int target_cfgfile_load (struct uae_prefs *p, const TCHAR *filename, int type, int isdefault) { int v, i, type2; int ct, ct2 = 0;//, size; char tmp1[MAX_DPATH], tmp2[MAX_DPATH]; char fname[MAX_DPATH]; _tcscpy (fname, filename); if (!zfile_exists (fname)) { fetch_configurationpath (fname, sizeof (fname) / sizeof (TCHAR)); if (_tcsncmp (fname, filename, _tcslen (fname))) _tcscat (fname, filename); else _tcscpy (fname, filename); } if (!isdefault) qs_override = 1; if (type < 0) { type = 0; cfgfile_get_description (fname, NULL, NULL, NULL, &type); } if (type == 0 || type == 1) { discard_prefs (p, 0); } type2 = type; if (type == 0) { default_prefs (p, type); } //regqueryint (NULL, "ConfigFile_NoAuto", &ct2); v = cfgfile_load (p, fname, &type2, ct2, isdefault ? 0 : 1); if (!v) return v; if (type > 0) return v; for (i = 1; i <= 2; i++) { if (type != i) { // size = sizeof (ct); ct = 0; //regqueryint (NULL, configreg2[i], &ct); if (ct && ((i == 1 && p->config_hardware_path[0] == 0) || (i == 2 && p->config_host_path[0] == 0) || ct2)) { // size = sizeof (tmp1) / sizeof (TCHAR); //regquerystr (NULL, configreg[i], tmp1, &size); fetch_path ("ConfigurationPath", tmp2, sizeof (tmp2) / sizeof (TCHAR)); _tcscat (tmp2, tmp1); v = i; cfgfile_load (p, tmp2, &v, 1, 0); } } } v = 1; return v; }
void addkeydir (const TCHAR *path) { TCHAR tmp[MAX_DPATH]; _tcscpy (tmp, path); if (zfile_exists (tmp)) { int i; for (i = _tcslen (tmp) - 1; i > 0; i--) { if (tmp[i] == '\\' || tmp[i] == '/') break; } tmp[i] = 0; } _tcscat (tmp, L"/"); _tcscat (tmp, L"rom.key"); addkeyfile (tmp); }
int zfile_test (bool verbose) { printf (" * zfile: "); // @selftest int rc = zfile_delete ("nosuchfile"); assert (rc == -1); rc = zfile_exists ("nosuchfile"); assert (rc != true); rc = (int) zfile_size ("nosuchfile"); assert (rc == -1); // @end printf ("OK\n"); return 0; }
void curvezmq_keypair_test (bool verbose) { printf (" * curvezmq_keypair: "); // @selftest // Generate new long-term key pair for our test server // The key pair will be stored in "secret.key" curvezmq_keypair_t *keypair = curvezmq_keypair_new (); int rc = curvezmq_keypair_save (keypair); assert (rc == 0); assert (zfile_exists ("secret.key")); assert (curvezmq_keypair_secret (keypair)); assert (curvezmq_keypair_public (keypair)); curvezmq_keypair_destroy (&keypair); // Done, clean-up zfile_delete ("public.key"); zfile_delete ("secret.key"); // @end printf ("OK\n"); }
void zfile_test (bool verbose) { printf (" * zfile: "); // @selftest const char *SELFTEST_DIR_RW = "src/selftest-rw"; const char *testbasedir = "this"; const char *testsubdir = "is/a/test"; const char *testfile = "bilbo"; const char *testlink = "bilbo.ln"; char *basedirpath = NULL; // subdir in a test, under SELFTEST_DIR_RW char *dirpath = NULL; // subdir in a test, under basedirpath char *filepath = NULL; // pathname to testfile in a test, in dirpath char *linkpath = NULL; // pathname to testlink in a test, in dirpath basedirpath = zsys_sprintf ("%s/%s", SELFTEST_DIR_RW, testbasedir); assert (basedirpath); dirpath = zsys_sprintf ("%s/%s", basedirpath, testsubdir); assert (dirpath); filepath = zsys_sprintf ("%s/%s", dirpath, testfile); assert (filepath); linkpath = zsys_sprintf ("%s/%s", dirpath, testlink); assert (linkpath); // This subtest is specifically for NULL as current directory, so // no SELFTEST_DIR_RW here; testfile should have no slashes inside. // Normally tests clean up in zfile_destroy(), but if a selftest run // dies e.g. on assert(), workspace remains dirty. Better clean it up. if (zfile_exists (testfile) ) { if (verbose) zsys_debug ("zfile_test() has to remove ./%s that should not have been here", testfile); zfile_delete (testfile); } zfile_t *file = zfile_new (NULL, testfile); assert (file); assert (streq (zfile_filename (file, "."), testfile)); assert (zfile_is_readable (file) == false); zfile_destroy (&file); // Create a test file in some random subdirectory if (verbose) zsys_debug ("zfile_test() at timestamp %" PRIi64 ": " "Creating new zfile %s", zclock_time(), filepath ); if (zfile_exists (filepath) ) { if (verbose) zsys_debug ("zfile_test() has to remove %s that should not have been here", filepath); zfile_delete (filepath); } file = zfile_new (dirpath, testfile); assert (file); int rc = zfile_output (file); assert (rc == 0); zchunk_t *chunk = zchunk_new (NULL, 100); assert (chunk); zchunk_fill (chunk, 0, 100); // Write 100 bytes at position 1,000,000 in the file if (verbose) zsys_debug ("zfile_test() at timestamp %" PRIi64 ": " "Writing 100 bytes at