/***************************************************************************** * WARNING * * THIS CODE IS CREATED FOR EXPERIMENTATION AND EDUCATIONAL USE ONLY. * * USAGE OF THIS CODE IN OTHER WAYS MAY INFRINGE UPON THE INTELLECTUAL * PROPERTY OF OTHER PARTIES, SUCH AS INSIDE SECURE AND HID GLOBAL, * AND MAY EXPOSE YOU TO AN INFRINGEMENT ACTION FROM THOSE PARTIES. * * THIS CODE SHOULD NEVER BE USED TO INFRINGE PATENTS OR INTELLECTUAL PROPERTY RIGHTS. * ***************************************************************************** * * This file is part of loclass. It is a reconstructon of the cipher engine * used in iClass, and RFID techology. * * The implementation is based on the work performed by * Flavio D. Garcia, Gerhard de Koning Gans, Roel Verdult and * Milosch Meriac in the paper "Dismantling IClass". * * Copyright (C) 2014 Martin Holst Swende * * This is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as published * by the Free Software Foundation, or, at your option, any later version. * * This file 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. * * You should have received a copy of the GNU General Public License * along with loclass. If not, see . * * ****************************************************************************/ // this define is needed for scandir/alphasort to work #define _GNU_SOURCE #include "fileutils.h" #include "preferences.h" #include #include #include "pm3_cmd.h" #include "commonutil.h" #include "proxmark3.h" #include "util.h" #ifdef _WIN32 #include "scandir.h" #endif #define PATH_MAX_LENGTH 200 struct wave_info_t { char signature[4]; uint32_t filesize; char type[4]; struct { char tag[4]; uint32_t size; uint16_t codec; uint16_t nb_channel; uint32_t sample_per_sec; uint32_t byte_per_sec; uint16_t block_align; uint16_t bit_per_sample; } PACKED format; struct { char tag[4]; uint32_t size; } PACKED audio_data; } PACKED; /** * @brief checks if a file exists * @param filename * @return */ int fileExists(const char *filename) { #ifdef _WIN32 struct _stat st; int result = _stat(filename, &st); #else struct stat st; int result = stat(filename, &st); #endif return result == 0; } /** * @brief checks if path is file. * @param filename * @return */ /* static bool is_regular_file(const char *filename) { #ifdef _WIN32 struct _stat st; if (_stat(filename, &st) == -1) return false; #else struct stat st; // stat(filename, &st); if (lstat(filename, &st) == -1) return false; #endif return S_ISREG(st.st_mode) != 0; } */ /** * @brief checks if path is directory. * @param filename * @return */ static bool is_directory(const char *filename) { #ifdef _WIN32 struct _stat st; if (_stat(filename, &st) == -1) return false; #else struct stat st; // stat(filename, &st); if (lstat(filename, &st) == -1) return false; #endif return S_ISDIR(st.st_mode) != 0; } static char *filenamemcopy(const char *preferredName, const char *suffix) { if (preferredName == NULL) return NULL; if (suffix == NULL) return NULL; char *fileName = (char *) calloc(strlen(preferredName) + strlen(suffix) + 1, sizeof(uint8_t)); if (fileName == NULL) return NULL; strcpy(fileName, preferredName); if (str_endswith(fileName, suffix)) return fileName; strcat(fileName, suffix); return fileName; } static char *newfilenamemcopy(const char *preferredName, const char *suffix) { if (preferredName == NULL) return NULL; if (suffix == NULL) return NULL; uint16_t preferredNameLen = strlen(preferredName); if (str_endswith(preferredName, suffix)) preferredNameLen -= strlen(suffix); char *fileName = (char *) calloc(preferredNameLen + strlen(suffix) + 1 + 10, sizeof(uint8_t)); // 10: room for filenum to ensure new filename if (fileName == NULL) { return NULL; } int num = 1; sprintf(fileName, "%.*s%s", preferredNameLen, preferredName, suffix); while (fileExists(fileName)) { sprintf(fileName, "%.