/* * Unit test suite for string functions. * * Copyright 2004 Uwe Bonnes * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "wine/test.h" #include "winbase.h" #include "winnls.h" #include #include #include #include #include #include #include #include static char *buf_to_string(const unsigned char *bin, int len, int nr) { static char buf[2][1024]; char *w = buf[nr]; int i; for (i = 0; i < len; i++) { sprintf(w, "%02x ", (unsigned char)bin[i]); w += strlen(w); } return buf[nr]; } static void __cdecl test_invalid_parameter_handler(const wchar_t *expression, const wchar_t *function, const wchar_t *file, unsigned line, uintptr_t arg) { /* we just ignore handler calls */ } #define expect_eq(expr, value, type, format) { type ret = (expr); ok((value) == ret, #expr " expected " format " got " format "\n", value, ret); } #define expect_bin(buf, value, len) { ok(memcmp((buf), value, len) == 0, "Binary buffer mismatch - expected %s, got %s\n", buf_to_string((unsigned char *)value, len, 1), buf_to_string((buf), len, 0)); } static void* (__cdecl *pmemcpy)(void *, const void *, size_t n); static int* (__cdecl *pmemcmp)(void *, const void *, size_t n); static int (__cdecl *pstrcpy_s)(char *dst, size_t len, const char *src); static int (__cdecl *pstrcat_s)(char *dst, size_t len, const char *src); static int (__cdecl *p_mbsnbcat_s)(unsigned char *dst, size_t size, const unsigned char *src, size_t count); static int (__cdecl *p_mbsnbcpy_s)(unsigned char * dst, size_t size, const unsigned char * src, size_t count); static int (__cdecl *p_wcscpy_s)(wchar_t *wcDest, size_t size, const wchar_t *wcSrc); static int (__cdecl *p_wcsncat_s)(wchar_t *dst, size_t elem, const wchar_t *src, size_t count); static int (__cdecl *p_wcsupr_s)(wchar_t *str, size_t size); static size_t (__cdecl *p_strnlen)(const char *, size_t); static __int64 (__cdecl *p_strtoi64)(const char *, char **, int); static unsigned __int64 (__cdecl *p_strtoui64)(const char *, char **, int); static int (__cdecl *pwcstombs_s)(size_t*,char*,size_t,const wchar_t*,size_t); static int (__cdecl *pmbstowcs_s)(size_t*,wchar_t*,size_t,const char*,size_t); static errno_t (__cdecl *p_gcvt_s)(char*,size_t,double,int); static errno_t (__cdecl *p_itoa_s)(int,char*,size_t,int); static errno_t (__cdecl *p_strlwr_s)(char*,size_t); static errno_t (__cdecl *p_ultoa_s)(__msvcrt_ulong,char*,size_t,int); static int *p__mb_cur_max; static unsigned char *p_mbctype; static _invalid_parameter_handler (__cdecl *p_set_invalid_parameter_handler)(_invalid_parameter_handler); static int (__cdecl *p_wcslwr_s)(wchar_t*,size_t); #define SETNOFAIL(x,y) x = (void*)GetProcAddress(hMsvcrt,y) #define SET(x,y) SETNOFAIL(x,y); ok(x != NULL, "Export '%s' not found\n", y) static HMODULE hMsvcrt; static void test_swab( void ) { char original[] = "BADCFEHGJILKNMPORQTSVUXWZY@#"; char expected1[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZ@#"; char expected2[] = "ABCDEFGHIJKLMNOPQRSTUVWX$"; char expected3[] = "$"; char from[30]; char to[30]; int testsize; /* Test 1 - normal even case */ memset(to,'$', sizeof(to)); memset(from,'@', sizeof(from)); testsize = 26; memcpy(from, original, testsize); _swab( from, to, testsize ); ok(memcmp(to,expected1,testsize) == 0, "Testing even size %d returned '%*.*s'\n", testsize, testsize, testsize, to); /* Test 2 - uneven case */ memset(to,'$', sizeof(to)); memset(from,'@', sizeof(from)); testsize = 25; memcpy(from, original, testsize); _swab( from, to, testsize ); ok(memcmp(to,expected2,testsize) == 0, "Testing odd size %d returned '%*.*s'\n", testsize, testsize, testsize, to); /* Test 3 - from = to */ memset(to,'$', sizeof(to)); memset(from,'@', sizeof(from)); testsize = 26; memcpy(to, original, testsize); _swab( to, to, testsize ); ok(memcmp(to,expected1,testsize) == 0, "Testing overlapped size %d returned '%*.*s'\n", testsize, testsize, testsize, to); /* Test 4 - 1 bytes */ memset(to,'$', sizeof(to)); memset(from,'@', sizeof(from)); testsize = 1; memcpy(from, original, testsize); _swab( from, to, testsize ); ok(memcmp(to,expected3,testsize) == 0, "Testing small size %d returned '%*.*s'\n", testsize, testsize, testsize, to); } #if 0 /* use this to generate more tests */ static void test_codepage(int cp) { int i; int prev; int count = 1; ok(_setmbcp(cp) == 0, "Couldn't set mbcp\n"); prev = p_mbctype[0]; printf("static int result_cp_%d_mbctype[] = { ", cp); for (i = 1; i < 257; i++) { if (p_mbctype[i] != prev) { printf("0x%x,%d, ", prev, count); prev = p_mbctype[i]; count = 1; } else count++; } printf("0x%x,%d };\n", prev, count); } #else /* RLE-encoded mbctype tables for given codepages */ static int result_cp_932_mbctype[] = { 0x0,65, 0x8,1, 0x18,26, 0x8,6, 0x28,26, 0x8,4, 0x0,1, 0x8,1, 0xc,31, 0x8,1, 0xa,5, 0x9,58, 0xc,29, 0,3 }; static int result_cp_936_mbctype[] = { 0x0,65, 0x8,1, 0x18,26, 0x8,6, 0x28,26, 0x8,6, 0xc,126, 0,1 }; static int result_cp_949_mbctype[] = { 0x0,66, 0x18,26, 0x8,6, 0x28,26, 0x8,6, 0xc,126, 0,1 }; static int result_cp_950_mbctype[] = { 0x0,65, 0x8,1, 0x18,26, 0x8,6, 0x28,26, 0x8,4, 0x0,2, 0x4,32, 0xc,94, 0,1 }; static void test_cp_table(int cp, int *result) { int i; int count = 0; int curr = 0; _setmbcp(cp); for (i = 0; i < 256; i++) { if (count == 0) { curr = result[0]; count = result[1]; result += 2; } ok(p_mbctype[i] == curr, "CP%d: Mismatch in ctype for character %d - %d instead of %d\n", cp, i-1, p_mbctype[i], curr); count--; } } #define test_codepage(num) test_cp_table(num, result_cp_##num##_mbctype); #endif static void test_mbcp(void) { int mb_orig_max = *p__mb_cur_max; int curr_mbcp = _getmbcp(); unsigned char *mbstring = (unsigned char *)"\xb0\xb1\xb2 \xb3\xb4 \xb5"; /* incorrect string */ unsigned char *mbstring2 = (unsigned char *)"\xb0\xb1\xb2\xb3Q\xb4\xb5"; /* correct string */ unsigned char *mbsonlylead = (unsigned char *)"\xb0\0\xb1\xb2 \xb3"; unsigned char buf[16]; int step; CPINFO cp_info; /* _mbtype tests */ /* An SBCS codepage test. The ctype of characters on e.g. CP1252 or CP1250 differs slightly * between versions of Windows. Also Windows 9x seems to ignore the codepage and always uses * CP1252 (or the ACP?) so we test only a few ASCII characters */ _setmbcp(1252); expect_eq(p_mbctype[10], 0, char, "%x"); expect_eq(p_mbctype[50], 0, char, "%x"); expect_eq(p_mbctype[66], _SBUP, char, "%x"); expect_eq(p_mbctype[100], _SBLOW, char, "%x"); expect_eq(p_mbctype[128], 0, char, "%x"); _setmbcp(1250); expect_eq(p_mbctype[10], 0, char, "%x"); expect_eq(p_mbctype[50], 0, char, "%x"); expect_eq(p_mbctype[66], _SBUP, char, "%x"); expect_eq(p_mbctype[100], _SBLOW, char, "%x"); expect_eq(p_mbctype[128], 0, char, "%x"); /* double byte code pages */ test_codepage(932); test_codepage(936); test_codepage(949); test_codepage(950); _setmbcp(936); ok(*p__mb_cur_max == mb_orig_max, "__mb_cur_max shouldn't be updated (is %d != %d)\n", *p__mb_cur_max, mb_orig_max); ok(_ismbblead('\354'), "\354 should be a lead byte\n"); ok(_ismbblead(' ') == FALSE, "' ' should not be a lead byte\n"); ok(_ismbblead(0x1234b0), "0x1234b0 should not be a lead byte\n"); ok(_ismbblead(0x123420) == FALSE, "0x123420 should not be a lead byte\n"); ok(_ismbbtrail('\xb0'), "\xa0 should be a trail byte\n"); ok(_ismbbtrail(' ') == FALSE, "' ' should not be a trail byte\n"); /* _ismbslead */ expect_eq(_ismbslead(mbstring, &mbstring[0]), -1, int, "%d"); expect_eq(_ismbslead(mbstring, &mbstring[1]), FALSE, int, "%d"); expect_eq(_ismbslead(mbstring, &mbstring[2]), -1, int, "%d"); expect_eq(_ismbslead(mbstring, &mbstring[3]), FALSE, int, "%d"); expect_eq(_ismbslead(mbstring, &mbstring[4]), -1, int, "%d"); expect_eq(_ismbslead(mbstring, &mbstring[5]), FALSE, int, "%d"); expect_eq(_ismbslead(mbstring, &mbstring[6]), FALSE, int, "%d"); expect_eq(_ismbslead(mbstring, &mbstring[7]), -1, int, "%d"); expect_eq(_ismbslead(mbstring, &mbstring[8]), FALSE, int, "%d"); expect_eq(_ismbslead(mbsonlylead, &mbsonlylead[0]), -1, int, "%d"); expect_eq(_ismbslead(mbsonlylead, &mbsonlylead[1]), FALSE, int, "%d"); expect_eq(_ismbslead(mbsonlylead, &mbsonlylead[2]), FALSE, int, "%d"); expect_eq(_ismbslead(mbsonlylead, &mbsonlylead[5]), FALSE, int, "%d"); /* _ismbstrail */ expect_eq(_ismbstrail(mbstring, &mbstring[0]), FALSE, int, "%d"); expect_eq(_ismbstrail(mbstring, &mbstring[1]), -1, int, "%d"); expect_eq(_ismbstrail(mbstring, &mbstring[2]), FALSE, int, "%d"); expect_eq(_ismbstrail(mbstring, &mbstring[3]), -1, int, "%d"); expect_eq(_ismbstrail(mbstring, &mbstring[4]), FALSE, int, "%d"); expect_eq(_ismbstrail(mbstring, &mbstring[5]), -1, int, "%d"); expect_eq(_ismbstrail(mbstring, &mbstring[6]), FALSE, int, "%d"); expect_eq(_ismbstrail(mbstring, &mbstring[7]), FALSE, int, "%d"); expect_eq(_ismbstrail(mbstring, &mbstring[8]), -1, int, "%d"); expect_eq(_ismbstrail(mbsonlylead, &mbsonlylead[0]), FALSE, int, "%d"); expect_eq(_ismbstrail(mbsonlylead, &mbsonlylead[1]), -1, int, "%d"); expect_eq(_ismbstrail(mbsonlylead, &mbsonlylead[2]), FALSE, int, "%d"); expect_eq(_ismbstrail(mbsonlylead, &mbsonlylead[3]), FALSE, int, "%d"); expect_eq(_ismbstrail(mbsonlylead, &mbsonlylead[4]), FALSE, int, "%d"); expect_eq(_ismbstrail(mbsonlylead, &mbsonlylead[5]), FALSE, int, "%d"); /* _mbsbtype */ expect_eq(_mbsbtype(mbstring, 0), _MBC_LEAD, int, "%d"); expect_eq(_mbsbtype(mbstring, 1), _MBC_TRAIL, int, "%d"); expect_eq(_mbsbtype(mbstring, 2), _MBC_LEAD, int, "%d"); expect_eq(_mbsbtype(mbstring, 3), _MBC_ILLEGAL, int, "%d"); expect_eq(_mbsbtype(mbstring, 4), _MBC_LEAD, int, "%d"); expect_eq(_mbsbtype(mbstring, 5), _MBC_TRAIL, int, "%d"); expect_eq(_mbsbtype(mbstring, 6), _MBC_SINGLE, int, "%d"); expect_eq(_mbsbtype(mbstring, 7), _MBC_LEAD, int, "%d"); expect_eq(_mbsbtype(mbstring, 8), _MBC_ILLEGAL, int, "%d"); expect_eq(_mbsbtype(mbsonlylead, 0), _MBC_LEAD, int, "%d"); expect_eq(_mbsbtype(mbsonlylead, 1), _MBC_ILLEGAL, int, "%d"); expect_eq(_mbsbtype(mbsonlylead, 2), _MBC_ILLEGAL, int, "%d"); expect_eq(_mbsbtype(mbsonlylead, 3), _MBC_ILLEGAL, int, "%d"); expect_eq(_mbsbtype(mbsonlylead, 4), _MBC_ILLEGAL, int, "%d"); expect_eq(_mbsbtype(mbsonlylead, 5), _MBC_ILLEGAL, int, "%d"); /* _mbsnextc */ expect_eq(_mbsnextc(mbstring), 0xb0b1, int, "%x"); expect_eq(_mbsnextc(&mbstring[2]), 0xb220, int, "%x"); /* lead + invalid tail */ expect_eq(_mbsnextc(&mbstring[3]), 0x20, int, "%x"); /* single char */ /* _mbclen/_mbslen */ expect_eq(_mbclen(mbstring), 2, int, "%d"); expect_eq(_mbclen(&mbstring[2]), 2, int, "%d"); expect_eq(_mbclen(&mbstring[3]), 1, int, "%d"); expect_eq(_mbslen(mbstring2), 4, int, "%d"); expect_eq(_mbslen(mbsonlylead), 0, int, "%d"); /* lead + NUL not counted as character */ expect_eq(_mbslen(mbstring), 4, int, "%d"); /* lead + invalid trail counted */ /* _mbccpy/_mbsncpy */ memset(buf, 0xff, sizeof(buf)); _mbccpy(buf, mbstring); expect_bin(buf, "\xb0\xb1\xff", 3); memset(buf, 0xff, sizeof(buf)); _mbsncpy(buf, mbstring, 1); expect_bin(buf, "\xb0\xb1\xff", 3); memset(buf, 0xff, sizeof(buf)); _mbsncpy(buf, mbstring, 2); expect_bin(buf, "\xb0\xb1\xb2 \xff", 5); memset(buf, 0xff, sizeof(buf)); _mbsncpy(buf, mbstring, 3); expect_bin(buf, "\xb0\xb1\xb2 \xb3\xb4\xff", 7); memset(buf, 0xff, sizeof(buf)); _mbsncpy(buf, mbstring, 4); expect_bin(buf, "\xb0\xb1\xb2 \xb3\xb4 \xff", 8); memset(buf, 0xff, sizeof(buf)); _mbsncpy(buf, mbstring, 5); expect_bin(buf, "\xb0\xb1\xb2 \xb3\xb4 \0\0\xff", 10); memset(buf, 0xff, sizeof(buf)); _mbsncpy(buf, mbsonlylead, 6); expect_bin(buf, "\0\0\0\0\0\0\0\xff", 8); memset(buf, 0xff, sizeof(buf)); _mbsnbcpy(buf, mbstring2, 2); expect_bin(buf, "\xb0\xb1\xff", 3); _mbsnbcpy(buf, mbstring2, 3); expect_bin(buf, "\xb0\xb1\0\xff", 4); _mbsnbcpy(buf, mbstring2, 4); expect_bin(buf, "\xb0\xb1\xb2\xb3\xff", 5); memset(buf, 0xff, sizeof(buf)); _mbsnbcpy(buf, mbsonlylead, 5); expect_bin(buf, "\0\0\0\0\0\xff", 6); /* _mbsinc/mbsdec */ step = _mbsinc(mbstring) - mbstring; ok(step == 2, "_mbsinc adds %d (exp. 2)\n", step); step = _mbsinc(&mbstring[2]) - &mbstring[2]; /* lead + invalid tail */ ok(step == 2, "_mbsinc adds %d (exp. 2)\n", step); step = _mbsninc(mbsonlylead, 1) - mbsonlylead; ok(step == 0, "_mbsninc adds %d (exp. 0)\n", step); step = _mbsninc(mbsonlylead, 2) - mbsonlylead; /* lead + NUL byte + lead + char */ ok(step == 0, "_mbsninc adds %d (exp. 0)\n", step); step = _mbsninc(mbstring2, 0) - mbstring2; ok(step == 0, "_mbsninc adds %d (exp. 2)\n", step); step = _mbsninc(mbstring2, 1) - mbstring2; ok(step == 2, "_mbsninc adds %d (exp. 2)\n", step); step = _mbsninc(mbstring2, 2) - mbstring2; ok(step == 4, "_mbsninc adds %d (exp. 4)\n", step); step = _mbsninc(mbstring2, 3) - mbstring2; ok(step == 5, "_mbsninc adds %d (exp. 5)\n", step); step = _mbsninc(mbstring2, 4) - mbstring2; ok(step == 7, "_mbsninc adds %d (exp. 7)\n", step); step = _mbsninc(mbstring2, 5) - mbstring2; ok(step == 7, "_mbsninc adds %d (exp. 7)\n", step); step = _mbsninc(mbstring2, 17) - mbstring2; ok(step == 7, "_mbsninc adds %d (exp. 7)\n", step); /* functions that depend on locale codepage, not mbcp. * we hope the current locale to be SBCS because setlocale(LC_ALL, ".1252") seems not to work yet * (as of Wine 0.9.43) */ GetCPInfo(GetACP(), &cp_info); if (cp_info.MaxCharSize == 1) { expect_eq(mblen((char *)mbstring, 3), 1, int, "%x"); expect_eq(_mbstrlen((char *)mbstring2), 7, int, "%d"); } else skip("Current locale has double-byte charset - could lead to false positives\n"); _setmbcp(1361); expect_eq(_ismbblead(0x80), 0, int, "%d"); todo_wine { expect_eq(_ismbblead(0x81), 1, int, "%d"); expect_eq(_ismbblead(0x83), 1, int, "%d"); } expect_eq(_ismbblead(0x84), 1, int, "%d"); expect_eq(_ismbblead(0xd3), 1, int, "%d"); expect_eq(_ismbblead(0xd7), 0, int, "%d"); todo_wine { expect_eq(_ismbblead(0xd8), 1, int, "%d"); } expect_eq(_ismbblead(0xd9), 1, int, "%d"); expect_eq(_ismbbtrail(0x30), 0, int, "%d"); expect_eq(_ismbbtrail(0x31), 1, int, "%d"); expect_eq(_ismbbtrail(0x7e), 1, int, "%d"); expect_eq(_ismbbtrail(0x7f), 0, int, "%d"); expect_eq(_ismbbtrail(0x80), 0, int, "%d"); expect_eq(_ismbbtrail(0x81), 1, int, "%d"); expect_eq(_ismbbtrail(0xfe), 1, int, "%d"); expect_eq(_ismbbtrail(0xff), 0, int, "%d"); _setmbcp(curr_mbcp); } static void test_mbsspn( void) { unsigned char str1[]="cabernet"; unsigned char str2[]="shiraz"; unsigned char set[]="abc"; unsigned char empty[]=""; int ret; ret=_mbsspn( str1, set); ok( ret==3, "_mbsspn returns %d should be 3\n", ret); ret=_mbsspn( str2, set); ok( ret==0, "_mbsspn returns %d should be 0\n", ret); ret=_mbsspn( str1, empty); ok( ret==0, "_mbsspn returns %d should be 0\n", ret); } static void test_mbsspnp( void) { unsigned char str1[]="cabernet"; unsigned char str2[]="shiraz"; unsigned char set[]="abc"; unsigned char empty[]=""; unsigned char full[]="abcenrt"; unsigned char* ret; ret=_mbsspnp( str1, set); ok( ret[0]=='e', "_mbsspnp returns %c should be e\n", ret[0]); ret=_mbsspnp( str2, set); ok( ret[0]=='s', "_mbsspnp returns %c should be s\n", ret[0]); ret=_mbsspnp( str1, empty); ok( ret[0]=='c', "_mbsspnp returns %c should be c\n", ret[0]); ret=_mbsspnp( str1, full); ok( ret==NULL, "_mbsspnp returns %p should be NULL\n", ret); } static void test_strdup(void) { char *str; str = _strdup( 0 ); ok( str == 0, "strdup returns %s should be 0\n", str); free( str ); } static void test_strcpy_s(void) { char dest[8]; const char *small = "small"; const char *big = "atoolongstringforthislittledestination"; int ret; if(!pstrcpy_s) { skip("strcpy_s not found\n"); return; } memset(dest, 'X', sizeof(dest)); ret = pstrcpy_s(dest, sizeof(dest), small); ok(ret == 0, "Copying a string into a big enough destination returned %d, expected 0\n", ret); ok(dest[0] == 's' && dest[1] == 'm' && dest[2] == 'a' && dest[3] == 'l' && dest[4] == 