/* * Copyright (c) 2003-2009 Tim Kientzle * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR(S) BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "test.h" #include "test_utils.h" #ifdef HAVE_SYS_IOCTL_H #include #endif #ifdef HAVE_SYS_TIME_H #include #endif #include #ifdef HAVE_ICONV_H #include #endif /* * Some Linux distributions have both linux/ext2_fs.h and ext2fs/ext2_fs.h. * As the include guards don't agree, the order of include is important. */ #ifdef HAVE_LINUX_EXT2_FS_H #include /* for Linux file flags */ #endif #if defined(HAVE_EXT2FS_EXT2_FS_H) && !defined(__CYGWIN__) #include /* Linux file flags, broken on Cygwin */ #endif #ifdef HAVE_LINUX_FS_H #include #endif #include #include #ifdef HAVE_SIGNAL_H #include #endif #include #include #ifdef HAVE_SIGNAL_H #endif #ifdef HAVE_ACL_LIBACL_H #include #endif #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_ACL_H #include #endif #ifdef HAVE_SYS_EA_H #include #endif #ifdef HAVE_SYS_EXTATTR_H #include #endif #if HAVE_SYS_XATTR_H #include #elif HAVE_ATTR_XATTR_H #include #endif #ifdef HAVE_SYS_RICHACL_H #include #endif #if HAVE_MEMBERSHIP_H #include #endif /* * * Windows support routines * * Note: Configuration is a tricky issue. Using HAVE_* feature macros * in the test harness is dangerous because they cover up * configuration errors. The classic example of this is omitting a * configure check. If libarchive and libarchive_test both look for * the same feature macro, such errors are hard to detect. Platform * macros (e.g., _WIN32 or __GNUC__) are a little better, but can * easily lead to very messy code. It's best to limit yourself * to only the most generic programming techniques in the test harness * and thus avoid conditionals altogether. Where that's not possible, * try to minimize conditionals by grouping platform-specific tests in * one place (e.g., test_acl_freebsd) or by adding new assert() * functions (e.g., assertMakeHardlink()) to cover up platform * differences. Platform-specific coding in libarchive_test is often * a symptom that some capability is missing from libarchive itself. */ #if defined(_WIN32) && !defined(__CYGWIN__) #include #include #include #ifndef F_OK #define F_OK (0) #endif #ifndef S_ISDIR #define S_ISDIR(m) ((m) & _S_IFDIR) #endif #ifndef S_ISREG #define S_ISREG(m) ((m) & _S_IFREG) #endif #if !defined(__BORLANDC__) #define access _access #undef chdir #define chdir _chdir #endif #ifndef fileno #define fileno _fileno #endif /*#define fstat _fstat64*/ #if !defined(__BORLANDC__) #define getcwd _getcwd #endif #define lstat stat /*#define lstat _stat64*/ /*#define stat _stat64*/ #define rmdir _rmdir #if !defined(__BORLANDC__) #define strdup _strdup #define umask _umask #endif #define int64_t __int64 #endif #if defined(HAVE__CrtSetReportMode) # include #endif mode_t umasked(mode_t expected_mode) { mode_t mode = umask(0); umask(mode); return expected_mode & ~mode; } /* Path to working directory for current test */ const char *testworkdir; #ifdef PROGRAM /* Pathname of exe to be tested. */ const char *testprogfile; /* Name of exe to use in printf-formatted command strings. */ /* On Windows, this includes leading/trailing quotes. */ const char *testprog; #endif #if defined(_WIN32) && !defined(__CYGWIN__) static void *GetFunctionKernel32(const char *); static int my_CreateSymbolicLinkA(const char *, const char *, int); static int my_CreateHardLinkA(const char *, const char *); static int my_GetFileInformationByName(const char *, BY_HANDLE_FILE_INFORMATION *); static void * GetFunctionKernel32(const char *name) { static HINSTANCE lib; static int set; if (!set) { set = 1; lib = LoadLibrary("kernel32.dll"); } if (lib == NULL) { fprintf(stderr, "Can't load kernel32.dll?!\n"); exit(1); } return (void *)GetProcAddress(lib, name); } static int my_CreateSymbolicLinkA(const char *linkname, const char *target, int flags) { static BOOLEAN (WINAPI *f)(LPCSTR, LPCSTR, DWORD); static int set; if (!set) { set = 1; f = GetFunctionKernel32("CreateSymbolicLinkA"); } return f == NULL ? 0 : (*f)(linkname, target, flags); } static int my_CreateHardLinkA(const char *linkname, const char *target) { static BOOLEAN (WINAPI *f)(LPCSTR, LPCSTR, LPSECURITY_ATTRIBUTES); static int set; if (!set) { set = 1; f = GetFunctionKernel32("CreateHardLinkA"); } return f == NULL ? 0 : (*f)(linkname, target, NULL); } static int my_GetFileInformationByName(const char *path, BY_HANDLE_FILE_INFORMATION *bhfi) { HANDLE h; int r; memset(bhfi, 0, sizeof(*bhfi)); h = CreateFile(path, FILE_READ_ATTRIBUTES, 0, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL); if (h == INVALID_HANDLE_VALUE) return (0); r = GetFileInformationByHandle(h, bhfi); CloseHandle(h); return (r); } #endif #if defined(HAVE__CrtSetReportMode) && !defined(__WATCOMC__) static void invalid_parameter_handler(const wchar_t * expression, const wchar_t * function, const wchar_t * file, unsigned int line, uintptr_t pReserved) { /* nop */ // Silence unused-parameter compiler warnings. (void)expression; (void)function; (void)file; (void)line; (void)pReserved; } #endif /* * * OPTIONS FLAGS * */ /* Enable core dump on failure. */ static int dump_on_failure = 0; /* Default is to remove temp dirs and log data for successful tests. */ static int keep_temp_files = 0; /* Default is to run the specified tests once and report errors. */ static int until_failure = 0; /* Default is to just report pass/fail for each test. */ static int verbosity = 0; #define VERBOSITY_SUMMARY_ONLY -1 /* -q */ #define VERBOSITY_PASSFAIL 0 /* Default */ #define VERBOSITY_LIGHT_REPORT 1 /* -v */ #define VERBOSITY_FULL 2 /* -vv */ /* A few places generate even more output for verbosity > VERBOSITY_FULL, * mostly for debugging the test harness itself. */ /* Cumulative count of assertion failures. */ static int failures = 0; /* Cumulative count of reported skips. */ static int skips = 0; /* Cumulative count of assertions checked. */ static int assertions = 0; /* Directory where uuencoded reference files can be found. */ static const char *refdir; /* * Report log information selectively to console and/or disk log. */ static int log_console = 0; static FILE *logfile; static void vlogprintf(const char *fmt, va_list ap) { #ifdef va_copy va_list lfap; va_copy(lfap, ap); #endif if (log_console) vfprintf(stdout, fmt, ap); if (logfile != NULL) #ifdef va_copy vfprintf(logfile, fmt, lfap); va_end(lfap); #else vfprintf(logfile, fmt, ap); #endif } static void logprintf(const char *fmt, ...) { va_list ap; va_start(ap, fmt); vlogprintf(fmt, ap); va_end(ap); } /* Set up a message to display only if next assertion fails. */ static char msgbuff[4096]; static const char *msg, *nextmsg; void failure(const char *fmt, ...) { va_list ap; if (fmt == NULL) { nextmsg = NULL; } else { va_start(ap, fmt); vsprintf(msgbuff, fmt, ap); va_end(ap); nextmsg = msgbuff; } } /* * Copy arguments into file-local variables. * This was added to permit vararg assert() functions without needing * variadic wrapper macros. Turns out that the vararg capability is almost * never used, so almost all of the vararg assertions can be simplified * by removing the vararg capability and reworking the wrapper macro to * pass __FILE__, __LINE__ directly into the function instead of using * this hook. I suspect this machinery is used so rarely that we * would be better off just removing it entirely. That would simplify * the code here noticeably. */ static const char *skipping_filename; static int skipping_line; void skipping_setup(const char *filename, int line) { skipping_filename = filename; skipping_line = line; } /* Called at the beginning of each assert() function. */ static void assertion_count(const char *file, int line) { (void)file; /* UNUSED */ (void)line; /* UNUSED */ ++assertions; /* Proper handling of "failure()" message. */ msg = nextmsg; nextmsg = NULL; /* Uncomment to print file:line after every assertion. * Verbose, but occasionally useful in tracking down crashes. */ /* printf("Checked %s:%d\n", file, line); */ } /* * For each test source file, we remember how many times each * assertion was reported. Cleared before each new test, * used by test_summarize(). */ static struct line { int count; int skip; } failed_lines[10000]; const char *failed_filename; /* Count this failure, setup up log destination and handle initial report. */ static void failure_start(const char *filename, int line, const char *fmt, ...) { va_list ap; /* Record another failure for this line. */ ++failures; failed_filename = filename; failed_lines[line].count++; /* Determine whether to log header to console. */ switch (verbosity) { case VERBOSITY_LIGHT_REPORT: log_console = (failed_lines[line].count < 2); break; default: log_console = (verbosity >= VERBOSITY_FULL); } /* Log file:line header for this failure */ va_start(ap, fmt); #if _MSC_VER logprintf("%s(%d): ", filename, line); #else logprintf("%s:%d: ", filename, line); #endif vlogprintf(fmt, ap); va_end(ap); logprintf("\n"); if (msg != NULL && msg[0] != '\0') { logprintf(" Description: %s\n", msg); msg = NULL; } /* Determine whether to log details to console. */ if (verbosity == VERBOSITY_LIGHT_REPORT) log_console = 0; } /* Complete reporting of failed tests. */ /* * The 'extra' hook here is used by libarchive to include libarchive * error messages with assertion failures. It could also be used * to add strerror() output, for example. Just define the EXTRA_DUMP() * macro appropriately. */ static void failure_finish(void *extra) { (void)extra; /* UNUSED (maybe) */ #ifdef EXTRA_DUMP if (extra != NULL) { logprintf(" errno: %d\n", EXTRA_ERRNO(extra)); logprintf(" detail: %s\n", EXTRA_DUMP(extra)); } #endif if (dump_on_failure) { fprintf(stderr, " *** forcing core dump so failure can be debugged ***\n"); abort(); } } /* Inform user that we're skipping some checks. */ void test_skipping(const char *fmt, ...) { char buff[1024]; va_list ap; va_start(ap, fmt); vsprintf(buff, fmt, ap); va_end(ap); /* Use failure() message if set. */ msg = nextmsg; nextmsg = NULL; /* failure_start() isn't quite right, but is awfully convenient. */ failure_start(skipping_filename, skipping_line, "SKIPPING: %s", buff); --failures; /* Undo failures++ in failure_start() */ /* Don't failure_finish() here. */ /* Mark as skip, so doesn't count as failed test. */ failed_lines[skipping_line].skip = 1; ++skips; } /* * * ASSERTIONS * */ /* Generic assert() just displays the failed condition. */ int assertion_assert(const char *file, int line, int value, const char *condition, void *extra) { assertion_count(file, line); if (!value) { failure_start(file, line, "Assertion failed: %s", condition); failure_finish(extra); } return (value); } /* chdir() and report any errors */ int assertion_chdir(const char *file, int line, const char *pathname) { assertion_count(file, line); if (chdir(pathname) == 0) return (1); failure_start(file, line, "chdir(\"%s\")", pathname); failure_finish(NULL); return (0); } /* Verify two integers are