*s-%d%s", preferredNameLen, preferredName, num, suffix); num++; } return fileName; } int saveFile(const char *preferredName, const char *suffix, const void *data, size_t datalen) { if (data == NULL) return PM3_EINVARG; char *fileName = newfilenamemcopy(preferredName, suffix); if (fileName == NULL) return PM3_EMALLOC; /* We should have a valid filename now, e.g. dumpdata-3.bin */ /*Opening file for writing in binary mode*/ FILE *f = fopen(fileName, "wb"); if (!f) { PrintAndLogEx(WARNING, "file not found or locked. '" _YELLOW_("%s")"'", fileName); free(fileName); return PM3_EFILE; } fwrite(data, 1, datalen, f); fflush(f); fclose(f); PrintAndLogEx(SUCCESS, "saved " _YELLOW_("%zu") "bytes to binary file " _YELLOW_("%s"), datalen, fileName); free(fileName); return PM3_SUCCESS; } int saveFileEML(const char *preferredName, uint8_t *data, size_t datalen, size_t blocksize) { if (data == NULL) return PM3_EINVARG; char *fileName = newfilenamemcopy(preferredName, ".eml"); if (fileName == NULL) return PM3_EMALLOC; int retval = PM3_SUCCESS; int blocks = datalen / blocksize; uint16_t currblock = 1; /* We should have a valid filename now, e.g. dumpdata-3.bin */ /*Opening file for writing in text mode*/ FILE *f = fopen(fileName, "w+"); if (!f) { PrintAndLogEx(WARNING, "file not found or locked. '" _YELLOW_("%s")"'", fileName); retval = PM3_EFILE; goto out; } for (size_t i = 0; i < datalen; i++) { fprintf(f, "%02X", data[i]); // no extra line in the end if ((i + 1) % blocksize == 0 && currblock != blocks) { fprintf(f, "\n"); currblock++; } } // left overs if (datalen % blocksize != 0) { int index = blocks * blocksize; for (size_t j = 0; j < datalen % blocksize; j++) { fprintf(f, "%02X", data[index + j]); } } fflush(f); fclose(f); PrintAndLogEx(SUCCESS, "saved " _YELLOW_("%" PRId32) "blocks to text file " _YELLOW_("%s"), blocks, fileName); out: free(fileName); return retval; } int saveFileJSON(const char *preferredName, JSONFileType ftype, uint8_t *data, size_t datalen) { if (data == NULL) return PM3_EINVARG; char *fileName = newfilenamemcopy(preferredName, ".json"); if (fileName == NULL) return PM3_EMALLOC; int retval = PM3_SUCCESS; json_t *root = json_object(); JsonSaveStr(root, "Created", "proxmark3"); switch (ftype) { case jsfRaw: { JsonSaveStr(root, "FileType", "raw"); JsonSaveBufAsHexCompact(root, "raw", data, datalen); break; } case jsfCardMemory: { JsonSaveStr(root, "FileType", "mfcard"); for (size_t i = 0; i < (datalen / 16); i++) { char path[PATH_MAX_LENGTH] = {0}; sprintf(path, "$.blocks.%zu", i); JsonSaveBufAsHexCompact(root, path, &data[i * 16], 16); if (i == 0) { JsonSaveBufAsHexCompact(root, "$.Card.UID", &data[0], 4); JsonSaveBufAsHexCompact(root, "$.Card.SAK", &data[5], 1); JsonSaveBufAsHexCompact(root, "$.Card.ATQA", &data[6], 2); } if (mfIsSectorTrailer(i)) { memset(path, 0x00, sizeof(path)); sprintf(path, "$.SectorKeys.%d.KeyA", mfSectorNum(i)); JsonSaveBufAsHexCompact(root, path, &data[i * 16], 6); memset(path, 0x00, sizeof(path)); sprintf(path, "$.SectorKeys.%d.KeyB", mfSectorNum(i)); JsonSaveBufAsHexCompact(root, path, &data[i * 16 + 10], 6); memset(path, 0x00, sizeof(path)); uint8_t *adata = &data[i * 16 + 6]; sprintf(path, "$.SectorKeys.%d.AccessConditions", mfSectorNum(i)); JsonSaveBufAsHexCompact(root, path, &data[i * 16 + 6], 4); memset(path, 0x00, sizeof(path)); sprintf(path, "$.SectorKeys.%d.AccessConditionsText.block%zu", mfSectorNum(i), i - 3); JsonSaveStr(root, path, mfGetAccessConditionsDesc(0, adata)); memset(path, 0x00, sizeof(path)); sprintf(path, "$.SectorKeys.%d.AccessConditionsText.block%zu", mfSectorNum(i), i - 2); JsonSaveStr(root, path, mfGetAccessConditionsDesc(1, adata)); memset(path, 0x00, sizeof(path)); sprintf(path, "$.SectorKeys.%d.AccessConditionsText.block%zu", mfSectorNum(i), i - 1); JsonSaveStr(root, path, mfGetAccessConditionsDesc(2, adata)); memset(path, 0x00, sizeof(path)); sprintf(path, "$.SectorKeys.%d.AccessConditionsText.block%zu", mfSectorNum(i), i); JsonSaveStr(root, path, mfGetAccessConditionsDesc(3, adata)); memset(path, 0x00, sizeof(path)); sprintf(path, "$.SectorKeys.%d.AccessConditionsText.UserData", mfSectorNum(i)); JsonSaveBufAsHexCompact(root, path, &adata[3], 1); } } break; } case jsfMfuMemory: { JsonSaveStr(root, "FileType", "mfu"); mfu_dump_t *tmp = (mfu_dump_t *)data; uint8_t uid[7] = {0}; memcpy(uid, tmp->data, 3); memcpy(uid + 3, tmp->data + 4, 4); char path[PATH_MAX_LENGTH] = {0}; JsonSaveBufAsHexCompact(root, "$.Card.UID", uid, sizeof(uid)); JsonSaveBufAsHexCompact(root, "$.Card.Version", tmp->version, sizeof(tmp->version)); JsonSaveBufAsHexCompact(root, "$.Card.TBO_0", tmp->tbo, sizeof(tmp->tbo)); JsonSaveBufAsHexCompact(root, "$.Card.TBO_1", tmp->tbo1, sizeof(tmp->tbo1)); JsonSaveBufAsHexCompact(root, "$.Card.Signature", tmp->signature, sizeof(tmp->signature)); for (uint8_t i = 0; i < 3; i ++) { sprintf(path, "$.Card.Counter%d", i); JsonSaveBufAsHexCompact(root, path, tmp->counter_tearing[i], 3); sprintf(path, "$.Card.Tearing%d", i); JsonSaveBufAsHexCompact(root, path, tmp->counter_tearing[i] + 3, 1); } // size of header 56b size_t len = (datalen - MFU_DUMP_PREFIX_LENGTH) / 4; for (size_t i = 0; i < len; i++) { sprintf(path, "$.blocks.