//----------------------------------------------------------------------------- // Copyright (C) Proxmark3 contributors. See AUTHORS.md for details. // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // See LICENSE.txt for the text of the license. //----------------------------------------------------------------------------- // High frequency CryptoRF commands (ISO14443B) //----------------------------------------------------------------------------- #include "cmdhfcryptorf.h" #include #include "fileutils.h" #include "cmdparser.h" // command_t #include "comms.h" // clearCommandBuffer #include "cmdtrace.h" #include "crc16.h" #include "protocols.h" // definitions of ISO14B protocol #include "iso14b.h" #include "cliparser.h" // cliparsing #define TIMEOUT 2000 #ifndef CRYPTORF_MEM_SIZE # define CRYPTORF_MEM_SIZE 1024 #endif static int CmdHelp(const char *Cmd); static iso14b_card_select_t last_known_card; static void set_last_known_card(iso14b_card_select_t card) { last_known_card = card; } static int switch_off_field_cryptorf(void) { SetISODEPState(ISODEP_INACTIVE); iso14b_raw_cmd_t packet = { .flags = ISO14B_DISCONNECT, .timeout = 0, .rawlen = 0, }; clearCommandBuffer(); SendCommandNG(CMD_HF_ISO14443B_COMMAND, (uint8_t *)&packet, sizeof(iso14b_raw_cmd_t)); return PM3_SUCCESS; } static int CmdHFCryptoRFList(const char *Cmd) { return CmdTraceListAlias(Cmd, "hf cryptorf", "cryptorf"); } static int CmdHFCryptoRFSim(const char *Cmd) { CLIParserContext *ctx; CLIParserInit(&ctx, "hf cryptorf sim", "Simulate a CryptoRF tag\n" _RED_("not implemented"), "hf cryptorf sim"); void *argtable[] = { arg_param_begin, arg_param_end }; CLIExecWithReturn(ctx, Cmd, argtable, false); CLIParserFree(ctx); clearCommandBuffer(); SendCommandNG(CMD_HF_CRYPTORF_SIM, NULL, 0); return PM3_SUCCESS; } static int CmdHFCryptoRFSniff(const char *Cmd) { CLIParserContext *ctx; CLIParserInit(&ctx, "hf cryptorf sniff", "Sniff the communication reader and tag", "hf cryptorf sniff\n" ); void *argtable[] = { arg_param_begin, arg_param_end }; CLIExecWithReturn(ctx, Cmd, argtable, true); CLIParserFree(ctx); clearCommandBuffer(); SendCommandNG(CMD_HF_ISO14443B_SNIFF, NULL, 0); PrintAndLogEx(HINT, "Try `" _YELLOW_("hf cryptorf list") "` to view captured tracelog"); PrintAndLogEx(HINT, "Try `" _YELLOW_("trace save -f hf_cryptorf_mytrace") "` to save tracelog for later analysing"); return PM3_SUCCESS; } static bool get_14b_UID(iso14b_card_select_t *card) { if (card == NULL) return false; int8_t retry = 3; while (retry--) { iso14b_raw_cmd_t packet = { .flags = (ISO14B_CONNECT | ISO14B_SELECT_STD | ISO14B_DISCONNECT), .timeout = 0, .rawlen = 0, }; clearCommandBuffer(); SendCommandNG(CMD_HF_ISO14443B_COMMAND, (uint8_t *)&packet, sizeof(iso14b_raw_cmd_t)); PacketResponseNG resp; if (WaitForResponseTimeout(CMD_HF_ISO14443B_COMMAND, &resp, TIMEOUT)) { if (resp.oldarg[0] == 0) { memcpy(card, (iso14b_card_select_t *)resp.data.asBytes, sizeof(iso14b_card_select_t)); return true; } } } // retry if (retry <= 0) PrintAndLogEx(FAILED, "command execution timeout"); return false; } // Print extended information about tag. static int infoHFCryptoRF(bool verbose) { iso14b_raw_cmd_t packet = { .flags = (ISO14B_CONNECT | ISO14B_SELECT_STD | ISO14B_DISCONNECT), .timeout = 0, .rawlen = 0, }; // 14b get and print UID only (general info) clearCommandBuffer(); SendCommandNG(CMD_HF_ISO14443B_COMMAND, (uint8_t *)&packet, sizeof(iso14b_raw_cmd_t)); PacketResponseNG resp; if (WaitForResponseTimeout(CMD_HF_ISO14443B_COMMAND, &resp, TIMEOUT) == false) { if (verbose) { PrintAndLogEx(WARNING, "command execution timeout"); } switch_off_field_cryptorf(); return false; } iso14b_card_select_t card; memcpy(&card, (iso14b_card_select_t *)resp.data.asBytes, sizeof(iso14b_card_select_t)); uint64_t status = resp.oldarg[0]; switch (status) { case 0: PrintAndLogEx(NORMAL, ""); PrintAndLogEx(SUCCESS, " UID : %s", sprint_hex(card.uid, card.uidlen)); PrintAndLogEx(SUCCESS, " ATQB : %s", sprint_hex(card.atqb, sizeof(card.atqb))); PrintAndLogEx(SUCCESS, " CHIPID : %02X", card.chipid); return PM3_SUCCESS; case 2: if (verbose) PrintAndLogEx(FAILED, "ISO 14443-3 ATTRIB fail"); break; case 3: if (verbose) PrintAndLogEx(FAILED, "ISO 14443-3 CRC fail"); break; default: if (verbose) PrintAndLogEx(FAILED, "ISO 14443-b card select failed"); break; } return PM3_ESOFT; } static int CmdHFCryptoRFInfo(const char *Cmd) { CLIParserContext *ctx; CLIParserInit(&ctx, "hf cryptorf info", "Act as a CryptoRF reader.", "hf cryptorf info"); void *argtable[] = { arg_param_begin, arg_lit0("v", "verbose", "verbose output"), arg_param_end }; CLIExecWithReturn(ctx, Cmd, argtable, true); bool verbose = arg_get_lit(ctx, 1); CLIParserFree(ctx); int res = infoHFCryptoRF(verbose); if (res != PM3_SUCCESS && verbose) { PrintAndLogEx(FAILED, "no CryptoRF / ISO14443-B tag found"); } return res; } // get and print general info cryptoRF int readHFCryptoRF(bool loop, bool verbose) { int res = PM3_ESOFT; do { iso14b_raw_cmd_t packet = { .flags = (ISO14B_CONNECT | ISO14B_SELECT_STD | ISO14B_DISCONNECT), .timeout = 0, .rawlen = 0, }; clearCommandBuffer(); SendCommandNG(CMD_HF_ISO14443B_COMMAND, (uint8_t *)&packet, sizeof(iso14b_raw_cmd_t)); PacketResponseNG resp; if (WaitForResponseTimeout(CMD_ACK, &resp, 2000)) { uint8_t status = resp.oldarg[0] & 0xFF; if (loop) { if (status != 0) { continue; } } else { // when not in continuous mode if (status != 0) { if (verbose) PrintAndLogEx(WARNING, "cryptoRF / ISO14443-b card select failed"); res = PM3_EOPABORTED; break; } } iso14b_card_select_t card; memcpy(&card, (iso14b_card_select_t *)resp.data.asBytes, sizeof(iso14b_card_select_t)); PrintAndLogEx(NORMAL, ""); PrintAndLogEx(SUCCESS, " UID: " _GREEN_("%s"), sprint_hex_inrow(card.uid, card.uidlen)); set_last_known_card(card); } } while (loop && kbd_enter_pressed() == false); DropField(); return res; } static int CmdHFCryptoRFReader(const char *Cmd) { CLIParserContext *ctx; CLIParserInit(&ctx, "hf cryptorf reader", "Act as a cryptoRF reader. Look for cryptoRF tags until Enter or the pm3 button is pressed", "hf cryptorf reader -@ -> continuous reader mode" ); void *argtable[] = { arg_param_begin, arg_lit0("@", NULL, "optional - continuous reader mode"), arg_param_end }; CLIExecWithReturn(ctx, Cmd, argtable, true); bool cm = arg_get_lit(ctx, 1); CLIParserFree(ctx); if (cm) { PrintAndLogEx(INFO, "Press " _GREEN_("") " to exit"); } return readHFCryptoRF(cm, false); } // need to write to file static int CmdHFCryptoRFDump(const char *Cmd) { CLIParserContext *ctx; CLIParserInit(&ctx, "hf cryptorf dump", "Dump all memory from a CryptoRF tag (512/4096 bit size)", "hf cryptorf dump\n" ); void *argtable[] = { arg_param_begin, arg_str0("f", "file", "", "filename to save dump to"), arg_lit0(NULL, "64", "64byte / 512bit memory"), arg_lit0(NULL, "512", "512byte / 4096bit memory"), arg_param_end }; CLIExecWithReturn(ctx, Cmd, argtable, true); int fnlen = 0; char filename[FILE_PATH_SIZE] = {0}; CLIParamStrToBuf(arg_get_str(ctx, 1), (uint8_t *)filename, FILE_PATH_SIZE, &fnlen); bool m64 = arg_get_lit(ctx, 2); bool m512 = arg_get_lit(ctx, 3); CLIParserFree(ctx); if (m512 + m64 > 1) { PrintAndLogEx(INFO, "Select only one card memory size"); return PM3_EINVARG; } uint16_t cardsize = 0; uint8_t blocks = 0; if (m64) { cardsize = (512 / 8) + 4; blocks = 0x0F; } if (m512) { cardsize = (4096 / 8) + 4; blocks = 0x7F; } iso14b_card_select_t card; if (get_14b_UID(&card) == false) { PrintAndLogEx(WARNING, "No tag found."); return PM3_SUCCESS; } // detect blocksize from card :) PrintAndLogEx(INFO, "Reading memory from tag UID " _GREEN_("%s"), sprint_hex(card.uid, card.uidlen)); // select tag iso14b_raw_cmd_t *packet = (iso14b_raw_cmd_t *)calloc(1, sizeof(iso14b_raw_cmd_t) + 2); if (packet == NULL) { PrintAndLogEx(FAILED, "failed to allocate memory"); return PM3_EMALLOC; } packet->flags = (ISO14B_CONNECT | ISO14B_SELECT_SR); packet->timeout = 0; packet->rawlen = 0; clearCommandBuffer(); SendCommandNG(CMD_HF_ISO14443B_COMMAND, (uint8_t *)packet, sizeof(iso14b_raw_cmd_t)); PacketResponseNG resp; // select int status; if (WaitForResponseTimeout(CMD_HF_ISO14443B_COMMAND, &resp, 2000)) { status = resp.oldarg[0]; if (status < 0) { PrintAndLogEx(FAILED, "failed to select %" PRId64 "]", resp.oldarg[0]); free(packet); return switch_off_field_cryptorf(); } } PrintAndLogEx(INFO, "." NOLF); uint8_t data[cardsize]; memset(data, 0, sizeof(data)); uint16_t blocknum = 0; for (int retry = 0; retry < 5; retry++) { // set up the read command packet->flags = (ISO14B_APPEND_CRC | ISO14B_RAW); packet->rawlen = 2; packet->raw[0] = ISO14443B_READ_BLK; packet->raw[1] = blocknum & 0xFF; clearCommandBuffer(); SendCommandNG(CMD_HF_ISO14443B_COMMAND, (uint8_t *)&packet, sizeof(iso14b_raw_cmd_t) + 2); if (WaitForResponseTimeout(CMD_HF_ISO14443B_COMMAND, &resp, 2000)) { status = resp.oldarg[0]; if (status < 0) { PrintAndLogEx(FAILED, "retrying one more time"); continue; } uint16_t len = (resp.oldarg[1] & 0xFFFF); uint8_t *recv = resp.data.asBytes; if (check_crc(CRC_14443_B, recv, len) == false) { PrintAndLogEx(FAILED, "crc fail, retrying one more time"); continue; } memcpy(data + (blocknum * 4), resp.data.asBytes, 4); // last read if (blocknum == 0xFF) { break; } retry = 0; blocknum++; if (blocknum > blocks) { // read config block blocknum = 0xFF; } PrintAndLogEx(NORMAL, "." NOLF); fflush(stdout); } } free(packet); PrintAndLogEx(NORMAL, ""); if (blocknum != 0xFF) { PrintAndLogEx(FAILED, "dump failed"); return switch_off_field_cryptorf(); } PrintAndLogEx(INFO, "block# | data | ascii"); PrintAndLogEx(INFO, "---------+--------------+----------"); for (int i = 0; i <= blocks; i++) { PrintAndLogEx(INFO, "%3d/0x%02X | %s | %s", i, i, sprint_hex(data + (i * 4), 4), sprint_ascii(data + (i * 4), 4) ); } PrintAndLogEx(INFO, "---------+--------------+----------"); PrintAndLogEx(NORMAL, ""); size_t datalen = (blocks + 1) * 4; if (fnlen < 1) { PrintAndLogEx(INFO, "Using UID as filename"); char *fptr = filename + snprintf(filename, sizeof(filename), "hf-cryptorf-"); FillFileNameByUID(fptr, card.uid, "-dump", card.uidlen); } pm3_save_dump(filename, data, datalen, jsfCryptorf); return switch_off_field_cryptorf(); } static int CmdHFCryptoRFELoad(const char *Cmd) { CLIParserContext *ctx; CLIParserInit(&ctx, "hf cryptorf eload", "Loads CryptoRF tag dump into emulator memory on device", "hf cryptorf eload -f hf-cryptorf-0102030405-dump.bin\n" ); void *argtable[] = { arg_param_begin, arg_str1("f", "file", "", "filename of dump"), arg_param_end }; CLIExecWithReturn(ctx, Cmd, argtable, false); int fnlen = 0; char filename[FILE_PATH_SIZE] = {0}; CLIParamStrToBuf(arg_get_str(ctx, 