/* This file is part of libmicrohttpd Copyright (C) 2016 Karlson2k (Evgeny Grin) This test tool 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, or (at your option) any later version. This test tool 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ /** * @file microhttpd/unit_str_test.h * @brief Unit tests for mhd_str functions * @author Karlson2k (Evgeny Grin) */ #include "mhd_options.h" #include #include #include #ifdef HAVE_INTTYPES_H #include #else /* ! HAVE_INTTYPES_H */ #define PRIu64 "llu" #define PRIuPTR "u" #define PRIX64 "llX" #endif /* ! HAVE_INTTYPES_H */ #include #include "mhd_limits.h" #include "mhd_str.h" #include "test_helpers.h" static int verbose = 0; /* verbose level (0-3)*/ /* Locale names to test. * Functions must not depend of current current locale, * so result must be the same in any locale. */ static const char * const locale_names[] = { "C", "", /* System default locale */ #if defined(_WIN32) && !defined(__CYGWIN__) ".OCP", /* W32 system default OEM code page */ ".ACP", /* W32 system default ANSI code page */ ".65001", /* UTF-8 */ ".437", ".850", ".857", ".866", ".1250", ".1251", ".1252", ".1254", ".20866", /* number for KOI8-R */ ".28591", /* number for ISO-8859-1 */ ".28595", /* number for ISO-8859-5 */ ".28599", /* number for ISO-8859-9 */ ".28605", /* number for ISO-8859-15 */ "en", "english", "en-US", "English-US", "en-US.437", "English_United States.437", "en-US.1252", "English_United States.1252", "English_United States.28591", "English_United States.65001", "fra", "french", "fr-FR", "French_France", "fr-FR.850", "french_france.850", "fr-FR.1252", "French_france.1252", "French_france.28605", "French_France.65001", "de", "de-DE", "de-DE.850", "German_Germany.850", "German_Germany.1250", "de-DE.1252", "German_Germany.1252", "German_Germany.28605", "German_Germany.65001", "tr", "trk", "turkish", "tr-TR", "tr-TR.1254", "Turkish_Turkey.1254", "tr-TR.857", "Turkish_Turkey.857", "Turkish_Turkey.28599", "Turkish_Turkey.65001", "ru", "ru-RU", "Russian", "ru-RU.866", "Russian_Russia.866", "ru-RU.1251", "Russian_Russia.1251", "Russian_Russia.20866", "Russian_Russia.28595", "Russian_Russia.65001", "zh-Hans", "zh-Hans.936", "chinese-simplified" #else /* ! _WIN32 || __CYGWIN__ */ "C.UTF-8", "POSIX", "en", "en_US", "en_US.ISO-8859-1", "en_US.ISO_8859-1", "en_US.ISO8859-1", "en_US.iso88591", "en_US.ISO-8859-15", "en_US.DIS_8859-15", "en_US.ISO8859-15", "en_US.iso885915", "en_US.1252", "en_US.CP1252", "en_US.UTF-8", "en_US.utf8", "fr", "fr_FR", "fr_FR.850", "fr_FR.IBM850", "fr_FR.1252", "fr_FR.CP1252", "fr_FR.ISO-8859-1", "fr_FR.ISO_8859-1", "fr_FR.ISO8859-1", "fr_FR.iso88591", "fr_FR.ISO-8859-15", "fr_FR.DIS_8859-15", "fr_FR.ISO8859-15", "fr_FR.iso8859-15", "fr_FR.UTF-8", "fr_FR.utf8", "de", "de_DE", "de_DE.850", "de_DE.IBM850", "de_DE.1250", "de_DE.CP1250", "de_DE.1252", "de_DE.CP1252", "de_DE.ISO-8859-1", "de_DE.ISO_8859-1", "de_DE.ISO8859-1", "de_DE.iso88591", "de_DE.ISO-8859-15", "de_DE.DIS_8859-15", "de_DE.ISO8859-15", "de_DE.iso885915", "de_DE.UTF-8", "de_DE.utf8", "tr", "tr_TR", "tr_TR.1254", "tr_TR.CP1254", "tr_TR.857", "tr_TR.IBM857", "tr_TR.ISO-8859-9", "tr_TR.ISO8859-9", "tr_TR.iso88599", "tr_TR.UTF-8", "tr_TR.utf8", "ru", "ru_RU", "ru_RU.1251", "ru_RU.CP1251", "ru_RU.866", "ru_RU.IBM866", "ru_RU.KOI8-R", "ru_RU.koi8-r", "ru_RU.KOI8-RU", "ru_RU.ISO-8859-5", "ru_RU.ISO_8859-5", "ru_RU.ISO8859-5", "ru_RU.iso88595", "ru_RU.UTF-8", "zh_CN", "zh_CN.GB2312", "zh_CN.UTF-8", #endif /* ! _WIN32 || __CYGWIN__ */ }; static const unsigned int locale_name_count = sizeof(locale_names) / sizeof(locale_names[0]); /* * Helper functions */ int set_test_locale(unsigned int num) { if (num >= locale_name_count) return -1; if (verbose > 2) printf("Setting locale \"%s\":", locale_names[num]); if (setlocale(LC_ALL, locale_names[num])) { if (verbose > 2) printf(" succeed.\n"); return 1; } if (verbose > 2) printf(" failed.\n"); return 0; } const char * get_current_locale_str(void) { char const * loc_str = setlocale(LC_ALL, NULL); return loc_str ? loc_str : "unknown"; } static char tmp_bufs[4][4*1024]; /* should be enough for testing */ static size_t buf_idx = 0; /* print non-printable chars as char codes */ char * n_prnt(const char * str) { static char * buf; /* should be enough for testing */ static const size_t buf_size = sizeof(tmp_bufs[0]); const unsigned char * p = (const unsigned char*)str; size_t w_pos = 0; if (++buf_idx > 3) buf_idx = 0; buf = tmp_bufs[buf_idx]; while(*p && w_pos + 1 < buf_size) { const unsigned char c = *p; if (c == '\\' || c == '"') { if (w_pos + 2 >= buf_size) break; buf[w_pos++] = '\\'; buf[w_pos++] = c; } else if (c >= 0x20 && c <= 0x7E) buf[w_pos++] = c; else { if (w_pos + 4 >= buf_size) break; if (snprintf(buf + w_pos, buf_size - w_pos, "\\x%02hX", (short unsigned int)c) != 4) break; w_pos += 4; } p++; } if (*p) { /* not full string is printed */ /* enough space for "..." ? */ if (w_pos + 3 > buf_size) w_pos = buf_size - 4; buf[w_pos++] = '.'; buf[w_pos++] = '.'; buf[w_pos++] = '.'; } buf[w_pos] = 0; return buf; } struct str_with_len { const char * const str; const size_t len; }; #define D_STR_W_LEN(s) {(s), (sizeof((s)) / sizeof(char)) - 1} /* * String caseless equality functions tests */ struct two_eq_strs { const struct str_with_len s1; const struct str_with_len s2; }; static const struct two_eq_strs eq_strings[] = { {D_STR_W_LEN("1234567890!@~%&$@#{}[]\\/!?`."), D_STR_W_LEN("1234567890!@~%&$@#{}[]\\/!?`.")}, {D_STR_W_LEN("Simple string."), D_STR_W_LEN("Simple string.")}, {D_STR_W_LEN("SIMPLE STRING."), D_STR_W_LEN("SIMPLE STRING.")}, {D_STR_W_LEN("simple string."), D_STR_W_LEN("simple string.")}, {D_STR_W_LEN("simple string."), D_STR_W_LEN("Simple String.")}, {D_STR_W_LEN("sImPlE StRiNg."), D_STR_W_LEN("SiMpLe sTrInG.")}, {D_STR_W_LEN("SIMPLE STRING."), D_STR_W_LEN("simple string.")}, {D_STR_W_LEN("abcdefghijklmnopqrstuvwxyz"), D_STR_W_LEN("abcdefghijklmnopqrstuvwxyz")}, {D_STR_W_LEN("ABCDEFGHIJKLMNOPQRSTUVWXYZ"), D_STR_W_LEN("ABCDEFGHIJKLMNOPQRSTUVWXYZ")}, {D_STR_W_LEN("abcdefghijklmnopqrstuvwxyz"), D_STR_W_LEN("ABCDEFGHIJKLMNOPQRSTUVWXYZ")}, {D_STR_W_LEN("zyxwvutsrqponMLKJIHGFEDCBA"), D_STR_W_LEN("ZYXWVUTSRQPONmlkjihgfedcba")}, {D_STR_W_LEN("Cha\x8cne pour le test."), D_STR_W_LEN("Cha\x8cne pour le test.")}, /* "Chaîne pour le test." in CP850 */ {D_STR_W_LEN("cha\x8cne pOur Le TEst."), D_STR_W_LEN("Cha\x8cne poUr Le teST.")}, {D_STR_W_LEN("Cha\xeene pour le test."), D_STR_W_LEN("Cha\xeene pour le test.")}, /* "Chaîne pour le test." in CP1252/ISO-8859-1/ISO-8859-15 */ {D_STR_W_LEN("CHa\xeene POUR le test."), D_STR_W_LEN("Cha\xeeNe pour lE TEST.")}, {D_STR_W_LEN("Cha\xc3\xaene pour le Test."), D_STR_W_LEN("Cha\xc3\xaene pour le Test.")}, /* "Chaîne pour le test." in UTF-8 */ {D_STR_W_LEN("ChA\xc3\xaene pouR lE TesT."), D_STR_W_LEN("Cha\xc3\xaeNe Pour le teSt.")}, {D_STR_W_LEN(".Beispiel Zeichenfolge"), D_STR_W_LEN(".Beispiel Zeichenfolge")}, {D_STR_W_LEN(".bEisPiel ZEIchenfoLgE"), D_STR_W_LEN(".BEiSpiEl zeIcheNfolge")}, {D_STR_W_LEN("Do\xa7rulama \x87izgi!"), D_STR_W_LEN("Do\xa7rulama \x87izgi!")}, /* "Doğrulama çizgi!" in CP857 */ {D_STR_W_LEN("Do\xa7rulama \x87IzgI!"), /* Spelling intentionally incorrect here */ D_STR_W_LEN("Do\xa7rulama \x87izgi!")}, /* Note: 'i' is not caseless equal to 'I' in Turkish */ {D_STR_W_LEN("Do\xf0rulama \xe7izgi!"), D_STR_W_LEN("Do\xf0rulama \xe7izgi!")}, /* "Doğrulama çizgi!" in CP1254/ISO-8859-9 */ {D_STR_W_LEN("Do\xf0rulamA \xe7Izgi!"), D_STR_W_LEN("do\xf0rulama \xe7izgi!")}, {D_STR_W_LEN("Do\xc4\x9frulama \xc3\xa7izgi!"), D_STR_W_LEN("Do\xc4\x9frulama \xc3\xa7izgi!")}, /* "Doğrulama çizgi!" in UTF-8 */ {D_STR_W_LEN("do\xc4\x9fruLAMA \xc3\xa7Izgi!"), /* Spelling intentionally incorrect here */ D_STR_W_LEN("DO\xc4\x9frulama \xc3\xa7izgI!")}, /* Spelling intentionally incorrect here */ {D_STR_W_LEN("\x92\xa5\xe1\xe2\xae\xa2\xa0\xef \x91\xe2\xe0\xae\xaa\xa0."), D_STR_W_LEN("\x92\xa5\xe1\xe2\xae\xa2\xa0\xef \x91\xe2\xe0\xae\xaa\xa0.")}, /* "Тестовая Строка." in CP866 */ {D_STR_W_LEN("\xd2\xe5\xf1\xf2\xee\xe2\xe0\xff \xd1\xf2\xf0\xee\xea\xe0."), D_STR_W_LEN("\xd2\xe5\xf1\xf2\xee\xe2\xe0\xff \xd1\xf2\xf0\xee\xea\xe0.")}, /* "Тестовая Строка." in CP1251 */ {D_STR_W_LEN("\xf4\xc5\xd3\xd4\xcf\xd7\xc1\xd1 \xf3\xd4\xd2\xcf\xcb\xc1."), D_STR_W_LEN("\xf4\xc5\xd3\xd4\xcf\xd7\xc1\xd1 \xf3\xd4\xd2\xcf\xcb\xc1.")}, /* "Тестовая Строка." in KOI8-R */ {D_STR_W_LEN("\xc2\xd5\xe1\xe2\xde\xd2\xd0\xef \xc1\xe2\xe0\xde\xda\xd0."), D_STR_W_LEN("\xc2\xd5\xe1\xe2\xde\xd2\xd0\xef \xc1\xe2\xe0\xde\xda\xd0.")}, /* "Тестовая Строка." in ISO-8859-5 */ {D_STR_W_LEN("\xd0\xa2\xd0\xb5\xd1\x81\xd1\x82\xd0\xbe\xd0\xb2\xd0\xb0\xd1" "\x8f \xd0\xa1\xd1\x82\xd1\x80\xd0\xbe\xd0\xba\xd0\xb0."), D_STR_W_LEN("\xd0\xa2\xd0\xb5\xd1\x81\xd1\x82\xd0\xbe\xd0\xb2\xd0\xb0\xd1" "\x8f \xd0\xa1\xd1\x82\xd1\x80\xd0\xbe\xd0\xba\xd0\xb0.")}, /* "Тестовая Строка." in UTF-8 */ {D_STR_W_LEN("\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14" "\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f !\"#$%&'()*+,-./0123456789:;<=>?@[\\]" "^_`{|}~\x7f\x80\x81\x82\x83\x84\x85\x86\x87\x88\x89\x8a\x8b\x8c\x8d\x8e\x8f\x90" "\x91\x92\x93\x94\x95\x96\x97\x98\x99\x9a\x9b\x9c\x9d\x9e\x9f\xa0\xa1\xa2\xa3\xa4" "\xa5\xa6\xa7\xa8\xa9\xaa\xab\xac\xad\xae\xaf\xb0\xb1\xb2\xb3\xb4\xb5\xb6\xb7\xb8" "\xb9\xba\xbb\xbc\xbd\xbe\xbf\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc" "\xcd\xce\xcf\xd0\xd1\xd2\xd3\xd4\xd5\xd6\xd7\xd8\xd9\xda\xdb\xdc\xdd\xde\xdf\xe0" "\xe1\xe2\xe3\xe4\xe5\xe6\xe7\xe8\xe9\xea\xeb\xec\xed\xee\xef\xf0\xf1\xf2\xf3\xf4" "\xf5\xf6\xf7\xf8\xf9\xfa\xfb\xfc\xfd\xfe\xff"), D_STR_W_LEN("\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14" "\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f !\"#$%&'()*+,-./0123456789:;<=>?