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cmdhf.c
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//-----------------------------------------------------------------------------
// Copyright (C) 2010 iZsh <izsh at fail0verflow.com>
// Merlok - 2017
//
// This code is licensed to you under the terms of the GNU GPL, version 2 or,
// at your option, any later version. See the LICENSE.txt file for the text of
// the license.
//-----------------------------------------------------------------------------
// High frequency commands
//-----------------------------------------------------------------------------
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include "proxmark3.h"
#include "util.h"
#include "data.h"
#include "ui.h"
#include "iso14443crc.h"
#include "parity.h"
#include "cmdmain.h"
#include "cmdparser.h"
#include "cmdhf.h"
#include "cmdhf14a.h"
#include "cmdhf14b.h"
#include "cmdhf15.h"
#include "cmdhfepa.h"
#include "cmdhflegic.h"
#include "cmdhficlass.h"
#include "cmdhfmf.h"
#include "cmdhfmfu.h"
#include "cmdhftopaz.h"
#include "protocols.h"
#include "emv/cmdemv.h"
#include "cmdhflist.h"
static int CmdHelp(const char *Cmd);
int CmdHFTune(const char *Cmd)
{
UsbCommand c={CMD_MEASURE_ANTENNA_TUNING_HF};
SendCommand(&c);
return 0;
}
/**
* @brief iso14443B_CRC_check Checks CRC in command or response
* @param isResponse
* @param data
* @param len
* @return 0 : CRC-command, CRC not ok
* 1 : CRC-command, CRC ok
* 2 : Not crc-command
*/
uint8_t iso14443B_CRC_check(bool isResponse, uint8_t* data, uint8_t len)
{
uint8_t b1,b2;
if(len <= 2) return 2;
ComputeCrc14443(CRC_14443_B, data, len-2, &b1, &b2);
if(b1 != data[len-2] || b2 != data[len-1]) {
return 0;
} else {
return 1;
}
}
/**
* @brief iclass_CRC_Ok Checks CRC in command or response
* @param isResponse
* @param data
* @param len
* @return 0 : CRC-command, CRC not ok
* 1 : CRC-command, CRC ok
* 2 : Not crc-command
*/
uint8_t iclass_CRC_check(bool isResponse, uint8_t* data, uint8_t len)
{
if(len < 4) return 2;//CRC commands (and responses) are all at least 4 bytes
uint8_t b1, b2;
if(!isResponse)//Commands to tag
{
/**
These commands should have CRC. Total length leftmost
4 READ
4 READ4
12 UPDATE - unsecured, ends with CRC16
14 UPDATE - secured, ends with signature instead
4 PAGESEL
**/
if(len == 4 || len == 12)//Covers three of them
{
//Don't include the command byte
ComputeCrc14443(CRC_ICLASS, (data+1), len-3, &b1, &b2);
return b1 == data[len -2] && b2 == data[len-1];
}
return 2;
}else{
/**
These tag responses should have CRC. Total length leftmost
10 READ data[8] crc[2]
34 READ4 data[32]crc[2]
10 UPDATE data[8] crc[2]
10 SELECT csn[8] crc[2]
10 IDENTIFY asnb[8] crc[2]
10 PAGESEL block1[8] crc[2]
10 DETECT csn[8] crc[2]
These should not
4 CHECK chip_response[4]
8 READCHECK data[8]
1 ACTALL sof[1]
1 ACT sof[1]
In conclusion, without looking at the command; any response
of length 10 or 34 should have CRC
**/
if(len != 10 && len != 34) return true;
