/* Unix SMB/CIFS implementation. libreplace tests Copyright (C) Jelmer Vernooij 2006 ** NOTE! The following LGPL license applies to the talloc ** library. This does NOT imply that all of Samba is released ** under the LGPL 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 3 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, see . */ #include "replace.h" /* we include all the system/ include files here so that libreplace tests them in the build farm */ #include "system/capability.h" #include "system/dir.h" #include "system/filesys.h" #include "system/glob.h" #include "system/iconv.h" #include "system/locale.h" #include "system/network.h" #include "system/passwd.h" #include "system/readline.h" #include "system/select.h" #include "system/shmem.h" #include "system/syslog.h" #include "system/terminal.h" #include "system/time.h" #include "system/wait.h" #include "system/aio.h" #define TESTFILE "testfile.dat" /* test ftruncate() function */ static int test_ftruncate(void) { struct stat st; int fd; const int size = 1234; printf("test: ftruncate\n"); unlink(TESTFILE); fd = open(TESTFILE, O_RDWR|O_CREAT, 0600); if (fd == -1) { printf("failure: ftruncate [\n" "creating '%s' failed - %s\n]\n", TESTFILE, strerror(errno)); return false; } if (ftruncate(fd, size) != 0) { printf("failure: ftruncate [\n%s\n]\n", strerror(errno)); return false; } if (fstat(fd, &st) != 0) { printf("failure: ftruncate [\nfstat failed - %s\n]\n", strerror(errno)); return false; } if (st.st_size != size) { printf("failure: ftruncate [\ngave wrong size %d - expected %d\n]\n", (int)st.st_size, size); return false; } unlink(TESTFILE); printf("success: ftruncate\n"); return true; } /* test strlcpy() function. see http://www.gratisoft.us/todd/papers/strlcpy.html */ static int test_strlcpy(void) { char buf[4]; const struct { const char *src; size_t result; } tests[] = { { "abc", 3 }, { "abcdef", 6 }, { "abcd", 4 }, { "", 0 }, { NULL, 0 } }; int i; printf("test: strlcpy\n"); for (i=0;tests[i].src;i++) { if (strlcpy(buf, tests[i].src, sizeof(buf)) != tests[i].result) { printf("failure: strlcpy [\ntest %d failed\n]\n", i); return false; } } printf("success: strlcpy\n"); return true; } static int test_strlcat(void) { char tmp[10]; printf("test: strlcat\n"); strlcpy(tmp, "", sizeof(tmp)); if (strlcat(tmp, "bla", 3) != 3) { printf("failure: strlcat [\ninvalid return code\n]\n"); return false; } if (strcmp(tmp, "bl") != 0) { printf("failure: strlcat [\nexpected \"bl\", got \"%s\"\n]\n", tmp); return false; } strlcpy(tmp, "da", sizeof(tmp)); if (strlcat(tmp, "me", 4) != 4) { printf("failure: strlcat [\nexpected \"dam\", got \"%s\"\n]\n", tmp); return false; } printf("success: strlcat\n"); return true; } static int test_mktime(void) { /* FIXME */ return true; } static int test_initgroups(void) { /* FIXME */ return true; } static int test_memmove(void) { /* FIXME */ return true; } static int test_strdup(void) { char *x; printf("test: strdup\n"); x = strdup("bla"); if (strcmp("bla", x) != 0) { printf("failure: strdup [\nfailed: expected \"bla\", got \"%s\"\n]\n", x); return false; } free(x); printf("success: strdup\n"); return true; } static int test_setlinebuf(void) { printf("test: setlinebuf\n"); setlinebuf(stdout); printf("success: setlinebuf\n"); return true; } static int test_vsyslog(void) { /* FIXME */ return true; } static int test_timegm(void) { /* FIXME */ return true; } static int test_setenv(void) { #define TEST_SETENV(key, value, overwrite, result) do { \ int _ret; \ char *_v; \ _ret = setenv(key, value, overwrite); \ if (_ret != 0) { \ printf("failure: setenv [\n" \ "setenv(%s, %s, %d) failed\n" \ "]\n", \ key, value, overwrite); \ return false; \ } \ _v=getenv(key); \ if (!