equal. */ int assertion_equal_int(const char *file, int line, long long v1, const char *e1, long long v2, const char *e2, void *extra) { assertion_count(file, line); if (v1 == v2) return (1); failure_start(file, line, "%s != %s", e1, e2); logprintf(" %s=%lld (0x%llx, 0%llo)\n", e1, v1, v1, v1); logprintf(" %s=%lld (0x%llx, 0%llo)\n", e2, v2, v2, v2); failure_finish(extra); return (0); } /* * Utility to convert a single UTF-8 sequence. */ static int _utf8_to_unicode(uint32_t *pwc, const char *s, size_t n) { static const char utf8_count[256] = { 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 00 - 0F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 10 - 1F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 20 - 2F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 30 - 3F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 40 - 4F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 50 - 5F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 60 - 6F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 70 - 7F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 80 - 8F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 90 - 9F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* A0 - AF */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* B0 - BF */ 0, 0, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,/* C0 - CF */ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,/* D0 - DF */ 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3,/* E0 - EF */ 4, 4, 4, 4, 4, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 /* F0 - FF */ }; int ch; int cnt; uint32_t wc; *pwc = 0; /* Sanity check. */ if (n == 0) return (0); /* * Decode 1-4 bytes depending on the value of the first byte. */ ch = (unsigned char)*s; if (ch == 0) return (0); /* Standard: return 0 for end-of-string. */ cnt = utf8_count[ch]; /* Invalid sequence or there are not plenty bytes. */ if (n < (size_t)cnt) return (-1); /* Make a Unicode code point from a single UTF-8 sequence. */ switch (cnt) { case 1: /* 1 byte sequence. */ *pwc = ch & 0x7f; return (cnt); case 2: /* 2 bytes sequence. */ if ((s[1] & 0xc0) != 0x80) return (-1); *pwc = ((ch & 0x1f) << 6) | (s[1] & 0x3f); return (cnt); case 3: /* 3 bytes sequence. */ if ((s[1] & 0xc0) != 0x80) return (-1); if ((s[2] & 0xc0) != 0x80) return (-1); wc = ((ch & 0x0f) << 12) | ((s[1] & 0x3f) << 6) | (s[2] & 0x3f); if (wc < 0x800) return (-1);/* Overlong sequence. */ break; case 4: /* 4 bytes sequence. */ if (n < 4) return (-1); if ((s[1] & 0xc0) != 0x80) return (-1); if ((s[2] & 0xc0) != 0x80) return (-1); if ((s[3] & 0xc0) != 0x80) return (-1); wc = ((ch & 0x07) << 18) | ((s[1] & 0x3f) << 12) | ((s[2] & 0x3f) << 6) | (s[3] & 0x3f); if (wc < 0x10000) return (-1);/* Overlong sequence. */ break; default: return (-1); } /* The code point larger than 0x10FFFF is not legal * Unicode values. */ if (wc > 0x10FFFF) return (-1); /* Correctly gets a Unicode, returns used bytes. */ *pwc = wc; return (cnt); } static void strdump(const char *e, const char *p, int ewidth, int utf8) { const char *q = p; logprintf(" %*s = ", ewidth, e); if (p == NULL) { logprintf("NULL\n"); return; } logprintf("\""); while (*p != '\0') { unsigned int c = 0xff & *p++; switch (c) { case '\a': logprintf("\\a"); break; case '\b': logprintf("\\b"); break; case '\n': logprintf("\\n"); break; case '\r': logprintf("\\r"); break; default: if (c >= 32 && c < 127) logprintf("%c", c); else logprintf("\\x%02X", c); } } logprintf("\""); logprintf(" (length %d)", q == NULL ? -1 : (int)strlen(q)); /* * If the current string is UTF-8, dump its code points. */ if (utf8) { size_t len; uint32_t uc; int n; int cnt = 0; p = q; len = strlen(p); logprintf(" ["); while ((n = _utf8_to_unicode(&uc, p, len)) > 0) { if (p != q) logprintf(" "); logprintf("%04X", uc); p += n; len -= n; cnt++; } logprintf("]"); logprintf(" (count %d", cnt); if (n < 0) { logprintf(",unknown %d bytes", len); } logprintf(")"); } logprintf("\n"); } /* Verify two strings are equal, dump them if not. */ int assertion_equal_string(const char *file, int line, const char *v1, const char *e1, const char *v2, const char *e2, void *extra, int utf8) { int l1, l2; assertion_count(file, line); if (v1 == v2 || (v1 != NULL && v2 != NULL && strcmp(v1, v2) == 0)) return (1); failure_start(file, line, "%s != %s", e1, e2); l1 = (int)strlen(e1); l2 = (int)strlen(e2); if (l1 < l2) l1 = l2; strdump(e1, v1, l1, utf8); strdump(e2, v2, l1, utf8); failure_finish(extra); return (0); } static void wcsdump(const char *e, const wchar_t *w) { logprintf(" %s = ", e); if (w == NULL) { logprintf("(null)"); return; } logprintf("\""); while (*w != L'\0') { unsigned int c = *w++; if (c >= 32 && c < 127) logprintf("%c", c); else if (c < 256) logprintf("\\x%02X", c); else if (c < 0x10000) logprintf("\\u%04X", c); else logprintf("\\U%08X", c); } logprintf("\"\n"); } #ifndef HAVE_WCSCMP static int wcscmp(const wchar_t *s1, const wchar_t *s2) { while (*s1 == *s2++) { if (*s1++ == L'\0') return 0; } if (*s1 > *--s2) return 1; else return -1; } #endif /* Verify that two wide strings are equal, dump them if not. */ int assertion_equal_wstring(const char *file, int line, const wchar_t *v1, const char *e1, const wchar_t *v2, const char *e2, void *extra) { assertion_count(file, line); if (v1 == v2) return (1); if (v1 != NULL && v2 != NULL && wcscmp(v1, v2) == 0) return (1); failure_start(file, line, "%s != %s", e1, e2); wcsdump(e1, v1); wcsdump(e2, v2); failure_finish(extra); return (0); } /* * Pretty standard hexdump routine. As a bonus, if ref != NULL, then * any bytes in p that differ from ref will be highlighted with '_' * before and after the hex value. */ static void hexdump(const char *p, const char *ref, size_t l, size_t offset) { size_t i, j; char sep; if (p == NULL) { logprintf("(null)\n"); return; } for(i=0; i < l; i+=16) { logprintf("%04x", (unsigned)(i + offset)); sep = ' '; for (j = 0; j < 16 && i + j < l; j++) { if (ref != NULL && p[i + j] != ref[i + j]) sep = '_'; logprintf("%c%02x", sep, 0xff & (int)p[i+j]); if (ref != NULL && p[i + j] == ref[i + j]) sep = ' '; } for (; j < 16; j++) { logprintf("%c ", sep); sep = ' '; } logprintf("%c", sep); for (j=0; j < 16 && i + j < l; j++) { int c = p[i + j]; if (c >= ' ' && c <= 126) logprintf("%c", c); else logprintf("."); } logprintf("\n"); } } /* Verify that two blocks of memory are the same, display the first * block of differences if they're not. */ int assertion_equal_mem(const char *file, int line, const void *_v1, const char *e1, const void *_v2, const char *e2, size_t l, const char *ld, void *extra) { const char *v1 = (const char *)_v1; const char *v2 = (const char *)_v2; size_t offset; assertion_count(file, line); if (v1 == v2 || (v1 != NULL && v2 != NULL && memcmp(v1, v2, l) == 0)) return (1); if (v1 == NULL || v2 == NULL) return (0); failure_start(file, line, "%s != %s", e1, e2); logprintf(" size %s = %d\n", ld, (int)l); /* Dump 48 bytes (3 lines) so that the first difference is * in the second line. */ offset = 0; while (l > 64 && memcmp(v1, v2, 32) == 0) { /* Two lines agree, so step forward one line. */ v1 += 16; v2 += 16; l -= 16; offset += 16; } logprintf(" Dump of %s\n", e1); hexdump(v1, v2, l < 128 ? l : 128, offset); logprintf(" Dump of %s\n", e2); hexdump(v2, v1, l < 128 ? l : 128, offset); logprintf("\n"); failure_finish(extra); return (0); } /* Verify that a block of memory is filled with the specified byte. */ int assertion_memory_filled_with(const char *file, int line, const void *_v1, const char *vd, size_t l, const char *ld, char b, const char *bd, void *extra) { const char *v1 = (const char *)_v1; size_t c = 0; size_t i; (void)ld; /* UNUSED */ assertion_count(file, line); for (i = 0; i < l; ++i) { if (v1[i] == b) { ++c; } } if (c == l) return (1); failure_start(file, line, "%s (size %d) not filled with %s", vd, (int)l, bd); logprintf(" Only %d bytes were correct\n", (int)c); failure_finish(extra); return (0); } /* Verify that the named file exists and is empty. */ int assertion_empty_file(const char *filename, int line, const char *f1) { char buff[1024]; struct stat st; ssize_t s; FILE *f; assertion_count(filename, line); if (stat(f1, &st) != 0) { failure_start(filename, line, "Stat failed: %s", f1); failure_finish(NULL); return (0); } if (st.st_size == 0) return (1); failure_start(filename, line, "File should be empty: %s", f1); logprintf(" File size: %d\n", (int)st.st_size); logprintf(" Contents:\n"); f = fopen(f1, "rb"); if (f == NULL) { logprintf(" Unable to open %s\n", f1); } else { s = ((off_t)sizeof(buff) < st.st_size) ? (ssize_t)sizeof(buff) : (ssize_t)st.st_size; s = fread(buff, 1, s, f); hexdump(buff, NULL, s, 0); fclose(f); } failure_finish(NULL); return (0); } /* Verify that the named file exists and is not empty. */ int assertion_non_empty_file(const char *filename, int line, const char *f1) { struct stat st; assertion_count(filename, line); if (stat(f1, &st) != 0) { failure_start(filename, line, "Stat failed: %s", f1); failure_finish(NULL); return (0); } if (st.st_size == 0) { failure_start(filename, line, "File empty: %s", f1); failure_finish(NULL); return (0); } return (1); } /* Verify that two files have the same contents. */ /* TODO: hexdump the first bytes that actually differ. */ int assertion_equal_file(const char *filename, int line, const char *fn1, const char *fn2) { char buff1[1024]; char buff2[1024]; FILE *f1, *f2; int n1, n2; assertion_count(filename, line); f1 = fopen(fn1, "rb"); f2 = fopen(fn2, "rb"); if (f1 == NULL || f2 == NULL) { if (f1) fclose(f1); if (f2) fclose(f2); return (0); } for (;;) { n1 = (int)fread(buff1, 1, sizeof(buff1), f1); n2 = (int)fread(buff2, 1, sizeof(buff2), f2); if (n1 != n2) break; if (n1 == 0 && n2 == 0) { fclose(f1); fclose(f2); return (1); } if (memcmp(buff1, buff2, n1) != 0) break; } fclose(f1); fclose(f2); failure_start(filename, line, "Files not identical"); logprintf(" file1=\"%s\"\n", fn1); logprintf(" file2=\"%s\"\n", fn2); failure_finish(NULL); return (0); } /* Verify that the named file does exist. */ int assertion_file_exists(const char *filename, int line, const char *f) { assertion_count(filename, line); #if defined(_WIN32) && !defined(__CYGWIN__) if (!_access(f, 0)) return (1); #else if (!access(f, F_OK)) return (1); #endif failure_start(filename, line, "File should exist: %s", f); failure_finish(NULL); return (0); } /* Verify that the named file doesn't exist. */ int assertion_file_not_exists(const char *filename, int line, const char *f) { assertion_count(filename, line); #if defined(_WIN32) && !defined(__CYGWIN__) if (_access(f, 0)) return (1); #else if (access(f, F_OK)) return (1); #endif failure_start(filename, line, "File should not exist: %s", f); failure_finish(NULL); return (0); } /* Compare the contents of a file to a block of memory. */ int assertion_file_contents(const char *filename, int line, const void *buff, int s, const char *fn) { char *contents; FILE *f; int n; assertion_count(filename, line); f = fopen(fn, "rb"); if (f == NULL) { failure_start(filename, line, "File should exist: %s", fn); failure_finish(NULL); return (0); } contents = malloc(s * 2); n = (int)fread(contents, 1, s * 2, f); fclose(f); if (n == s && memcmp(buff, contents, s) == 0) { free(contents); return (1); } failure_start(filename, line, "File contents don't match"); logprintf(" file=\"%s\"\n", fn); if (n > 0) hexdump(contents, buff, n > 512 ? 