@[\\]" "^_`{|}~\x7f\x80\x81\x82\x83\x84\x85\x86\x87\x88\x89\x8a\x8b\x8c\x8d\x8e\x8f\x90" "\x91\x92\x93\x94\x95\x96\x97\x98\x99\x9a\x9b\x9c\x9d\x9e\x9f\xa0\xa1\xa2\xa3\xa4" "\xa5\xa6\xa7\xa8\xa9\xaa\xab\xac\xad\xae\xaf\xb0\xb1\xb2\xb3\xb4\xb5\xb6\xb7\xb8" "\xb9\xba\xbb\xbc\xbd\xbe\xbf\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc" "\xcd\xce\xcf\xd0\xd1\xd2\xd3\xd4\xd5\xd6\xd7\xd8\xd9\xda\xdb\xdc\xdd\xde\xdf\xe0" "\xe1\xe2\xe3\xe4\xe5\xe6\xe7\xe8\xe9\xea\xeb\xec\xed\xee\xef\xf0\xf1\xf2\xf3\xf4" "\xf5\xf6\xf7\xf8\xf9\xfa\xfb\xfc\xfd\xfe\xff")}, /* Full sequence without a-z */ {D_STR_W_LEN("\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14" "\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f !\"#$%&'()*+,-./0123456789:;<=>?@AB" "CDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}~\x7f\x80\x81\x82\x83" "\x84\x85\x86\x87\x88\x89\x8a\x8b\x8c\x8d\x8e\x8f\x90\x91\x92\x93\x94\x95\x96\x97" "\x98\x99\x9a\x9b\x9c\x9d\x9e\x9f\xa0\xa1\xa2\xa3\xa4\xa5\xa6\xa7\xa8\xa9\xaa\xab" "\xac\xad\xae\xaf\xb0\xb1\xb2\xb3\xb4\xb5\xb6\xb7\xb8\xb9\xba\xbb\xbc\xbd\xbe\xbf" "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf\xd0\xd1\xd2\xd3" "\xd4\xd5\xd6\xd7\xd8\xd9\xda\xdb\xdc\xdd\xde\xdf\xe0\xe1\xe2\xe3\xe4\xe5\xe6\xe7" "\xe8\xe9\xea\xeb\xec\xed\xee\xef\xf0\xf1\xf2\xf3\xf4\xf5\xf6\xf7\xf8\xf9\xfa\xfb" "\xfc\xfd\xfe\xff"), D_STR_W_LEN("\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14" "\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f !\"#$%&'()*+,-./0123456789:;<=>?@AB" "CDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}~\x7f\x80\x81\x82\x83" "\x84\x85\x86\x87\x88\x89\x8a\x8b\x8c\x8d\x8e\x8f\x90\x91\x92\x93\x94\x95\x96\x97" "\x98\x99\x9a\x9b\x9c\x9d\x9e\x9f\xa0\xa1\xa2\xa3\xa4\xa5\xa6\xa7\xa8\xa9\xaa\xab" "\xac\xad\xae\xaf\xb0\xb1\xb2\xb3\xb4\xb5\xb6\xb7\xb8\xb9\xba\xbb\xbc\xbd\xbe\xbf" "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf\xd0\xd1\xd2\xd3" "\xd4\xd5\xd6\xd7\xd8\xd9\xda\xdb\xdc\xdd\xde\xdf\xe0\xe1\xe2\xe3\xe4\xe5\xe6\xe7" "\xe8\xe9\xea\xeb\xec\xed\xee\xef\xf0\xf1\xf2\xf3\xf4\xf5\xf6\xf7\xf8\xf9\xfa\xfb" "\xfc\xfd\xfe\xff")}, /* Full sequence */ {D_STR_W_LEN("\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14" "\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f !\"#$%&'()*+,-./0123456789:;<=>?@AB" "CDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`{|}~\x7f\x80\x81\x82\x83\x84\x85\x86\x87\x88\x89" "\x8a\x8b\x8c\x8d\x8e\x8f\x90\x91\x92\x93\x94\x95\x96\x97\x98\x99\x9a\x9b\x9c\x9d" "\x9e\x9f\xa0\xa1\xa2\xa3\xa4\xa5\xa6\xa7\xa8\xa9\xaa\xab\xac\xad\xae\xaf\xb0\xb1" "\xb2\xb3\xb4\xb5\xb6\xb7\xb8\xb9\xba\xbb\xbc\xbd\xbe\xbf\xc0\xc1\xc2\xc3\xc4\xc5" "\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf\xd0\xd1\xd2\xd3\xd4\xd5\xd6\xd7\xd8\xd9" "\xda\xdb\xdc\xdd\xde\xdf\xe0\xe1\xe2\xe3\xe4\xe5\xe6\xe7\xe8\xe9\xea\xeb\xec\xed" "\xee\xef\xf0\xf1\xf2\xf3\xf4\xf5\xf6\xf7\xf8\xf9\xfa\xfb\xfc\xfd\xfe\xff"), D_STR_W_LEN("\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14" "\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f !\"#$%&'()*+,-./0123456789:;<=>?@ab" "cdefghijklmnopqrstuvwxyz[\\]^_`{|}~\x7f\x80\x81\x82\x83\x84\x85\x86\x87\x88\x89" "\x8a\x8b\x8c\x8d\x8e\x8f\x90\x91\x92\x93\x94\x95\x96\x97\x98\x99\x9a\x9b\x9c\x9d" "\x9e\x9f\xa0\xa1\xa2\xa3\xa4\xa5\xa6\xa7\xa8\xa9\xaa\xab\xac\xad\xae\xaf\xb0\xb1" "\xb2\xb3\xb4\xb5\xb6\xb7\xb8\xb9\xba\xbb\xbc\xbd\xbe\xbf\xc0\xc1\xc2\xc3\xc4\xc5" "\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf\xd0\xd1\xd2\xd3\xd4\xd5\xd6\xd7\xd8\xd9" "\xda\xdb\xdc\xdd\xde\xdf\xe0\xe1\xe2\xe3\xe4\xe5\xe6\xe7\xe8\xe9\xea\xeb\xec\xed" "\xee\xef\xf0\xf1\xf2\xf3\xf4\xf5\xf6\xf7\xf8\xf9\xfa\xfb\xfc\xfd\xfe\xff")} /* Full with A/a match */ }; struct two_neq_strs { const struct str_with_len s1; const struct str_with_len s2; const size_t dif_pos; }; static const struct two_neq_strs neq_strings[] = { {D_STR_W_LEN("1234567890!@~%&$@#{}[]\\/!?`."), D_STR_W_LEN("1234567890!@~%&$@#{}[]\\/!?`"), 27}, {D_STR_W_LEN(".1234567890!@~%&$@#{}[]\\/!?`."), D_STR_W_LEN("1234567890!@~%&$@#{}[]\\/!?`"), 0}, {D_STR_W_LEN("Simple string."), D_STR_W_LEN("Simple ctring."), 7}, {D_STR_W_LEN("simple string."), D_STR_W_LEN("simple string"), 13}, {D_STR_W_LEN("simple strings"), D_STR_W_LEN("Simple String."), 13}, {D_STR_W_LEN("sImPlE StRiNg."), D_STR_W_LEN("SYMpLe sTrInG."), 1}, {D_STR_W_LEN("SIMPLE STRING."), D_STR_W_LEN("simple string.2"), 14}, {D_STR_W_LEN("abcdefghijklmnopqrstuvwxyz,"), D_STR_W_LEN("abcdefghijklmnopqrstuvwxyz."), 26}, {D_STR_W_LEN("abcdefghijklmnopqrstuvwxyz!"), D_STR_W_LEN("ABCDEFGHIJKLMNOPQRSTUVWXYZ?"), 26}, {D_STR_W_LEN("zyxwvutsrqponwMLKJIHGFEDCBA"), D_STR_W_LEN("ZYXWVUTSRQPON%mlkjihgfedcba"), 13}, {D_STR_W_LEN("S\xbdur veulent plus d'\xbdufs."), /* "Sœur veulent plus d'œufs." in ISO-8859-15 */ D_STR_W_LEN("S\xbcUR VEULENT PLUS D'\xbcUFS."), 1},/* "SŒUR VEULENT PLUS D'ŒUFS." in ISO-8859-15 */ {D_STR_W_LEN("S\x9cur veulent plus d'\x9cufs."), /* "Sœur veulent plus d'œufs." in CP1252 */ D_STR_W_LEN("S\x8cUR VEULENT PLUS D'\x8cUFS."), 1},/* "SŒUR VEULENT PLUS D'ŒUFS." in CP1252 */ {D_STR_W_LEN("S\xc5\x93ur veulent plus d'\xc5\x93ufs."), /* "Sœur veulent plus d'œufs." in UTF-8 */ D_STR_W_LEN("S\xc5\x92UR VEULENT PLUS D'\xc5\x92UFS."), 2},/* "SŒUR VEULENT PLUS D'ŒUFS." in UTF-8 */ {D_STR_W_LEN("Um ein sch\x94nes M\x84" "dchen zu k\x81ssen."), /* "Um ein schönes Mädchen zu küssen." in CP850 */ D_STR_W_LEN("UM EIN SCH\x99NES M\x8e" "DCHEN ZU K\x9aSSEN."), 10},/* "UM EIN SCHÖNES MÄDCHEN ZU KÜSSEN." in CP850 */ {D_STR_W_LEN("Um ein sch\xf6nes M\xe4" "dchen zu k\xfcssen."), /* "Um ein schönes Mädchen zu küssen." in ISO-8859-1/ISO-8859-15/CP1250/CP1252 */ D_STR_W_LEN("UM EIN SCH\xd6NES M\xc4" "DCHEN ZU K\xdcSSEN."), 10},/* "UM EIN SCHÖNES MÄDCHEN ZU KÜSSEN." in ISO-8859-1/ISO-8859-15/CP1250/CP1252 */ {D_STR_W_LEN("Um ein sch\xc3\xb6nes M\xc3\xa4" "dchen zu k\xc3\xbcssen."), /* "Um ein schönes Mädchen zu küssen." in UTF-8 */ D_STR_W_LEN("UM EIN SCH\xc3\x96NES M\xc3\x84" "DCHEN ZU K\xc3\x9cSSEN."), 11},/* "UM EIN SCHÖNES MÄDCHEN ZU KÜSSEN." in UTF-8 */ {D_STR_W_LEN("\x98stanbul"), /* "İstanbul" in CP857 */ D_STR_W_LEN("istanbul"), 0}, /* "istanbul" in CP857 */ {D_STR_W_LEN("\xddstanbul"), /* "İstanbul" in ISO-8859-9/CP1254 */ D_STR_W_LEN("istanbul"), 0}, /* "istanbul" in ISO-8859-9/CP1254 */ {D_STR_W_LEN("\xc4\xb0stanbul"), /* "İstanbul" in UTF-8 */ D_STR_W_LEN("istanbul"), 0}, /* "istanbul" in UTF-8 */ {D_STR_W_LEN("Diyarbak\x8dr"), /* "Diyarbakır" in CP857 */ D_STR_W_LEN("DiyarbakIR"), 8}, /* "DiyarbakIR" in CP857 */ {D_STR_W_LEN("Diyarbak\xfdr"), /* "Diyarbakır" in ISO-8859-9/CP1254 */ D_STR_W_LEN("DiyarbakIR"), 8}, /* "DiyarbakIR" in ISO-8859-9/CP1254 */ {D_STR_W_LEN("Diyarbak\xc4\xb1r"), /* "Diyarbakır" in UTF-8 */ D_STR_W_LEN("DiyarbakIR"), 8}, /* "DiyarbakIR" in UTF-8 */ {D_STR_W_LEN("\x92\xa5\xe1\xe2\xae\xa2\xa0\xef \x91\xe2\xe0\xae\xaa\xa0."), /* "Тестовая Строка." in CP866 */ D_STR_W_LEN("\x92\x85\x91\x92\x8e\x82\x80\x9f \x91\x92\x90\x8e\x8a\x80."), 1}, /* "ТЕСТОВАЯ СТРОКА." in CP866 */ {D_STR_W_LEN("\xd2\xe5\xf1\xf2\xee\xe2\xe0\xff \xd1\xf2\xf0\xee\xea\xe0."), /* "Тестовая Строка." in CP1251 */ D_STR_W_LEN("\xd2\xc5\xd1\xd2\xce\xc2\xc0\xdf \xd1\xd2\xd0\xce\xca\xc0."), 1}, /* "ТЕСТОВАЯ СТРОКА." in CP1251 */ {D_STR_W_LEN("\xf4\xc5\xd3\xd4\xcf\xd7\xc1\xd1 \xf3\xd4\xd2\xcf\xcb\xc1."), /* "Тестовая Строка." in KOI8-R */ D_STR_W_LEN("\xf4\xe5\xf3\xf4\xef\xf7\xe1\xf1 \xf3\xf4\xf2\xef\xeb\xe1."), 1}, /* "ТЕСТОВАЯ СТРОКА." in KOI8-R */ {D_STR_W_LEN("\xc2\xd5\xe1\xe2\xde\xd2\xd0\xef \xc1\xe2\xe0\xde\xda\xd0."), /* "Тестовая Строка." in ISO-8859-5 */ D_STR_W_LEN("\xc2\xb5\xc1\xc2\xbe\xb2\xb0\xcf \xc1\xc2\xc0\xbe\xba\xb0."), 1}, /* "ТЕСТОВАЯ СТРОКА." in ISO-8859-5 */ {D_STR_W_LEN("\xd0\xa2\xd0\xb5\xd1\x81\xd1\x82\xd0\xbe\xd0\xb2\xd0\xb0\xd1" "\x8f \xd0\xa1\xd1\x82\xd1\x80\xd0\xbe\xd0\xba\xd0\xb0."), /* "Тестовая Строка." in UTF-8 */ D_STR_W_LEN("\xd0\xa2\xd0\x95\xd0\xa1\xd0\xa2\xd0\x9e\xd0\x92\xd0\x90\xd0" "\xaf \xd0\xa1\xd0\xa2\xd0\xa0\xd0\x9e\xd0\x9a\xd0\x90."), 3} /* "ТЕСТОВАЯ СТРОКА." in UTF-8 */ }; int check_eq_strings(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(eq_strings) / sizeof(eq_strings[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { const struct two_eq_strs * const t = eq_strings + i; if (c_failed[i]) continue; /* skip already failed checks */ if (!MHD_str_equal_caseless_(t->s1.str, t->s2.str)) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_equal_caseless_(\"%s\", \"%s\") returned zero, while expected non-zero." " Locale: %s\n", n_prnt(t->s1.str), n_prnt(t->s2.str), get_current_locale_str()); } else if (!MHD_str_equal_caseless_(t->s2.str, t->s1.str)) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_equal_caseless_(\"%s\", \"%s\") returned zero, while expected non-zero." " Locale: %s\n", n_prnt(t->s2.str), n_prnt(t->s1.str), get_current_locale_str()); } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_str_equal_caseless_(\"%s\", \"%s\") != 0 && \\\n" " MHD_str_equal_caseless_(\"%s\", \"%s\") != 0\n", n_prnt(t->s1.str), n_prnt(t->s2.str), n_prnt(t->s2.str), n_prnt(t->s1.str)); } } return t_failed; } int check_neq_strings(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(neq_strings) / sizeof(neq_strings[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { const struct two_neq_strs * const t = neq_strings + i; if (c_failed[i]) continue; /* skip already failed checks */ if (MHD_str_equal_caseless_(t->s1.str, t->s2.str)) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_equal_caseless_(\"%s\", \"%s\") returned non-zero, while expected zero." " Locale: %s\n", n_prnt(t->s1.str), n_prnt(t->s2.str), get_current_locale_str()); } else if (MHD_str_equal_caseless_(t->s2.str, t->s1.str)) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_equal_caseless_(\"%s\", \"%s\") returned non-zero, while expected zero." " Locale: %s\n", n_prnt(t->s2.str), n_prnt(t->s1.str), get_current_locale_str()); } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_str_equal_caseless_(\"%s\", \"%s\") == 0 && \\\n" " MHD_str_equal_caseless_(\"%s\", \"%s\") == 0\n", n_prnt(t->s1.str), n_prnt(t->s2.str), n_prnt(t->s2.str), n_prnt(t->s1.str)); } } return t_failed; } int check_eq_strings_n(void) { size_t t_failed = 0; size_t i, j, k; static const size_t n_checks = sizeof(eq_strings) / sizeof(eq_strings[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t m_len; const struct two_eq_strs * const t = eq_strings + i; m_len = (t->s1.len > t->s2.len) ? t->s1.len : t->s2.len; for(k = 0; k <= m_len + 1 && !c_failed[i]; k++) { if (!MHD_str_equal_caseless_n_(t->s1.str, t->s2.str, k)) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_equal_caseless_n_(\"%s\", \"%s\", %u) returned zero," " while expected non-zero. Locale: %s\n", n_prnt(t->s1.str), n_prnt(t->s2.str), (unsigned int) k, get_current_locale_str()); } else if (!MHD_str_equal_caseless_n_(t->s2.str, t->s1.str, k)) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_equal_caseless_n_(\"%s\", \"%s\", %u) returned zero," " while expected non-zero. Locale: %s\n", n_prnt(t->s2.str), n_prnt(t->s1.str), (unsigned int) k, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_str_equal_caseless_n_(\"%s\", \"%s\", N) != 0 && \\\n" " MHD_str_equal_caseless_n_(\"%s\", \"%s\", N) != 0, where N is 0..