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fix 'hf iclass' (#879)

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* add loooong timeout for UPDATE command
* add flags FLAG_ICLASS_READER_INIT and FLAG_ICLASS_READER_CLEARTRACE
* don't overwrite trace buffer during 'hf iclass dump'
* fix long waiting time when start_time==0 in TransmitTo15693Tag()
* remove some additional debug prints
* refactoring: move helper functions from protocols.c to cmdhficlass.c
* add 'h' and '1' options to 'hf iclass reader' (from RRG repository)
* use correct key when only CreditKey is given in 'hf iclass dump'
* separate select_and_auth
* DropField() on errors
* dump last block in 'hf iclass dump'
* display correct memory size (number of blocks) in 'hf iclass reader' and dump
* more whitespace fixes
This commit is contained in:
pwpiwi 2019-11-13 18:00:33 +01:00 committed by GitHub
parent ea5e5d042e
commit 496bb4be33
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GPG key ID: 4AEE18F83AFDEB23
8 changed files with 443 additions and 453 deletions
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127
armsrc/iclass.c
View file

@ -66,6 +66,7 @@
#define DELAY_ICLASS_VICC_TO_VCD_READER DELAY_ISO15693_VICC_TO_VCD_READER
// times in samples @ 212kHz when acting as reader
#define ICLASS_READER_TIMEOUT_ACTALL 330 // 1558us, nominal 330us + 7slots*160us = 1450us
#define ICLASS_READER_TIMEOUT_UPDATE 3390 // 16000us, nominal 4-15ms
#define ICLASS_READER_TIMEOUT_OTHERS 80 // 380us, nominal 330us
@ -1338,10 +1339,10 @@ static void ReaderTransmitIClass(uint8_t *frame, int len, uint32_t *start_time)
static bool sendCmdGetResponseWithRetries(uint8_t* command, size_t cmdsize, uint8_t* resp, size_t max_resp_size,
uint8_t expected_size, uint8_t retries, uint32_t start_time, uint32_t *eof_time) {
uint8_t expected_size, uint8_t retries, uint32_t start_time, uint32_t timeout, uint32_t *eof_time) {
while (retries-- > 0) {
ReaderTransmitIClass(command, cmdsize, &start_time);
if (expected_size == GetIso15693AnswerFromTag(resp, max_resp_size, ICLASS_READER_TIMEOUT_OTHERS, eof_time)) {
if (expected_size == GetIso15693AnswerFromTag(resp, max_resp_size, timeout, eof_time)) {
return true;
}
}
@ -1393,7 +1394,7 @@ static bool selectIclassTag(uint8_t *card_data, uint32_t *eof_time) {
// Select an iClass tag and read all blocks which are always readable without authentication
void ReaderIClass(uint8_t arg0) {
void ReaderIClass(uint8_t flags) {
LED_A_ON();
@ -1409,16 +1410,16 @@ void ReaderIClass(uint8_t arg0) {
uint8_t result_status = 0;
// test flags for what blocks to be sure to read
uint8_t flagReadConfig = arg0 & FLAG_ICLASS_READER_CONF;
uint8_t flagReadCC = arg0 & FLAG_ICLASS_READER_CC;
uint8_t flagReadAA = arg0 & FLAG_ICLASS_READER_AA;
if (flags & FLAG_ICLASS_READER_INIT) {
Iso15693InitReader();
}
set_tracing(true);
clear_trace();
Iso15693InitReader();
if (flags & FLAG_ICLASS_READER_CLEARTRACE) {
set_tracing(true);
clear_trace();
StartCountSspClk();
}
StartCountSspClk();
uint32_t start_time = 0;
uint32_t eof_time = 0;
@ -1426,12 +1427,12 @@ void ReaderIClass(uint8_t arg0) {
result_status = FLAG_ICLASS_READER_CSN;
memcpy(card_data, resp, 8);
}
start_time = eof_time + DELAY_ICLASS_VICC_TO_VCD_READER;
//Read block 1, config
if (flagReadConfig) {
if (sendCmdGetResponseWithRetries(readConf, sizeof(readConf), resp, sizeof(resp), 10, 10, start_time, &eof_time)) {
if (flags & FLAG_ICLASS_READER_CONF) {
if (sendCmdGetResponseWithRetries(readConf, sizeof(readConf), resp, sizeof(resp), 10, 10, start_time, ICLASS_READER_TIMEOUT_OTHERS, &eof_time)) {
result_status |= FLAG_ICLASS_READER_CONF;
memcpy(card_data+8, resp, 8);
} else {
@ -1441,8 +1442,8 @@ void ReaderIClass(uint8_t arg0) {
}
//Read block 2, e-purse
if (flagReadCC) {
if (sendCmdGetResponseWithRetries(readEpurse, sizeof(readEpurse), resp, sizeof(resp), 10, 10, start_time, &eof_time)) {
if (flags & FLAG_ICLASS_READER_CC) {
if (sendCmdGetResponseWithRetries(readEpurse, sizeof(readEpurse), resp, sizeof(resp), 10, 10, start_time, ICLASS_READER_TIMEOUT_OTHERS, &eof_time)) {
result_status |= FLAG_ICLASS_READER_CC;
memcpy(card_data + (8*2), resp, 8);
} else {
@ -1452,8 +1453,8 @@ void ReaderIClass(uint8_t arg0) {
}
//Read block 5, AA
if (flagReadAA) {
if (sendCmdGetResponseWithRetries(readAA, sizeof(readAA), resp, sizeof(resp), 10, 10, start_time, &eof_time)) {
if (flags & FLAG_ICLASS_READER_AA) {
if (sendCmdGetResponseWithRetries(readAA, sizeof(readAA), resp, sizeof(resp), 10, 10, start_time, ICLASS_READER_TIMEOUT_OTHERS, &eof_time)) {
result_status |= FLAG_ICLASS_READER_AA;
memcpy(card_data + (8*5), resp, 8);
} else {
@ -1522,13 +1523,13 @@ void ReaderIClass_Replay(uint8_t arg0, uint8_t *MAC) {
if (!selectIclassTag(card_data, &eof_time)) continue;
start_time = eof_time + DELAY_ICLASS_VICC_TO_VCD_READER;
if (!sendCmdGetResponseWithRetries(readcheck_cc, sizeof(readcheck_cc), resp, sizeof(resp), 8, 3, start_time, &eof_time)) continue;
if (!sendCmdGetResponseWithRetries(readcheck_cc, sizeof(readcheck_cc), resp, sizeof(resp), 8, 3, start_time, ICLASS_READER_TIMEOUT_OTHERS, &eof_time)) continue;
// replay captured auth (cc must not have been updated)
memcpy(check+5, MAC, 4);
start_time = eof_time + DELAY_ICLASS_VICC_TO_VCD_READER;
if (!sendCmdGetResponseWithRetries(check, sizeof(check), resp, sizeof(resp), 4, 5, start_time, &eof_time)) {
if (!sendCmdGetResponseWithRetries(check, sizeof(check), resp, sizeof(resp), 4, 5, start_time, ICLASS_READER_TIMEOUT_OTHERS, &eof_time)) {
Dbprintf("Error: Authentication Fail!");
continue;
}
@ -1540,7 +1541,7 @@ void ReaderIClass_Replay(uint8_t arg0, uint8_t *MAC) {
read[3] = crc & 0xff;
start_time = eof_time + DELAY_ICLASS_VICC_TO_VCD_READER;
if (!sendCmdGetResponseWithRetries(read, sizeof(read), resp, sizeof(resp), 10, 10, start_time, &eof_time)) {
if (!sendCmdGetResponseWithRetries(read, sizeof(read), resp, sizeof(resp), 10, 10, start_time, ICLASS_READER_TIMEOUT_OTHERS, &eof_time)) {
start_time = eof_time + DELAY_ICLASS_VICC_TO_VCD_READER;
Dbprintf("Dump config (block 1) failed");
