unleashed-firmware/lib/nfc/helpers/reader_analyzer.c

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#include "reader_analyzer.h"
#include <lib/nfc/protocols/nfc_util.h>
#include <lib/nfc/protocols/mifare_classic.h>
#include <m-array.h>
#include "mfkey32.h"
#include "nfc_debug_pcap.h"
#include "nfc_debug_log.h"
#define TAG "ReaderAnalyzer"
#define READER_ANALYZER_MAX_BUFF_SIZE (1024)
typedef struct {
bool reader_to_tag;
bool crc_dropped;
uint16_t len;
} ReaderAnalyzerHeader;
typedef enum {
ReaderAnalyzerNfcDataMfClassic,
} ReaderAnalyzerNfcData;
struct ReaderAnalyzer {
FuriHalNfcDevData nfc_data;
bool alive;
FuriStreamBuffer* stream;
FuriThread* thread;
ReaderAnalyzerParseDataCallback callback;
void* context;
ReaderAnalyzerMode mode;
Mfkey32* mfkey32;
NfcDebugLog* debug_log;
NfcDebugPcap* pcap;
};
const FuriHalNfcDevData reader_analyzer_nfc_data[] = {
[ReaderAnalyzerNfcDataMfClassic] =
{.sak = 0x08,
.atqa = {0x44, 0x00},
.interface = FuriHalNfcInterfaceRf,
.type = FuriHalNfcTypeA,
.uid_len = 7,
.uid = {0x04, 0x77, 0x70, 0x2A, 0x23, 0x4F, 0x80},
.cuid = 0x2A234F80},
};
void reader_analyzer_parse(ReaderAnalyzer* instance, uint8_t* buffer, size_t size) {
if(size < sizeof(ReaderAnalyzerHeader)) return;
size_t bytes_i = 0;
while(bytes_i < size) {
ReaderAnalyzerHeader* header = (ReaderAnalyzerHeader*)&buffer[bytes_i];
uint16_t len = header->len;
if(bytes_i + len > size) break;
bytes_i += sizeof(ReaderAnalyzerHeader);
if(instance->mfkey32) {
mfkey32_process_data(
instance->mfkey32,
&buffer[bytes_i],
len,
header->reader_to_tag,
header->crc_dropped);
}
if(instance->pcap) {
nfc_debug_pcap_process_data(
instance->pcap, &buffer[bytes_i], len, header->reader_to_tag, header->crc_dropped);
}
if(instance->debug_log) {
nfc_debug_log_process_data(
instance->debug_log,
&buffer[bytes_i],
len,
header->reader_to_tag,
header->crc_dropped);
}
bytes_i += len;
}
}
int32_t reader_analyzer_thread(void* context) {
ReaderAnalyzer* reader_analyzer = context;
uint8_t buffer[READER_ANALYZER_MAX_BUFF_SIZE] = {};
while(reader_analyzer->alive || !furi_stream_buffer_is_empty(reader_analyzer->stream)) {
size_t ret = furi_stream_buffer_receive(
reader_analyzer->stream, buffer, READER_ANALYZER_MAX_BUFF_SIZE, 50);
if(ret) {
reader_analyzer_parse(reader_analyzer, buffer, ret);
}
}
return 0;
}
ReaderAnalyzer* reader_analyzer_alloc() {
ReaderAnalyzer* instance = malloc(sizeof(ReaderAnalyzer));
instance->nfc_data = reader_analyzer_nfc_data[ReaderAnalyzerNfcDataMfClassic];
instance->alive = false;
instance->stream =
furi_stream_buffer_alloc(READER_ANALYZER_MAX_BUFF_SIZE, sizeof(ReaderAnalyzerHeader));
instance->thread =
furi_thread_alloc_ex("ReaderAnalyzerWorker", 2048, reader_analyzer_thread, instance);
furi_thread_set_priority(instance->thread, FuriThreadPriorityLow);
return instance;
}
static void reader_analyzer_mfkey_callback(Mfkey32Event event, void* context) {
furi_assert(context);
ReaderAnalyzer* instance = context;
if(event == Mfkey32EventParamCollected) {
if(instance->callback) {
instance->callback(ReaderAnalyzerEventMfkeyCollected, instance->context);
}
}
}
void reader_analyzer_start(ReaderAnalyzer* instance, ReaderAnalyzerMode mode) {
furi_assert(instance);
furi_stream_buffer_reset(instance->stream);
if(mode & ReaderAnalyzerModeDebugLog) {
instance->debug_log = nfc_debug_log_alloc();
}
if(mode & ReaderAnalyzerModeMfkey) {
instance->mfkey32 = mfkey32_alloc(instance->nfc_data.cuid);
if(instance->mfkey32) {
