mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-18 08:43:10 +00:00
1d7966f74e
* digital signal: add optimization * nfc test: more restrict tests * digital signal: build as separate library * digital signal: remove unused flags, format sources * digital signal: fix cflag name * target: fix build for f18 target Co-authored-by: あく <alleteam@gmail.com>
575 lines
20 KiB
C
575 lines
20 KiB
C
#include <furi.h>
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#include <furi_hal.h>
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#include <storage/storage.h>
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#include <lib/flipper_format/flipper_format.h>
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#include <lib/nfc/protocols/nfca.h>
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#include <lib/nfc/helpers/mf_classic_dict.h>
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#include <lib/digital_signal/digital_signal.h>
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#include <lib/nfc/nfc_device.h>
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#include <lib/nfc/helpers/nfc_generators.h>
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#include <lib/flipper_format/flipper_format_i.h>
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#include <lib/toolbox/stream/file_stream.h>
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#include "../minunit.h"
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#define TAG "NfcTest"
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#define NFC_TEST_RESOURCES_DIR EXT_PATH("unit_tests/nfc/")
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#define NFC_TEST_SIGNAL_SHORT_FILE "nfc_nfca_signal_short.nfc"
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#define NFC_TEST_SIGNAL_LONG_FILE "nfc_nfca_signal_long.nfc"
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#define NFC_TEST_DICT_PATH EXT_PATH("unit_tests/mf_classic_dict.nfc")
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#define NFC_TEST_NFC_DEV_PATH EXT_PATH("unit_tests/nfc/nfc_dev_test.nfc")
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static const char* nfc_test_file_type = "Flipper NFC test";
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static const uint32_t nfc_test_file_version = 1;
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#define NFC_TEST_DATA_MAX_LEN 18
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#define NFC_TETS_TIMINGS_MAX_LEN 1350
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// Maximum allowed time for buffer preparation to fit 500us nt message timeout
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#define NFC_TEST_4_BYTE_BUILD_BUFFER_TIM_MAX (150)
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#define NFC_TEST_16_BYTE_BUILD_BUFFER_TIM_MAX (640)
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#define NFC_TEST_4_BYTE_BUILD_SIGNAL_TIM_MAX (110)
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#define NFC_TEST_16_BYTE_BUILD_SIGNAL_TIM_MAX (440)
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typedef struct {
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Storage* storage;
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NfcaSignal* signal;
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uint32_t test_data_len;
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uint8_t test_data[NFC_TEST_DATA_MAX_LEN];
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uint32_t test_timings_len;
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uint32_t test_timings[NFC_TETS_TIMINGS_MAX_LEN];
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} NfcTest;
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static NfcTest* nfc_test = NULL;
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static void nfc_test_alloc() {
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nfc_test = malloc(sizeof(NfcTest));
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nfc_test->signal = nfca_signal_alloc();
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nfc_test->storage = furi_record_open(RECORD_STORAGE);
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}
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static void nfc_test_free() {
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furi_assert(nfc_test);
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furi_record_close(RECORD_STORAGE);
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nfca_signal_free(nfc_test->signal);
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free(nfc_test);
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nfc_test = NULL;
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}
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static bool nfc_test_read_signal_from_file(const char* file_name) {
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bool success = false;
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FlipperFormat* file = flipper_format_file_alloc(nfc_test->storage);
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FuriString* file_type;
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file_type = furi_string_alloc();
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uint32_t file_version = 0;
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do {
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if(!flipper_format_file_open_existing(file, file_name)) break;
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if(!flipper_format_read_header(file, file_type, &file_version)) break;
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if(furi_string_cmp_str(file_type, nfc_test_file_type) ||
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file_version != nfc_test_file_version)
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break;
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if(!flipper_format_read_uint32(file, "Data length", &nfc_test->test_data_len, 1)) break;
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if(nfc_test->test_data_len > NFC_TEST_DATA_MAX_LEN) break;
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if(!flipper_format_read_hex(
