mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-19 09:13:11 +00:00
5ed9bdbc37
* [FL-1652] IRDA: Continuous transmitting * continuous encoding and sending signals by pressing button on menu * fast buttons scrolling in remote menu * bruteforce: stop reading file if progress == 100% * IRDA: .hpp -> .h * [FL-1554] IRDA: xTaskNotify -> osEventsFlagSet * IRDA: some stability fixes * Irda: minor cleanup, api-hal to furi-hal rename. Co-authored-by: あく <alleteam@gmail.com>
278 lines
8.3 KiB
C
278 lines
8.3 KiB
C
#include "irda.h"
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#include "furi/check.h"
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#include "irda_common_i.h"
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#include "irda_protocol_defs_i.h"
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#include <stdbool.h>
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#include <stdint.h>
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#include <stdlib.h>
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#include <furi.h>
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#include "irda_i.h"
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#include <furi-hal-irda.h>
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struct IrdaDecoderHandler {
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void** ctx;
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};
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typedef struct {
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IrdaAlloc alloc;
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IrdaDecode decode;
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IrdaReset reset;
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IrdaFree free;
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} IrdaDecoders;
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typedef struct {
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IrdaEncoderReset reset;
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IrdaAlloc alloc;
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IrdaEncode encode;
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IrdaFree free;
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} IrdaEncoders;
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typedef struct {
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IrdaProtocol protocol;
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const char* name;
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IrdaDecoders decoder;
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IrdaEncoders encoder;
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uint8_t address_length;
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uint8_t command_length;
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uint32_t frequency;
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float duty_cycle;
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} IrdaProtocolImplementation;
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struct IrdaEncoderHandler {
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void* encoder;
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IrdaProtocol protocol;
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};
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// TODO: replace with key-value, Now we refer by enum index, which is dangerous.
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static const IrdaProtocolImplementation irda_protocols[] = {
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// #0
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{ .protocol = IrdaProtocolNEC,
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.name = "NEC",
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.decoder = {
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.alloc = irda_decoder_nec_alloc,
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.decode = irda_decoder_nec_decode,
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.reset = irda_decoder_nec_reset,
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.free = irda_decoder_nec_free},
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.encoder = {
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.alloc = irda_encoder_nec_alloc,
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.encode = irda_encoder_nec_encode,
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.reset = irda_encoder_nec_reset,
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.free = irda_encoder_nec_free},
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.address_length = 2,
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.command_length = 2,
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.frequency = IRDA_COMMON_CARRIER_FREQUENCY,
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.duty_cycle = IRDA_COMMON_DUTY_CYCLE,
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},
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// #1 - have to be after NEC
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{ .protocol = IrdaProtocolNECext,
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.name = "NECext",
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.decoder = {
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.alloc = irda_decoder_necext_alloc,
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.decode = irda_decoder_nec_decode,
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.reset = irda_decoder_nec_reset,
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.free = irda_decoder_nec_free},
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.encoder = {
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.alloc = irda_encoder_necext_alloc,
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.encode = irda_encoder_nec_encode,
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.reset = irda_encoder_necext_reset,
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.free = irda_encoder_nec_free},
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.address_length = 4,
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.command_length = 2,
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.frequency = IRDA_COMMON_CARRIER_FREQUENCY,
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.duty_cycle = IRDA_COMMON_DUTY_CYCLE,
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},
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// #2
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{ .protocol = IrdaProtocolSamsung32,
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.name ="Samsung32",
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.decoder = {
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.alloc = irda_decoder_samsung32_alloc,
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.decode = irda_decoder_samsung32_decode,
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.reset = irda_decoder_samsung32_reset,
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.free = irda_decoder_samsung32_free},
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.encoder = {
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.alloc = irda_encoder_samsung32_alloc,
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.encode = irda_encoder_samsung32_encode,
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.reset = irda_encoder_samsung32_reset,
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.free = irda_encoder_samsung32_free},
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.address_length = 2,
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.command_length = 2,
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.frequency = IRDA_COMMON_CARRIER_FREQUENCY,
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.duty_cycle = IRDA_COMMON_DUTY_CYCLE,
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},
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// #3
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{ .protocol = IrdaProtocolRC6,
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.name = "RC6",
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.decoder = {
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.alloc = irda_decoder_rc6_alloc,
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.decode = irda_decoder_rc6_decode,
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.reset = irda_decoder_rc6_reset,
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.free = irda_decoder_rc6_free},
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.encoder = {
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.alloc = irda_encoder_rc6_alloc,
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.encode = irda_encoder_rc6_encode,
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.reset = irda_encoder_rc6_reset,
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.free = irda_encoder_rc6_free},
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.address_length = 2,
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.command_length = 2,
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.frequency = IRDA_COMMON_CARRIER_FREQUENCY,
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.duty_cycle = IRDA_COMMON_DUTY_CYCLE,
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},
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};
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const IrdaMessage* irda_decode(IrdaDecoderHandler* handler, bool level, uint32_t duration) {
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furi_assert(handler);
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IrdaMessage* message = NULL;
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IrdaMessage* result = NULL;
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for (int i = 0; i < COUNT_OF(irda_protocols); ++i) {
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if (irda_protocols[i].decoder.decode) {
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message = irda_protocols[i].decoder.decode(handler->ctx[i], level, duration);
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if (!result && message) {
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message->protocol = irda_protocols[i].protocol;
