//----------------------------------------------------------------------------- // Copyright (C) 2017 Merlok // // 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. //----------------------------------------------------------------------------- // Command line parser core commands //----------------------------------------------------------------------------- #include "cliparser.h" #include #include #include // Get color constants #include // get PrintAndLogEx #include // tolower #include // PRIu64 #ifndef ARRAYLEN # define ARRAYLEN(x) (sizeof(x)/sizeof((x)[0])) #endif // Custom Colors // To default the color return s #define _SectionTagColor_(s) _GREEN_(s) #define _ExampleColor_(s) _YELLOW_(s) #define _CommandColor_(s) _RED_(s) #define _DescriptionColor_(s) _CYAN_(s) #define _ArgColor_(s) s #define _ArgHelpColor_(s) s // End Custom Colors // Option width set to 30 to allow option descriptions to align. approx line 74 // Example width set to 50 to allow help descriptions to align. approx line 93 int CLIParserInit(CLIParserContext **ctx, const char *vprogramName, const char *vprogramHint, const char *vprogramHelp) { *ctx = malloc(sizeof(CLIParserContext)); if (!*ctx) { PrintAndLogEx(ERR, "ERROR: Insufficient memory\n"); return 2; } (*ctx)->argtable = NULL; (*ctx)->argtableLen = 0; (*ctx)->programName = vprogramName; (*ctx)->programHint = vprogramHint; (*ctx)->programHelp = vprogramHelp; memset((*ctx)->buf, 0x00, sizeof((*ctx)->buf)); return 0; } int CLIParserParseArg(CLIParserContext *ctx, int argc, char **argv, void *vargtable[], size_t vargtableLen, bool allowEmptyExec) { int nerrors; ctx->argtable = vargtable; ctx->argtableLen = vargtableLen; /* verify the argtable[] entries were allocated sucessfully */ if (arg_nullcheck(ctx->argtable) != 0) { /* NULL entries were detected, some allocations must have failed */ PrintAndLogEx(ERR, "ERROR: Insufficient memory\n"); fflush(stdout); return 2; } /* Parse the command line as defined by argtable[] */ nerrors = arg_parse(argc, argv, ctx->argtable); /* special case: '--help' takes precedence over error reporting */ if ((argc < 2 && !allowEmptyExec) || ((struct arg_lit *)(ctx->argtable)[0])->count > 0) { // help must be the first record if (ctx->programHint) PrintAndLogEx(NORMAL, "\n"_DescriptionColor_("%s"), ctx->programHint); PrintAndLogEx(NORMAL, "\n"_SectionTagColor_("usage:")); PrintAndLogEx(NORMAL, " "_CommandColor_("%s")NOLF, ctx->programName); arg_print_syntax(stdout, ctx->argtable, "\n\n"); PrintAndLogEx(NORMAL, _SectionTagColor_("options:")); arg_print_glossary(stdout, ctx->argtable, " "_ArgColor_("%-30s")" "_ArgHelpColor_("%s")"\n"); PrintAndLogEx(NORMAL, ""); if (ctx->programHelp) { PrintAndLogEx(NORMAL, _SectionTagColor_("examples/notes:")); char *buf = NULL; int idx = 0; buf = realloc(buf, strlen(ctx->programHelp) + 1); // more then enough as we are splitting char *p2; // pointer to split example from comment. int egWidth = 30; for (int i = 0; i <= strlen(ctx->programHelp); i++) { // <= so to get string terminator. buf[idx++] = ctx->programHelp[i]; if ((ctx->programHelp[i] == '\n') || (ctx->programHelp[i] == 