/* * Copyright (C) 2017, University of the Basque Country (UPV/EHU) * Contact for licensing options: * * The original file was part of Open Source Doubango Framework * Copyright (C) 2010-2011 Mamadou Diop. * Copyright (C) 2012 Doubango Telecom * * This file is part of Open Source Doubango Framework. * * DOUBANGO 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. * * DOUBANGO 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 DOUBANGO. * */ /**@file tsk_string.c * @brief Useful string functions to manipulate strings. * As I'm a lazy man, some comments come from this website */ #include "tsk_string.h" #include "tsk_memory.h" #include "tsk_time.h" #include "tsk_debug.h" #include #include #include #include #include #if TSK_UNDER_WINDOWS_RT #include /* MultiByteToWideChar */ #include #endif #if defined(_MSC_VER) # define snprintf _snprintf # define vsnprintf _vsnprintf # define strdup _strdup # define stricmp _stricmp # define strnicmp _strnicmp #else # if !HAVE_STRNICMP && !HAVE_STRICMP # define stricmp strcasecmp # define strnicmp strncasecmp # endif #endif /**@defgroup tsk_string_group String utillity functions. */ /**@ingroup tsk_string_group */ tsk_string_t* tsk_string_create(const char* str) { return (tsk_string_t*)tsk_object_new(tsk_string_def_t, str); } int tsk_string_pred_icmp(const tsk_list_item_t* item, const void* str) { if (item && str){ return tsk_stricmp(TSK_STRING_STR(item->data), (const char*)str); } return -1; } int tsk_string_pred_cmp(const tsk_list_item_t* item, const void* str) { if (item && str){ return tsk_strcmp(TSK_STRING_STR(item->data), (const char*)str); } return -1; } /**@ingroup tsk_string_group * From base 10 to base 16 * @param c the base 10 char to convert to base 16 * @retval The base 16 value */ char tsk_b10tob16(char c) { static char HEX[] = "0123456789abcdef"; return HEX[c & 15]; } /**@ingroup tsk_string_group * From base 16 to base 10 * @param c The base 16 char to convert to base 10 * @retval The base 10 value */ char tsk_b16tob10(char c) { return isdigit(c) ? c - '0' : tolower(c) - 'a' + 10; } /**@ingroup tsk_string_group * Compare two Null-terminated strings (case insensitive) * Compares the C string str1 to the C string str2. * This function starts comparing the first character of each string. If they are equal to each other, it continues with the following pairs * until the characters differ or until a terminanting null-character is reached. * @param str1 First C string to be compared. * @param str2 Second C string to be compared. * @retval Returns an integral value indicating the relationship between the strings: * <0 : str1 less than str2.
* 0 : str1 identical to str2.
* >0 : str1 greater than str2.
*/ int tsk_stricmp(const char * str1, const char * str2) { return (str1 && str2) ? ((tolower(*str1) == tolower(*str2)) ? stricmp(str1, str2) : (*str1 - *str2)) /* Compare first charaters before doing complete comparison */ : ((!str1 && !str2) ? 0 : -1); } /**@ingroup tsk_string_group * Compare two Null-terminated strings (case insensitive) * Compares the C string str1 to the C string str2. * This function starts comparing the first character of each string. If they are equal to each other, it continues with the following pairs * until the characters differ or until a terminanting null-character is reached or @a n characters passed. * @param str1 First C string to be compared. * @param str2 Second C string to be compared. * @param n The maximum number of characters to compare. * @retval Returns an integral value indicating the relationship between the strings: * <0 : str1 less than str2.
* 0 : str1 identical to str2.
* >0 : str1 greater than str2.
*/ int tsk_strnicmp(const char * str1, const char * str2, tsk_size_t n) { return (str1 && str2 && n) ? ((tolower(*str1) == tolower(*str2)) ? strnicmp(str1, str2, n) : (*str1 - *str2)) /* Compare first charaters before doing complete comparison */ : ((!str1 && !str2) ? 0 : -1); } /**@ingroup tsk_string_group */ int tsk_strcmp(const char * str1, const char * str2) { return (str1 && str2) ? ((*str1 == *str2) ? stricmp(str1, str2) : (*str1 - *str2)) /* Compare first charaters before doing complete comparison */ : ((!str1 && !str2) ? 0 : -1); } /**@ingroup tsk_string_group * Compare two Null-terminated strings (case sensitive) * Compares the C string str1 to the C string str2. * This function starts comparing the first character of each string. If they are equal to each other, it continues with the following pairs * until the characters differ or until a terminanting null-character is reached. * @param str1 First C string to be compared. * @param str2 Second C string to be compared. * @param n The maximum number of characters to compare. * @retval Returns an integral value indicating the relationship between the strings: * <0 : str1 less than str2.