_v) { \ printf("failure: setenv [\n" \ "getenv(%s) returned NULL\n" \ "]\n", \ key); \ return false; \ } \ if (strcmp(result, _v) != 0) { \ printf("failure: setenv [\n" \ "getenv(%s): '%s' != '%s'\n" \ "]\n", \ key, result, _v); \ return false; \ } \ } while(0) #define TEST_UNSETENV(key) do { \ char *_v; \ unsetenv(key); \ _v=getenv(key); \ if (_v) { \ printf("failure: setenv [\n" \ "getenv(%s): NULL != '%s'\n" \ "]\n", \ SETENVTEST_KEY, _v); \ return false; \ } \ } while (0) #define SETENVTEST_KEY "SETENVTESTKEY" #define SETENVTEST_VAL "SETENVTESTVAL" printf("test: setenv\n"); TEST_SETENV(SETENVTEST_KEY, SETENVTEST_VAL"1", 0, SETENVTEST_VAL"1"); TEST_SETENV(SETENVTEST_KEY, SETENVTEST_VAL"2", 0, SETENVTEST_VAL"1"); TEST_SETENV(SETENVTEST_KEY, SETENVTEST_VAL"3", 1, SETENVTEST_VAL"3"); TEST_SETENV(SETENVTEST_KEY, SETENVTEST_VAL"4", 1, SETENVTEST_VAL"4"); TEST_UNSETENV(SETENVTEST_KEY); TEST_UNSETENV(SETENVTEST_KEY); TEST_SETENV(SETENVTEST_KEY, SETENVTEST_VAL"5", 0, SETENVTEST_VAL"5"); TEST_UNSETENV(SETENVTEST_KEY); TEST_UNSETENV(SETENVTEST_KEY); printf("success: setenv\n"); return true; } static int test_strndup(void) { char *x; printf("test: strndup\n"); x = strndup("bla", 0); if (strcmp(x, "") != 0) { printf("failure: strndup [\ninvalid\n]\n"); return false; } free(x); x = strndup("bla", 2); if (strcmp(x, "bl") != 0) { printf("failure: strndup [\ninvalid\n]\n"); return false; } free(x); x = strndup("bla", 10); if (strcmp(x, "bla") != 0) { printf("failure: strndup [\ninvalid\n]\n"); return false; } free(x); printf("success: strndup\n"); return true; } static int test_strnlen(void) { printf("test: strnlen\n"); if (strnlen("bla", 2) != 2) { printf("failure: strnlen [\nunexpected length\n]\n"); return false; } if (strnlen("some text\n", 0) != 0) { printf("failure: strnlen [\nunexpected length\n]\n"); return false; } if (strnlen("some text", 20) != 9) { printf("failure: strnlen [\nunexpected length\n]\n"); return false; } printf("success: strnlen\n"); return true; } static int test_waitpid(void) { /* FIXME */ return true; } static int test_seteuid(void) { /* FIXME */ return true; } static int test_setegid(void) { /* FIXME */ return true; } static int test_asprintf(void) { char *x; printf("test: asprintf\n"); if (asprintf(&x, "%d", 9) != 1) { printf("failure: asprintf [\ngenerate asprintf\n]\n"); return false; } if (strcmp(x, "9") != 0) { printf("failure: asprintf [\ngenerate asprintf\n]\n"); return false; } if (asprintf(&x, "dat%s", "a") != 4) { printf("failure: asprintf [\ngenerate asprintf\n]\n"); return false; } if (strcmp(x, "data") != 0) { printf("failure: asprintf [\ngenerate asprintf\n]\n"); return false; } printf("success: asprintf\n"); return true; } static int test_snprintf(void) { char tmp[10]; printf("test: snprintf\n"); if (snprintf(tmp, 3, "foo%d", 9) != 4) { printf("failure: snprintf [\nsnprintf return code failed\n]\n"); return false; } if (strcmp(tmp, "fo") != 0) { printf("failure: snprintf [\nsnprintf failed\n]\n"); return false; } printf("success: snprintf\n"); return true; } static int test_vasprintf(void) { /* FIXME */ return true; } static int test_vsnprintf(void) { /* FIXME */ return true; } static int test_opendir(void) { /* FIXME */ return true; } extern int test_readdir_os2_delete(void); static int test_readdir(void) { printf("test: readdir\n"); if (test_readdir_os2_delete() != 0) { return false; } printf("success: readdir\n"); return true; } static int test_telldir(void) { /* FIXME */ return true; } static int test_seekdir(void) { /* FIXME */ return true; } static int test_dlopen(void) { /* FIXME: test dlopen, dlsym, dlclose, dlerror */ return true; } static int test_chroot(void) { /* FIXME: chroot() */ return true; } static int test_bzero(void) { /* FIXME: bzero */ return true; } static int test_strerror(void) { /* FIXME */ return true; } static int test_errno(void) { printf("test: errno\n"); errno = 3; if (errno != 3) { printf("failure: errno [\nerrno failed\n]\n"); return false; } printf("success: errno\n"); return true; } static int test_mkdtemp(void) { /* FIXME */ return true; } static int test_mkstemp(void) { /* FIXME */ return true; } static int test_pread(void) { /* FIXME */ return true; } static int test_pwrite(void) { /* FIXME */ return true; } static int test_getpass(void) { /* FIXME */ return true; } static int test_inet_ntoa(void) { /* FIXME */ return true; } #define TEST_STRTO_X(type,fmt,func,str,base,res,diff,rrnoo) do {\ type _v; \ char _s[64]; \ char *_p = NULL;\ char *_ep = NULL; \ strlcpy(_s, str, sizeof(_s));\ if (diff >= 0) { \ _ep = &_s[diff]; \ } \ errno = 0; \ _v = func(_s, &_p, base); \ if (errno != rrnoo) { \ printf("failure: %s [\n" \ "\t%s\n" \ "\t%s(\"%s\",%d,%d): " fmt " (=/!)= " fmt "\n" \ "\terrno: %d != %d\n" \ "]\n", \ __STRING(func), __location__, __STRING(func), \ str, diff, base, res, _v, rrnoo, errno); \ return false; \ } else if (_v != res) { \ printf("failure: %s [\n" \ "\t%s\n" \ "\t%s(\"%s\",%d,%d): " fmt " != " fmt "\n" \ "]\n", \ __STRING(func), __location__, __STRING(func), \ str, diff, base, res, _v); \ return false; \ } else if (_p != _ep) { \ printf("failure: %s [\n" \ "\t%s\n" \ "\t%s(\"%s\",%d,%d): " fmt " (=/!)= " fmt "\n" \ "\tptr: %p - %p = %d != %d\n" \ "]\n", \ __STRING(func), __location__, __STRING(func), \ str, diff, base, res, _v, _ep, _p, (int)(diff - (_ep - _p)), diff); \ return false; \ } \ } while (0) static int test_strtoll(void) { printf("test: strtoll\n"); #define TEST_STRTOLL(str,base,res,diff,errnoo) TEST_STRTO_X(long long int, "%lld", strtoll,str,base,res,diff,errnoo) TEST_STRTOLL("15", 10, 15LL, 2, 0); TEST_STRTOLL(" 15", 10, 15LL, 4, 0); TEST_STRTOLL("15", 0, 15LL, 2, 0); TEST_STRTOLL(" 15 ", 0, 15LL, 3, 0); TEST_STRTOLL("+15", 10, 15LL, 3, 0); TEST_STRTOLL(" +15", 10, 15LL, 5, 0); TEST_STRTOLL("+15", 0, 15LL, 3, 0); TEST_STRTOLL(" +15 ", 0, 15LL, 4, 0); TEST_STRTOLL("-15", 10, -15LL, 3, 0); TEST_STRTOLL(" -15", 10, -15LL, 5, 0); TEST_STRTOLL("-15", 0, -15LL, 3, 0); TEST_STRTOLL(" -15 ", 0, -15LL, 4, 0); TEST_STRTOLL("015", 10, 15LL, 3, 0); TEST_STRTOLL(" 015", 10, 15LL, 5, 0); TEST_STRTOLL("015", 0, 13LL, 3, 0); TEST_STRTOLL(" 015", 0, 13LL, 5, 0); TEST_STRTOLL("0x15", 10, 0LL, 1, 0); TEST_STRTOLL(" 0x15", 10, 0LL, 