'l' && dest[5] == '\0'&& dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); memset(dest, 'X', sizeof(dest)); ret = pstrcpy_s(dest, 0, big); ok(ret == EINVAL, "Copying into a destination of size 0 returned %d, expected EINVAL\n", ret); ok(dest[0] == 'X' && dest[1] == 'X' && dest[2] == 'X' && dest[3] == 'X' && dest[4] == 'X' && dest[5] == 'X' && dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); ret = pstrcpy_s(dest, 0, NULL); ok(ret == EINVAL, "Copying into a destination of size 0 returned %d, expected EINVAL\n", ret); ok(dest[0] == 'X' && dest[1] == 'X' && dest[2] == 'X' && dest[3] == 'X' && dest[4] == 'X' && dest[5] == 'X' && dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); memset(dest, 'X', sizeof(dest)); ret = pstrcpy_s(dest, sizeof(dest), big); ok(ret == ERANGE, "Copying a big string in a small location returned %d, expected ERANGE\n", ret); ok(dest[0] == '\0'&& dest[1] == 't' && dest[2] == 'o' && dest[3] == 'o' && dest[4] == 'l' && dest[5] == 'o' && dest[6] == 'n' && dest[7] == 'g', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); memset(dest, 'X', sizeof(dest)); ret = pstrcpy_s(dest, sizeof(dest), NULL); ok(ret == EINVAL, "Copying from a NULL source string returned %d, expected EINVAL\n", ret); ok(dest[0] == '\0'&& dest[1] == 'X' && dest[2] == 'X' && dest[3] == 'X' && dest[4] == 'X' && dest[5] == 'X' && dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); ret = pstrcpy_s(NULL, sizeof(dest), small); ok(ret == EINVAL, "Copying a big string a NULL dest returned %d, expected EINVAL\n", ret); } static void test_strcat_s(void) { char dest[8]; const char *small = "sma"; int ret; if(!pstrcat_s) { skip("strcat_s not found\n"); return; } memset(dest, 'X', sizeof(dest)); dest[0] = '\0'; ret = pstrcat_s(dest, sizeof(dest), small); ok(ret == 0, "strcat_s: Copying a string into a big enough destination returned %d, expected 0\n", ret); ok(dest[0] == 's' && dest[1] == 'm' && dest[2] == 'a' && dest[3] == '\0'&& dest[4] == 'X' && dest[5] == 'X' && dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); ret = pstrcat_s(dest, sizeof(dest), small); ok(ret == 0, "strcat_s: Attaching a string to a big enough destination returned %d, expected 0\n", ret); ok(dest[0] == 's' && dest[1] == 'm' && dest[2] == 'a' && dest[3] == 's' && dest[4] == 'm' && dest[5] == 'a' && dest[6] == '\0'&& dest[7] == 'X', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); ret = pstrcat_s(dest, sizeof(dest), small); ok(ret == ERANGE, "strcat_s: Attaching a string to a filled up destination returned %d, expected ERANGE\n", ret); ok(dest[0] == '\0'&& dest[1] == 'm' && dest[2] == 'a' && dest[3] == 's' && dest[4] == 'm' && dest[5] == 'a' && dest[6] == 's' && dest[7] == 'm', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); memset(dest, 'X', sizeof(dest)); dest[0] = 'a'; dest[1] = '\0'; ret = pstrcat_s(dest, 0, small); ok(ret == EINVAL, "strcat_s: Source len = 0 returned %d, expected EINVAL\n", ret); ok(dest[0] == 'a' && dest[1] == '\0'&& dest[2] == 'X' && dest[3] == 'X' && dest[4] == 'X' && dest[5] == 'X' && dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); ret = pstrcat_s(dest, 0, NULL); ok(ret == EINVAL, "strcat_s: len = 0 and src = NULL returned %d, expected EINVAL\n", ret); ok(dest[0] == 'a' && dest[1] == '\0'&& dest[2] == 'X' && dest[3] == 'X' && dest[4] == 'X' && dest[5] == 'X' && dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); ret = pstrcat_s(dest, sizeof(dest), NULL); ok(ret == EINVAL, "strcat_s: Sourcing from NULL returned %d, expected EINVAL\n", ret); ok(dest[0] == '\0'&& dest[1] == '\0'&& dest[2] == 'X' && dest[3] == 'X' && dest[4] == 'X' && dest[5] == 'X' && dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from strcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); ret = pstrcat_s(NULL, sizeof(dest), small); ok(ret == EINVAL, "strcat_s: Writing to a NULL string returned %d, expected EINVAL\n", ret); } static void test__mbsnbcpy_s(void) { unsigned char dest[8]; const unsigned char big[] = "atoolongstringforthislittledestination"; const unsigned char small[] = "small"; int ret; if(!p_mbsnbcpy_s) { skip("_mbsnbcpy_s not found\n"); return; } memset(dest, 'X', sizeof(dest)); ret = p_mbsnbcpy_s(dest, sizeof(dest), small, sizeof(small)); ok(ret == 0, "_mbsnbcpy_s: Copying a string into a big enough destination returned %d, expected 0\n", ret); ok(dest[0] == 's' && dest[1] == 'm' && dest[2] == 'a' && dest[3] == 'l' && dest[4] == 'l' && dest[5] == '\0'&& dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from _mbsnbcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); /* WTF? */ memset(dest, 'X', sizeof(dest)); ret = p_mbsnbcpy_s(dest, sizeof(dest) - 2, big, sizeof(small)); ok(ret == ERANGE, "_mbsnbcpy_s: Copying a too long string returned %d, expected ERANGE\n", ret); ok(dest[0] == '\0'&& dest[1] == 't' && dest[2] == 'o' && dest[3] == 'o' && dest[4] == 'l' && dest[5] == 'o' && dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from _mbsnbcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); memset(dest, 'X', sizeof(dest)); ret = p_mbsnbcpy_s(dest, sizeof(dest) - 2, big, 4); ok(ret == 0, "_mbsnbcpy_s: Copying a too long string with a count cap returned %d, expected 0\n", ret); ok(dest[0] == 'a' && dest[1] == 't' && dest[2] == 'o' && dest[3] == 'o' && dest[4] == '\0'&& dest[5] == 'X' && dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from _mbsnbcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); memset(dest, 'X', sizeof(dest)); ret = p_mbsnbcpy_s(dest, sizeof(dest) - 2, small, sizeof(small) + 10); ok(ret == 0, "_mbsnbcpy_s: Copying more data than the source string len returned %d, expected 0\n", ret); ok(dest[0] == 's' && dest[1] == 'm' && dest[2] == 'a' && dest[3] == 'l' && dest[4] == 'l' && dest[5] == '\0'&& dest[6] == 'X' && dest[7] == 'X', "Unexpected return data from _mbsnbcpy_s: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n", dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); } static void test_wcscpy_s(void) { static const WCHAR szLongText[] = { 'T','h','i','s','A','L','o','n','g','s','t','r','i','n','g',0 }; static WCHAR szDest[18]; static WCHAR szDestShort[8]; int ret; if(!p_wcscpy_s) { skip("wcscpy_s not found\n"); return; } /* Test NULL Dest */ ret = p_wcscpy_s(NULL, 18, szLongText); ok(ret == EINVAL, "p_wcscpy_s expect EINVAL got %d\n", ret); /* Test NULL Source */ szDest[0] = 'A'; ret = p_wcscpy_s(szDest, 18, NULL); ok(ret == EINVAL, "expected EINVAL got %d\n", ret); ok(szDest[0] == 0, "szDest[0] not 0\n"); /* Test invalid size */ szDest[0] = 'A'; ret = p_wcscpy_s(szDest, 0, szLongText); /* Later versions changed the return value for this case to EINVAL, * and don't modify the result if the dest size is 0. */ ok(ret == ERANGE || ret == EINVAL, "expected ERANGE/EINVAL got %d\n", ret); ok(szDest[0] == 0 || ret == EINVAL, "szDest[0] not 0\n"); /* Copy same buffer size */ ret = p_wcscpy_s(szDest, 18, szLongText); ok(ret == 0, "expected 0 got %d\n", ret); ok(lstrcmpW(szDest, szLongText) == 0, "szDest != szLongText\n"); /* Copy smaller buffer size */ szDest[0] = 'A'; ret = p_wcscpy_s(szDestShort, 8, szLongText); ok(ret == ERANGE || ret == EINVAL, "expected ERANGE/EINVAL got %d\n", ret); ok(szDestShort[0] == 0, "szDestShort[0] not 0\n"); } static void test__wcsupr_s(void) { static const WCHAR mixedString[] = {'M', 'i', 'X', 'e', 'D', 'l', 'o', 'w', 'e', 'r', 'U', 'P', 'P', 'E', 'R', 0}; static const WCHAR expectedString[] = {'M', 'I', 'X', 'E', 'D', 'L', 'O', 'W', 'E', 'R', 'U', 'P', 'P', 'E', 'R', 0}; WCHAR testBuffer[2*sizeof(mixedString)/sizeof(WCHAR)]; int ret; if (!p_wcsupr_s) { win_skip("_wcsupr_s not found\n"); return; } /* Test NULL input string and invalid size. */ errno = EBADF; ret = p_wcsupr_s(NULL, 0); ok(ret == EINVAL, "Expected _wcsupr_s to fail with EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); /* Test NULL input