mirror of
https://github.com/DarkFlippers/unleashed-firmware.git
synced 2024-12-13 18:38:32 +03:00
eafeefb843
* rfal: add new data exchange function * core: add FURI_BIT to common defines * furi_hal_nfc: add data exchange with custom patiry bits * lib: extend nfc common API * assets: add mf classic dictionary * lib: introduce mifare classic library * nfc: add dictionary reader helper * nfc worker: add worker events, add mifare classic read * nfc: rework scenes with worker events * nfc: add read mifare classic GUI * nfc device: add mifare classic save * nfc: add dictionary open fail scene * nfc: mention resources * stream: fix stream read line * subghz: rework file read with fixed stream_read_line * furi_hal_nfc: decrease communication timeout * nfc: rework keys load from dictionary with file_stream * nfc: add read mifare classic suggestion * nfc: fix mifare classic read view * nfc: fix index size * nfc: add switch to no dictionary found scene * nfc: add mifare classic load * nfc: improve read mifare classic design * mifare_classic: add proxmark3 mention * nfc: format sources * nfc: fix typos, add documentation
487 lines
14 KiB
C
Executable File
487 lines
14 KiB
C
Executable File
#include "furi_hal_nfc.h"
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#include <st25r3916.h>
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#include <rfal_rf.h>
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#include <furi.h>
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#include <m-string.h>
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#include <lib/nfc_protocols/nfca.h>
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#define TAG "FuriHalNfc"
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static const uint32_t clocks_in_ms = 64 * 1000;
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osEventFlagsId_t event = NULL;
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#define EVENT_FLAG_INTERRUPT (1UL << 0)
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#define EVENT_FLAG_STATE_CHANGED (1UL << 1)
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#define EVENT_FLAG_STOP (1UL << 2)
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#define EVENT_FLAG_ALL (EVENT_FLAG_INTERRUPT | EVENT_FLAG_STATE_CHANGED | EVENT_FLAG_STOP)
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void furi_hal_nfc_init() {
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ReturnCode ret = rfalNfcInitialize();
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if(ret == ERR_NONE) {
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furi_hal_nfc_start_sleep();
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event = osEventFlagsNew(NULL);
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FURI_LOG_I(TAG, "Init OK");
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} else {
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FURI_LOG_W(TAG, "Initialization failed, RFAL returned: %d", ret);
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}
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}
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bool furi_hal_nfc_is_busy() {
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return rfalNfcGetState() != RFAL_NFC_STATE_IDLE;
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}
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void furi_hal_nfc_field_on() {
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furi_hal_nfc_exit_sleep();
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st25r3916TxRxOn();
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}
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void furi_hal_nfc_field_off() {
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st25r3916TxRxOff();
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furi_hal_nfc_start_sleep();
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}
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void furi_hal_nfc_start_sleep() {
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rfalLowPowerModeStart();
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}
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void furi_hal_nfc_exit_sleep() {
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rfalLowPowerModeStop();
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}
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bool furi_hal_nfc_detect(
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rfalNfcDevice** dev_list,
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uint8_t* dev_cnt,
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uint32_t timeout,
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bool deactivate) {
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furi_assert(dev_list);
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furi_assert(dev_cnt);
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rfalLowPowerModeStop();
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rfalNfcState state = rfalNfcGetState();
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if(state == RFAL_NFC_STATE_NOTINIT) {
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rfalNfcInitialize();
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}
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rfalNfcDiscoverParam params;
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params.compMode = RFAL_COMPLIANCE_MODE_EMV;
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params.techs2Find = RFAL_NFC_POLL_TECH_A | RFAL_NFC_POLL_TECH_B | RFAL_NFC_POLL_TECH_F |
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RFAL_NFC_POLL_TECH_V | RFAL_NFC_POLL_TECH_AP2P | RFAL_NFC_POLL_TECH_ST25TB;
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params.totalDuration = 1000;
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params.devLimit = 3;
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params.wakeupEnabled = false;
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params.wakeupConfigDefault = true;
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params.nfcfBR = RFAL_BR_212;
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params.ap2pBR = RFAL_BR_424;
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params.maxBR = RFAL_BR_KEEP;
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params.GBLen = RFAL_NFCDEP_GB_MAX_LEN;
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params.notifyCb = NULL;
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uint32_t start = DWT->CYCCNT;
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rfalNfcDiscover(¶ms);
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while(state != RFAL_NFC_STATE_ACTIVATED) {
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rfalNfcWorker();
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state = rfalNfcGetState();
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FURI_LOG_T(TAG, "Current state %d", state);
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if(state == RFAL_NFC_STATE_POLL_ACTIVATION) {