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file, "Plain data", nfc_test->test_data, nfc_test->test_data_len))
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break;
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if(!flipper_format_read_uint32(file, "Timings length", &nfc_test->test_timings_len, 1))
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break;
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if(nfc_test->test_timings_len > NFC_TETS_TIMINGS_MAX_LEN) break;
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if(!flipper_format_read_uint32(
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file, "Timings", nfc_test->test_timings, nfc_test->test_timings_len))
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break;
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success = true;
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} while(false);
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furi_string_free(file_type);
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flipper_format_free(file);
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return success;
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}
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static bool nfc_test_digital_signal_test_encode(
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const char* file_name,
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uint32_t build_signal_max_time_us,
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uint32_t build_buffer_max_time_us,
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uint32_t timing_tolerance,
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uint32_t timings_sum_tolerance) {
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furi_assert(nfc_test);
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bool success = false;
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uint32_t dut_timings_sum = 0;
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uint32_t ref_timings_sum = 0;
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uint8_t parity[10] = {};
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do {
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// Read test data
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if(!nfc_test_read_signal_from_file(file_name)) {
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FURI_LOG_E(TAG, "Failed to read signal from file");
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break;
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}
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// Encode signal
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FURI_CRITICAL_ENTER();
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uint32_t time_start = DWT->CYCCNT;
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nfca_signal_encode(
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nfc_test->signal, nfc_test->test_data, nfc_test->test_data_len * 8, parity);
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uint32_t time_signal =
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(DWT->CYCCNT - time_start) / furi_hal_cortex_instructions_per_microsecond();
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time_start = DWT->CYCCNT;
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digital_signal_prepare_arr(nfc_test->signal->tx_signal);
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uint32_t time_buffer =
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(DWT->CYCCNT - time_start) / furi_hal_cortex_instructions_per_microsecond();
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FURI_CRITICAL_EXIT();
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// Check timings
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if(time_signal > build_signal_max_time_us) {
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FURI_LOG_E(
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TAG,
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"Build signal time: %ld us while accepted value: %ld us",
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time_signal,
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build_signal_max_time_us);
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break;
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}
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if(time_buffer > build_buffer_max_time_us) {
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FURI_LOG_E(
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TAG,
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"Build buffer time: %ld us while accepted value: %ld us",
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time_buffer,
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build_buffer_max_time_us);
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break;
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}
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// Check data
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if(nfc_test->signal->tx_signal->edge_cnt != nfc_test->test_timings_len) {
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FURI_LOG_E(TAG, "Not equal timings buffers length");
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break;
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}
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uint32_t timings_diff = 0;
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uint32_t* ref = nfc_test->test_timings;
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uint32_t* dut = nfc_test->signal->tx_signal->reload_reg_buff;
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bool timing_check_success = true;
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for(size_t i = 0; i < nfc_test->test_timings_len; i++) {
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timings_diff = dut[i] > ref[i] ? dut[i] - ref[i] : ref[i] - dut[i];
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dut_timings_sum += dut[i];
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ref_timings_sum += ref[i];
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if(timings_diff > timing_tolerance) {