512 : n, 0); else { logprintf(" File empty, contents should be:\n"); hexdump(buff, NULL, s > 512 ? 512 : s, 0); } failure_finish(NULL); free(contents); return (0); } /* Check the contents of a text file, being tolerant of line endings. */ int assertion_text_file_contents(const char *filename, int line, const char *buff, const char *fn) { char *contents; const char *btxt, *ftxt; FILE *f; int n, s; assertion_count(filename, line); f = fopen(fn, "r"); if (f == NULL) { failure_start(filename, line, "File doesn't exist: %s", fn); failure_finish(NULL); return (0); } s = (int)strlen(buff); contents = malloc(s * 2 + 128); n = (int)fread(contents, 1, s * 2 + 128 - 1, f); if (n >= 0) contents[n] = '\0'; fclose(f); /* Compare texts. */ btxt = buff; ftxt = (const char *)contents; while (*btxt != '\0' && *ftxt != '\0') { if (*btxt == *ftxt) { ++btxt; ++ftxt; continue; } if (btxt[0] == '\n' && ftxt[0] == '\r' && ftxt[1] == '\n') { /* Pass over different new line characters. */ ++btxt; ftxt += 2; continue; } break; } if (*btxt == '\0' && *ftxt == '\0') { free(contents); return (1); } failure_start(filename, line, "Contents don't match"); logprintf(" file=\"%s\"\n", fn); if (n > 0) { hexdump(contents, buff, n, 0); logprintf(" expected\n", fn); hexdump(buff, contents, s, 0); } else { logprintf(" File empty, contents should be:\n"); hexdump(buff, NULL, s, 0); } failure_finish(NULL); free(contents); return (0); } /* Verify that a text file contains the specified lines, regardless of order */ /* This could be more efficient if we sorted both sets of lines, etc, but * since this is used only for testing and only ever deals with a dozen or so * lines at a time, this relatively crude approach is just fine. */ int assertion_file_contains_lines_any_order(const char *file, int line, const char *pathname, const char *lines[]) { char *buff; size_t buff_size; size_t expected_count, actual_count, i, j; char **expected = NULL; char *p, **actual = NULL; char c; int expected_failure = 0, actual_failure = 0; assertion_count(file, line); buff = slurpfile(&buff_size, "%s", pathname); if (buff == NULL) { failure_start(pathname, line, "Can't read file: %s", pathname); failure_finish(NULL); return (0); } /* Make a copy of the provided lines and count up the expected * file size. */ for (i = 0; lines[i] != NULL; ++i) { } expected_count = i; if (expected_count) { expected = malloc(sizeof(char *) * expected_count); if (expected == NULL) { failure_start(pathname, line, "Can't allocate memory"); failure_finish(NULL); free(expected); free(buff); return (0); } for (i = 0; lines[i] != NULL; ++i) { expected[i] = strdup(lines[i]); } } /* Break the file into lines */ actual_count = 0; for (c = '\0', p = buff; p < buff + buff_size; ++p) { if (*p == '\x0d' || *p == '\x0a') *p = '\0'; if (c == '\0' && *p != '\0') ++actual_count; c = *p; } if (actual_count) { actual = calloc(sizeof(char *), actual_count); if (actual == NULL) { failure_start(pathname, line, "Can't allocate memory"); failure_finish(NULL); free(expected); free(buff); return (0); } for (j = 0, p = buff; p < buff + buff_size; p += 1 + strlen(p)) { if (*p != '\0') { actual[j] = p; ++j; } } } /* Erase matching lines from both lists */ for (i = 0; i < expected_count; ++i) { if (expected[i] == NULL) continue; for (j = 0; j < actual_count; ++j) { if (actual[j] == NULL) continue; if (strcmp(expected[i], actual[j]) == 0) { free(expected[i]); expected[i] = NULL; actual[j] = NULL; break; } } } /* If there's anything left, it's a failure */ for (i = 0; i < expected_count; ++i) { if (expected[i] != NULL) ++expected_failure; } for (j = 0; j < actual_count; ++j) { if (actual[j] != NULL) ++actual_failure; } if (expected_failure == 0 && actual_failure == 0) { free(buff); free(expected); free(actual); return (1); } failure_start(file, line, "File doesn't match: %s", pathname); for (i = 0; i < expected_count; ++i) { if (expected[i] != NULL) { logprintf(" Expected but not present: %s\n", expected[i]); free(expected[i]); } } for (j = 0; j < actual_count; ++j) { if (actual[j] != NULL) logprintf(" Present but not expected: %s\n", actual[j]); } failure_finish(NULL); free(buff); free(expected); free(actual); return (0); } /* Verify that a text file does not contains the specified strings */ int assertion_file_contains_no_invalid_strings(const char *file, int line, const char *pathname, const char *strings[]) { char *buff; int i; buff = slurpfile(NULL, "%s", pathname); if (buff == NULL) { failure_start(file, line, "Can't read file: %s", pathname); failure_finish(NULL); return (0); } for (i = 0; strings[i] != NULL; ++i) { if (strstr(buff, strings[i]) != NULL) { failure_start(file, line, "Invalid string in %s: %s", pathname, strings[i]); failure_finish(NULL); free(buff); return(0); } } free(buff); return (0); } /* Test that two paths point to the same file. */ /* As a side-effect, asserts that both files exist. */ static int is_hardlink(const char *file, int line, const char *path1, const char *path2) { #if defined(_WIN32) && !defined(__CYGWIN__) BY_HANDLE_FILE_INFORMATION bhfi1, bhfi2; int r; assertion_count(file, line); r = my_GetFileInformationByName(path1, &bhfi1); if (r == 0) { failure_start(file, line, "File %s can't be inspected?", path1); failure_finish(NULL); return (0); } r = my_GetFileInformationByName(path2, &bhfi2); if (r == 0) { failure_start(file, line, "File %s can't be inspected?", path2); failure_finish(NULL); return (0); } return (bhfi1.dwVolumeSerialNumber == bhfi2.dwVolumeSerialNumber && bhfi1.nFileIndexHigh == bhfi2.nFileIndexHigh && bhfi1.nFileIndexLow == bhfi2.nFileIndexLow); #else struct stat st1, st2; int r; assertion_count(file, line); r = lstat(path1, &st1); if (r != 0) { failure_start(file, line, "File should exist: %s", path1); failure_finish(NULL); return (0); } r = lstat(path2, &st2); if (r != 0) { failure_start(file, line, "File should exist: %s", path2); failure_finish(NULL); return (0); } return (st1.st_ino == st2.st_ino && st1.st_dev == st2.st_dev); #endif } int assertion_is_hardlink(const char *file, int line, const char *path1, const char *path2) { if (is_hardlink(file, line, path1, path2)) return (1); failure_start(file, line, "Files %s and %s are not hardlinked", path1, path2); failure_finish(NULL); return (0); } int assertion_is_not_hardlink(const char *file, int line, const char *path1, const char *path2) { if (!is_hardlink(file, line, path1, path2)) return (1); failure_start(file, line, "Files %s and %s should not be hardlinked", path1, path2); failure_finish(NULL); return (0); } /* Verify a/b/mtime of 'pathname'. */ /* If 'recent', verify that it's within last 10 seconds. */ static int assertion_file_time(const char *file, int line, const char *pathname, long t, long nsec, char type, int recent) { long long filet, filet_nsec; int r; #if defined(_WIN32) && !defined(__CYGWIN__) #define EPOC_TIME (116444736000000000ULL) FILETIME fxtime, fbirthtime, fatime, fmtime; ULARGE_INTEGER wintm; HANDLE h; fxtime.dwLowDateTime = 0; fxtime.dwHighDateTime = 0; assertion_count(file, line); /* Note: FILE_FLAG_BACKUP_SEMANTICS applies to open * a directory file. If not, CreateFile() will fail when * the pathname is a directory. */ h = CreateFile(pathname, FILE_READ_ATTRIBUTES, 0, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL); if (h == INVALID_HANDLE_VALUE) { failure_start(file, line, "Can't access %s\n", pathname); failure_finish(NULL); return (0); } r = GetFileTime(h, &fbirthtime, &fatime, &fmtime); switch (type) { case 'a': fxtime = fatime; break; case 'b': fxtime = fbirthtime; break; case 'm': fxtime = fmtime; break; } CloseHandle(h); if (r == 0) { failure_start(file, line, "Can't GetFileTime %s\n", pathname); failure_finish(NULL); return (0); } wintm.LowPart = fxtime.dwLowDateTime; wintm.HighPart = fxtime.dwHighDateTime; filet = (wintm.QuadPart - EPOC_TIME) / 10000000; filet_nsec = ((wintm.QuadPart - EPOC_TIME) % 10000000) * 100; nsec = (nsec / 100) * 100; /* Round the request */ #else struct stat st; assertion_count(file, line); r = lstat(pathname, &st); if (r != 0) { failure_start(file, line, "Can't stat %s\n", pathname); failure_finish(NULL); return (0); } switch (type) { case 'a': filet = st.st_atime; break; case 'm': filet = st.st_mtime; break; case 'b': filet = 0; break; default: fprintf(stderr, "INTERNAL: Bad type %c for file time", type); exit(1); } #if defined(__FreeBSD__) switch (type) { case 'a': filet_nsec = st.st_atimespec.tv_nsec; break; case 'b': filet = st.st_birthtime; /* FreeBSD filesystems that don't support birthtime * (e.g., UFS1) always return -1 here. */ if (filet == -1) { return (1); } filet_nsec = st.st_birthtimespec.tv_nsec; break; case 'm': filet_nsec = st.st_mtimespec.tv_nsec; break; default: fprintf(stderr, "INTERNAL: Bad type %c for file time", type); exit(1); } /* FreeBSD generally only stores to microsecond res, so round. */ filet_nsec = (filet_nsec / 1000) * 1000; nsec = (nsec / 1000) * 1000; #else filet_nsec = nsec = 0; /* Generic POSIX only has whole seconds. */ if (type == 'b') return (1); /* Generic POSIX doesn't have birthtime */ #if defined(__HAIKU__) if (type == 'a') return (1); /* Haiku doesn't have atime. */ #endif #endif #endif if (recent) { /* Check that requested time is up-to-date. */ time_t now = time(NULL); if (filet < now - 10 || filet > now + 1) { failure_start(file, line, "File %s has %ctime %lld, %lld seconds ago\n", pathname, type, filet, now - filet); failure_finish(NULL); return (0); } } else if (filet != t || filet_nsec != nsec) { failure_start(file, line, "File %s has %ctime %lld.%09lld, expected %lld.