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result = message;
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}
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}
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}
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return result;
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}
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IrdaDecoderHandler* irda_alloc_decoder(void) {
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IrdaDecoderHandler* handler = furi_alloc(sizeof(IrdaDecoderHandler));
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handler->ctx = furi_alloc(sizeof(void*) * COUNT_OF(irda_protocols));
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for (int i = 0; i < COUNT_OF(irda_protocols); ++i) {
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handler->ctx[i] = 0;
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if (irda_protocols[i].decoder.alloc)
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handler->ctx[i] = irda_protocols[i].decoder.alloc();
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}
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return handler;
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}
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void irda_free_decoder(IrdaDecoderHandler* handler) {
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furi_assert(handler);
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furi_assert(handler->ctx);
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for (int i = 0; i < COUNT_OF(irda_protocols); ++i) {
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if (irda_protocols[i].decoder.free)
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irda_protocols[i].decoder.free(handler->ctx[i]);
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}
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free(handler->ctx);
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free(handler);
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}
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void irda_reset_decoder(IrdaDecoderHandler* handler) {
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for (int i = 0; i < COUNT_OF(irda_protocols); ++i) {
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if (irda_protocols[i].decoder.reset)
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irda_protocols[i].decoder.reset(handler->ctx[i]);
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}
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}
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IrdaEncoderHandler* irda_alloc_encoder(void) {
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IrdaEncoderHandler* handler = furi_alloc(sizeof(IrdaEncoderHandler));
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handler->encoder = NULL;
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handler->protocol = IrdaProtocolUnknown;
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return handler;
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}
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void irda_free_encoder(IrdaEncoderHandler* handler) {
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furi_assert(handler);
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if (handler->encoder) {
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furi_assert(irda_is_protocol_valid(handler->protocol));
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furi_assert(irda_protocols[handler->protocol].encoder.free);
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irda_protocols[handler->protocol].encoder.free(handler->encoder);
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}
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free(handler);
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}
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void irda_reset_encoder(IrdaEncoderHandler* handler, const IrdaMessage* message) {
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furi_assert(handler);
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furi_assert(message);
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furi_assert(irda_is_protocol_valid(message->protocol));
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furi_assert(irda_protocols[message->protocol].encoder.reset);
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furi_assert(irda_protocols[message->protocol].encoder.alloc);
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/* Realloc encoder if different protocol set */
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if (message->protocol != handler->protocol) {
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if (handler->encoder != NULL) {
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furi_assert(handler->protocol != IrdaProtocolUnknown);
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irda_protocols[handler->protocol].encoder.free(handler->encoder);
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}
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handler->encoder = irda_protocols[message->protocol].encoder.alloc();
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handler->protocol = message->protocol;
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}
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irda_protocols[handler->protocol].encoder.reset(handler->encoder, message);
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}
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IrdaStatus irda_encode(IrdaEncoderHandler* handler, uint32_t* duration, bool* level) {
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furi_assert(handler);
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furi_assert(irda_is_protocol_valid(handler->protocol));
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furi_assert(irda_protocols[handler->protocol].encoder.encode);
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IrdaStatus status = irda_protocols[handler->protocol].encoder.encode(handler->encoder, duration, level);
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furi_assert(status != IrdaStatusError);
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return status;
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}
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bool irda_is_protocol_valid(IrdaProtocol protocol) {
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return (protocol >= 0) && (protocol < COUNT_OF(irda_protocols));
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}
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IrdaProtocol irda_get_protocol_by_name(const char* protocol_name) {
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for (int i = 0; i < COUNT_OF(irda_protocols); ++i) {
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if (!strcmp(irda_protocols[i].name, protocol_name))
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return i;
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}
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furi_assert(0);
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return IrdaProtocolUnknown;
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}
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const char* irda_get_protocol_name(IrdaProtocol protocol) {
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furi_assert(irda_is_protocol_valid(protocol));
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if (irda_is_protocol_valid(protocol))
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return irda_protocols[protocol].name;
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else
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return "Invalid";
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}
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uint8_t irda_get_protocol_address_length(IrdaProtocol protocol) {
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furi_assert(irda_is_protocol_valid(protocol));
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if (irda_is_protocol_valid(protocol))
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return irda_protocols[protocol].address_length;
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else
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return 0;
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}
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uint8_t irda_get_protocol_command_length(IrdaProtocol protocol) {
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furi_assert(irda_is_protocol_valid(protocol));
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if (irda_is_protocol_valid(protocol))
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return irda_protocols[protocol].command_length;
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else
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return 0;
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}
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uint32_t irda_get_protocol_frequency(IrdaProtocol protocol) {
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furi_assert(irda_is_protocol_valid(protocol));
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if (irda_is_protocol_valid(protocol))
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return irda_protocols[protocol].frequency;
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else
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return 0;
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}
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float irda_get_protocol_duty_cycle(IrdaProtocol protocol) {
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furi_assert(irda_is_protocol_valid(protocol));
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if (irda_is_protocol_valid(protocol))
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return irda_protocols[protocol].duty_cycle;
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else
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return 0;
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}
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