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FURI_LOG_E(
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TAG, "Too big difference in %d timings. Ref: %ld, DUT: %ld", i, ref[i], dut[i]);
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timing_check_success = false;
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break;
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}
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}
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if(!timing_check_success) break;
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uint32_t sum_diff = dut_timings_sum > ref_timings_sum ? dut_timings_sum - ref_timings_sum :
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ref_timings_sum - dut_timings_sum;
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if(sum_diff > timings_sum_tolerance) {
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FURI_LOG_E(
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TAG,
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"Too big difference in timings sum. Ref: %ld, DUT: %ld",
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ref_timings_sum,
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dut_timings_sum);
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break;
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}
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FURI_LOG_I(
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TAG,
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"Build signal time: %ld us. Acceptable time: %ld us",
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time_signal,
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build_signal_max_time_us);
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FURI_LOG_I(
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TAG,
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"Build buffer time: %ld us. Acceptable time: %ld us",
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time_buffer,
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build_buffer_max_time_us);
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FURI_LOG_I(
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TAG,
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"Timings sum difference: %ld [1/64MHZ]. Acceptable difference: %ld [1/64MHz]",
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sum_diff,
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timings_sum_tolerance);
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success = true;
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} while(false);
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return success;
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}
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MU_TEST(nfc_digital_signal_test) {
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mu_assert(
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nfc_test_digital_signal_test_encode(
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NFC_TEST_RESOURCES_DIR NFC_TEST_SIGNAL_SHORT_FILE,
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NFC_TEST_4_BYTE_BUILD_SIGNAL_TIM_MAX,
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NFC_TEST_4_BYTE_BUILD_BUFFER_TIM_MAX,
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1,
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37),
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"NFC short digital signal test failed\r\n");
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mu_assert(
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nfc_test_digital_signal_test_encode(
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NFC_TEST_RESOURCES_DIR NFC_TEST_SIGNAL_LONG_FILE,
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NFC_TEST_16_BYTE_BUILD_SIGNAL_TIM_MAX,
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NFC_TEST_16_BYTE_BUILD_BUFFER_TIM_MAX,
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1,
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37),
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"NFC long digital signal test failed\r\n");
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}
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MU_TEST(mf_classic_dict_test) {
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MfClassicDict* instance = NULL;
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uint64_t key = 0;
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FuriString* temp_str;
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temp_str = furi_string_alloc();
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instance = mf_classic_dict_alloc(MfClassicDictTypeUnitTest);
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mu_assert(instance != NULL, "mf_classic_dict_alloc\r\n");
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mu_assert(
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mf_classic_dict_get_total_keys(instance) == 0,
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"mf_classic_dict_get_total_keys == 0 assert failed\r\n");
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furi_string_set(temp_str, "2196FAD8115B");
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mu_assert(
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mf_classic_dict_add_key_str(instance, temp_str),
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"mf_classic_dict_add_key == true assert failed\r\n");
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mu_assert(
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mf_classic_dict_get_total_keys(instance) == 1,
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"mf_classic_dict_get_total_keys == 1 assert failed\r\n");
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mu_assert(mf_classic_dict_rewind(instance), "mf_classic_dict_rewind == 1 assert failed\r\n");
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mu_assert(
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mf_classic_dict_get_key_at_index_str(instance, temp_str, 0),
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"mf_classic_dict_get_key_at_index_str == true assert failed\r\n");