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start = DWT->CYCCNT;
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continue;
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}
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if(state == RFAL_NFC_STATE_POLL_SELECT) {
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rfalNfcSelect(0);
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}
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if(DWT->CYCCNT - start > timeout * clocks_in_ms) {
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rfalNfcDeactivate(true);
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FURI_LOG_T(TAG, "Timeout");
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return false;
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}
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osThreadYield();
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}
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rfalNfcGetDevicesFound(dev_list, dev_cnt);
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if(deactivate) {
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rfalNfcDeactivate(false);
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rfalLowPowerModeStart();
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}
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return true;
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}
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bool furi_hal_nfc_activate_nfca(uint32_t timeout, uint32_t* cuid) {
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rfalNfcDevice* dev_list;
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uint8_t dev_cnt = 0;
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rfalLowPowerModeStop();
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rfalNfcState state = rfalNfcGetState();
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if(state == RFAL_NFC_STATE_NOTINIT) {
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rfalNfcInitialize();
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}
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rfalNfcDiscoverParam params = {
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.compMode = RFAL_COMPLIANCE_MODE_NFC,
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.techs2Find = RFAL_NFC_POLL_TECH_A,
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.totalDuration = 1000,
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.devLimit = 3,
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.wakeupEnabled = false,
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.wakeupConfigDefault = true,
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.nfcfBR = RFAL_BR_212,
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.ap2pBR = RFAL_BR_424,
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.maxBR = RFAL_BR_KEEP,
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.GBLen = RFAL_NFCDEP_GB_MAX_LEN,
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.notifyCb = NULL,
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};
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uint32_t start = DWT->CYCCNT;
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rfalNfcDiscover(¶ms);
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while(state != RFAL_NFC_STATE_ACTIVATED) {
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rfalNfcWorker();
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state = rfalNfcGetState();
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FURI_LOG_T(TAG, "Current state %d", state);
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if(state == RFAL_NFC_STATE_POLL_ACTIVATION) {
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start = DWT->CYCCNT;
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continue;
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}
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if(state == RFAL_NFC_STATE_POLL_SELECT) {
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rfalNfcSelect(0);
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}
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if(DWT->CYCCNT - start > timeout * clocks_in_ms) {
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rfalNfcDeactivate(true);
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FURI_LOG_T(TAG, "Timeout");
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return false;
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}
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osThreadYield();
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}
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rfalNfcGetDevicesFound(&dev_list, &dev_cnt);
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// Take first device and set cuid
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if(cuid) {
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uint8_t* cuid_start = dev_list[0].nfcid;
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if(dev_list[0].nfcidLen == 7) {
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cuid_start = &dev_list[0].nfcid[3];
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}
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*cuid = (cuid_start[0] << 24) | (cuid_start[1] << 16) | (cuid_start[2] << 8) |
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(cuid_start[3]);
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FURI_LOG_T(TAG, "Activated tag with cuid: %lX", *cuid);
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}
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return true;
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}
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bool furi_hal_nfc_listen(
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uint8_t* uid,
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uint8_t uid_len,
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uint8_t* atqa,
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uint8_t sak,
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bool activate_after_sak,
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uint32_t timeout) {
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rfalNfcState state = rfalNfcGetState();
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if(state == RFAL_NFC_STATE_NOTINIT) {
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rfalNfcInitialize();
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} else if(state >= RFAL_NFC_STATE_ACTIVATED) {
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rfalNfcDeactivate(false);
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}
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rfalLowPowerModeStop();
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rfalNfcDiscoverParam params = {
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.compMode = RFAL_COMPLIANCE_MODE_NFC,
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.techs2Find = RFAL_NFC_LISTEN_TECH_A,