3, 0); TEST_STRTOLL("0x15", 0, 21LL, 4, 0); TEST_STRTOLL(" 0x15", 0, 21LL, 6, 0); TEST_STRTOLL("10", 16, 16LL, 2, 0); TEST_STRTOLL(" 10 ", 16, 16LL, 4, 0); TEST_STRTOLL("0x10", 16, 16LL, 4, 0); TEST_STRTOLL("0x10", 0, 16LL, 4, 0); TEST_STRTOLL(" 0x10 ", 0, 16LL, 5, 0); TEST_STRTOLL("+10", 16, 16LL, 3, 0); TEST_STRTOLL(" +10 ", 16, 16LL, 5, 0); TEST_STRTOLL("+0x10", 16, 16LL, 5, 0); TEST_STRTOLL("+0x10", 0, 16LL, 5, 0); TEST_STRTOLL(" +0x10 ", 0, 16LL, 6, 0); TEST_STRTOLL("-10", 16, -16LL, 3, 0); TEST_STRTOLL(" -10 ", 16, -16LL, 5, 0); TEST_STRTOLL("-0x10", 16, -16LL, 5, 0); TEST_STRTOLL("-0x10", 0, -16LL, 5, 0); TEST_STRTOLL(" -0x10 ", 0, -16LL, 6, 0); TEST_STRTOLL("010", 16, 16LL, 3, 0); TEST_STRTOLL(" 010 ", 16, 16LL, 5, 0); TEST_STRTOLL("-010", 16, -16LL, 4, 0); TEST_STRTOLL("11", 8, 9LL, 2, 0); TEST_STRTOLL("011", 8, 9LL, 3, 0); TEST_STRTOLL("011", 0, 9LL, 3, 0); TEST_STRTOLL("-11", 8, -9LL, 3, 0); TEST_STRTOLL("-011", 8, -9LL, 4, 0); TEST_STRTOLL("-011", 0, -9LL, 4, 0); TEST_STRTOLL("011", 8, 9LL, 3, 0); TEST_STRTOLL("011", 0, 9LL, 3, 0); TEST_STRTOLL("-11", 8, -9LL, 3, 0); TEST_STRTOLL("-011", 8, -9LL, 4, 0); TEST_STRTOLL("-011", 0, -9LL, 4, 0); TEST_STRTOLL("Text", 0, 0LL, 0, 0); TEST_STRTOLL("9223372036854775807", 10, 9223372036854775807LL, 19, 0); TEST_STRTOLL("9223372036854775807", 0, 9223372036854775807LL, 19, 0); TEST_STRTOLL("9223372036854775808", 0, 9223372036854775807LL, 19, ERANGE); TEST_STRTOLL("9223372036854775808", 10, 9223372036854775807LL, 19, ERANGE); TEST_STRTOLL("0x7FFFFFFFFFFFFFFF", 0, 9223372036854775807LL, 18, 0); TEST_STRTOLL("0x7FFFFFFFFFFFFFFF", 16, 9223372036854775807LL, 18, 0); TEST_STRTOLL("7FFFFFFFFFFFFFFF", 16, 9223372036854775807LL, 16, 0); TEST_STRTOLL("0x8000000000000000", 0, 9223372036854775807LL, 18, ERANGE); TEST_STRTOLL("0x8000000000000000", 16, 9223372036854775807LL, 18, ERANGE); TEST_STRTOLL("80000000000000000", 16, 9223372036854775807LL, 17, ERANGE); TEST_STRTOLL("0777777777777777777777", 0, 9223372036854775807LL, 22, 0); TEST_STRTOLL("0777777777777777777777", 8, 9223372036854775807LL, 22, 0); TEST_STRTOLL("777777777777777777777", 8, 9223372036854775807LL, 21, 0); TEST_STRTOLL("01000000000000000000000", 0, 9223372036854775807LL, 23, ERANGE); TEST_STRTOLL("01000000000000000000000", 8, 9223372036854775807LL, 23, ERANGE); TEST_STRTOLL("1000000000000000000000", 8, 9223372036854775807LL, 22, ERANGE); TEST_STRTOLL("-9223372036854775808", 10, -9223372036854775807LL -1, 20, 0); TEST_STRTOLL("-9223372036854775808", 0, -9223372036854775807LL -1, 20, 0); TEST_STRTOLL("-9223372036854775809", 0, -9223372036854775807LL -1, 20, ERANGE); TEST_STRTOLL("-9223372036854775809", 10, -9223372036854775807LL -1, 20, ERANGE); TEST_STRTOLL("-0x8000000000000000", 0, -9223372036854775807LL -1, 19, 0); TEST_STRTOLL("-0x8000000000000000", 16, -9223372036854775807LL -1, 19, 0); TEST_STRTOLL("-8000000000000000", 16, -9223372036854775807LL -1, 17, 0); TEST_STRTOLL("-0x8000000000000001", 0, -9223372036854775807LL -1, 19, ERANGE); TEST_STRTOLL("-0x8000000000000001", 16, -9223372036854775807LL -1, 19, ERANGE); TEST_STRTOLL("-80000000000000001", 16, -9223372036854775807LL -1, 18, ERANGE); TEST_STRTOLL("-01000000000000000000000",0, -9223372036854775807LL -1, 24, 0); TEST_STRTOLL("-01000000000000000000000",8, -9223372036854775807LL -1, 24, 