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mu_assert(
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furi_string_cmp(temp_str, "2196FAD8115B") == 0,
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"string_cmp(temp_str, \"2196FAD8115B\") == 0 assert failed\r\n");
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mu_assert(mf_classic_dict_rewind(instance), "mf_classic_dict_rewind == 1 assert failed\r\n");
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mu_assert(
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mf_classic_dict_get_key_at_index(instance, &key, 0),
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"mf_classic_dict_get_key_at_index == true assert failed\r\n");
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mu_assert(key == 0x2196FAD8115B, "key == 0x2196FAD8115B assert failed\r\n");
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mu_assert(mf_classic_dict_rewind(instance), "mf_classic_dict_rewind == 1 assert failed\r\n");
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mu_assert(
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mf_classic_dict_delete_index(instance, 0),
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"mf_classic_dict_delete_index == true assert failed\r\n");
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mf_classic_dict_free(instance);
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furi_string_free(temp_str);
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}
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MU_TEST(mf_classic_dict_load_test) {
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Storage* storage = furi_record_open(RECORD_STORAGE);
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mu_assert(storage != NULL, "storage != NULL assert failed\r\n");
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// Delete unit test dict file if exists
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if(storage_file_exists(storage, NFC_TEST_DICT_PATH)) {
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mu_assert(
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storage_simply_remove(storage, NFC_TEST_DICT_PATH),
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"remove == true assert failed\r\n");
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}
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// Create unit test dict file
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Stream* file_stream = file_stream_alloc(storage);
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mu_assert(file_stream != NULL, "file_stream != NULL assert failed\r\n");
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mu_assert(
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file_stream_open(file_stream, NFC_TEST_DICT_PATH, FSAM_WRITE, FSOM_OPEN_ALWAYS),
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"file_stream_open == true assert failed\r\n");
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// Write unit test dict file
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char key_str[] = "a0a1a2a3a4a5";
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mu_assert(
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stream_write_cstring(file_stream, key_str) == strlen(key_str),
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"write == true assert failed\r\n");
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// Close unit test dict file
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mu_assert(file_stream_close(file_stream), "file_stream_close == true assert failed\r\n");
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// Load unit test dict file
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MfClassicDict* instance = NULL;
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instance = mf_classic_dict_alloc(MfClassicDictTypeUnitTest);
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mu_assert(instance != NULL, "mf_classic_dict_alloc\r\n");
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uint32_t total_keys = mf_classic_dict_get_total_keys(instance);
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mu_assert(total_keys == 1, "total_keys == 1 assert failed\r\n");
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// Read key
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uint64_t key_ref = 0xa0a1a2a3a4a5;
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uint64_t key_dut = 0;
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FuriString* temp_str = furi_string_alloc();
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mu_assert(
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mf_classic_dict_get_next_key_str(instance, temp_str),
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"get_next_key_str == true assert failed\r\n");
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mu_assert(furi_string_cmp_str(temp_str, key_str) == 0, "invalid key loaded\r\n");
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mu_assert(mf_classic_dict_rewind(instance), "mf_classic_dict_rewind == 1 assert failed\r\n");
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mu_assert(
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mf_classic_dict_get_next_key(instance, &key_dut),
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"get_next_key == true assert failed\r\n");
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mu_assert(key_dut == key_ref, "invalid key loaded\r\n");
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furi_string_free(temp_str);
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mf_classic_dict_free(instance);
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// Check that MfClassicDict added new line to the end of the file
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mu_assert(
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file_stream_open(file_stream, NFC_TEST_DICT_PATH, FSAM_READ, FSOM_OPEN_EXISTING),
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"file_stream_open == true assert failed\r\n");
