/* Serval string primitives Copyright (C) 2012 Serval Project Inc. 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 2 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. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #define __SERVAL_DNA__STR_INLINE #include "str.h" #include "strbuf_helpers.h" #include "constants.h" #include "sha2.h" #include #include #include #include #include #include #include #include const char hexdigit_upper[16] = {'0','1','2','3','4','5','6','7','8','9','A','B','C','D','E','F'}; const char hexdigit_lower[16] = {'0','1','2','3','4','5','6','7','8','9','a','b','c','d','e','f'}; char *tohex(char *dstHex, size_t dstStrLen, const unsigned char *srcBinary) { char *p; size_t i; for (p = dstHex, i = 0; i < dstStrLen; ++i) *p++ = (i & 1) ? hexdigit_upper[*srcBinary++ & 0xf] : hexdigit_upper[*srcBinary >> 4]; *p = '\0'; return dstHex; } size_t fromhex(unsigned char *dstBinary, const char *srcHex, size_t nbinary) { if (strn_fromhex(dstBinary, nbinary, srcHex, NULL) == nbinary) return nbinary; return -1; } int fromhexstr(unsigned char *dstBinary, const char *srcHex, size_t nbinary) { const char *p; if (strn_fromhex(dstBinary, nbinary, srcHex, &p) == nbinary && *p == '\0') return 0; return -1; } size_t strn_fromhex(unsigned char *dstBinary, ssize_t dstsiz, const char *srcHex, const char **afterHex) { unsigned char *dstorig = dstBinary; unsigned char *dstend = dstBinary + dstsiz; while (dstsiz == -1 || dstBinary < dstend) { int high = hexvalue(srcHex[0]); if (high == -1) break; int low = hexvalue(srcHex[1]); if (low == -1) break; if (dstorig != NULL) *dstBinary = (high << 4) + low; ++dstBinary; srcHex += 2; } if (afterHex) *afterHex = srcHex; return dstBinary - dstorig; } static size_t _uri_encodev(int www_form, char *const dstUrienc, ssize_t dstsiz, struct iovec ** iovp, int *iovcntp) { char * dst = dstUrienc; char * const dstend = dstUrienc + dstsiz; while (*iovcntp && (dstsiz == -1 || dst < dstend)) { if ((*iovp)->iov_len == 0) { --*iovcntp; ++*iovp; } else { unsigned char c = *(unsigned char *)(*iovp)->iov_base; if (www_form && c == ' ') { if (dstUrienc) *dst = '+'; ++dst; } else if (is_uri_char_unreserved(c)) { if (dstUrienc) *dst = c; ++dst; } else if (dst + 3 <= dstend) { if (dstUrienc) { dst[0] = '%'; dst[1] = hexdigit_upper[c & 0xf]; dst[2] = hexdigit_upper[c >> 4]; } dst += 3; } else { break; } ++(*iovp)->iov_base; --(*iovp)->iov_len; } } return dst - dstUrienc; } static size_t _uri_encode(int www_form, char *const dstUrienc, ssize_t dstsiz, const char *src, size_t srclen, const char **afterp) { struct iovec _iov; _iov.iov_base = (void *) src; _iov.iov_len = srclen; struct iovec *iov = &_iov; int ioc = 1; size_t encoded = _uri_encodev(www_form, dstUrienc, dstsiz, &iov, &ioc); if (afterp) *afterp = _iov.iov_base; return encoded; } size_t uri_encode(char *const dstUrienc, ssize_t dstsiz, const char *src, size_t srclen, const char **afterp) { return _uri_encode(0, dstUrienc, dstsiz, src, srclen, afterp); } size_t www_form_uri_encode(char *const dstUrienc, ssize_t dstsiz, const char *src, size_t srclen, const char **afterp) { return _uri_encode(1, dstUrienc, dstsiz, src, srclen, afterp); } size_t uri_encodev(char *const dstUrienc, ssize_t dstsiz, struct iovec ** iovp, int *iovcntp) { return _uri_encodev(0, dstUrienc, dstsiz, iovp, iovcntp); } size_t www_form_uri_encodev(char *const dstUrienc, ssize_t dstsiz, struct iovec ** iovp, int *iovcntp) { return _uri_encodev(1, dstUrienc, dstsiz, iovp, iovcntp); } static size_t _uri_decode(int www_form, char *const dstOrig, ssize_t dstsiz, const char *srcUrienc, size_t srclen, const char **afterp) { char *dst = dstOrig; char *const dstend = dst + dstsiz; while (srclen && (dstsiz == -1 || dst < dstend)) { if (www_form && *srcUrienc == '+') { if (dstOrig) *dst = ' '; ++srcUrienc; --srclen; } else if (srclen >= 3 && srcUrienc[0] == '%' && isxdigit(srcUrienc[1]) && isxdigit(srcUrienc[2])) { if (dstOrig) *dst = (hexvalue(srcUrienc[1]) << 4) + hexvalue(srcUrienc[2]); srcUrienc += 3; srclen -= 3; } else { if (dstOrig) *dst = *srcUrienc; ++srcUrienc; --srclen; } ++dst; } if (afterp) *afterp = srcUrienc; return dst - dstOrig; } size_t uri_decode(char *const dst, ssize_t dstsiz, const char *srcUrienc, size_t srclen, const char **afterp) { return _uri_decode(0, dst, dstsiz, srcUrienc, srclen, afterp); } size_t www_form_uri_decode(char *const dst, ssize_t dstsiz, const char *srcUrienc, size_t srclen, const char **afterp) { return _uri_decode(1, dst, dstsiz, srcUrienc, srclen, afterp); } const char base64_symbols[65] = { 'A','B','C','D','E','F','G','H','I','J','K','L','M','N','O','P', 'Q','R','S','T','U','V','W','X','Y','Z','a','b','c','d','e','f', 'g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v', 'w','x','y','z','0','1','2','3','4','5','6','7','8','9','+','/', '=' }; const char base64url_symbols[65] = { 'A','B','C','D','E','F','G','H','I','J','K','L','M','N','O','P', 'Q','R','S','T','U','V','W','X','Y','Z','a','b','c','d','e','f', 'g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v', 'w','x','y','z','0','1','2','3','4','5','6','7','8','9','-','_', '=' }; static size_t _base64_encodev(const char symbols[], char *dstBase64, const struct iovec *const iov, int const iovcnt) { char *dst = dstBase64; unsigned place = 0; unsigned char buf = 0; int iovc = 0; for (iovc = 0; iovc != iovcnt; ++iovc) { unsigned char *src = iov[iovc].iov_base; size_t cnt = iov[iovc].iov_len; for (; cnt; --cnt, ++src) { switch (place) { case 0: *dst++ = symbols[*src >> 2]; buf = (*src << 4) & 0x3f; place = 1; break; case 1: *dst++ = symbols[(*src >> 4) | buf]; buf = (*src << 2) & 0x3f; place = 2; break; case 2: *dst++ = symbols[(*src >> 6) | buf]; *dst++ = symbols[*src & 0x3f]; place = 0; break; } } } if (place) *dst++ = symbols[buf]; switch (place) { case 1: *dst++ = symbols[64]; case 2: *dst++ = symbols[64]; } return dst - dstBase64; } size_t base64_encodev(char *dstBase64, const struct iovec *const iov, int const iovcnt) { return _base64_encodev(base64_symbols, dstBase64, iov, iovcnt); } size_t base64url_encodev(char *dstBase64, const struct iovec *const iov, int const iovcnt) { return _base64_encodev(base64url_symbols, dstBase64, iov, iovcnt); } size_t base64_encode(char *const dstBase64, const unsigned char *src, size_t srclen) { struct iovec iov; iov.iov_base = (void *) src; iov.iov_len = srclen; return _base64_encodev(base64_symbols, dstBase64, &iov, 1); } size_t base64url_encode(char *const dstBase64, const unsigned char *src, size_t srclen) { struct iovec iov; iov.iov_base = (void *) src; iov.iov_len = srclen; return _base64_encodev(base64url_symbols, dstBase64, &iov, 1); } char *to_base64_str(char *const dstBase64, const unsigned char *srcBinary, size_t srcBytes) { dstBase64[base64_encode(dstBase64, srcBinary, srcBytes)] = '\0'; return dstBase64; } char *to_base64url_str(char *const dstBase64, const unsigned char *srcBinary, size_t srcBytes) { dstBase64[base64url_encode(dstBase64, srcBinary, srcBytes)] = '\0'; return dstBase64; } static size_t _base64_decode(unsigned char *dstBinary, size_t dstsiz, const char *const srcBase64, size_t srclen, const char **afterp, int flags, int (*skip_pred)(int), int (*isdigit_pred)(int), int (*ispad_pred)(int), uint8_t (*todigit)(char) ) { uint8_t buf = 0; size_t digits = 0; unsigned pads = 0; size_t bytes = 0; const char *const srcend = srcBase64 + srclen; const char *src = srcBase64; const char *first_pad = NULL; for (; srclen == 0 || (src < srcend); ++src) { int isdigit = isdigit_pred(*src); int ispad = ispad_pred(*src); if (!isdigit && !ispad && skip_pred && skip_pred(*src)) continue; assert(pads <= 2); if (pads == 2) break; int place = digits & 3; if (pads == 1) { if (place == 3) break; assert(place == 2); if (ispad) { ++pads; continue; // consume trailing space before ending } // If only one pad character was present