0); TEST_STRTOLL("-1000000000000000000000", 8, -9223372036854775807LL -1, 23, 0); TEST_STRTOLL("-01000000000000000000001",0, -9223372036854775807LL -1, 24, ERANGE); TEST_STRTOLL("-01000000000000000000001",8, -9223372036854775807LL -1, 24, ERANGE); TEST_STRTOLL("-1000000000000000000001", 8, -9223372036854775807LL -1, 23, ERANGE); printf("success: strtoll\n"); return true; } static int test_strtoull(void) { printf("test: strtoull\n"); #define TEST_STRTOULL(str,base,res,diff,errnoo) TEST_STRTO_X(long long unsigned int,"%llu",strtoull,str,base,res,diff,errnoo) TEST_STRTOULL("15", 10, 15LLU, 2, 0); TEST_STRTOULL(" 15", 10, 15LLU, 4, 0); TEST_STRTOULL("15", 0, 15LLU, 2, 0); TEST_STRTOULL(" 15 ", 0, 15LLU, 3, 0); TEST_STRTOULL("+15", 10, 15LLU, 3, 0); TEST_STRTOULL(" +15", 10, 15LLU, 5, 0); TEST_STRTOULL("+15", 0, 15LLU, 3, 0); TEST_STRTOULL(" +15 ", 0, 15LLU, 4, 0); TEST_STRTOULL("-15", 10, 18446744073709551601LLU, 3, 0); TEST_STRTOULL(" -15", 10, 18446744073709551601LLU, 5, 0); TEST_STRTOULL("-15", 0, 18446744073709551601LLU, 3, 0); TEST_STRTOULL(" -15 ", 0, 18446744073709551601LLU, 4, 0); TEST_STRTOULL("015", 10, 15LLU, 3, 0); TEST_STRTOULL(" 015", 10, 15LLU, 5, 0); TEST_STRTOULL("015", 0, 13LLU, 3, 0); TEST_STRTOULL(" 015", 0, 13LLU, 5, 0); TEST_STRTOULL("0x15", 10, 0LLU, 1, 0); TEST_STRTOULL(" 0x15", 10, 0LLU, 3, 0); TEST_STRTOULL("0x15", 0, 21LLU, 4, 0); TEST_STRTOULL(" 0x15", 0, 21LLU, 6, 0); TEST_STRTOULL("10", 16, 16LLU, 2, 0); TEST_STRTOULL(" 10 ", 16, 16LLU, 4, 0); TEST_STRTOULL("0x10", 16, 16LLU, 4, 0); TEST_STRTOULL("0x10", 0, 16LLU, 4, 0); TEST_STRTOULL(" 0x10 ", 0, 16LLU, 5, 0); TEST_STRTOULL("+10", 16, 16LLU, 3, 0); TEST_STRTOULL(" +10 ", 16, 16LLU, 5, 0); TEST_STRTOULL("+0x10", 16, 16LLU, 5, 0); TEST_STRTOULL("+0x10", 0, 16LLU, 5, 0); TEST_STRTOULL(" +0x10 ", 0, 16LLU, 6, 0); TEST_STRTOULL("-10", 16, -16LLU, 3, 0); TEST_STRTOULL(" -10 ", 16, -16LLU, 5, 0); TEST_STRTOULL("-0x10", 16, -16LLU, 5, 0); TEST_STRTOULL("-0x10", 0, -16LLU, 5, 0); TEST_STRTOULL(" -0x10 ", 0, -16LLU, 6, 0); TEST_STRTOULL("010", 16, 16LLU, 3, 0); TEST_STRTOULL(" 010 ", 16, 16LLU, 5, 0); TEST_STRTOULL("-010", 16, -16LLU, 4, 0); TEST_STRTOULL("11", 8, 9LLU, 2, 0); TEST_STRTOULL("011", 8, 9LLU, 3, 0); TEST_STRTOULL("011", 0, 9LLU, 3, 0); TEST_STRTOULL("-11", 8, -9LLU, 3, 0); TEST_STRTOULL("-011", 8, -9LLU, 4, 0); TEST_STRTOULL("-011", 0, -9LLU, 4, 0); TEST_STRTOULL("011", 8, 9LLU, 3, 0); TEST_STRTOULL("011", 0, 9LLU, 3, 0); TEST_STRTOULL("-11", 8, -9LLU, 3, 0); TEST_STRTOULL("-011", 8, -9LLU, 4, 0); TEST_STRTOULL("-011", 0, -9LLU, 4, 0); TEST_STRTOULL("Text", 0, 0LLU, 0, 0); TEST_STRTOULL("9223372036854775807", 10, 9223372036854775807LLU, 19, 0); TEST_STRTOULL("9223372036854775807", 0, 9223372036854775807LLU, 19, 0); TEST_STRTOULL("9223372036854775808", 0, 9223372036854775808LLU, 19, 0); TEST_STRTOULL("9223372036854775808", 10, 9223372036854775808LLU, 19, 0); TEST_STRTOULL("0x7FFFFFFFFFFFFFFF", 0, 9223372036854775807LLU, 18, 0); TEST_STRTOULL("0x7FFFFFFFFFFFFFFF", 16, 9223372036854775807LLU, 18, 0); TEST_STRTOULL("7FFFFFFFFFFFFFFF", 16, 9223372036854775807LLU, 16, 0); TEST_STRTOULL("0x8000000000000000", 0, 9223372036854775808LLU, 18, 0); TEST_STRTOULL("0x8000000000000000", 16, 9223372036854775808LLU, 18, 0); TEST_STRTOULL("8000000000000000", 16, 9223372036854775808LLU, 16, 