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mu_assert(stream_seek(file_stream, -1, StreamOffsetFromEnd), "seek == true assert failed\r\n");
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uint8_t last_char = 0;
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mu_assert(stream_read(file_stream, &last_char, 1) == 1, "read == true assert failed\r\n");
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mu_assert(last_char == '\n', "last_char == '\\n' assert failed\r\n");
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mu_assert(file_stream_close(file_stream), "file_stream_close == true assert failed\r\n");
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// Delete unit test dict file
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mu_assert(
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storage_simply_remove(storage, NFC_TEST_DICT_PATH), "remove == true assert failed\r\n");
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stream_free(file_stream);
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furi_record_close(RECORD_STORAGE);
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}
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MU_TEST(nfca_file_test) {
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NfcDevice* nfc = nfc_device_alloc();
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mu_assert(nfc != NULL, "nfc_device_data != NULL assert failed\r\n");
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nfc->format = NfcDeviceSaveFormatUid;
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// Fill the UID, sak, ATQA and type
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uint8_t uid[7] = {0x04, 0x01, 0x23, 0x45, 0x67, 0x89, 0x00};
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memcpy(nfc->dev_data.nfc_data.uid, uid, 7);
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nfc->dev_data.nfc_data.uid_len = 7;
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nfc->dev_data.nfc_data.sak = 0x08;
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nfc->dev_data.nfc_data.atqa[0] = 0x00;
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nfc->dev_data.nfc_data.atqa[1] = 0x04;
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nfc->dev_data.nfc_data.type = FuriHalNfcTypeA;
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// Save the NFC device data to the file
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mu_assert(
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nfc_device_save(nfc, NFC_TEST_NFC_DEV_PATH), "nfc_device_save == true assert failed\r\n");
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nfc_device_free(nfc);
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// Load the NFC device data from the file
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NfcDevice* nfc_validate = nfc_device_alloc();
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mu_assert(
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nfc_device_load(nfc_validate, NFC_TEST_NFC_DEV_PATH, true),
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"nfc_device_load == true assert failed\r\n");
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// Check the UID, sak, ATQA and type
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mu_assert(memcmp(nfc_validate->dev_data.nfc_data.uid, uid, 7) == 0, "uid assert failed\r\n");
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mu_assert(nfc_validate->dev_data.nfc_data.sak == 0x08, "sak == 0x08 assert failed\r\n");
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mu_assert(
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nfc_validate->dev_data.nfc_data.atqa[0] == 0x00, "atqa[0] == 0x00 assert failed\r\n");
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mu_assert(
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nfc_validate->dev_data.nfc_data.atqa[1] == 0x04, "atqa[1] == 0x04 assert failed\r\n");
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mu_assert(
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nfc_validate->dev_data.nfc_data.type == FuriHalNfcTypeA,
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"type == FuriHalNfcTypeA assert failed\r\n");
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nfc_device_free(nfc_validate);
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}
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static void mf_classic_generator_test(uint8_t uid_len, MfClassicType type) {
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NfcDevice* nfc_dev = nfc_device_alloc();
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mu_assert(nfc_dev != NULL, "nfc_device_data != NULL assert failed\r\n");
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nfc_dev->format = NfcDeviceSaveFormatMifareClassic;
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// Create a test file
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nfc_generate_mf_classic(&nfc_dev->dev_data, uid_len, type);
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// Get the uid from generated MFC
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uint8_t uid[7] = {0};
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memcpy(uid, nfc_dev->dev_data.nfc_data.uid, uid_len);
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uint8_t sak = nfc_dev->dev_data.nfc_data.sak;
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uint8_t atqa[2] = {};
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memcpy(atqa, nfc_dev->dev_data.nfc_data.atqa, 2);
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MfClassicData* mf_data = &nfc_dev->dev_data.mf_classic_data;
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// Check the manufacturer block (should be uid[uid_len] + BCC (for 4byte only) + SAK + ATQA0 + ATQA1 + 0xFF[rest])
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uint8_t manufacturer_block[16] = {0};
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memcpy(manufacturer_block, nfc_dev->dev_data.mf_classic_data.block[0].value, 16);
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mu_assert(
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memcmp(manufacturer_block, uid, uid_len) == 0,
