#pragma once #include #include #include #ifdef __cplusplus extern "C" { #endif typedef struct { uint32_t start; uint32_t end; int8_t power_limit; uint8_t duty_cycle; } FuriHalRegionBand; typedef struct { char country_code[4]; uint16_t bands_count; FuriHalRegionBand bands[]; } FuriHalRegion; /** Get Region Data. * * Region data may be allocated in Flash or in RAM. * Keep in mind that we don't do memory management on our side. * * @return pointer to FuriHalRegion instance (in RAM or Flash, check before freeing on region update) */ const FuriHalRegion* furi_hal_region_get(); /** Set device region data * * @param region pointer to the FuriHalRegion */ void furi_hal_region_set(FuriHalRegion* region); /** Check if region data provisioned * * @return true if provisioned, false otherwise */ bool furi_hal_region_is_provisioned(); /** Get region name * * 2 letter Region code according to iso 3166 standard * There are 2 extra values that we use in special cases: * - "00" - developer edition, unlocked * - "WW" - world wide, region provisioned by default * - "--" - no provisioned region * * @return Pointer to string */ const char* furi_hal_region_get_name(); /** Сheck if transmission is allowed on this frequency for your flipper region * * @param[in] frequency The frequency * @param value frequency in Hz * * @return true if allowed */ bool furi_hal_region_is_frequency_allowed(uint32_t frequency); /** Get band data for frequency * * * * @param[in] frequency The frequency * * @return { description_of_the_return_value } */ const FuriHalRegionBand* furi_hal_region_get_band(uint32_t frequency); #ifdef __cplusplus } #endif