%09lld", pathname, type, filet, filet_nsec, t, nsec); failure_finish(NULL); return (0); } return (1); } /* Verify atime of 'pathname'. */ int assertion_file_atime(const char *file, int line, const char *pathname, long t, long nsec) { return assertion_file_time(file, line, pathname, t, nsec, 'a', 0); } /* Verify atime of 'pathname' is up-to-date. */ int assertion_file_atime_recent(const char *file, int line, const char *pathname) { return assertion_file_time(file, line, pathname, 0, 0, 'a', 1); } /* Verify birthtime of 'pathname'. */ int assertion_file_birthtime(const char *file, int line, const char *pathname, long t, long nsec) { return assertion_file_time(file, line, pathname, t, nsec, 'b', 0); } /* Verify birthtime of 'pathname' is up-to-date. */ int assertion_file_birthtime_recent(const char *file, int line, const char *pathname) { return assertion_file_time(file, line, pathname, 0, 0, 'b', 1); } /* Verify mode of 'pathname'. */ int assertion_file_mode(const char *file, int line, const char *pathname, int expected_mode) { int mode; int r; assertion_count(file, line); #if defined(_WIN32) && !defined(__CYGWIN__) failure_start(file, line, "assertFileMode not yet implemented for Windows"); (void)mode; /* UNUSED */ (void)r; /* UNUSED */ (void)pathname; /* UNUSED */ (void)expected_mode; /* UNUSED */ #else { struct stat st; r = lstat(pathname, &st); mode = (int)(st.st_mode & 0777); } if (r == 0 && mode == expected_mode) return (1); failure_start(file, line, "File %s has mode %o, expected %o", pathname, mode, expected_mode); #endif failure_finish(NULL); return (0); } /* Verify mtime of 'pathname'. */ int assertion_file_mtime(const char *file, int line, const char *pathname, long t, long nsec) { return assertion_file_time(file, line, pathname, t, nsec, 'm', 0); } /* Verify mtime of 'pathname' is up-to-date. */ int assertion_file_mtime_recent(const char *file, int line, const char *pathname) { return assertion_file_time(file, line, pathname, 0, 0, 'm', 1); } /* Verify number of links to 'pathname'. */ int assertion_file_nlinks(const char *file, int line, const char *pathname, int nlinks) { #if defined(_WIN32) && !defined(__CYGWIN__) BY_HANDLE_FILE_INFORMATION bhfi; int r; assertion_count(file, line); r = my_GetFileInformationByName(pathname, &bhfi); if (r != 0 && bhfi.nNumberOfLinks == (DWORD)nlinks) return (1); failure_start(file, line, "File %s has %d links, expected %d", pathname, bhfi.nNumberOfLinks, nlinks); failure_finish(NULL); return (0); #else struct stat st; int r; assertion_count(file, line); r = lstat(pathname, &st); if (r == 0 && (int)st.st_nlink == nlinks) return (1); failure_start(file, line, "File %s has %d links, expected %d", pathname, st.st_nlink, nlinks); failure_finish(NULL); return (0); #endif } /* Verify size of 'pathname'. */ int assertion_file_size(const char *file, int line, const char *pathname, long size) { int64_t filesize; int r; assertion_count(file, line); #if defined(_WIN32) && !defined(__CYGWIN__) { BY_HANDLE_FILE_INFORMATION bhfi; r = !my_GetFileInformationByName(pathname, &bhfi); filesize = ((int64_t)bhfi.nFileSizeHigh << 32) + bhfi.nFileSizeLow; } #else { struct stat st; r = lstat(pathname, &st); filesize = st.st_size; } #endif if (r == 0 && filesize == size) return (1); failure_start(file, line, "File %s has size %ld, expected %ld", pathname, (long)filesize, (long)size); failure_finish(NULL); return (0); } /* Assert that 'pathname' is a dir. If mode >= 0, verify that too. */ int assertion_is_dir(const char *file, int line, const char *pathname, int mode) { struct stat st; int r; #if defined(_WIN32) && !defined(__CYGWIN__) (void)mode; /* UNUSED */ #endif assertion_count(file, line); r = lstat(pathname, &st); if (r != 0) { failure_start(file, line, "Dir should exist: %s", pathname); failure_finish(NULL); return (0); } if (!S_ISDIR(st.st_mode)) { failure_start(file, line, "%s is not a dir", pathname); failure_finish(NULL); return (0); } #if !defined(_WIN32) || defined(__CYGWIN__) /* Windows doesn't handle permissions the same way as POSIX, * so just ignore the mode tests. */ /* TODO: Can we do better here? */ if (mode >= 0 && (mode_t)mode != (st.st_mode & 07777)) { failure_start(file, line, "Dir %s has wrong mode", pathname); logprintf(" Expected: 0%3o\n", mode); logprintf(" Found: 0%3o\n", st.st_mode & 07777); failure_finish(NULL); return (0); } #endif return (1); } /* Verify that 'pathname' is a regular file. If 'mode' is >= 0, * verify that too. */ int assertion_is_reg(const char *file, int line, const char *pathname, int mode) { struct stat st; int r; #if defined(_WIN32) && !defined(__CYGWIN__) (void)mode; /* UNUSED */ #endif assertion_count(file, line); r = lstat(pathname, &st); if (r != 0 || !S_ISREG(st.st_mode)) { failure_start(file, line, "File should exist: %s", pathname); failure_finish(NULL); return (0); } #if !defined(_WIN32) || defined(__CYGWIN__) /* Windows doesn't handle permissions the same way as POSIX, * so just ignore the mode tests. */ /* TODO: Can we do better here? */ if (mode >= 0 && (mode_t)mode != (st.st_mode & 07777)) { failure_start(file, line, "File %s has wrong mode", pathname); logprintf(" Expected: 0%3o\n", mode); logprintf(" Found: 0%3o\n", st.st_mode & 07777); failure_finish(NULL); return (0); } #endif return (1); } /* Check whether 'pathname' is a symbolic link. If 'contents' is * non-NULL, verify that the symlink has those contents. */ static int is_symlink(const char *file, int line, const char *pathname, const char *contents) { #if defined(_WIN32) && !defined(__CYGWIN__) (void)pathname; /* UNUSED */ (void)contents; /* UNUSED */ assertion_count(file, line); /* Windows sort-of has real symlinks, but they're only usable * by privileged users and are crippled even then, so there's * really not much point in bothering with this. */ return (0); #else char buff[300]; struct stat st; ssize_t linklen; int r; assertion_count(file, line); r = lstat(pathname, &st); if (r != 0) { failure_start(file, line, "Symlink should exist: %s", pathname); failure_finish(NULL); return (0); } if (!S_ISLNK(st.st_mode)) return (0); if (contents == NULL) return (1); linklen = readlink(pathname, buff, sizeof(buff)); if (linklen < 0) { failure_start(file, line, "Can't read symlink %s", pathname); failure_finish(NULL); return (0); } buff[linklen] = '\0'; if (strcmp(buff, contents) != 0) return (0); return (1); #endif } /* Assert that path is a symlink that (optionally) contains contents. */ int assertion_is_symlink(const char *file, int line, const char *path, const char *contents) { if (is_symlink(file, line, path, contents)) return (1); if (contents) failure_start(file, line, "File %s is not a symlink to %s", path, contents); else failure_start(file, line, "File %s is not a symlink", path); failure_finish(NULL); return (0); } /* Create a directory and report any errors. */ int assertion_make_dir(const char *file, int line, const char *dirname, int mode) { assertion_count(file, line); #if defined(_WIN32) && !defined(__CYGWIN__) (void)mode; /* UNUSED */ if (0 == _mkdir(dirname)) return (1); #else if (0 == mkdir(dirname, mode)) { if (0 == chmod(dirname, mode)) { assertion_file_mode(file, line, dirname, mode); return (1); } } #endif failure_start(file, line, "Could not create directory %s", dirname); failure_finish(NULL); return(0); } /* Create a file with the specified contents and report any failures. */ int assertion_make_file(const char *file, int line, const char *path, int mode, int csize, const void *contents) { #if defined(_WIN32) && !defined(__CYGWIN__) /* TODO: Rework this to set file mode as well. */ FILE *f; (void)mode; /* UNUSED */ assertion_count(file, line); f = fopen(path, "wb"); if (f == NULL) { failure_start(file, line, "Could not create file %s", path); failure_finish(NULL); return (0); } if (contents != NULL) { size_t wsize; if (csize < 0) wsize = strlen(contents); else wsize = (size_t)csize; if (wsize != fwrite(contents, 1, wsize, f)) { fclose(f); failure_start(file, line, "Could not write file %s", path); failure_finish(NULL); return (0); } } fclose(f); return (1); #else int fd; assertion_count(file, line); fd = open(path, O_CREAT | O_WRONLY, mode >= 0 ? mode : 0644); if (fd < 0) { failure_start(file, line, "Could not create %s", path); failure_finish(NULL); return (0); } if (0 != chmod(path, mode)) { failure_start(file, line, "Could not chmod %s", path); failure_finish(NULL); close(fd); return (0); } if (contents != NULL) { ssize_t wsize; if (csize < 0) wsize = (ssize_t)strlen(contents); else wsize = (ssize_t)csize; if (wsize != write(fd, contents, wsize)) { close(fd); failure_start(file, line, "Could not write to %s", path); failure_finish(NULL); close(fd); return (0); } } close(fd); assertion_file_mode(file, line, path, mode); return (1); #endif } /* Create a hardlink and report any failures. */ int assertion_make_hardlink(const char *file, int line, const char *newpath, const char *linkto) { int succeeded; assertion_count(file, line); #if defined(_WIN32) && !defined(__CYGWIN__) succeeded = my_CreateHardLinkA(newpath, linkto); #elif HAVE_LINK succeeded = !link(linkto, newpath); #else succeeded = 0; #endif if (succeeded) return (1); failure_start(file, line, "Could not create hardlink"); logprintf(" New link: %s\n", newpath); logprintf(" Old name: %s\n", linkto); failure_finish(NULL); return(0); } /* Create a symlink and report any failures. */ int assertion_make_symlink(const char *file, int line, const char *newpath, const char *linkto) { #if defined(_WIN32) && !defined(__CYGWIN__) int targetIsDir = 0; /* TODO: Fix this */ assertion_count(file, line); if (my_CreateSymbolicLinkA(newpath, linkto, targetIsDir)) return (1); #elif HAVE_SYMLINK assertion_count(file, line); if (0 == symlink(linkto, newpath)) return (1); #endif failure_start(file, line, "Could not create symlink"); logprintf(" New link: %s\n", newpath); logprintf(" Old name: %s\n", linkto); failure_finish(NULL); return(0); } /* Set umask, report failures. */ int assertion_umask(const char *file, int line, int mask) { assertion_count(file, line); (void)file; /* UNUSED */ (void)line; /* UNUSED */ umask(mask); return (1); } /* Set times, report failures. */ int assertion_utimes(const char *file, int line, const char *pathname, long at, long at_nsec, long mt, long mt_nsec) { int r; #if defined(_WIN32) && !defined(__CYGWIN__) #define WINTIME(sec, nsec) ((Int32x32To64(sec, 10000000) + EPOC_TIME)\ + (((nsec)/1000)*10)) HANDLE h; ULARGE_INTEGER wintm; FILETIME fatime, fmtime; FILETIME *pat, *pmt; assertion_count(file, line); h = CreateFileA(pathname,GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL); if (h == INVALID_HANDLE_VALUE) { failure_start(file, line, "Can't access %s\n", pathname); failure_finish(NULL); return (0); } if (at > 0 || at_nsec > 0) { wintm.QuadPart = WINTIME(at, at_nsec); fatime.dwLowDateTime = wintm.LowPart; fatime.dwHighDateTime = wintm.HighPart; pat = &fatime; } else pat = NULL; if (mt > 0 || mt_nsec > 0) { wintm.QuadPart = WINTIME(mt, mt_nsec); fmtime.dwLowDateTime = wintm.LowPart; fmtime.dwHighDateTime = wintm.HighPart; pmt = &fmtime; } else pmt = NULL; if (pat != NULL || pmt != NULL) r = SetFileTime(h, NULL, pat, pmt); else r = 1; CloseHandle(h); if (r == 0) { failure_start(file, line, "Can't SetFileTime %s\n", pathname); failure_finish(NULL); return (0); } return (1); #else /* defined(_WIN32) && !defined(__CYGWIN__) */ struct stat st; struct timeval times[2]; #if !defined(__FreeBSD__) mt_nsec = at_nsec = 0; /* Generic POSIX only has whole seconds. */ #endif if (mt == 0 && mt_nsec == 0 && at == 0 && at_nsec == 0) return (1); r = lstat(pathname, &st); if (r < 0) { failure_start(file, line, "Can't stat %s\n", pathname); failure_finish(NULL); return (0); } if (mt == 0 && mt_nsec == 0) { mt = st.st_mtime; #if defined(__FreeBSD__) mt_nsec = st.st_mtimespec.tv_nsec; /* FreeBSD generally only stores to microsecond res, so round. */ mt_nsec = (mt_nsec / 1000) * 1000; #endif } if (at == 0 && at_nsec == 0) { at = st.st_atime; #if defined(__FreeBSD__) at_nsec = st.st_atimespec.tv_nsec; /* FreeBSD generally only stores to microsecond res, so round. */ at_nsec = (at_nsec / 1000) * 1000; #endif } times[1].tv_sec = mt; times[1].tv_usec = mt_nsec / 1000; times[0].tv_sec = at; times[0].tv_usec = at_nsec / 1000; #ifdef HAVE_LUTIMES r = lutimes(pathname, times); #else r = utimes(pathname, times); #endif if (r < 0) { failure_start(file, line, "Can't utimes %s\n", pathname); failure_finish(NULL); return (0); } return (1); #endif /* defined(_WIN32) && !defined(__CYGWIN__) */ } /* Compare file flags */ int assertion_compare_fflags(const char *file, int line, const char *patha, const char *pathb, int nomatch) { #if defined(HAVE_STRUCT_STAT_ST_FLAGS) && defined(UF_NODUMP) struct stat sa, sb; assertion_count(file, line); if (stat(patha, &sa) < 0) return (0); if (stat(pathb, &sb) < 0) return (0); if (!nomatch && sa.st_flags != sb.st_flags) { failure_start(file, line, "File flags should be identical: " "%s=%#010x %s=%#010x", patha, sa.st_flags, pathb, sb.st_flags); failure_finish(NULL); return (0); } if (nomatch && sa.st_flags == sb.st_flags) { failure_start(file, line, "File flags should be different: " "%s=%#010x %s=%#010x", patha, sa.st_flags, pathb, sb.st_flags); failure_finish(NULL); return (0); } #elif (defined(FS_IOC_GETFLAGS) && defined(HAVE_WORKING_FS_IOC_GETFLAGS) && \ defined(FS_NODUMP_FL)) || \ (defined(EXT2_IOC_GETFLAGS) && defined(HAVE_WORKING_EXT2_IOC_GETFLAGS) \ && defined(EXT2_NODUMP_FL)) int fd, r, flagsa, flagsb; assertion_count(file, line); fd = open(patha, O_RDONLY | O_NONBLOCK); if (fd < 0) { failure_start(file, line, "Can't open %s\n", patha); failure_finish(NULL); return (0); } r = ioctl(fd, #ifdef FS_IOC_GETFLAGS FS_IOC_GETFLAGS, #else EXT2_IOC_GETFLAGS, #endif &flagsa); close(fd); if (r < 0) { failure_start(file, line, "Can't get flags %s\n", patha); failure_finish(NULL); return (0); } fd = open(pathb, O_RDONLY | O_NONBLOCK); if (fd < 0) { failure_start(file, line, "Can't open %s\n", pathb); failure_finish(NULL); return (0); } r = ioctl(fd, #ifdef FS_IOC_GETFLAGS FS_IOC_GETFLAGS, #else EXT2_IOC_GETFLAGS, #endif &flagsb); close(fd); if (r < 0) { failure_start(file, line, "Can't get flags %s\n", pathb); failure_finish(NULL); return (0); } if (!nomatch && flagsa != flagsb) { failure_start(file, line, "File flags should be identical: " "%s=%#010x %s=%#010x", patha, flagsa, pathb, flagsb); failure_finish(NULL); return (0); } if (nomatch && flagsa == flagsb) { failure_start(file, line, "File flags should be different: " "%s=%#010x %s=%#010x", patha, flagsa, pathb, flagsb); failure_finish(NULL); return (0); } #else (void)patha; /* UNUSED */ (void)pathb; /* UNUSED */ (void)nomatch; /* UNUSED */ assertion_count(file, line); #endif return (1); } /* Set nodump, report failures. */ int assertion_set_nodump(const char *file, int line, const char *pathname) { #if defined(HAVE_STRUCT_STAT_ST_FLAGS) && defined(UF_NODUMP) int r; assertion_count(file, line); r = chflags(pathname, UF_NODUMP); if (r < 0) { failure_start(file, line, "Can't set nodump %s\n", pathname); failure_finish(NULL); return (0); } #elif (defined(FS_IOC_GETFLAGS) && defined(HAVE_WORKING_FS_IOC_GETFLAGS) && \ defined(FS_NODUMP_FL)) || \ (defined(EXT2_IOC_GETFLAGS) && defined(HAVE_WORKING_EXT2_IOC_GETFLAGS) \ && defined(EXT2_NODUMP_FL)) int fd, r, flags; assertion_count(file, line); fd = open(pathname, O_RDONLY | O_NONBLOCK); if (fd < 0) { failure_start(file, line, "Can't open %s\n", pathname); failure_finish(NULL); return (0); } r = ioctl(fd, #ifdef FS_IOC_GETFLAGS FS_IOC_GETFLAGS, #else EXT2_IOC_GETFLAGS, #endif &flags); if (r < 0) { failure_start(file, line, "Can't get flags %s\n", pathname); failure_finish(NULL); return (0); } #ifdef FS_NODUMP_FL flags |= FS_NODUMP_FL; #else flags |= EXT2_NODUMP_FL; #endif r = ioctl(fd, #ifdef FS_IOC_SETFLAGS FS_IOC_SETFLAGS, #else EXT2_IOC_SETFLAGS, #endif &flags); if (r < 0) { failure_start(file, line, "Can't set nodump %s\n", pathname); failure_finish(NULL); return (0); } close(fd); #else (void)pathname; /* UNUSED */ assertion_count(file, line); #endif return (1); } #ifdef PROGRAM static void assert_version_id(char **qq, size_t *ss) { char *q = *qq; size_t s = *ss; /* Version number is a series of digits and periods. */ while (s > 0 && (*q == '.' || (*q >= '0' && *q <= '9'))) { ++q; --s; } if (q[0] == 'd' && q[1] == 'e' && q[2] == 'v') { q += 3; s -= 3; } /* Skip a single trailing a,b,c, or d. */ if (*q == 'a' || *q == 'b' || *q == 'c' || *q == 'd') ++q; /* Version number terminated by space. */ failure("No space after version: ``%s''", q); assert(s > 1); failure("No space after version: ``%s''", q); assert(*q == ' '); ++q; --s; *qq = q; *ss = s; } /* * Check program version */ void assertVersion(const char *prog, const char *base) { int r; char *p, *q; size_t s; unsigned int prog_len = strlen(base); r = systemf("%s --version >version.stdout 2>version.stderr", prog); if (r != 0) r = systemf("%s -W version >version.stdout 2>version.stderr", prog); failure("Unable to run either %s --version or %s -W version", prog, prog); if (!assert(r == 0)) return; /* --version should generate nothing to stdout. */ assertEmptyFile("version.stderr"); /* Verify format of version message. */ q = p = slurpfile(&s, "version.stdout"); /* Version message should start with name of program, then space. */ assert(s > prog_len + 1); failure("Version must start with '%s': ``%s''", base, p); if (!assertEqualMem(q, base, prog_len)) { free(p); return; } q += prog_len; s -= prog_len; assert(*q == ' '); q++; s--; assert_version_id(&q, &s); /* Separator. */ failure("No `-' between program name and versions: ``%s''", p); assertEqualMem(q, "- ", 2); q += 2; s -= 2; failure("Not long enough for libarchive version: ``%s''", p); assert(s > 11); failure("Libarchive version must start with `libarchive': ``%s''", p); assertEqualMem(q, "libarchive ", 11); q += 11; s -= 11; assert_version_id(&q, &s); /* Skip arbitrary third-party version numbers. */ while (s > 0 && (*q == ' ' || *q == '-' || *q == '/' || *q == '.' || isalnum(*q))) { ++q; --s; } /* All terminated by end-of-line. */ assert(s >= 1); /* Skip an optional CR character (e.g., Windows) */ failure("Version output must end with \\n or \\r\\n"); if (*q == '\r') { ++q; --s; } assertEqualMem(q, "\n", 1); free(p); } #endif /* PROGRAM */ /* * * UTILITIES for use by tests. * */ /* * Check whether platform supports symlinks. This is intended * for tests to use in deciding whether to bother testing symlink * support; if the platform doesn't support symlinks, there's no point * in checking whether the program being tested can create them. * * Note that the first time this test is called, we actually go out to * disk to create and verify a symlink. This is necessary because * symlink support is actually a property of a particular filesystem * and can thus vary between directories on a single system. After * the first call, this returns the cached result from memory, so it's * safe to call it as often as you wish. */ int canSymlink(void) { /* Remember the test result */ static int value = 0, tested = 0; if (tested) return (value); ++tested; assertion_make_file(__FILE__, __LINE__, "canSymlink.0", 0644, 1, "a"); /* Note: Cygwin has its own symlink() emulation that does not * use the Win32 CreateSymbolicLink() function. */ #if defined(_WIN32) && !defined(__CYGWIN__) value = my_CreateSymbolicLinkA("canSymlink.1", "canSymlink.0", 0) && is_symlink(__FILE__, __LINE__, "canSymlink.1", "canSymlink.0"); #elif HAVE_SYMLINK value = (0 == symlink("canSymlink.0", "canSymlink.1")) && is_symlink(__FILE__, __LINE__, "canSymlink.1","canSymlink.0"); #endif return (value); } /* Platform-dependent options for hiding the output of a subcommand. */ #if defined(_WIN32) && !defined(__CYGWIN__) static const char *redirectArgs = ">NUL 2>NUL"; /* Win32 cmd.exe */ #else static const char *redirectArgs = ">/dev/null 2>/dev/null"; /* POSIX 'sh' */ #endif /* * Can this platform run the bzip2 program? */ int canBzip2(void) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("bzip2 -d -V %s", redirectArgs) == 0) value = 1; } return (value); } /* * Can this platform run the grzip program? */ int canGrzip(void) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("grzip -V %s", redirectArgs) == 0) value = 1; } return (value); } /* * Can this platform run the gzip program? */ int canGzip(void) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("gzip -V %s", redirectArgs) == 0) value = 1; } return (value); } /* * Can this platform run the lrzip program? */ int canRunCommand(const char *cmd) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("%s %s", cmd, redirectArgs) == 0) value = 1; } return (value); } int canLrzip(void) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("lrzip -V %s", redirectArgs) == 0) value = 1; } return (value); } /* * Can this platform run the lz4 program? */ int canLz4(void) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("lz4 -V %s", redirectArgs) == 0) value = 1; } return (value); } /* * Can this platform run the zstd program? */ int canZstd(void) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("zstd -V %s", redirectArgs) == 0) value = 1; } return (value); } /* * Can this platform run the lzip program? */ int canLzip(void) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("lzip -V %s", redirectArgs) == 0) value = 1; } return (value); } /* * Can this platform run the lzma program? */ int canLzma(void) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("lzma -V %s", redirectArgs) == 0) value = 1; } return (value); } /* * Can this platform run the lzop program? */ int canLzop(void) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("lzop -V %s", redirectArgs) == 0) value = 1; } return (value); } /* * Can this platform run the xz program? */ int canXz(void) { static int tested = 0, value = 0; if (!tested) { tested = 1; if (systemf("xz -V %s", redirectArgs) == 0) value = 1; } return (value); } /* * Can this filesystem handle nodump flags. */ int canNodump(void) { #if defined(HAVE_STRUCT_STAT_ST_FLAGS) && defined(UF_NODUMP) const char *path = "cannodumptest"; struct stat sb; assertion_make_file(__FILE__, __LINE__, path, 0644, 0, NULL); if (chflags(path, UF_NODUMP) < 0) return (0); if (stat(path, &sb) < 0) return (0); if (sb.st_flags & UF_NODUMP) return (1); #elif (defined(FS_IOC_GETFLAGS) && defined(HAVE_WORKING_FS_IOC_GETFLAGS) \ && defined(FS_NODUMP_FL)) || \ (defined(EXT2_IOC_GETFLAGS) && defined(HAVE_WORKING_EXT2_IOC_GETFLAGS) \ && defined(EXT2_NODUMP_FL)) const char *path = "cannodumptest"; int fd, r, flags; assertion_make_file(__FILE__, __LINE__, path, 0644, 0, NULL); fd = open(path, O_RDONLY | O_NONBLOCK); if (fd < 0) return (0); r = ioctl(fd, #ifdef FS_IOC_GETFLAGS FS_IOC_GETFLAGS, #else EXT2_IOC_GETFLAGS, #endif &flags); if (r < 0) return (0); #ifdef FS_NODUMP_FL