* 0 : str1 identical to str2.
* >0 : str1 greater than str2.
*/ int tsk_strncmp(const char * str1, const char * str2, tsk_size_t n) { return (str1 && str2) ? ((*str1 != *str2) ? -1 : strncmp(str1, str2, n)) : ((!str1 && !str2) ? 0 : -1); } /**@ingroup tsk_string_group * Duplicate a Null-terminated string. * @param s1 The string to duplicate. * @retval The duplicated string. It's up to you to free the returned string. */ char* tsk_strdup(const char *s1) { if (s1){ return strdup(s1); } return tsk_null; } /** Duplicates the first @a n chars of @a s1. * @param s1 The string to duplicate. * @param n The number of characters to copy to the new string. * @retval null A copy of @a s1. **/ char* tsk_strndup(const char *s1, tsk_size_t n) { char *ret = tsk_null; if (s1 && n){ tsk_size_t len = tsk_strlen(s1); tsk_size_t nret = (n > len) ? (len) : (n); #if HAVE_CRT //Debug memory if ((ret = (char*)calloc((nret + 1), sizeof(uint8_t)))){ #else if ((ret = (char*)tsk_calloc((nret + 1), sizeof(uint8_t)))){ #endif //HAVE_CRT memset(ret,0,(nret+1)*sizeof(uint8_t)); memcpy(ret, s1, nret); } } return ret; } /**@ingroup tsk_string_group * Checks if @a str contains @a substring. * @param str The master string. * @param size The size of the master string. * @param substring the substring. * @retval @a tsk_true if @a str contains at least one occurence of @a substring and @a tsk_false othewise. */ tsk_bool_t tsk_strcontains(const char * str, tsk_size_t size, const char * substring) { return (tsk_strindexOf(str, size, substring) >= 0); } /**@ingroup tsk_string_group * Gets the first occurrence of @a substring within @a str. * @param str The master string. * @param size The size of the master string. * @param substring The substring that is to be searched for within @a str. * @retval The index of the first ocurrence of @a substring in @a str. * If no occurrence of @a substring is found, then -1 is returned. */ int tsk_strindexOf(const char * str, tsk_size_t size, const char * substring) { if (str && substring){ //const char* sub_start = strstr(str, substring); tsk_size_t sub_size = tsk_strlen(substring); const char* sub_start = memmem(str, size, substring, sub_size); if (sub_start && (sub_start < (str + size))) { int ret; tsk_subsat_int32_ptr(sub_start, str, &ret); return ret; } } return -1; } /**@ingroup tsk_string_group */ int tsk_strLastIndexOf(const char * str, tsk_size_t size, const char * substring) { if (str && substring){ tsk_size_t sub_size = tsk_strlen(substring); const char* last_sub_start = tsk_null; //const char* sub_start = strstr(str, substring); const char* sub_start = memmem(str, size, substring, sub_size); const char* end = (str + size); while (sub_start && (sub_start < end)) { last_sub_start = sub_start; if ((sub_start + sub_size) < (end-sub_size)){ //sub_start = strstr((sub_start + sub_size), substring); sub_start = memmem((sub_start + sub_size), (end - (sub_start + sub_size)), substring, sub_size); } else { break; } } if (last_sub_start) { int ret; tsk_subsat_int32_ptr(last_sub_start, str, &ret); return ret; } } return -1; } /**@ingroup tsk_string_group * Appends a copy of the source string to the destination string. The terminating null character in destination is overwritten by the first character of source, * and a new null-character is appended at the end of the new string formed by the concatenation of both in destination. If the destination is NULL then new * memory will allocated and filled with source value. * @param destination Pointer de the destination array containing the new string. * @param source C string to be appended. This should not overlap destination. If NULL then nothing is done. */ void tsk_strcat(char** destination, const char* source) { tsk_strncat(destination, source, tsk_strlen(source)); } /**@ingroup tsk_string_group */ void tsk_strcat_2(char** destination, const char* format, ...) { char* temp = tsk_null; int len; va_list ap; /* initialize variable arguments */ va_start(ap, format); /* compute */ if ((len = tsk_sprintf_2(&temp, format, &ap))){ tsk_strncat(destination, temp, len); } /* reset variable arguments */ va_end(ap); TSK_FREE(temp); } /**@ingroup tsk_string_group */ void tsk_strncat(char** destination, const char* source, tsk_size_t n) { tsk_size_t index = 0; tsk_size_t tsk_size_to_cat = (n > tsk_strlen(source)) ? tsk_strlen(source) : n; if (!source || !n) { return; } if (!