string and valid size. */ errno = EBADF; ret = p_wcsupr_s(NULL, sizeof(testBuffer)/sizeof(WCHAR)); ok(ret == EINVAL, "Expected _wcsupr_s to fail with EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); /* Test empty string with zero size. */ errno = EBADF; testBuffer[0] = '\0'; ret = p_wcsupr_s(testBuffer, 0); ok(ret == EINVAL, "Expected _wcsupr_s to fail with EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(testBuffer[0] == '\0', "Expected the buffer to be unchanged\n"); /* Test empty string with size of one. */ testBuffer[0] = '\0'; ret = p_wcsupr_s(testBuffer, 1); ok(ret == 0, "Expected _wcsupr_s to succeed, got %d\n", ret); ok(testBuffer[0] == '\0', "Expected the buffer to be unchanged\n"); /* Test one-byte buffer with zero size. */ errno = EBADF; testBuffer[0] = 'x'; ret = p_wcsupr_s(testBuffer, 0); ok(ret == EINVAL, "Expected _wcsupr_s to fail with EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(testBuffer[0] == '\0', "Expected the first buffer character to be null\n"); /* Test one-byte buffer with size of one. */ errno = EBADF; testBuffer[0] = 'x'; ret = p_wcsupr_s(testBuffer, 1); ok(ret == EINVAL, "Expected _wcsupr_s to fail with EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(testBuffer[0] == '\0', "Expected the first buffer character to be null\n"); /* Test invalid size. */ wcscpy(testBuffer, mixedString); errno = EBADF; ret = p_wcsupr_s(testBuffer, 0); ok(ret == EINVAL, "Expected _wcsupr_s to fail with EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(testBuffer[0] == '\0', "Expected the first buffer character to be null\n"); /* Test normal string uppercasing. */ wcscpy(testBuffer, mixedString); ret = p_wcsupr_s(testBuffer, sizeof(mixedString)/sizeof(WCHAR)); ok(ret == 0, "Expected _wcsupr_s to succeed, got %d\n", ret); ok(!wcscmp(testBuffer, expectedString), "Expected the string to be fully upper-case\n"); /* Test uppercasing with a shorter buffer size count. */ wcscpy(testBuffer, mixedString); errno = EBADF; ret = p_wcsupr_s(testBuffer, sizeof(mixedString)/sizeof(WCHAR) - 1); ok(ret == EINVAL, "Expected _wcsupr_s to fail with EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(testBuffer[0] == '\0', "Expected the first buffer character to be null\n"); /* Test uppercasing with a longer buffer size count. */ wcscpy(testBuffer, mixedString); ret = p_wcsupr_s(testBuffer, sizeof(testBuffer)/sizeof(WCHAR)); ok(ret == 0, "Expected _wcsupr_s to succeed, got %d\n", ret); ok(!wcscmp(testBuffer, expectedString), "Expected the string to be fully upper-case\n"); } static void test__wcslwr_s(void) { static const WCHAR mixedString[] = {'M', 'i', 'X', 'e', 'D', 'l', 'o', 'w', 'e', 'r', 'U', 'P', 'P', 'E', 'R', 0}; static const WCHAR expectedString[] = {'m', 'i', 'x', 'e', 'd', 'l', 'o', 'w', 'e', 'r', 'u', 'p', 'p', 'e', 'r', 0}; WCHAR buffer[2*sizeof(mixedString)/sizeof(WCHAR)]; int ret; if (!p_wcslwr_s) { win_skip("_wcslwr_s not found\n"); return; } /* Test NULL input string and invalid size. */ errno = EBADF; ret = p_wcslwr_s(NULL, 0); ok(ret == EINVAL, "expected EINVAL, got %d\n", ret); ok(errno == EINVAL, "expected errno EINVAL, got %d\n", errno); /* Test NULL input string and valid size. */ errno = EBADF; ret = p_wcslwr_s(NULL, sizeof(buffer)/sizeof(wchar_t)); ok(ret == EINVAL, "expected EINVAL, got %d\n", ret); ok(errno == EINVAL, "expected errno EINVAL, got %d\n", errno); /* Test empty string with zero size. */ errno = EBADF; buffer[0] = 'a'; ret = p_wcslwr_s(buffer, 0); ok(ret == EINVAL, "expected EINVAL, got %d\n", ret); ok(errno == EINVAL, "expected errno EINVAL, got %d\n", errno); ok(buffer[0] == 0, "expected empty string\n"); /* Test empty string with size of one. */ buffer[0] = 0; ret = p_wcslwr_s(buffer, 1); ok(ret == 0, "got %d\n", ret); ok(buffer[0] == 0, "expected buffer to be unchanged\n"); /* Test one-byte buffer with zero size. */ errno = EBADF; buffer[0] = 'x'; ret = p_wcslwr_s(buffer, 0); ok(ret == EINVAL, "expected EINVAL, got %d\n", ret); ok(errno == EINVAL, "expected errno to be EINVAL, got %d\n", errno); ok(buffer[0] == '\0', "expected empty string\n"); /* Test one-byte buffer with size of one. */ errno = EBADF; buffer[0] = 'x'; ret = p_wcslwr_s(buffer, 1); ok(ret == EINVAL, "expected EINVAL, got %d\n", ret); ok(errno == EINVAL, "expected errno to be EINVAL, got %d\n", errno); ok(buffer[0] == '\0', "expected empty string\n"); /* Test invalid size. */ wcscpy(buffer, mixedString); errno = EBADF; ret = p_wcslwr_s(buffer, 0); ok(ret == EINVAL, "Expected EINVAL, got %d\n", ret); ok(errno == EINVAL, "expected errno to be EINVAL, got %d\n", errno); ok(buffer[0] == '\0', "expected empty string\n"); /* Test normal string uppercasing. */ wcscpy(buffer, mixedString); ret = p_wcslwr_s(buffer, sizeof(mixedString)/sizeof(WCHAR)); ok(ret == 0, "expected 0, got %d\n", ret); ok(!wcscmp(buffer, expectedString), "expected lowercase\n"); /* Test uppercasing with a shorter buffer size count. */ wcscpy(buffer, mixedString); errno = EBADF; ret = p_wcslwr_s(buffer, sizeof(mixedString)/sizeof(WCHAR) - 1); ok(ret == EINVAL, "expected EINVAL, got %d\n", ret); ok(errno == EINVAL, "expected errno to be EINVAL, got %d\n", errno); ok(buffer[0] == '\0', "expected empty string\n"); /* Test uppercasing with a longer buffer size count. */ wcscpy(buffer, mixedString); ret = p_wcslwr_s(buffer, sizeof(buffer)/sizeof(WCHAR)); ok(ret == 0, "expected 0, got %d\n", ret); ok(!wcscmp(buffer, expectedString), "expected lowercase\n"); } static void test_mbcjisjms(void) { /* List of value-pairs to test. The test assumes the last pair to be {0, ..} */ unsigned int jisjms[][2] = { {0x2020, 0}, {0x2021, 0}, {0x2120, 0}, {0x2121, 0x8140}, {0x7f7f, 0}, {0x7f7e, 0}, {0x7e7f, 0}, {0x7e7e, 0xeffc}, {0x2121FFFF, 0}, {0x2223, 0x81a1}, {0x237e, 0x829e}, {0, 0}}; unsigned int ret, exp, i; i = 0; do { ret = _mbcjistojms(jisjms[i][0]); if(_getmbcp() == 932) /* Japanese codepage? */ exp = jisjms[i][1]; else exp = jisjms[i][0]; /* If not, no conversion */ ok(ret == exp, "Expected 0x%x, got 0x%x\n", exp, ret); } while(jisjms[i++][0] != 0); } static void test_mbctombb(void) { static const unsigned int mbcmbb_932[][2] = { {0x829e, 0x829e}, {0x829f, 0xa7}, {0x82f1, 0xdd}, {0x82f2, 0x82f2}, {0x833f, 0x833f}, {0x8340, 0xa7}, {0x837e, 0xd0}, {0x837f, 0x837f}, {0x8380, 0xd1}, {0x8396, 0xb9}, {0x8397, 0x8397}, {0x813f, 0x813f}, {0x8140, 0x20}, {0x814c, 0x814c}, {0x814f, 0x5e}, {0x8197, 0x40}, {0x8198, 0x8198}, {0x8258, 0x39}, {0x8259, 0x8259}, {0x825f, 0x825f}, {0x8260, 0x41}, {0x82f1, 0xdd}, {0x82f2, 0x82f2}, {0,0}}; unsigned int exp, ret, i; unsigned int prev_cp = _getmbcp(); _setmbcp(932); for (i = 0; mbcmbb_932[i][0] != 0; i++) { ret = _mbctombb(mbcmbb_932[i][0]); exp = mbcmbb_932[i][1]; ok(ret == exp, "Expected 0x%x, got 0x%x\n", exp, ret); } _setmbcp(prev_cp); } static void test_ismbclegal(void) { unsigned int prev_cp = _getmbcp(); int ret, exp, err; unsigned int i; _setmbcp(932); /* Japanese */ err = 0; for(i = 0; i < 0x10000; i++) { ret = _ismbclegal(i); exp = ((HIBYTE(i) >= 0x81 && HIBYTE(i) <= 0x9F) || (HIBYTE(i) >= 0xE0 && HIBYTE(i) <= 0xFC)) && ((LOBYTE(i) >= 0x40 && LOBYTE(i) <= 0x7E) || (LOBYTE(i) >= 0x80 && LOBYTE(i) <= 0xFC)); if(ret != exp) { err = 1; break; } } ok(!err, "_ismbclegal (932) : Expected 0x%x, got 0x%x (0x%x)\n", exp, ret, i); _setmbcp(936); /* Chinese (GBK) */ err = 0; for(i = 0; i < 0x10000; i++) { ret = _ismbclegal(i); exp = HIBYTE(i) >= 0x81 && HIBYTE(i) <= 0xFE && LOBYTE(i) >= 0x40 && LOBYTE(i) <= 0xFE; if(ret != exp) { err = 1; break; } } ok(!err, "_ismbclegal (936) : Expected 0x%x, got 0x%x (0x%x)\n", exp, ret, i); _setmbcp(949); /* Korean */ err = 0; for(i = 0; i < 0x10000; i++) { ret = _ismbclegal(i); exp = HIBYTE(i) >= 0x81 && HIBYTE(i) <= 0xFE && LOBYTE(i) >= 0x41 && LOBYTE(i) <= 0xFE; if(ret != exp) { err = 1; break; } } ok(!err, "_ismbclegal (949) : Expected 