but there should be two, then don't consume the first // one. assert(first_pad != NULL); src = first_pad; break; } assert(pads == 0); if (ispad && place >= 2) { first_pad = src; ++pads; continue; } if (!isdigit) break; ++digits; if (dstBinary && bytes < dstsiz) { uint8_t d = todigit(*src); switch (place) { case 0: buf = d << 2; break; case 1: dstBinary[bytes++] = buf | (d >> 4); buf = d << 4; break; case 2: dstBinary[bytes++] = buf | (d >> 2); buf = d << 6; break; case 3: dstBinary[bytes++] = buf | d; break; } } else if (flags & B64_CONSUME_ALL) { switch (place) { case 1: case 2: case 3: ++bytes; } } else break; } if (afterp) *afterp = src; else if (*src) return 0; return bytes; } size_t base64_decode(unsigned char *dstBinary, size_t dstsiz, const char *const srcBase64, size_t srclen, const char **afterp, int flags, int (*skip_pred)(int)) { return _base64_decode(dstBinary, dstsiz, srcBase64, srclen, afterp, flags, skip_pred, is_base64_digit, is_base64_pad, base64_digit); } size_t base64url_decode(unsigned char *dstBinary, size_t dstsiz, const char *const srcBase64, size_t srclen, const char **afterp, int flags, int (*skip_pred)(int)) { return _base64_decode(dstBinary, dstsiz, srcBase64, srclen, afterp, flags, skip_pred, is_base64url_digit, is_base64url_pad, base64url_digit); } #define _B64 _SERVAL_CTYPE_0_BASE64 #define _B64U _SERVAL_CTYPE_0_BASE64URL uint8_t _serval_ctype_0[UINT8_MAX] = { ['A'] = _B64 | _B64U | 0, ['B'] = _B64 | _B64U | 1, ['C'] = _B64 | _B64U | 2, ['D'] = _B64 | _B64U | 3, ['E'] = _B64 | _B64U | 4, ['F'] = _B64 | _B64U | 5, ['G'] = _B64 | _B64U | 6, ['H'] = _B64 | _B64U | 7, ['I'] = _B64 | _B64U | 8, ['J'] = _B64 | _B64U | 9, ['K'] = _B64 | _B64U | 10, ['L'] = _B64 | _B64U | 11, ['M'] = _B64 | _B64U | 12, ['N'] = _B64 | _B64U | 13, ['O'] = _B64 | _B64U | 14, ['P'] = _B64 | _B64U | 15, ['Q'] = _B64 | _B64U | 16, ['R'] = _B64 | _B64U | 17, ['S'] = _B64 | _B64U | 18, ['T'] = _B64 | _B64U | 19, ['U'] = _B64 | _B64U | 20, ['V'] = _B64 | _B64U | 21, ['W'] = _B64 | _B64U | 22, ['X'] = _B64 | _B64U | 23, ['Y'] = _B64 | _B64U | 24, ['Z'] = _B64 | _B64U | 25, ['a'] = _B64 | _B64U | 26, ['b'] = _B64 | _B64U | 27, ['c'] = _B64 | _B64U | 28, ['d'] = _B64 | _B64U | 29, ['e'] = _B64 | _B64U | 30, ['f'] = _B64 | _B64U | 31, ['g'] = _B64 | _B64U | 32, ['h'] = _B64 | _B64U | 33, ['i'] = _B64 | _B64U | 34, ['j'] = _B64 | _B64U | 35, ['k'] = _B64 | _B64U | 36, ['l'] = _B64 | _B64U | 37, ['m'] = _B64 | _B64U | 38, ['n'] = _B64 | _B64U | 39, ['o'] = _B64 | _B64U | 40, ['p'] = _B64 | _B64U | 41, ['q'] = _B64 | _B64U | 42, ['r'] = _B64 | _B64U | 43, ['s'] = _B64 | _B64U | 44, ['t'] = _B64 | _B64U | 45, ['u'] = _B64 | _B64U | 46, ['v'] = _B64 | _B64U | 47, ['w'] = _B64 | _B64U | 48, ['x'] = _B64 | _B64U | 49, ['y'] = _B64 | _B64U | 50, ['z'] = _B64 | _B64U | 51, ['0'] = _B64 | _B64U | 52, ['1'] = _B64 | _B64U | 53, ['2'] = _B64 | _B64U | 54, ['3'] = _B64 | _B64U | 55, ['4'] = _B64 | _B64U | 56, ['5'] = _B64 | _B64U | 57, ['6'] = _B64 | _B64U | 58, ['7'] = _B64 | _B64U | 59, ['8'] = _B64 | _B64U | 60, ['9'] = _B64 | _B64U | 61, ['+'] = _B64 | 62, ['/'] = _B64 | 63, ['-'] = _B64U | 62, ['_'] = _B64U | 63, }; #define _SEP _SERVAL_CTYPE_1_HTTP_SEPARATOR #define _URI_SCHEME _SERVAL_CTYPE_1_URI_SCHEME #define _URI_UNRES _SERVAL_CTYPE_1_URI_UNRESERVED #define _URI_RES _SERVAL_CTYPE_1_URI_RESERVED uint8_t _serval_ctype_1[UINT8_MAX] = { ['A'] = _URI_SCHEME | _URI_UNRES | 0xA, ['B'] = _URI_SCHEME | _URI_UNRES | 0xB, ['C'] = _URI_SCHEME | _URI_UNRES | 0xC, ['D'] = _URI_SCHEME | _URI_UNRES | 0xD, ['E'] = _URI_SCHEME | _URI_UNRES | 0xE, ['F'] = _URI_SCHEME | _URI_UNRES | 0xF, ['G'] = _URI_SCHEME | _URI_UNRES, ['H'] = _URI_SCHEME | _URI_UNRES, ['I'] = _URI_SCHEME | _URI_UNRES, ['J'] = _URI_SCHEME | _URI_UNRES, ['K'] = _URI_SCHEME | _URI_UNRES, ['L'] = _URI_SCHEME | _URI_UNRES, ['M'] = _URI_SCHEME | _URI_UNRES, ['N'] = _URI_SCHEME | _URI_UNRES, ['O'] = _URI_SCHEME | _URI_UNRES, ['P'] = _URI_SCHEME | _URI_UNRES, ['Q'] = _URI_SCHEME | _URI_UNRES, ['R'] = _URI_SCHEME | _URI_UNRES, ['S'] = _URI_SCHEME | _URI_UNRES, ['T'] = _URI_SCHEME | _URI_UNRES, ['U'] = _URI_SCHEME | _URI_UNRES, ['V'] = _URI_SCHEME | _URI_UNRES, ['W'] = _URI_SCHEME | _URI_UNRES, ['X'] = _URI_SCHEME | _URI_UNRES, ['Y'] = _URI_SCHEME | _URI_UNRES, ['Z'] = _URI_SCHEME | _URI_UNRES, ['a'] = _URI_SCHEME | _URI_UNRES | 0xa, ['b'] = _URI_SCHEME | _URI_UNRES | 0xb, ['c'] = _URI_SCHEME | _URI_UNRES | 0xc, ['d'] = _URI_SCHEME | _URI_UNRES | 0xd, ['e'] = _URI_SCHEME | _URI_UNRES | 0xe, ['f'] = _URI_SCHEME | _URI_UNRES | 0xf, ['g'] = _URI_SCHEME | _URI_UNRES, ['h'] = _URI_SCHEME | _URI_UNRES, ['i'] = _URI_SCHEME | _URI_UNRES, ['j'] = _URI_SCHEME | _URI_UNRES, ['k'] = _URI_SCHEME | _URI_UNRES, ['l'] = _URI_SCHEME | _URI_UNRES, ['m'] = _URI_SCHEME | _URI_UNRES, ['n'] = _URI_SCHEME | _URI_UNRES, ['o'] = _URI_SCHEME | _URI_UNRES, ['p'] = _URI_SCHEME | _URI_UNRES, ['q'] = _URI_SCHEME | _URI_UNRES, ['r'] = _URI_SCHEME | _URI_UNRES, ['s'] = _URI_SCHEME | _URI_UNRES, ['t'] = _URI_SCHEME | _URI_UNRES, ['u'] = _URI_SCHEME | _URI_UNRES, ['v'] = _URI_SCHEME | _URI_UNRES, ['w'] = _URI_SCHEME | _URI_UNRES, ['x'] = _URI_SCHEME | _URI_UNRES, ['y'] = _URI_SCHEME | _URI_UNRES, ['z'] = _URI_SCHEME | _URI_UNRES, ['0'] = _URI_SCHEME | _URI_UNRES | 0, ['1'] = _URI_SCHEME | _URI_UNRES | 1, ['2'] = _URI_SCHEME | _URI_UNRES | 2, ['3'] = _URI_SCHEME | _URI_UNRES | 3, ['4'] = _URI_SCHEME | _URI_UNRES | 4, ['5'] = _URI_SCHEME | _URI_UNRES | 5, ['6'] = _URI_SCHEME | _URI_UNRES | 6, ['7'] = _URI_SCHEME | _URI_UNRES | 7, ['8'] = _URI_SCHEME | _URI_UNRES | 8, ['9'] = _URI_SCHEME | _URI_UNRES | 9, ['\t'] = _SEP, [' '] = _SEP, ['_'] = _URI_UNRES, ['='] = _SEP | _URI_RES, ['<'] = _SEP, ['>'] = _SEP, [';'] = _SEP | _URI_RES, [':'] = _SEP | _URI_RES, ['\\'] = _SEP, ['\''] = _URI_RES, ['"'] = _SEP, ['/'] = _SEP | _URI_RES, ['['] = _SEP | _URI_RES, [']'] = _SEP | _URI_RES, ['{'] = _SEP, ['}'] = _SEP, ['('] = _SEP | _URI_RES, [')'] = _SEP | _URI_RES, [','] = _SEP | _URI_RES, ['.'] = _URI_SCHEME | _URI_UNRES, ['?'] = _SEP | _URI_RES, ['!'] = _URI_RES, ['+'] = _URI_SCHEME | _URI_RES, ['-'] = _URI_SCHEME | _URI_UNRES, ['*'] = _URI_RES, ['$'] = _URI_RES, ['&'] = _URI_RES, ['#'] = _URI_RES, ['@'] = _SEP | _URI_RES, ['~'] = _URI_UNRES, }; #define _BND _SERVAL_CTYPE_2_MULTIPART_BOUNDARY uint8_t _serval_ctype_2[UINT8_MAX] = { ['A'] = _BND, ['B'] = _BND, ['C'] = _BND, ['D'] = _BND, ['E'] = _BND, ['F'] = _BND, ['G'] = _BND, ['H'] = _BND, ['I'] = _BND, ['J'] = _BND, ['K'] = _BND, ['L'] = _BND, ['M'] = _BND, ['N'] = _BND, ['O'] = _BND, ['P'] = _BND, ['Q'] = _BND, ['R'] = _BND, ['S'] = _BND, ['T'] = _BND, ['U'] = _BND, ['V'] = _BND, ['W'] = _BND, ['X'] = _BND, ['Y'] = _BND, ['Z'] = _BND, ['a'] = _BND, ['b'] = _BND, ['c'] = _BND, ['d'] = _BND, ['e'] = _BND, ['f'] = _BND, ['g'] = _BND, ['h'] = _BND, ['i'] = _BND, ['j'] = _BND, ['k'] = _BND, ['l'] = _BND, ['m'] = _BND, ['n'] = _BND, ['o'] = _BND, ['p'] = _BND, ['q'] = _BND, ['r'] = _BND, ['s'] = _BND, ['t'] = _BND, ['u'] = _BND, ['v'] = _BND, ['w'] = _BND, ['x'] = _BND, ['y'] = _BND, ['z'] = _BND, ['0'] = _BND, ['1'] = _BND, ['2'] = _BND, ['3'] = _BND, ['4'] = _BND, ['5'] = _BND, ['6'] = _BND, ['7'] = _BND, ['8'] = _BND, ['9'] = _BND, ['+'] = _BND, ['/'] = _BND, ['='] = _BND, ['-'] = _BND, ['.'] = _BND, [':'] = _BND, ['_'] = _BND, ['('] = _BND, [')'] = _BND, [','] = _BND, ['?'] = _BND, [' '] = _BND, }; /* Does this whole buffer contain the same value? */ int is_all_matching(const unsigned char *ptr, size_t len, unsigned char value) { while (len--) if (*ptr++ != value) return 0; return 1; } char *str_toupper_inplace(char *str) { register char *s; for (s = str; *s; ++s) *s = toupper(*s); return str; } char *str_tolower_inplace(char *str) { register char *s; for (s = str; *s; ++s) *s = tolower(*s); return str; } const char *strnchr(const char *s, size_t n, char c) { for (; n; --n, ++s) { if (*s == c) return s; if (!