*destination) { #if HAVE_CRT //Debug memory *destination = (char*)malloc(tsk_size_to_cat + 1); #else *destination = (char*)tsk_malloc(tsk_size_to_cat + 1); #endif //HAVE_CRT strncpy(*destination, source, tsk_size_to_cat + 1); } else { index = tsk_strlen(*destination); *destination = (char*)tsk_realloc(*destination, index + tsk_size_to_cat + 1); strncpy(((*destination) + index), source, tsk_size_to_cat + 1); } (*destination)[index + tsk_size_to_cat] = '\0'; } /**@ingroup tsk_string_group * Writes into the array pointed by str a C string consisting on a sequence of data formatted as the format argument specifies. After the format parameter, * the function expects at least as many additional arguments as specified in format. * This function behaves exactly as printf does, but writing its results to a string instead of stdout. The size of the array passed as str should be enough to * contain the entire formatted string. * @param str Pointer to an array of char elements where the resulting C string is stored. * MUST be NULL. * @param format C string that contains the text to be written to the buffer. For more information see definiton of C function @a sprintf * @retval On success, the total number of characters written is returned. This count does not include the additional null-character automatically appended * at the end of the string. * On failure, a negative number is returned. */ int tsk_sprintf(char** str, const char* format, ...) { int len; va_list ap; /* initialize variable arguments */ va_start(ap, format); /* compute */ len = tsk_sprintf_2(str, format, &ap); /* reset variable arguments */ va_end(ap); return len; } /**@ingroup tsk_string_group */ int tsk_sprintf_2(char** str, const char* format, va_list* ap,...) { int len = 0; va_list ap2; /* free previous value */ if (*str){ tsk_free((void**)str); } /* needed for 64bit platforms where vsnprintf will change the va_list */ va_start(ap2,"string data list"); tsk_va_copy(ap2, *ap); /* compute destination len for windows mobile */ #if defined(_WIN32_WCE) { int n; len = (tsk_strlen(format) * 2); #if HAVE_CRT //Debug memory *str = (char*)calloc(1, len+1); #else *str = (char*)tsk_calloc(1, len+1); #endif //HAVE_CRT for(;;){ if( (n = vsnprintf(*str, len, format, *ap)) >= 0 && (n * @param str The string to quote. * Example: tsk_strquote("doubango") = ""doubango\"". */ void tsk_strquote(char **str) { tsk_strquote_2(str, '"', '"'); } /**@ingroup tsk_string_group * Adds quotes to the beginning and end of @a str. * @param str The string to quote. * @param lquote Quote to add to the begining of @a str. * @param rquote Quote to add to the end of @a str. */ void tsk_strquote_2(char **str, char lquote, char rquote) { if (str && *str){ char *result = tsk_null; tsk_sprintf(&result, "%c%s%c", lquote, *str, rquote); tsk_free((void**)str); *str = result; } } /**@ingroup tsk_string_group * Removes quotes ("") from the beginning and end of @a str.
* @param str The string to unquote. * Example: tsk_strunquote(""doubango"") = "doubango". */ void tsk_strunquote(char **str) { tsk_strunquote_2(str, '"', '"'); } /**@ingroup tsk_string_group * Removes quotes from the beginning and end of @a str. The string must starts with @a lquote * and end with @a rquote. * @param str The string to unquote. * @param lquote Quote to remove from the begining of @a str. * @param rquote Quote to remove from the end of @a str. */ void tsk_strunquote_2(char **str, char lquote, char rquote) { if (str && *str) { tsk_size_t size = tsk_strlen(*str); if (size >= 2 && **str == lquote && *((*str) + size - 1) == rquote){ memmove((*str), (*str) + 1, (size - 2)); *((*str) + size - 2) = '\0'; } } } /**@ingroup tsk_string_group * Conversts an integer to string. * @param i The integer number to convert to a string. * @param result