position 1,000,000 in the file", zclock_time() ); rc = zfile_write (file, chunk, 1000000); if (verbose) zsys_debug ("zfile_test() at timestamp %" PRIi64 ": " "Wrote 100 bytes at position 1,000,000 in the file, result code %d", zclock_time(), rc ); assert (rc == 0); zchunk_destroy (&chunk); zfile_close (file); assert (zfile_is_readable (file)); assert (zfile_cursize (file) == 1000100); if (verbose) zsys_debug ("zfile_test() at timestamp %" PRIi64 ": " "Testing if file is NOT stable (is younger than 1 sec)", zclock_time() ); assert (!zfile_is_stable (file)); if (verbose) zsys_debug ("zfile_test() at timestamp %" PRIi64 ": " "Passed the lag-dependent tests", zclock_time() ); assert (zfile_digest (file)); // Now truncate file from outside int handle = open (filepath, O_WRONLY | O_TRUNC | O_BINARY, 0); assert (handle >= 0); rc = write (handle, "Hello, World\n", 13); assert (rc == 13); close (handle); assert (zfile_has_changed (file)); #ifdef CZMQ_BUILD_DRAFT_API zclock_sleep ((int)zsys_file_stable_age_msec() + 50); #else zclock_sleep (5050); #endif assert (zfile_has_changed (file)); assert (!zfile_is_stable (file)); zfile_restat (file); assert (zfile_is_stable (file)); assert (streq (zfile_digest (file), "4AB299C8AD6ED14F31923DD94F8B5F5CB89DFB54")); // Check we can read from file rc = zfile_input (file); assert (rc == 0); chunk = zfile_read (file, 1000100, 0); assert (chunk); assert (zchunk_size (chunk) == 13); zchunk_destroy (&chunk); zfile_close (file); // Check we can read lines from file rc = zfile_input (file); assert (rc == 0); const char *line = zfile_readln (file); assert (streq (line, "Hello, World")); line = zfile_readln (file); assert (line == NULL); zfile_close (file); // Try some fun with symbolic links zfile_t *link = zfile_new (dirpath, testlink); assert (link); rc = zfile_output (link); assert (rc == 0); fprintf (zfile_handle (link), "%s\n", filepath); zfile_destroy (&link); link = zfile_new (dirpath, testlink); assert (link); rc = zfile_input (link); assert (rc == 0); chunk = zfile_read (link, 1000100, 0); assert (chunk); assert (zchunk_size (chunk) == 13); zchunk_destroy (&chunk); zfile_destroy (&link); // Remove file and directory zdir_t *dir = zdir_new (basedirpath, NULL); assert (dir); assert (zdir_cursize (dir) == 26); zdir_remove (dir, true); assert (zdir_cursize (dir) == 0); zdir_destroy (&dir); // Check we can no longer read from file assert (zfile_is_readable (file)); zfile_restat (file); assert (!zfile_is_readable (file)); rc = zfile_input (file); assert (rc == -1); zfile_destroy (&file); // This set of tests is done, free the strings for reuse zstr_free (&basedirpath); zstr_free (&dirpath); zstr_free (&filepath); zstr_free (&linkpath); const char *eof_checkfile = "eof_checkfile"; filepath = zsys_sprintf ("%s/%s", SELFTEST_DIR_RW, eof_checkfile); assert (filepath); if (zfile_exists (filepath) ) { if (verbose) zsys_debug ("zfile_test() has to remove %s that should not have been here", filepath); zfile_delete (filepath); } zstr_free (&filepath); file = zfile_new (SELFTEST_DIR_RW, eof_checkfile); assert (file); // 1. Write something first rc = zfile_output (file); assert (rc == 0); chunk = zchunk_new ("123456789", 9); assert (chunk); rc = zfile_write (file, chunk, 0); assert (rc == 0); zchunk_destroy (&chunk); zfile_close (file); assert (zfile_cursize (file) == 9); // 2. Read the written something rc = zfile_input (file); assert (rc != -1); // try to read more bytes than there is in the file chunk = zfile_read (file, 1000, 0); assert (zfile_eof(file)); assert (zchunk_streq (chunk, "123456789")); zchunk_destroy (&chunk); // reading is ok chunk = zfile_read (file, 5, 0); assert (!zfile_eof(file)); assert (zchunk_streq (chunk, "12345")); zchunk_destroy (&chunk); // read from non zero offset until the end chunk = zfile_read (file, 5, 5); assert (zfile_eof(file)); assert (zchunk_streq (chunk, "6789")); zchunk_destroy (&chunk); zfile_remove (file); zfile_close (file); zfile_destroy (&file); #ifdef CZMQ_BUILD_DRAFT_API zfile_t *tempfile = zfile_tmp (); assert (tempfile); assert (zfile_filename (tempfile, NULL)); assert (zsys_file_exists (zfile_filename (tempfile, NULL))); zchunk_t *tchunk = zchunk_new ("HELLO", 6); assert (zfile_write (tempfile, tchunk, 0) == 0); zchunk_destroy (&tchunk); char *filename = strdup (zfile_filename (tempfile, NULL)); zfile_destroy (&tempfile); assert (!zsys_file_exists (filename)); zstr_free (&filename); #endif // CZMQ_BUILD_DRAFT_API #if defined (__WINDOWS__) zsys_shutdown(); #endif // @end printf ("OK\n"); }