*s) break; } return NULL; } int str_startswith(const char *str, const char *substring, const char **afterp) { while (*substring && *substring == *str) ++substring, ++str; if (*substring) return 0; if (afterp) *afterp = str; return 1; } int strn_startswith(const char *str, ssize_t len, const char *substring, const char **afterp) { // if len == -1 then str must be nul terminated while (len && *substring && *substring == *str) --len, ++substring, ++str; if (*substring) return 0; if (afterp) *afterp = str; return 1; } int strcase_startswith(const char *str, const char *substring, const char **afterp) { while (*substring && *str && toupper(*substring) == toupper(*str)) ++substring, ++str; if (*substring) return 0; if (afterp) *afterp = str; return 1; } int strncase_startswith(const char *str, size_t len, const char *substring, const char **afterp) { while (len && *substring && toupper(*substring) == toupper(*str)) --len, ++substring, ++str; if (*substring) return 0; if (afterp) *afterp = str; return 1; } int strn_str_cmp(const char *str1, size_t len1, const char *str2) { int r = strncmp(str1, str2, len1); if (r) return r; size_t len2 = strlen(str2); return len1 < len2 ? -1 : len1 > len2 ? 1 : 0; } int strn_str_casecmp(const char *str1, size_t len1, const char *str2) { int r = strncasecmp(str1, str2, len1); if (r) return r; size_t len2 = strlen(str2); return len1 < len2 ? -1 : len1 > len2 ? 1 : 0; } int parse_argv(char *cmdline, char delim, char **argv, int max_argv) { int argc=0; if (*cmdline && argc= needle_len) { for (; *haystack && haystack_len >= needle_len; ++haystack, --haystack_len) if (strncmp(haystack, needle, needle_len) == 0) return haystack; } return NULL; } int str_to_uint16(const char *str, unsigned base, uint16_t *result, const char **afterp) { return strn_to_uint16(str, 0, base, result, afterp); } int strn_to_uint16(const char *str, size_t strlen, unsigned base, uint16_t *result, const char **afterp) { assert(base > 0); assert(base <= 16); uint16_t value = 0; uint16_t newvalue = 0; const char *const end = str + strlen; const char *s; for (s = str; strlen ? s < end : *s; ++s) { int digit = hexvalue(*s); if (digit < 0 || (unsigned)digit >= base) break; newvalue = value * base + digit; if (newvalue / base != value) // overflow break; value = newvalue; } if (afterp) *afterp = s; if (s == str || value != newvalue || (!afterp && (strlen ? s != end : *s))) return 0; if (result) *result = value; return 1; } int str_to_int32(const char *str, unsigned base, int32_t *result, const char **afterp) { if (isspace(*str)) return 0; const char *end = str; errno = 0; long value = strtol(str, (char**)&end, base); if (afterp) *afterp = end; if (errno == ERANGE || end == str || value > INT32_MAX || value < INT32_MIN || isdigit(*end) || (!afterp && *end)) return 0; if (result) *result = value; return 1; } int str_to_uint32(const char *str, unsigned base, uint32_t *result, const char **afterp) { return strn_to_uint32(str, 0, base, result, afterp); } int strn_to_uint32(const char *str, size_t strlen, unsigned base, uint32_t *result, const char **afterp) { assert(base > 0); assert(base <= 16); uint32_t value = 0; uint32_t newvalue = 0; const char *const end = str + strlen; const char *s; for (s = str; strlen ? s < end : *s; ++s) { int digit = hexvalue(*s); if (digit < 0 || (unsigned)digit >= base) break; newvalue = value * base + digit; if (newvalue < value) // overflow break; value = newvalue; } if (afterp) *afterp = s; if (s == str || value > UINT32_MAX || value != newvalue || (!afterp && (strlen ? s != end : *s))) return 0; if (result) *result = value; return 1; } int str_is_uint64_decimal(const char *str) { return str_to_uint64(str, 10, NULL, NULL); } int str_to_int64(const char *str, unsigned base, int64_t *result, const char **afterp) { if (isspace(*str)) return 0; const char *end = str; errno = 0; long long value = strtoll(str, (char**)&end, base); if (afterp) *afterp = end; if (errno == ERANGE || end == str || isdigit(*end) || (!afterp && *end)) return 0; if (result) *result = value; return 1; } int str_to_uint64(const char *str, unsigned base, uint64_t *result, const char **afterp) { return strn_to_uint64(str, 0, base, result, afterp); } int strn_to_uint64(const char *str, size_t strlen, unsigned base, uint64_t *result, const char **afterp) { assert(base > 0); assert(base <= 16); uint64_t value = 0; uint64_t newvalue = 0; const char *const end = str + strlen; const char *s; for (s = str; strlen ? s < end : *s; ++s) { int digit = hexvalue(*s); if (digit < 0 || (unsigned)digit >= base) break; newvalue = value * base + digit; if (newvalue < value) // overflow break; value = newvalue; } if (afterp) *afterp = s; if (s == str || value > UINT64_MAX || value != newvalue || (!afterp && (strlen ? s != end : *s))) return 0; if (result) *result = value; return 1; } static struct scale_factor { char symbol; uint64_t factor; } scale_factors[] = { { 'G', 1024LL * 1024LL * 1024LL }, { 'g', 1000LL * 1000LL * 1000LL }, { 'M', 1024LL * 1024LL }, { 'm', 1000LL * 1000LL }, { 'K', 1024LL }, { 'k', 1000LL } }; uint64_t scale_factor(const char *str, const char **afterp) { uint64_t factor = 1; int i; for (i = 0; i != NELS(scale_factors); ++i) if (scale_factors[i].symbol == str[0]) { ++str; factor = scale_factors[i].factor; break; } if (afterp) *afterp = str; else if (*str) factor = 0; return factor; } int str_to_int64_scaled(const char *str, unsigned base, int64_t *result, const char **afterp) { int64_t value; const char *end = str; if (!str_to_int64(str, base, &value, &end)) { if (afterp) *afterp = end; return 0; } value *= scale_factor(end, &end); if (afterp) *afterp = end; else if (*end) return 0; if (result) *result = value; return 1; } int str_to_uint32_scaled(const char *str, unsigned base, uint32_t *result, const char **afterp) { uint32_t value; const char *end = str; if (!str_to_uint32(str, base, &value, &end)) { if (afterp) *afterp = end; return 0; } value *= scale_factor(end, &end); if (afterp) *afterp = end; else if (*end) return 0; if (result) *result = value; return 1; } int uint32_scaled_to_str(char *str, size_t len, uint32_t value) { char symbol = '\0'; int i; for (i = 0; i != NELS(scale_factors); ++i) if (value % scale_factors[i].factor == 0) { value /= scale_factors[i].factor; symbol = scale_factors[i].symbol; break; } strbuf b = strbuf_local(str, len); strbuf_sprintf(b, "%lu", (unsigned long) value); if (symbol) strbuf_putc(b, symbol); return strbuf_overrun(b) ? 0 : 1; } int str_to_uint64_scaled(const char *str, unsigned base, uint64_t *result, const char **afterp) { uint64_t value; const char *end = str; if (!str_to_uint64(str, base, &value, &end)) { if (afterp) *afterp = end; return 0; } value *= scale_factor(end, &end); if (afterp) *afterp = end; else if (*end) return 0; if (result) *result = value; return 1; } int uint64_scaled_to_str(char *str, size_t len, uint64_t value) { char symbol = '\0'; int i; for (i = 0; i != NELS(scale_factors); ++i) if (value % scale_factors[i].factor == 0) { value /= scale_factors[i].factor; symbol = scale_factors[i].symbol; break; } strbuf b = strbuf_local(str, len); strbuf_sprintf(b, "%llu", (unsigned long long) value); if (symbol) strbuf_putc(b, symbol); return strbuf_overrun(b) ? 