ComputeCrc14443(CRC_ICLASS, data, len-2, &b1, &b2);
return b1 == data[len -2] && b2 == data[len-1];
}
}
bool is_last_record(uint16_t tracepos, uint8_t *trace, uint16_t traceLen)
{
return(tracepos + sizeof(uint32_t) + sizeof(uint16_t) + sizeof(uint16_t) >= traceLen);
}
bool next_record_is_response(uint16_t tracepos, uint8_t *trace)
{
uint16_t next_records_datalen = *((uint16_t *)(trace + tracepos + sizeof(uint32_t) + sizeof(uint16_t)));
return(next_records_datalen & 0x8000);
}
bool merge_topaz_reader_frames(uint32_t timestamp, uint32_t *duration, uint16_t *tracepos, uint16_t traceLen, uint8_t *trace, uint8_t *frame, uint8_t *topaz_reader_command, uint16_t *data_len)
{
#define MAX_TOPAZ_READER_CMD_LEN 16
uint32_t last_timestamp = timestamp + *duration;
if ((*data_len != 1) || (frame[0] == TOPAZ_WUPA) || (frame[0] == TOPAZ_REQA)) return false;
memcpy(topaz_reader_command, frame, *data_len);
while (!is_last_record(*tracepos, trace, traceLen) && !next_record_is_response(*tracepos, trace)) {
uint32_t next_timestamp = *((uint32_t *)(trace + *tracepos));
*tracepos += sizeof(uint32_t);
uint16_t next_duration = *((uint16_t *)(trace + *tracepos));
*tracepos += sizeof(uint16_t);
uint16_t next_data_len = *((uint16_t *)(trace + *tracepos)) & 0x7FFF;
*tracepos += sizeof(uint16_t);
uint8_t *next_frame = (trace + *tracepos);
*tracepos += next_data_len;
if ((next_data_len == 1) && (*data_len + next_data_len <= MAX_TOPAZ_READER_CMD_LEN)) {
memcpy(topaz_reader_command + *data_len, next_frame, next_data_len);
*data_len += next_data_len;
last_timestamp = next_timestamp + next_duration;
} else {
// rewind and exit
*tracepos = *tracepos - next_data_len - sizeof(uint16_t) - sizeof(uint16_t) - sizeof(uint32_t);
break;
}
uint16_t next_parity_len = (next_data_len-1)/8 + 1;
*tracepos += next_parity_len;
}
*duration = last_timestamp - timestamp;
return true;
}
uint16_t printTraceLine(uint16_t tracepos, uint16_t traceLen, uint8_t *trace, uint8_t protocol, bool showWaitCycles, bool markCRCBytes)
{
bool isResponse;
uint16_t data_len, parity_len;
uint32_t duration;
uint8_t topaz_reader_command[9];
uint32_t timestamp, first_timestamp, EndOfTransmissionTimestamp;
char explanation[30] = {0};
uint8_t mfData[32] = {0};
size_t mfDataLen = 0;
if (tracepos + sizeof(uint32_t) + sizeof(uint16_t) + sizeof(uint16_t) > traceLen) return traceLen;
first_timestamp = *((uint32_t *)(trace));
timestamp = *((uint32_t *)(trace + tracepos));
tracepos += 4;
duration = *((uint16_t *)(trace + tracepos));
tracepos += 2;
data_len = *((uint16_t *)(trace + tracepos));
tracepos += 2;
if (data_len & 0x8000) {
data_len &= 0x7fff;
isResponse = true;
} else {
isResponse = false;
}
parity_len = (data_len-1)/8 + 1;
if (tracepos + data_len + parity_len > traceLen) {
return traceLen;
}
uint8_t *frame = trace + tracepos;
tracepos += data_len;
uint8_t *parityBytes = trace + tracepos;
tracepos += parity_len;
if (protocol == TOPAZ && !isResponse) {
// topaz reader commands come in 1 or 9 separate frames with 7 or 8 Bits each.
