X-Git-Url: https://git.zerfleddert.de/cgi-bin/gitweb.cgi/proxmark3-svn/blobdiff_plain/467340996e7af6563070df2c96c374e6a97b1456..84f9cf06261d20d81fd4c0f2aa7d4d384df751b4:/armsrc/iso14443b.c diff --git a/armsrc/iso14443b.c b/armsrc/iso14443b.c index 1ae1692b..0b9962e1 100644 --- a/armsrc/iso14443b.c +++ b/armsrc/iso14443b.c @@ -13,10 +13,14 @@ #include "apps.h" #include "util.h" #include "string.h" - #include "iso14443crc.h" +#include "common.h" +#define RECEIVE_SAMPLES_TIMEOUT 600000 +#define ISO14443B_DMA_BUFFER_SIZE 256 + -#define RECEIVE_SAMPLES_TIMEOUT 2000 +// PCB Block number for APDUs +static uint8_t pcb_blocknum = 0; //============================================================================= // An ISO 14443 Type B tag. We listen for commands from the reader, using @@ -239,7 +243,7 @@ static RAMFUNC int Handle14443bUartBit(uint8_t bit) LED_A_OFF(); // Finished receiving Uart.state = STATE_UNSYNCD; if (Uart.byteCnt != 0) { - return TRUE; + return TRUE; } } else { // this is an error @@ -265,6 +269,8 @@ static void UartReset() Uart.state = STATE_UNSYNCD; Uart.byteCnt = 0; Uart.bitCnt = 0; + Uart.posCnt = 0; + memset(Uart.output, 0x00, MAX_FRAME_SIZE); } @@ -320,10 +326,14 @@ static int GetIso14443bCommandFromReader(uint8_t *received, uint16_t *len) //----------------------------------------------------------------------------- void SimulateIso14443bTag(void) { - // the only commands we understand is REQB, AFI=0, Select All, N=0: - static const uint8_t cmd1[] = { 0x05, 0x00, 0x08, 0x39, 0x73 }; - // ... and REQB, AFI=0, Normal Request, N=0: - static const uint8_t cmd2[] = { 0x05, 0x00, 0x00, 0x71, 0xFF }; + // the only commands we understand is WUPB, AFI=0, Select All, N=1: + static const uint8_t cmd1[] = { 0x05, 0x00, 0x08, 0x39, 0x73 }; // WUPB + // ... and REQB, AFI=0, Normal Request, N=1: + static const uint8_t cmd2[] = { 0x05, 0x00, 0x00, 0x71, 0xFF }; // REQB + // ... and HLTB + static const uint8_t cmd3[] = { 0x50, 0xff, 0xff, 0xff, 0xff }; // HLTB + // ... and ATTRIB + static const uint8_t cmd4[] = { 0x1D, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; // ATTRIB // ... and we always respond with ATQB, PUPI = 820de174, Application Data = 0x20381922, // supports only 106kBit/s in both directions, max frame size = 32Bytes, @@ -332,6 +342,12 @@ void SimulateIso14443bTag(void) 0x50, 0x82, 0x0d, 0xe1, 0x74, 0x20, 0x38, 0x19, 0x22, 0x00, 0x21, 0x85, 0x5e, 0xd7 }; + // response to HLTB and ATTRIB + static const uint8_t response2[] = {0x00, 0x78, 0xF0}; + + uint8_t parity[MAX_PARITY_SIZE]; + + FpgaDownloadAndGo(FPGA_BITSTREAM_HF); clear_trace(); set_tracing(TRUE); @@ -347,14 +363,18 @@ void SimulateIso14443bTag(void) uint16_t len; uint16_t cmdsRecvd = 0; - FpgaDownloadAndGo(FPGA_BITSTREAM_HF); - // prepare the (only one) tag answer: CodeIso14443bAsTag(response1, sizeof(response1)); uint8_t *resp1Code = BigBuf_malloc(ToSendMax); memcpy(resp1Code, ToSend, ToSendMax); uint16_t resp1CodeLen = ToSendMax; + // prepare the (other) tag answer: + CodeIso14443bAsTag(response2, sizeof(response2)); + uint8_t *resp2Code = BigBuf_malloc(ToSendMax); + memcpy(resp2Code, ToSend, ToSendMax); + uint16_t resp2CodeLen = ToSendMax; + // We need to listen to the high-frequency, peak-detected path. SetAdcMuxFor(GPIO_MUXSEL_HIPKD); FpgaSetupSsc(); @@ -364,12 +384,11 @@ void SimulateIso14443bTag(void) for(;;) { if(!GetIso14443bCommandFromReader(receivedCmd, &len)) { - Dbprintf("button pressed, received %d commands", cmdsRecvd); - break; + Dbprintf("button pressed, received %d commands", cmdsRecvd); + break; } if (tracing) { - uint8_t parity[MAX_PARITY_SIZE]; LogTrace(receivedCmd, len, 