continue;
@ -1567,7 +1568,7 @@ void ReaderIClass_Replay(uint8_t arg0, uint8_t *MAC) {
read[3] = crc & 0xff;
start_time = eof_time + DELAY_ICLASS_VICC_TO_VCD_READER;
if (sendCmdGetResponseWithRetries(read, sizeof(read), resp, sizeof(resp), 10, 10, start_time, &eof_time)) {
if (sendCmdGetResponseWithRetries(read, sizeof(read), resp, sizeof(resp), 10, 10, start_time, ICLASS_READER_TIMEOUT_OTHERS, &eof_time)) {
Dbprintf(" %02x: %02x %02x %02x %02x %02x %02x %02x %02x",
block, resp[0], resp[1], resp[2],
resp[3], resp[4], resp[5],
@ -1622,11 +1623,11 @@ void ReaderIClass_Replay(uint8_t arg0, uint8_t *MAC) {
void iClass_Check(uint8_t *MAC) {
uint8_t check[9] = {ICLASS_CMD_CHECK_KD, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
uint8_t check[9] = {ICLASS_CMD_CHECK_KD, 0x00};
uint8_t resp[4];
memcpy(check+5, MAC, 4);
uint32_t eof_time;
bool isOK = sendCmdGetResponseWithRetries(check, sizeof(check), resp, sizeof(resp), 4, 6, 0, &eof_time);
bool isOK = sendCmdGetResponseWithRetries(check, sizeof(check), resp, sizeof(resp), 4, 6, 0, ICLASS_READER_TIMEOUT_OTHERS, &eof_time);
cmd_send(CMD_ACK, isOK, 0, 0, resp, sizeof(resp));
}
@ -1638,7 +1639,7 @@ void iClass_Readcheck(uint8_t block, bool use_credit_key) {
}
uint8_t resp[8];
uint32_t eof_time;
bool isOK = sendCmdGetResponseWithRetries(readcheck, sizeof(readcheck), resp, sizeof(resp), 8, 6, 0, &eof_time);
bool isOK = sendCmdGetResponseWithRetries(readcheck, sizeof(readcheck), resp, sizeof(resp), 8, 6, 0, ICLASS_READER_TIMEOUT_OTHERS, &eof_time);
cmd_send(CMD_ACK, isOK, 0, 0, resp, sizeof(resp));
}
@ -1650,10 +1651,9 @@ static bool iClass_ReadBlock(uint8_t blockNo, uint8_t *readdata) {
readcmd[2] = rdCrc >> 8;
readcmd[3] = rdCrc & 0xff;
uint8_t resp[10];
bool isOK = false;
uint32_t eof_time;
isOK = sendCmdGetResponseWithRetries(readcmd, sizeof(readcmd), resp, sizeof(resp), 10, 10, 0, &eof_time);
bool isOK = sendCmdGetResponseWithRetries(readcmd, sizeof(readcmd), resp, sizeof(resp), 10, 10, 0, ICLASS_READER_TIMEOUT_OTHERS, &eof_time);
memcpy(readdata, resp, sizeof(resp));
return isOK;
@ -1665,8 +1665,7 @@ void iClass_ReadBlk(uint8_t blockno) {
LED_A_ON();
uint8_t readblockdata[] = {0,0,0,0,0,0,0,0,0,0};
bool isOK = false;
isOK = iClass_ReadBlock(blockno, readblockdata);
bool isOK = iClass_ReadBlock(blockno, readblockdata);
cmd_send(CMD_ACK, isOK, 0, 0, readblockdata, 8);
FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
LED_D_OFF();
@ -1674,43 +1673,28 @@ void iClass_ReadBlk(uint8_t blockno) {
LED_A_OFF();
}
void iClass_Dump(uint8_t blockno, uint8_t numblks) {
void iClass_Dump(uint8_t startblock, uint8_t numblks) {
LED_A_ON();
uint8_t readblockdata[] = {0,0,0,0,0,0,0,0,0,0};
uint8_t readblockdata[USB_CMD_DATA_SIZE+2] = {0};
bool isOK = false;
uint8_t blkCnt = 0;
uint16_t blkCnt = 0;
BigBuf_free();
uint8_t *dataout = BigBuf_malloc(255*8);
if (dataout == NULL) {
Dbprintf("out of memory");
FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
LED_D_OFF();
cmd_send(CMD_ACK, 0, 1, 0, 0, 0);
LED_A_OFF();
return;
if (numblks > USB_CMD_DATA_SIZE / 8) {
numblks = USB_CMD_DATA_SIZE / 8;
}
memset(dataout, 0xFF, 255*8);
for ( ; blkCnt < numblks; blkCnt++) {
isOK = iClass_ReadBlock(blockno+blkCnt, readblockdata);
if (!isOK || (readblockdata[0] == 0xBB || readblockdata[7] == 0xBB || readblockdata[2] == 0xBB)) { //try again
isOK = iClass_ReadBlock(blockno+blkCnt, readblockdata);
if (!isOK) {
Dbprintf("Block %02X failed to read", blkCnt+blockno);
break;
}
for (blkCnt = 0; blkCnt < numblks; blkCnt++) {
isOK = iClass_ReadBlock(startblock+blkCnt, readblockdata+8*blkCnt);
if (!isOK) {
Dbprintf("Block %02X failed to read", startblock+blkCnt);
break;
}
memcpy(dataout + (blkCnt*8), readblockdata, 8);
}
//return pointer to dump memory in arg3
cmd_send(CMD_ACK, isOK, blkCnt, BigBuf_max_traceLen(), 0, 0);
FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
LED_D_OFF();
BigBuf_free();
cmd_send(CMD_ACK, isOK, blkCnt, 0, readblockdata, blkCnt*8);
LED_A_OFF();
}
@ -1718,34 +1702,18 @@ void iClass_Dump(uint8_t blockno, uint8_t numblks) {
static bool iClass_WriteBlock_ext(uint8_t blockNo, uint8_t *data) {
LED_A_ON();
uint8_t write[] = { ICLASS_CMD_UPDATE, blockNo, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
//uint8_t readblockdata[10];
//write[1] = blockNo;
uint8_t write[16] = {ICLASS_CMD_UPDATE, blockNo};
memcpy(write+2, data, 12); // data + mac
char *wrCmd = (char *)(write+1);
uint16_t wrCrc = iclass_crc16(wrCmd, 13);
write[14] = wrCrc >> 8;
write[15] = wrCrc & 0xff;
AppendCrc(write+1, 13);
uint8_t resp[10];
bool isOK = false;
uint32_t eof_time = 0;
isOK = sendCmdGetResponseWithRetries(write, sizeof(write), resp, sizeof(resp), 10, 10, 0, &eof_time);
uint32_t start_time = eof_time + DELAY_ICLASS_VICC_TO_VCD_READER;
if (isOK) { //if reader responded correctly
//Dbprintf("WriteResp: %02X%02X%02X%02X%02X%02X%02X%02X%02X%02X",resp[0],resp[1],resp[2],resp[3],resp[4],resp[5],resp[6],resp[7],resp[8],resp[9]);
if (memcmp(write+2, resp, 8)) { //if response is not equal to write values
if (blockNo != 3 && blockNo != 4) { //if not programming key areas (note key blocks don't get programmed with actual key data it is xor data)
//error try again
isOK = sendCmdGetResponseWithRetries(write, sizeof(write), resp, sizeof(resp), 10, 10, start_time, &eof_time);
}
}
isOK = sendCmdGetResponseWithRetries(write, sizeof(write), resp, sizeof(resp), 10, 10, 0, ICLASS_READER_TIMEOUT_UPDATE, &eof_time);
if (isOK && blockNo != 3 && blockNo != 4 && memcmp(write+2, resp, 8)) { // check response
isOK = false;
}
LED_A_OFF();
return isOK;
}
@ -1755,7 +1723,7 @@ void iClass_WriteBlock(uint8_t blockNo, uint8_t *data) {
LED_A_ON();
bool isOK = iClass_WriteBlock_ext(blockNo, data);
if (isOK){
if (isOK) {
Dbprintf("Write block [%02x] successful", blockNo);
} else {
Dbprintf("Write block [%02x] failed", blockNo);
@ -1768,6 +1736,7 @@ void iClass_WriteBlock(uint8_t blockNo, uint8_t *data) {
LED_A_OFF();
}
void iClass_Clone(uint8_t startblock, uint8_t endblock, uint8_t *data) {
int i;
int written = 0;