0x00)) { buf[idx - 1] = 0x00; p2 = strstr(buf, "->"); // See if the example has a comment. if (p2 != NULL) { *(p2 - 1) = 0x00; if (strlen(buf) > 28) egWidth = strlen(buf) + 5; else egWidth = 30; PrintAndLogEx(NORMAL, " "_ExampleColor_("%-*s")" %s", egWidth, buf, p2); } else { PrintAndLogEx(NORMAL, " "_ExampleColor_("%-*s"), egWidth, buf); } idx = 0; } } PrintAndLogEx(NORMAL, ""); free(buf); } fflush(stdout); return 1; } /* If the parser returned any errors then display them and exit */ if (nerrors > 0) { /* Display the error details contained in the arg_end struct.*/ arg_print_errors(stdout, ((struct arg_end *)(ctx->argtable)[vargtableLen - 1]), ctx->programName); PrintAndLogEx(WARNING, "Try " _YELLOW_("'%s --help'") " for more information.\n", ctx->programName); fflush(stdout); return 3; } return 0; } enum ParserState { PS_FIRST, PS_ARGUMENT, PS_OPTION, }; #define isSpace(c)(c == ' ' || c == '\t') int CLIParserParseString(CLIParserContext *ctx, const char *str, void *vargtable[], size_t vargtableLen, bool allowEmptyExec) { return CLIParserParseStringEx(ctx, str, vargtable, vargtableLen, allowEmptyExec, false); } int CLIParserParseStringEx(CLIParserContext *ctx, const char *str, void *vargtable[], size_t vargtableLen, bool allowEmptyExec, bool clueData) { int argc = 0; char *argv[200] = {NULL}; int len = strlen(str); memset(ctx->buf, 0x00, ARRAYLEN(ctx->buf)); char *bufptr = ctx->buf; char *spaceptr = NULL; enum ParserState state = PS_FIRST; argv[argc++] = bufptr; // param0 = program name memcpy(ctx->buf, ctx->programName, strlen(ctx->programName) + 1); // with 0x00 bufptr += strlen(ctx->programName) + 1; if (len) argv[argc++] = bufptr; // parse params for (int i = 0; i < len; i++) { switch (state) { case PS_FIRST: // first char if (!clueData || str[i] == '-') { // first char before space is '-' - next element - option OR not "clueData" for not-option fields state = PS_OPTION; if (spaceptr) { bufptr = spaceptr; *bufptr = 0x00; bufptr++; argv[argc++] = bufptr; } } spaceptr = NULL; case PS_ARGUMENT: if (state == PS_FIRST) state = PS_ARGUMENT; if (isSpace(str[i])) { spaceptr = bufptr; state = PS_FIRST; } *bufptr = str[i]; bufptr++; break; case PS_OPTION: if (isSpace(str[i])) { state = PS_FIRST; *bufptr = 0x00; bufptr++; argv[argc++] = bufptr; break; } *bufptr = str[i]; bufptr++; break; } } return CLIParserParseArg(ctx, argc, argv, vargtable, vargtableLen, allowEmptyExec); } // convertors int CLIParamHexToBuf(struct arg_str *argstr, uint8_t *data, int maxdatalen, int *datalen) { *datalen = 0; int tmplen = 0; uint8_t tmpstr[(256 * 2) + 1] = {0}; // concat all strings in argstr into tmpstr[] // int res = CLIParamStrToBuf(argstr, tmpstr, sizeof(tmpstr), &tmplen); if (res) { return res; } if (tmplen == 0) { return res; } res = param_gethex_to_eol((char *)tmpstr, 0, data, maxdatalen, datalen); switch (res) { case 1: PrintAndLogEx(ERR, "Parameter error: Invalid HEX value\n"); break; case 2: PrintAndLogEx(ERR, "Parameter error: parameter too large\n"); break; case 3: PrintAndLogEx(ERR, "Parameter error: Hex string must have EVEN number of digits\n"); break; } return res; } int CLIParamBinToBuf(struct