mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-22 10:43:11 +00:00
75e9de12b0
* Better Infrared protocol file structure * Rename InfraredProtocolSpec to InfraredProtocolVariant * Slightly better names * Add repeat count field to protocol variant description * Repeat the signal the appropriate number of times when brute-forcing * Repeat the signal the appropriate number of times when sending via worker * Better signal count logic in infrared_transmit * Better variable names * Convert some raw signals to messages in tv.ir Co-authored-by: あく <alleteam@gmail.com>
181 lines
5.9 KiB
C
181 lines
5.9 KiB
C
#include "infrared_common_i.h"
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#include <stdlib.h>
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#include <string.h>
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#include <core/check.h>
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#include <core/common_defines.h>
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static InfraredStatus
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infrared_common_encode_bits(InfraredCommonEncoder* encoder, uint32_t* duration, bool* level) {
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InfraredStatus status = encoder->protocol->encode(encoder, duration, level);
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furi_assert(status == InfraredStatusOk);
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++encoder->timings_encoded;
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encoder->timings_sum += *duration;
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if((encoder->bits_encoded == encoder->bits_to_encode) && *level) {
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status = InfraredStatusDone;
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}
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return status;
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}
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/*
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*
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* 3:
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* even_timing = 0
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* level = 0 ^ 1 = 1
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* 4:
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* even_timing = 1
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* level = 1 ^ 1 = 0
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* ++timing;
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*
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*
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* 0 1 2 | 3 4 |
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* _____-------_____---___
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*/
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InfraredStatus infrared_common_encode_manchester(
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InfraredCommonEncoder* encoder,
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uint32_t* duration,
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bool* level) {
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furi_assert(encoder);
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furi_assert(duration);
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furi_assert(level);
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const InfraredTimings* timings = &encoder->protocol->timings;
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uint8_t index = encoder->bits_encoded / 8;
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uint8_t shift = encoder->bits_encoded % 8; // LSB first
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bool logic_value = !!(encoder->data[index] & (0x01 << shift));
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bool even_timing = !(encoder->timings_encoded % 2);
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*level = even_timing ^ logic_value;
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*duration = timings->bit1_mark;
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if(even_timing)
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++encoder->bits_encoded;
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else if(*level && (encoder->bits_encoded + 1 == encoder->bits_to_encode))
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++encoder->bits_encoded; /* don't encode last space */
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return InfraredStatusOk;
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}
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InfraredStatus
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infrared_common_encode_pdwm(InfraredCommonEncoder* encoder, uint32_t* duration, bool* level) {
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furi_assert(encoder);
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furi_assert(duration);
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furi_assert(level);
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const InfraredTimings* timings = &encoder->protocol->timings;
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uint8_t index = encoder->bits_encoded / 8;
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uint8_t shift = encoder->bits_encoded % 8; // LSB first
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bool logic_value = !!(encoder->data[index] & (0x01 << shift));
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bool pwm = timings->bit1_space == timings->bit0_space;
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if(encoder->timings_encoded % 2) { /* start encoding from space */
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*duration = logic_value ? timings->bit1_mark : timings->bit0_mark;
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*level = true;
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if(pwm) ++encoder->bits_encoded;
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} else {
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*duration = logic_value ? timings->bit1_space : timings->bit0_space;
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*level = false;
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if(!pwm) ++encoder->bits_encoded;
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}
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return InfraredStatusOk;
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}
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InfraredStatus
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infrared_common_encode(InfraredCommonEncoder* encoder, uint32_t* duration, bool* level) {
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furi_assert(encoder);
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furi_assert(duration);
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furi_assert(level);
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InfraredStatus status = InfraredStatusOk;
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const InfraredTimings* timings = &encoder->protocol->timings;
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switch(encoder->state) {
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case InfraredCommonEncoderStateSilence:
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*duration = encoder->protocol->timings.silence_time;
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*level = false;
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encoder->state = InfraredCommonEncoderStatePreamble;
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++encoder->timings_encoded;
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encoder->timings_sum = 0;
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break;
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case InfraredCommonEncoderStatePreamble:
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if(timings->preamble_mark) {
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if(encoder->timings_encoded == 1) {
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*duration = timings->preamble_mark;
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*level = true;
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} else {
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*duration = timings->preamble_space;
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*level = false;
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encoder->state = InfraredCommonEncoderStateEncode;
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}
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++encoder->timings_encoded;
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encoder->timings_sum += *duration;
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break;
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} else {
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encoder->state = InfraredCommonEncoderStateEncode;
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}
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/* FALLTHROUGH */
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case InfraredCommonEncoderStateEncode:
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status = infrared_common_encode_bits(encoder, duration, level);
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if(status == InfraredStatusDone) {
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if(encoder->protocol->encode_repeat) {
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encoder->state = InfraredCommonEncoderStateEncodeRepeat;
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} else {
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encoder->timings_encoded = 0;
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encoder->timings_sum = 0;
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encoder->bits_encoded = 0;
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encoder->switch_detect = 0;
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encoder->state = InfraredCommonEncoderStateSilence;
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}
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}
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break;
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case InfraredCommonEncoderStateEncodeRepeat:
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status = encoder->protocol->encode_repeat(encoder, duration, level);
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break;
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}
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return status;
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}
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void* infrared_common_encoder_alloc(const InfraredCommonProtocolSpec* protocol) {
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furi_assert(protocol);
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if(protocol->decode == infrared_common_decode_pdwm) {
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furi_assert(
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(protocol->timings.bit1_mark == protocol->timings.bit0_mark) ^
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(protocol->timings.bit1_space == protocol->timings.bit0_space));
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}
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/* protocol->databit_len[0] has to contain biggest value of bits that can be decoded */
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for(size_t i = 1; i < COUNT_OF(protocol->databit_len); ++i) {
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furi_assert(protocol->databit_len[i] <= protocol->databit_len[0]);
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}
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uint32_t alloc_size = sizeof(InfraredCommonDecoder) + protocol->databit_len[0] / 8 +
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!!(protocol->databit_len[0] % 8);
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InfraredCommonEncoder* encoder = malloc(alloc_size);
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memset(encoder, 0, alloc_size);
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encoder->protocol = protocol;
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return encoder;
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}
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void infrared_common_encoder_free(InfraredCommonEncoder* encoder) {
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furi_assert(encoder);
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free(encoder);
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}
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void infrared_common_encoder_reset(InfraredCommonEncoder* encoder) {
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furi_assert(encoder);
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encoder->timings_encoded = 0;
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encoder->timings_sum = 0;
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encoder->bits_encoded = 0;
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encoder->state = InfraredCommonEncoderStateSilence;
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encoder->switch_detect = 0;
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uint8_t max_databit_len = 0;
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for(size_t i = 0; i < COUNT_OF(encoder->protocol->databit_len); ++i) {
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max_databit_len = MAX(max_databit_len, encoder->protocol->databit_len[i]);
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}
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uint8_t bytes_to_clear = max_databit_len / 8 + !!(max_databit_len % 8);
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memset(encoder->data, 0, bytes_to_clear);
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}
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