15
armsrc/iso15693.c
View file

@ -256,11 +256,10 @@ void TransmitTo15693Tag(const uint8_t *cmd, int len, uint32_t *start_time) {
*start_time = (*start_time - DELAY_ARM_TO_TAG) & 0xfffffff0;
while (GetCountSspClk() > *start_time) { // we may miss the intended time
*start_time += 16; // next possible time
if (GetCountSspClk() > *start_time) { // we may miss the intended time
*start_time = (GetCountSspClk() + 16) & 0xfffffff0; // next possible time
}
while (GetCountSspClk() < *start_time)
/* wait */ ;
@ -449,11 +448,11 @@ static int inline __attribute__((always_inline)) Handle15693SamplesFromTag(uint1
DecodeTag->posCount = 2;
DecodeTag->state = STATE_TAG_RECEIVING_DATA;
FpgaDisableTracing(); // DEBUGGING
Dbprintf("amplitude = %d, threshold_sof = %d, threshold_half/4 = %d, previous_amplitude = %d",
amplitude,
DecodeTag->threshold_sof,
DecodeTag->threshold_half/4,
DecodeTag->previous_amplitude); // DEBUGGING
// Dbprintf("amplitude = %d, threshold_sof = %d, threshold_half/4 = %d, previous_amplitude = %d",
// amplitude,
// DecodeTag->threshold_sof,
// DecodeTag->threshold_half/4,
// DecodeTag->previous_amplitude); // DEBUGGING
LED_C_ON();
} else {
DecodeTag->posCount++;

2
client/cmdhf.c
View file

@ -50,7 +50,7 @@ int CmdHFSearch(const char *Cmd){
PrintAndLog("\nValid ISO14443A Tag Found - Quiting Search\n");
return ans;
}
ans = HFiClassReader("", false, false);
ans = HFiClassReader(false, false);
if (ans) {
PrintAndLog("\nValid iClass Tag (or PicoPass Tag) Found - Quiting Search\n");
return ans;

