int main (void) { /* Remove any garbage left from previous partial runs. */ ignore_value (system ("rm -rf " BASE "*")); return test_rename (rename, true); }
int atom_test(void) { error err; atom_set_t *d; d = atom_create_tuned(1, 12); if (d == NULL) return 1; err = test_add(d); if (err) return 1; err = test_to_string(d); if (err) return 1; err = test_to_string_and_len(d); if (err) return 1; err = test_delete(d); if (err) return 1; err = test_to_string_and_len(d); if (err) return 1; err = test_add(d); if (err) return 1; err = test_to_string(d); if (err) return 1; err = test_rename(d); if (err) return 1; err = test_to_string(d); if (err) return 1; err = test_to_string_and_len(d); if (err) return 1; err = test_random(d); if (err) return 1; atom_destroy(d); return 0; }
static void test_fs(void) { struct stat info; if(stat("/bin",&info) < 0) error("Unable to stat /bin"); /* don't try that on readonly-filesystems */ if((info.st_mode & S_IWUSR)) { test_basics(); test_perms(); test_rename(); test_largeFile(); } else printf("WARNING: Detected readonly filesystem; skipping the test\n\n"); }
int main() { int tx_port = 0; char *source = "test/test_defs.b"; sys_init(0); tx_server(source, "bin/state", &tx_port); vol_init(0, "bin/volume"); char *code = sys_load(source); env = env_new(source, code); mem_free(code); int len = 0; char **files = sys_list("test/data", &len); vars = vars_new(len); rvars = vars_new(len); for (int i = 0; i < len; ++i) { vars_add(rvars, files[i], 0, NULL); vars_add(vars, files[i], 0, NULL); } vars_add(vars, "___param", 0, NULL); test_vars(); test_load(); test_param(); test_clone(); test_eq(); test_store(); test_select(); test_rename(); test_extend(); test_join(); test_project(); test_semidiff(); test_summary(); test_union(); test_compound(); test_call(); tx_free(); env_free(env); mem_free(files); vars_free(vars); vars_free(rvars); return 0; }
int main () { /* Don't change the order of the calls. They partly depend on each other */ test_open (); test_write (); test_read (); test_lseek (); test_close (); test_stat (); test_fstat (); test_isatty (); test_system (); test_rename (); test_unlink (); test_time (); return 0; }
static void test_fs(void) { struct stat info; if(stat("/bin",&info) < 0) error("Unable to stat /bin"); if(getuid() != ROOT_UID) { printf("You are not root; skipping the test\n\n"); return; } /* don't try that on readonly-filesystems */ if(!(info.st_mode & S_IWUSR)) { printf("WARNING: Detected readonly filesystem; skipping the test\n\n"); return; } test_basics(); test_perms(); test_rename(); test_largeFile(); test_symlinks(); }
int main (void) { int i; int dfd; char *cwd; int result; /* Clean up any trash from prior testsuite runs. */ ignore_value (system ("rm -rf " BASE "*")); /* Test behaviour for invalid file descriptors. */ { errno = 0; ASSERT (renameat (-1, "foo", AT_FDCWD, "bar") == -1); ASSERT (errno == EBADF); } { errno = 0; ASSERT (renameat (99, "foo", AT_FDCWD, "bar") == -1); ASSERT (errno == EBADF); } ASSERT (close (creat (BASE "oo", 0600)) == 0); { errno = 0; ASSERT (renameat (AT_FDCWD, BASE "oo", -1, "bar") == -1); ASSERT (errno == EBADF); } { errno = 0; ASSERT (renameat (AT_FDCWD, BASE "oo", 99, "bar") == -1); ASSERT (errno == EBADF); } ASSERT (unlink (BASE "oo") == 0); /* Test basic rename functionality, using current directory. */ result = test_rename (do_rename, false); dfd1 = open (".", O_RDONLY); ASSERT (0 <= dfd1); ASSERT (test_rename (do_rename, false) == result); dfd2 = dfd1; ASSERT (test_rename (do_rename, false) == result); dfd1 = AT_FDCWD; ASSERT (test_rename (do_rename, false) == result); ASSERT (close (dfd2) == 0); /* Create locations to manipulate. */ ASSERT (mkdir (BASE "sub1", 0700) == 0); ASSERT (mkdir (BASE "sub2", 0700) == 0); dfd = creat (BASE "00", 0600); ASSERT (0 <= dfd); ASSERT (close (dfd) == 0); cwd = getcwd (NULL, 0); ASSERT (cwd); dfd = open (BASE "sub1", O_RDONLY); ASSERT (0 <= dfd); ASSERT (chdir (BASE "sub2") == 0); /* There are 16 possible scenarios, based on whether an fd is AT_FDCWD or real, and whether a file is absolute or relative. To ensure that we test all of the code paths (rather than triggering early normalization optimizations), we use a loop to repeatedly rename a file in the parent directory, use an fd open on subdirectory 1, all while executing in subdirectory 2; all