%zu", i); JsonSaveBufAsHexCompact(root, path, tmp->data + (i * 4), 4); } break; } case jsfHitag: { JsonSaveStr(root, "FileType", "hitag"); uint8_t uid[4] = {0}; memcpy(uid, data, 4); JsonSaveBufAsHexCompact(root, "$.Card.UID", uid, sizeof(uid)); for (size_t i = 0; i < (datalen / 4); i++) { char path[PATH_MAX_LENGTH] = {0}; sprintf(path, "$.blocks.%zu", i); JsonSaveBufAsHexCompact(root, path, data + (i * 4), 4); } break; } case jsfIclass: { JsonSaveStr(root, "FileType", "iclass"); uint8_t csn[8] = {0}; memcpy(csn, data, 8); JsonSaveBufAsHexCompact(root, "$.Card.CSN", csn, sizeof(csn)); for (size_t i = 0; i < (datalen / 8); i++) { char path[PATH_MAX_LENGTH] = {0}; sprintf(path, "$.blocks.%zu", i); JsonSaveBufAsHexCompact(root, path, data + (i * 8), 8); } break; } case jsfT55x7: { JsonSaveStr(root, "FileType", "t55x7"); uint8_t conf[4] = {0}; memcpy(conf, data, 4); JsonSaveBufAsHexCompact(root, "$.Card.ConfigBlock", conf, sizeof(conf)); for (size_t i = 0; i < (datalen / 4); i++) { char path[PATH_MAX_LENGTH] = {0}; sprintf(path, "$.blocks.%zu", i); JsonSaveBufAsHexCompact(root, path, data + (i * 4), 4); } break; } case jsf14b: { JsonSaveStr(root, "FileType", "14b"); JsonSaveBufAsHexCompact(root, "raw", data, datalen); break; } case jsf15: { JsonSaveStr(root, "FileType", "15693"); JsonSaveBufAsHexCompact(root, "raw", data, datalen); break; } case jsfLegic: { JsonSaveStr(root, "FileType", "legic"); JsonSaveBufAsHexCompact(root, "raw", data, datalen); break; } case jsfT5555: { JsonSaveStr(root, "FileType", "t5555"); uint8_t conf[4] = {0}; memcpy(conf, data, 4); JsonSaveBufAsHexCompact(root, "$.Card.ConfigBlock", conf, sizeof(conf)); for (size_t i = 0; i < (datalen / 4); i++) { char path[PATH_MAX_LENGTH] = {0}; sprintf(path, "$.blocks.%zu", i); JsonSaveBufAsHexCompact(root, path, data + (i * 4), 4); } break; } case jsfMfPlusKeys: JsonSaveStr(root, "FileType", "mfp"); JsonSaveBufAsHexCompact(root, "$.Card.UID", &data[0], 7); JsonSaveBufAsHexCompact(root, "$.Card.SAK", &data[10], 1); JsonSaveBufAsHexCompact(root, "$.Card.ATQA", &data[11], 2); uint8_t atslen = data[13]; if (atslen > 0) JsonSaveBufAsHexCompact(root, "$.Card.ATS", &data[14], atslen); uint8_t vdata[2][64][16 + 1] = {{{0}}}; memcpy(vdata, &data[14 + atslen], 2 * 64 * 17); for (size_t i = 0; i < datalen; i++) { char path[PATH_MAX_LENGTH] = {0}; if (vdata[0][i][0]) { memset(path, 0x00, sizeof(path)); sprintf(path, "$.SectorKeys.%d.KeyA", mfSectorNum(i)); JsonSaveBufAsHexCompact(root, path, &vdata[0][i][1], 16); } if (vdata[1][i][0]) { memset(path, 0x00, sizeof(path)); sprintf(path, "$.SectorKeys.%d.KeyB", mfSectorNum(i)); JsonSaveBufAsHexCompact(root, path, &vdata[1][i][1], 16); } } break; case jsfMfDesfireKeys: JsonSaveStr(root, "FileType", "mfdes"); JsonSaveBufAsHexCompact(root, "$.Card.UID", &data[0], 7); JsonSaveBufAsHexCompact(root, "$.Card.SAK", &data[10], 1); JsonSaveBufAsHexCompact(root, "$.Card.ATQA", &data[11], 2); uint8_t datslen = data[13]; if (datslen > 0) JsonSaveBufAsHexCompact(root, "$.Card.ATS", &data[14], datslen); uint8_t dvdata[4][0xE][24 + 1] = {{{0}}}; memcpy(dvdata, &data[14 + datslen], 4 * 0xE * (24 + 1)); for (int i = 0; i < (int)datalen; i++) { char path[PATH_MAX_LENGTH] = {0}; if (dvdata[0][i][0]) { memset(path, 0x00, sizeof(path)); sprintf(path, "$.DES.%d.Key", i); JsonSaveBufAsHexCompact(root, path, &dvdata[0][i][1], 8); } if (dvdata[1][i][0]) { memset(path, 0x00, sizeof(path)); sprintf(path, "$.3DES.%d.Key", i); JsonSaveBufAsHexCompact(root, path, &dvdata[1][i][1], 16); } if (dvdata[2][i][0]) { memset(path, 0x00, sizeof(path)); sprintf(path, "$.AES.%d.Key", i); JsonSaveBufAsHexCompact(root, path, &dvdata[2][i][1], 16); } if (dvdata[3][i][0]) { memset(path, 0x00, sizeof(path)); sprintf(path, "$.K3KDES.