607
client/cmdhficlass.c
View file

@ -54,6 +54,106 @@ typedef struct iclass_block {
} iclass_block_t;
// iclass / picopass chip config structures and shared routines
typedef struct {
uint8_t app_limit; //[8]
uint8_t otp[2]; //[9-10]
uint8_t block_writelock;//[11]
uint8_t chip_config; //[12]
uint8_t mem_config; //[13]
uint8_t eas; //[14]
uint8_t fuses; //[15]
} picopass_conf_block;
typedef struct {
uint8_t csn[8];
picopass_conf_block conf;
uint8_t epurse[8];
uint8_t key_d[8];
uint8_t key_c[8];
uint8_t app_issuer_area[8];
} picopass_hdr;
static void fuse_config(const picopass_hdr *hdr) {
uint8_t fuses = hdr->conf.fuses;
if (fuses & FUSE_FPERS)
PrintAndLog(" Mode: Personalization [Programmable]");
else
PrintAndLog(" Mode: Application [Locked]");
if (fuses & FUSE_CODING1)
PrintAndLog("Coding: RFU");
else {
if (fuses & FUSE_CODING0)
PrintAndLog("Coding: ISO 14443-2 B/ISO 15693");
else
PrintAndLog("Coding: ISO 14443B only");
}
if ((fuses & FUSE_CRYPT1) && (fuses & FUSE_CRYPT0)) PrintAndLog(" Crypt: Secured page, keys not locked");
if ((fuses & FUSE_CRYPT1) && !(fuses & FUSE_CRYPT0)) PrintAndLog(" Crypt: Secured page, keys locked");
if (!(fuses & FUSE_CRYPT1) && (fuses & FUSE_CRYPT0)) PrintAndLog(" Crypt: Non secured page");
if (!(fuses & FUSE_CRYPT1) && !(fuses & FUSE_CRYPT0)) PrintAndLog(" Crypt: No auth possible. Read only if RA is enabled");
if (fuses & FUSE_RA)
PrintAndLog(" RA: Read access enabled");
else
PrintAndLog(" RA: Read access not enabled");
}
static void getMemConfig(uint8_t mem_cfg, uint8_t chip_cfg, uint8_t *max_blk, uint8_t *app_areas, uint8_t *kb) {
// mem-bit 5, mem-bit 7, chip-bit 4: defines chip type
if((chip_cfg & 0x10) && !(mem_cfg & 0x80) && !(mem_cfg & 0x20)) {
*kb = 2;
*app_areas = 2;
*max_blk = 31;
} else if((chip_cfg & 0x10) && (mem_cfg & 0x80) && !(mem_cfg & 0x20)) {
*kb = 16;
*app_areas = 2;
*max_blk = 255; //16kb
} else if(!(chip_cfg & 0x10) && !(mem_cfg & 0x80) && !(mem_cfg & 0x20)) {
*kb = 16;
*app_areas = 16;
*max_blk = 255; //16kb
} else if((chip_cfg & 0x10) && (mem_cfg & 0x80) && (mem_cfg & 0x20)) {
*kb = 32;
*app_areas = 3;
*max_blk = 255; //16kb
} else if(!(chip_cfg & 0x10) && !(mem_cfg & 0x80) && (mem_cfg & 0x20)) {
*kb = 32;
*app_areas = 17;
*max_blk = 255; //16kb
} else {
*kb = 32;
*app_areas = 2;
*max_blk = 255;
}
}
static void mem_app_config(const picopass_hdr *hdr) {
uint8_t mem = hdr->conf.mem_config;
uint8_t chip = hdr->conf.chip_config;
uint8_t applimit = hdr->conf.app_limit;
if (applimit < 6) applimit = 26;
uint8_t kb = 2;
uint8_t app_areas = 2;
uint8_t max_blk = 31;
getMemConfig(mem, chip, &max_blk, &app_areas, &kb);
PrintAndLog(" Mem: %u KBits/%u App Areas (%u * 8 bytes) [%02X]", kb, app_areas, max_blk+1, mem);
PrintAndLog(" AA1: blocks 06-%02X", applimit);
PrintAndLog(" AA2: blocks %02X-%02X", applimit+1, max_blk);
}
static void printIclassDumpInfo(uint8_t* iclass_dump) {
fuse_config((picopass_hdr*)iclass_dump);
mem_app_config((picopass_hdr*)iclass_dump);
}
static void usage_hf_iclass_chk(void) {
PrintAndLog("Checkkeys loads a dictionary text file with 8byte hex keys to test authenticating against a iClass tag");
PrintAndLog("Usage: hf iclass chk [h|e|r] <f (*.dic)>");
@ -207,33 +307,34 @@ static int CmdHFiClassSim(const char *Cmd) {
}
int HFiClassReader(const char *Cmd, bool loop, bool verbose) {
int HFiClassReader(bool loop, bool verbose) {
bool tagFound = false;
UsbCommand c = {CMD_READER_ICLASS, {FLAG_ICLASS_READER_CSN |
FLAG_ICLASS_READER_CC | FLAG_ICLASS_READER_CONF | FLAG_ICLASS_READER_AA} };
// loop in client not device - else on windows have a communication error
UsbCommand c = {CMD_READER_ICLASS, {FLAG_ICLASS_READER_INIT | FLAG_ICLASS_READER_CLEARTRACE | FLAG_ICLASS_READER_CSN | FLAG_ICLASS_READER_CONF | FLAG_ICLASS_READER_CC | FLAG_ICLASS_READER_AA} };
UsbCommand resp;
while(!ukbhit()){
while (!ukbhit()) {
SendCommand(&c);
if (WaitForResponseTimeout(CMD_ACK,&resp, 4500)) {
uint8_t readStatus = resp.arg[0] & 0xff;
uint8_t *data = resp.d.asBytes;
// no tag found or button pressed
if( (readStatus == 0 && !loop) || readStatus == 0xFF) {
// no tag found
if (readStatus == 0 && !loop) {
// abort
if (verbose) PrintAndLog("Quitting...");
DropField();
return 0;
}
if( readStatus & FLAG_ICLASS_READER_CSN) {
if (readStatus & FLAG_ICLASS_READER_CSN) {
PrintAndLog(" CSN: %s",sprint_hex(data,8));
tagFound = true;
}
if( readStatus & FLAG_ICLASS_READER_CC) {
if (readStatus & FLAG_ICLASS_READER_CC) {
PrintAndLog(" CC: %s",sprint_hex(data+16,8));
}
if( readStatus & FLAG_ICLASS_READER_CONF) {
if (readStatus & FLAG_ICLASS_READER_CONF) {
printIclassDumpInfo(data);
}
if (readStatus & FLAG_ICLASS_READER_AA) {
@ -253,12 +354,31 @@ int HFiClassReader(const char *Cmd, bool loop, bool verbose) {
}
if (!loop) break;
}
DropField();
return 0;
}
static void usage_hf_iclass_reader(void) {
PrintAndLogEx(NORMAL, "Act as a Iclass reader. Look for iClass tags until Enter or the pm3 button is pressed\n");
PrintAndLogEx(NORMAL, "Usage: hf iclass reader [h] [1]\n");
PrintAndLogEx(NORMAL, "Options:");
PrintAndLogEx(NORMAL, " h This help text");
PrintAndLogEx(NORMAL, " 1 read only 1 tag");
PrintAndLogEx(NORMAL, "Examples:");
PrintAndLogEx(NORMAL, " hf iclass reader 1");
}
static int CmdHFiClassReader(const char *Cmd) {
return HFiClassReader(Cmd, true, true);
char cmdp = tolower(param_getchar(Cmd, 0));
if (cmdp == 'h') {
usage_hf_iclass_reader();
return 0;
}
bool findone = (cmdp == '1') ? false : true;
return HFiClassReader(findone, true);
}
@ -514,17 +634,19 @@ static int CmdHFiClassEncryptBlk(const char *Cmd) {
static void Calc_wb_mac(uint8_t blockno, uint8_t *data, uint8_t *div_key, uint8_t MAC[4]) {
uint8_t WB[9];
WB[0] = blockno;
memcpy(WB + 1,data,8);
doMAC_N(WB,sizeof(WB),div_key,MAC);
memcpy(WB+1, data, 8);
doMAC_N(WB, sizeof(WB), div_key, MAC);
//printf("Cal wb mac block [%02x][%02x%02x%02x%02x%02x%02x%02x%02x] : MAC [%02x%02x%02x%02x]",WB[0],WB[1],WB[2],WB[3],WB[4],WB[5],WB[6],WB[7],WB[8],MAC[0],MAC[1],MAC[2],MAC[3]);
}
static bool select_only(uint8_t *CSN, bool verbose) {
static bool iClass_select(uint8_t *CSN, bool verbose, bool cleartrace, bool init) {
UsbCommand c = {CMD_READER_ICLASS, {FLAG_ICLASS_READER_CSN}};
if (init) c.arg[0] |= FLAG_ICLASS_READER_INIT;
if (cleartrace) c.arg[0] |= FLAG_ICLASS_READER_CLEARTRACE;
UsbCommand resp;
UsbCommand c = {CMD_READER_ICLASS, {0}};
clearCommandBuffer();
SendCommand(&c);