0, 0, parity, TRUE); } @@ -380,18 +399,33 @@ void SimulateIso14443bTag(void) respLen = sizeof(response1); respCode = resp1Code; respCodeLen = resp1CodeLen; + } else if ( (len == sizeof(cmd3) && receivedCmd[0] == cmd3[0]) + || (len == sizeof(cmd4) && receivedCmd[0] == cmd4[0]) ) { + resp = response2; + respLen = sizeof(response2); + respCode = resp2Code; + respCodeLen = resp2CodeLen; } else { Dbprintf("new cmd from reader: len=%d, cmdsRecvd=%d", len, cmdsRecvd); // And print whether the CRC fails, just for good measure uint8_t b1, b2; + if (len >= 3){ // if crc exists ComputeCrc14443(CRC_14443_B, receivedCmd, len-2, &b1, &b2); if(b1 != receivedCmd[len-2] || b2 != receivedCmd[len-1]) { // Not so good, try again. DbpString("+++CRC fail"); + } else { DbpString("CRC passes"); } - break; + } + //get rid of compiler warning + respCodeLen = 0; + resp = response1; + respLen = 0; + respCode = resp1Code; + //don't crash at new command just wait and see if reader will send other new cmds. + //break; } cmdsRecvd++; @@ -410,32 +444,42 @@ void SimulateIso14443bTag(void) AT91C_BASE_SSC->SSC_THR = 0xff; FpgaSetupSsc(); + uint8_t c; + // clear receiving shift register and holding register + while(!(AT91C_BASE_SSC->SSC_SR & AT91C_SSC_RXRDY)); + c = AT91C_BASE_SSC->SSC_RHR; (void) c; + while(!(AT91C_BASE_SSC->SSC_SR & AT91C_SSC_RXRDY)); + c = AT91C_BASE_SSC->SSC_RHR; (void) c; + + // Clear TXRDY: + AT91C_BASE_SSC->SSC_THR = 0x00; + // Transmit the response. + uint16_t FpgaSendQueueDelay = 0; uint16_t i = 0; - for(;;) { + for(;i < respCodeLen; ) { if(AT91C_BASE_SSC->SSC_SR & (AT91C_SSC_TXRDY)) { - uint8_t b = respCode[i]; - - AT91C_BASE_SSC->SSC_THR = b; - - i++; - if(i > respCodeLen) { - break; - } + AT91C_BASE_SSC->SSC_THR = respCode[i++]; + FpgaSendQueueDelay = (uint8_t)AT91C_BASE_SSC->SSC_RHR; } - if(AT91C_BASE_SSC->SSC_SR & (AT91C_SSC_RXRDY)) { - volatile uint8_t b = (uint8_t)AT91C_BASE_SSC->SSC_RHR; - (void)b; + if(BUTTON_PRESS()) break; + } + + // Ensure that the FPGA Delay Queue is empty before we switch to TAGSIM_LISTEN again: + uint8_t fpga_queued_bits = FpgaSendQueueDelay >> 3; + for (i = 0; i <= fpga_queued_bits/8 + 1; ) { + if(AT91C_BASE_SSC->SSC_SR & (AT91C_SSC_TXRDY)) { + AT91C_BASE_SSC->SSC_THR = 0x00; + FpgaSendQueueDelay = (uint8_t)AT91C_BASE_SSC->SSC_RHR; + i++; } } // trace the response: - if (tracing) { - uint8_t parity[MAX_PARITY_SIZE]; - LogTrace(resp, respLen, 0, 0, parity, FALSE); - } - + if (tracing) LogTrace(resp, respLen, 0, 0, parity, FALSE); } + FpgaDisableSscDma(); + set_tracing(FALSE); } //============================================================================= @@ -482,9 +526,14 @@ static struct { * false if we are still waiting for some more * */ + #define abs(x) ( ((x)<0) ? -(x) : (x) ) static RAMFUNC int Handle14443bSamplesDemod(int ci, int cq) { - int v; + int v = 0; + int ai = abs(ci); + int aq = abs(cq); + int halfci = (ai >> 1); + int halfcq = (aq >> 1); // The soft decision on the bit uses an estimate of just the // quadrant of the reference angle, not the exact angle. @@ -503,50 +552,12 @@ static RAMFUNC int Handle14443bSamplesDemod(int ci, int cq) #define SUBCARRIER_DETECT_THRESHOLD 8 -// Subcarrier amplitude v = sqrt(ci^2 + cq^2), approximated here by abs(ci) + abs(cq) -/* #define CHECK_FOR_SUBCARRIER() { \ - v = ci; \ - if(v < 0) v = -v; \ - if(cq > 0) { \ - v += cq; \ - } else { \ - v -= cq; \ - } \ - } - */ // Subcarrier amplitude v = sqrt(ci^2 + cq^2), approximated here by max(abs(ci),abs(cq)) + 1/2*min(abs(ci),abs(cq))) #define CHECK_FOR_SUBCARRIER() { \ - if(ci < 0) { \ - if(cq < 0) { /* ci < 0, cq < 0 */ \ - if (cq < ci) { \ - v = -cq - (ci >> 1); \ - } else { \ - v = -ci - (cq >> 1); \ - } \ - } else { /* ci < 0, cq >= 0 */ \ - if (cq < -ci) { \ - v = -ci + (cq >> 1); \ - } else { \ - v = cq - (ci >> 1); \ - } \ - } \ - } else { \ - if(cq < 0) { /* ci >= 0, cq < 0 */ \ - if (-cq < ci) { \ - v = ci - (cq >> 1); \ - } else { \ - v = -cq + (ci >> 1); \ - } \ - } else { /* ci >= 0, cq >= 0 */ \ - if (cq < ci) { \ - v = ci + (cq >> 1); \ - } else { \ - v = cq + (ci >> 1); \ - } \ - } \ - } \ - } - + v = MAX(ai, aq) + MIN(halfci, halfcq); \ +} + + switch(Demod.state) { case DEMOD_UNSYNCD: CHECK_FOR_SUBCARRIER(); @@ -555,11 +566,12 @@ static RAMFUNC int Handle14443bSamplesDemod(int ci, int cq) Demod.sumI = ci; Demod.sumQ = cq; Demod.posCount = 1; - } + } break; case DEMOD_PHASE_REF_TRAINING: if(Demod.posCount < 8) { + //if(Demod.posCount < 10*2) { CHECK_FOR_SUBCARRIER(); if (v > SUBCARRIER_DETECT_THRESHOLD) { // set the reference phase (will code a logic '1') by averaging over 32 1/fs. @@ -577,11 +589,12 @@ static RAMFUNC int Handle14443bSamplesDemod(int ci, int cq) case DEMOD_AWAITING_FALLING_EDGE_OF_SOF: MAKE_SOFT_DECISION(); - if(v < 0) { // logic '0' detected + //Dbprintf("ICE: %d %d %d %d %d", v, Demod.sumI, Demod.sumQ, ci, cq ); + if(v <= 0) { // logic '0' detected Demod.state = DEMOD_GOT_FALLING_EDGE_OF_SOF; Demod.posCount = 0; // start of SOF sequence } else { - if(Demod.posCount > 200/4) { // maximum length of TR1 = 200 1/fs + if(Demod.posCount > 25*2) { // maximum length of TR1 = 200 1/fs Demod.state = DEMOD_UNSYNCD; } } @@ -592,7 +605,7 @@ static RAMFUNC int Handle14443bSamplesDemod(int ci, int cq) Demod.posCount++; MAKE_SOFT_DECISION(); if(v > 0) { - if(Demod.posCount < 9*2) { // low phase of SOF too short (< 9 etu). Note: spec is >= 10, but FPGA tends to "smear" edges + if(Demod.posCount < 10*2) { // low phase of SOF too short (< 9 etu). Note: spec is >= 10, but FPGA tends to "smear" edges Demod.state = DEMOD_UNSYNCD; } else { LED_C_ON(); // Got SOF @@ -605,7 +618,7 @@ static RAMFUNC int Handle14443bSamplesDemod(int ci, int cq) */ } } else { - if(Demod.posCount > 12*2) { // low phase of SOF too long (> 12 etu) + if(Demod.posCount > 13*2) { // low phase of SOF too long (> 12 etu) Demod.state = DEMOD_UNSYNCD; LED_C_OFF(); } @@ -677,7 +690,6 @@ static RAMFUNC int Handle14443bSamplesDemod(int ci, int cq) LED_C_OFF(); break; } - return FALSE; } @@ -688,6 +700,11 @@ static void DemodReset() Demod.len = 0; Demod.state = DEMOD_UNSYNCD; Demod.posCount = 0; + Demod.sumI = 0; + Demod.sumQ = 0; + Demod.bitCount = 0; + Demod.thisBit = 0; + Demod.shiftReg = 0; memset(Demod.output, 0x00, MAX_FRAME_SIZE); } @@ -712,51 +729,49 @@ static void GetSamplesFor14443bDemod(int n, bool quiet) // Allocate memory from BigBuf for some buffers // free all previous allocations first BigBuf_free(); - + + // And put the FPGA in the appropriate mode + FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_RX_XCORR | FPGA_HF_READER_RX_XCORR_848_KHZ); + // The response (tag -> reader) that we're receiving. - uint8_t *receivedResponse = BigBuf_malloc(MAX_FRAME_SIZE); + // Set up the demodulator for tag -> reader responses. + DemodInit(BigBuf_malloc(MAX_FRAME_SIZE)); // The DMA buffer, used to stream samples from the FPGA - int8_t *dmaBuf = (int8_t*) BigBuf_malloc(DMA_BUFFER_SIZE); - - // Set up the demodulator for tag -> reader responses. - DemodInit(receivedResponse); + int8_t *dmaBuf = (int8_t*) BigBuf_malloc(ISO14443B_DMA_BUFFER_SIZE); // Setup and start DMA. - FpgaSetupSscDma((uint8_t*) dmaBuf, DMA_BUFFER_SIZE); - + FpgaSetupSscDma((uint8_t*) dmaBuf, ISO14443B_DMA_BUFFER_SIZE); + int8_t *upTo = dmaBuf; - lastRxCounter = DMA_BUFFER_SIZE; + lastRxCounter = ISO14443B_DMA_BUFFER_SIZE; // Signal field is ON with the appropriate LED: LED_D_ON(); - // And put the FPGA in the appropriate mode - FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_RX_XCORR | FPGA_HF_READER_RX_XCORR_848_KHZ); - for(;;) { int behindBy = lastRxCounter - AT91C_BASE_PDC_SSC->PDC_RCR; if(behindBy > max) max = behindBy; - while(((lastRxCounter-AT91C_BASE_PDC_SSC->PDC_RCR) & (DMA_BUFFER_SIZE-1)) > 2) { + while(((lastRxCounter-AT91C_BASE_PDC_SSC->PDC_RCR) & (ISO14443B_DMA_BUFFER_SIZE-1)) > 2) { ci = upTo[0]; cq = upTo[1]; upTo += 2; - if(upTo >= dmaBuf + DMA_BUFFER_SIZE) { + if(upTo >= dmaBuf + ISO14443B_DMA_BUFFER_SIZE) { upTo = dmaBuf; AT91C_BASE_PDC_SSC->PDC_RNPR = (uint32_t) upTo; - AT91C_BASE_PDC_SSC->PDC_RNCR = DMA_BUFFER_SIZE; + AT91C_BASE_PDC_SSC->PDC_RNCR = ISO14443B_DMA_BUFFER_SIZE; } lastRxCounter -= 2; if(lastRxCounter <= 0) { - lastRxCounter += DMA_BUFFER_SIZE; + lastRxCounter = ISO14443B_DMA_BUFFER_SIZE; } samples += 2; - if(Handle14443bSamplesDemod(ci, cq)) { - gotFrame = TRUE; + // + gotFrame = Handle14443bSamplesDemod(ci , cq ); + if ( gotFrame ) break; - } } if(samples > n || gotFrame) { @@ -766,11 +781,20 @@ static void GetSamplesFor14443bDemod(int n, bool quiet) AT91C_BASE_PDC_SSC->PDC_PTCR = AT91C_PDC_RXTDIS; - if (!quiet) Dbprintf("max behindby = %d, samples = %d, gotFrame = %d, Demod.len = %d, Demod.sumI = %d, Demod.sumQ = %d", max, samples, gotFrame, Demod.len, Demod.sumI, Demod.sumQ); + if (!quiet && Demod.len == 0) { + Dbprintf("max behindby = %d, samples = %d, gotFrame = %d, Demod.len = %d, Demod.sumI = %d, Demod.sumQ = %d", + max, + samples, + gotFrame, + Demod.len, + Demod.sumI, + Demod.sumQ + ); + } + //Tracing if (tracing && Demod.len > 0) { uint8_t parity[MAX_PARITY_SIZE]; - //GetParity(Demod.output, Demod.len, parity); LogTrace(Demod.output, Demod.len, 0, 0, parity, FALSE); } } @@ -784,7 +808,7 @@ static void TransmitFor14443b(void) int c; FpgaSetupSsc(); - + while(AT91C_BASE_SSC->SSC_SR & (AT91C_SSC_TXRDY)) { AT91C_BASE_SSC->SSC_THR = 0xff; } @@ -794,7 +818,7 @@ static void TransmitFor14443b(void) // Signal we are transmitting with the Green LED LED_B_ON(); FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_TX | FPGA_HF_READER_TX_SHALLOW_MOD); - + for(c = 0; c < 10;) { if(AT91C_BASE_SSC->SSC_SR & (AT91C_SSC_TXRDY)) { AT91C_BASE_SSC->SSC_THR = 0xff; @@ -842,7 +866,7 @@ static void CodeIso14443bAsReader(const uint8_t *cmd, int len) ToSendStuffBit(1); } // Send SOF - for(i = 0; i < 10; i++) { + for(i = 0; i < 11; i++) { ToSendStuffBit(0); } @@ -865,7 +889,7 @@ static void CodeIso14443bAsReader(const uint8_t *cmd, int len) } // Send EOF ToSendStuffBit(1); - for(i = 0; i < 10; i++) { + for(i = 0; i < 11; i++) { ToSendStuffBit(0); } for(i = 0; i < 8; i++) { @@ -874,7 +898,7 @@ static void CodeIso14443bAsReader(const uint8_t *cmd, int len) // And then a little more, to make sure that the last character makes // it out before we switch to rx mode. - for(i = 0; i < 24; i++) { + for(i = 0; i < 10; i++) { ToSendStuffBit(1); } @@ -892,11 +916,107 @@ static void CodeAndTransmit14443bAsReader(const uint8_t *cmd, int len) TransmitFor14443b(); if (tracing) { uint8_t parity[MAX_PARITY_SIZE]; - GetParity(cmd, len, parity); LogTrace(cmd,len, 0, 0, parity, TRUE); } } +/* Sends an APDU to the tag + * TODO: check CRC and preamble + */ +int iso14443b_apdu(uint8_t const *message, size_t message_length, uint8_t *response) +{ + uint8_t message_frame[message_length + 4]; + // PCB + message_frame[0] = 0x0A | pcb_blocknum; + pcb_blocknum ^= 1; + // CID + message_frame[1] = 0; + // INF + memcpy(message_frame + 2, message, message_length); + // EDC (CRC) + ComputeCrc14443(CRC_14443_B, message_frame, message_length + 2, &message_frame[message_length + 2], &message_frame[message_length + 3]); + // send + CodeAndTransmit14443bAsReader(message_frame, message_length + 4); + // get response + GetSamplesFor14443bDemod(RECEIVE_SAMPLES_TIMEOUT*100, TRUE); + if(Demod.len < 3) + { + return 0; + } + // TODO: Check CRC + // copy response contents + if(response != NULL) + { + memcpy(response, Demod.output, Demod.len); + } + return Demod.len; +} + +/* Perform the ISO 14443 B Card Selection procedure + * Currently does NOT do any collision handling. + * It expects 0-1 cards in the device's range. + * TODO: Support multiple cards (perform anticollision) + * TODO: Verify CRC checksums + */ +int iso14443b_select_card() +{ + // WUPB command (including CRC) + // Note: WUPB wakes up all tags, REQB doesn't wake up tags in HALT state + static const uint8_t wupb[] = { 0x05, 0x00, 0x08, 0x39, 0x73 }; + // ATTRIB command (with space for CRC) + uint8_t attrib[] = { 0x1D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x00}; + + // first, wake up the tag + CodeAndTransmit14443bAsReader(wupb, sizeof(wupb)); + GetSamplesFor14443bDemod(RECEIVE_SAMPLES_TIMEOUT, TRUE); + // ATQB too short? + if (Demod.len < 14) + { + return 2; + } + + // select the tag + // copy the PUPI to ATTRIB + memcpy(attrib + 1, Demod.output + 1, 4); + /* copy the protocol info from ATQB (Protocol Info -> Protocol_Type) into + ATTRIB (Param 3) */ + attrib[7] = Demod.output[10] & 0x0F; + ComputeCrc14443(CRC_14443_B, attrib, 9, attrib + 9, attrib + 10); + CodeAndTransmit14443bAsReader(attrib, sizeof(attrib)); + GetSamplesFor14443bDemod(RECEIVE_SAMPLES_TIMEOUT, TRUE); + // Answer to ATTRIB too short? + if(Demod.len < 3) + { + return 2; + } + // reset PCB block number + pcb_blocknum = 0; + return 1; +} + +// Set up ISO 14443 Type B communication (similar to iso14443a_setup) +void iso14443b_setup() { + + FpgaDownloadAndGo(FPGA_BITSTREAM_HF); + + BigBuf_free(); + // Set up the synchronous serial port + FpgaSetupSsc(); + // connect Demodulated Signal to ADC: + SetAdcMuxFor(GPIO_MUXSEL_HIPKD); + + // Signal field is on with the appropriate LED + LED_D_ON(); + FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_TX | FPGA_HF_READER_TX_SHALLOW_MOD); + + //SpinDelay(100); + + // Start the timer + //StartCountSspClk(); + + DemodReset(); + UartReset(); +} //----------------------------------------------------------------------------- // Read a SRI512 ISO 14443B tag. @@ -909,12 +1029,14 @@ static void CodeAndTransmit14443bAsReader(const uint8_t *cmd, int len) //----------------------------------------------------------------------------- void ReadSTMemoryIso14443b(uint32_t dwLast) { + FpgaDownloadAndGo(FPGA_BITSTREAM_HF); + BigBuf_free(); + clear_trace(); set_tracing(TRUE); uint8_t i = 0x00; - FpgaDownloadAndGo(FPGA_BITSTREAM_HF); // Make sure that we start from off, since the tags are stateful; // confusing things will happen if we don't reset them between reads. LED_D_OFF(); @@ -927,73 +1049,70 @@ void ReadSTMemoryIso14443b(uint32_t dwLast) // Now give it time to spin up. // Signal field is on with the appropriate LED LED_D_ON(); - FpgaWriteConfWord( - FPGA_MAJOR_MODE_HF_READER_RX_XCORR | FPGA_HF_READER_RX_XCORR_848_KHZ); + FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_RX_XCORR | FPGA_HF_READER_RX_XCORR_848_KHZ); SpinDelay(200); // First command: wake up the tag using the INITIATE command uint8_t cmd1[] = {0x06, 0x00, 0x97, 