%u\n", n_prnt(t->s1.str), n_prnt(t->s2.str), n_prnt(t->s2.str), n_prnt(t->s1.str), (unsigned int) m_len + 1); } } return t_failed; } int check_neq_strings_n(void) { size_t t_failed = 0; size_t i, j, k; static const size_t n_checks = sizeof(neq_strings) / sizeof(neq_strings[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t m_len; const struct two_neq_strs * const t = neq_strings + i; m_len = t->s1.len > t->s2.len ? t->s1.len : t->s2.len; if (t->dif_pos >= m_len) { fprintf(stderr, "ERROR: neq_strings[%u] has wrong dif_pos (%u): dif_pos is expected to be less than " "s1.len (%u) or s2.len (%u).\n", (unsigned int) i, (unsigned int) t->dif_pos, (unsigned int) t->s1.len, (unsigned int) t->s2.len); return -1; } if (t->dif_pos > t->s1.len) { fprintf(stderr, "ERROR: neq_strings[%u] has wrong dif_pos (%u): dif_pos is expected to be less or " "equal to s1.len (%u).\n", (unsigned int) i, (unsigned int) t->dif_pos, (unsigned int) t->s1.len); return -1; } if (t->dif_pos > t->s2.len) { fprintf(stderr, "ERROR: neq_strings[%u] has wrong dif_pos (%u): dif_pos is expected to be less or " "equal to s2.len (%u).\n", (unsigned int) i, (unsigned int) t->dif_pos, (unsigned int) t->s2.len); return -1; } for(k = 0; k <= m_len + 1 && !c_failed[i]; k++) { if (k <= t->dif_pos) { if (!MHD_str_equal_caseless_n_(t->s1.str, t->s2.str, k)) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_equal_caseless_n_(\"%s\", \"%s\", %u) returned zero," " while expected non-zero. Locale: %s\n", n_prnt(t->s1.str), n_prnt(t->s2.str), (unsigned int) k, get_current_locale_str()); } else if (!MHD_str_equal_caseless_n_(t->s2.str, t->s1.str, k)) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_equal_caseless_n_(\"%s\", \"%s\", %u) returned zero," " while expected non-zero. Locale: %s\n", n_prnt(t->s2.str), n_prnt(t->s1.str), (unsigned int) k, get_current_locale_str()); } } else { if (MHD_str_equal_caseless_n_(t->s1.str, t->s2.str, k)) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_equal_caseless_n_(\"%s\", \"%s\", %u) returned non-zero," " while expected zero. Locale: %s\n", n_prnt(t->s1.str), n_prnt(t->s2.str), (unsigned int) k, get_current_locale_str()); } else if (MHD_str_equal_caseless_n_(t->s2.str, t->s1.str, k)) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_equal_caseless_n_(\"%s\", \"%s\", %u) returned non-zero," " while expected zero. Locale: %s\n", n_prnt(t->s2.str), n_prnt(t->s1.str), (unsigned int) k, get_current_locale_str()); } } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) { printf("PASSED: MHD_str_equal_caseless_n_(\"%s\", \"%s\", N) != 0 && \\\n" " MHD_str_equal_caseless_n_(\"%s\", \"%s\", N) != 0, where N is 0..%u\n", n_prnt(t->s1.str), n_prnt(t->s2.str), n_prnt(t->s2.str), n_prnt(t->s1.str), (unsigned int) t->dif_pos); printf("PASSED: MHD_str_equal_caseless_n_(\"%s\", \"%s\", N) == 0 && \\\n" " MHD_str_equal_caseless_n_(\"%s\", \"%s\", N) == 0, where N is %u..%u\n", n_prnt(t->s1.str), n_prnt(t->s2.str), n_prnt(t->s2.str), n_prnt(t->s1.str), (unsigned int) t->dif_pos + 1, (unsigned int) m_len + 1); } } } return t_failed; } /* * Run eq/neq strings tests */ int run_eq_neq_str_tests(void) { int str_equal_caseless_fails = 0; int str_equal_caseless_n_fails = 0; int res; res = check_eq_strings(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_eq_strings().\n"); return 99; } str_equal_caseless_fails += res; fprintf(stderr, "FAILED: testcase check_eq_strings() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_eq_strings() successfully passed.\n\n"); res = check_neq_strings(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_neq_strings().\n"); return 99; } str_equal_caseless_fails += res; fprintf(stderr, "FAILED: testcase check_neq_strings() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_neq_strings() successfully passed.\n\n"); if (str_equal_caseless_fails) fprintf(stderr, "FAILED: function MHD_str_equal_caseless_() failed %d time%s.\n\n", str_equal_caseless_fails, str_equal_caseless_fails == 1 ? "" : "s"); else if (verbose > 0) printf("PASSED: function MHD_str_equal_caseless_() successfully passed all checks.\n\n"); res = check_eq_strings_n(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_eq_strings_n().\n"); return 99; } str_equal_caseless_n_fails += res; fprintf(stderr, "FAILED: testcase check_eq_strings_n() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_eq_strings_n() successfully passed.\n\n"); res = check_neq_strings_n(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_neq_strings_n().\n"); return 99; } str_equal_caseless_n_fails += res; fprintf(stderr, "FAILED: testcase check_neq_strings_n() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_neq_strings_n() successfully passed.\n\n"); if (str_equal_caseless_n_fails) fprintf(stderr, "FAILED: function MHD_str_equal_caseless_n_() failed %d time%s.\n\n", str_equal_caseless_n_fails, str_equal_caseless_n_fails == 1 ? "" : "s"); else if (verbose > 0) printf("PASSED: function MHD_str_equal_caseless_n_() successfully passed all checks.\n\n"); if (str_equal_caseless_fails || str_equal_caseless_n_fails) { if (verbose > 0) printf("At least one test failed.\n"); return 1; } if (verbose > 0) printf("All tests passed successfully.\n"); return 0; } /* * Digits in string -> value tests */ struct str_with_value { const struct str_with_len str; const size_t num_of_digt; const uint64_t val; }; /* valid string for conversion to unsigned integer value */ static const struct str_with_value dstrs_w_values[] = { /* simplest strings */ {D_STR_W_LEN("1"), 1, 1}, {D_STR_W_LEN("0"), 1, 0}, {D_STR_W_LEN("10000"), 5, 10000}, /* all digits */ {D_STR_W_LEN("1234"), 4, 1234}, {D_STR_W_LEN("4567"), 4, 4567}, {D_STR_W_LEN("7890"), 4, 7890}, {D_STR_W_LEN("8021"), 4, 8021}, {D_STR_W_LEN("9754"), 4, 9754}, {D_STR_W_LEN("6392"), 4, 6392}, /* various prefixes */ {D_STR_W_LEN("00000000"), 8, 0}, {D_STR_W_LEN("0755"), 4, 755}, /* not to be interpreted as octal value! */ {D_STR_W_LEN("002"), 3, 2}, {D_STR_W_LEN("0001"), 4, 1}, {D_STR_W_LEN("00000000000000000000000031295483"), 32, 31295483}, /* numbers below and above limits */ {D_STR_W_LEN("127"), 3, 127}, /* 0x7F, SCHAR_MAX */ {D_STR_W_LEN("128"), 3, 128}, /* 0x80, SCHAR_MAX+1 */ {D_STR_W_LEN("255"), 3, 255}, /* 0xFF, UCHAR_MAX */ {D_STR_W_LEN("256"), 3, 256}, /* 0x100, UCHAR_MAX+1 */ {D_STR_W_LEN("32767"), 5, 32767}, /* 0x7FFF, INT16_MAX */ {D_STR_W_LEN("32768"), 5, 32768}, /* 0x8000, INT16_MAX+1 */ {D_STR_W_LEN("65535"), 5, 65535}, /* 0xFFFF, UINT16_MAX */ {D_STR_W_LEN("65536"), 5, 65536}, /* 0x10000, UINT16_MAX+1 */ {D_STR_W_LEN("2147483647"), 10, 2147483647}, /* 0x7FFFFFFF, INT32_MAX */ {D_STR_W_LEN("2147483648"), 10, UINT64_C(2147483648)}, /* 0x80000000, INT32_MAX+1 */ {D_STR_W_LEN("4294967295"), 10, UINT64_C(4294967295)}, /* 0xFFFFFFFF, UINT32_MAX */ {D_STR_W_LEN("4294967296"), 10, UINT64_C(4294967296)}, /* 0x100000000, UINT32_MAX+1 */ {D_STR_W_LEN("9223372036854775807"), 19, UINT64_C(9223372036854775807)}, /* 0x7FFFFFFFFFFFFFFF, INT64_MAX */ {D_STR_W_LEN("9223372036854775808"), 19, UINT64_C(9223372036854775808)}, /* 0x8000000000000000, INT64_MAX+1 */ {D_STR_W_LEN("18446744073709551615"), 20, UINT64_C(18446744073709551615)}, /* 0xFFFFFFFFFFFFFFFF, UINT64_MAX */ /* random numbers */ {D_STR_W_LEN("10186753"), 8, 10186753}, {D_STR_W_LEN("144402566"), 9, 144402566}, {D_STR_W_LEN("151903144"), 9, 151903144}, {D_STR_W_LEN("139264621"), 9, 139264621}, {D_STR_W_LEN("730348"), 6, 730348}, {D_STR_W_LEN("21584377"), 8, 21584377}, {D_STR_W_LEN("709"), 3, 709}, {D_STR_W_LEN("54"), 2, 54}, {D_STR_W_LEN("8452"), 4, 8452}, {D_STR_W_LEN("17745098750013624977"), 20, UINT64_C(17745098750013624977)}, {D_STR_W_LEN("06786878769931678000"), 20, UINT64_C(6786878769931678000)}, /* non-digit suffixes */ {D_STR_W_LEN("1234oa"), 4, 1234}, {D_STR_W_LEN("20h"), 2, 20}, /* not to be interpreted as hex value! */ {D_STR_W_LEN("0x1F"), 1, 0}, /* not to be interpreted as hex value! */ {D_STR_W_LEN("0564`~}"), 4, 564}, {D_STR_W_LEN("7240146.724"), 7, 7240146}, {D_STR_W_LEN("2,9"), 1, 2}, {D_STR_W_LEN("200+1"), 3, 200}, {D_STR_W_LEN("1a"), 1, 1}, {D_STR_W_LEN("2E"), 1, 2}, {D_STR_W_LEN("6c"), 1, 6}, {D_STR_W_LEN("8F"), 1, 8}, {D_STR_W_LEN("287416997! And the not too long string."), 9, 287416997} }; /* strings that should overflow uint64_t */ const struct str_with_len str_ovflw[] = { D_STR_W_LEN("18446744073709551616"), /* 0x10000000000000000, UINT64_MAX+1 */ D_STR_W_LEN("18446744073709551620"), D_STR_W_LEN("18446744083709551615"), D_STR_W_LEN("19234761020556472143"), D_STR_W_LEN("184467440737095516150"), D_STR_W_LEN("1844674407370955161500"), D_STR_W_LEN("000018446744073709551616"), /* 0x10000000000000000, UINT64_MAX+1 */ D_STR_W_LEN("20000000000000000000"), D_STR_W_LEN("020000000000000000000"), D_STR_W_LEN("0020000000000000000000"), D_STR_W_LEN("100000000000000000000"), D_STR_W_LEN("434532891232591226417"), D_STR_W_LEN("99999999999999999999"), D_STR_W_LEN("18446744073709551616abcd"), /* 