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.totalDuration = 1000,
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.devLimit = 1,
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.wakeupEnabled = false,
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.wakeupConfigDefault = true,
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.nfcfBR = RFAL_BR_212,
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.ap2pBR = RFAL_BR_424,
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.maxBR = RFAL_BR_KEEP,
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.GBLen = RFAL_NFCDEP_GB_MAX_LEN,
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.notifyCb = NULL,
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.activate_after_sak = activate_after_sak,
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};
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params.lmConfigPA.nfcidLen = uid_len;
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memcpy(params.lmConfigPA.nfcid, uid, uid_len);
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params.lmConfigPA.SENS_RES[0] = atqa[0];
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params.lmConfigPA.SENS_RES[1] = atqa[1];
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params.lmConfigPA.SEL_RES = sak;
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rfalNfcDiscover(¶ms);
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uint32_t start = DWT->CYCCNT;
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while(state != RFAL_NFC_STATE_ACTIVATED) {
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rfalNfcWorker();
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state = rfalNfcGetState();
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if(DWT->CYCCNT - start > timeout * clocks_in_ms) {
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rfalNfcDeactivate(true);
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return false;
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}
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osThreadYield();
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}
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return true;
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}
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void rfal_interrupt_callback_handler() {
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osEventFlagsSet(event, EVENT_FLAG_INTERRUPT);
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}
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void rfal_state_changed_callback(void* context) {
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osEventFlagsSet(event, EVENT_FLAG_STATE_CHANGED);
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}
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void furi_hal_nfc_stop() {
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if(event) {
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osEventFlagsSet(event, EVENT_FLAG_STOP);
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}
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}
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bool furi_hal_nfc_emulate_nfca(
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uint8_t* uid,
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uint8_t uid_len,
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uint8_t* atqa,
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uint8_t sak,
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FuriHalNfcEmulateCallback callback,
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void* context,
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uint32_t timeout) {
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rfalSetUpperLayerCallback(rfal_interrupt_callback_handler);
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rfal_set_state_changed_callback(rfal_state_changed_callback);
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rfalLmConfPA config;
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config.nfcidLen = uid_len;
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memcpy(config.nfcid, uid, uid_len);
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memcpy(config.SENS_RES, atqa, RFAL_LM_SENS_RES_LEN);
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config.SEL_RES = sak;
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uint8_t buff_rx[256];
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uint16_t buff_rx_size = 256;
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uint16_t buff_rx_len = 0;
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uint8_t buff_tx[256];
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uint16_t buff_tx_len = 0;
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uint32_t data_type = FURI_HAL_NFC_TXRX_DEFAULT;
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rfalLowPowerModeStop();
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if(rfalListenStart(
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RFAL_LM_MASK_NFCA,
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&config,
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NULL,
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NULL,
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buff_rx,
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rfalConvBytesToBits(buff_rx_size),
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&buff_rx_len)) {
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rfalListenStop();
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FURI_LOG_E(TAG, "Failed to start listen mode");
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return false;
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}
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while(true) {
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buff_rx_len = 0;
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buff_tx_len = 0;
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uint32_t flag = osEventFlagsWait(event, EVENT_FLAG_ALL, osFlagsWaitAny, timeout);
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if(flag == osErrorTimeout || flag == EVENT_FLAG_STOP) {
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break;
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}
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bool data_received = false;
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buff_rx_len = 0;
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rfalWorker();
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rfalLmState state = rfalListenGetState(&data_received, NULL);
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if(data_received) {
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rfalTransceiveBlockingRx();
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if(nfca_emulation_handler(buff_rx, buff_rx_len, buff_tx, &buff_tx_len)) {
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if(rfalListenSleepStart(