%d.Key", i); JsonSaveBufAsHexCompact(root, path, &dvdata[3][i][1], 24); } } break; case jsfSettings: preferences_save_callback(root); break; default: break; } int res = json_dump_file(root, fileName, JSON_INDENT(2)); if (res) { PrintAndLogEx(FAILED, "error: can't save the file: " _YELLOW_("%s"), fileName); json_decref(root); retval = 200; goto out; } PrintAndLogEx(SUCCESS, "saved to json file " _YELLOW_("%s"), fileName); json_decref(root); out: free(fileName); return retval; } int saveFileWAVE(const char *preferredName, int *data, size_t datalen) { if (data == NULL) return PM3_EINVARG; char *fileName = newfilenamemcopy(preferredName, ".wav"); if (fileName == NULL) return PM3_EMALLOC; int retval = PM3_SUCCESS; struct wave_info_t wave_info = { .signature = "RIFF", .filesize = sizeof(wave_info) - sizeof(wave_info.signature) - sizeof(wave_info.filesize) + datalen, .type = "WAVE", .format.tag = "fmt ", .format.size = sizeof(wave_info.format) - sizeof(wave_info.format.tag) - sizeof(wave_info.format.size), .format.codec = 1, // PCM .format.nb_channel = 1, .format.sample_per_sec = 125000, // TODO update for other tag types .format.byte_per_sec = 125000, // TODO update for other tag types .format.block_align = 1, .format.bit_per_sample = 8, .audio_data.tag = "data", .audio_data.size = datalen, }; FILE *wave_file = fopen(fileName, "wb"); if (!wave_file) { PrintAndLogEx(WARNING, "file not found or locked. "_YELLOW_("'%s'"), fileName); retval = PM3_EFILE; goto out; } fwrite(&wave_info, sizeof(wave_info), 1, wave_file); for (int i = 0; i < datalen; i++) { uint8_t sample = data[i] + 128; fwrite(&sample, 1, 1, wave_file); } fclose(wave_file); PrintAndLogEx(SUCCESS, "saved " _YELLOW_("%zu") "bytes to wave file " _YELLOW_("'%s'"), 2 * datalen, fileName); out: free(fileName); return retval; } int saveFilePM3(const char *preferredName, int *data, size_t datalen) { if (data == NULL) return PM3_EINVARG; char *fileName = newfilenamemcopy(preferredName, ".pm3"); if (fileName == NULL) return PM3_EMALLOC; int retval = PM3_SUCCESS; FILE *f = fopen(fileName, "w"); if (!f) { PrintAndLogEx(WARNING, "file not found or locked. "_YELLOW_("'%s'"), fileName); retval = PM3_EFILE; goto out; } for (uint32_t i = 0; i < datalen; i++) fprintf(f, "%d\n", data[i]); fflush(f); fclose(f); PrintAndLogEx(SUCCESS, "saved " _YELLOW_("%zu") "bytes to PM3 file " _YELLOW_("'%s'"), datalen, fileName); out: free(fileName); return retval; } int createMfcKeyDump(const char *preferredName, uint8_t sectorsCnt, sector_t *e_sector) { if (e_sector == NULL) return PM3_EINVARG; char *fileName = newfilenamemcopy(preferredName, ".bin"); if (fileName == NULL) return PM3_EMALLOC; FILE *f = fopen(fileName, "wb"); if (f == NULL) { PrintAndLogEx(WARNING, "Could not create file " _YELLOW_("%s"), fileName); free(fileName); return PM3_EFILE; } PrintAndLogEx(SUCCESS, "Generating binary key file"); uint8_t empty[6] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}; uint8_t tmp[6] = {0, 0, 0, 0, 0, 0}; for (int i = 0; i < sectorsCnt; i++) { if (e_sector[i].foundKey[0]) num_to_bytes(e_sector[i].Key[0], sizeof(tmp), tmp); else memcpy(tmp, empty, sizeof(tmp)); fwrite(tmp, 1, sizeof(tmp), f); } for (int i = 0; i < sectorsCnt; i++) { if (e_sector[i].foundKey[0]) num_to_bytes(e_sector[i].Key[1], sizeof(tmp), tmp); else memcpy(tmp, empty, sizeof(tmp)); fwrite(tmp, 1, sizeof(tmp), f); } fflush(f); fclose(f); PrintAndLogEx(SUCCESS, "Found keys have been dumped to " _YELLOW_("%s")"--> 0xffffffffffff has been inserted for unknown keys.", fileName); free(fileName); return PM3_SUCCESS; } int loadFile(const char *preferredName, const char *suffix, void *data, size_t maxdatalen, size_t *datalen) { if (data == NULL) return 1; char *fileName = filenamemcopy(preferredName, suffix); if (fileName == NULL) return PM3_EINVARG; int retval = PM3_SUCCESS; FILE *f = fopen(fileName, "rb"); if (!f) { PrintAndLogEx(WARNING, "file not found or locked. '" _YELLOW_("%s")"'", fileName); free(fileName); return PM3_EFILE; } // get filesize in order to malloc memory fseek(f, 0, SEEK_END); long fsize = ftell(f); fseek(f, 0, SEEK_SET); if (fsize <= 0) { PrintAndLogEx(FAILED, "error, when getting filesize"); retval = PM3_EFILE; goto out; } uint8_t *dump = calloc(fsize, sizeof(uint8_t)); if (!dump) { PrintAndLogEx(FAILED, "error, cannot allocate memory"); retval = PM3_EMALLOC; goto out; } size_t bytes_read = fread(dump, 1, fsize, f); if (bytes_read != fsize) { PrintAndLogEx(FAILED, "error, bytes read mismatch file size"); free(dump); retval = PM3_EFILE; goto out; } if (bytes_read > maxdatalen) { PrintAndLogEx(WARNING, "Warning, bytes read exceed calling array limit. Max bytes is %zu bytes", maxdatalen); bytes_read = maxdatalen; } memcpy((data), dump, bytes_read); free(dump); PrintAndLogEx(SUCCESS, "loaded " _YELLOW_("%zu") "bytes from binary file " _YELLOW_("%s"), bytes_read, fileName); *datalen = bytes_read; out: fclose(f); free(fileName); return retval; } int loadFile_safe(const char *preferredName, const char *suffix, void **pdata, size_t *datalen) { char *path; int res = searchFile(&path, RESOURCES_SUBDIR, preferredName, suffix, false); if (res != PM3_SUCCESS) { return PM3_EFILE; } FILE *f = fopen(path, "rb"); if (!f) { PrintAndLogEx(WARNING, "file not found or locked. '" _YELLOW_("%s")"'", path); free(path); return PM3_EFILE; } free(path); // get filesize in order to malloc memory fseek(f, 0, SEEK_END); long fsize = ftell(f); fseek(f, 0, SEEK_SET); if (fsize <= 0) { PrintAndLogEx(FAILED, "error, when getting filesize"); fclose(f); return PM3_EFILE; } *pdata = calloc(fsize, sizeof(uint8_t)); if (!*pdata) { PrintAndLogEx(FAILED, "error, cannot allocate memory"); fclose(f); return PM3_EMALLOC; } size_t bytes_read = fread(*pdata, 1, fsize, f); fclose(f); if (bytes_read != fsize) { PrintAndLogEx(FAILED, "error, bytes read mismatch file size"); free(*pdata); return PM3_EFILE; } *datalen = bytes_read; PrintAndLogEx(SUCCESS, "loaded " _YELLOW_("%zu") "bytes from binary file " _YELLOW_("%s"), bytes_read, preferredName); return PM3_SUCCESS; } int loadFileEML(const char *preferredName, void *data, size_t *datalen) { if (data == NULL) return PM3_EINVARG; char *fileName = filenamemcopy(preferredName, ".eml"); if (fileName == NULL) return PM3_EMALLOC; size_t counter = 0; int retval = PM3_SUCCESS, hexlen = 0; FILE *f = fopen(fileName, "r"); if (!f) { PrintAndLogEx(WARNING, "file not found or locked. '" _YELLOW_("%s")"'", fileName); retval = PM3_EFILE; goto out; } // 128 + 2 newline chars + 1 null terminator char line[131]; memset(line, 0, sizeof(line)); uint8_t buf[64] = {0x00}; uint8_t *udata = (uint8_t *)data; while (!feof(f)) { memset(line, 0, sizeof(line)); if (fgets(line, sizeof(line), f) == NULL) { if (feof(f)) break; fclose(f); PrintAndLogEx(FAILED, "File reading error."); retval = PM3_EFILE; goto out; } if (line[0] == '#') continue; int res = param_gethex_to_eol(line, 0, buf, sizeof(buf), &hexlen); if (res == 0 || res == 1) { memcpy(udata + counter, buf, hexlen); counter += hexlen; } } fclose(f); PrintAndLogEx(SUCCESS, "loaded " _YELLOW_("%zu") "bytes from text file " _YELLOW_("%s"), counter, fileName); if (datalen) *datalen = counter; out: free(fileName); return retval; } int loadFileJSON(const char *preferredName, void *data, size_t maxdatalen, size_t *datalen) { if (data == NULL) return PM3_EINVARG; char *fileName = filenamemcopy(preferredName, ".json"); if (fileName == NULL) return PM3_EMALLOC; *datalen = 0; json_t *root; json_error_t error; int retval = PM3_SUCCESS; root = json_load_file(fileName, 0, &error); if (!root) { PrintAndLogEx(ERR, "ERROR: json " _YELLOW_("%s") " error on line %d: %s", fileName, error.line, error.text); retval = PM3_ESOFT; goto out; } if (!json_is_object(root)) { PrintAndLogEx(ERR, "ERROR: Invalid json " _YELLOW_("%s") " format. root must be an object.", fileName); retval = PM3_ESOFT; goto out; } uint8_t *udata = (uint8_t *)data; char ctype[100] = {0}; JsonLoadStr(root, "$.FileType", ctype); if (!strcmp(ctype, "raw")) { JsonLoadBufAsHex(root, "$.raw", udata, maxdatalen, datalen); } if (!strcmp(ctype, "mfcard")) { size_t sptr = 0; for (int i = 0; i < 256; i++) { if (sptr + 16 > maxdatalen) { retval = PM3_EMALLOC; goto out; } char path[30] = {0}; sprintf(path, "$.blocks.%d", i); size_t len = 0; JsonLoadBufAsHex(root, path, &udata[sptr], 16, &len); if (!len) break; sptr += len; } *datalen = sptr; } if (!strcmp(ctype, "mfu")) { size_t sptr = 0; for (int i = 0; i < 256; i++) { if (sptr + 4 > maxdatalen) { retval = PM3_EMALLOC; goto out; } char path[30] = {0}; sprintf(path, "$.blocks.