0x10000000000000000, UINT64_MAX+1 */ D_STR_W_LEN("20000000000000000000 suffix"), D_STR_W_LEN("020000000000000000000x") }; /* strings that should not be convertible to numeric value */ const struct str_with_len str_no_num[] = { D_STR_W_LEN("zero"), D_STR_W_LEN("one"), D_STR_W_LEN("\xb9\xb2\xb3"), /* superscript "123" in ISO-8859-1/CP1252 */ D_STR_W_LEN("\xc2\xb9\xc2\xb2\xc2\xb3"), /* superscript "123" in UTF-8 */ D_STR_W_LEN("\xd9\xa1\xd9\xa2\xd9\xa3"), /* Arabic-Indic "١٢٣" in UTF-8 */ D_STR_W_LEN("\xdb\xb1\xdb\xb2\xdb\xb3"), /* Ext Arabic-Indic "۱۲۳" in UTF-8 */ D_STR_W_LEN("\xe0\xa5\xa7\xe0\xa5\xa8\xe0\xa5\xa9"), /* Devanagari "१२३" in UTF-8 */ D_STR_W_LEN("\xe4\xb8\x80\xe4\xba\x8c\xe4\xb8\x89"), /* Chinese "一二三" in UTF-8 */ D_STR_W_LEN("\xd2\xbb\xb6\xfe\xc8\xfd"), /* Chinese "一二三" in GB2312/CP936 */ D_STR_W_LEN("\x1B\x24\x29\x41\x0E\x52\x3B\x36\x7E\x48\x7D\x0F") /* Chinese "一二三" in ISO-2022-CN */ }; /* valid hex string for conversion to unsigned integer value */ static const struct str_with_value xdstrs_w_values[] = { /* simplest strings */ {D_STR_W_LEN("1"), 1, 0x1}, {D_STR_W_LEN("0"), 1, 0x0}, {D_STR_W_LEN("10000"), 5, 0x10000}, /* all digits */ {D_STR_W_LEN("1234"), 4, 0x1234}, {D_STR_W_LEN("4567"), 4, 0x4567}, {D_STR_W_LEN("7890"), 4, 0x7890}, {D_STR_W_LEN("8021"), 4, 0x8021}, {D_STR_W_LEN("9754"), 4, 0x9754}, {D_STR_W_LEN("6392"), 4, 0x6392}, {D_STR_W_LEN("abcd"), 4, 0xABCD}, {D_STR_W_LEN("cdef"), 4, 0xCDEF}, {D_STR_W_LEN("FEAB"), 4, 0xFEAB}, {D_STR_W_LEN("BCED"), 4, 0xBCED}, {D_STR_W_LEN("bCeD"), 4, 0xBCED}, {D_STR_W_LEN("1A5F"), 4, 0x1A5F}, {D_STR_W_LEN("12AB"), 4, 0x12AB}, {D_STR_W_LEN("CD34"), 4, 0xCD34}, {D_STR_W_LEN("56EF"), 4, 0x56EF}, {D_STR_W_LEN("7a9f"), 4, 0x7A9F}, /* various prefixes */ {D_STR_W_LEN("00000000"), 8, 0x0}, {D_STR_W_LEN("0755"), 4, 0x755}, /* not to be interpreted as octal value! */ {D_STR_W_LEN("002"), 3, 0x2}, {D_STR_W_LEN("0001"), 4, 0x1}, {D_STR_W_LEN("00a"), 3, 0xA}, {D_STR_W_LEN("0F"), 2, 0xF}, {D_STR_W_LEN("0000000000000000000000003A29e4C3"), 32, 0x3A29E4C3}, /* numbers below and above limits */ {D_STR_W_LEN("7F"), 2, 127}, /* 0x7F, SCHAR_MAX */ {D_STR_W_LEN("7f"), 2, 127}, /* 0x7F, SCHAR_MAX */ {D_STR_W_LEN("80"), 2, 128}, /* 0x80, SCHAR_MAX+1 */ {D_STR_W_LEN("fF"), 2, 255}, /* 0xFF, UCHAR_MAX */ {D_STR_W_LEN("Ff"), 2, 255}, /* 0xFF, UCHAR_MAX */ {D_STR_W_LEN("FF"), 2, 255}, /* 0xFF, UCHAR_MAX */ {D_STR_W_LEN("ff"), 2, 255}, /* 0xFF, UCHAR_MAX */ {D_STR_W_LEN("100"), 3, 256}, /* 0x100, UCHAR_MAX+1 */ {D_STR_W_LEN("7fff"), 4, 32767}, /* 0x7FFF, INT16_MAX */ {D_STR_W_LEN("7FFF"), 4, 32767}, /* 0x7FFF, INT16_MAX */ {D_STR_W_LEN("7Fff"), 4, 32767}, /* 0x7FFF, INT16_MAX */ {D_STR_W_LEN("8000"), 4, 32768}, /* 0x8000, INT16_MAX+1 */ {D_STR_W_LEN("ffff"), 4, 65535}, /* 0xFFFF, UINT16_MAX */ {D_STR_W_LEN("FFFF"), 4, 65535}, /* 0xFFFF, UINT16_MAX */ {D_STR_W_LEN("FffF"), 4, 65535}, /* 0xFFFF, UINT16_MAX */ {D_STR_W_LEN("10000"), 5, 65536}, /* 0x10000, UINT16_MAX+1 */ {D_STR_W_LEN("7FFFFFFF"), 8, 2147483647}, /* 0x7FFFFFFF, INT32_MAX */ {D_STR_W_LEN("7fffffff"), 8, 2147483647}, /* 0x7FFFFFFF, INT32_MAX */ {D_STR_W_LEN("7FFffFff"), 8, 2147483647}, /* 0x7FFFFFFF, INT32_MAX */ {D_STR_W_LEN("80000000"), 8, UINT64_C(2147483648)}, /* 0x80000000, INT32_MAX+1 */ {D_STR_W_LEN("FFFFFFFF"), 8, UINT64_C(4294967295)}, /* 0xFFFFFFFF, UINT32_MAX */ {D_STR_W_LEN("ffffffff"), 8, UINT64_C(4294967295)}, /* 0xFFFFFFFF, UINT32_MAX */ {D_STR_W_LEN("FfFfFfFf"), 8, UINT64_C(4294967295)}, /* 0xFFFFFFFF, UINT32_MAX */ {D_STR_W_LEN("100000000"), 9, UINT64_C(4294967296)}, /* 0x100000000, UINT32_MAX+1 */ {D_STR_W_LEN("7fffffffffffffff"), 16, UINT64_C(9223372036854775807)}, /* 0x7FFFFFFFFFFFFFFF, INT64_MAX */ {D_STR_W_LEN("7FFFFFFFFFFFFFFF"), 16, UINT64_C(9223372036854775807)}, /* 0x7FFFFFFFFFFFFFFF, INT64_MAX */ {D_STR_W_LEN("7FfffFFFFffFFffF"), 16, UINT64_C(9223372036854775807)}, /* 0x7FFFFFFFFFFFFFFF, INT64_MAX */ {D_STR_W_LEN("8000000000000000"), 16, UINT64_C(9223372036854775808)}, /* 0x8000000000000000, INT64_MAX+1 */ {D_STR_W_LEN("ffffffffffffffff"), 16, UINT64_C(18446744073709551615)}, /* 0xFFFFFFFFFFFFFFFF, UINT64_MAX */ {D_STR_W_LEN("FFFFFFFFFFFFFFFF"), 16, UINT64_C(18446744073709551615)}, /* 0xFFFFFFFFFFFFFFFF, UINT64_MAX */ {D_STR_W_LEN("FffFffFFffFFfFFF"), 16, UINT64_C(18446744073709551615)}, /* 0xFFFFFFFFFFFFFFFF, UINT64_MAX */ /* random numbers */ {D_STR_W_LEN("10186753"), 8, 0x10186753}, {D_STR_W_LEN("144402566"), 9, 0x144402566}, {D_STR_W_LEN("151903144"), 9, 0x151903144}, {D_STR_W_LEN("139264621"), 9, 0x139264621}, {D_STR_W_LEN("730348"), 6, 0x730348}, {D_STR_W_LEN("21584377"), 8, 0x21584377}, {D_STR_W_LEN("709"), 3, 0x709}, {D_STR_W_LEN("54"), 2, 0x54}, {D_STR_W_LEN("8452"), 4, 0x8452}, {D_STR_W_LEN("22353EC6"), 8, 0x22353EC6}, {D_STR_W_LEN("307F1655"), 8, 0x307F1655}, {D_STR_W_LEN("1FCB7226"), 8, 0x1FCB7226}, {D_STR_W_LEN("82480560"), 8, 0x82480560}, {D_STR_W_LEN("7386D95"), 7, 0x7386D95}, {D_STR_W_LEN("EC3AB"), 5, 0xEC3AB}, {D_STR_W_LEN("6DD05"), 5, 0x6DD05}, {D_STR_W_LEN("C5DF"), 4, 0xC5DF}, {D_STR_W_LEN("6CE"), 3, 0x6CE}, {D_STR_W_LEN("CE6"), 3, 0xCE6}, {D_STR_W_LEN("ce6"), 3, 0xCE6}, {D_STR_W_LEN("F27"), 3, 0xF27}, {D_STR_W_LEN("8497D54277D7E1"), 14, UINT64_C(37321639124785121)}, {D_STR_W_LEN("8497d54277d7e1"), 14, UINT64_C(37321639124785121)}, {D_STR_W_LEN("8497d54277d7E1"), 14, UINT64_C(37321639124785121)}, {D_STR_W_LEN("8C8112D0A06"), 11, UINT64_C(9655374645766)}, {D_STR_W_LEN("8c8112d0a06"), 11, UINT64_C(9655374645766)}, {D_STR_W_LEN("8c8112d0A06"), 11, UINT64_C(9655374645766)}, {D_STR_W_LEN("1774509875001362"), 16, UINT64_C(1690064375898968930)}, {D_STR_W_LEN("0678687876998000"), 16, UINT64_C(466237428027981824)}, /* non-digit suffixes */ {D_STR_W_LEN("1234oa"), 4, 0x1234}, {D_STR_W_LEN("20h"), 2, 0x20}, {D_STR_W_LEN("2CH"), 2, 0x2C}, {D_STR_W_LEN("2ch"), 2, 0x2C}, {D_STR_W_LEN("0x1F"), 1, 0x0}, /* not to be interpreted as hex prefix! */ {D_STR_W_LEN("0564`~}"), 4, 0x564}, {D_STR_W_LEN("0A64`~}"), 4, 0xA64}, {D_STR_W_LEN("056c`~}"), 4, 0X56C}, {D_STR_W_LEN("7240146.724"), 7, 0x7240146}, {D_STR_W_LEN("7E4c1AB.724"), 7, 0X7E4C1AB}, {D_STR_W_LEN("F24B1B6.724"), 7, 0xF24B1B6}, {D_STR_W_LEN("2,9"), 1, 0x2}, {D_STR_W_LEN("a,9"), 1, 0xA}, {D_STR_W_LEN("200+1"), 3, 0x200}, {D_STR_W_LEN("2cc+1"), 3, 0x2CC}, {D_STR_W_LEN("2cC+1"), 3, 0x2CC}, {D_STR_W_LEN("27416997! And the not too long string."), 8, 0x27416997}, {D_STR_W_LEN("27555416997! And the not too long string."), 11, 0x27555416997}, {D_STR_W_LEN("416997And the not too long string."), 7, 0x416997A}, {D_STR_W_LEN("0F4C3Dabstract addition to make string even longer"), 8, 0xF4C3DAB} }; /* hex strings that should overflow uint64_t */ const struct str_with_len strx_ovflw[] = { D_STR_W_LEN("10000000000000000"), /* 0x10000000000000000, UINT64_MAX+1 */ D_STR_W_LEN("10000000000000001"), D_STR_W_LEN("10000000000000002"), D_STR_W_LEN("1000000000000000A"), D_STR_W_LEN("11000000000000000"), D_STR_W_LEN("010000000000000000"), /* 0x10000000000000000, UINT64_MAX+1 */ D_STR_W_LEN("000010000000000000000"), /* 0x10000000000000000, UINT64_MAX+1 */ D_STR_W_LEN("20000000000000000000"), D_STR_W_LEN("020000000000000000000"), D_STR_W_LEN("0020000000000000000000"), D_STR_W_LEN("20000000000000000"), D_STR_W_LEN("A0000000000000000"), D_STR_W_LEN("F0000000000000000"), D_STR_W_LEN("a0000000000000000"), D_STR_W_LEN("11111111111111111"), D_STR_W_LEN("CcCcCCccCCccCCccC"), D_STR_W_LEN("f0000000000000000"), D_STR_W_LEN("100000000000000000000"), D_STR_W_LEN("434532891232591226417"), D_STR_W_LEN("10000000000000000a"), D_STR_W_LEN("10000000000000000E"), D_STR_W_LEN("100000000000000000 and nothing"), /* 0x10000000000000000, UINT64_MAX+1 */ D_STR_W_LEN("100000000000000000xx"), /* 0x10000000000000000, UINT64_MAX+1 */ D_STR_W_LEN("99999999999999999999"), D_STR_W_LEN("18446744073709551616abcd"), D_STR_W_LEN("20000000000000000000 suffix"), D_STR_W_LEN("020000000000000000000x") }; int check_str_to_uint64_valid(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(dstrs_w_values) / sizeof(dstrs_w_values[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { uint64_t rv; size_t rs; const struct str_with_value * const t = dstrs_w_values + i; if (c_failed[i]) continue; /* skip already failed checks */ if (t->str.len < t->num_of_digt) { fprintf(stderr, "ERROR: dstrs_w_values[%u] has wrong num_of_digt (%u): num_of_digt is expected" " to be less or equal to str.len (%u).