flags |= FS_NODUMP_FL; #else flags |= EXT2_NODUMP_FL; #endif r = ioctl(fd, #ifdef FS_IOC_SETFLAGS FS_IOC_SETFLAGS, #else EXT2_IOC_SETFLAGS, #endif &flags); if (r < 0) return (0); close(fd); fd = open(path, O_RDONLY | O_NONBLOCK); if (fd < 0) return (0); r = ioctl(fd, #ifdef FS_IOC_GETFLAGS FS_IOC_GETFLAGS, #else EXT2_IOC_GETFLAGS, #endif &flags); if (r < 0) return (0); close(fd); #ifdef FS_NODUMP_FL if (flags & FS_NODUMP_FL) #else if (flags & EXT2_NODUMP_FL) #endif return (1); #endif return (0); } /* Get extended attribute value from a path */ void * getXattr(const char *path, const char *name, size_t *sizep) { void *value = NULL; #if ARCHIVE_XATTR_SUPPORT ssize_t size; #if ARCHIVE_XATTR_LINUX size = lgetxattr(path, name, NULL, 0); #elif ARCHIVE_XATTR_DARWIN size = getxattr(path, name, NULL, 0, 0, XATTR_NOFOLLOW); #elif ARCHIVE_XATTR_AIX size = lgetea(path, name, NULL, 0); #elif ARCHIVE_XATTR_FREEBSD size = extattr_get_link(path, EXTATTR_NAMESPACE_USER, name + 5, NULL, 0); #endif if (size >= 0) { value = malloc(size); #if ARCHIVE_XATTR_LINUX size = lgetxattr(path, name, value, size); #elif ARCHIVE_XATTR_DARWIN size = getxattr(path, name, value, size, 0, XATTR_NOFOLLOW); #elif ARCHIVE_XATTR_AIX size = lgetea(path, name, value, size); #elif ARCHIVE_XATTR_FREEBSD size = extattr_get_link(path, EXTATTR_NAMESPACE_USER, name + 5, value, size); #endif if (size < 0) { free(value); value = NULL; } } if (size < 0) *sizep = 0; else *sizep = (size_t)size; #else /* !ARCHIVE_XATTR_SUPPORT */ (void)path; /* UNUSED */ (void)name; /* UNUSED */ *sizep = 0; #endif /* !ARCHIVE_XATTR_SUPPORT */ return (value); } /* * Set extended attribute on a path * Returns 0 on error, 1 on success */ int setXattr(const char *path, const char *name, const void *value, size_t size) { #if ARCHIVE_XATTR_SUPPORT #if ARCHIVE_XATTR_LINUX if (lsetxattr(path, name, value, size, 0) == 0) #elif ARCHIVE_XATTR_DARWIN if (setxattr(path, name, value, size, 0, XATTR_NOFOLLOW) == 0) #elif ARCHIVE_XATTR_AIX if (lsetea(path, name, value, size, 0) == 0) #elif ARCHIVE_XATTR_FREEBSD if (extattr_set_link(path, EXTATTR_NAMESPACE_USER, name + 5, value, size) > -1) #else if (0) #endif return (1); #else /* !ARCHIVE_XATTR_SUPPORT */ (void)path; /* UNUSED */ (void)name; /* UNUSED */ (void)value; /* UNUSED */ (void)size; /* UNUSED */ #endif /* !ARCHIVE_XATTR_SUPPORT */ return (0); } #if ARCHIVE_ACL_SUNOS /* Fetch ACLs on Solaris using acl() or facl() */ void * sunacl_get(int cmd, int *aclcnt, int fd, const char *path) { int cnt, cntcmd; size_t size; void *aclp; if (cmd == GETACL) { cntcmd = GETACLCNT; size = sizeof(aclent_t); } #if ARCHIVE_ACL_SUNOS_NFS4 else if (cmd == ACE_GETACL) { cntcmd = ACE_GETACLCNT; size = sizeof(ace_t); } #endif else { errno = EINVAL; *aclcnt = -1; return (NULL); } aclp = NULL; cnt = -2; while (cnt == -2 || (cnt == -1 && errno == ENOSPC)) { if (path != NULL) cnt = acl(path, cntcmd, 0, NULL); else cnt = facl(fd, cntcmd, 0, NULL); if (cnt > 0) { if (aclp == NULL) aclp = malloc(cnt * size); else aclp = realloc(NULL, cnt * size); if (aclp != NULL) { if (path != NULL) cnt = acl(path, cmd, cnt, aclp); else cnt = facl(fd, cmd, cnt, aclp); } } else { if (aclp != NULL) { free(aclp); aclp = NULL; } break; } } *aclcnt = cnt; return (aclp); } #endif /* ARCHIVE_ACL_SUNOS */ /* * Set test ACLs on a path * Return values: * 0: error setting ACLs * ARCHIVE_TEST_ACL_TYPE_POSIX1E: POSIX.1E ACLs have been set * ARCHIVE_TEST_ACL_TYPE_NFS4: NFSv4 or extended ACLs have been set */ int setTestAcl(const char *path) { #if ARCHIVE_ACL_SUPPORT int r = 1; #if ARCHIVE_ACL_LIBACL || ARCHIVE_ACL_FREEBSD || ARCHIVE_ACL_DARWIN acl_t acl; #endif #if ARCHIVE_ACL_LIBRICHACL struct richacl *richacl; #endif #if ARCHIVE_ACL_LIBACL || ARCHIVE_ACL_FREEBSD const char *acltext_posix1e = "user:1:rw-," "group:15:r-x," "user::rwx," "group::rwx," "other::r-x," "mask::rwx"; #elif ARCHIVE_ACL_SUNOS /* Solaris POSIX.1e */ aclent_t aclp_posix1e[] = { { USER_OBJ, -1, 4 | 2 | 1 }, { USER, 1, 4 | 2 }, { GROUP_OBJ, -1, 4 | 2 | 1 }, { GROUP, 15, 4 | 1 }, { CLASS_OBJ, -1, 4 | 2 | 1 }, { OTHER_OBJ, -1, 4 | 2 | 1 } }; #endif #if ARCHIVE_ACL_FREEBSD /* FreeBSD NFS4 */ const char *acltext_nfs4 = "user:1:rwpaRcs::allow:1," "group:15:rxaRcs::allow:15," "owner@:rwpxaARWcCos::allow," "group@:rwpxaRcs::allow," "everyone@:rxaRcs::allow"; #elif ARCHIVE_ACL_LIBRICHACL const char *acltext_nfs4 = "owner:rwpxaARWcCoS::mask," "group:rwpxaRcS::mask," "other:rxaRcS::mask," "user:1:rwpaRcS::allow," "group:15:rxaRcS::allow," "owner@:rwpxaARWcCoS::allow," "group@:rwpxaRcS::allow," "everyone@:rxaRcS::allow"; #elif ARCHIVE_ACL_SUNOS_NFS4 /* Solaris NFS4 */ ace_t aclp_nfs4[] = { { 1, ACE_READ_DATA | ACE_WRITE_DATA | ACE_APPEND_DATA | ACE_READ_ATTRIBUTES | ACE_READ_NAMED_ATTRS | ACE_READ_ACL | ACE_SYNCHRONIZE, 0, ACE_ACCESS_ALLOWED_ACE_TYPE }, { 15, ACE_READ_DATA | ACE_EXECUTE | ACE_READ_ATTRIBUTES | ACE_READ_NAMED_ATTRS | ACE_READ_ACL | ACE_SYNCHRONIZE, ACE_IDENTIFIER_GROUP, ACE_ACCESS_ALLOWED_ACE_TYPE }, { -1, ACE_READ_DATA | ACE_WRITE_DATA | ACE_APPEND_DATA | ACE_EXECUTE | ACE_READ_ATTRIBUTES | ACE_WRITE_ATTRIBUTES | ACE_READ_NAMED_ATTRS | ACE_WRITE_NAMED_ATTRS | ACE_READ_ACL | ACE_WRITE_ACL | ACE_WRITE_OWNER | ACE_SYNCHRONIZE, ACE_OWNER, ACE_ACCESS_ALLOWED_ACE_TYPE }, { -1, ACE_READ_DATA | ACE_WRITE_DATA | ACE_APPEND_DATA | ACE_EXECUTE | ACE_READ_ATTRIBUTES | ACE_READ_NAMED_ATTRS | ACE_READ_ACL | ACE_SYNCHRONIZE, ACE_GROUP | ACE_IDENTIFIER_GROUP, ACE_ACCESS_ALLOWED_ACE_TYPE }, { -1, ACE_READ_DATA | ACE_EXECUTE | ACE_READ_ATTRIBUTES | ACE_READ_NAMED_ATTRS | ACE_READ_ACL | ACE_SYNCHRONIZE, ACE_EVERYONE, ACE_ACCESS_ALLOWED_ACE_TYPE } }; #elif ARCHIVE_ACL_DARWIN /* Mac OS X */ acl_entry_t aclent; acl_permset_t permset; const uid_t uid = 1; uuid_t uuid; int i; const acl_perm_t acl_perms[] = { ACL_READ_DATA, ACL_WRITE_DATA, ACL_APPEND_DATA, ACL_EXECUTE, ACL_READ_ATTRIBUTES, ACL_READ_EXTATTRIBUTES, ACL_READ_SECURITY, #if HAVE_DECL_ACL_SYNCHRONIZE ACL_SYNCHRONIZE #endif }; #endif /* ARCHIVE_ACL_DARWIN */ #if ARCHIVE_ACL_FREEBSD acl = acl_from_text(acltext_nfs4); failure("acl_from_text() error: %s", strerror(errno)); if (assert(acl != NULL) == 0) return (0); #elif ARCHIVE_ACL_LIBRICHACL richacl = richacl_from_text(acltext_nfs4, NULL, NULL); failure("richacl_from_text() error: %s", strerror(errno)); if (assert(richacl != NULL) == 0) return (0); #elif ARCHIVE_ACL_DARWIN acl = acl_init(1); failure("acl_init() error: %s", strerror(errno)); if (assert(acl != NULL) == 0) return (0); r = acl_create_entry(&acl, &aclent); failure("acl_create_entry() error: %s", strerror(errno)); if (assertEqualInt(r, 0) == 0) goto testacl_free; r = acl_set_tag_type(aclent, ACL_EXTENDED_ALLOW); failure("acl_set_tag_type() error: %s", strerror(errno)); if (assertEqualInt(r, 0) == 0) goto testacl_free; r = acl_get_permset(aclent, &permset); failure("acl_get_permset() error: %s", strerror(errno)); if (assertEqualInt(r, 0) == 0) goto testacl_free; for (i = 0; i < (int)(sizeof(acl_perms) / sizeof(acl_perms[0])); i++) { r = acl_add_perm(permset, acl_perms[i]); failure("acl_add_perm() error: %s", strerror(errno)); if (assertEqualInt(r, 0) == 0) goto testacl_free; } r = acl_set_permset(aclent, permset); failure("acl_set_permset() error: %s", strerror(errno)); if (assertEqualInt(r, 0) == 0) goto testacl_free; r = mbr_uid_to_uuid(uid, uuid); failure("mbr_uid_to_uuid() error: %s", strerror(errno)); if (assertEqualInt(r, 0) == 0) goto testacl_free; r = acl_set_qualifier(aclent, uuid); failure("acl_set_qualifier() error: %s", strerror(errno)); if (assertEqualInt(r, 0) == 0) goto testacl_free; #endif /* ARCHIVE_ACL_DARWIN */ #if ARCHIVE_ACL_NFS4 #if ARCHIVE_ACL_FREEBSD r = acl_set_file(path, ACL_TYPE_NFS4, acl); acl_free(acl); #elif ARCHIVE_ACL_LIBRICHACL r = richacl_set_file(path, richacl); richacl_free(richacl); #elif ARCHIVE_ACL_SUNOS_NFS4 r = acl(path, ACE_SETACL, (int)(sizeof(aclp_nfs4)/sizeof(aclp_nfs4[0])), aclp_nfs4); #elif ARCHIVE_ACL_DARWIN r = acl_set_file(path, ACL_TYPE_EXTENDED, acl); acl_free(acl); #endif if (r == 0) return (ARCHIVE_TEST_ACL_TYPE_NFS4); #endif /* ARCHIVE_ACL_NFS4 */ #if ARCHIVE_ACL_POSIX1E #if ARCHIVE_ACL_FREEBSD || ARCHIVE_ACL_LIBACL acl = acl_from_text(acltext_posix1e); failure("acl_from_text() error: %s", strerror(errno)); if (assert(acl != NULL) == 0) return (0); r = acl_set_file(path, ACL_TYPE_ACCESS, acl); acl_free(acl); #elif ARCHIVE_ACL_SUNOS r = acl(path, SETACL, (int)(sizeof(aclp_posix1e)/sizeof(aclp_posix1e[0])), aclp_posix1e); #endif if (r == 0) return (ARCHIVE_TEST_ACL_TYPE_POSIX1E); else return (0); #endif /* ARCHIVE_ACL_POSIX1E */ #if ARCHIVE_ACL_DARWIN testacl_free: acl_free(acl); #endif #endif /* ARCHIVE_ACL_SUPPORT */ (void)path; /* UNUSED */ return (0); } /* * Sleep as needed; useful for verifying disk timestamp changes by * ensuring that the wall-clock time has actually changed before we * go back to re-read something from disk. */ void sleepUntilAfter(time_t t) { while (t >= time(NULL)) #if defined(_WIN32) && !defined(__CYGWIN__) Sleep(500); #else sleep(1); #endif } /* * Call standard system() call, but build up the command line using * sprintf() conventions. */ int systemf(const char *fmt, ...) { char buff[8192]; va_list ap; int r; va_start(ap, fmt); vsprintf(buff, fmt, ap); if (verbosity > VERBOSITY_FULL) logprintf("Cmd: %s\n", buff); r = system(buff); va_end(ap); return (r); } /* * Slurp a file into memory for ease of comparison and testing. * Returns size of file in 'sizep' if non-NULL, null-terminates * data in memory for ease of use. */ char * slurpfile(size_t * sizep, const char *fmt, ...) { char filename[8192]; struct stat st; va_list ap; char *p; ssize_t bytes_read; FILE *f; int r; va_start(ap, fmt); vsprintf(filename, fmt, ap); va_end(ap); f = fopen(filename, "rb"); if (f == NULL) { /* Note: No error; non-existent file is okay here. */ return (NULL); } r = fstat(fileno(f), &st); if (r != 0) { logprintf("Can't stat file %s\n", filename); fclose(f); return (NULL); } p = malloc((size_t)st.st_size + 1); if (p == NULL) { logprintf("Can't allocate %ld bytes of memory to read file %s\n", (long int)st.st_size, filename); fclose(f); return (NULL); } bytes_read = fread(p, 1, (size_t)st.st_size, f); if (bytes_read < st.st_size) { logprintf("Can't read file %s\n", filename); fclose(f); free(p); return (NULL); } p[st.st_size] = '\0'; if (sizep != NULL) *sizep = (size_t)st.st_size; fclose(f); return (p); } /* * Slurp a file into memory for ease of comparison and testing. * Returns size of file in 'sizep' if non-NULL, null-terminates * data in memory for ease of use. */ void dumpfile(const char *filename, void *data, size_t len) { ssize_t bytes_written; FILE *f; f = fopen(filename, "wb"); if (f == NULL) { logprintf("Can't open file %s for writing\n", filename); return; } bytes_written = fwrite(data, 1, len, f); if (bytes_written < (ssize_t)len) logprintf("Can't write file %s\n", filename); fclose(f); } /* Read a uuencoded file from the reference directory, decode, and * write the result into the current directory. */ #define VALID_UUDECODE(c) (c >= 32 && c <= 96) #define UUDECODE(c) (((c) - 0x20) & 0x3f) void extract_reference_file(const char *name) { char buff[1024]; FILE *in, *out; sprintf(buff, "%s/%s.uu", refdir, name); in = fopen(buff, "r"); failure("Couldn't open reference file %s", buff); assert(in != NULL); if (in == NULL) return; /* Read up to and including the 'begin' line. */ for (;;) { if (fgets(buff, sizeof(buff), in) == NULL) { /* TODO: This is a failure. */ return; } if (memcmp(buff, "begin ", 6) == 0) break; } /* Now, decode the rest and write it. */ out = fopen(name, "wb"); while (fgets(buff, sizeof(buff), in) != NULL) { char *p = buff; int bytes; if (memcmp(buff, "end", 3) == 0) break; bytes = UUDECODE(*p++); while (bytes > 0) { int n = 0; /* Write out 1-3 bytes from that. */ if (bytes > 0) { assert(VALID_UUDECODE(p[0])); assert(VALID_UUDECODE(p[1])); n = UUDECODE(*p++) << 18; n |= UUDECODE(*p++) << 12; fputc(n >> 16, out); --bytes; } if (bytes > 0) { assert(VALID_UUDECODE(p[0])); n |= UUDECODE(*p++) << 6; fputc((n >> 8) & 0xFF, out); --bytes; } if (bytes > 0) { assert(VALID_UUDECODE(p[0])); n |= UUDECODE(*p++); fputc(n & 0xFF, out); --bytes; } } } fclose(out); fclose(in); } void copy_reference_file(const char *name) { char buff[1024]; FILE *in, *out; size_t rbytes; sprintf(buff, "%s/%s", refdir, name); in = fopen(buff, "rb"); failure("Couldn't open reference file %s", buff); assert(in != NULL); if (in == NULL) return; /* Now, decode the rest and write it. */ /* Not a lot of error checking here; the input better be right. */ out = fopen(name, "wb"); while ((rbytes = fread(buff, 1, sizeof(buff), in)) > 0) { if (fwrite(buff, 1, rbytes, out) != rbytes) { logprintf("Error: fwrite\n"); break; } } fclose(out); fclose(in); } int is_LargeInode(const char *file) { #if defined(_WIN32) && !defined(__CYGWIN__) BY_HANDLE_FILE_INFORMATION bhfi; int r; r = my_GetFileInformationByName(file, &bhfi); if (r != 0) return (0); return (bhfi.nFileIndexHigh & 0x0000FFFFUL); #else struct stat st; int64_t ino; if (stat(file, &st) < 0) return (0); ino = (int64_t)st.st_ino; return (ino > 0xffffffff); #endif } void extract_reference_files(const char **names) { while (names && *names) extract_reference_file(*names++); } #ifndef PROGRAM /* Set ACLs */ int assertion_entry_set_acls(const char *file, int line, struct archive_entry *ae, struct archive_test_acl_t *acls, int n) { int i, r, ret; assertion_count(file, line); ret = 0; archive_entry_acl_clear(ae); for (i = 0; i < n; i++) { r = archive_entry_acl_add_entry(ae, acls[i].type, acls[i].permset, acls[i].tag, acls[i].qual, acls[i].name); if (r != 0) { ret = 1; failure_start(file, line, "type=%#010x, ", "permset=%#010x, tag=%d, qual=%d name=%s", acls[i].type, acls[i].permset, acls[i].tag, acls[i].qual, acls[i].name); failure_finish(NULL); } } return (ret); } static int archive_test_acl_match(struct archive_test_acl_t *acl, int type, int permset, int tag, int qual, const char *name) { if (type != acl->type) return (0); if (permset != acl->permset) return (0); if (tag != acl->tag) return (0); if (tag == ARCHIVE_ENTRY_ACL_USER_OBJ) return (1); if (tag == ARCHIVE_ENTRY_ACL_GROUP_OBJ) return (1); if (tag == ARCHIVE_ENTRY_ACL_EVERYONE) return (1); if (tag == ARCHIVE_ENTRY_ACL_OTHER) return (1); if (qual != acl->qual) return (0); if (name == NULL) { if (acl->name == NULL || acl->name[0] == '\0') return (1); return (0); } if (acl->name == NULL) { if (name[0] == '\0') return (1); return (0); } return (0 == strcmp(name, acl->name)); } /* Compare ACLs */ int assertion_entry_compare_acls(const char *file, int line, struct archive_entry *ae, struct archive_test_acl_t *acls, int cnt, int want_type, int mode) { int *marker; int i, r, n, ret; int type, permset, tag, qual; int matched; const char *name; assertion_count(file, line); ret = 0; n = 0; marker = malloc(sizeof(marker[0]) * cnt); for (i = 0; i < cnt; i++) { if ((acls[i].type & want_type) != 0) { marker[n] = i; n++; } } if (n == 0) { failure_start(file, line, "No ACL's to compare, type mask: %d", want_type); return (1); } while (0 == (r = archive_entry_acl_next(ae, want_type, &type, &permset, &tag, &qual, &name))) { for (i = 0, matched = 0; i < n && !matched; i++) { if (archive_test_acl_match(&acls[marker[i]], type, permset, tag, qual, name)) { /* We found a match; remove it. */ marker[i] = marker[n - 1]; n--; matched = 1; } } if (type == ARCHIVE_ENTRY_ACL_TYPE_ACCESS && tag == ARCHIVE_ENTRY_ACL_USER_OBJ) { if (!matched) { failure_start(file, line, "No match for " "user_obj perm"); failure_finish(NULL); ret = 1; } if ((permset << 6) != (mode & 0700)) { failure_start(file, line, "USER_OBJ permset " "(%02o) != user mode (%02o)", permset, 07 & (mode >> 6)); failure_finish(NULL); ret = 1; } } else if (type == ARCHIVE_ENTRY_ACL_TYPE_ACCESS && tag == ARCHIVE_ENTRY_ACL_GROUP_OBJ) { if (!matched) { failure_start(file, line, "No match for " "group_obj perm"); failure_finish(NULL); ret = 1; } if ((permset << 3) != (mode & 0070)) { failure_start(file, line, "GROUP_OBJ permset " "(%02o) != group mode (%02o)", permset, 07 & (mode >> 3)); failure_finish(NULL); ret = 1; } } else if (type == ARCHIVE_ENTRY_ACL_TYPE_ACCESS && tag == ARCHIVE_ENTRY_ACL_OTHER) { if (!matched) { failure_start(file, line, "No match for " "other perm"); failure_finish(NULL); ret = 1; } if ((permset << 0) != (mode & 0007)) { failure_start(file, line, "OTHER permset " "(%02o) != other mode (%02o)", permset, mode & 07); failure_finish(NULL); ret = 1; } } else if (matched != 1) { failure_start(file, line, "Could not find match for " "ACL (type=%#010x,permset=%#010x,tag=%d,qual=%d," "name=``%s'')", type, permset, tag, qual, name); failure_finish(NULL); ret = 1; } } if (r != ARCHIVE_EOF) { failure_start(file, line, "Should not exit before EOF"); failure_finish(NULL); ret = 1; } if ((want_type & ARCHIVE_ENTRY_ACL_TYPE_ACCESS) != 0 && (mode_t)(mode & 0777) != (archive_entry_mode(ae) & 0777)) { failure_start(file, line, "Mode (%02o) and entry mode (%02o) " "mismatch", mode, archive_entry_mode(ae)); failure_finish(NULL); ret = 1; } if (n != 0) { failure_start(file, line, "Could not find match for ACL " "(type=%#010x,permset=%#010x,tag=%d,qual=%d,name=``%s'')", acls[marker[0]].type, acls[marker[0]].permset, acls[marker[0]].tag, acls[marker[0]].qual, acls[marker[0]].name); failure_finish(NULL); ret = 1; /* Number of ACLs not matched should == 0 */ } free(marker); return (ret); } #endif /* !defined(PROGRAM) */ /* * * TEST management * */ /* * "list.h" is simply created by "grep DEFINE_TEST test_*.c"; it has * a line like * DEFINE_TEST(test_function) * for each test. */ /* Use "list.h" to declare all of the test functions. */ #undef DEFINE_TEST #define DEFINE_TEST(name) void name(void); #include "list.h" /* Use "list.h" to create a list of all tests (functions and names). */ #undef DEFINE_TEST #define DEFINE_TEST(n) { n, #n, 0 }, struct test_list_t tests[] = { #include "list.h" }; /* * Summarize repeated failures in the just-completed test. */ static void test_summarize(int failed, int skips_num) { unsigned int i; switch (verbosity) { case VERBOSITY_SUMMARY_ONLY: printf(failed ? "E" : "."); fflush(stdout); break; case VERBOSITY_PASSFAIL: printf(failed ? "FAIL\n" : skips_num ? "ok (S)\n" : "ok\n"); break; } log_console = (verbosity == VERBOSITY_LIGHT_REPORT); for (i = 0; i < sizeof(failed_lines)/sizeof(failed_lines[0]); i++) { if (failed_lines[i].count > 1 && !failed_lines[i].skip) logprintf("%s:%d: Summary: Failed %d times\n", failed_filename, i, failed_lines[i].count); } /* Clear the failure history for the next file. */ failed_filename = NULL; memset(failed_lines, 0, sizeof(failed_lines)); } /* * Actually run a single test, with appropriate setup and cleanup. */ static int test_run(int i, const char *tmpdir) { char workdir[1024]; char logfilename[64]; int failures_before = failures; int skips_before = skips; int oldumask; switch (verbosity) { case VERBOSITY_SUMMARY_ONLY: /* No per-test reports at all */ break; case VERBOSITY_PASSFAIL: /* rest of line will include ok/FAIL marker */ printf("%3d: %-64s", i, tests[i].name); fflush(stdout); break; default: /* Title of test, details will follow */ printf("%3d: %s\n", i, tests[i].name); } /* Chdir to the top-level work directory. */ if (!assertChdir(tmpdir)) { fprintf(stderr, "ERROR: Can't chdir to top work dir %s\n", tmpdir); exit(1); } /* Create a log file for this test. */ sprintf(logfilename, "%s.log", tests[i].name); logfile = fopen(logfilename, "w"); fprintf(logfile, "%s\n\n", tests[i].name); /* Chdir() to a work dir for this specific test. */ snprintf(workdir, sizeof(workdir), "%s/%s", tmpdir, tests[i].name); testworkdir = workdir; if (!assertMakeDir(testworkdir, 0755) || !assertChdir(testworkdir)) { fprintf(stderr, "ERROR: Can't chdir to work dir %s\n", testworkdir); exit(1); } /* Explicitly reset the locale before each test. */ setlocale(LC_ALL, "C"); /* Record the umask before we run the test. */ umask(oldumask = umask(0)); /* * Run the actual test. */ (*tests[i].func)(); /* * Clean up and report afterwards. */ testworkdir = NULL; /* Restore umask */ umask(oldumask); /* Reset locale. */ setlocale(LC_ALL, "C"); /* Reset directory. */ if (!assertChdir(tmpdir)) { fprintf(stderr, "ERROR: Couldn't chdir to temp dir %s\n", tmpdir); exit(1); } /* Report per-test summaries. */ tests[i].failures = failures - failures_before; test_summarize(tests[i].failures, skips - skips_before); /* Close the per-test log file. */ fclose(logfile); logfile = NULL; /* If there were no failures, we can remove the work dir and logfile. */ if (tests[i].failures == 0) { if (!keep_temp_files && assertChdir(tmpdir)) { #if defined(_WIN32) && !defined(__CYGWIN__) /* Make sure not to leave empty directories. * Sometimes a processing of closing files used by tests * is not done, then rmdir will be failed and it will * leave a empty test directory. So we should wait a few * seconds and retry rmdir. */ int r, t; for (t = 0; t < 10; t++) { if (t > 0) Sleep(1000); r = systemf("rmdir /S /Q %s", tests[i].name); if (r == 0) break; } systemf("del %s", logfilename); #else systemf("rm -rf %s", tests[i].name); systemf("rm %s", logfilename); #endif } } /* Return appropriate status. */ return (tests[i].failures); } /* * * * MAIN and support routines. * * */ static void usage(const char *program) { static const int limit = sizeof(tests) / sizeof(tests[0]); int i; printf("Usage: %s [options] ...\n", program); printf("Default is to run all tests.\n"); printf("Otherwise, specify the numbers of the tests you wish to run.\n"); printf("Options:\n"); printf(" -d Dump core after any failure, for debugging.\n"); printf(" -k Keep all temp files.\n"); printf(" Default: temp files for successful tests deleted.\n"); #ifdef PROGRAM printf(" -p Path to executable to be tested.\n"); printf(" Default: path taken from " ENVBASE " environment variable.\n"); #endif printf(" -q Quiet.