%d", i); size_t len = 0; JsonLoadBufAsHex(root, path, &udata[sptr], 4, &len); if (!len) break; sptr += len; } *datalen = sptr; } if (!strcmp(ctype, "hitag")) { size_t sptr = 0; for (size_t i = 0; i < (maxdatalen / 4); i++) { if (sptr + 4 > maxdatalen) { retval = PM3_EMALLOC; goto out; } char path[30] = {0}; sprintf(path, "$.blocks.%zu", i); size_t len = 0; JsonLoadBufAsHex(root, path, &udata[sptr], 4, &len); if (!len) break; sptr += len; } *datalen = sptr; } if (!strcmp(ctype, "iclass")) { size_t sptr = 0; for (size_t i = 0; i < (maxdatalen / 8); i++) { if (sptr + 8 > maxdatalen) { retval = PM3_EMALLOC; goto out; } char path[30] = {0}; sprintf(path, "$.blocks.%zu", i); size_t len = 0; JsonLoadBufAsHex(root, path, &udata[sptr], 8, &len); if (!len) break; sptr += len; } *datalen = sptr; } if (!strcmp(ctype, "t55x7")) { size_t sptr = 0; for (size_t i = 0; i < (maxdatalen / 4); i++) { if (sptr + 4 > maxdatalen) { retval = PM3_EMALLOC; goto out; } char path[30] = {0}; sprintf(path, "$.blocks.%zu", i); size_t len = 0; JsonLoadBufAsHex(root, path, &udata[sptr], 4, &len); if (!len) break; sptr += len; } *datalen = sptr; } if (!strcmp(ctype, "settings")) { preferences_load_callback(root); } PrintAndLogEx(SUCCESS, "loaded from JSON file " _YELLOW_("%s"), fileName); out: json_decref(root); free(fileName); return retval; } int loadFileDICTIONARY(const char *preferredName, void *data, size_t *datalen, uint8_t keylen, uint16_t *keycnt) { // t5577 == 4bytes // mifare == 6 bytes // mf plus == 16 bytes // iclass == 8 bytes // default to 6 bytes. if (keylen != 4 && keylen != 6 && keylen != 8 && keylen != 16) { keylen = 6; } return loadFileDICTIONARYEx(preferredName, data, 0, datalen, keylen, keycnt, 0, NULL, true); } int loadFileDICTIONARYEx(const char *preferredName, void *data, size_t maxdatalen, size_t *datalen, uint8_t keylen, uint16_t *keycnt, size_t startFilePosition, size_t *endFilePosition, bool verbose) { if (data == NULL) return PM3_EINVARG; if (endFilePosition) *endFilePosition = 0; char *path; if (searchFile(&path, DICTIONARIES_SUBDIR, preferredName, ".dic", false) != PM3_SUCCESS) return PM3_EFILE; // double up since its chars keylen <<= 1; char line[255]; uint16_t vkeycnt = 0; size_t counter = 0; int retval = PM3_SUCCESS; FILE *f = fopen(path, "r"); if (!f) { PrintAndLogEx(WARNING, "file not found or locked. '" _YELLOW_("%s")"'", path); retval = PM3_EFILE; goto out; } if (startFilePosition) { if (fseek(f, startFilePosition, SEEK_SET) < 0) { fclose(f); retval = PM3_EFILE; goto out; } } uint8_t *udata = (uint8_t *)data; // read file while (!feof(f)) { size_t filepos = ftell(f); if (!fgets(line, sizeof(line), f)) { if (endFilePosition) *endFilePosition = 0; break; } // add null terminator line[keylen] = 0; // smaller keys than expected is skipped if (strlen(line) < keylen) continue; // The line start with # is comment, skip if (line[0] == '#') continue; if (!CheckStringIsHEXValue(line)) continue; // cant store more data if (maxdatalen && (counter + (keylen >> 1) > maxdatalen)) { retval = 1; if (endFilePosition) *endFilePosition = filepos; break; } if (hex_to_bytes(line, udata + counter, keylen >> 1) != (keylen >> 1)) continue; vkeycnt++; memset(line, 0, sizeof(line)); counter += (keylen >> 1); } fclose(f); if (verbose) PrintAndLogEx(SUCCESS, "loaded " _GREEN_("%2d") "keys from dictionary file " _YELLOW_("%s"), vkeycnt, path); if (datalen) *datalen = counter; if (keycnt) *keycnt = vkeycnt; out: free(path); return retval; } int loadFileDICTIONARY_safe(const char *preferredName, void **pdata, uint8_t keylen, uint16_t *keycnt) { int retval = PM3_SUCCESS; char *path; if (searchFile(&path, DICTIONARIES_SUBDIR, preferredName, ".dic", false) != PM3_SUCCESS) return PM3_EFILE; // t5577 == 4bytes // mifare == 6 bytes // mf plus == 16 bytes // iclass == 8 bytes // default to 6 bytes. if (keylen != 4 && keylen != 6 && keylen != 8 && keylen != 16) { keylen = 6; } size_t mem_size; size_t block_size = 10 * keylen; // double up since its chars keylen <<= 1; char line[255]; // allocate some space for the dictionary *pdata = calloc(block_size, sizeof(uint8_t)); if (*pdata == NULL) { free(path); return PM3_EFILE; } mem_size = block_size; FILE *f = fopen(path, "r"); if (!f) { PrintAndLogEx(WARNING, "file not found or locked. '" _YELLOW_("%s")"'", path); retval = PM3_EFILE; goto