0); TEST_STRTOULL("0777777777777777777777", 0, 9223372036854775807LLU, 22, 0); TEST_STRTOULL("0777777777777777777777", 8, 9223372036854775807LLU, 22, 0); TEST_STRTOULL("777777777777777777777", 8, 9223372036854775807LLU, 21, 0); TEST_STRTOULL("01000000000000000000000",0, 9223372036854775808LLU, 23, 0); TEST_STRTOULL("01000000000000000000000",8, 9223372036854775808LLU, 23, 0); TEST_STRTOULL("1000000000000000000000", 8, 9223372036854775808LLU, 22, 0); TEST_STRTOULL("-9223372036854775808", 10, 9223372036854775808LLU, 20, 0); TEST_STRTOULL("-9223372036854775808", 0, 9223372036854775808LLU, 20, 0); TEST_STRTOULL("-9223372036854775809", 0, 9223372036854775807LLU, 20, 0); TEST_STRTOULL("-9223372036854775809", 10, 9223372036854775807LLU, 20, 0); TEST_STRTOULL("-0x8000000000000000", 0, 9223372036854775808LLU, 19, 0); TEST_STRTOULL("-0x8000000000000000", 16, 9223372036854775808LLU, 19, 0); TEST_STRTOULL("-8000000000000000", 16, 9223372036854775808LLU, 17, 0); TEST_STRTOULL("-0x8000000000000001", 0, 9223372036854775807LLU, 19, 0); TEST_STRTOULL("-0x8000000000000001", 16, 9223372036854775807LLU, 19, 0); TEST_STRTOULL("-8000000000000001", 16, 9223372036854775807LLU, 17, 0); TEST_STRTOULL("-01000000000000000000000",0, 9223372036854775808LLU, 24, 0); TEST_STRTOULL("-01000000000000000000000",8, 9223372036854775808LLU, 24, 0); TEST_STRTOULL("-1000000000000000000000",8, 9223372036854775808LLU, 23, 0); TEST_STRTOULL("-01000000000000000000001",0, 9223372036854775807LLU, 24, 0); TEST_STRTOULL("-01000000000000000000001",8, 9223372036854775807LLU, 24, 0); TEST_STRTOULL("-1000000000000000000001",8, 9223372036854775807LLU, 23, 0); TEST_STRTOULL("18446744073709551615", 0, 18446744073709551615LLU, 20, 0); TEST_STRTOULL("18446744073709551615", 10, 18446744073709551615LLU, 20, 0); TEST_STRTOULL("18446744073709551616", 0, 18446744073709551615LLU, 20, ERANGE); TEST_STRTOULL("18446744073709551616", 10, 18446744073709551615LLU, 20, ERANGE); TEST_STRTOULL("0xFFFFFFFFFFFFFFFF", 0, 18446744073709551615LLU, 18, 0); TEST_STRTOULL("0xFFFFFFFFFFFFFFFF", 16, 18446744073709551615LLU, 18, 0); TEST_STRTOULL("FFFFFFFFFFFFFFFF", 16, 18446744073709551615LLU, 16, 0); TEST_STRTOULL("0x10000000000000000", 0, 18446744073709551615LLU, 19, ERANGE); TEST_STRTOULL("0x10000000000000000", 16, 18446744073709551615LLU, 19, ERANGE); TEST_STRTOULL("10000000000000000", 16, 18446744073709551615LLU, 17, ERANGE); TEST_STRTOULL("01777777777777777777777",0, 18446744073709551615LLU, 23, 0); TEST_STRTOULL("01777777777777777777777",8, 18446744073709551615LLU, 23, 0); TEST_STRTOULL("1777777777777777777777", 8, 18446744073709551615LLU, 22, 0); TEST_STRTOULL("02000000000000000000000",0, 18446744073709551615LLU, 23, ERANGE); TEST_STRTOULL("02000000000000000000000",8, 18446744073709551615LLU, 23, ERANGE); TEST_STRTOULL("2000000000000000000000", 8, 18446744073709551615LLU, 22, ERANGE); TEST_STRTOULL("-18446744073709551615", 0, 1LLU, 21, 0); TEST_STRTOULL("-18446744073709551615", 10, 1LLU, 21, 0); TEST_STRTOULL("-18446744073709551616", 0, 18446744073709551615LLU, 21, ERANGE); TEST_STRTOULL("-18446744073709551616", 10, 18446744073709551615LLU, 21, ERANGE); TEST_STRTOULL("-0xFFFFFFFFFFFFFFFF", 0, 1LLU, 19, 0); TEST_STRTOULL("-0xFFFFFFFFFFFFFFFF", 16, 1LLU, 19, 0); TEST_STRTOULL("-FFFFFFFFFFFFFFFF", 16, 1LLU, 17, 