mirror of
https://github.com/DarkFlippers/unleashed-firmware.git
synced 2024-12-22 12:51:39 +03:00
274c12fc56
* Streams: string stream * String stream: updated insert/delete api * Streams: generic stream interface and string stream implementation * Streams: helpers for insert and delete_and_insert * FFF: now compatible with streams * MinUnit: introduced tests with arguments * FFF: stream access violation * Streams: copy data between streams * Streams: file stream * FFF: documentation * FFStream: documentation * FFF: alloc as file * MinUnit: support for nested tests * Streams: changed delete_and_insert, now it returns success flag. Added ability dump stream inner parameters and data to cout. * FFF: simplified file open function * Streams: unit tests * FFF: tests * Streams: declare cache_size constant as define, to allow variable modified arrays * FFF: lib moved to a separate folder * iButton: new FFF * RFID: new FFF * Animations: new FFF * IR: new FFF * NFC: new FFF * Flipper file format: delete lib * U2F: new FFF * Subghz: new FFF and streams * Streams: read line * Streams: split * FuriCore: implement memset with extra asserts * FuriCore: implement extra heap asserts without inventing memset * Scene manager: protected access to the scene id stack with a size check * NFC worker: dirty fix for issue where hal_nfc was busy on app start * Furi: update allocator to erase memory on allocation. Replace furi_alloc with malloc. * FuriCore: cleanup memmgr code. * Furi HAL: furi_hal_init is split into critical and non-critical parts. The critical part is currently clock and console. * Memmgr: added ability to track allocations and deallocations through console. * FFStream: some speedup * Streams, FF: minor fixes * Tests: restore * File stream: a slightly more thread-safe version of file_stream_delete_and_insert Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com>
213 lines
7.1 KiB
C
213 lines
7.1 KiB
C
#include "subghz_test_carrier.h"
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#include "../subghz_i.h"
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#include "../helpers/subghz_testing.h"
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#include <math.h>
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#include <furi.h>
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#include <furi_hal.h>
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#include <input/input.h>
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struct SubghzTestCarrier {
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View* view;
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osTimerId_t timer;
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SubghzTestCarrierCallback callback;
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void* context;
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};
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typedef enum {
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SubghzTestCarrierModelStatusRx,
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SubghzTestCarrierModelStatusTx,
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} SubghzTestCarrierModelStatus;
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typedef struct {
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uint8_t frequency;
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uint32_t real_frequency;
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FuriHalSubGhzPath path;
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float rssi;
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SubghzTestCarrierModelStatus status;
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} SubghzTestCarrierModel;
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void subghz_test_carrier_set_callback(
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SubghzTestCarrier* subghz_test_carrier,
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SubghzTestCarrierCallback callback,
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void* context) {
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furi_assert(subghz_test_carrier);
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furi_assert(callback);
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subghz_test_carrier->callback = callback;
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subghz_test_carrier->context = context;
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}
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void subghz_test_carrier_draw(Canvas* canvas, SubghzTestCarrierModel* model) {
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char buffer[64];
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canvas_set_color(canvas, ColorBlack);
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canvas_set_font(canvas, FontPrimary);
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canvas_draw_str(canvas, 0, 8, "CC1101 Basic Test");
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canvas_set_font(canvas, FontSecondary);
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// Frequency
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snprintf(
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buffer,
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sizeof(buffer),
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"Freq: %03ld.%03ld.%03ld Hz",
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model->real_frequency / 1000000 % 1000,
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model->real_frequency / 1000 % 1000,
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model->real_frequency % 1000);
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canvas_draw_str(canvas, 0, 20, buffer);
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// Path
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char* path_name = "Unknown";
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if(model->path == FuriHalSubGhzPathIsolate) {
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path_name = "isolate";
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} else if(model->path == FuriHalSubGhzPath433) {
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path_name = "433MHz";
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} else if(model->path == FuriHalSubGhzPath315) {
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path_name = "315MHz";
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} else if(model->path == FuriHalSubGhzPath868) {
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path_name = "868MHz";
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}
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snprintf(buffer, sizeof(buffer), "Path: %d - %s", model->path, path_name);
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canvas_draw_str(canvas, 0, 31, buffer);
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if(model->status == SubghzTestCarrierModelStatusRx) {
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snprintf(
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buffer,
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sizeof(buffer),
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"RSSI: %ld.%ld dBm",
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(int32_t)(model->rssi),
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(int32_t)fabs(model->rssi * 10) % 10);
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canvas_draw_str(canvas, 0, 42, buffer);
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} else {
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canvas_draw_str(canvas, 0, 42, "TX");
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}
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}
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bool subghz_test_carrier_input(InputEvent* event, void* context) {
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furi_assert(context);
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SubghzTestCarrier* subghz_test_carrier = context;
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if(event->key == InputKeyBack || event->type != InputTypeShort) {
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return false;
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}
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with_view_model(
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subghz_test_carrier->view, (SubghzTestCarrierModel * model) {
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furi_hal_subghz_idle();
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if(event->key == InputKeyLeft) {
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if(model->frequency > 0) model->frequency--;
