assert(
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api_hal_subghz_state == SubGhzStateAsyncTx
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|| api_hal_subghz_state == SubGhzStateAsyncTxLast
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|| api_hal_subghz_state == SubGhzStateAsyncTxEnd
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);
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// Shutdown radio
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api_hal_subghz_idle();
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#ifdef API_HAL_SUBGHZ_TX_GPIO
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hal_gpio_write(&API_HAL_SUBGHZ_TX_GPIO, false);
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#endif
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|
|
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// Deinitialize Timer
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LL_TIM_DeInit(TIM2);
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api_hal_interrupt_set_timer_isr(TIM2, NULL);
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|
|
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// Deinitialize DMA
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LL_DMA_DeInit(DMA1, LL_DMA_CHANNEL_1);
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api_hal_interrupt_set_dma_channel_isr(DMA1, LL_DMA_CHANNEL_1, NULL);
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|
|
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// Deinitialize GPIO
|
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hal_gpio_init(&gpio_cc1101_g0, GpioModeAnalog, GpioPullNo, GpioSpeedLow);
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|
|
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api_hal_subghz_state = SubGhzStateIdle;
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|
}
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