0); TEST_STRTOULL("-0x10000000000000000", 0, 18446744073709551615LLU, 20, ERANGE); TEST_STRTOULL("-0x10000000000000000", 16, 18446744073709551615LLU, 20, ERANGE); TEST_STRTOULL("-10000000000000000", 16, 18446744073709551615LLU, 18, ERANGE); TEST_STRTOULL("-01777777777777777777777",0, 1LLU, 24, 0); TEST_STRTOULL("-01777777777777777777777",8, 1LLU, 24, 0); TEST_STRTOULL("-1777777777777777777777",8, 1LLU, 23, 0); TEST_STRTOULL("-02000000000000000000000",0, 18446744073709551615LLU, 24, ERANGE); TEST_STRTOULL("-02000000000000000000000",8, 18446744073709551615LLU, 24, ERANGE); TEST_STRTOULL("-2000000000000000000000",8, 18446744073709551615LLU, 23, ERANGE); printf("success: strtoull\n"); return true; } /* FIXME: Types: bool socklen_t uint_t uint{8,16,32,64}_t int{8,16,32,64}_t intptr_t Constants: PATH_NAME_MAX UINT{16,32,64}_MAX INT32_MAX */ static int test_va_copy(void) { /* FIXME */ return true; } static int test_FUNCTION(void) { printf("test: FUNCTION\n"); if (strcmp(__FUNCTION__, "test_FUNCTION") != 0) { printf("failure: FAILURE [\nFAILURE invalid\n]\n"); return false; } printf("success: FUNCTION\n"); return true; } static int test_MIN(void) { printf("test: MIN\n"); if (MIN(20, 1) != 1) { printf("failure: MIN [\nMIN invalid\n]\n"); return false; } if (MIN(1, 20) != 1) { printf("failure: MIN [\nMIN invalid\n]\n"); return false; } printf("success: MIN\n"); return true; } static int test_MAX(void) { printf("test: MAX\n"); if (MAX(20, 1) != 20) { printf("failure: MAX [\nMAX invalid\n]\n"); return false; } if (MAX(1, 20) != 20) { printf("failure: MAX [\nMAX invalid\n]\n"); return false; } printf("success: MAX\n"); return true; } static int test_socketpair(void) { int sock[2]; char buf[20]; printf("test: socketpair\n"); if (socketpair(AF_UNIX, SOCK_STREAM, 0, sock) == -1) { printf("failure: socketpair [\n" "socketpair() failed\n" "]\n"); return false; } if (write(sock[1], "automatisch", 12) == -1) { printf("failure: socketpair [\n" "write() failed: %s\n" "]\n", strerror(errno)); return false; } if (read(sock[0], buf, 12) == -1) { printf("failure: socketpair [\n" "read() failed: %s\n" "]\n", strerror(errno)); return false; } if (strcmp(buf, "automatisch") != 0) { printf("failure: socketpair [\n" "expected: automatisch, got: %s\n" "]\n", buf); return false; } printf("success: socketpair\n"); return true; } extern int libreplace_test_strptime(void); static int test_strptime(void) { return libreplace_test_strptime(); } extern int getifaddrs_test(void); static int test_getifaddrs(void) { printf("test: getifaddrs\n"); if (getifaddrs_test() != 0) { printf("failure: getifaddrs\n"); return false; } printf("success: getifaddrs\n"); return true; } static int test_utime(void) { struct utimbuf u; struct stat st1, st2, st3; int fd; printf("test: utime\n"); unlink(TESTFILE); fd = open(TESTFILE, O_RDWR|O_CREAT, 0600); if (fd == -1) { printf("failure: utime [\n" "creating '%s' failed - %s\n]\n", TESTFILE, strerror(errno)); return false; } if (fstat(fd, &st1) != 0) { printf("failure: utime [\n" "fstat (1) failed - %s\n]\n", strerror(errno)); return false; } u.actime = st1.st_atime + 300; u.modtime = st1.st_mtime - 300; if (utime(TESTFILE, &u) != 0) { printf("failure: utime [\n" "utime(&u) failed - %s\n]\n", strerror(errno)); return false; } if (fstat(fd, &st2) != 0) { printf("failure: utime [\n" "fstat (2) failed - %s\n]\n", strerror(errno)); return false; } if (utime(TESTFILE, NULL) != 0) { printf("failure: utime [\n" "utime(NULL) failed - %s\n]\n", strerror(errno)); return false; } if (fstat(fd, &st3) != 0) { printf("failure: utime [\n" "fstat (3) failed - %s\n]\n", strerror(errno)); return false; } #define CMP_VAL(a,c,b) do { \ if (a c b) { \ printf("failure: utime [\n" \ "%s: %s(%d) %s %s(%d)\n]\n", \ __location__, \ #a, (int)a, #c, #b, (int)b); \ return false; \ } \ } while(0) #define EQUAL_VAL(a,b) CMP_VAL(a,!=,b) #define GREATER_VAL(a,b) CMP_VAL(a,<=,b) #define LESSER_VAL(a,b) CMP_VAL(a,>=,b) EQUAL_VAL(st2.st_atime, st1.st_atime + 300); EQUAL_VAL(st2.st_mtime, st1.st_mtime - 300); LESSER_VAL(st3.st_atime, st2.st_atime); GREATER_VAL(st3.st_mtime, st2.st_mtime); #undef CMP_VAL #undef EQUAL_VAL #undef GREATER_VAL #undef LESSER_VAL unlink(TESTFILE); printf("success: utime\n"); return true; } static int test_utimes(void) { struct timeval tv[2]; struct stat st1, st2; int fd; printf("test: utimes\n"); unlink(TESTFILE); fd = open(TESTFILE, O_RDWR|O_CREAT, 0600); if (fd == -1) { printf("failure: utimes [\n" "creating '%s' failed - %s\n]\n", TESTFILE, strerror(errno)); return false; } if (fstat(fd, &st1) != 0) { printf("failure: utimes [\n" "fstat (1) failed - %s\n]\n", strerror(errno)); return false; } ZERO_STRUCT(tv); tv[0].tv_sec = st1.st_atime + 300; tv[1].tv_sec = st1.st_mtime - 300; if (utimes(TESTFILE, tv) != 0) { printf("failure: utimes [\n" "utimes(tv) failed - %s\n]\n", strerror(errno)); return false; } if (fstat(fd, &st2) != 0) { printf("failure: utimes [\n" "fstat (2) failed - %s\n]\n", strerror(errno)); return false; } #define EQUAL_VAL(a,b) do { \ if (a != b) { \ printf("failure: utimes [\n" \ "%s: %s(%d) != %s(%d)\n]\n", \ __location__, \ #a, (int)a, #b, (int)b); \ return false; \ } \ } while(0) EQUAL_VAL(st2.st_atime, st1.st_atime + 300); EQUAL_VAL(st2.st_mtime, st1.st_mtime - 300); #undef EQUAL_VAL unlink(TESTFILE); printf("success: utimes\n"); return true; } struct torture_context; bool torture_local_replace(struct torture_context *ctx) { bool ret = true; ret &= test_ftruncate(); ret &= test_strlcpy(); ret &= test_strlcat(); ret &= test_mktime(); ret &= test_initgroups(); ret &= test_memmove(); ret &= test_strdup(); ret &= test_setlinebuf(); ret &= test_vsyslog(); ret &= test_timegm(); ret &= test_setenv(); ret &= test_strndup(); ret &= test_strnlen(); ret &= test_waitpid(); ret &= test_seteuid(); ret &= test_setegid(); ret &= test_asprintf(); ret &= test_snprintf(); ret &= test_vasprintf(); ret &= test_vsnprintf(); ret &= test_opendir(); ret &= test_readdir(); ret &= test_telldir(); ret &= test_seekdir(); ret &= test_dlopen(); ret &= test_chroot(); ret &= test_bzero(); ret &= test_strerror(); ret &= test_errno(); ret &= test_mkdtemp(); ret &= test_mkstemp(); ret &= test_pread(); ret &= test_pwrite(); ret &= test_getpass(); ret &= test_inet_ntoa(); ret &= test_strtoll(); ret &= test_strtoull(); ret &= test_va_copy(); ret &= test_FUNCTION(); ret &= test_MIN(); ret &= test_MAX(); ret &= test_socketpair(); ret &= test_strptime(); ret &= test_getifaddrs(); ret &= test_utime(); ret &= test_utimes(); return ret; } #if _SAMBA_BUILD_>3 #else int main(void) { bool ret = torture_local_replace(NULL); if (ret) return 0; return -1; } #endif