Pointer to the string where to copy the result. */ void tsk_itoa(int64_t i, tsk_istr_t *result) { memset(result, 0, sizeof(*result)); sprintf(*result, "%lld", i); } /**@ingroup tsk_string_group */ int64_t tsk_atoll(const char* str) { // FIXME: use HAVE_ATOLL and use macro instead of function if (str){ #if defined(_MSC_VER) return _atoi64(str); #elif defined(__GNUC__) return atoll(str); #else return atol(str); #endif } return 0; } /**@ingroup tsk_string_group */ long tsk_atox(const char* str) { long ret = 0; if (str){ sscanf(str, "%lx", &ret); } return ret; } /**@ingroup tsk_string_group * Generates a random string. * * @param result A pointer to the result. **/ void tsk_strrandom(tsk_istr_t *result) { static uint64_t __counter = 1; tsk_itoa((tsk_time_now() ^ (rand())) ^ ++__counter, result); } /**@ingroup tsk_string_group * * Converts hexadecimal bytes into string representation. * * @param hex The hexadecimal bytes to convert. * @param size The size of the hexadecimal bytes. * @param str The pointer to the result. MUST be enought large to hold the result. * It is up to you to add the final '\\0'. * @sa @ref tsk_str_to_hex **/ void tsk_str_from_hex(const uint8_t *hex, tsk_size_t size, char* str) { static const char *TSK_HEXA_VALUES = { "0123456789abcdef" }; tsk_size_t i; for (i = 0; i < size; i++){ str[2 * i] = TSK_HEXA_VALUES[(*(hex + i) & 0xf0) >> 4]; str[(2 * i) + 1] = TSK_HEXA_VALUES[(*(hex + i) & 0x0f)]; } } /**@ingroup tsk_string_group * Converts string chars into hexadecimal bytes. * * @param str If non-null, the string. * @param size The size. * @param hex If non-null, the hexadecimal. **/ void tsk_str_to_hex(const char *str, tsk_size_t size, uint8_t* hex) { // to avoid SIGBUS error when memory is misaligned do not use sscanf("%2x") //TSK_DEBUG_FATAL("Not implemented."); tsk_size_t i; tsk_size_t hex_size; if (size % 2 != 0) return; hex_size = size / 2; for (i = 0; i < size; i += 2) { hex[i/2] = (((tsk_hex_to_int(str[i]) & 0x0F) << 4) | (tsk_hex_to_int(str[i + 1]) & 0x0F)); } } uint8_t tsk_hex_to_int(char c) { if (c >= '0' && c <= '9') return c - '0'; if (c >= 'A' && c <= 'F') return 10 + c - 'A'; if (c >= 'a' && c <= 'f') return 10 + c - 'a'; return 0; } #if TSK_UNDER_WINDOWS_RT TINYSAK_API std::vector rt_tsk_str_to_native(Platform::String^ str) { if(str != nullptr && !str->IsEmpty()) { int len = WideCharToMultiByte(CP_UTF8, WC_ERR_INVALID_CHARS, str->Data(), str->Length(), nullptr, 0, nullptr, nullptr); if (len > 0) { std::vector vec(len + 1); if (WideCharToMultiByte(CP_UTF8, WC_ERR_INVALID_CHARS, str->Data(), str->Length(), vec.data(), len, nullptr, nullptr) == len) { return std::move(vec); } } } return std::move(std::vector(0)); } TINYSAK_API Platform::String^ rt_tsk_str_to_managed(char const* str) { if(str) { int len = MultiByteToWideChar(CP_UTF8, MB_ERR_INVALID_CHARS, str, -1, nullptr, 0); if (len > 0) { std::vector vec(len); if (MultiByteToWideChar(CP_UTF8, MB_ERR_INVALID_CHARS, str, -1, vec.data(), len) == len) { return ref new Platform::String(vec.data()); } } } return nullptr; } #endif /* TSK_UNDER_WINDOWS_RT */ //================================================================================================= // String object definition // static tsk_object_t* tsk_string_ctor(tsk_object_t * self, va_list * app) { tsk_string_t *string = (tsk_string_t*)self; const char *value = va_arg(*app, const char *); if (value){ string->value = tsk_strdup(value); } return self; } static tsk_object_t* tsk_string_dtor(tsk_object_t * self) { tsk_string_t *string = (tsk_string_t*)self; if (string){ TSK_FREE(string->value); } return self; } static int tsk_string_cmp(const tsk_object_t *_s1, const tsk_object_t *_s2) { const tsk_string_t *s1 = (const tsk_string_t *)_s1; const tsk_string_t *s2 = (const tsk_string_t *)_s2; if (s1 && s2){ return tsk_stricmp(s1->value, s2->value); } else if (!s1 && !s2) return 0; else return -1; } static const tsk_object_def_t tsk_string_def_s = { sizeof(tsk_string_t), tsk_string_ctor, tsk_string_dtor, tsk_string_cmp, }; const tsk_object_def_t *tsk_string_def_t = &tsk_string_def_s;