mfkey32_set_callback(instance->mfkey32, reader_analyzer_mfkey_callback, instance);
}
}
if(mode & ReaderAnalyzerModeDebugPcap) {
instance->pcap = nfc_debug_pcap_alloc();
}
instance->alive = true;
furi_thread_start(instance->thread);
}
void reader_analyzer_stop(ReaderAnalyzer* instance) {
furi_assert(instance);
instance->alive = false;
furi_thread_join(instance->thread);
if(instance->debug_log) {
nfc_debug_log_free(instance->debug_log);
instance->debug_log = NULL;
}
if(instance->mfkey32) {
mfkey32_free(instance->mfkey32);
instance->mfkey32 = NULL;
}
if(instance->pcap) {
nfc_debug_pcap_free(instance->pcap);
instance->pcap = NULL;
}
}
void reader_analyzer_free(ReaderAnalyzer* instance) {
furi_assert(instance);
reader_analyzer_stop(instance);
furi_thread_free(instance->thread);
furi_stream_buffer_free(instance->stream);
free(instance);
}
void reader_analyzer_set_callback(
ReaderAnalyzer* instance,
ReaderAnalyzerParseDataCallback callback,
void* context) {
furi_assert(instance);
furi_assert(callback);
instance->callback = callback;
instance->context = context;
}
NfcProtocol
reader_analyzer_guess_protocol(ReaderAnalyzer* instance, uint8_t* buff_rx, uint16_t len) {
furi_assert(instance);
furi_assert(buff_rx);
UNUSED(len);
NfcProtocol protocol = NfcDeviceProtocolUnknown;
if((buff_rx[0] == 0x60) || (buff_rx[0] == 0x61)) {
protocol = NfcDeviceProtocolMifareClassic;
}
return protocol;
}
FuriHalNfcDevData* reader_analyzer_get_nfc_data(ReaderAnalyzer* instance) {
furi_assert(instance);
instance->nfc_data = reader_analyzer_nfc_data[ReaderAnalyzerNfcDataMfClassic];
return &instance->nfc_data;
}
void reader_analyzer_set_nfc_data(ReaderAnalyzer* instance, FuriHalNfcDevData* nfc_data) {
furi_assert(instance);
furi_assert(nfc_data);
memcpy(&instance->nfc_data, nfc_data, sizeof(FuriHalNfcDevData));
}
static void reader_analyzer_write(
ReaderAnalyzer* instance,
uint8_t* data,
uint16_t len,
bool reader_to_tag,
bool crc_dropped) {
ReaderAnalyzerHeader header = {
.reader_to_tag = reader_to_tag, .crc_dropped = crc_dropped, .len = len};
size_t data_sent = 0;
data_sent = furi_stream_buffer_send(
instance->stream, &header, sizeof(ReaderAnalyzerHeader), FuriWaitForever);
if(data_sent != sizeof(ReaderAnalyzerHeader)) {
FURI_LOG_W(TAG, "Sent %zu out of %zu bytes", data_sent, sizeof(ReaderAnalyzerHeader));
}
data_sent = furi_stream_buffer_send(instance->stream, data, len, FuriWaitForever);
if(data_sent != len) {
FURI_LOG_W(TAG, "Sent %zu out of %u bytes", data_sent, len);
}
}
static void
reader_analyzer_write_rx(uint8_t* data, uint16_t bits, bool crc_dropped, void* context) {
UNUSED(crc_dropped);
ReaderAnalyzer* reader_analyzer = context;
uint16_t bytes = bits < 8 ? 1 : bits / 8;
reader_analyzer_write(reader_analyzer, data, bytes, false, crc_dropped);
}
static void
reader_analyzer_write_tx(uint8_t* data, uint16_t bits, bool crc_dropped, void* context) {
UNUSED(crc_dropped);
ReaderAnalyzer* reader_analyzer = context;
uint16_t bytes = bits < 8 ? 1 : bits / 8;
reader_analyzer_write(reader_analyzer, data, bytes, true, crc_dropped);
}
void reader_analyzer_prepare_tx_rx(
ReaderAnalyzer* instance,
FuriHalNfcTxRxContext* tx_rx,
bool is_picc) {
furi_assert(instance);
furi_assert(tx_rx);
if(is_picc) {
tx_rx->sniff_tx = reader_analyzer_write_rx;
tx_rx->sniff_rx = reader_analyzer_write_tx;
} else {
tx_rx->sniff_rx = reader_analyzer_write_rx;
tx_rx->sniff_tx = reader_analyzer_write_tx;
}
tx_rx->sniff_context = instance;
}