out; } // read file while (fgets(line, sizeof(line), f)) { // check if we have enough space (if not allocate more) if ((((size_t)(*keycnt)) * (keylen >> 1)) >= mem_size) { mem_size += block_size; *pdata = realloc(*pdata, mem_size); if (*pdata == NULL) { retval = PM3_EFILE; fclose(f); goto out; } else { memset(*pdata + (mem_size - block_size), 0, block_size); } } // add null terminator line[keylen] = 0; // smaller keys than expected is skipped if (strlen(line) < keylen) continue; // The line start with # is comment, skip if (line[0] == '#') continue; if (!CheckStringIsHEXValue(line)) continue; uint64_t key = strtoull(line, NULL, 16); num_to_bytes(key, keylen >> 1, *pdata + (*keycnt * (keylen >> 1))); (*keycnt)++; memset(line, 0, sizeof(line)); } fclose(f); PrintAndLogEx(SUCCESS, "loaded " _GREEN_("%2d") "keys from dictionary file " _YELLOW_("%s"), *keycnt, path); out: free(path); return retval; } int convertOldMfuDump(uint8_t **dump, size_t *dumplen) { if (!dump || !dumplen || *dumplen < OLD_MFU_DUMP_PREFIX_LENGTH) return 1; // try to check new file format mfu_dump_t *mfu_dump = (mfu_dump_t *) *dump; if ((*dumplen - MFU_DUMP_PREFIX_LENGTH) / 4 - 1 == mfu_dump->pages) return 0; // convert old format old_mfu_dump_t *old_mfu_dump = (old_mfu_dump_t *) *dump; size_t old_data_len = *dumplen - OLD_MFU_DUMP_PREFIX_LENGTH; size_t new_dump_len = old_data_len + MFU_DUMP_PREFIX_LENGTH; mfu_dump = (mfu_dump_t *) calloc(new_dump_len, sizeof(uint8_t)); memcpy(mfu_dump->version, old_mfu_dump->version, 8); memcpy(mfu_dump->tbo, old_mfu_dump->tbo, 2); mfu_dump->tbo1[0] = old_mfu_dump->tbo1[0]; memcpy(mfu_dump->signature, old_mfu_dump->signature, 32); for (int i = 0; i < 3; i++) mfu_dump->counter_tearing[i][3] = old_mfu_dump->tearing[i]; memcpy(mfu_dump->data, old_mfu_dump->data, old_data_len); mfu_dump->pages = old_data_len / 4 - 1; // free old buffer, return new buffer *dumplen = new_dump_len; free(*dump); *dump = (uint8_t *) mfu_dump; PrintAndLogEx(SUCCESS, "old mfu dump format, was converted on load to " _GREEN_("%d") " pages", mfu_dump->pages + 1); return PM3_SUCCESS; } static int filelist(const char *path, const char *ext, bool last, bool tentative) { struct dirent **namelist; int n; n = scandir(path, &namelist, NULL, alphasort); if (n == -1) { if (!tentative) PrintAndLogEx(NORMAL, "%s── %s", last ? "└" : "├", path); return PM3_EFILE; } PrintAndLogEx(NORMAL, "%s── %s", last ? "└" : "├", path); for (uint16_t i = 0; i < n; i++) { if (((ext == NULL) && (namelist[i]->d_name[0] != '.')) || (ext && (str_endswith(namelist[i]->d_name, ext)))) { PrintAndLogEx(NORMAL, "%s   %s── %-21s", last ? " " : "│", i == n - 1 ? "└" : "├", namelist[i]->d_name); } free(namelist[i]); } free(namelist); return PM3_SUCCESS; } int searchAndList(const char *pm3dir, const char *ext) { // display in same order as searched by searchFile // try pm3 dirs in current workdir (dev mode) if (get_my_executable_directory() != NULL) { char script_directory_path[strlen(get_my_executable_directory()) + strlen(pm3dir) + 1]; strcpy(script_directory_path, get_my_executable_directory()); strcat(script_directory_path, pm3dir); filelist(script_directory_path, ext, false, true); } // try pm3 dirs in user .proxmark3 (user mode) const char *user_path = get_my_user_directory(); if (user_path != NULL) { char script_directory_path[strlen(user_path) + strlen(PM3_USER_DIRECTORY) + strlen(pm3dir) + 1]; strcpy(script_directory_path, user_path); strcat(script_directory_path, PM3_USER_DIRECTORY); strcat(script_directory_path, pm3dir); filelist(script_directory_path, ext, false, false); } // try pm3 dirs in pm3 installation dir (install mode) const char *exec_path = get_my_executable_directory(); if (exec_path != NULL) { char script_directory_path[strlen(exec_path) + strlen(PM3_SHARE_RELPATH) + strlen(pm3dir) + 1]; strcpy(script_directory_path, exec_path); strcat(script_directory_path, PM3_SHARE_RELPATH); strcat(script_directory_path, pm3dir); filelist(script_directory_path, ext, true, false); } return PM3_SUCCESS; } static int searchFinalFile(char **foundpath, const char *pm3dir, const char *searchname, bool silent) { if ((foundpath == NULL) || (pm3dir == NULL) || (searchname == NULL)) return PM3_ESOFT; // explicit absolute (/) or relative path (./) => try only to match it directly