\n", (unsigned int) i, (unsigned int) t->num_of_digt, (unsigned int) t->str.len); return -1; } rv = 9435223; /* some random value */ rs = MHD_str_to_uint64_(t->str.str, &rv); if (rs != t->num_of_digt) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_(\"%s\", ->%" PRIu64 ") returned %" PRIuPTR ", while expecting %d." " Locale: %s\n", n_prnt(t->str.str), rv, (intptr_t)rs, (int)t->num_of_digt, get_current_locale_str()); } if (rv != t->val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_(\"%s\", ->%" PRIu64 ") converted string to value %" PRIu64 "," " while expecting result %" PRIu64 ". Locale: %s\n", n_prnt(t->str.str), rv, rv, t->val, get_current_locale_str()); } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_str_to_uint64_(\"%s\", ->%" PRIu64 ") == %" PRIuPTR "\n", n_prnt(t->str.str), rv, rs); } } return t_failed; } int check_str_to_uint64_all_chars(void) { static const size_t n_checks = 256; /* from 0 to 255 */ int c_failed[n_checks]; size_t t_failed = 0; size_t j; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { unsigned int c; uint64_t test_val; set_test_locale(j); /* setlocale() can be slow! */ for(c = 0; c < n_checks; c++) { static const uint64_t rnd_val = 24941852; size_t rs; if (c >= '0' && c <= '9') continue; /* skip digits */ for(test_val = 0; test_val <= rnd_val&& !c_failed[c]; test_val += rnd_val) { char test_str[] = "0123"; uint64_t rv = test_val; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ rs = MHD_str_to_uint64_(test_str, &rv); if (rs != 0) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_(\"%s\", ->%" PRIu64 ") returned %" PRIuPTR ", while expecting zero." " Locale: %s\n", n_prnt(test_str), rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_(\"%s\", &ret_val) modified value of ret_val" " (before call: %" PRIu64 ", after call %" PRIu64 "). Locale: %s\n", n_prnt(test_str), test_val, rv, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[c]) { char test_str[] = "0123"; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ printf("PASSED: MHD_str_to_uint64_(\"%s\", &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(test_str)); } } } return t_failed; } int check_str_to_uint64_overflow(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(str_ovflw) / sizeof(str_ovflw[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; const struct str_with_len * const t = str_ovflw + i; static const uint64_t rnd_val = 2; uint64_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint64_t rv = test_val; rs = MHD_str_to_uint64_(t->str, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_(\"%s\", ->%" PRIu64 ") returned %" PRIuPTR ", while expecting zero." " Locale: %s\n", n_prnt(t->str), rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_(\"%s\", &ret_val) modified value of ret_val" " (before call: %" PRIu64 ", after call %" PRIu64 "). Locale: %s\n", n_prnt(t->str), test_val, rv, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_str_to_uint64_(\"%s\", &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(t->str)); } } return t_failed; } int check_str_to_uint64_no_val(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(str_no_num) / sizeof(str_no_num[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; const struct str_with_len * const t = str_no_num + i; static const uint64_t rnd_val = 74218431; uint64_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint64_t rv = test_val; rs = MHD_str_to_uint64_(t->str, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_(\"%s\", ->%" PRIu64 ") returned %" PRIuPTR ", while expecting zero." " Locale: %s\n", n_prnt(t->str), rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_(\"%s\", &ret_val) modified value of ret_val" " (before call: %" PRIu64 ", after call %" PRIu64 "). Locale: %s\n", n_prnt(t->str), test_val, rv, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_str_to_uint64_(\"%s\", &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(t->str)); } } return t_failed; } int check_str_to_uint64_n_valid(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(dstrs_w_values) / sizeof(dstrs_w_values[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { uint64_t rv = 1235572; /* some random value */ size_t rs = 0; size_t len; const struct str_with_value * const t = dstrs_w_values + i; if (t->str.len < t->num_of_digt) { fprintf(stderr, "ERROR: dstrs_w_values[%u] has wrong num_of_digt (%u): num_of_digt is expected" " to be less or equal to str.len (%u).\n", (unsigned int) i, (unsigned int) t->num_of_digt, (unsigned int) t->str.len); return -1; } for (len = t->num_of_digt; len <= t->str.len + 1 && !c_failed[i]; len++) { rs = MHD_str_to_uint64_n_(t->str.str, len, &rv); if (rs != t->num_of_digt) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_n_(\"%s\", %" PRIuPTR ", ->%" PRIu64 ")" " returned %" PRIuPTR ", while expecting %d. Locale: %s\n", n_prnt(t->str.str), (intptr_t)len, rv, (intptr_t)rs, (int)t->num_of_digt, get_current_locale_str()); } if (rv != t->val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_n_(\"%s\", %" PRIuPTR ", ->%" PRIu64 ")" " converted string to value %" PRIu64 ", while expecting result %" PRIu64 ". Locale: %s\n", n_prnt(t->str.str), (intptr_t)len, rv, rv, t->val, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_str_to_uint64_n_(\"%s\", %" PRIuPTR "..%" PRIuPTR ", ->%" PRIu64 ")" " == %" PRIuPTR "\n", n_prnt(t->str.str), (intptr_t)t->num_of_digt, (intptr_t)t->str.len + 1, rv, rs); } } return t_failed; } int check_str_to_uint64_n_all_chars(void) { static const size_t n_checks = 256; /* from 0 to 255 */ int c_failed[n_checks]; size_t t_failed = 0; size_t j; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { unsigned int c; uint64_t test_val; set_test_locale(j); /* setlocale() can be slow! */ for(c = 0; c < n_checks; c++) { static const uint64_t rnd_val = 98372558; size_t rs; size_t len; if (c >= '0' && c <= '9') continue; /* skip digits */ for (len = 0; len <= 5; len++) { for(test_val = 0; test_val <= rnd_val&& !c_failed[c]; test_val += rnd_val) { char test_str[] = "0123"; uint64_t rv = test_val; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ rs = MHD_str_to_uint64_n_(test_str, len, &rv); if (rs != 0) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_n_(\"%s\", %" PRIuPTR ", ->%" PRIu64 ")" " returned %" PRIuPTR ", while expecting zero. Locale: %s\n", n_prnt(test_str), (uintptr_t)len, rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_n_(\"%s\", %" PRIuPTR ", &ret_val)" " modified value of ret_val (before call: %" PRIu64 ", after call %" PRIu64 ")." " Locale: %s\n", n_prnt(test_str), (uintptr_t)len, test_val, rv, get_current_locale_str()); } } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[c]) { char test_str[] = "0123"; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ printf("PASSED: MHD_str_to_uint64_n_(\"%s\", 0..5, &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(test_str)); } } } return t_failed; } int check_str_to_uint64_n_overflow(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(str_ovflw) / sizeof(str_ovflw[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; const struct str_with_len * const t = str_ovflw + i; static const uint64_t rnd_val = 3; size_t len; for (len = t->len; len <= t->len + 1; len++) { uint64_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint64_t rv = test_val; rs = MHD_str_to_uint64_n_(t->str, len, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_n_(\"%s\", %" PRIuPTR ", ->%" PRIu64 ")" " returned %" PRIuPTR ", while expecting zero. Locale: %s\n", n_prnt(t->str), (uintptr_t)len, rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_n_(\"%s\", %" PRIuPTR ", &ret_val)" " modified value of ret_val (before call: %" PRIu64 ", after call %" PRIu64 ")." " Locale: %s\n", n_prnt(t->str), (uintptr_t)len, test_val, rv, get_current_locale_str()); } } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_str_to_uint64_n_(\"%s\", %" PRIuPTR "..%" PRIuPTR ", &ret_val) == 0," " value of ret_val is unmodified\n", n_prnt(t->str), (uintptr_t)t->len, (uintptr_t)t->len + 1); } } return t_failed; } int check_str_to_uint64_n_no_val(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(str_no_num) / sizeof(str_no_num[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; const struct str_with_len * const t = str_no_num + i; static const uint64_t rnd_val = 43255654342; size_t len; for (len = 0; len <= t->len + 1; len++) { uint64_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint64_t rv = test_val; rs = MHD_str_to_uint64_n_(t->str, len, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_n_(\"%s\", %" PRIuPTR ", ->%" PRIu64 ")" " returned %" PRIuPTR ", while expecting zero. Locale: %s\n", n_prnt(t->str), (uintptr_t)len, rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_str_to_uint64_n_(\"%s\", %" PRIuPTR ", &ret_val)" " modified value of ret_val (before call: %" PRIu64 ", after call %" PRIu64 ")." " Locale: %s\n", n_prnt(t->str), (uintptr_t)len, test_val, rv, get_current_locale_str()); } } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_str_to_uint64_n_(\"%s\", 0..%" PRIuPTR ", &ret_val) == 0," " value of ret_val is unmodified\n", n_prnt(t->str), (uintptr_t)t->len + 1); } } return t_failed; } int check_strx_to_uint32_valid(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(xdstrs_w_values) / sizeof(xdstrs_w_values[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { uint32_t rv; size_t rs; const struct str_with_value * const t = xdstrs_w_values + i; if (t->val > UINT32_MAX) continue; /* number is too high for this function */ if (c_failed[i]) continue; /* skip already failed checks */ if (t->str.len < t->num_of_digt) { fprintf(stderr, "ERROR: xdstrs_w_values[%u] has wrong num_of_digt (%u): num_of_digt is expected" " to be less or equal to str.len (%u).\n", (unsigned int) i, (unsigned int) t->num_of_digt, (unsigned int) t->str.len); return -1; } rv = 1458532; /* some random value */ rs = MHD_strx_to_uint32_(t->str.str, &rv); if (rs != t->num_of_digt) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_(\"%s\", ->0x%" PRIX64 ") returned %" PRIuPTR ", while expecting %d." " Locale: %s\n", n_prnt(t->str.str), (uint64_t)rv, (intptr_t)rs, (int)t->num_of_digt, get_current_locale_str()); } if (rv != t->val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_(\"%s\", ->0x%" PRIX64 ") converted string to value 0x%" PRIX64 "," " while expecting result 0x%" PRIX64 ". Locale: %s\n", n_prnt(t->str.str), (uint64_t)rv, (uint64_t)rv, t->val, get_current_locale_str()); } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint32_(\"%s\", ->0x%" PRIX64 ") == %" PRIuPTR "\n", n_prnt(t->str.str), (uint64_t)rv, rs); } } return t_failed; } int check_strx_to_uint32_all_chars(void) { static const size_t n_checks = 256; /* from 0 to 255 */ int c_failed[n_checks]; size_t t_failed = 0; size_t j; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { unsigned int c; uint32_t test_val; set_test_locale(j); /* setlocale() can be slow! */ for(c = 0; c < n_checks; c++) { static const uint32_t rnd_val = 234234; size_t rs; if ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'F') ||(c >= 'a' && c <= 'f')) continue; /* skip xdigits */ for(test_val = 0; test_val <= rnd_val&& !c_failed[c]; test_val += rnd_val) { char test_str[] = "0123"; uint32_t rv = test_val; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ rs = MHD_strx_to_uint32_(test_str, &rv); if (rs != 0) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_(\"%s\", ->0x%" PRIX64 ") returned %" PRIuPTR ", while expecting zero." " Locale: %s\n", n_prnt(test_str), (uint64_t)rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_(\"%s\", &ret_val) modified value of ret_val" " (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 "). Locale: %s\n", n_prnt(test_str), (uint64_t)test_val, (uint64_t)rv, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[c]) { char test_str[] = "0123"; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ printf("PASSED: MHD_strx_to_uint32_(\"%s\", &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(test_str)); } } } return t_failed; } int check_strx_to_uint32_overflow(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks1 = sizeof(strx_ovflw) / sizeof(strx_ovflw[0]); static const size_t n_checks = sizeof(strx_ovflw) / sizeof(strx_ovflw[0]) + sizeof(xdstrs_w_values) / sizeof(xdstrs_w_values[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; static const uint32_t rnd_val = 74218431; uint32_t test_val; const char * str; if (i < n_checks1) { const struct str_with_len * const t = strx_ovflw + i; str = t->str; } else { const struct str_with_value * const t = xdstrs_w_values + (i - n_checks1); if (t->val <= UINT32_MAX) continue; /* check only strings that should overflow uint32_t */ str = t->str.str; } for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint32_t rv = test_val; rs = MHD_strx_to_uint32_(str, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_(\"%s\", ->0x%" PRIX64 ") returned %" PRIuPTR ", while expecting zero." " Locale: %s\n", n_prnt(str), (uint64_t)rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_(\"%s\", &ret_val) modified value of ret_val" " (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 "). Locale: %s\n", n_prnt(str), (uint64_t)test_val, (uint64_t)rv, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint32_(\"%s\", &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(str)); } } return t_failed; } int check_strx_to_uint32_no_val(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(str_no_num) / sizeof(str_no_num[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; const struct str_with_len * const t = str_no_num + i; static const uint32_t rnd_val = 74218431; uint32_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint32_t rv = test_val; rs = MHD_strx_to_uint32_(t->str, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_(\"%s\", ->0x%" PRIX64 ") returned %" PRIuPTR ", while expecting zero." " Locale: %s\n", n_prnt(t->str), (uint64_t)rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_(\"%s\", &ret_val) modified value of ret_val" " (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 "). Locale: %s\n", n_prnt(t->str), (uint64_t)test_val, (uint64_t)rv, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint32_(\"%s\", &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(t->str)); } } return t_failed; } int check_strx_to_uint32_n_valid(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(xdstrs_w_values) / sizeof(xdstrs_w_values[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { uint32_t rv = 2352932; /* some random value */ size_t rs = 0; size_t len; const struct str_with_value * const t = xdstrs_w_values + i; if (t->val > UINT32_MAX) continue; /* number is too high for this function */ if (t->str.len < t->num_of_digt) { fprintf(stderr, "ERROR: xdstrs_w_values[%u] has wrong num_of_digt (%u): num_of_digt is expected" " to be less or equal to str.len (%u).\n", (unsigned int) i, (unsigned int) t->num_of_digt, (unsigned int) t->str.len); return -1; } for (len = t->num_of_digt; len <= t->str.len + 1 && !c_failed[i]; len++) { rs = MHD_strx_to_uint32_n_(t->str.str, len, &rv); if (rs != t->num_of_digt) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_n_(\"%s\", %" PRIuPTR ", ->0x%" PRIX64 ")" " returned %" PRIuPTR ", while expecting %d. Locale: %s\n", n_prnt(t->str.str), (intptr_t)len, (uint64_t)rv, (intptr_t)rs, (int)t->num_of_digt, get_current_locale_str()); } if (rv != t->val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_n_(\"%s\", %" PRIuPTR ", ->0x%" PRIX64 ")" " converted string to value 0x%" PRIX64 ", while expecting result 0x%" PRIX64 ". Locale: %s\n", n_prnt(t->str.str), (intptr_t)len, (uint64_t)rv, (uint64_t)rv, t->val, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint32_n_(\"%s\", %" PRIuPTR "..%" PRIuPTR ", ->0x%" PRIX64 ")" " == %" PRIuPTR "\n", n_prnt(t->str.str), (intptr_t)t->num_of_digt, (intptr_t)t->str.len + 1, (uint64_t)rv, rs); } } return t_failed; } int check_strx_to_uint32_n_all_chars(void) { static const size_t n_checks = 256; /* from 0 to 255 */ int c_failed[n_checks]; size_t t_failed = 0; size_t j; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { unsigned int c; uint32_t test_val; set_test_locale(j); /* setlocale() can be slow! */ for(c = 0; c < n_checks; c++) { static const uint32_t rnd_val = 98372558; size_t rs; size_t len; if ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'F') || (c >= 'a' && c <= 'f')) continue; /* skip xdigits */ for (len = 0; len <= 5; len++) { for(test_val = 0; test_val <= rnd_val&& !c_failed[c]; test_val += rnd_val) { char test_str[] = "0123"; uint32_t rv = test_val; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ rs = MHD_strx_to_uint32_n_(test_str, len, &rv); if (rs != 0) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_n_(\"%s\", %" PRIuPTR ", ->0x%" PRIX64 ")" " returned %" PRIuPTR ", while expecting zero. Locale: %s\n", n_prnt(test_str), (uintptr_t)len, (uint64_t)rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_n_(\"%s\", %" PRIuPTR ", &ret_val)" " modified value of ret_val (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 ")." " Locale: %s\n", n_prnt(test_str), (uintptr_t)len, (uint64_t)test_val, (uint64_t)rv, get_current_locale_str()); } } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[c]) { char test_str[] = "0123"; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ printf("PASSED: MHD_strx_to_uint32_n_(\"%s\", 0..5, &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(test_str)); } } } return t_failed; } int check_strx_to_uint32_n_overflow(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks1 = sizeof(strx_ovflw) / sizeof(strx_ovflw[0]); static const size_t n_checks = sizeof(strx_ovflw) / sizeof(strx_ovflw[0]) + sizeof(xdstrs_w_values) / sizeof(xdstrs_w_values[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; static const uint32_t rnd_val = 4; size_t len; const char * str; size_t min_len, max_len; if (i < n_checks1) { const struct str_with_len * const t = strx_ovflw + i; str = t->str; min_len = t->len; max_len = t->len + 1; } else { const struct str_with_value * const t = xdstrs_w_values + (i - n_checks1); if (t->val <= UINT32_MAX) continue; /* check only strings that should overflow uint32_t */ if (t->str.len < t->num_of_digt) { fprintf(stderr, "ERROR: xdstrs_w_values[%u] has wrong num_of_digt (%u): num_of_digt is expected" " to be less or equal to str.len (%u).\n", (unsigned int) (i - n_checks1), (unsigned int) t->num_of_digt, (unsigned int) t->str.len); return -1; } str = t->str.str; min_len = t->num_of_digt; max_len = t->str.len + 1; } for (len = min_len; len <= max_len; len++) { uint32_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint32_t rv = test_val; rs = MHD_strx_to_uint32_n_(str, len, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_n_(\"%s\", %" PRIuPTR ", ->0x%" PRIX64 ")" " returned %" PRIuPTR ", while expecting zero. Locale: %s\n", n_prnt(str), (uintptr_t)len, (uint64_t)rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_n_(\"%s\", %" PRIuPTR ", &ret_val)" " modified value of ret_val (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 ")." " Locale: %s\n", n_prnt(str), (uintptr_t)len, (uint64_t)test_val, (uint64_t)rv, get_current_locale_str()); } } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint32_n_(\"%s\", %" PRIuPTR "..%" PRIuPTR ", &ret_val) == 0," " value of ret_val is unmodified\n", n_prnt(str), (uintptr_t)min_len, (uintptr_t)max_len); } } return t_failed; } int check_strx_to_uint32_n_no_val(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(str_no_num) / sizeof(str_no_num[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; const struct str_with_len * const t = str_no_num + i; static const uint32_t rnd_val = 3214314212UL; size_t len; for (len = 0; len <= t->len + 1; len++) { uint32_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint32_t rv = test_val; rs = MHD_strx_to_uint32_n_(t->str, len, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_n_(\"%s\", %" PRIuPTR ", ->0x%" PRIX64 ")" " returned %" PRIuPTR ", while expecting zero. Locale: %s\n", n_prnt(t->str), (uintptr_t)len, (uint64_t)rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint32_n_(\"%s\", %" PRIuPTR ", &ret_val)" " modified value of ret_val (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 ")." " Locale: %s\n", n_prnt(t->str), (uintptr_t)len, (uint64_t)test_val, (uint64_t)rv, get_current_locale_str()); } } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint32_n_(\"%s\", 0..%" PRIuPTR ", &ret_val) == 0," " value of ret_val is unmodified\n", n_prnt(t->str), (uintptr_t)t->len + 1); } } return t_failed; } int check_strx_to_uint64_valid(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(xdstrs_w_values) / sizeof(xdstrs_w_values[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { uint64_t rv; size_t rs; const struct str_with_value * const t = xdstrs_w_values + i; if (c_failed[i]) continue; /* skip already failed checks */ if (t->str.len < t->num_of_digt) { fprintf(stderr, "ERROR: xdstrs_w_values[%u] has wrong num_of_digt (%u): num_of_digt is expected" " to be less or equal to str.len (%u).