if (!WaitForResponseTimeout(CMD_ACK, &resp, 4500)) {
@ -535,9 +657,8 @@ static bool select_only(uint8_t *CSN, bool verbose) {
uint8_t isOK = resp.arg[0] & 0xff;
uint8_t *data = resp.d.asBytes;
memcpy(CSN, data, 8);
if (isOK > 0) {
if (isOK & FLAG_ICLASS_READER_CSN) {
memcpy(CSN, data, 8);
if (verbose) PrintAndLog("CSN: %s", sprint_hex(CSN, 8));
} else {
PrintAndLog("Failed to select card! Aborting");
@ -567,12 +688,7 @@ static void HFiClassCalcDivKey(uint8_t *CSN, uint8_t *KEY, uint8_t *div_key, boo
}
static bool select_and_auth(uint8_t *KEY, uint8_t *MAC, uint8_t *div_key, bool use_credit_key, bool elite, bool rawkey, bool verbose) {
uint8_t CSN[8] = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
uint8_t CCNR[12] = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
if (!select_only(CSN, verbose))
return false;
static bool iClass_authenticate(uint8_t *CSN, uint8_t *KEY, uint8_t *MAC, uint8_t *div_key, bool use_credit_key, bool elite, bool rawkey, bool verbose) {
//get div_key
if (rawkey)
@ -597,7 +713,10 @@ static bool select_and_auth(uint8_t *KEY, uint8_t *MAC, uint8_t *div_key, bool u
if (verbose) PrintAndLog("Couldn't get Card Challenge");
return false;
}
uint8_t CCNR[12];
memcpy(CCNR, resp.d.asBytes, 8);
memset(CCNR+8, 0x00, 4); // NR = {0, 0, 0, 0}
doMAC(CCNR, div_key, MAC);
@ -673,7 +792,7 @@ static int CmdHFiClassReader_Dump(const char *Cmd) {
uint8_t div_key[8] = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
uint8_t c_div_key[8] = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
uint8_t blockno = 0;
uint8_t numblks = 0;
uint8_t AA1_maxBlk = 0;
uint8_t maxBlk = 31;
uint8_t app_areas = 1;
uint8_t kb = 2;
@ -690,97 +809,101 @@ static int CmdHFiClassReader_Dump(const char *Cmd) {
bool elite = false;
bool rawkey = false;
bool errors = false;
bool verbose = false;
uint8_t cmdp = 0;
while(param_getchar(Cmd, cmdp) != 0x00)
{
switch(param_getchar(Cmd, cmdp))
{
case 'h':
case 'H':
usage_hf_iclass_dump();
return 0;
case 'c':
case 'C':
have_credit_key = true;
dataLen = param_getstr(Cmd, cmdp+1, tempStr, sizeof(tempStr));
if (dataLen == 16) {
errors = param_gethex(tempStr, 0, CreditKEY, dataLen);
} else if (dataLen == 1) {
keyNbr = param_get8(Cmd, cmdp+1);
if (keyNbr < ICLASS_KEYS_MAX) {
memcpy(CreditKEY, iClass_Key_Table[keyNbr], 8);
while (param_getchar(Cmd, cmdp) != 0x00 && !errors) {
switch(param_getchar(Cmd, cmdp)) {
case 'h':
case 'H':
usage_hf_iclass_dump();
return 0;
case 'c':
case 'C':
have_credit_key = true;
dataLen = param_getstr(Cmd, cmdp+1, tempStr, sizeof(tempStr));
if (dataLen == 16) {
errors = param_gethex(tempStr, 0, CreditKEY, dataLen);
} else if (dataLen == 1) {
keyNbr = param_get8(Cmd, cmdp+1);
if (keyNbr < ICLASS_KEYS_MAX) {
memcpy(CreditKEY, iClass_Key_Table[keyNbr], 8);
} else {
PrintAndLog("\nERROR: Credit KeyNbr is invalid\n");
errors = true;
}
} else {
PrintAndLog("\nERROR: Credit KeyNbr is invalid\n");
PrintAndLog("\nERROR: Credit Key is incorrect length\n");
errors = true;
}
} else {
PrintAndLog("\nERROR: Credit Key is incorrect length\n");
errors = true;
}
cmdp += 2;
break;
case 'e':
case 'E':
elite = true;
cmdp++;
break;
case 'f':
case 'F':
fileNameLen = param_getstr(Cmd, cmdp+1, filename, sizeof(filename));
if (fileNameLen < 1) {
PrintAndLog("No filename found after f");
errors = true;
}
cmdp += 2;
break;
case 'k':
case 'K':
have_debit_key = true;
dataLen = param_getstr(Cmd, cmdp+1, tempStr, sizeof(tempStr));
if (dataLen == 16) {
errors = param_gethex(tempStr, 0, KEY, dataLen);
} else if (dataLen == 1) {
keyNbr = param_get8(Cmd, cmdp+1);
if (keyNbr < ICLASS_KEYS_MAX) {
memcpy(KEY, iClass_Key_Table[keyNbr], 8);
} else {
PrintAndLog("\nERROR: Credit KeyNbr is invalid\n");
cmdp += 2;
break;
case 'e':
case 'E':
elite = true;
cmdp++;
break;
case 'f':
case 'F':
fileNameLen = param_getstr(Cmd, cmdp+1, filename, sizeof(filename));
if (fileNameLen < 1) {
PrintAndLog("No filename found after f");
errors = true;
}
} else {
PrintAndLog("\nERROR: Credit Key is incorrect length\n");
cmdp += 2;
break;
case 'k':
case 'K':
have_debit_key = true;
dataLen = param_getstr(Cmd, cmdp+1, tempStr, sizeof(tempStr));
if (dataLen == 16) {
errors = param_gethex(tempStr, 0, KEY, dataLen);
} else if (dataLen == 1) {
keyNbr = param_get8(Cmd, cmdp+1);
if (keyNbr < ICLASS_KEYS_MAX) {
memcpy(KEY, iClass_Key_Table[keyNbr], 8);
} else {
PrintAndLog("\nERROR: Credit KeyNbr is invalid\n");
errors = true;
}
} else {
PrintAndLog("\nERROR: Credit Key is incorrect length\n");
errors = true;
}
cmdp += 2;
break;
case 'r':
case 'R':
rawkey = true;
cmdp++;
break;
case 'v':
case 'V':
verbose = true;
cmdp++;
break;
default:
PrintAndLog("Unknown parameter '%c'\n", param_getchar(Cmd, cmdp));
errors = true;
}
cmdp += 2;
break;
case 'r':
case 'R':
rawkey = true;
cmdp++;
break;
default:
PrintAndLog("Unknown parameter '%c'\n", param_getchar(Cmd, cmdp));
errors = true;
break;
}
if (errors) {
usage_hf_iclass_dump();
return 0;
break;
}
}
if (cmdp < 2) {
if (errors || cmdp < 2) {
usage_hf_iclass_dump();
return 0;
}
// if no debit key given try credit key on AA1 (not for iclass but for some picopass this will work)
if (!have_debit_key && have_credit_key) use_credit_key = true;
//get config and first 3 blocks
UsbCommand c = {CMD_READER_ICLASS, {FLAG_ICLASS_READER_CSN | FLAG_ICLASS_READER_CONF}};
// if only credit key is given: try for AA1 as well (not for iclass but for some picopass this will work)
if (!have_debit_key && have_credit_key) {
use_credit_key = true;
memcpy(KEY, CreditKEY, 8);
}
// clear trace and get first 3 blocks
UsbCommand c = {CMD_READER_ICLASS, {FLAG_ICLASS_READER_INIT | FLAG_ICLASS_READER_CLEARTRACE | FLAG_ICLASS_READER_CSN | FLAG_ICLASS_READER_CONF | FLAG_ICLASS_READER_CC}};
UsbCommand resp;
uint8_t tag_data[255*8];
uint8_t tag_data[256*8];
clearCommandBuffer();
SendCommand(&c);
@ -789,150 +912,150 @@ static int CmdHFiClassReader_Dump(const char *Cmd) {
DropField();
return 0;
}
uint8_t readStatus = resp.arg[0] & 0xff;
uint8_t *data = resp.d.asBytes;
uint8_t status_mask = FLAG_ICLASS_READER_CSN | FLAG_ICLASS_READER_CONF | FLAG_ICLASS_READER_CC;
if(readStatus == 0){
PrintAndLog("No tag found...");
if (readStatus != status_mask) {
PrintAndLog("No tag found ...");
return 0;
} else {
memcpy(tag_data, data, 8*3);
if (verbose) PrintAndLog("CSN: %s", sprint_hex(tag_data, 8));
AA1_maxBlk = data[8];
getMemConfig(data[13], data[12], &maxBlk, &app_areas, &kb);