0 : 1; } int str_to_uint64_interval_ms(const char *str, int64_t *result, const char **afterp) { const unsigned precision = 1000; if (isspace(*str)) return 0; const char *end = str; unsigned long long value = strtoull(str, (char**)&end, 10) * precision; if (end == str) { if (afterp) *afterp = end; return 0; } if (end[0] == '.' && isdigit(end[1])) { ++end; unsigned factor; for (factor = precision / 10; isdigit(*end) && factor; factor /= 10) value += (*end++ - '0') * factor; } if (afterp) *afterp = end; else if (*end) return 0; if (result) *result = value; return 1; } /* Compute the length of the string produced by sprintf(fmt, ...). @author Andrew Bettison */ size_t sprintf_len(const char *fmt, ...) { strbuf b = strbuf_local(NULL, 0); va_list ap; va_start(ap, fmt); strbuf_vsprintf(b, fmt, ap); va_end(ap); return strbuf_count(b); } /* Format a buffer of data as a printable representation, eg: "Abc\x0b\n\0", for display in log messages. @author Andrew Bettison */ char *toprint(char *dstStr, ssize_t dstBufSiz, const char *srcBuf, size_t srcBytes, const char quotes[2]) { strbuf b = strbuf_local(dstStr, dstBufSiz); strbuf_toprint_quoted_len(b, quotes, srcBuf, srcBytes); return dstStr; } /* Compute the length of the string produced by toprint(). @author Andrew Bettison */ size_t toprint_len(const char *srcBuf, size_t srcBytes, const char quotes[2]) { return strbuf_count(strbuf_toprint_quoted_len(strbuf_local(NULL, 0), quotes, srcBuf, srcBytes)); } /* Format a null-terminated string as a printable representation, eg: `Abc\x0b\n`, for display in log messages. If the given string pointer is NULL, return the string "NULL" without quotes. @author Andrew Bettison */ char *toprint_str(char *dstStr, ssize_t dstBufSiz, const char *srcStr, const char quotes[2]) { strbuf b = strbuf_local(dstStr, dstBufSiz); if (srcStr) strbuf_toprint_quoted(b, quotes, srcStr); else strbuf_puts(b, "NULL"); return dstStr; } /* Compute the length of the string produced by toprint_str(), excluding the terminating nul. @author Andrew Bettison */ size_t toprint_str_len(const char *srcStr, const char quotes[2]) { return srcStr ? strbuf_count(strbuf_toprint_quoted(strbuf_local(NULL, 0), quotes, srcStr)) : 4; } size_t strn_fromprint(unsigned char *dst, size_t dstsiz, const char *src, size_t srclen, char endquote, const char **afterp) { unsigned char *const odst = dst; unsigned char *const edst = dst + dstsiz; const char *const esrc = srclen ? src + srclen : NULL; while ((src < esrc || !esrc) && *src && *src != endquote && dst < edst) { switch (*src) { case '\\': ++src; unsigned char d; switch (*src) { case '\0': d = '\\'; break; case '0': d = '\0'; ++src; break; case 'n': d = '\n'; ++src; break; case 'r': d = '\r'; ++src; break; case 't': d = '\t'; ++src; break; case 'x': if (isxdigit(src[1]) && isxdigit(src[2])) { ++src; fromhex(&d, src, 1); src += 2; break; } // fall through default: d = *src++; break; } *dst++ = d; break; default: *dst++ = *src++; break; } } if (afterp) *afterp = src; return dst - odst; } void str_digest_passphrase(unsigned char *dstBinary, size_t dstsiz, const char *passphrase) { return strn_digest_passphrase(dstBinary, dstsiz, passphrase, strlen(passphrase)); } void strn_digest_passphrase(unsigned char *dstBinary, size_t dstsiz, const char *passphrase, size_t passlen) { assert(dstsiz <= SERVAL_PASSPHRASE_DIGEST_MAX_BINARY); crypto_hash_sha512_state context; static const char salt1[] = "Sago pudding"; static const char salt2[] = "Rhubarb pie"; crypto_hash_sha512_init(&context); crypto_hash_sha512_update(&context, (unsigned char *)salt1, sizeof salt1 - 1); crypto_hash_sha512_update(&context, (unsigned char *)passphrase, passlen); crypto_hash_sha512_update(&context, (unsigned char *)salt2, sizeof salt2 - 1); unsigned char hash[crypto_hash_sha512_BYTES]; crypto_hash_sha512_final(&context, hash); bcopy(hash, dstBinary, dstsiz); } /* Return true if the string resembles a URI. * Based on RFC-3986 generic syntax, assuming nothing about the hierarchical part. * * @author Andrew Bettison */ int str_is_uri(const char *uri) { const char *p; size_t len; if (!str_uri_scheme(uri, &p, &len)) return 0; const char *const q = (p += len + 1); for (; *p && (is_uri_char_unreserved(*p) || is_uri_char_reserved(*p)) && *p != '?' && *p != '#'; ++p) ; if (p == q) return 0; if (*p == '?') for (++p; *p && (is_uri_char_unreserved(*p) || is_uri_char_reserved(*p)) && *p != '?' && *p != '#'; ++p) ; if (*p == '#') for (++p; *p && (is_uri_char_unreserved(*p) || is_uri_char_reserved(*p)) && *p != '?' && *p != '#'; ++p) ; return !