0x5b}; - CodeAndTransmit14443bAsReader(cmd1, sizeof(cmd1)); -// LED_A_ON(); GetSamplesFor14443bDemod(RECEIVE_SAMPLES_TIMEOUT, TRUE); -// LED_A_OFF(); if (Demod.len == 0) { - DbpString("No response from tag"); - return; + DbpString("No response from tag"); + set_tracing(FALSE); + return; } else { - Dbprintf("Randomly generated UID from tag (+ 2 byte CRC): %02x %02x %02x", - Demod.output[0], Demod.output[1], Demod.output[2]); + Dbprintf("Randomly generated Chip ID (+ 2 byte CRC): %02x %02x %02x", + Demod.output[0], Demod.output[1], Demod.output[2]); } + // There is a response, SELECT the uid DbpString("Now SELECT tag:"); cmd1[0] = 0x0E; // 0x0E is SELECT cmd1[1] = Demod.output[0]; ComputeCrc14443(CRC_14443_B, cmd1, 2, &cmd1[2], &cmd1[3]); CodeAndTransmit14443bAsReader(cmd1, sizeof(cmd1)); - -// LED_A_ON(); GetSamplesFor14443bDemod(RECEIVE_SAMPLES_TIMEOUT, TRUE); -// LED_A_OFF(); if (Demod.len != 3) { Dbprintf("Expected 3 bytes from tag, got %d", Demod.len); + set_tracing(FALSE); return; } // Check the CRC of the answer: ComputeCrc14443(CRC_14443_B, Demod.output, 1 , &cmd1[2], &cmd1[3]); if(cmd1[2] != Demod.output[1] || cmd1[3] != Demod.output[2]) { DbpString("CRC Error reading select response."); + set_tracing(FALSE); return; } // Check response from the tag: should be the same UID as the command we just sent: if (cmd1[1] != Demod.output[0]) { Dbprintf("Bad response to SELECT from Tag, aborting: %02x %02x", cmd1[1], Demod.output[0]); + set_tracing(FALSE); return; } + // Tag is now selected, // First get the tag's UID: cmd1[0] = 0x0B; ComputeCrc14443(CRC_14443_B, cmd1, 1 , &cmd1[1], &cmd1[2]); CodeAndTransmit14443bAsReader(cmd1, 3); // Only first three bytes for this one - -// LED_A_ON(); GetSamplesFor14443bDemod(RECEIVE_SAMPLES_TIMEOUT, TRUE); -// LED_A_OFF(); if (Demod.len != 10) { Dbprintf("Expected 10 bytes from tag, got %d", Demod.len); + set_tracing(FALSE); return; } // The check the CRC of the answer (use cmd1 as temporary variable): ComputeCrc14443(CRC_14443_B, Demod.output, 8, &cmd1[2], &cmd1[3]); if(cmd1[2] != Demod.output[8] || cmd1[3] != Demod.output[9]) { Dbprintf("CRC Error reading block! Expected: %04x got: %04x", - (cmd1[2]<<8)+cmd1[3], (Demod.output[8]<<8)+Demod.output[9]); - // Do not return;, let's go on... (we should retry, maybe ?) + (cmd1[2]<<8)+cmd1[3], (Demod.output[8]<<8)+Demod.output[9]); + // Do not return;, let's go on... (we should retry, maybe ?) } Dbprintf("Tag UID (64 bits): %08x %08x", - (Demod.output[7]<<24) + (Demod.output[6]<<16) + (Demod.output[5]<<8) + Demod.output[4], - (Demod.output[3]<<24) + (Demod.output[2]<<16) + (Demod.output[1]<<8) + Demod.output[0]); + (Demod.output[7]<<24) + (Demod.output[6]<<16) + (Demod.output[5]<<8) + Demod.output[4], + (Demod.output[3]<<24) + (Demod.output[2]<<16) + (Demod.output[1]<<8) + Demod.output[0]); // Now loop to read all 16 blocks, address from 0 to last block Dbprintf("Tag memory dump, block 0 to %d", dwLast); @@ -1001,37 +1120,36 @@ void ReadSTMemoryIso14443b(uint32_t dwLast) i = 0x00; dwLast++; for (;;) { - if (i == dwLast) { + if (i == dwLast) { DbpString("System area block (0xff):"); i = 0xff; } cmd1[1] = i; ComputeCrc14443(CRC_14443_B, cmd1, 2, &cmd1[2], &cmd1[3]); CodeAndTransmit14443bAsReader(cmd1, sizeof(cmd1)); - -// LED_A_ON(); GetSamplesFor14443bDemod(RECEIVE_SAMPLES_TIMEOUT, TRUE); -// LED_A_OFF(); if (Demod.len != 6) { // Check if we got an answer from the tag - DbpString("Expected 6 bytes from tag, got less..."); - return; + DbpString("Expected 6 bytes from tag, got less..."); + return; } // The check the CRC of the answer (use cmd1 as temporary variable): ComputeCrc14443(CRC_14443_B, Demod.output, 