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RFAL_LM_STATE_SLEEP_A,
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buff_rx,
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rfalConvBytesToBits(buff_rx_size),
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&buff_rx_len)) {
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FURI_LOG_E(TAG, "Failed to enter sleep mode");
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break;
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} else {
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continue;
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}
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}
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if(buff_tx_len) {
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ReturnCode ret = rfalTransceiveBitsBlockingTx(
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buff_tx,
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buff_tx_len,
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buff_rx,
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sizeof(buff_rx),
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&buff_rx_len,
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data_type,
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RFAL_FWT_NONE);
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if(ret) {
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FURI_LOG_E(TAG, "Tranceive failed with status %d", ret);
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break;
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}
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continue;
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}
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if((state == RFAL_LM_STATE_ACTIVE_A || state == RFAL_LM_STATE_ACTIVE_Ax)) {
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if(callback) {
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callback(buff_rx, buff_rx_len, buff_tx, &buff_tx_len, &data_type, context);
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}
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if(!rfalIsExtFieldOn()) {
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break;
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}
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if(buff_tx_len) {
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ReturnCode ret = rfalTransceiveBitsBlockingTx(
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buff_tx,
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buff_tx_len,
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buff_rx,
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sizeof(buff_rx),
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&buff_rx_len,
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data_type,
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RFAL_FWT_NONE);
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if(ret) {
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FURI_LOG_E(TAG, "Tranceive failed with status %d", ret);
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continue;
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}
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} else {
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break;
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}
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}
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}
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}
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rfalListenStop();
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return true;
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}
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bool furi_hal_nfc_get_first_frame(uint8_t** rx_buff, uint16_t** rx_len) {
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ReturnCode ret =
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rfalNfcDataExchangeStart(NULL, 0, rx_buff, rx_len, 0, RFAL_TXRX_FLAGS_DEFAULT);
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return ret == ERR_NONE;
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}
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ReturnCode furi_hal_nfc_data_exchange(
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uint8_t* tx_buff,
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uint16_t tx_len,
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uint8_t** rx_buff,
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uint16_t** rx_len,
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bool deactivate) {
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furi_assert(rx_buff);
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furi_assert(rx_len);
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ReturnCode ret;
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rfalNfcState state = RFAL_NFC_STATE_ACTIVATED;
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ret = rfalNfcDataExchangeStart(tx_buff, tx_len, rx_buff, rx_len, 0, RFAL_TXRX_FLAGS_DEFAULT);
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if(ret != ERR_NONE) {
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return ret;
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}
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uint32_t start = DWT->CYCCNT;
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while(state != RFAL_NFC_STATE_DATAEXCHANGE_DONE) {
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rfalNfcWorker();
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state = rfalNfcGetState();
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ret = rfalNfcDataExchangeGetStatus();
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if(ret == ERR_BUSY) {
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if(DWT->CYCCNT - start > 1000 * clocks_in_ms) {
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ret = ERR_TIMEOUT;
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break;
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}
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continue;
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} else {
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start = DWT->CYCCNT;
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}
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taskYIELD();
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}
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if(deactivate) {
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rfalNfcDeactivate(false);
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rfalLowPowerModeStart();
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}
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return ret;
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}
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static uint16_t furi_hal_nfc_data_and_parity_to_bitstream(
