#include #include "../minunit.h" #include "irda.h" #include "common/irda_common_i.h" #include "test_data/irda_nec_test_data.srcdata" #include "test_data/irda_necext_test_data.srcdata" #include "test_data/irda_samsung_test_data.srcdata" #include "test_data/irda_rc6_test_data.srcdata" #include "test_data/irda_rc5_test_data.srcdata" #define RUN_ENCODER(data, expected) \ run_encoder((data), COUNT_OF(data), (expected), COUNT_OF(expected)) #define RUN_DECODER(data, expected) \ run_decoder((data), COUNT_OF(data), (expected), COUNT_OF(expected)) static IrdaDecoderHandler* decoder_handler; static IrdaEncoderHandler* encoder_handler; static void test_setup(void) { decoder_handler = irda_alloc_decoder(); encoder_handler = irda_alloc_encoder(); } static void test_teardown(void) { irda_free_decoder(decoder_handler); irda_free_encoder(encoder_handler); } static void compare_message_results( const IrdaMessage* message_decoded, const IrdaMessage* message_expected) { mu_check(message_decoded->protocol == message_expected->protocol); mu_check(message_decoded->command == message_expected->command); mu_check(message_decoded->address == message_expected->address); mu_check(message_decoded->repeat == message_expected->repeat); } static void run_encoder_fill_array(IrdaEncoderHandler* handler, uint32_t* timings, uint32_t* timings_len) { uint32_t duration = 0; bool level = false; // start from space bool level_read; IrdaStatus status = IrdaStatusError; int i = 0; while(1) { status = irda_encode(handler, &duration, &level_read); if(level_read != level) { level = level_read; ++i; } timings[i] += duration; furi_assert((status == IrdaStatusOk) || (status == IrdaStatusDone)); if(status == IrdaStatusDone) break; furi_assert(i < *timings_len); } *timings_len = i + 1; } // messages in input array for encoder should have one protocol static void run_encoder( const IrdaMessage input_messages[], uint32_t input_messages_len, const uint32_t expected_timings[], uint32_t expected_timings_len) { uint32_t* timings = 0; uint32_t timings_len = 0; uint32_t j = 0; for(uint32_t message_counter = 0; message_counter < input_messages_len; ++message_counter) { const IrdaMessage* message = &input_messages[message_counter]; if(!message->repeat) { irda_reset_encoder(encoder_handler, message); } timings_len = 200; timings = furi_alloc(sizeof(uint32_t) * timings_len); run_encoder_fill_array(encoder_handler, timings, &timings_len); furi_assert(timings_len <= 200); for(int i = 0; i < timings_len; ++i, ++j) { mu_check(MATCH_BIT_TIMING(timings[i], expected_timings[j], 120)); mu_assert(j < expected_timings_len, "encoded more timings than expected"); } free(timings); } mu_assert(j == expected_timings_len, "encoded less timings than expected"); } static void run_encoder_decoder(const IrdaMessage input_messages[], uint32_t input_messages_len) { uint32_t* timings = 0; uint32_t timings_len = 0; bool level = false; for(uint32_t message_counter = 0; message_counter < input_messages_len; ++message_counter) { const IrdaMessage* message_encoded = &input_messages[message_counter]; if(!message_encoded->repeat) { irda_reset_encoder(encoder_handler, message_encoded); level = false; } timings_len = 200; timings = furi_alloc(sizeof(uint32_t) * timings_len); run_encoder_fill_array(encoder_handler, timings, &timings_len); furi_assert(timings_len <= 200); const IrdaMessage* message_decoded = 0; for(int i = 0; i < timings_len; ++i) { message_decoded = irda_decode(decoder_handler, level, timings[i]); if(i < timings_len - 1) mu_check(!message_decoded); else mu_check(message_decoded); level = !level; } if(message_decoded) { compare_message_results(message_decoded, message_encoded); } else { mu_check(0); } free(timings); } } static void run_decoder( const uint32_t* input_delays, uint32_t input_delays_len, const IrdaMessage* message_expected, uint32_t message_expected_len) { const IrdaMessage* message_decoded = 0; bool level = 0; uint32_t message_counter = 0; for(uint32_t i = 0; i < input_delays_len; ++i) { message_decoded = irda_decode(decoder_handler, level, input_delays[i]); if(message_decoded) { mu_assert(message_counter < message_expected_len, "decoded more than expected"); if(message_counter >= message_expected_len) break; compare_message_results(message_decoded, &message_expected[message_counter]); ++message_counter; } level = !level; } mu_assert(message_counter == message_expected_len, "decoded less than expected"); } MU_TEST(test_decoder_samsung32) { RUN_DECODER(test_decoder_samsung32_input1, test_decoder_samsung32_expected1); } MU_TEST(test_mix) { RUN_DECODER(test_decoder_rc5_input2, test_decoder_rc5_expected2); RUN_DECODER(test_decoder_necext_input1, test_decoder_necext_expected1); // can use encoder data for decoding, but can't do opposite RUN_DECODER(test_encoder_rc6_expected1, test_encoder_rc6_input1); RUN_DECODER(test_decoder_samsung32_input1, test_decoder_samsung32_expected1); RUN_DECODER(test_decoder_rc6_input1, test_decoder_rc6_expected1); RUN_DECODER(test_decoder_samsung32_input1, test_decoder_samsung32_expected1); RUN_DECODER(test_decoder_rc5_input1, test_decoder_rc5_expected1); RUN_DECODER(test_decoder_necext_input1, test_decoder_necext_expected1); RUN_DECODER(test_decoder_nec_input2, test_decoder_nec_expected2); RUN_DECODER(test_decoder_rc6_input1, test_decoder_rc6_expected1); RUN_DECODER(test_decoder_necext_input1, test_decoder_necext_expected1); RUN_DECODER(test_decoder_rc5_input5, test_decoder_rc5_expected5); RUN_DECODER(test_decoder_samsung32_input1, test_decoder_samsung32_expected1); } MU_TEST(test_decoder_nec1) { RUN_DECODER(test_decoder_nec_input1, test_decoder_nec_expected1); } MU_TEST(test_decoder_nec2) { RUN_DECODER(test_decoder_nec_input2, test_decoder_nec_expected2); } MU_TEST(test_decoder_unexpected_end_in_sequence) { // test_decoder_nec_input1 and test_decoder_nec_input2 shuts unexpected RUN_DECODER(test_decoder_nec_input1, test_decoder_nec_expected1); RUN_DECODER(test_decoder_nec_input1, test_decoder_nec_expected1); RUN_DECODER(test_decoder_nec_input2, test_decoder_nec_expected2); RUN_DECODER(test_decoder_nec_input2, test_decoder_nec_expected2); } MU_TEST(test_decoder_necext1) { RUN_DECODER(test_decoder_necext_input1, test_decoder_necext_expected1); RUN_DECODER(test_decoder_necext_input1, test_decoder_necext_expected1); } MU_TEST(test_decoder_rc5) { RUN_DECODER(test_decoder_rc5x_input1, test_decoder_rc5x_expected1); RUN_DECODER(test_decoder_rc5_input1, test_decoder_rc5_expected1); RUN_DECODER(test_decoder_rc5_input2, test_decoder_rc5_expected2); RUN_DECODER(test_decoder_rc5_input3, test_decoder_rc5_expected3); RUN_DECODER(test_decoder_rc5_input4, test_decoder_rc5_expected4); RUN_DECODER(test_decoder_rc5_input5, test_decoder_rc5_expected5); RUN_DECODER(test_decoder_rc5_input6, test_decoder_rc5_expected6); RUN_DECODER(test_decoder_rc5_input_all_repeats, test_decoder_rc5_expected_all_repeats); } MU_TEST(test_encoder_rc5x) { RUN_ENCODER(test_decoder_rc5x_expected1, test_decoder_rc5x_input1); } MU_TEST(test_encoder_rc5) { RUN_ENCODER(test_decoder_rc5_expected_all_repeats, test_decoder_rc5_input_all_repeats); } MU_TEST(test_decoder_rc6) { RUN_DECODER(test_decoder_rc6_input1, test_decoder_rc6_expected1); } MU_TEST(test_encoder_rc6) { RUN_ENCODER(test_encoder_rc6_input1, test_encoder_rc6_expected1); } MU_TEST(test_encoder_decoder_all) { run_encoder_decoder(test_nec_all, COUNT_OF(test_nec_all)); run_encoder_decoder(test_necext_all, COUNT_OF(test_necext_all)); run_encoder_decoder(test_samsung32_all, COUNT_OF(test_samsung32_all)); run_encoder_decoder(test_rc6_all, COUNT_OF(test_rc6_all)); run_encoder_decoder(test_rc5_all, COUNT_OF(test_rc5_all)); } MU_TEST_SUITE(test_irda_decoder_encoder) { MU_SUITE_CONFIGURE(&test_setup, &test_teardown); MU_RUN_TEST(test_encoder_rc5x); MU_RUN_TEST(test_encoder_rc5); MU_RUN_TEST(test_decoder_rc5); MU_RUN_TEST(test_decoder_rc6); MU_RUN_TEST(test_encoder_rc6); MU_RUN_TEST(test_decoder_unexpected_end_in_sequence); MU_RUN_TEST(test_decoder_nec1); MU_RUN_TEST(test_decoder_nec2); MU_RUN_TEST(test_decoder_samsung32); MU_RUN_TEST(test_decoder_necext1); MU_RUN_TEST(test_mix); MU_RUN_TEST(test_encoder_decoder_all); } int run_minunit_test_irda_decoder_encoder() { MU_RUN_SUITE(test_irda_decoder_encoder); MU_REPORT(); return MU_EXIT_CODE; }