0x%x, got 0x%x (0x%x)\n", exp, ret, i); _setmbcp(950); /* Chinese (Big5) */ err = 0; for(i = 0; i < 0x10000; i++) { ret = _ismbclegal(i); exp = HIBYTE(i) >= 0x81 && HIBYTE(i) <= 0xFE && ((LOBYTE(i) >= 0x40 && LOBYTE(i) <= 0x7E) || (LOBYTE(i) >= 0xA1 && LOBYTE(i) <= 0xFE)); if(ret != exp) { err = 1; break; } } ok(!err, "_ismbclegal (950) : Expected 0x%x, got 0x%x (0x%x)\n", exp, ret, i); _setmbcp(1361); /* Korean (Johab) */ err = 0; for(i = 0; i < 0x10000; i++) { ret = _ismbclegal(i); exp = ((HIBYTE(i) >= 0x81 && HIBYTE(i) <= 0xD3) || (HIBYTE(i) >= 0xD8 && HIBYTE(i) <= 0xF9)) && ((LOBYTE(i) >= 0x31 && LOBYTE(i) <= 0x7E) || (LOBYTE(i) >= 0x81 && LOBYTE(i) <= 0xFE)) && HIBYTE(i) != 0xDF; if(ret != exp) { err = 1; break; } } todo_wine ok(!err, "_ismbclegal (1361) : Expected 0x%x, got 0x%x (0x%x)\n", exp, ret, i); _setmbcp(prev_cp); } static const struct { const char* string; const char* delimiter; int exp_offsetret1; /* returned offset from string after first call to strtok() -1 means NULL */ int exp_offsetret2; /* returned offset from string after second call to strtok() -1 means NULL */ int exp_offsetret3; /* returned offset from string after third call to strtok() -1 means NULL */ } testcases_strtok[] = { { "red cabernet", " ", 0, 4, -1 }, { "sparkling white riesling", " ", 0, 10, 16 }, { " pale cream sherry", "e ", 1, 6, 9 }, /* end mark */ { 0} }; static void test_strtok(void) { int i; char *strret; char teststr[100]; for( i = 0; testcases_strtok[i].string; i++){ strcpy( teststr, testcases_strtok[i].string); strret = strtok( teststr, testcases_strtok[i].delimiter); ok( (int)(strret - teststr) == testcases_strtok[i].exp_offsetret1 || (!strret && testcases_strtok[i].exp_offsetret1 == -1), "string (%p) \'%s\' return %p\n", teststr, testcases_strtok[i].string, strret); if( !strret) continue; strret = strtok( NULL, testcases_strtok[i].delimiter); ok( (int)(strret - teststr) == testcases_strtok[i].exp_offsetret2 || (!strret && testcases_strtok[i].exp_offsetret2 == -1), "second call string (%p) \'%s\' return %p\n", teststr, testcases_strtok[i].string, strret); if( !strret) continue; strret = strtok( NULL, testcases_strtok[i].delimiter); ok( (int)(strret - teststr) == testcases_strtok[i].exp_offsetret3 || (!strret && testcases_strtok[i].exp_offsetret3 == -1), "third call string (%p) \'%s\' return %p\n", teststr, testcases_strtok[i].string, strret); } } static void test_strtol(void) { char* e; LONG l; ULONG ul; /* errno is only set in case of error, so reset errno to EBADF to check for errno modification */ /* errno is modified on W2K8+ */ errno = EBADF; l = strtol("-1234", &e, 0); ok(l==-1234, "wrong value %d\n", l); ok(errno == EBADF || broken(errno == 0), "wrong errno %d\n", errno); errno = EBADF; ul = strtoul("1234", &e, 0); ok(ul==1234, "wrong value %u\n", ul); ok(errno == EBADF || broken(errno == 0), "wrong errno %d\n", errno); errno = EBADF; l = strtol("2147483647L", &e, 0); ok(l==2147483647, "wrong value %d\n", l); ok(errno == EBADF || broken(errno == 0), "wrong errno %d\n", errno); errno = EBADF; l = strtol("-2147483648L", &e, 0); ok(l==-2147483647L - 1, "wrong value %d\n", l); ok(errno == EBADF || broken(errno == 0), "wrong errno %d\n", errno); errno = EBADF; ul = strtoul("4294967295UL", &e, 0); ok(ul==4294967295ul, "wrong value %u\n", ul); ok(errno == EBADF || broken(errno == 0), "wrong errno %d\n", errno); errno = 0; l = strtol("9223372036854775807L", &e, 0); ok(l==2147483647, "wrong value %d\n", l); ok(errno == ERANGE, "wrong errno %d\n", errno); errno = 0; ul = strtoul("9223372036854775807L", &e, 0); ok(ul==4294967295ul, "wrong value %u\n", ul); ok(errno == ERANGE, "wrong errno %d\n", errno); } static void test_strnlen(void) { static const char str[] = "string"; size_t res; if(!p_strnlen) { win_skip("strnlen not found\n"); return; } res = p_strnlen(str, 20); ok(res == 6, "Returned length = %d\n", (int)res); res = p_strnlen(str, 3); ok(res == 3, "Returned length = %d\n", (int)res); res = p_strnlen(NULL, 0); ok(res == 0, "Returned length = %d\n", (int)res); } static void test__strtoi64(void) { static const char no1[] = "31923"; static const char no2[] = "-213312"; static const char no3[] = "12aa"; static const char no4[] = "abc12"; static const char overflow[] = "99999999999999999999"; static const char neg_overflow[] = "-99999999999999999999"; static const char hex[] = "0x123"; static const char oct[] = "000123"; static const char blanks[] = " 12 212.31"; __int64 res; unsigned __int64 ures; char *endpos; if(!p_strtoi64 || !p_strtoui64) { win_skip("_strtoi64 or _strtoui64 not found\n"); return; } errno = 0xdeadbeef; res = p_strtoi64(no1, NULL, 10); ok(res == 31923, "res != 31923\n"); res = p_strtoi64(no2, NULL, 10); ok(res == -213312, "res != -213312\n"); res = p_strtoi64(no3, NULL, 10); ok(res == 12, "res != 12\n"); res = p_strtoi64(no4, &endpos, 10); ok(res == 0, "res != 0\n"); ok(endpos == no4, "Scanning was not stopped on first character\n"); res = p_strtoi64(hex, &endpos, 10); ok(res == 0, "res != 0\n"); ok(endpos == hex+1, "Incorrect endpos (%p-%p)\n", hex, endpos); res = p_strtoi64(oct, &endpos, 10); ok(res == 123, "res != 123\n"); ok(endpos == oct+strlen(oct), "Incorrect endpos (%p-%p)\n", oct, endpos); res = p_strtoi64(blanks, &endpos, 10); ok(res == 12, "res != 12\n"); ok(endpos == blanks+10, "Incorrect endpos (%p-%p)\n", blanks, endpos); ok(errno == 0xdeadbeef, "errno = %x\n", errno); errno = 0xdeadbeef; res = p_strtoi64(overflow, &endpos, 10); ok(res == _I64_MAX, "res != _I64_MAX\n"); ok(endpos == overflow+strlen(overflow), "Incorrect endpos (%p-%p)\n", overflow, endpos); ok(errno == ERANGE, "errno = %x\n", errno); errno = 0xdeadbeef; res = p_strtoi64(neg_overflow, &endpos, 10); ok(res == _I64_MIN, "res != _I64_MIN\n"); ok(endpos == neg_overflow+strlen(neg_overflow), "Incorrect endpos (%p-%p)\n", neg_overflow, endpos); ok(errno == ERANGE, "errno = %x\n", errno); errno = 0xdeadbeef; res = p_strtoi64(no1, &endpos, 16); ok(res == 203043, "res != 203043\n"); ok(endpos == no1+strlen(no1), "Incorrect endpos (%p-%p)\n", no1, endpos); res = p_strtoi64(no2, &endpos, 16); ok(res == -2175762, "res != -2175762\n"); ok(endpos == no2+strlen(no2), "Incorrect endpos (%p-%p)\n", no2, endpos); res = p_strtoi64(no3, &endpos, 16); ok(res == 4778, "res != 4778\n"); ok(endpos == no3+strlen(no3), "Incorrect endpos (%p-%p)\n", no3, endpos); res = p_strtoi64(no4, &endpos, 16); ok(res == 703506, "res != 703506\n"); ok(endpos == no4+strlen(no4), "Incorrect endpos (%p-%p)\n", no4, endpos); res = p_strtoi64(hex, &endpos, 16); ok(res == 291, "res != 291\n"); ok(endpos == hex+strlen(hex), "Incorrect endpos (%p-%p)\n", hex, endpos); res = p_strtoi64(oct, &endpos, 16); ok(res == 291, "res != 291\n"); ok(endpos == oct+strlen(oct), "Incorrect endpos (%p-%p)\n", oct, endpos); res = p_strtoi64(blanks, &endpos, 16); ok(res == 18, "res != 18\n"); ok(endpos == blanks+10, "Incorrect endpos (%p-%p)\n", blanks, endpos); ok(errno == 0xdeadbeef, "errno = %x\n", errno); errno = 0xdeadbeef; res = p_strtoi64(hex, &endpos, 36); ok(res == 1541019, "res != 1541019\n"); ok(endpos == hex+strlen(hex), "Incorrect endpos (%p-%p)\n", hex, endpos); ok(errno == 0xdeadbeef, "errno = %x\n", errno); errno = 0xdeadbeef; res = p_strtoi64(no1, &endpos, 0); ok(res == 31923, "res != 31923\n"); ok(endpos == no1+strlen(no1), "Incorrect endpos (%p-%p)\n", no1, endpos); res = p_strtoi64(no2, &endpos, 0); ok(res == -213312, "res != -213312\n"); ok(endpos == no2+strlen(no2), "Incorrect endpos (%p-%p)\n", no2, endpos); res = p_strtoi64(no3, &endpos, 10); ok(res == 12, "res != 12\n"); ok(endpos == no3+2, "Incorrect endpos (%p-%p)\n", no3, endpos); res = p_strtoi64(no4, &endpos, 10); ok(res == 0, "res != 0\n"); ok(endpos == no4, "Incorrect endpos (%p-%p)\n", no4, endpos); res = p_strtoi64(hex, &endpos, 10); ok(res == 0, "res != 