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} else if(event->key == InputKeyRight) {
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if(model->frequency < subghz_frequencies_count_testing - 1) model->frequency++;
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} else if(event->key == InputKeyDown) {
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if(model->path > 0) model->path--;
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} else if(event->key == InputKeyUp) {
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if(model->path < FuriHalSubGhzPath868) model->path++;
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} else if(event->key == InputKeyOk) {
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if(model->status == SubghzTestCarrierModelStatusTx) {
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model->status = SubghzTestCarrierModelStatusRx;
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} else {
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model->status = SubghzTestCarrierModelStatusTx;
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}
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}
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model->real_frequency =
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furi_hal_subghz_set_frequency(subghz_frequencies_testing[model->frequency]);
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furi_hal_subghz_set_path(model->path);
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if(model->status == SubghzTestCarrierModelStatusRx) {
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hal_gpio_init(&gpio_cc1101_g0, GpioModeInput, GpioPullNo, GpioSpeedLow);
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furi_hal_subghz_rx();
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} else {
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hal_gpio_init(&gpio_cc1101_g0, GpioModeOutputPushPull, GpioPullNo, GpioSpeedLow);
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hal_gpio_write(&gpio_cc1101_g0, true);
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if(!furi_hal_subghz_tx()) {
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hal_gpio_init(&gpio_cc1101_g0, GpioModeInput, GpioPullNo, GpioSpeedLow);
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subghz_test_carrier->callback(
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SubghzTestCarrierEventOnlyRx, subghz_test_carrier->context);
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}
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}
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return true;
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});
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return true;
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}
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void subghz_test_carrier_enter(void* context) {
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furi_assert(context);
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SubghzTestCarrier* subghz_test_carrier = context;
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furi_hal_subghz_reset();
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furi_hal_subghz_load_preset(FuriHalSubGhzPresetOok650Async);
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hal_gpio_init(&gpio_cc1101_g0, GpioModeInput, GpioPullNo, GpioSpeedLow);
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with_view_model(
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subghz_test_carrier->view, (SubghzTestCarrierModel * model) {
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model->frequency = subghz_frequencies_433_92_testing; // 433
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model->real_frequency =
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furi_hal_subghz_set_frequency(subghz_frequencies_testing[model->frequency]);
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model->path = FuriHalSubGhzPathIsolate; // isolate
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model->rssi = 0.0f;
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model->status = SubghzTestCarrierModelStatusRx;
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return true;
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});
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furi_hal_subghz_rx();
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osTimerStart(subghz_test_carrier->timer, osKernelGetTickFreq() / 4);
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}
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void subghz_test_carrier_exit(void* context) {
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furi_assert(context);
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SubghzTestCarrier* subghz_test_carrier = context;
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osTimerStop(subghz_test_carrier->timer);
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// Reinitialize IC to default state
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furi_hal_subghz_sleep();
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}
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void subghz_test_carrier_rssi_timer_callback(void* context) {
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furi_assert(context);
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SubghzTestCarrier* subghz_test_carrier = context;
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with_view_model(
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subghz_test_carrier->view, (SubghzTestCarrierModel * model) {
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if(model->status == SubghzTestCarrierModelStatusRx) {
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model->rssi = furi_hal_subghz_get_rssi();
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return true;
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}
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return false;
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});
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}
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SubghzTestCarrier* subghz_test_carrier_alloc() {
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SubghzTestCarrier* subghz_test_carrier = malloc(sizeof(SubghzTestCarrier));
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// View allocation and configuration
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subghz_test_carrier->view = view_alloc();
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view_allocate_model(
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subghz_test_carrier->view, ViewModelTypeLocking, sizeof(SubghzTestCarrierModel));
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view_set_context(subghz_test_carrier->view, subghz_test_carrier);
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view_set_draw_callback(subghz_test_carrier->view, (ViewDrawCallback)subghz_test_carrier_draw);
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view_set_input_callback(subghz_test_carrier->view, subghz_test_carrier_input);
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view_set_enter_callback(subghz_test_carrier->view, subghz_test_carrier_enter);
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view_set_exit_callback(subghz_test_carrier->view, subghz_test_carrier_exit);
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subghz_test_carrier->timer = osTimerNew(
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subghz_test_carrier_rssi_timer_callback, osTimerPeriodic, subghz_test_carrier, NULL);
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return subghz_test_carrier;
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}
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void subghz_test_carrier_free(SubghzTestCarrier* subghz_test_carrier) {
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furi_assert(subghz_test_carrier);
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osTimerDelete(subghz_test_carrier->timer);
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view_free(subghz_test_carrier->view);
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free(subghz_test_carrier);
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}
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View* subghz_test_carrier_get_view(SubghzTestCarrier* subghz_test_carrier) {
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furi_assert(subghz_test_carrier);
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return subghz_test_carrier->view;
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}
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