// merge them:
if (merge_topaz_reader_frames(timestamp, &duration, &tracepos, traceLen, trace, frame, topaz_reader_command, &data_len)) {
frame = topaz_reader_command;
}
}
//Check the CRC status
uint8_t crcStatus = 2;
if (data_len > 2) {
switch (protocol) {
case ICLASS:
crcStatus = iclass_CRC_check(isResponse, frame, data_len);
break;
case ISO_14443B:
case TOPAZ:
crcStatus = iso14443B_CRC_check(isResponse, frame, data_len);
break;
case PROTO_MIFARE:
crcStatus = mifare_CRC_check(isResponse, frame, data_len);
break;
case ISO_14443A:
crcStatus = iso14443A_CRC_check(isResponse, frame, data_len);
break;
default:
break;
}
}
//0 CRC-command, CRC not ok
//1 CRC-command, CRC ok
//2 Not crc-command
//--- Draw the data column
//char line[16][110];
char line[16][110];
for (int j = 0; j < data_len && j/16 < 16; j++) {
uint8_t parityBits = parityBytes[j>>3];
if (protocol != ISO_14443B && (isResponse || protocol == ISO_14443A) && (oddparity8(frame[j]) != ((parityBits >> (7-(j&0x0007))) & 0x01))) {
snprintf(line[j/16]+(( j % 16) * 4),110, "%02x! ", frame[j]);
} else {
snprintf(line[j/16]+(( j % 16) * 4), 110, " %02x ", frame[j]);
}
}
if (markCRCBytes) {
if(crcStatus == 0 || crcStatus == 1)
{//CRC-command
char *pos1 = line[(data_len-2)/16]+(((data_len-2) % 16) * 4);
(*pos1) = '[';
char *pos2 = line[(data_len)/16]+(((data_len) % 16) * 4);
sprintf(pos2, "%c", ']');
}
}
if(data_len == 0)
{
if(data_len == 0){
sprintf(line[0],"<empty trace - possible error>");
}
}
//--- Draw the CRC column
char *crc = (crcStatus == 0 ? "!crc" : (crcStatus == 1 ? " ok " : " "));
EndOfTransmissionTimestamp = timestamp + duration;
if (protocol == PROTO_MIFARE)
annotateMifare(explanation, sizeof(explanation), frame, data_len, parityBytes, parity_len, isResponse);
if(!isResponse)
{
switch(protocol) {
case ICLASS: annotateIclass(explanation,sizeof(explanation),frame,data_len); break;
case ISO_14443A: annotateIso14443a(explanation,sizeof(explanation),frame,data_len); break;
case ISO_14443B: annotateIso14443b(explanation,sizeof(explanation),frame,data_len); break;
case TOPAZ: annotateTopaz(explanation,sizeof(explanation),frame,data_len); break;
default: break;
}
}
int num_lines = MIN((data_len - 1)/16 + 1, 16);
for (int j = 0; j < num_lines ; j++) {
if (j == 0) {
PrintAndLog(" %10d | %10d | %s |%-64s | %s| %s",
(timestamp - first_timestamp),
(EndOfTransmissionTimestamp - first_timestamp),
(isResponse ? "Tag" : "Rdr"),
line[j],
(j == num_lines-1) ? crc : " ",
(j == num_lines-1) ? explanation : "");
} else {
PrintAndLog(" | | |%-64s | %s| %s",
line[j],
(j == num_lines-1) ? crc : " ",
(j == num_lines-1) ? explanation : "");
}
}
if (DecodeMifareData(frame, data_len, parityBytes, isResponse, mfData, &mfDataLen)) {
memset(explanation, 0x00, sizeof(explanation));
if (!isResponse) {
explanation[0] = '>';
annotateIso14443a(&explanation[1], sizeof(explanation) - 1, mfData, mfDataLen);
}
uint8_t crcc = iso14443A_CRC_check(isResponse, mfData, mfDataLen);
PrintAndLog(" | * | dec |%-64s | %-4s| %s",
sprint_hex(mfData, mfDataLen),
(crcc == 0 ? "!crc" : (crcc == 1 ? " ok " : " ")),
(true) ? explanation : "");
};
if (is_last_record(tracepos, trace, traceLen)) return traceLen;
if (showWaitCycles && !isResponse && next_record_is_response(tracepos, trace)) {
uint32_t next_timestamp = *((uint32_t *)(trace + tracepos));
PrintAndLog(" %10d | %10d | %s | fdt (Frame Delay Time): %d",
(EndOfTransmissionTimestamp - first_timestamp),
(next_timestamp - first_timestamp),
" ",
(next_timestamp - EndOfTransmissionTimestamp));
}
return tracepos;
}
int CmdHFList(const char *Cmd)
{