0\n"); ok(endpos == hex+1, "Incorrect endpos (%p-%p)\n", hex, endpos); res = p_strtoi64(oct, &endpos, 10); ok(res == 123, "res != 123\n"); ok(endpos == oct+strlen(oct), "Incorrect endpos (%p-%p)\n", oct, endpos); res = p_strtoi64(blanks, &endpos, 10); ok(res == 12, "res != 12\n"); ok(endpos == blanks+10, "Incorrect endpos (%p-%p)\n", blanks, endpos); ok(errno == 0xdeadbeef, "errno = %x\n", errno); errno = 0xdeadbeef; ures = p_strtoui64(no1, &endpos, 0); ok(ures == 31923, "ures != 31923\n"); ok(endpos == no1+strlen(no1), "Incorrect endpos (%p-%p)\n", no1, endpos); ures = p_strtoui64(no2, &endpos, 0); ok(ures == -213312, "ures != -213312\n"); ok(endpos == no2+strlen(no2), "Incorrect endpos (%p-%p)\n", no2, endpos); ures = p_strtoui64(no3, &endpos, 10); ok(ures == 12, "ures != 12\n"); ok(endpos == no3+2, "Incorrect endpos (%p-%p)\n", no3, endpos); ures = p_strtoui64(no4, &endpos, 10); ok(ures == 0, "ures != 0\n"); ok(endpos == no4, "Incorrect endpos (%p-%p)\n", no4, endpos); ures = p_strtoui64(hex, &endpos, 10); ok(ures == 0, "ures != 0\n"); ok(endpos == hex+1, "Incorrect endpos (%p-%p)\n", hex, endpos); ures = p_strtoui64(oct, &endpos, 10); ok(ures == 123, "ures != 123\n"); ok(endpos == oct+strlen(oct), "Incorrect endpos (%p-%p)\n", oct, endpos); ures = p_strtoui64(blanks, &endpos, 10); ok(ures == 12, "ures != 12\n"); ok(endpos == blanks+10, "Incorrect endpos (%p-%p)\n", blanks, endpos); ok(errno == 0xdeadbeef, "errno = %x\n", errno); errno = 0xdeadbeef; ures = p_strtoui64(overflow, &endpos, 10); ok(ures == _UI64_MAX, "ures != _UI64_MAX\n"); ok(endpos == overflow+strlen(overflow), "Incorrect endpos (%p-%p)\n", overflow, endpos); ok(errno == ERANGE, "errno = %x\n", errno); errno = 0xdeadbeef; ures = p_strtoui64(neg_overflow, &endpos, 10); ok(ures == 1, "ures != 1\n"); ok(endpos == neg_overflow+strlen(neg_overflow), "Incorrect endpos (%p-%p)\n", neg_overflow, endpos); ok(errno == ERANGE, "errno = %x\n", errno); } static inline BOOL almost_equal(double d1, double d2) { if(d1-d2>-1e-30 && d1-d2<1e-30) return TRUE; return FALSE; } static void test__strtod(void) { const char double1[] = "12.1"; const char double2[] = "-13.721"; const char double3[] = "INF"; const char double4[] = ".21e12"; const char double5[] = "214353e-3"; const char overflow[] = "1d9999999999999999999"; const char white_chars[] = " d10"; char *end; double d; d = strtod(double1, &end); ok(almost_equal(d, 12.1), "d = %lf\n", d); ok(end == double1+4, "incorrect end (%d)\n", (int)(end-double1)); d = strtod(double2, &end); ok(almost_equal(d, -13.721), "d = %lf\n", d); ok(end == double2+7, "incorrect end (%d)\n", (int)(end-double2)); d = strtod(double3, &end); ok(almost_equal(d, 0), "d = %lf\n", d); ok(end == double3, "incorrect end (%d)\n", (int)(end-double3)); d = strtod(double4, &end); ok(almost_equal(d, 210000000000.0), "d = %lf\n", d); ok(end == double4+6, "incorrect end (%d)\n", (int)(end-double4)); d = strtod(double5, &end); ok(almost_equal(d, 214.353), "d = %lf\n", d); ok(end == double5+9, "incorrect end (%d)\n", (int)(end-double5)); d = strtod("12.1d2", NULL); ok(almost_equal(d, 12.1e2), "d = %lf\n", d); d = strtod(white_chars, &end); ok(almost_equal(d, 0), "d = %lf\n", d); ok(end == white_chars, "incorrect end (%d)\n", (int)(end-white_chars)); /* Set locale with non '.' decimal point (',') */ if(!setlocale(LC_ALL, "Polish")) { win_skip("system with limited locales\n"); return; } d = strtod("12.1", NULL); ok(almost_equal(d, 12.0), "d = %lf\n", d); d = strtod("12,1", NULL); ok(almost_equal(d, 12.1), "d = %lf\n", d); setlocale(LC_ALL, "C"); /* Precision tests */ d = strtod("0.1", NULL); ok(almost_equal(d, 0.1), "d = %lf\n", d); d = strtod("-0.1", NULL); ok(almost_equal(d, -0.1), "d = %lf\n", d); d = strtod("0.1281832188491894198128921", NULL); ok(almost_equal(d, 0.1281832188491894198128921), "d = %lf\n", d); d = strtod("0.82181281288121", NULL); ok(almost_equal(d, 0.82181281288121), "d = %lf\n", d); d = strtod("21921922352523587651128218821", NULL); ok(almost_equal(d, 21921922352523587651128218821.0), "d = %lf\n", d); d = strtod("0.1d238", NULL); ok(almost_equal(d, 0.1e238L), "d = %lf\n", d); d = strtod("0.1D-4736", NULL); ok(almost_equal(d, 0.1e-4736L), "d = %lf\n", d); errno = 0xdeadbeef; strtod(overflow, &end); ok(errno == ERANGE, "errno = %x\n", errno); ok(end == overflow+21, "incorrect end (%d)\n", (int)(end-overflow)); errno = 0xdeadbeef; strtod("-1d309", NULL); ok(errno == ERANGE, "errno = %x\n", errno); } static void test_mbstowcs(void) { static const wchar_t wSimple[] = { 't','e','x','t',0 }; static const wchar_t wHiragana[] = { 0x3042,0x3043,0 }; static const char mSimple[] = "text"; static const char mHiragana[] = { 0x82,0xa0,0x82,0xa1,0 }; wchar_t wOut[6]; char mOut[6]; size_t ret; int err; wOut[4] = '!'; wOut[5] = '\0'; mOut[4] = '!'; mOut[5] = '\0'; ret = mbstowcs(NULL, mSimple, 0); ok(ret == 4, "mbstowcs did not return 4\n"); ret = mbstowcs(wOut, mSimple, 4); ok(ret == 4, "mbstowcs did not return 4\n"); ok(!memcmp(wOut, wSimple, 4*sizeof(wchar_t)), "wOut = %s\n", wine_dbgstr_w(wOut)); ok(wOut[4] == '!', "wOut[4] != \'!\'\n"); ret = wcstombs(NULL, wSimple, 0); ok(ret == 4, "wcstombs did not return 4\n"); ret = wcstombs(mOut, wSimple, 6); ok(ret == 4, "wcstombs did not return 4\n"); ok(!memcmp(mOut, mSimple, 5*sizeof(char)), "mOut = %s\n", mOut); ret = wcstombs(mOut, wSimple, 2); ok(ret == 2, "wcstombs did not return 2\n"); ok(!memcmp(mOut, mSimple, 5*sizeof(char)), "mOut = %s\n", mOut); if(!setlocale(LC_ALL, "Japanese_Japan.932")) { win_skip("Japanese_Japan.932 locale not available\n"); return; } ret = mbstowcs(wOut, mHiragana, 6); ok(ret == 2, "mbstowcs did not return 2\n"); ok(!memcmp(wOut, wHiragana, sizeof(wHiragana)), "wOut = %s\n", wine_dbgstr_w(wOut)); ret = wcstombs(mOut, wHiragana, 6); ok(ret == 4, "wcstombs did not return 4\n"); ok(!memcmp(mOut, mHiragana, sizeof(mHiragana)), "mOut = %s\n", mOut); if(!pmbstowcs_s || !pwcstombs_s) { win_skip("mbstowcs_s or wcstombs_s not available\n"); return; } err = pmbstowcs_s(&ret, wOut, 6, mSimple, _TRUNCATE); ok(err == 0, "err = %d\n", err); ok(ret == 5, "ret = %d\n", (int)ret); ok(!memcmp(wOut, wSimple, sizeof(wSimple)), "wOut = %s\n", wine_dbgstr_w(wOut)); err = pmbstowcs_s(&ret, wOut, 6, mHiragana, _TRUNCATE); ok(err == 0, "err = %d\n", err); ok(ret == 3, "ret = %d\n", (int)ret); ok(!memcmp(wOut, wHiragana, sizeof(wHiragana)), "wOut = %s\n", wine_dbgstr_w(wOut)); err = pwcstombs_s(&ret, mOut, 6, wSimple, _TRUNCATE); ok(err == 0, "err = %d\n", err); ok(ret == 5, "ret = %d\n", (int)ret); ok(!memcmp(mOut, mSimple, sizeof(mSimple)), "mOut = %s\n", mOut); err = pwcstombs_s(&ret, mOut, 6, wHiragana, _TRUNCATE); ok(err == 0, "err = %d\n", err); ok(ret == 5, "ret = %d\n", (int)ret); ok(!memcmp(mOut, mHiragana, sizeof(mHiragana)), "mOut = %s\n", mOut); } static void test_gcvt(void) { char buf[1024], *res; errno_t err; if(!p_gcvt_s) { win_skip("Skipping _gcvt tests\n"); return; } errno = 0; res = _gcvt(1.2, -1, buf); ok(res == NULL, "res != NULL\n"); ok(errno == ERANGE, "errno = %d\n", errno); errno = 0; res = _gcvt(1.2, 5, NULL); ok(res == NULL, "res != NULL\n"); ok(errno == EINVAL, "errno = %d\n", errno); res = gcvt(1.2, 5, buf); ok(res == buf, "res != buf\n"); ok(!strcmp(buf, "1.2"), "buf = %s\n", buf); buf[0] = 'x'; err = p_gcvt_s(buf, 5, 1.2, 10); ok(err == ERANGE, "err = %d\n", err); ok(buf[0] == '\0', "buf[0] = %c\n", buf[0]); buf[0] = 'x'; err = p_gcvt_s(buf, 4, 123456, 2); ok(err == ERANGE, "err = %d\n", err); ok(buf[0] == '\0', "buf[0] = %c\n", buf[0]); } static void test__itoa_s(void) { errno_t ret; char buffer[33]; if (!p_itoa_s) { win_skip("Skipping _itoa_s tests\n"); return; } if (p_set_invalid_parameter_handler) ok(p_set_invalid_parameter_handler(test_invalid_parameter_handler) == NULL, "Invalid parameter handler was already set\n"); errno = EBADF; ret = p_itoa_s(0, NULL, 0, 0); ok(ret == EINVAL, "Expected _itoa_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_itoa_s(0, buffer, 0, 0); ok(ret == EINVAL, "Expected _itoa_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(buffer[0] == 'X', "Expected the output buffer to be untouched\n"); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_itoa_s(0, buffer, sizeof(buffer), 0); ok(ret == EINVAL, "Expected _itoa_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(buffer[0] == '\0', "Expected the output buffer to be null terminated\n"); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_itoa_s(0, buffer, sizeof(buffer), 64); ok(ret == EINVAL, "Expected _itoa_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(buffer[0] == '\0', "Expected the output buffer to be null terminated\n"); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_itoa_s(12345678, buffer, 4, 10); ok(ret == ERANGE, "Expected _itoa_s to return ERANGE, got %d\n", ret); ok(errno == ERANGE, "Expected errno to be ERANGE, got %d\n", errno); ok(!memcmp(buffer, "\000765", 4), "Expected the output buffer to be null terminated with truncated output\n"); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_itoa_s(12345678, buffer, 8, 10); ok(ret == ERANGE, "Expected _itoa_s to return ERANGE, got %d\n", ret); ok(errno == ERANGE, "Expected errno to be ERANGE, got %d\n", errno); ok(!memcmp(buffer, "\0007654321", 8), "Expected the output buffer to be null terminated with truncated output\n"); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_itoa_s(-12345678, buffer, 9, 10); ok(ret == ERANGE, "Expected _itoa_s to return ERANGE, got %d\n", ret); ok(errno == ERANGE, "Expected errno to be ERANGE, got %d\n", errno); ok(!memcmp(buffer, "\00087654321", 9), "Expected the output buffer to be null terminated with truncated output\n"); ret = p_itoa_s(12345678, buffer, 9, 10); ok(ret == 0, "Expected _itoa_s to return 0, got %d\n", ret); ok(!strcmp(buffer, "12345678"), "Expected output buffer string to be \"12345678\", got \"%s\"\n", buffer); ret = p_itoa_s(43690, buffer, sizeof(buffer), 2); ok(ret == 0, "Expected _itoa_s to return 0, got %d\n", ret); ok(!strcmp(buffer, "1010101010101010"), "Expected output buffer string to be \"1010101010101010\", got \"%s\"\n", buffer); ret = p_itoa_s(1092009, buffer, sizeof(buffer), 36); ok(ret == 0, "Expected _itoa_s to return 0, got %d\n", ret); ok(!strcmp(buffer, "nell"), "Expected output buffer string to be \"nell\", got \"%s\"\n", buffer); ret = p_itoa_s(5704, buffer, sizeof(buffer), 18); ok(ret == 0, "Expected _itoa_s to return 0, got %d\n", ret); ok(!strcmp(buffer, "hag"), "Expected output buffer string to be \"hag\", got \"%s\"\n", buffer); ret = p_itoa_s(-12345678, buffer, sizeof(buffer), 10); ok(ret == 0, "Expected _itoa_s to return 0, got %d\n", ret); ok(!strcmp(buffer, "-12345678"), "Expected output buffer string to be \"-12345678\", got \"%s\"\n", buffer); if (p_set_invalid_parameter_handler) ok(p_set_invalid_parameter_handler(NULL) == test_invalid_parameter_handler, "Cannot reset invalid parameter handler\n"); } static void test__strlwr_s(void) { errno_t ret; char buffer[20]; if (!p_strlwr_s) { win_skip("Skipping _strlwr_s tests\n"); return; } errno = EBADF; ret = p_strlwr_s(NULL, 0); ok(ret == EINVAL, "Expected _strlwr_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); errno = EBADF; ret = p_strlwr_s(NULL, sizeof(buffer)); ok(ret == EINVAL, "Expected _strlwr_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); errno = EBADF; ret = p_strlwr_s(buffer, 0); ok(ret == EINVAL, "Expected _strlwr_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); strcpy(buffer, "GoRrIsTeR"); errno = EBADF; ret = p_strlwr_s(buffer, 5); ok(ret == EINVAL, "Expected _strlwr_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(!memcmp(buffer, "\0oRrIsTeR", sizeof("\0oRrIsTeR")), "Expected the output buffer to be \"gorrIsTeR\"\n"); strcpy(buffer, "GoRrIsTeR"); errno = EBADF; ret = p_strlwr_s(buffer, sizeof("GoRrIsTeR") - 1); ok(ret == EINVAL, "Expected _strlwr_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(!memcmp(buffer, "\0oRrIsTeR", sizeof("\0oRrIsTeR")), "Expected the output buffer to be \"gorrIsTeR\"\n"); strcpy(buffer, "GoRrIsTeR"); ret = p_strlwr_s(buffer, sizeof("GoRrIsTeR")); ok(ret == 0, "Expected _strlwr_s to return 0, got %d\n", ret); ok(!strcmp(buffer, "gorrister"), "Expected the output buffer to be \"gorrister\", got \"%s\"\n", buffer); memcpy(buffer, "GoRrIsTeR\0ELLEN", sizeof("GoRrIsTeR\0ELLEN")); ret = p_strlwr_s(buffer, sizeof(buffer)); ok(ret == 0, "Expected _strlwr_s to return 0, got %d\n", ret); ok(!memcmp(buffer, "gorrister\0ELLEN", sizeof("gorrister\0ELLEN")), "Expected the output buffer to be \"gorrister\\0ELLEN\", got \"%s\"\n", buffer); } static void test_wcsncat_s(void) { static wchar_t abcW[] = {'a','b','c',0}; int ret; wchar_t dst[4]; wchar_t src[4]; if (!p_wcsncat_s) { win_skip("skipping wcsncat_s tests\n"); return; } if (p_set_invalid_parameter_handler) ok(p_set_invalid_parameter_handler(test_invalid_parameter_handler) == NULL, "Invalid parameter handler was already set\n"); memcpy(src, abcW, sizeof(abcW)); dst[0] = 0; ret = p_wcsncat_s(NULL, 4, src, 4); ok(ret == EINVAL, "err = %d\n", ret); ret = p_wcsncat_s(dst, 0, src, 4); ok(ret == EINVAL, "err = %d\n", ret); ret = p_wcsncat_s(dst, 0, src, _TRUNCATE); ok(ret == EINVAL, "err = %d\n", ret); ret = p_wcsncat_s(dst, 4, NULL, 0); ok(ret == 0, "err = %d\n", ret); dst[0] = 0; ret = p_wcsncat_s(dst, 2, src, 4); ok(ret == ERANGE, "err = %d\n", ret); dst[0] = 0; ret = p_wcsncat_s(dst, 2, src, _TRUNCATE); ok(ret == STRUNCATE, "err = %d\n", ret); ok(dst[0] == 'a' && dst[1] == 0, "dst is %s\n", wine_dbgstr_w(dst)); memcpy(dst, abcW, sizeof(abcW)); dst[3] = 'd'; ret = p_wcsncat_s(dst, 4, src, 4); ok(ret == EINVAL, "err = %d\n", ret); if (p_set_invalid_parameter_handler) ok(p_set_invalid_parameter_handler(NULL) == test_invalid_parameter_handler, "Cannot reset invalid parameter handler\n"); } static void test__mbsnbcat_s(void) { unsigned char dest[16]; const unsigned char first[] = "dinosaur"; const unsigned char second[] = "duck"; int ret; if (!p_mbsnbcat_s) { win_skip("Skipping _mbsnbcat_s tests\n"); return; } /* Test invalid arguments. */ ret = p_mbsnbcat_s(NULL, 0, NULL, 0); ok(ret == 0, "Expected _mbsnbcat_s to return 0, got %d\n", ret); errno = EBADF; ret = p_mbsnbcat_s(NULL, 10, NULL, 0); ok(ret == EINVAL, "Expected _mbsnbcat_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); errno = EBADF; ret = p_mbsnbcat_s(NULL, 0, NULL, 10); ok(ret == EINVAL, "Expected _mbsnbcat_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); memset(dest, 'X', sizeof(dest)); errno = EBADF; ret = p_mbsnbcat_s(dest, 0, NULL, 0); ok(ret == EINVAL, "Expected _mbsnbcat_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(dest[0] == 'X', "Expected the output buffer to be untouched\n"); memset(dest, 'X', sizeof(dest)); errno = EBADF; ret = p_mbsnbcat_s(dest, 0, second, 0); ok(ret == EINVAL, "Expected _mbsnbcat_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(dest[0] == 'X', "Expected the output buffer to be untouched\n"); memset(dest, 'X', sizeof(dest)); errno = EBADF; ret = p_mbsnbcat_s(dest, sizeof(dest), NULL, 0); ok(ret == EINVAL, "Expected _mbsnbcat_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(dest[0] == '\0', "Expected the output buffer to be null terminated\n"); memset(dest, 'X', sizeof(dest)); errno = EBADF; ret = p_mbsnbcat_s(dest, sizeof(dest), NULL, 10); ok(ret == EINVAL, "Expected _mbsnbcat_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(dest[0] == '\0', "Expected the output buffer to be null terminated\n"); memset(dest, 'X', sizeof(dest)); dest[0] = '\0'; ret = p_mbsnbcat_s(dest, sizeof(dest), second, sizeof(second)); ok(ret == 0, "Expected _mbsnbcat_s to return 0, got %d\n", ret); ok(!memcmp(dest, second, sizeof(second)), "Expected the output buffer string to be \"duck\"\n"); /* Test source truncation behavior. */ memset(dest, 'X', sizeof(dest)); memcpy(dest, first, sizeof(first)); ret = p_mbsnbcat_s(dest, sizeof(dest), second, 0); ok(ret == 0, "Expected _mbsnbcat_s to return 0, got %d\n", ret); ok(!memcmp(dest, first, sizeof(first)), "Expected the output buffer string to be \"dinosaur\"\n"); memset(dest, 'X', sizeof(dest)); memcpy(dest, first, sizeof(first)); ret = p_mbsnbcat_s(dest, sizeof(dest), second, sizeof(second)); ok(ret == 0, "Expected _mbsnbcat_s to return 0, got %d\n", ret); ok(!memcmp(dest, "dinosaurduck", sizeof("dinosaurduck")), "Expected the output buffer string to be \"dinosaurduck\"\n"); memset(dest, 'X', sizeof(dest)); memcpy(dest, first, sizeof(first)); ret = p_mbsnbcat_s(dest, sizeof(dest), second, sizeof(second) + 1); ok(ret == 0, "Expected _mbsnbcat_s to return 0, got %d\n", ret); ok(!memcmp(dest, "dinosaurduck", sizeof("dinosaurduck")), "Expected the output buffer string to be \"dinosaurduck\"\n"); memset(dest, 'X', sizeof(dest)); memcpy(dest, first, sizeof(first)); ret = p_mbsnbcat_s(dest, sizeof(dest), second, sizeof(second) - 1); ok(ret == 0, "Expected _mbsnbcat_s to return 0, got %d\n", ret); ok(!memcmp(dest, "dinosaurduck", sizeof("dinosaurduck")), "Expected the output buffer string to be \"dinosaurduck\"\n"); memset(dest, 'X', sizeof(dest)); memcpy(dest, first, sizeof(first)); ret = p_mbsnbcat_s(dest, sizeof(dest), second, sizeof(second) - 2); ok(ret == 0, "Expected _mbsnbcat_s to return 0, got %d\n", ret); ok(!memcmp(dest, "dinosaurduc", sizeof("dinosaurduc")), "Expected the output buffer string to be \"dinosaurduc\"\n"); /* Test destination truncation behavior. */ memset(dest, 'X', sizeof(dest)); memcpy(dest, first, sizeof(first)); errno = EBADF; ret = p_mbsnbcat_s(dest, sizeof(first) - 1, second, sizeof(second)); ok(ret == EINVAL, "Expected _mbsnbcat_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(!memcmp(dest, "\0inosaur", sizeof("\0inosaur") - 1), "Expected the output buffer string to be \"\\0inosaur\" without ending null terminator\n"); memset(dest, 'X', sizeof(dest)); memcpy(dest, first, sizeof(first)); errno = EBADF; ret = p_mbsnbcat_s(dest, sizeof(first), second, sizeof(second)); ok(ret == ERANGE, "Expected _mbsnbcat_s to return ERANGE, got %d\n", ret); ok(errno == ERANGE, "Expected errno to be ERANGE, got %d\n", errno); ok(!memcmp(dest, "\0inosaurd", sizeof("\0inosaurd") - 1), "Expected the output buffer string to be \"\\0inosaurd\" without ending null terminator\n"); memset(dest, 'X', sizeof(dest)); memcpy(dest, first, sizeof(first)); errno = EBADF; ret = p_mbsnbcat_s(dest, sizeof(first) + 1, second, sizeof(second)); ok(ret == ERANGE, "Expected _mbsnbcat_s to return ERANGE, got %d\n", ret); ok(errno == ERANGE, "Expected errno to be ERANGE, got %d\n", errno); ok(!memcmp(dest, "\0inosaurdu", sizeof("\0inosaurdu") - 1), "Expected the output buffer string to be \"\\0inosaurdu\" without ending null terminator\n"); } static void test__ultoa_s(void) { errno_t ret; char buffer[33]; if (!p_ultoa_s) { win_skip("Skipping _ultoa_s tests\n"); return; } errno = EBADF; ret = p_ultoa_s(0, NULL, 0, 0); ok(ret == EINVAL, "Expected _ultoa_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_ultoa_s(0, buffer, 0, 0); ok(ret == EINVAL, "Expected _ultoa_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(buffer[0] == 'X', "Expected the output buffer to be untouched\n"); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_ultoa_s(0, buffer, sizeof(buffer), 0); ok(ret == EINVAL, "Expected _ultoa_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(buffer[0] == '\0', "Expected the output buffer to be null terminated\n"); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_ultoa_s(0, buffer, sizeof(buffer), 64); ok(ret == EINVAL, "Expected _ultoa_s to return EINVAL, got %d\n", ret); ok(errno == EINVAL, "Expected errno to be EINVAL, got %d\n", errno); ok(buffer[0] == '\0', "Expected the output buffer to be null terminated\n"); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_ultoa_s(12345678, buffer, 4, 10); ok(ret == ERANGE, "Expected _ultoa_s to return ERANGE, got %d\n", ret); ok(errno == ERANGE, "Expected errno to be ERANGE, got %d\n", errno); ok(!memcmp(buffer, "\000765", 4), "Expected the output buffer to be null terminated with truncated output\n"); memset(buffer, 'X', sizeof(buffer)); errno = EBADF; ret = p_ultoa_s(12345678, buffer, 8, 10); ok(ret == ERANGE, "Expected _ultoa_s to return ERANGE, got %d\n", ret); ok(errno == ERANGE, "Expected errno to be ERANGE, got %d\n", errno); ok(!memcmp(buffer, "\0007654321", 8), "Expected the output buffer to be null terminated with truncated output\n"); ret = p_ultoa_s(12345678, buffer, 9, 10); ok(ret == 0, "Expected _ultoa_s to return 0, got %d\n", ret); ok(!strcmp(buffer, "12345678"), "Expected output buffer string to be \"12345678\", got \"%s\"\n", buffer); ret = p_ultoa_s(43690, buffer, sizeof(buffer), 2); ok(ret == 0, "Expected _ultoa_s to return 0, got %d\n", ret); ok(!strcmp(buffer, "1010101010101010"), "Expected output buffer string to be \"1010101010101010\", got \"%s\"\n", buffer); ret = p_ultoa_s(1092009, buffer, sizeof(buffer), 36); ok(ret == 0, "Expected _ultoa_s to return 0, got %d\n", ret); ok(!strcmp(buffer, "nell"), "Expected output buffer string to be \"nell\", got \"%s\"\n", buffer); ret = p_ultoa_s(5704, buffer, sizeof(buffer), 18); ok(ret == 0, "Expected _ultoa_s to return 0, got %d\n", ret); ok(!strcmp(buffer, "hag"), "Expected output buffer string to be \"hag\", got \"%s\"\n", buffer); } START_TEST(string) { char mem[100]; static const char xilstring[]="c:/xilinx"; int nLen; hMsvcrt = GetModuleHandleA("msvcrt.dll"); if (!hMsvcrt) hMsvcrt = GetModuleHandleA("msvcrtd.dll"); ok(hMsvcrt != 0, "GetModuleHandleA failed\n"); SET(pmemcpy,"memcpy"); SET(pmemcmp,"memcmp"); SET(p_mbctype,"_mbctype"); SET(p__mb_cur_max,"__mb_cur_max"); pstrcpy_s = (void *)GetProcAddress( hMsvcrt,"strcpy_s" ); pstrcat_s = (void *)GetProcAddress( hMsvcrt,"strcat_s" ); p_mbsnbcat_s = (void *)GetProcAddress( hMsvcrt,"_mbsnbcat_s" ); p_mbsnbcpy_s = (void *)GetProcAddress( hMsvcrt,"_mbsnbcpy_s" ); p_wcscpy_s = (void *)GetProcAddress( hMsvcrt,"wcscpy_s" ); p_wcsncat_s = (void *)GetProcAddress( hMsvcrt,"wcsncat_s" ); p_wcsupr_s = (void *)GetProcAddress( hMsvcrt,"_wcsupr_s" ); p_strnlen = (void *)GetProcAddress( hMsvcrt,"strnlen" ); p_strtoi64 = (void *)GetProcAddress(hMsvcrt, "_strtoi64"); p_strtoui64 = (void *)GetProcAddress(hMsvcrt, "_strtoui64"); pmbstowcs_s = (void *)GetProcAddress(hMsvcrt, "mbstowcs_s"); pwcstombs_s = (void *)GetProcAddress(hMsvcrt, "wcstombs_s"); p_gcvt_s = (void *)GetProcAddress(hMsvcrt, "_gcvt_s"); p_itoa_s = (void *)GetProcAddress(hMsvcrt, "_itoa_s"); p_strlwr_s = (void *)GetProcAddress(hMsvcrt, "_strlwr_s"); p_ultoa_s = (void *)GetProcAddress(hMsvcrt, "_ultoa_s"); p_set_invalid_parameter_handler = (void *) GetProcAddress(hMsvcrt, "_set_invalid_parameter_handler"); p_wcslwr_s = (void*)GetProcAddress(hMsvcrt, "_wcslwr_s"); /* MSVCRT memcpy behaves like memmove for overlapping moves, MFC42 CString::Insert seems to rely on that behaviour */ strcpy(mem,xilstring); nLen=strlen(xilstring); pmemcpy(mem+5, mem,nLen+1); ok(pmemcmp(mem+5,xilstring, nLen) == 0, "Got result %s\n",mem+5); /* Test _swab function */ test_swab(); /* Test ismbblead*/ test_mbcp(); /* test _mbsspn */ test_mbsspn(); test_mbsspnp(); /* test _strdup */ test_strdup(); test_strcpy_s(); test_strcat_s(); test__mbsnbcpy_s(); test_mbcjisjms(); test_mbctombb(); test_ismbclegal(); test_strtok(); test_wcscpy_s(); test__wcsupr_s(); test_strtol(); test_strnlen(); test__strtoi64(); test__strtod(); test_mbstowcs(); test_gcvt(); test__itoa_s(); test__strlwr_s(); test_wcsncat_s(); test__mbsnbcat_s(); test__ultoa_s(); test__wcslwr_s(); }