4, &cmd1[2], &cmd1[3]); - if(cmd1[2] != Demod.output[4] || cmd1[3] != Demod.output[5]) { + if(cmd1[2] != Demod.output[4] || cmd1[3] != Demod.output[5]) { Dbprintf("CRC Error reading block! Expected: %04x got: %04x", - (cmd1[2]<<8)+cmd1[3], (Demod.output[4]<<8)+Demod.output[5]); - // Do not return;, let's go on... (we should retry, maybe ?) + (cmd1[2]<<8)+cmd1[3], (Demod.output[4]<<8)+Demod.output[5]); + // Do not return;, let's go on... (we should retry, maybe ?) } // Now print out the memory location: Dbprintf("Address=%02x, Contents=%08x, CRC=%04x", i, - (Demod.output[3]<<24) + (Demod.output[2]<<16) + (Demod.output[1]<<8) + Demod.output[0], - (Demod.output[4]<<8)+Demod.output[5]); + (Demod.output[3]<<24) + (Demod.output[2]<<16) + (Demod.output[1]<<8) + Demod.output[0], + (Demod.output[4]<<8)+Demod.output[5]); if (i == 0xff) { break; } i++; } + + set_tracing(FALSE); } @@ -1049,7 +1167,7 @@ void ReadSTMemoryIso14443b(uint32_t dwLast) * Memory usage for this function, (within BigBuf) * Last Received command (reader->tag) - MAX_FRAME_SIZE * Last Received command (tag->reader) - MAX_FRAME_SIZE - * DMA Buffer - DMA_BUFFER_SIZE + * DMA Buffer - ISO14443B_DMA_BUFFER_SIZE * Demodulated samples received - all the rest */ void RAMFUNC SnoopIso14443b(void) @@ -1066,7 +1184,7 @@ void RAMFUNC SnoopIso14443b(void) set_tracing(TRUE); // The DMA buffer, used to stream samples from the FPGA - int8_t *dmaBuf = (int8_t*) BigBuf_malloc(DMA_BUFFER_SIZE); + int8_t *dmaBuf = (int8_t*) BigBuf_malloc(ISO14443B_DMA_BUFFER_SIZE); int lastRxCounter; int8_t *upTo; int ci, cq; @@ -1084,7 +1202,7 @@ void RAMFUNC SnoopIso14443b(void) Dbprintf(" Trace: %i bytes", BigBuf_max_traceLen()); Dbprintf(" Reader -> tag: %i bytes", MAX_FRAME_SIZE); Dbprintf(" tag -> Reader: %i bytes", MAX_FRAME_SIZE); - Dbprintf(" DMA: %i bytes", DMA_BUFFER_SIZE); + Dbprintf(" DMA: %i bytes", ISO14443B_DMA_BUFFER_SIZE); // Signal field is off, no reader signal, no tag signal LEDsoff(); @@ -1096,17 +1214,17 @@ void RAMFUNC SnoopIso14443b(void) // Setup for the DMA. FpgaSetupSsc(); upTo = dmaBuf; - lastRxCounter = DMA_BUFFER_SIZE; - FpgaSetupSscDma((uint8_t*) dmaBuf, DMA_BUFFER_SIZE); + lastRxCounter = ISO14443B_DMA_BUFFER_SIZE; + FpgaSetupSscDma((uint8_t*) dmaBuf, ISO14443B_DMA_BUFFER_SIZE); uint8_t parity[MAX_PARITY_SIZE]; bool TagIsActive = FALSE; bool ReaderIsActive = FALSE; - + // And now we loop, receiving samples. for(;;) { int behindBy = (lastRxCounter - AT91C_BASE_PDC_SSC->PDC_RCR) & - (DMA_BUFFER_SIZE-1); + (ISO14443B_DMA_BUFFER_SIZE-1); if(behindBy > maxBehindBy) { maxBehindBy = behindBy; } @@ -1117,13 +1235,13 @@ void RAMFUNC SnoopIso14443b(void) cq = upTo[1]; upTo += 2; lastRxCounter -= 2; - if(upTo >= dmaBuf + DMA_BUFFER_SIZE) { + if(upTo >= dmaBuf + ISO14443B_DMA_BUFFER_SIZE) { upTo = dmaBuf; - lastRxCounter += DMA_BUFFER_SIZE; + lastRxCounter += ISO14443B_DMA_BUFFER_SIZE; AT91C_BASE_PDC_SSC->PDC_RNPR = (uint32_t) dmaBuf; - AT91C_BASE_PDC_SSC->PDC_RNCR = DMA_BUFFER_SIZE; + AT91C_BASE_PDC_SSC->PDC_RNCR = ISO14443B_DMA_BUFFER_SIZE; WDT_HIT(); - if(behindBy > (9*DMA_BUFFER_SIZE/10)) { // TODO: understand whether we can increase/decrease as we want or not? + if(behindBy > (9*ISO14443B_DMA_BUFFER_SIZE/10)) { // TODO: understand whether we can increase/decrease as we want or not? Dbprintf("blew circular buffer! behindBy=%d", behindBy); break; } @@ -1141,52 +1259,51 @@ void RAMFUNC SnoopIso14443b(void) if (!TagIsActive) { // no need to try decoding reader data if the tag is sending if(Handle14443bUartBit(ci & 0x01)) { - if(triggered && tracing) { - //GetParity(Uart.output, Uart.byteCnt, parity); + if(triggered && tracing) { LogTrace(Uart.output, Uart.byteCnt, samples, samples, parity, TRUE); - } - /* And ready to receive another command. */ - UartReset(); - /* And also reset the demod code, which might have been */ - /* false-triggered by the commands from the reader. */ - DemodReset(); } + /* And ready to receive another command. */ + UartReset(); + /* And also reset the demod code, which might have been */ + /* false-triggered by the commands from the reader. */ + DemodReset(); + } if(Handle14443bUartBit(cq & 0x01)) { - if(triggered && tracing) { - //GetParity(Uart.output, Uart.byteCnt, parity); + if(triggered && tracing) { LogTrace(Uart.output, Uart.byteCnt, samples, samples, parity, TRUE); - } - /* And ready to receive another command. */ - UartReset(); - /* And also reset the demod code, which might have been */ - /* false-triggered by the commands from the reader. */ - DemodReset(); } + /* And ready to receive another command. */ + UartReset(); + /* And also reset the demod code, which might have been */ + /* false-triggered by the commands from the reader. */ + DemodReset(); + } ReaderIsActive = (Uart.state > STATE_GOT_FALLING_EDGE_OF_SOF); } if(!ReaderIsActive) { // no need to try decoding tag data if the reader is sending - and we cannot afford the time - if(Handle14443bSamplesDemod(ci | 0x01, cq | 0x01)) { - - //Use samples as a time measurement - if(tracing) - { - uint8_t parity[MAX_PARITY_SIZE]; - //GetParity(Demod.output, Demod.len, parity); - LogTrace(Demod.output, Demod.len, samples, samples, parity, FALSE); - } - triggered = TRUE; - - // And ready to receive another response. - DemodReset(); + // is this | 0x01 the error? & 0xfe in https://github.com/Proxmark/proxmark3/issues/103 + if(Handle14443bSamplesDemod(ci & 0xfe, cq & 0xfe)) { + + //Use samples as a time measurement + if(tracing) + { + //uint8_t parity[MAX_PARITY_SIZE]; + LogTrace(Demod.output, Demod.len, samples, samples, parity, FALSE); } + triggered = TRUE; + + // And ready to receive another response. + DemodReset(); + } TagIsActive = (Demod.state > DEMOD_GOT_FALLING_EDGE_OF_SOF); } - } FpgaDisableSscDma(); LEDsoff(); + set_tracing(FALSE); + AT91C_BASE_PDC_SSC->PDC_PTCR = AT91C_PDC_RXTDIS; DbpString("Snoop statistics:"); Dbprintf(" Max behind by: %i", maxBehindBy); @@ -1211,38 +1328,25 @@ void RAMFUNC SnoopIso14443b(void) */ void SendRawCommand14443B(uint32_t datalen, uint32_t recv, uint8_t powerfield, uint8_t data[]) { - FpgaDownloadAndGo(FPGA_BITSTREAM_HF); - SetAdcMuxFor(GPIO_MUXSEL_HIPKD); - FpgaSetupSsc(); - - set_tracing(TRUE); + iso14443b_setup(); -/* if(!powerfield) { - // Make sure that we start from off, since the tags are stateful; - // confusing things will happen if we don't reset them between reads. - FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF); - LED_D_OFF(); - SpinDelay(200); + if ( datalen == 0 && recv == 0 && powerfield == 0){ + + } else { + set_tracing(TRUE); + CodeAndTransmit14443bAsReader(data, datalen); } - */ - - // if(!GETBIT(GPIO_LED_D)) { // if field is off - // FpgaWriteConfWord(FPGA_MAJOR_MODE_HF_READER_RX_XCORR | FPGA_HF_READER_RX_XCORR_848_KHZ); - // // Signal field is on with the appropriate LED - // LED_D_ON(); - // SpinDelay(200); - // } - - CodeAndTransmit14443bAsReader(data, datalen); if(recv) { - GetSamplesFor14443bDemod(RECEIVE_SAMPLES_TIMEOUT, TRUE); + GetSamplesFor14443bDemod(RECEIVE_SAMPLES_TIMEOUT, FALSE); uint16_t iLen = MIN(Demod.len, USB_CMD_DATA_SIZE); cmd_send(CMD_ACK, iLen, 0, 0, Demod.output, iLen); } if(!powerfield) { FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF); + FpgaDisableSscDma(); + set_tracing(FALSE); LED_D_OFF(); } }