mirror of
https://github.com/DarkFlippers/unleashed-firmware
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3114a2d4b8
* Add cscope db generation * Add api-hal-irda, TIM2: HAL->LL * Add libirda: pwm decoding * Universal state machine * Add irda decoder library * Move IRDA capture to standalone tool * Add encoder/decoder samsung32, NEC, fix bugs * Port current App to new Irda lib * Fix clang format for test data * Port IRDA api-hal to f6 Co-authored-by: あく <alleteam@gmail.com>
93 lines
2.8 KiB
C
93 lines
2.8 KiB
C
#include <furi.h>
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#include "../minunit.h"
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#include "irda.h"
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#include "test_data/irda_decoder_nec_test_data.h"
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#include "test_data/irda_decoder_samsung_test_data.h"
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#define RUN_DECODER(data, expected) \
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run_decoder((data), COUNT_OF(data), (expected), COUNT_OF(expected))
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static IrdaHandler* decoder;
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static void test_setup(void) {
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decoder = irda_alloc_decoder();
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}
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static void test_teardown(void) {
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irda_free_decoder(decoder);
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}
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static void
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compare_message_results(const IrdaMessage* message_decoded, const IrdaMessage* message_expected) {
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mu_check(message_decoded->protocol == message_expected->protocol);
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mu_check(message_decoded->command == message_expected->command);
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mu_check(message_decoded->address == message_expected->address);
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mu_check(message_decoded->repeat == message_expected->repeat);
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}
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static void run_decoder(
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const uint32_t* input_delays,
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uint32_t input_delays_len,
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const IrdaMessage* message_expected,
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uint32_t message_expected_len) {
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const IrdaMessage* message_decoded = 0;
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bool level = 1;
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uint32_t message_counter = 0;
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for(uint32_t i = 0; i < input_delays_len; ++i) {
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message_decoded = irda_decode(decoder, level, input_delays[i]);
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if(message_decoded) {
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mu_assert(message_counter < message_expected_len, "decoded more than expected");
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if(message_counter >= message_expected_len) break;
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compare_message_results(message_decoded, &message_expected[message_counter]);
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++message_counter;
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}
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level = !level;
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}
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mu_assert(message_counter == message_expected_len, "decoded less than expected");
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}
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MU_TEST(test_samsung32) {
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RUN_DECODER(test_samsung32_input1, test_samsung32_expected1);
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}
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MU_TEST(test_mix_nec_samsung32) {
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RUN_DECODER(test_samsung32_input1, test_samsung32_expected1);
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RUN_DECODER(test_nec_input1, test_nec_expected1);
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RUN_DECODER(test_samsung32_input1, test_samsung32_expected1);
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RUN_DECODER(test_nec_input2, test_nec_expected2);
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}
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MU_TEST(test_nec1) {
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RUN_DECODER(test_nec_input1, test_nec_expected1);
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}
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MU_TEST(test_nec2) {
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RUN_DECODER(test_nec_input2, test_nec_expected2);
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}
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MU_TEST(test_unexpected_end_in_sequence) {
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// test_nec_input1 and test_nec_input2 shuts unexpected
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RUN_DECODER(test_nec_input1, test_nec_expected1);
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RUN_DECODER(test_nec_input1, test_nec_expected1);
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RUN_DECODER(test_nec_input2, test_nec_expected2);
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RUN_DECODER(test_nec_input2, test_nec_expected2);
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}
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MU_TEST_SUITE(test_irda_decoder) {
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MU_SUITE_CONFIGURE(&test_setup, &test_teardown);
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MU_RUN_TEST(test_unexpected_end_in_sequence);
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MU_RUN_TEST(test_nec1);
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MU_RUN_TEST(test_nec2);
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MU_RUN_TEST(test_samsung32);
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MU_RUN_TEST(test_mix_nec_samsung32);
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}
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int run_minunit_test_irda_decoder() {
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MU_RUN_SUITE(test_irda_decoder);
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MU_REPORT();
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return MU_EXIT_CODE;
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}
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