#include "devices.h" #include "registry.h" void subghz_devices_init() { furi_check(!subghz_device_registry_is_valid()); subghz_device_registry_init(); } void subghz_devices_deinit(void) { furi_check(subghz_device_registry_is_valid()); subghz_device_registry_deinit(); } const SubGhzDevice* subghz_devices_get_by_name(const char* device_name) { furi_check(subghz_device_registry_is_valid()); const SubGhzDevice* device = subghz_device_registry_get_by_name(device_name); return device; } const char* subghz_devices_get_name(const SubGhzDevice* device) { const char* ret = NULL; if(device) { ret = device->name; } return ret; } bool subghz_devices_begin(const SubGhzDevice* device) { bool ret = false; furi_assert(device); if(device->interconnect->begin) { ret = device->interconnect->begin(); } return ret; } void subghz_devices_end(const SubGhzDevice* device) { furi_assert(device); if(device->interconnect->end) { device->interconnect->end(); } } bool subghz_devices_is_connect(const SubGhzDevice* device) { bool ret = false; furi_assert(device); if(device->interconnect->is_connect) { ret = device->interconnect->is_connect(); } return ret; } void subghz_devices_reset(const SubGhzDevice* device) { furi_assert(device); if(device->interconnect->reset) { device->interconnect->reset(); } } void subghz_devices_sleep(const SubGhzDevice* device) { furi_assert(device); if(device->interconnect->sleep) { device->interconnect->sleep(); } } void subghz_devices_idle(const SubGhzDevice* device) { furi_assert(device); if(device->interconnect->idle) { device->interconnect->idle(); } } void subghz_devices_load_preset( const SubGhzDevice* device, FuriHalSubGhzPreset preset, uint8_t* preset_data) { furi_assert(device); if(device->interconnect->load_preset) { device->interconnect->load_preset(preset, preset_data); } } uint32_t subghz_devices_set_frequency(const SubGhzDevice* device, uint32_t frequency) { uint32_t ret = 0; furi_assert(device); if(device->interconnect->set_frequency) { ret = device->interconnect->set_frequency(frequency); } return ret; } bool subghz_devices_is_frequency_valid(const SubGhzDevice* device, uint32_t frequency) { bool ret = false; furi_assert(device); if(device->interconnect->is_frequency_valid) { ret = device->interconnect->is_frequency_valid(frequency); } return ret; } void subghz_devices_set_async_mirror_pin(const SubGhzDevice* device, const GpioPin* gpio) { furi_assert(device); if(device->interconnect->set_async_mirror_pin) { device->interconnect->set_async_mirror_pin(gpio); } } const GpioPin* subghz_devices_get_data_gpio(const SubGhzDevice* device) { const GpioPin* ret = NULL; furi_assert(device); if(device->interconnect->get_data_gpio) { ret = device->interconnect->get_data_gpio(); } return ret; } bool subghz_devices_set_tx(const SubGhzDevice* device) { bool ret = 0; furi_assert(device); if(device->interconnect->set_tx) { ret = device->interconnect->set_tx(); } return ret; } void subghz_devices_flush_tx(const SubGhzDevice* device) { furi_assert(device); if(device->interconnect->flush_tx) { device->interconnect->flush_tx(); } } bool subghz_devices_start_async_tx(const SubGhzDevice* device, void* callback, void* context) { bool ret = false; furi_assert(device); if(device->interconnect->start_async_tx) { ret = device->interconnect->start_async_tx(callback, context); } return ret; } bool subghz_devices_is_async_complete_tx(const SubGhzDevice* device) { bool ret = false; furi_assert(device); if(device->interconnect->is_async_complete_tx) { ret = device->interconnect->is_async_complete_tx(); } return ret; } void subghz_devices_stop_async_tx(const SubGhzDevice* device) { furi_assert(device); if(device->interconnect->stop_async_tx) { device->interconnect->stop_async_tx(); } } void subghz_devices_set_rx(const SubGhzDevice* device) { furi_assert(device); if(device->interconnect->set_rx) { device->interconnect->set_rx(); } } void subghz_devices_flush_rx(const SubGhzDevice* device) { furi_assert(device); if(device->interconnect->flush_rx) { device->interconnect->flush_rx(); } } void subghz_devices_start_async_rx(const SubGhzDevice* device, void* callback, void* context) { furi_assert(device); if(device->interconnect->start_async_rx) { device->interconnect->start_async_rx(callback, context); } } void subghz_devices_stop_async_rx(const SubGhzDevice* device) { furi_assert(device); if(device->interconnect->stop_async_rx) { device->interconnect->stop_async_rx(); } } float subghz_devices_get_rssi(const SubGhzDevice* device) { float ret = 0; furi_assert(device); if(device->interconnect->get_rssi) { ret = device->interconnect->get_rssi(); } return ret; } uint8_t subghz_devices_get_lqi(const SubGhzDevice* device) { uint8_t ret = 0; furi_assert(device); if(device->interconnect->get_lqi) { ret = device->interconnect->get_lqi(); } return ret; } bool subghz_devices_rx_pipe_not_empty(const SubGhzDevice* device) { bool ret = false; furi_assert(device); if(device->interconnect->rx_pipe_not_empty) { ret = device->interconnect->rx_pipe_not_empty(); } return ret; } bool subghz_devices_is_rx_data_crc_valid(const SubGhzDevice* device) { bool ret = false; furi_assert(device); if(device->interconnect->is_rx_data_crc_valid) { ret = device->interconnect->is_rx_data_crc_valid(); } return ret; } void subghz_devices_read_packet(const SubGhzDevice* device, uint8_t* data, uint8_t* size) { furi_assert(device); furi_assert(device); if(device->interconnect->read_packet) { device->interconnect->read_packet(data, size); } } void subghz_devices_write_packet(const SubGhzDevice* device, const uint8_t* data, uint8_t size) { furi_assert(device); if(device->interconnect->write_packet) { device->interconnect->write_packet(data, size); } }