arg_str *argstr, uint8_t *data, int maxdatalen, int *datalen) { *datalen = 0; int tmplen = 0; uint8_t tmpstr[(256 * 2) + 1] = {0}; // concat all strings in argstr into tmpstr[] // int res = CLIParamStrToBuf(argstr, tmpstr, sizeof(tmpstr), &tmplen); if (res || tmplen == 0) { return res; } res = param_getbin_to_eol((char *)tmpstr, 0, data, maxdatalen, datalen); switch (res) { case 1: PrintAndLogEx(ERR, "Parameter error: Invalid BINARY value\n"); break; case 2: PrintAndLogEx(ERR, "Parameter error: parameter too large\n"); break; } return res; } int CLIParamStrToBuf(struct arg_str *argstr, uint8_t *data, int maxdatalen, int *datalen) { *datalen = 0; if (!argstr->count) return 0; uint8_t tmpstr[(512 * 2) + 1] = {0}; int ibuf = 0; for (int i = 0; i < argstr->count; i++) { int len = strlen(argstr->sval[i]); if (len > ((sizeof(tmpstr) / 2) - ibuf)) { PrintAndLogEx(ERR, "Parameter error: string too long (%i chars), expect MAX %zu chars\n", len + ibuf, (sizeof(tmpstr) / 2)); return 2; } memcpy(&tmpstr[ibuf], argstr->sval[i], len); ibuf += len; } ibuf = MIN(ibuf, (sizeof(tmpstr) / 2)); tmpstr[ibuf] = 0; if (ibuf == 0) return 0; if (ibuf > maxdatalen) { PrintAndLogEx(ERR, "Parameter error: string too long (%i chars), expected MAX %i chars\n", ibuf, maxdatalen); return 2; } memcpy(data, tmpstr, ibuf + 1); *datalen = ibuf; return 0; } // hexstr -> u64, w optional len input and default value fallback. // 0 = failed // 1 = OK // 3 = optional param - not set uint64_t arg_get_u64_hexstr_def(CLIParserContext *ctx, uint8_t paramnum, uint64_t def) { uint64_t rv = 0; uint8_t d[8]; int dlen = 0; int res = CLIParamHexToBuf(arg_get_str(ctx, paramnum), d, sizeof(d), &dlen); if (res == 0 && dlen > 0) { for (uint8_t i = 0; i < dlen; i++) { rv <<= 8; rv |= d[i]; } } else { rv = def; } return rv; } // hexstr -> u64, w optional len input and default value fallback. // 0 = failed // 1 = OK // 2 = wrong len param, use default // 3 = optional param, if fail, use default. int arg_get_u64_hexstr_def_nlen(CLIParserContext *ctx, uint8_t paramnum, uint64_t def, uint64_t *out, uint8_t nlen, bool optional) { int n = 0; uint8_t d[nlen]; int res = CLIParamHexToBuf(arg_get_str(ctx, paramnum), d, sizeof(d), &n); if (res == 0 && n == nlen) { uint64_t rv = 0; for (uint8_t i = 0; i < n; i++) { rv <<= 8; rv |= d[i]; } *out = rv; return 1; } else if (res == 0 && n) { *out = def; return 2; } else if (res == 0 && n == 0 && optional) { *out = def; return 3; } return 0; } int arg_get_u32_hexstr_def(CLIParserContext *ctx, uint8_t paramnum, uint32_t def, uint32_t *out) { return arg_get_u32_hexstr_def_nlen(ctx, paramnum, def, out, 4, false); } int arg_get_u32_hexstr_def_nlen(CLIParserContext *ctx, uint8_t paramnum, uint32_t def, uint32_t *out, uint8_t nlen, bool optional) { int n = 0; uint8_t d[nlen]; int res = CLIParamHexToBuf(arg_get_str(ctx, paramnum), d, sizeof(d), &n); if (res == 0 && n == nlen) { uint32_t rv = 0; for (uint8_t i = 0; i < n; i++) { rv <<= 8; rv |= d[i]; } *out = rv; return 1; } else if (res == 0 && n) { *out = def; return 2; } else if (res == 0 && n == 0 && optional) { *out = def; return 3; } return 0; }