// large memory - not able to dump pages currently
if (AA1_maxBlk > maxBlk) AA1_maxBlk = maxBlk;
}
// authenticate debit key (or credit key if we have no debit key) and get div_key - later store in dump block 3
if (!iClass_authenticate(tag_data, KEY, MAC, div_key, use_credit_key, elite, rawkey, verbose)){
DropField();
return 0;
}
if( readStatus & (FLAG_ICLASS_READER_CSN|FLAG_ICLASS_READER_CONF|FLAG_ICLASS_READER_CC)){
memcpy(tag_data, data, 8*3);
blockno+=2; // 2 to force re-read of block 2 later. (seems to respond differently..)
numblks = data[8];
getMemConfig(data[13], data[12], &maxBlk, &app_areas, &kb);
// large memory - not able to dump pages currently
if (numblks > maxBlk) numblks = maxBlk;
}
DropField();
// authenticate debit key and get div_key - later store in dump block 3
if (!select_and_auth(KEY, MAC, div_key, use_credit_key, elite, rawkey, false)){
//try twice - for some reason it sometimes fails the first time...
if (!select_and_auth(KEY, MAC, div_key, use_credit_key, elite, rawkey, false)){
// read AA1
UsbCommand w = {CMD_ICLASS_DUMP};
uint32_t blocksRead = 0;
for (blockno = 3; blockno <= AA1_maxBlk; blockno += blocksRead) {
w.arg[0] = blockno;
w.arg[1] = AA1_maxBlk - blockno + 1;
clearCommandBuffer();
SendCommand(&w);
if (!WaitForResponseTimeout(CMD_ACK, &resp, 4500)) {
PrintAndLog("Command execute time-out 1");
DropField();
return 1;
}
blocksRead = resp.arg[1];
bool isOK = resp.arg[0];
if (!isOK) {
PrintAndLog("Reading AA1 block failed");
DropField();
return 0;
}
memcpy(tag_data + blockno*8, resp.d.asBytes, blocksRead*8);
}
// begin dump
UsbCommand w = {CMD_ICLASS_DUMP, {blockno, numblks-blockno+1}};
clearCommandBuffer();
SendCommand(&w);
if (!WaitForResponseTimeout(CMD_ACK, &resp, 4500)) {
PrintAndLog("Command execute time-out 1");
DropField();
return 1;
}
uint32_t blocksRead = resp.arg[1];
uint8_t isOK = resp.arg[0] & 0xff;
if (!isOK && !blocksRead) {
PrintAndLog("Read Block Failed");
DropField();
return 0;
}
uint32_t startindex = resp.arg[2];
if (blocksRead*8 > sizeof(tag_data)-(blockno*8)) {
PrintAndLog("Data exceeded Buffer size!");
blocksRead = (sizeof(tag_data)/8) - blockno;
}
// response ok - now get bigbuf content of the dump
GetFromBigBuf(tag_data+(blockno*8), blocksRead*8, startindex, NULL, -1, false);
size_t gotBytes = blocksRead*8 + blockno*8;
// try AA2
if (have_credit_key) {
//turn off hf field before authenticating with different key
DropField();
memset(MAC,0,4);
// AA2 authenticate credit key and git c_div_key - later store in dump block 4
if (!select_and_auth(CreditKEY, MAC, c_div_key, true, false, false, false)){
//try twice - for some reason it sometimes fails the first time...
if (!select_and_auth(CreditKEY, MAC, c_div_key, true, false, false, false)){
// do we still need to read more blocks (AA2 enabled)?
if (have_credit_key && maxBlk > AA1_maxBlk) {
if (!use_credit_key) {
//turn off hf field before authenticating with different key
DropField();
// AA2 authenticate credit key and git c_div_key - later store in dump block 4
uint8_t CSN[8];
if (!iClass_select(CSN, verbose, false, true) || !iClass_authenticate(CSN, CreditKEY, MAC, c_div_key, true, false, false, verbose)){
DropField();
return 0;
}
}
// do we still need to read more block? (aa2 enabled?)
if (maxBlk > blockno+numblks+1) {
// setup dump and start
w.arg[0] = blockno + blocksRead;
w.arg[1] = maxBlk - (blockno + blocksRead);
for ( ; blockno <= maxBlk; blockno += blocksRead) {
w.arg[0] = blockno;
w.arg[1] = maxBlk - blockno + 1;
clearCommandBuffer();
SendCommand(&w);
if (!WaitForResponseTimeout(CMD_ACK, &resp, 4500)) {
PrintAndLog("Command execute timeout 2");
PrintAndLog("Command execute time-out 1");
DropField();
return 0;
return 1;
}
uint8_t isOK = resp.arg[0] & 0xff;
blocksRead = resp.arg[1];
if (!isOK && !blocksRead) {
PrintAndLog("Read Block Failed 2");
bool isOK = resp.arg[0];
if (!isOK) {
PrintAndLog("Reading AA2 block failed");
DropField();
return 0;
}
startindex = resp.arg[2];
if (blocksRead*8 > sizeof(tag_data)-gotBytes) {
PrintAndLog("Data exceeded Buffer size!");
blocksRead = (sizeof(tag_data) - gotBytes)/8;
}
// get dumped data from bigbuf
GetFromBigBuf(tag_data+gotBytes, blocksRead*8, startindex, NULL, -1, false);
gotBytes += blocksRead*8;
} else { //field is still on - turn it off...
DropField();
memcpy(tag_data + blockno*8, resp.d.asBytes, blocksRead*8);
}
}
DropField();
// add diversified keys to dump
if (have_debit_key) memcpy(tag_data+(3*8),div_key,8);
if (have_credit_key) memcpy(tag_data+(4*8),c_div_key,8);
if (have_debit_key) {
memcpy(tag_data + 3*8, div_key, 8);
} else {
memset(tag_data + 3*8, 0xff, 8);
}
if (have_credit_key) {
memcpy(tag_data + 4*8, c_div_key, 8);
} else {
memset(tag_data + 4*8, 0xff, 8);
}
// print the dump
printf("------+--+-------------------------+\n");
printf("CSN |00| %s|\n",sprint_hex(tag_data, 8));
printIclassDumpContents(tag_data, 1, (gotBytes/8), gotBytes);
printIclassDumpContents(tag_data, 1, blockno-1, blockno*8);
if (filename[0] == 0){
if (filename[0] == 0) {
snprintf(filename, FILE_PATH_SIZE,"iclass_tagdump-%02x%02x%02x%02x%02x%02x%02x%02x",
tag_data[0],tag_data[1],tag_data[2],tag_data[3],
tag_data[4],tag_data[5],tag_data[6],tag_data[7]);
}
// save the dump to .bin file
PrintAndLog("Saving dump file - %d blocks read", gotBytes/8);
saveFile(filename, "bin", tag_data, gotBytes);
PrintAndLog("Saving dump file - %d blocks read", blockno);
saveFile(filename, "bin", tag_data, blockno*8);
return 1;
}
static int WriteBlock(uint8_t blockno, uint8_t *bldata, uint8_t *KEY, bool use_credit_key, bool elite, bool rawkey, bool verbose) {
uint8_t MAC[4]={0x00,0x00,0x00,0x00};
uint8_t div_key[8]={0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
if (!select_and_auth(KEY, MAC, div_key, use_credit_key, elite, rawkey, verbose))
uint8_t MAC[4] = {0x00,0x00,0x00,0x00};
uint8_t div_key[8] = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
uint8_t CSN[8];
if (!iClass_select(CSN, verbose, true, true) || !iClass_authenticate(CSN, KEY, MAC, div_key, use_credit_key, elite, rawkey, verbose)) {
DropField();
return 0;
}
UsbCommand resp;
Calc_wb_mac(blockno,bldata,div_key,MAC);
Calc_wb_mac(blockno, bldata, div_key, MAC);
UsbCommand w = {CMD_ICLASS_WRITEBLOCK, {blockno}};
memcpy(w.d.asBytes, bldata, 8);
memcpy(w.d.asBytes + 8, MAC, 4);
clearCommandBuffer();
SendCommand(&w);
if (!WaitForResponseTimeout(CMD_ACK,&resp,4500))
{