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uint8_t* data,
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uint16_t len,
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uint8_t* parity,
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uint8_t* out) {
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furi_assert(data);
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furi_assert(out);
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uint8_t next_par_bit = 0;
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uint16_t curr_bit_pos = 0;
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for(uint16_t i = 0; i < len; i++) {
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next_par_bit = FURI_BIT(parity[i / 8], 7 - (i % 8));
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if(curr_bit_pos % 8 == 0) {
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out[curr_bit_pos / 8] = data[i];
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curr_bit_pos += 8;
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out[curr_bit_pos / 8] = next_par_bit;
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curr_bit_pos++;
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} else {
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out[curr_bit_pos / 8] |= data[i] << curr_bit_pos % 8;
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out[curr_bit_pos / 8 + 1] = data[i] >> (8 - curr_bit_pos % 8);
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out[curr_bit_pos / 8 + 1] |= next_par_bit << curr_bit_pos % 8;
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curr_bit_pos += 9;
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}
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}
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return curr_bit_pos;
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}
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uint16_t furi_hal_nfc_bitstream_to_data_and_parity(
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uint8_t* in_buff,
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uint16_t in_buff_bits,
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uint8_t* out_data,
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uint8_t* out_parity) {
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if(in_buff_bits % 9 != 0) {
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return 0;
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}
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uint8_t curr_byte = 0;
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uint16_t bit_processed = 0;
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memset(out_parity, 0, in_buff_bits / 9);
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while(bit_processed < in_buff_bits) {
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out_data[curr_byte] = in_buff[bit_processed / 8] >> bit_processed % 8;
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out_data[curr_byte] |= in_buff[bit_processed / 8 + 1] << (8 - bit_processed % 8);
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out_parity[curr_byte / 8] |= FURI_BIT(in_buff[bit_processed / 8 + 1], bit_processed % 8)
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<< (7 - curr_byte % 8);
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bit_processed += 9;
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curr_byte++;
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}
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return curr_byte;
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}
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bool furi_hal_nfc_tx_rx(FuriHalNfcTxRxContext* tx_rx_ctx) {
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furi_assert(tx_rx_ctx);
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ReturnCode ret;
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rfalNfcState state = RFAL_NFC_STATE_ACTIVATED;
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uint8_t temp_tx_buff[FURI_HAL_NFC_DATA_BUFF_SIZE] = {};
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uint16_t temp_tx_bits = 0;
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uint8_t* temp_rx_buff = NULL;
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uint16_t* temp_rx_bits = NULL;
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// Prepare data for FIFO if necessary
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if(tx_rx_ctx->tx_rx_type == FURI_HAL_NFC_TXRX_RAW) {
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temp_tx_bits = furi_hal_nfc_data_and_parity_to_bitstream(
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tx_rx_ctx->tx_data, tx_rx_ctx->tx_bits / 8, tx_rx_ctx->tx_parity, temp_tx_buff);
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ret = rfalNfcDataExchangeCustomStart(
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temp_tx_buff,
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temp_tx_bits,
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&temp_rx_buff,
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&temp_rx_bits,
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RFAL_FWT_NONE,
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tx_rx_ctx->tx_rx_type);
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} else {
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ret = rfalNfcDataExchangeCustomStart(
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tx_rx_ctx->tx_data,
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tx_rx_ctx->tx_bits,
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&temp_rx_buff,
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&temp_rx_bits,
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RFAL_FWT_NONE,
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tx_rx_ctx->tx_rx_type);
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}
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if(ret != ERR_NONE) {
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return false;
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}
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uint32_t start = DWT->CYCCNT;
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|
while(state != RFAL_NFC_STATE_DATAEXCHANGE_DONE) {
|
|
rfalNfcWorker();
|
|
state = rfalNfcGetState();
|
|
ret = rfalNfcDataExchangeGetStatus();
|
|
if(ret == ERR_BUSY) {
|
|
if(DWT->CYCCNT - start > 4 * clocks_in_ms) {
|
|
return false;
|
|
}
|
|
continue;
|
|
} else {
|
|
start = DWT->CYCCNT;
|
|
}
|
|
taskYIELD();
|
|
}
|
|
|
|
if(tx_rx_ctx->tx_rx_type == FURI_HAL_NFC_TXRX_RAW) {
|
|
tx_rx_ctx->rx_bits =
|
|
8 * furi_hal_nfc_bitstream_to_data_and_parity(
|
|
temp_rx_buff, *temp_rx_bits, tx_rx_ctx->rx_data, tx_rx_ctx->rx_parity);
|
|
} else {
|
|
memcpy(tx_rx_ctx->rx_data, temp_rx_buff, *temp_rx_bits / 8);
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
void furi_hal_nfc_deactivate() {
|
|
rfalNfcDeactivate(false);
|
|
rfalLowPowerModeStart();
|
|
}
|