1), (uint8_t *)filename, FILE_PATH_SIZE, &fnlen); CLIParserFree(ctx); if (fnlen == 0) { PrintAndLogEx(ERR, "Error: Please specify a filename"); return PM3_EINVARG; } size_t datalen = CRYPTORF_MEM_SIZE; // set up buffer uint8_t *data = calloc(datalen, sizeof(uint8_t)); if (!data) { PrintAndLogEx(WARNING, "Fail, cannot allocate memory"); return PM3_EMALLOC; } if (loadFile_safe(filename, ".bin", (void **)&data, &datalen) != PM3_SUCCESS) { free(data); PrintAndLogEx(WARNING, "Error, reading file"); return PM3_EFILE; } PrintAndLogEx(SUCCESS, "Uploading to emulator memory"); uint32_t bytes_sent = 0; /* //Send to device uint32_t bytes_remaining = bytes_read; while (bytes_remaining > 0) { uint32_t bytes_in_packet = MIN(PM3_CMD_DATA_SIZE, bytes_remaining); if (bytes_in_packet == bytes_remaining) { // Disable fast mode on last packet g_conn.block_after_ACK = false; } clearCommandBuffer(); SendCommandMIX(CMD_HF_CRYPTORF_EML_MEMSET, bytes_sent, bytes_in_packet, 0, data + bytes_sent, bytes_in_packet); bytes_remaining -= bytes_in_packet; bytes_sent += bytes_in_packet; } */ free(data); PrintAndLogEx(SUCCESS, "sent %d bytes of data to device emulator memory", bytes_sent); return PM3_SUCCESS; } static int CmdHFCryptoRFESave(const char *Cmd) { CLIParserContext *ctx; CLIParserInit(&ctx, "hf cryptorf esave", "Save emulator memory to to two files (bin/json)\n" "if filename is not supplied, UID will be used.", "hf cryptorf esave\n" "hf cryptorf esave -f filename" ); void *argtable[] = { arg_param_begin, arg_str0("f", "file", "", "filename of dump"), arg_param_end }; CLIExecWithReturn(ctx, Cmd, argtable, true); int fnlen = 0; char filename[FILE_PATH_SIZE] = {0}; CLIParamStrToBuf(arg_get_str(ctx, 1), (uint8_t *)filename, FILE_PATH_SIZE, &fnlen); CLIParserFree(ctx); size_t numofbytes = CRYPTORF_MEM_SIZE; // set up buffer uint8_t *data = calloc(numofbytes, sizeof(uint8_t)); if (data == NULL) { PrintAndLogEx(WARNING, "Fail, cannot allocate memory"); return PM3_EMALLOC; } // download emulator memory PrintAndLogEx(SUCCESS, "Reading emulator memory..."); if (GetFromDevice(BIG_BUF_EML, data, numofbytes, 0, NULL, 0, NULL, 2500, false) == false) { PrintAndLogEx(WARNING, "Fail, transfer from device time-out"); free(data); return PM3_ETIMEOUT; } // user supplied filename? if (fnlen < 1) { PrintAndLogEx(INFO, "Using UID as filename"); char *fptr = filename + snprintf(filename, sizeof(filename), "hf-cryptorf-"); FillFileNameByUID(fptr, data, "-dump", 4); } pm3_save_dump(filename, data, numofbytes, jsfCryptorf); free(data); return PM3_SUCCESS; } static command_t CommandTable[] = { {"help", CmdHelp, AlwaysAvailable, "This help"}, {"dump", CmdHFCryptoRFDump, IfPm3Iso14443b, "Read all memory pages of an CryptoRF tag, save to file"}, {"info", CmdHFCryptoRFInfo, IfPm3Iso14443b, "Tag information"}, {"list", CmdHFCryptoRFList, AlwaysAvailable, "List ISO 14443B history"}, {"reader", CmdHFCryptoRFReader, IfPm3Iso14443b, "Act as a CryptoRF reader to identify a tag"}, {"sim", CmdHFCryptoRFSim, IfPm3Iso14443b, "Fake CryptoRF tag"}, {"sniff", CmdHFCryptoRFSniff, IfPm3Iso14443b, "Eavesdrop CryptoRF"}, {"eload", CmdHFCryptoRFELoad, AlwaysAvailable, "Load binary dump to emulator memory"}, {"esave", CmdHFCryptoRFESave, AlwaysAvailable, "Save emulator memory to binary file"}, {NULL, NULL, NULL, NULL} }; static int CmdHelp(const char *Cmd) { (void)Cmd; // Cmd is not used so far CmdsHelp(CommandTable); return PM3_SUCCESS; } int CmdHFCryptoRF(const char *Cmd) { clearCommandBuffer(); return CmdsParse(CommandTable, Cmd); }