bool showWaitCycles = false;
bool markCRCBytes = false;
bool loadFromFile = false;
bool saveToFile = false;
char param1 = '\0';
char param2 = '\0';
char param3 = '\0';
char type[40] = {0};
char filename[FILE_PATH_SIZE];
uint8_t protocol = 0;
// parse command line
int tlen = param_getstr(Cmd, 0, type, sizeof(type));
if (param_getlength(Cmd, 1) == 1) {
param1 = param_getchar(Cmd, 1);
} else {
param_getstr(Cmd, 1, filename, sizeof(filename));
}
if (param_getlength(Cmd, 2) == 1) {
param2 = param_getchar(Cmd, 2);
} else if (strlen(filename) == 0) {
param_getstr(Cmd, 2, filename, sizeof(filename));
}
if (param_getlength(Cmd, 3) == 1) {
param3 = param_getchar(Cmd, 3);
} else if (strlen(filename) == 0) {
param_getstr(Cmd, 3, filename, sizeof(filename));
}
// Validate param1
bool errors = false;
if(tlen == 0) {
errors = true;
}
if(param1 == 'h'
|| (param1 != 0 && param1 != 'f' && param1 != 'c' && param1 != 'l')
|| (param2 != 0 && param2 != 'f' && param2 != 'c' && param2 != 'l')
|| (param3 != 0 && param3 != 'f' && param3 != 'c' && param3 != 'l')) {
errors = true;
}
if(!errors) {
if(strcmp(type, "iclass") == 0) {
protocol = ICLASS;
} else if(strcmp(type, "mf") == 0) {
protocol = PROTO_MIFARE;
} else if(strcmp(type, "14a") == 0) {
protocol = ISO_14443A;
} else if(strcmp(type, "14b") == 0) {
protocol = ISO_14443B;
} else if(strcmp(type,"topaz") == 0) {
protocol = TOPAZ;
} else if(strcmp(type,"raw") == 0) {
protocol = -1; //No crc, no annotations
} else if (strcmp(type, "save") == 0) {
saveToFile = true;
} else {
errors = true;
}
}
if (param1 == 'f' || param2 == 'f' || param3 == 'f') {
showWaitCycles = true;
}
if (param1 == 'c' || param2 == 'c' || param3 == 'c') {
markCRCBytes = true;
}
if (param1 == 'l' || param2 == 'l' || param3 == 'l') {
loadFromFile = true;
}
if ((loadFromFile || saveToFile) && strlen(filename) == 0) {
errors = true;
}
if (loadFromFile && saveToFile) {
errors = true;
}
if (errors) {
PrintAndLog("List or save protocol data.");
PrintAndLog("Usage: hf list <protocol> [f] [c] [l <filename>]");
PrintAndLog(" hf list save <filename>");
PrintAndLog(" f - show frame delay times as well");
PrintAndLog(" c - mark CRC bytes");
PrintAndLog(" l - load data from file instead of trace buffer");
PrintAndLog(" save - save data to file");
PrintAndLog("Supported <protocol> values:");
PrintAndLog(" raw - just show raw data without annotations");
PrintAndLog(" 14a - interpret data as iso14443a communications");
PrintAndLog(" mf - interpret data as iso14443a communications and decrypt crypto1 stream");
PrintAndLog(" 14b - interpret data as iso14443b communications");
PrintAndLog(" iclass - interpret data as iclass communications");
PrintAndLog(" topaz - interpret data as topaz communications");
PrintAndLog("");
PrintAndLog("example: hf list 14a f");
PrintAndLog("example: hf list iclass");
PrintAndLog("example: hf list save myCardTrace.trc");
PrintAndLog("example: hf list 14a l myCardTrace.trc");
return 0;
}
uint8_t *trace;
uint32_t tracepos = 0;
uint32_t traceLen = 0;
if (loadFromFile) {
#define TRACE_CHUNK_SIZE (1<<16) // 64K to start with. Will be enough for BigBuf and some room for future extensions
FILE *tracefile = NULL;
size_t bytes_read;
trace = malloc(TRACE_CHUNK_SIZE);
if (trace == NULL) {
PrintAndLog("Cannot allocate memory for trace");
return 2;
}
if ((tracefile = fopen(filename,"rb")) == NULL) {
PrintAndLog("Could not open file %s", filename);
free(trace);
return 0;
}
while (!feof(tracefile)) {
bytes_read = fread(trace+traceLen, 1, TRACE_CHUNK_SIZE, tracefile);
traceLen += bytes_read;
if (!feof(tracefile)) {