\n"); printf(" -r Path to dir containing reference files.\n"); printf(" Default: Current directory.\n"); printf(" -u Keep running specifies tests until one fails.\n"); printf(" -v Verbose.\n"); printf("Available tests:\n"); for (i = 0; i < limit; i++) printf(" %d: %s\n", i, tests[i].name); exit(1); } static char * get_refdir(const char *d) { size_t tried_size, buff_size; char *buff, *tried, *pwd = NULL, *p = NULL; #ifdef PATH_MAX buff_size = PATH_MAX; #else buff_size = 8192; #endif buff = calloc(buff_size, 1); if (buff == NULL) { fprintf(stderr, "Unable to allocate memory\n"); exit(1); } /* Allocate a buffer to hold the various directories we checked. */ tried_size = buff_size * 2; tried = calloc(tried_size, 1); if (tried == NULL) { fprintf(stderr, "Unable to allocate memory\n"); exit(1); } /* If a dir was specified, try that */ if (d != NULL) { pwd = NULL; snprintf(buff, buff_size, "%s", d); p = slurpfile(NULL, "%s/%s", buff, KNOWNREF); if (p != NULL) goto success; strncat(tried, buff, tried_size - strlen(tried) - 1); strncat(tried, "\n", tried_size - strlen(tried) - 1); goto failure; } /* Get the current dir. */ #ifdef PATH_MAX pwd = getcwd(NULL, PATH_MAX);/* Solaris getcwd needs the size. */ #else pwd = getcwd(NULL, 0); #endif while (pwd[strlen(pwd) - 1] == '\n') pwd[strlen(pwd) - 1] = '\0'; /* Look for a known file. */ snprintf(buff, buff_size, "%s", pwd); p = slurpfile(NULL, "%s/%s", buff, KNOWNREF); if (p != NULL) goto success; strncat(tried, buff, tried_size - strlen(tried) - 1); strncat(tried, "\n", tried_size - strlen(tried) - 1); snprintf(buff, buff_size, "%s/test", pwd); p = slurpfile(NULL, "%s/%s", buff, KNOWNREF); if (p != NULL) goto success; strncat(tried, buff, tried_size - strlen(tried) - 1); strncat(tried, "\n", tried_size - strlen(tried) - 1); #if defined(LIBRARY) snprintf(buff, buff_size, "%s/%s/test", pwd, LIBRARY); #else snprintf(buff, buff_size, "%s/%s/test", pwd, PROGRAM); #endif p = slurpfile(NULL, "%s/%s", buff, KNOWNREF); if (p != NULL) goto success; strncat(tried, buff, tried_size - strlen(tried) - 1); strncat(tried, "\n", tried_size - strlen(tried) - 1); #if defined(PROGRAM_ALIAS) snprintf(buff, buff_size, "%s/%s/test", pwd, PROGRAM_ALIAS); p = slurpfile(NULL, "%s/%s", buff, KNOWNREF); if (p != NULL) goto success; strncat(tried, buff, tried_size - strlen(tried) - 1); strncat(tried, "\n", tried_size - strlen(tried) - 1); #endif if (memcmp(pwd, "/usr/obj", 8) == 0) { snprintf(buff, buff_size, "%s", pwd + 8); p = slurpfile(NULL, "%s/%s", buff, KNOWNREF); if (p != NULL) goto success; strncat(tried, buff, tried_size - strlen(tried) - 1); strncat(tried, "\n", tried_size - strlen(tried) - 1); snprintf(buff, buff_size, "%s/test", pwd + 8); p = slurpfile(NULL, "%s/%s", buff, KNOWNREF); if (p != NULL) goto success; strncat(tried, buff, tried_size - strlen(tried) - 1); strncat(tried, "\n", tried_size - strlen(tried) - 1); } failure: printf("Unable to locate known reference file %s\n", KNOWNREF); printf(" Checked following directories:\n%s\n", tried); printf("Use -r option to specify full path to reference directory\n"); #if defined(_WIN32) && !defined(__CYGWIN__) && defined(_DEBUG) DebugBreak(); #endif exit(1); success: free(p); free(pwd); free(tried); /* Copy result into a fresh buffer to reduce memory usage. */ p = strdup(buff); free(buff); return p; } int main(int argc, char **argv) { static const int limit = sizeof(tests) / sizeof(tests[0]); int test_set[sizeof(tests) / sizeof(tests[0])]; int i = 0, j = 0, tests_run = 0, tests_failed = 0, option; time_t now; char *refdir_alloc = NULL; const char *progname; char **saved_argv; const char *tmp, *option_arg, *p; char tmpdir[256], *pwd, *testprogdir, *tmp2 = NULL, *vlevel = NULL; char tmpdir_timestamp[256]; (void)argc; /* UNUSED */ /* Get the current dir. */ #ifdef PATH_MAX pwd = getcwd(NULL, PATH_MAX);/* Solaris getcwd needs the size. */ #else pwd = getcwd(NULL, 0); #endif while (pwd[strlen(pwd) - 1] == '\n') pwd[strlen(pwd) - 1] = '\0'; #if defined(HAVE__CrtSetReportMode) && !defined(__WATCOMC__) /* To stop to run the default invalid parameter handler. */ _set_invalid_parameter_handler(invalid_parameter_handler); /* Disable annoying assertion message box. */ _CrtSetReportMode(_CRT_ASSERT, 0); #endif /* * Name of this program, used to build root of our temp directory * tree. */ progname = p = argv[0]; if ((testprogdir = (char *)malloc(strlen(progname) + 1)) == NULL) { fprintf(stderr, "ERROR: Out of memory."); exit(1); } strcpy(testprogdir, progname); while (*p != '\0') { /* Support \ or / dir separators for Windows compat. */ if (*p == '/' || *p == '\\') { progname = p + 1; i = j; } ++p; j++; } testprogdir[i] = '\0'; #if defined(_WIN32) && !defined(__CYGWIN__) if (testprogdir[0] != '/' && testprogdir[0] != '\\' && !(((testprogdir[0] >= 'a' && testprogdir[0] <= 'z') || (testprogdir[0] >= 'A' && testprogdir[0] <= 'Z')) && testprogdir[1] == ':' && (testprogdir[2] == '/' || testprogdir[2] == '\\'))) #else if (testprogdir[0] != '/') #endif { /* Fixup path for relative directories. */ if ((testprogdir = (char *)realloc(testprogdir, strlen(pwd) + 1 + strlen(testprogdir) + 1)) == NULL) { fprintf(stderr, "ERROR: Out of memory."); exit(1); } memmove(testprogdir + strlen(pwd) + 1, testprogdir, strlen(testprogdir) + 1); memcpy(testprogdir, pwd, strlen(pwd)); testprogdir[strlen(pwd)] = '/'; } #ifdef PROGRAM /* Get the target program from environment, if available. */ testprogfile = getenv(ENVBASE); #endif if (getenv("TMPDIR") != NULL) tmp = getenv("TMPDIR"); else if (getenv("TMP") != NULL) tmp = getenv("TMP"); else if (getenv("TEMP") != NULL) tmp = getenv("TEMP"); else if (getenv("TEMPDIR") != NULL) tmp = getenv("TEMPDIR"); else tmp = "/tmp"; /* Allow -d to be controlled through the environment. */ if (getenv(ENVBASE "_DEBUG") != NULL) dump_on_failure = 1; /* Allow -v to be controlled through the environment. */ if (getenv("_VERBOSITY_LEVEL") != NULL) { vlevel = getenv("_VERBOSITY_LEVEL"); verbosity = atoi(vlevel); if (verbosity < VERBOSITY_SUMMARY_ONLY || verbosity > VERBOSITY_FULL) { /* Unsupported verbosity levels are silently ignored */ vlevel = NULL; verbosity = VERBOSITY_PASSFAIL; } } /* Get the directory holding test files from environment. */ refdir = getenv(ENVBASE "_TEST_FILES"); /* * Parse options, without using getopt(), which isn't available * on all platforms. */ ++argv; /* Skip program name */ while (*argv != NULL) { if (**argv != '-') break; p = *argv++; ++p; /* Skip '-' */ while (*p != '\0') { option = *p++; option_arg = NULL; /* If 'opt' takes an argument, parse that. */ if (option == 'p' || option == 'r') { if (*p != '\0') option_arg = p; else if (*argv == NULL) { fprintf(stderr, "Option -%c requires argument.\n", option); usage(progname); } else option_arg = *argv++; p = ""; /* End of this option word. */ } /* Now, handle the option. */ switch (option) { case 'd': dump_on_failure = 1; break; case 'k': keep_temp_files = 1; break; case 'p': #ifdef PROGRAM testprogfile = option_arg; #else fprintf(stderr, "-p option not permitted\n"); usage(progname); #endif break; case 'q': if (!vlevel) verbosity--; break; case 'r': refdir = option_arg; break; case 'u': until_failure++; break; case 'v': if (!vlevel) verbosity++; break; default: fprintf(stderr, "Unrecognized option '%c'\n", option); usage(progname); } } } /* * Sanity-check that our options make sense. */ #ifdef PROGRAM if (testprogfile == NULL) { if ((tmp2 = (char *)malloc(strlen(testprogdir) + 1 + strlen(PROGRAM) + 1)) == NULL) { fprintf(stderr, "ERROR: Out of memory."); exit(1); } strcpy(tmp2, testprogdir); strcat(tmp2, "/"); strcat(tmp2, PROGRAM); testprogfile = tmp2; } { char *testprg; #if defined(_WIN32) && !defined(__CYGWIN__) /* Command.com sometimes rejects '/' separators. */ testprg = strdup(testprogfile); for (i = 0; testprg[i] != '\0'; i++) { if (testprg[i] == '/') testprg[i] = '\\'; } testprogfile = testprg; #endif /* Quote the name that gets put into shell command lines. */ testprg = malloc(strlen(testprogfile) + 3); strcpy(testprg, "\""); strcat(testprg, testprogfile); strcat(testprg, "\""); testprog = testprg; } #endif #if !defined(_WIN32) && defined(SIGPIPE) { /* Ignore SIGPIPE signals */ struct sigaction sa; sa.sa_handler = SIG_IGN; sigemptyset(&sa.sa_mask); sa.sa_flags = 0; sigaction(SIGPIPE, &sa, NULL); } #endif /* * Create a temp directory for the following tests. * Include the time the tests started as part of the name, * to make it easier to track the results of multiple tests. */ now = time(NULL); for (i = 0; ; i++) { strftime(tmpdir_timestamp, sizeof(tmpdir_timestamp), "%Y-%m-%dT%H.%M.%S", localtime(&now)); sprintf(tmpdir, "%s/%s.%s-%03d", tmp, progname, tmpdir_timestamp, i); if (assertMakeDir(tmpdir,0755)) break; if (i >= 999) { fprintf(stderr, "ERROR: Unable to create temp directory %s\n", tmpdir); exit(1); } } /* * If the user didn't specify a directory for locating * reference files, try to find the reference files in * the "usual places." */ refdir = refdir_alloc = get_refdir(refdir); /* * Banner with basic information. */ printf("\n"); printf("If tests fail or crash, details will be in:\n"); printf(" %s\n", tmpdir); printf("\n"); if (verbosity > VERBOSITY_SUMMARY_ONLY) { printf("Reference files will be read from: %s\n", refdir); #ifdef PROGRAM printf("Running tests on: %s\n", testprog); #endif printf("Exercising: "); fflush(stdout); printf("%s\n", EXTRA_VERSION); } else { printf("Running "); fflush(stdout); } /* * Run some or all of the individual tests. */ saved_argv = argv; do { argv = saved_argv; do { int test_num; test_num = get_test_set(test_set, limit, *argv, tests); if (test_num < 0) { printf("*** INVALID Test %s\n", *argv); free(refdir_alloc); free(testprogdir); usage(progname); return (1); } for (i = 0; i < test_num; i++) { tests_run++; if (test_run(test_set[i], tmpdir)) { tests_failed++; if (until_failure) goto finish; } } if (*argv != NULL) argv++; } while (*argv != NULL); } while (until_failure); finish: /* Must be freed after all tests run */ free(tmp2); free(testprogdir); free(pwd); /* * Report summary statistics. */ if (verbosity > VERBOSITY_SUMMARY_ONLY) { printf("\n"); printf("Totals:\n"); printf(" Tests run: %8d\n", tests_run); printf(" Tests failed: %8d\n", tests_failed); printf(" Assertions checked:%8d\n", assertions); printf(" Assertions failed: %8d\n", failures); printf(" Skips reported: %8d\n", skips); } if (failures) { printf("\n"); printf("Failing tests:\n"); for (i = 0; i < limit; ++i) { if (tests[i].failures) printf(" %d: %s (%d failures)\n", i, tests[i].name, tests[i].failures); } printf("\n"); printf("Details for failing tests: %s\n", tmpdir); printf("\n"); } else { if (verbosity == VERBOSITY_SUMMARY_ONLY) printf("\n"); printf("%d tests passed, no failures\n", tests_run); } free(refdir_alloc); /* If the final tmpdir is empty, we can remove it. */ /* This should be the usual case when all tests succeed. */ assertChdir(".."); rmdir(tmpdir); return (tests_failed ? 1 : 0); }