if (!WaitForResponseTimeout(CMD_ACK, &resp, 4500)) {
PrintAndLog("Write Command execute timeout");
DropField();
return 0;
}
uint8_t isOK = resp.arg[0] & 0xff;
bool isOK = resp.arg[0];
if (!isOK) {
PrintAndLog("Write Block Failed");
DropField();
return 0;
}
PrintAndLog("Write Block Successful");
return 1;
}
@ -988,9 +1111,8 @@ static int CmdHFiClass_WriteBlock(const char *Cmd) {
break;
case 'd':
case 'D':
if (param_gethex(Cmd, cmdp+1, bldata, 16))
{
PrintAndLog("KEY must include 16 HEX symbols\n");
if (param_gethex(Cmd, cmdp+1, bldata, 16)) {
PrintAndLog("Data must include 16 HEX symbols\n");
errors = true;
}
cmdp += 2;
@ -1029,7 +1151,7 @@ static int CmdHFiClass_WriteBlock(const char *Cmd) {
errors = true;
break;
}
if(errors) {
if (errors) {
usage_hf_iclass_writeblock();
return 0;
}
@ -1168,7 +1290,7 @@ static int CmdHFiClassCloneTag(const char *Cmd) {
}
// file handling and reading
f = fopen(filename,"rb");
if(!f) {
if (!f) {
PrintAndLog("Failed to read from file '%s'", filename);
return 1;
}
@ -1183,8 +1305,8 @@ static int CmdHFiClassCloneTag(const char *Cmd) {
// then copy to usbcommand->asbytes; the max is 32 - 6 = 24 block 12 bytes each block 288 bytes then we can only accept to clone 21 blocks at the time,
// else we have to create a share memory
int i;
fseek(f,startblock*8,SEEK_SET);
if ( fread(tag_data,sizeof(iclass_block_t),endblock - startblock + 1,f) == 0 ) {
fseek(f, startblock*8, SEEK_SET);
if (fread(tag_data, sizeof(iclass_block_t), endblock - startblock + 1, f) == 0 ) {
PrintAndLog("File reading error.");
fclose(f);
return 2;
@ -1192,15 +1314,18 @@ static int CmdHFiClassCloneTag(const char *Cmd) {
uint8_t MAC[4]={0x00,0x00,0x00,0x00};
uint8_t div_key[8]={0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
uint8_t CSN[8];
if (!select_and_auth(KEY, MAC, div_key, use_credit_key, elite, rawkey, true))
if (!iClass_select(CSN, true, false, false) || !iClass_authenticate(CSN, KEY, MAC, div_key, use_credit_key, elite, rawkey, true)) {
DropField();
return 0;
}
UsbCommand w = {CMD_ICLASS_CLONE,{startblock,endblock}};
UsbCommand w = {CMD_ICLASS_CLONE, {startblock, endblock}};
uint8_t *ptr;
// calculate all mac for every the block we will write
for (i = startblock; i <= endblock; i++){
Calc_wb_mac(i,tag_data[i - startblock].d,div_key,MAC);
Calc_wb_mac(i, tag_data[i - startblock].d, div_key, MAC);
// usb command d start pointer = d + (i - 6) * 12
// memcpy(pointer,tag_data[i - 6],8) 8 bytes
// memcpy(pointer + 8,mac,sizoof(mac) 4 bytes;
@ -1216,11 +1341,13 @@ static int CmdHFiClassCloneTag(const char *Cmd) {
printf(" %02x%02x%02x%02x%02x%02x%02x%02x |",p[0],p[1],p[2],p[3],p[4],p[5],p[6],p[7]);
printf(" MAC |%02x%02x%02x%02x|\n",p[8],p[9],p[10],p[11]);
}
UsbCommand resp;
SendCommand(&w);
if (!WaitForResponseTimeout(CMD_ACK,&resp,4500))
{
PrintAndLog("Command execute timeout");
DropField();
return 0;
}
return 1;
@ -1231,14 +1358,18 @@ static int ReadBlock(uint8_t *KEY, uint8_t blockno, uint8_t keyType, bool elite,
uint8_t MAC[4]={0x00,0x00,0x00,0x00};
uint8_t div_key[8]={0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
uint8_t CSN[8];
if (!iClass_select(CSN, verbose, true, true)) {
DropField();
return 0;
}
if (auth) {
if (!select_and_auth(KEY, MAC, div_key, (keyType==0x18), elite, rawkey, verbose))
return 0;
} else {
uint8_t CSN[8];
if (!select_only(CSN, verbose))
if (!iClass_authenticate(CSN, KEY, MAC, div_key, (keyType==0x18), elite, rawkey, verbose)) {
DropField();
return 0;
}
}
UsbCommand resp;
@ -1247,15 +1378,19 @@ static int ReadBlock(uint8_t *KEY, uint8_t blockno, uint8_t keyType, bool elite,
SendCommand(&w);
if (!WaitForResponseTimeout(CMD_ACK, &resp, 4500)) {
PrintAndLog("Command execute timeout");
DropField();
return 0;
}
uint8_t isOK = resp.arg[0] & 0xff;
bool isOK = resp.arg[0];
if (!isOK) {
PrintAndLog("Read Block Failed");
DropField();
return 0;
}
//data read is stored in: resp.d.asBytes[0-15]
if (verbose) PrintAndLog("Block %02X: %s\n",blockno, sprint_hex(resp.d.asBytes,8));
if (verbose)
PrintAndLog("Block %02X: %s\n",blockno, sprint_hex(resp.d.asBytes,8));
return 1;
}
@ -1604,8 +1739,11 @@ static int CmdHFiClassCalcNewKey(const char *Cmd) {
}
if (!givenCSN)
if (!select_only(CSN, true))
if (!iClass_select(CSN, true, true, true)) {
DropField();
return 0;
}
DropField();
HFiClassCalcNewKey(CSN, OLDKEY, NEWKEY, xor_div_key, elite, oldElite, true);
return 0;
@ -1893,41 +2031,44 @@ static int CmdHFiClassCheckKeys(const char *Cmd) {
// time
uint64_t t1 = msclock();
for (uint32_t c = 0; c < keycnt; c += 1) {
printf("."); fflush(stdout);
if (ukbhit()) {
int gc = getchar(); (void)gc;
printf("\naborted via keyboard!\n");
break;
}
uint8_t CSN[8];
if (!iClass_select(CSN, false, true, true)) {
PrintAndLog("Couldn't select card");
DropField();
return 0;
}
memcpy(key, keyBlock + 8 * c , 8);
for (uint32_t c = 0; c < keycnt; c++) {
printf("."); fflush(stdout);
if (ukbhit()) {
int gc = getchar(); (void)gc;
printf("\naborted via keyboard!\n");
break;
}
// debit key. try twice
for (int foo = 0; foo < 2 && !found_debit; foo++) {
if (!select_and_auth(key, mac, div_key, false, use_elite, use_raw, false))
continue;
memcpy(key, keyBlock + 8 * c , 8);
// key found.
PrintAndLog("\n--------------------------------------------------------");
PrintAndLog(" Found AA1 debit key\t\t[%s]", sprint_hex(key, 8));
found_debit = true;
}
// debit key
if (!iClass_authenticate(CSN, key, mac, div_key, false, use_elite, use_raw, false))
continue;
// credit key. try twice
for (int foo = 0; foo < 2 && !found_credit; foo++) {
if (!select_and_auth(key, mac, div_key, true, use_elite, use_raw, false))
continue;
// key found.
PrintAndLog("\n--------------------------------------------------------");
PrintAndLog(" Found AA1 debit key\t\t[%s]", sprint_hex(key, 8));
found_debit = true;
// key found
PrintAndLog("\n--------------------------------------------------------");
PrintAndLog(" Found AA2 credit key\t\t[%s]", sprint_hex(key, 8));
found_credit = true;
}
// credit key
if (!iClass_authenticate(CSN, key, mac, div_key, true, use_elite, use_raw, false))
continue;
// both keys found.
if ( found_debit && found_credit )
break;
// key found
PrintAndLog("\n--------------------------------------------------------");
PrintAndLog(" Found AA2 credit key\t\t[%s]", sprint_hex(key, 8));
found_credit = true;
// both keys found.
if (found_debit && found_credit)
break;
}
t1 = msclock() - t1;