*p; } int str_uri_scheme(const char *uri, const char **partp, size_t *lenp) { const char *p = uri; // Scheme is ALPHA *( ALPHA / DIGIT / "+" / "-" / "." ) if (!isalpha(*p++)) return 0; while (is_uri_char_scheme(*p)) ++p; // Scheme is followed by colon ":". if (*p != ':') return 0; if (partp) *partp = uri; if (lenp) *lenp = p - uri; return 1; } int str_uri_hierarchical(const char *uri, const char **partp, size_t *lenp) { const char *p = uri; while (*p && *p != ':') ++p; if (*p != ':') return 0; const char *const q = ++p; while (*p && (is_uri_char_unreserved(*p) || is_uri_char_reserved(*p)) && *p != '?' && *p != '#') ++p; if (p == q) return 0; if (partp) *partp = q; if (lenp) *lenp = p - q; return 1; } int str_uri_query(const char *uri, const char **partp, size_t *lenp) { const char *p = uri; while (*p && *p != '?') ++p; if (*p != '?') return 0; const char *const q = ++p; while (*p && (is_uri_char_unreserved(*p) || is_uri_char_reserved(*p)) && *p != '#') ++p; if (p == q || (*p && *p != '#')) return 0; if (partp) *partp = q; if (lenp) *lenp = p - q; return 1; } int str_uri_fragment(const char *uri, const char **partp, size_t *lenp) { const char *p = uri; while (*p && *p != '#') ++p; if (*p != '#') return 0; const char *const q = ++p; while (*p && (is_uri_char_unreserved(*p) || is_uri_char_reserved(*p))) ++p; if (p == q || *p) return 0; if (partp) *partp = q; if (lenp) *lenp = p - q; return 1; } int str_uri_hierarchical_authority(const char *hier, const char **partp, size_t *lenp) { if (hier[0] != '/' || hier[1] != '/') return 0; const char *const q = hier + 2; const char *p = q; while (*p && (is_uri_char_unreserved(*p) || is_uri_char_reserved(*p)) && *p != '/' && *p != '?' && *p != '#') ++p; if (p == q || (*p && *p != '/' && *p != '?' && *p != '#')) return 0; if (partp) *partp = q; if (lenp) *lenp = p - q; return 1; } int str_uri_hierarchical_path(const char *hier, const char **partp, size_t *lenp) { if (hier[0] != '/' || hier[1] != '/') return 0; const char *p = hier + 2; while (*p && *p != '/' && *p != '?' && *p != '#') ++p; if (!*p) return 0; const char *const q = ++p; while (*p && (is_uri_char_unreserved(*p) || is_uri_char_reserved(*p)) && *p != '/' && *p != '?' && *p != '#') ++p; if (p == q || (*p && *p != '/' && *p != '?' && *p != '#')) return 0; if (partp) *partp = q; if (lenp) *lenp = p - q; return 1; } int str_uri_authority_username(const char *auth, const char **partp, size_t *lenp) { const char *p; for (p = auth; *p && *p != '@' && *p != '/' && *p != '?' && *p != '#'; ++p) ; if (*p != '@') return 0; for (p = auth; *p && *p != ':' && *p != '@'; ++p) ; if (*p != ':') return 0; if (partp) *partp = auth; if (lenp) *lenp = p - auth; return 1; } int str_uri_authority_password(const char *auth, const char **partp, size_t *lenp) { const char *p; for (p = auth; *p && *p != '@' && *p != '/' && *p != '?' && *p != '#'; ++p) ; if (*p != '@') return 0; for (p = auth; *p && *p != ':' && *p != '@'; ++p) ; if (*p != ':') return 0; const char *const q = ++p; for (; *p && *p != '@'; ++p) ; assert(*p == '@'); if (partp) *partp = q; if (lenp) *lenp = p - q; return 1; } int str_uri_authority_hostname(const char *auth, const char **partp, size_t *lenp) { const char *p; const char *q = auth; for (p = auth; *p && *p != '/' && *p != '?' && *p != '#'; ++p) if (*p == '@') q = p + 1; const char *r = p; while (r > q && isdigit(*--r)) ; if (r < p - 1 && *r == ':') p = r; if (partp) *partp = q; if (lenp) *lenp = p - q; return 1; } int str_uri_authority_port(const char *auth, uint16_t *portp) { const char *p; const char *q = auth; for (p = auth; *p && *p != '/' && *p != '?' && *p != '#'; ++p) if (*p == '@') q = p + 1; const char *r = p; while (r > q && isdigit(*--r)) ; if (r < p - 1 && *r == ':') { for (++r; *r == '0'; ++r) ; unsigned int n; if (p - r <= 5 && (n = atoi(r)) <= USHRT_MAX) { *portp = n; return 1; } } return 0; }