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"manufacturer_block uid doesn't match the file\r\n");
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uint8_t position = 0;
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if(uid_len == 4) {
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position = uid_len;
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uint8_t bcc = 0;
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for(int i = 0; i < uid_len; i++) {
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bcc ^= uid[i];
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}
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mu_assert(manufacturer_block[position] == bcc, "manufacturer_block bcc assert failed\r\n");
|
|
} else {
|
|
position = uid_len - 1;
|
|
}
|
|
|
|
mu_assert(manufacturer_block[position + 1] == sak, "manufacturer_block sak assert failed\r\n");
|
|
|
|
mu_assert(
|
|
manufacturer_block[position + 2] == atqa[0], "manufacturer_block atqa0 assert failed\r\n");
|
|
|
|
mu_assert(
|
|
manufacturer_block[position + 3] == atqa[1], "manufacturer_block atqa1 assert failed\r\n");
|
|
|
|
for(uint8_t i = position + 4; i < 16; i++) {
|
|
mu_assert(
|
|
manufacturer_block[i] == 0xFF, "manufacturer_block[i] == 0xFF assert failed\r\n");
|
|
}
|
|
|
|
// Reference sector trailers (should be 0xFF[6] + 0xFF + 0x07 + 0x80 + 0x69 + 0xFF[6])
|
|
uint8_t sector_trailer[16] = {
|
|
0xFF,
|
|
0xFF,
|
|
0xFF,
|
|
0xFF,
|
|
0xFF,
|
|
0xFF,
|
|
0xFF,
|
|
0x07,
|
|
0x80,
|
|
0x69,
|
|
0xFF,
|
|
0xFF,
|
|
0xFF,
|
|
0xFF,
|
|
0xFF,
|
|
0xFF};
|
|
// Reference block data
|
|
uint8_t block_data[16] = {};
|
|
memset(block_data, 0xff, sizeof(block_data));
|
|
uint16_t total_blocks = mf_classic_get_total_block_num(type);
|
|
for(size_t i = 1; i < total_blocks; i++) {
|
|
if(mf_classic_is_sector_trailer(i)) {
|
|
mu_assert(
|
|
memcmp(mf_data->block[i].value, sector_trailer, 16) == 0,
|
|
"Failed sector trailer compare");
|
|
} else {
|
|
mu_assert(memcmp(mf_data->block[i].value, block_data, 16) == 0, "Failed data compare");
|
|
}
|
|
}
|
|
// Save the NFC device data to the file
|
|
mu_assert(
|
|
nfc_device_save(nfc_dev, NFC_TEST_NFC_DEV_PATH),
|
|
"nfc_device_save == true assert failed\r\n");
|
|
// Verify that key cache is saved
|
|
FuriString* key_cache_name = furi_string_alloc();
|
|
furi_string_set_str(key_cache_name, "/ext/nfc/.cache/");
|
|
for(size_t i = 0; i < uid_len; i++) {
|
|
furi_string_cat_printf(key_cache_name, "%02X", uid[i]);
|
|
}
|
|
furi_string_cat_printf(key_cache_name, ".keys");
|
|
mu_assert(
|
|
storage_common_stat(nfc_dev->storage, furi_string_get_cstr(key_cache_name), NULL) ==
|
|
FSE_OK,
|
|
"Key cache file save failed");
|
|
nfc_device_free(nfc_dev);
|
|
|
|
// Load the NFC device data from the file
|
|
NfcDevice* nfc_validate = nfc_device_alloc();
|
|
mu_assert(nfc_validate, "Nfc device alloc assert");
|
|
mu_assert(
|
|
nfc_device_load(nfc_validate, NFC_TEST_NFC_DEV_PATH, false),
|
|
"nfc_device_load == true assert failed\r\n");
|
|
|
|
// Check the UID, sak, ATQA and type
|
|
mu_assert(
|
|
memcmp(nfc_validate->dev_data.nfc_data.uid, uid, uid_len) == 0,
|
|
"uid compare assert failed\r\n");
|
|
mu_assert(nfc_validate->dev_data.nfc_data.sak == sak, "sak compare assert failed\r\n");
|
|
mu_assert(
|
|
memcmp(nfc_validate->dev_data.nfc_data.atqa, atqa, 2) == 0,
|
|
"atqa compare assert failed\r\n");
|
|
mu_assert(
|
|
nfc_validate->dev_data.nfc_data.type == FuriHalNfcTypeA,
|
|
"type == FuriHalNfcTypeA assert failed\r\n");
|
|
|
|
// Check the manufacturer block
|
|
mu_assert(
|
|
memcmp(nfc_validate->dev_data.mf_classic_data.block[0].value, manufacturer_block, 16) == 0,
|
|
"manufacturer_block assert failed\r\n");
|
|
// Check other blocks
|
|
for(size_t i = 1; i < total_blocks; i++) {
|
|
if(mf_classic_is_sector_trailer(i)) {
|
|
mu_assert(
|
|
memcmp(mf_data->block[i].value, sector_trailer, 16) == 0,
|
|
"Failed sector trailer compare");
|
|
} else {
|
|
mu_assert(memcmp(mf_data->block[i].value, block_data, 16) == 0, "Failed data compare");
|
|
}
|
|
}
|
|
nfc_device_free(nfc_validate);
|
|
|
|
// Check saved key cache
|
|
NfcDevice* nfc_keys = nfc_device_alloc();
|
|
mu_assert(nfc_validate, "Nfc device alloc assert");
|
|
nfc_keys->dev_data.nfc_data.uid_len = uid_len;
|
|
memcpy(nfc_keys->dev_data.nfc_data.uid, uid, uid_len);
|
|
mu_assert(nfc_device_load_key_cache(nfc_keys), "Failed to load key cache");
|
|
uint8_t total_sec = mf_classic_get_total_sectors_num(type);
|
|
uint8_t default_key[6] = {};
|
|
memset(default_key, 0xff, 6);
|
|
for(size_t i = 0; i < total_sec; i++) {
|
|
MfClassicSectorTrailer* sec_tr =
|
|
mf_classic_get_sector_trailer_by_sector(&nfc_keys->dev_data.mf_classic_data, i);
|
|
mu_assert(memcmp(sec_tr->key_a, default_key, 6) == 0, "Failed key compare");
|
|
mu_assert(memcmp(sec_tr->key_b, default_key, 6) == 0, "Failed key compare");
|
|
}
|
|
|
|
// Delete key cache file
|
|
mu_assert(
|
|
storage_common_remove(nfc_keys->storage, furi_string_get_cstr(key_cache_name)) == FSE_OK,
|
|
"Failed to remove key cache file");
|
|
furi_string_free(key_cache_name);
|
|
nfc_device_free(nfc_keys);
|
|
}
|
|
|
|
MU_TEST(mf_mini_file_test) {
|
|
mf_classic_generator_test(4, MfClassicTypeMini);
|
|
}
|
|
|
|
MU_TEST(mf_classic_1k_4b_file_test) {
|
|
mf_classic_generator_test(4, MfClassicType1k);
|
|
}
|
|
|
|
MU_TEST(mf_classic_4k_4b_file_test) {
|
|
mf_classic_generator_test(4, MfClassicType4k);
|
|
}
|
|
|
|
MU_TEST(mf_classic_1k_7b_file_test) {
|
|
mf_classic_generator_test(7, MfClassicType1k);
|
|
}
|
|
|
|
MU_TEST(mf_classic_4k_7b_file_test) {
|
|
mf_classic_generator_test(7, MfClassicType4k);
|
|
}
|
|
|
|
MU_TEST_SUITE(nfc) {
|
|
nfc_test_alloc();
|
|
|
|
MU_RUN_TEST(nfca_file_test);
|
|
MU_RUN_TEST(mf_mini_file_test);
|
|
MU_RUN_TEST(mf_classic_1k_4b_file_test);
|
|
MU_RUN_TEST(mf_classic_4k_4b_file_test);
|
|
MU_RUN_TEST(mf_classic_1k_7b_file_test);
|
|
MU_RUN_TEST(mf_classic_4k_7b_file_test);
|
|
MU_RUN_TEST(nfc_digital_signal_test);
|
|
MU_RUN_TEST(mf_classic_dict_test);
|
|
MU_RUN_TEST(mf_classic_dict_load_test);
|
|
|
|
nfc_test_free();
|
|
}
|
|
|
|
int run_minunit_test_nfc() {
|
|
MU_RUN_SUITE(nfc);
|
|
return MU_EXIT_CODE;
|
|
}
|