2
client/cmdhficlass.h
View file

@ -13,6 +13,6 @@
#define CMDHFICLASS_H__
int CmdHFiClass(const char *Cmd);
int HFiClassReader(const char *Cmd, bool loop, bool verbose);
int HFiClassReader(bool loop, bool verbose);
#endif

123
common/protocols.c
View file

@ -1,7 +1,5 @@
#include <string.h>
#include <stdint.h>
#include <stdarg.h>
#include "protocols.h"
#include <stdint.h>
// ATA55xx shared presets & routines
uint32_t GetT55xxClockBit(uint32_t clock) {
@ -26,122 +24,3 @@ uint32_t GetT55xxClockBit(uint32_t clock) {
return 0;
}
}
#ifndef ON_DEVICE
#include "ui.h"
#define prnt PrintAndLog
// iclass / picopass chip config structures and shared routines
typedef struct {
uint8_t app_limit; //[8]
uint8_t otp[2]; //[9-10]
uint8_t block_writelock;//[11]
uint8_t chip_config; //[12]
uint8_t mem_config; //[13]
uint8_t eas; //[14]
uint8_t fuses; //[15]
} picopass_conf_block;
typedef struct {
uint8_t csn[8];
picopass_conf_block conf;
uint8_t epurse[8];
uint8_t key_d[8];
uint8_t key_c[8];
uint8_t app_issuer_area[8];
} picopass_hdr;
uint8_t isset(uint8_t val, uint8_t mask) {
return (val & mask);
}
uint8_t notset(uint8_t val, uint8_t mask) {
return !(val & mask);
}
void fuse_config(const picopass_hdr *hdr) {
uint8_t fuses = hdr->conf.fuses;
if (isset(fuses,FUSE_FPERS))prnt(" Mode: Personalization [Programmable]");
else prnt(" Mode: Application [Locked]");
if (isset(fuses, FUSE_CODING1))
prnt("Coding: RFU");
else
{
if( isset( fuses , FUSE_CODING0)) prnt("Coding: ISO 14443-2 B/ISO 15693");
else prnt("Coding: ISO 14443B only");
}
if( isset (fuses,FUSE_CRYPT1 | FUSE_CRYPT0 )) prnt(" Crypt: Secured page, keys not locked");
if( isset (fuses,FUSE_CRYPT1) && notset( fuses, FUSE_CRYPT0 )) prnt(" Crypt: Secured page, keys not locked");
if( notset (fuses,FUSE_CRYPT1) && isset( fuses, FUSE_CRYPT0 )) prnt(" Crypt: Non secured page");
if( notset (fuses,FUSE_CRYPT1) && notset( fuses, FUSE_CRYPT0 )) prnt(" Crypt: No auth possible. Read only if RA is enabled");
if( isset( fuses, FUSE_RA)) prnt(" RA: Read access enabled");
else prnt(" RA: Read access not enabled");
}
void getMemConfig(uint8_t mem_cfg, uint8_t chip_cfg, uint8_t *max_blk, uint8_t *app_areas, uint8_t *kb) {
// mem-bit 5, mem-bit 7, chip-bit 4: defines chip type
if(isset(chip_cfg, 0x10) && notset(mem_cfg, 0x80) && notset(mem_cfg, 0x20)) {
*kb = 2;
*app_areas = 2;
*max_blk = 31;
} else if(isset(chip_cfg, 0x10) && isset(mem_cfg, 0x80) && notset(mem_cfg, 0x20)) {
*kb = 16;
*app_areas = 2;
*max_blk = 255; //16kb
} else if(notset(chip_cfg, 0x10) && notset(mem_cfg, 0x80) && notset(mem_cfg, 0x20)) {
*kb = 16;
*app_areas = 16;
*max_blk = 255; //16kb
} else if(isset(chip_cfg, 0x10) && isset(mem_cfg, 0x80) && isset(mem_cfg, 0x20)) {
*kb = 32;
*app_areas = 3;
*max_blk = 255; //16kb
} else if(notset(chip_cfg, 0x10) && notset(mem_cfg, 0x80) && isset(mem_cfg, 0x20)) {
*kb = 32;
*app_areas = 17;
*max_blk = 255; //16kb
} else {
*kb = 32;
*app_areas = 2;
*max_blk = 255;
}
}
void mem_app_config(const picopass_hdr *hdr) {
uint8_t mem = hdr->conf.mem_config;
uint8_t chip = hdr->conf.chip_config;
uint8_t applimit = hdr->conf.app_limit;
if (applimit < 6) applimit = 26;
uint8_t kb = 2;
uint8_t app_areas = 2;
uint8_t max_blk = 31;
getMemConfig(mem, chip, &max_blk, &app_areas, &kb);
prnt(" Mem: %u KBits/%u App Areas (%u * 8 bytes) [%02X]", kb, app_areas, max_blk, mem);
prnt(" AA1: blocks 06-%02X", applimit);
prnt(" AA2: blocks %02X-%02X", applimit+1, max_blk);
}
void print_picopass_info(const picopass_hdr *hdr) {
fuse_config(hdr);
mem_app_config(hdr);
}
void printIclassDumpInfo(uint8_t* iclass_dump) {
print_picopass_info((picopass_hdr *) iclass_dump);
}
/*
void test() {
picopass_hdr hdr = {0x27,0xaf,0x48,0x01,0xf9,0xff,0x12,0xe0,0x12,0xff,0xff,0xff,0x7f,0x1f,0xff,0x3c};
prnt("Picopass configuration:");
print_picopass_info(&hdr);
}
int main(int argc, char *argv[]) {
test();
return 0;
}
*/
#endif
//ON_DEVICE

7
common/protocols.h
View file

@ -1,6 +1,9 @@
#ifndef PROTOCOLS_H
#define PROTOCOLS_H
#include <stdint.h>
//The following data is taken from http://www.proxmark.org/forum/viewtopic.php?pid=13501#p13501
/*
ISO14443A (usually NFC tags)
@ -304,10 +307,6 @@ NXP/Philips CUSTOM COMMANDS
#define ISO7816_MAX_FRAME_SIZE 261
void printIclassDumpInfo(uint8_t* iclass_dump);
void getMemConfig(uint8_t mem_cfg, uint8_t chip_cfg, uint8_t *max_blk, uint8_t *app_areas, uint8_t *kb);
/* T55x7 configuration register definitions */
#define T55x7_POR_DELAY 0x00000001
#define T55x7_ST_TERMINATOR 0x00000008

13
include/usb_cmd.h
View file

@ -237,11 +237,14 @@ typedef struct{
// iCLASS reader flags
#define FLAG_ICLASS_READER_CC 0x02
#define FLAG_ICLASS_READER_CSN 0x04
#define FLAG_ICLASS_READER_CONF 0x08
#define FLAG_ICLASS_READER_AA 0x10
#define FLAG_ICLASS_READER_CREDITKEY 0x40
#define FLAG_ICLASS_READER_INIT (1<<0)
#define FLAG_ICLASS_READER_CC (1<<1)
#define FLAG_ICLASS_READER_CSN (1<<2)
#define FLAG_ICLASS_READER_CONF (1<<3)
#define FLAG_ICLASS_READER_AA (1<<4)
#define FLAG_ICLASS_READER_CREDITKEY (1<<5)
#define FLAG_ICLASS_READER_CLEARTRACE (1<<6)
// iCLASS simulation modes
#define ICLASS_SIM_MODE_CSN 0