\n", (unsigned int) i, (unsigned int) t->num_of_digt, (unsigned int) t->str.len); return -1; } rv = 1458532; /* some random value */ rs = MHD_strx_to_uint64_(t->str.str, &rv); if (rs != t->num_of_digt) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_(\"%s\", ->0x%" PRIX64 ") returned %" PRIuPTR ", while expecting %d." " Locale: %s\n", n_prnt(t->str.str), rv, (intptr_t)rs, (int)t->num_of_digt, get_current_locale_str()); } if (rv != t->val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_(\"%s\", ->0x%" PRIX64 ") converted string to value 0x%" PRIX64 "," " while expecting result 0x%" PRIX64 ". Locale: %s\n", n_prnt(t->str.str), rv, rv, t->val, get_current_locale_str()); } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint64_(\"%s\", ->0x%" PRIX64 ") == %" PRIuPTR "\n", n_prnt(t->str.str), rv, rs); } } return t_failed; } int check_strx_to_uint64_all_chars(void) { static const size_t n_checks = 256; /* from 0 to 255 */ int c_failed[n_checks]; size_t t_failed = 0; size_t j; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { unsigned int c; uint64_t test_val; set_test_locale(j); /* setlocale() can be slow! */ for(c = 0; c < n_checks; c++) { static const uint64_t rnd_val = 234234; size_t rs; if ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'F') || (c >= 'a' && c <= 'f')) continue; /* skip xdigits */ for(test_val = 0; test_val <= rnd_val&& !c_failed[c]; test_val += rnd_val) { char test_str[] = "0123"; uint64_t rv = test_val; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ rs = MHD_strx_to_uint64_(test_str, &rv); if (rs != 0) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_(\"%s\", ->0x%" PRIX64 ") returned %" PRIuPTR ", while expecting zero." " Locale: %s\n", n_prnt(test_str), rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_(\"%s\", &ret_val) modified value of ret_val" " (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 "). Locale: %s\n", n_prnt(test_str), test_val, rv, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[c]) { char test_str[] = "0123"; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ printf("PASSED: MHD_strx_to_uint64_(\"%s\", &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(test_str)); } } } return t_failed; } int check_strx_to_uint64_overflow(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(strx_ovflw) / sizeof(strx_ovflw[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; const struct str_with_len * const t = strx_ovflw + i; static const uint64_t rnd_val = 74218431; uint64_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint64_t rv = test_val; rs = MHD_strx_to_uint64_(t->str, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_(\"%s\", ->0x%" PRIX64 ") returned %" PRIuPTR ", while expecting zero." " Locale: %s\n", n_prnt(t->str), rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_(\"%s\", &ret_val) modified value of ret_val" " (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 "). Locale: %s\n", n_prnt(t->str), test_val, rv, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint64_(\"%s\", &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(t->str)); } } return t_failed; } int check_strx_to_uint64_no_val(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(str_no_num) / sizeof(str_no_num[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; const struct str_with_len * const t = str_no_num + i; static const uint64_t rnd_val = 74218431; uint64_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint64_t rv = test_val; rs = MHD_strx_to_uint64_(t->str, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_(\"%s\", ->0x%" PRIX64 ") returned %" PRIuPTR ", while expecting zero." " Locale: %s\n", n_prnt(t->str), rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_(\"%s\", &ret_val) modified value of ret_val" " (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 "). Locale: %s\n", n_prnt(t->str), test_val, rv, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint64_(\"%s\", &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(t->str)); } } return t_failed; } int check_strx_to_uint64_n_valid(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(xdstrs_w_values) / sizeof(xdstrs_w_values[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { uint64_t rv = 2352932; /* some random value */ size_t rs = 0; size_t len; const struct str_with_value * const t = xdstrs_w_values + i; if (t->str.len < t->num_of_digt) { fprintf(stderr, "ERROR: xdstrs_w_values[%u] has wrong num_of_digt (%u): num_of_digt is expected" " to be less or equal to str.len (%u).\n", (unsigned int) i, (unsigned int) t->num_of_digt, (unsigned int) t->str.len); return -1; } for (len = t->num_of_digt; len <= t->str.len + 1 && !c_failed[i]; len++) { rs = MHD_strx_to_uint64_n_(t->str.str, len, &rv); if (rs != t->num_of_digt) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_n_(\"%s\", %" PRIuPTR ", ->0x%" PRIX64 ")" " returned %" PRIuPTR ", while expecting %d. Locale: %s\n", n_prnt(t->str.str), (intptr_t)len, rv, (intptr_t)rs, (int)t->num_of_digt, get_current_locale_str()); } if (rv != t->val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_n_(\"%s\", %" PRIuPTR ", ->0x%" PRIX64 ")" " converted string to value 0x%" PRIX64 ", while expecting result 0x%" PRIX64 ". Locale: %s\n", n_prnt(t->str.str), (intptr_t)len, rv, rv, t->val, get_current_locale_str()); } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint64_n_(\"%s\", %" PRIuPTR "..%" PRIuPTR ", ->0x%" PRIX64 ")" " == %" PRIuPTR "\n", n_prnt(t->str.str), (intptr_t)t->num_of_digt, (intptr_t)t->str.len + 1, rv, rs); } } return t_failed; } int check_strx_to_uint64_n_all_chars(void) { static const size_t n_checks = 256; /* from 0 to 255 */ int c_failed[n_checks]; size_t t_failed = 0; size_t j; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { unsigned int c; uint64_t test_val; set_test_locale(j); /* setlocale() can be slow! */ for(c = 0; c < n_checks; c++) { static const uint64_t rnd_val = 98372558; size_t rs; size_t len; if ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'F') || (c >= 'a' && c <= 'f')) continue; /* skip xdigits */ for (len = 0; len <= 5; len++) { for(test_val = 0; test_val <= rnd_val&& !c_failed[c]; test_val += rnd_val) { char test_str[] = "0123"; uint64_t rv = test_val; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ rs = MHD_strx_to_uint64_n_(test_str, len, &rv); if (rs != 0) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_n_(\"%s\", %" PRIuPTR ", ->0x%" PRIX64 ")" " returned %" PRIuPTR ", while expecting zero. Locale: %s\n", n_prnt(test_str), (uintptr_t)len, rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[c] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_n_(\"%s\", %" PRIuPTR ", &ret_val)" " modified value of ret_val (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 ")." " Locale: %s\n", n_prnt(test_str), (uintptr_t)len, test_val, rv, get_current_locale_str()); } } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[c]) { char test_str[] = "0123"; test_str[0] = (char) (unsigned char)c; /* replace first char with non-digit char */ printf("PASSED: MHD_strx_to_uint64_n_(\"%s\", 0..5, &ret_val) == 0, value of ret_val is unmodified\n", n_prnt(test_str)); } } } return t_failed; } int check_strx_to_uint64_n_overflow(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(strx_ovflw) / sizeof(strx_ovflw[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; const struct str_with_len * const t = strx_ovflw + i; static const uint64_t rnd_val = 4; size_t len; for (len = t->len; len <= t->len + 1; len++) { uint64_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint64_t rv = test_val; rs = MHD_strx_to_uint64_n_(t->str, len, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_n_(\"%s\", %" PRIuPTR ", ->0x%" PRIX64 ")" " returned %" PRIuPTR ", while expecting zero. Locale: %s\n", n_prnt(t->str), (uintptr_t)len, rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_n_(\"%s\", %" PRIuPTR ", &ret_val)" " modified value of ret_val (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 ")." " Locale: %s\n", n_prnt(t->str), (uintptr_t)len, test_val, rv, get_current_locale_str()); } } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint64_n_(\"%s\", %" PRIuPTR "..%" PRIuPTR ", &ret_val) == 0," " value of ret_val is unmodified\n", n_prnt(t->str), (uintptr_t)t->len, (uintptr_t)t->len + 1); } } return t_failed; } int check_strx_to_uint64_n_no_val(void) { size_t t_failed = 0; size_t i, j; static const size_t n_checks = sizeof(str_no_num) / sizeof(str_no_num[0]); int c_failed[n_checks]; memset(c_failed, 0, sizeof(c_failed)); for(j = 0; j < locale_name_count; j++) { set_test_locale(j); /* setlocale() can be slow! */ for(i = 0; i < n_checks; i++) { size_t rs; const struct str_with_len * const t = str_no_num + i; static const uint64_t rnd_val = 3214314212UL; size_t len; for (len = 0; len <= t->len + 1; len++) { uint64_t test_val; for(test_val = 0; test_val <= rnd_val && !c_failed[i]; test_val += rnd_val) { uint64_t rv = test_val; rs = MHD_strx_to_uint64_n_(t->str, len, &rv); if (rs != 0) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_n_(\"%s\", %" PRIuPTR ", ->0x%" PRIX64 ")" " returned %" PRIuPTR ", while expecting zero. Locale: %s\n", n_prnt(t->str), (uintptr_t)len, rv, (uintptr_t)rs, get_current_locale_str()); } else if (rv != test_val) { t_failed++; c_failed[i] = !0; fprintf(stderr, "FAILED: MHD_strx_to_uint64_n_(\"%s\", %" PRIuPTR ", &ret_val)" " modified value of ret_val (before call: 0x%" PRIX64 ", after call 0x%" PRIX64 ")." " Locale: %s\n", n_prnt(t->str), (uintptr_t)len, test_val, rv, get_current_locale_str()); } } } if (verbose > 1 && j == locale_name_count - 1 && !c_failed[i]) printf("PASSED: MHD_strx_to_uint64_n_(\"%s\", 0..%" PRIuPTR ", &ret_val) == 0," " value of ret_val is unmodified\n", n_prnt(t->str), (uintptr_t)t->len + 1); } } return t_failed; } int run_str_to_X_tests(void) { int str_to_uint64_fails = 0; int str_to_uint64_n_fails = 0; int strx_to_uint32_fails = 0; int strx_to_uint32_n_fails = 0; int strx_to_uint64_fails = 0; int strx_to_uint64_n_fails = 0; int res; res = check_str_to_uint64_valid(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_str_to_uint64_valid().