relative names are thus given with a leading "../". Finally, the last scenario (two relative paths given, neither one AT_FDCWD) has two paths, based on whether the two fds are equivalent, so we do the other variant after the loop. */ for (i = 0; i < 16; i++) { int fd1 = (i & 8) ? dfd : AT_FDCWD; char *file1 = file_name_concat ((i & 4) ? ".." : cwd, BASE "xx", NULL); int fd2 = (i & 2) ? dfd : AT_FDCWD; char *file2 = file_name_concat ((i & 1) ? ".." : cwd, BASE "xx", NULL); ASSERT (sprintf (strchr (file1, '\0') - 2, "%02d", i) == 2); ASSERT (sprintf (strchr (file2, '\0') - 2, "%02d", i + 1) == 2); ASSERT (renameat (fd1, file1, fd2, file2) == 0); free (file1); free (file2); } dfd2 = open ("..", O_RDONLY); ASSERT (0 <= dfd2); ASSERT (renameat (dfd, "../" BASE "16", dfd2, BASE "17") == 0); ASSERT (close (dfd2) == 0); /* Now we change back to the parent directory, and set dfd to "."; using dfd in remaining tests will expose any bugs if emulation via /proc/self/fd doesn't check for empty names. */ ASSERT (chdir ("..") == 0); ASSERT (close (dfd) == 0); dfd = open (".", O_RDONLY); ASSERT (0 <= dfd); ASSERT (close (creat (BASE "sub2/file", 0600)) == 0); errno = 0; ASSERT (renameat (dfd, BASE "sub1", dfd, BASE "sub2") == -1); ASSERT (errno == EEXIST || errno == ENOTEMPTY); ASSERT (unlink (BASE "sub2/file") == 0); errno = 0; ASSERT (renameat (dfd, BASE "sub2", dfd, BASE "sub1/.") == -1); ASSERT (errno == EINVAL || errno == EISDIR || errno == EBUSY || errno == ENOTEMPTY || errno == EEXIST); errno = 0; ASSERT (renameat (dfd, BASE "sub2/.", dfd, BASE "sub1") == -1); ASSERT (errno == EINVAL || errno == EBUSY || errno == EEXIST); errno = 0; ASSERT (renameat (dfd, BASE "17", dfd, BASE "sub1") == -1); ASSERT (errno == EISDIR); errno = 0; ASSERT (renameat (dfd, BASE "nosuch", dfd, BASE "18") == -1); ASSERT (errno == ENOENT); errno = 0; ASSERT (renameat (dfd, "", dfd, BASE "17") == -1); ASSERT (errno == ENOENT); errno = 0; ASSERT (renameat (dfd, BASE "17", dfd, "") == -1); ASSERT (errno == ENOENT); errno = 0; ASSERT (renameat (dfd, BASE "sub2", dfd, BASE "17") == -1); ASSERT (errno == ENOTDIR); errno = 0; ASSERT (renameat (dfd, BASE "17/", dfd, BASE "18") == -1); ASSERT (errno == ENOTDIR); errno = 0; ASSERT (renameat (dfd, BASE "17", dfd, BASE "18/") == -1); ASSERT (errno == ENOTDIR || errno == ENOENT); /* Finally, make sure we can overwrite existing files. */ ASSERT (close (creat (BASE "sub2/file", 0600)) == 0); errno = 0; ASSERT (renameat (dfd, BASE "sub2", dfd, BASE "sub1") == 0); ASSERT (renameat (dfd, BASE "sub1/file", dfd, BASE "17") == 0); /* Cleanup. */ ASSERT (close (dfd) == 0); errno = 0; ASSERT (unlink (BASE "sub1/file") == -1); ASSERT (errno == ENOENT); ASSERT (unlink (BASE "17") == 0); ASSERT (rmdir (BASE "sub1") == 0); errno = 0; ASSERT (rmdir (BASE "sub2") == -1); ASSERT (errno == ENOENT); free (cwd); if (result) fputs ("skipping test: symlinks not supported on this file system\n", stderr); return result; }
int main(int argc, char **argv) { char workdir[1024]; char workdirbasename[1024]; char *nfsdir, *nfshost, *hosttemp=DEFAULT_HOSTTEMP; int c; int skipread=0, skipwrite=0, skipdir=0; while (1) { c=getopt(argc, argv, "o:t:l:f:c:"); if (c == -1) break; switch(c) { case '?': usage(argv[0]); /* notreached */ case 'o': if (!strcmp(optarg, "skipread")) { skipread=1; } else if (!strcmp(optarg, "skipwrite")) { skipwrite=1; } else if (!strcmp(optarg, "skipdir")) { skipdir=1; } else { printf("Unrecognized -o option: %s\n", optarg); usage(argv[0]); } break; case 't': hosttemp=strdup(optarg); break; case 'l': localtemp=strdup(optarg); break; case 'f': testfile=strdup(optarg); break; case 'c': testfiles=atoi(optarg); break; } } if (argc-optind != 2) { printf("Invalid number of required arguments\n"); usage(argv[0]); } nfshost=argv[optind++]; nfsdir=argv[optind++]; /* Begin */ test_statfs(nfsdir); /* Start with a fresh work area */ sprintf(workdirbasename, "tmp%d", getpid()); sprintf(workdir, "%s/%s", nfsdir, workdirbasename); printf("workdir is %s\n", workdir); test_mkdir(workdir); test_create(workdir); test_setattr(workdir); test_link(workdir); if (!skipread) test_read(nfsdir); if (!skipwrite) test_write(workdir, nfshost, hosttemp, workdirbasename); test_rename(workdir); if (!skipdir) test_readdir(workdir); test_remove(workdir); test_rmdir(workdir); return 0; }