uint8_t *p = realloc(trace, traceLen + TRACE_CHUNK_SIZE);
if (p == NULL) {
PrintAndLog("Cannot allocate memory for trace");
free(trace);
fclose(tracefile);
return 2;
}
trace = p;
}
}
fclose(tracefile);
} else {
trace = malloc(USB_CMD_DATA_SIZE);
// Query for the size of the trace
UsbCommand response;
GetFromBigBuf(trace, USB_CMD_DATA_SIZE, 0);
WaitForResponse(CMD_ACK, &response);
traceLen = response.arg[2];
if (traceLen > USB_CMD_DATA_SIZE) {
uint8_t *p = realloc(trace, traceLen);
if (p == NULL) {
PrintAndLog("Cannot allocate memory for trace");
free(trace);
return 2;
}
trace = p;
GetFromBigBuf(trace, traceLen, 0);
WaitForResponse(CMD_ACK, NULL);
}
}
if (saveToFile) {
FILE *tracefile = NULL;
if ((tracefile = fopen(filename,"wb")) == NULL) {
PrintAndLog("Could not create file %s", filename);
return 1;
}
fwrite(trace, 1, traceLen, tracefile);
PrintAndLog("Recorded Activity (TraceLen = %d bytes) written to file %s", traceLen, filename);
fclose(tracefile);
} else {
PrintAndLog("Recorded Activity (TraceLen = %d bytes)", traceLen);
PrintAndLog("");
PrintAndLog("Start = Start of Start Bit, End = End of last modulation. Src = Source of Transfer");
PrintAndLog("iso14443a - All times are in carrier periods (1/13.56Mhz)");
PrintAndLog("iClass - Timings are not as accurate");
PrintAndLog("");
PrintAndLog(" Start | End | Src | Data (! denotes parity error) | CRC | Annotation |");
PrintAndLog("------------|------------|-----|-----------------------------------------------------------------|-----|--------------------|");
ClearAuthData();
while(tracepos < traceLen)
{
tracepos = printTraceLine(tracepos, traceLen, trace, protocol, showWaitCycles, markCRCBytes);
}
}
free(trace);
return 0;
}
int CmdHFSearch(const char *Cmd){
int ans = 0;
PrintAndLog("");
ans = CmdHF14AInfo("s");
if (ans > 0) {
PrintAndLog("\nValid ISO14443A Tag Found - Quiting Search\n");
return ans;
}
ans = HFiClassReader("", false, false);
if (ans) {
PrintAndLog("\nValid iClass Tag (or PicoPass Tag) Found - Quiting Search\n");
return ans;
}
ans = HF15Reader("", false);
if (ans) {
PrintAndLog("\nValid ISO15693 Tag Found - Quiting Search\n");
return ans;
}
//14b is longest test currently (and rarest chip type) ... put last
ans = HF14BInfo(false);
if (ans) {
PrintAndLog("\nValid ISO14443B Tag Found - Quiting Search\n");
return ans;
}
PrintAndLog("\nno known/supported 13.56 MHz tags found\n");
return 0;
}
int CmdHFSnoop(const char *Cmd)
{
char * pEnd;
UsbCommand c = {CMD_HF_SNIFFER, {strtol(Cmd, &pEnd,0),strtol(pEnd, &pEnd,0),0}};
SendCommand(&c);
return 0;
}
static command_t CommandTable[] =
{
{"help", CmdHelp, 1, "This help"},
{"14a", CmdHF14A, 1, "{ ISO14443A RFIDs... }"},
{"14b", CmdHF14B, 1, "{ ISO14443B RFIDs... }"},
{"15", CmdHF15, 1, "{ ISO15693 RFIDs... }"},
{"epa", CmdHFEPA, 1, "{ German Identification Card... }"},
{"emv", CmdHFEMV, 1, "{ EMV cards... }"},
{"legic", CmdHFLegic, 0, "{ LEGIC RFIDs... }"},
{"iclass", CmdHFiClass, 1, "{ ICLASS RFIDs... }"},
{"mf", CmdHFMF, 1, "{ MIFARE RFIDs... }"},
{"mfu", CmdHFMFUltra, 1, "{ MIFARE Ultralight RFIDs... }"},
{"topaz", CmdHFTopaz, 1, "{ TOPAZ (NFC Type 1) RFIDs... }"},
{"tune", CmdHFTune, 0, "Continuously measure HF antenna tuning"},
{"list", CmdHFList, 1, "List protocol data in trace buffer"},
{"search", CmdHFSearch, 1, "Search for known HF tags [preliminary]"},
{"snoop", CmdHFSnoop, 0, "<samples to skip (10000)> <triggers to skip (1)> Generic HF Snoop"},
{NULL, NULL, 0, NULL}
};
int CmdHF(const char *Cmd)
{
CmdsParse(CommandTable, Cmd);
return 0;
}
int CmdHelp(const char *Cmd)
{
CmdsHelp(CommandTable);
return 0;
}