\n"); return 99; } str_to_uint64_fails += res; fprintf(stderr, "FAILED: testcase check_str_to_uint64_valid() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_str_to_uint64_valid() successfully passed.\n\n"); res = check_str_to_uint64_all_chars(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_str_to_uint64_all_chars().\n"); return 99; } str_to_uint64_fails += res; fprintf(stderr, "FAILED: testcase check_str_to_uint64_all_chars() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_str_to_uint64_all_chars() successfully passed.\n\n"); res = check_str_to_uint64_overflow(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_str_to_uint64_overflow().\n"); return 99; } str_to_uint64_fails += res; fprintf(stderr, "FAILED: testcase check_str_to_uint64_overflow() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_str_to_uint64_overflow() successfully passed.\n\n"); res = check_str_to_uint64_no_val(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_str_to_uint64_no_val().\n"); return 99; } str_to_uint64_fails += res; fprintf(stderr, "FAILED: testcase check_str_to_uint64_no_val() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_str_to_uint64_no_val() successfully passed.\n\n"); if (str_to_uint64_fails) fprintf(stderr, "FAILED: function MHD_str_to_uint64_() failed %d time%s.\n\n", str_to_uint64_fails, str_to_uint64_fails == 1 ? "" : "s"); else if (verbose > 0) printf("PASSED: function MHD_str_to_uint64_() successfully passed all checks.\n\n"); res = check_str_to_uint64_n_valid(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_str_to_uint64_n_valid().\n"); return 99; } str_to_uint64_n_fails += res; fprintf(stderr, "FAILED: testcase check_str_to_uint64_n_valid() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_str_to_uint64_n_valid() successfully passed.\n\n"); res = check_str_to_uint64_n_all_chars(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_str_to_uint64_n_all_chars().\n"); return 99; } str_to_uint64_n_fails += res; fprintf(stderr, "FAILED: testcase check_str_to_uint64_n_all_chars() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_str_to_uint64_n_all_chars() successfully passed.\n\n"); res = check_str_to_uint64_n_overflow(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_str_to_uint64_n_overflow().\n"); return 99; } str_to_uint64_n_fails += res; fprintf(stderr, "FAILED: testcase check_str_to_uint64_n_overflow() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_str_to_uint64_n_overflow() successfully passed.\n\n"); res = check_str_to_uint64_n_no_val(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_str_to_uint64_n_no_val().\n"); return 99; } str_to_uint64_n_fails += res; fprintf(stderr, "FAILED: testcase check_str_to_uint64_n_no_val() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_str_to_uint64_n_no_val() successfully passed.\n\n"); if (str_to_uint64_n_fails) fprintf(stderr, "FAILED: function MHD_str_to_uint64_n_() failed %d time%s.\n\n", str_to_uint64_n_fails, str_to_uint64_n_fails == 1 ? "" : "s"); else if (verbose > 0) printf("PASSED: function MHD_str_to_uint64_n_() successfully passed all checks.\n\n"); res = check_strx_to_uint32_valid(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint32_valid().\n"); return 99; } strx_to_uint32_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint32_valid() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint32_valid() successfully passed.\n\n"); res = check_strx_to_uint32_all_chars(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint32_all_chars().\n"); return 99; } strx_to_uint32_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint32_all_chars() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint32_all_chars() successfully passed.\n\n"); res = check_strx_to_uint32_overflow(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint32_overflow().\n"); return 99; } strx_to_uint32_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint32_overflow() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint32_overflow() successfully passed.\n\n"); res = check_strx_to_uint32_no_val(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint32_no_val().\n"); return 99; } strx_to_uint32_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint32_no_val() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint32_no_val() successfully passed.\n\n"); if (strx_to_uint32_fails) fprintf(stderr, "FAILED: function MHD_strx_to_uint32_() failed %d time%s.\n\n", strx_to_uint32_fails, strx_to_uint32_fails == 1 ? "" : "s"); else if (verbose > 0) printf("PASSED: function MHD_strx_to_uint32_() successfully passed all checks.\n\n"); res = check_strx_to_uint32_n_valid(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint32_n_valid().\n"); return 99; } strx_to_uint32_n_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint32_n_valid() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint32_n_valid() successfully passed.\n\n"); res = check_strx_to_uint32_n_all_chars(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint32_n_all_chars().\n"); return 99; } strx_to_uint32_n_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint32_n_all_chars() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint32_n_all_chars() successfully passed.\n\n"); res = check_strx_to_uint32_n_overflow(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint32_n_overflow().\n"); return 99; } strx_to_uint32_n_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint32_n_overflow() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint32_n_overflow() successfully passed.\n\n"); res = check_strx_to_uint32_n_no_val(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint32_n_no_val().\n"); return 99; } strx_to_uint32_n_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint32_n_no_val() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint32_n_no_val() successfully passed.\n\n"); if (strx_to_uint32_n_fails) fprintf(stderr, "FAILED: function MHD_strx_to_uint32_n_() failed %d time%s.\n\n", strx_to_uint32_n_fails, strx_to_uint32_n_fails == 1 ? "" : "s"); else if (verbose > 0) printf("PASSED: function MHD_strx_to_uint32_n_() successfully passed all checks.\n\n"); res = check_strx_to_uint64_valid(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint64_valid().\n"); return 99; } strx_to_uint64_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint64_valid() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint64_valid() successfully passed.\n\n"); res = check_strx_to_uint64_all_chars(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint64_all_chars().\n"); return 99; } strx_to_uint64_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint64_all_chars() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint64_all_chars() successfully passed.\n\n"); res = check_strx_to_uint64_overflow(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint64_overflow().\n"); return 99; } strx_to_uint64_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint64_overflow() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint64_overflow() successfully passed.\n\n"); res = check_strx_to_uint64_no_val(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint64_no_val().\n"); return 99; } strx_to_uint64_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint64_no_val() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint64_no_val() successfully passed.\n\n"); if (strx_to_uint64_fails) fprintf(stderr, "FAILED: function MHD_strx_to_uint64_() failed %d time%s.\n\n", strx_to_uint64_fails, strx_to_uint64_fails == 1 ? "" : "s"); else if (verbose > 0) printf("PASSED: function MHD_strx_to_uint64_() successfully passed all checks.\n\n"); res = check_strx_to_uint64_n_valid(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint64_n_valid().\n"); return 99; } strx_to_uint64_n_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint64_n_valid() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint64_n_valid() successfully passed.\n\n"); res = check_strx_to_uint64_n_all_chars(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint64_n_all_chars().\n"); return 99; } strx_to_uint64_n_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint64_n_all_chars() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint64_n_all_chars() successfully passed.\n\n"); res = check_strx_to_uint64_n_overflow(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint64_n_overflow().\n"); return 99; } strx_to_uint64_n_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint64_n_overflow() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint64_n_overflow() successfully passed.\n\n"); res = check_strx_to_uint64_n_no_val(); if (res != 0) { if (res < 0) { fprintf(stderr, "ERROR: test internal error in check_strx_to_uint64_n_no_val().\n"); return 99; } strx_to_uint64_n_fails += res; fprintf(stderr, "FAILED: testcase check_strx_to_uint64_n_no_val() failed.\n\n"); } else if (verbose > 1) printf("PASSED: testcase check_strx_to_uint64_n_no_val() successfully passed.\n\n"); if (strx_to_uint64_n_fails) fprintf(stderr, "FAILED: function MHD_strx_to_uint64_n_() failed %d time%s.\n\n", strx_to_uint64_n_fails, strx_to_uint64_n_fails == 1 ? "" : "s"); else if (verbose > 0) printf("PASSED: function MHD_strx_to_uint64_n_() successfully passed all checks.\n\n"); if (str_to_uint64_fails || str_to_uint64_n_fails || strx_to_uint32_fails || strx_to_uint32_n_fails || strx_to_uint64_fails || strx_to_uint64_n_fails) { if (verbose > 0) printf("At least one test failed.\n"); return 1; } if (verbose > 0) printf("All tests passed successfully.\n"); return 0; } int main(int argc, char * argv[]) { if (has_param(argc, argv, "-v") || has_param(argc, argv, "--verbose") || has_param(argc, argv, "--verbose1")) verbose = 1; if (has_param(argc, argv, "-vv") || has_param(argc, argv, "--verbose2")) verbose = 2; if (has_param(argc, argv, "-vvv") || has_param(argc, argv, "--verbose3")) verbose = 3; if (has_in_name(argv[0], "_to_value")) return run_str_to_X_tests(); return run_eq_neq_str_tests(); }