char *filename = calloc(strlen(searchname) + 1, sizeof(char)); if (filename == NULL) return PM3_EMALLOC; strcpy(filename, searchname); if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Searching %s", filename); } if (((strlen(filename) > 1) && (filename[0] == '/')) || ((strlen(filename) > 2) && (filename[0] == '.') && (filename[1] == '/'))) { if (fileExists(filename)) { *foundpath = filename; if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Found %s", *foundpath); } return PM3_SUCCESS; } else { goto out; } } // else // try implicit relative path { if (fileExists(filename)) { *foundpath = filename; if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Found %s", *foundpath); } return PM3_SUCCESS; } } // try pm3 dirs in user .proxmark3 (user mode) const char *user_path = get_my_user_directory(); if (user_path != NULL) { char *path = calloc(strlen(user_path) + strlen(PM3_USER_DIRECTORY) + strlen(pm3dir) + strlen(filename) + 1, sizeof(char)); if (path == NULL) goto out; strcpy(path, user_path); strcat(path, PM3_USER_DIRECTORY); strcat(path, pm3dir); strcat(path, filename); if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Searching %s", path); } if (fileExists(path)) { free(filename); *foundpath = path; if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Found %s", *foundpath); } return PM3_SUCCESS; } else { free(path); } } // try pm3 dirs in current client workdir (dev mode) const char *exec_path = get_my_executable_directory(); if ((exec_path != NULL) && ((strcmp(DICTIONARIES_SUBDIR, pm3dir) == 0) || (strcmp(LUA_LIBRARIES_SUBDIR, pm3dir) == 0) || (strcmp(LUA_SCRIPTS_SUBDIR, pm3dir) == 0) || (strcmp(CMD_SCRIPTS_SUBDIR, pm3dir) == 0) || (strcmp(RESOURCES_SUBDIR, pm3dir) == 0))) { char *path = calloc(strlen(exec_path) + strlen(pm3dir) + strlen(filename) + 1, sizeof(char)); if (path == NULL) goto out; strcpy(path, exec_path); strcat(path, pm3dir); strcat(path, filename); if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Searching %s", path); } if (fileExists(path)) { free(filename); *foundpath = path; if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Found %s", *foundpath); } return PM3_SUCCESS; } else { free(path); } } // try pm3 dirs in current repo workdir (dev mode) if ((exec_path != NULL) && ((strcmp(TRACES_SUBDIR, pm3dir) == 0) || (strcmp(FIRMWARES_SUBDIR, pm3dir) == 0) || (strcmp(BOOTROM_SUBDIR, pm3dir) == 0) || (strcmp(FULLIMAGE_SUBDIR, pm3dir) == 0))) { char *above = "../"; char *path = calloc(strlen(exec_path) + strlen(above) + strlen(pm3dir) + strlen(filename) + 1, sizeof(char)); if (path == NULL) goto out; strcpy(path, exec_path); strcat(path, above); strcat(path, pm3dir); strcat(path, filename); if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Searching %s", path); } if (fileExists(path)) { free(filename); *foundpath = path; if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Found %s", *foundpath); } return PM3_SUCCESS; } else { free(path); } } // try pm3 dirs in pm3 installation dir (install mode) if (exec_path != NULL) { char *path = calloc(strlen(exec_path) + strlen(PM3_SHARE_RELPATH) + strlen(pm3dir) + strlen(filename) + 1, sizeof(char)); if (path == NULL) goto out; strcpy(path, exec_path); strcat(path, PM3_SHARE_RELPATH); strcat(path, pm3dir); strcat(path, filename); if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Searching %s", path); } if (fileExists(path)) { free(filename); *foundpath = path; if ((g_debugMode == 2) && (!silent)) { PrintAndLogEx(INFO, "Found %s", *foundpath); } return PM3_SUCCESS; } else { free(path); } } out: free(filename); return PM3_EFILE; } int searchFile(char **foundpath, const char *pm3dir, const char *searchname, const char *suffix, bool silent) { if (foundpath == NULL) return PM3_EINVARG; if (searchname == NULL || strlen(searchname) == 0) return PM3_EINVARG; if (is_directory(searchname)) return PM3_EINVARG; char *filename = filenamemcopy(searchname, suffix); if (filename == NULL) return PM3_EMALLOC; if (strlen(filename) == 0) { free(filename); return PM3_EFILE; } int res = searchFinalFile(foundpath, pm3dir, filename, silent); if (res != PM3_SUCCESS) { if ((res == PM3_EFILE) && (!silent)) PrintAndLogEx(FAILED, "Error - can't find %s", filename); free(filename); return res; } free(filename); return PM3_SUCCESS; }