/* * * Copyright (c) International Business Machines Corp., 2002 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See * the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ /* 10/31/2002 Port to LTP robbiew@us.ibm.com */ /* 06/30/2001 Port to Linux nsharoff@us.ibm.com */ /* * NAME * test_func64.c - nftw64() calls these functions. */ #include "nftw64.h" extern pathdata pathdat[]; extern struct list mnem[], badlist[]; extern char *dirlist[NDIRLISTENTS]; extern const char *rw_fs_name; extern int npathdats, ngoods, nbads, nmnem, visit, next_fd[4]; extern FILE *temp; /* * Calling function should free the dirlist array. */ int test_func1(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { char *s; const char *p; temp = stderr; if ((s = malloc((size_t)(strlen((char *)path_name) + 1))) == NULL) { perror("malloc in test_func1"); return 999; } if ((p = strstr(path_name, NFTW)) != NULL) { p += strlen(NFTW); } else { p = path_name; } (void)strcpy(s, p); dirlist[visit++] = s; #ifdef DEBUG fprintf(temp, "INFO: Call to fn() at %s\n", path_name); #endif if (visit >= NDIRLISTENTS) { fprintf(temp, "ERROR: Too many paths traversed\n"); return 999; } return 0; } int test_func3(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { visit++; temp = stderr; #ifdef DEBUG fprintf(temp, "INFO: Call to fn() at %s\n", path_name); #endif if (visit >= NDIRLISTENTS) { fprintf(temp, "ERROR: Too many paths traversed\n"); return 999; } if (strcmp(path_name, "./tmp/data/dirl/dir_right.1/dir_right.2/right.3") == 0) { fprintf(temp, "ERROR: Target of right.3 was already reported so this file should not be\n"); return 999; } return 0; } int test_func4(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { visit++; do_info(path_name); /* Stop traversal once directory is visited. */ if (strcmp(path_name, "./tmp/data/d777") == 0) return 999; return 0; } int test_func5(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { char pathcwd[PATH_MAX]; temp = stderr; if (ftw_integer == FTW_D) return (0); if (getcwd(pathcwd, sizeof(pathcwd)) == NULL) { perror("getcwd"); return 998; } if (strstr(path_name, pathcwd) == 0) { fprintf(temp, "ERROR: For file %s cwd is %s\n", path_name, pathcwd); return 999; } return (0); } int test_func7(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { int i, found; const char *p; temp = stderr; do_info(path_name); if ((p = strstr(path_name, NFTW)) != NULL) { p += strlen(NFTW); } else { p = path_name; } for (found = i = 0; i < nbads; i++) { if (strcmp(p, badlist[i].s) == 0) { found++; break; } } if (!found) { fprintf(temp, "ERROR: Should not have traversed %s\n", path_name); return 999; } return 0; } int test_func8(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { int i; const char *p; struct stat st_buf; temp = stderr; do_info(path_name); if ((p = strstr(path_name, NFTW)) != NULL) { p += strlen(NFTW); } else { p = path_name; } for (i = 0; i < nbads; i++) { if (ftw_integer == FTW_D || ftw_integer == FTW_F || ftw_integer == FTW_SL) { if ((((ftw_integer == FTW_D) || (ftw_integer == FTW_F)) ? stat(path_name, &st_buf) : lstat(path_name, &st_buf)) == -1) { perror("stat"); return 999; } if (st_buf.st_dev != stat_pointer->st_dev) { fprintf(temp, "ERROR: st_dev members do not match for %s\n", path_name); return 999; } if (st_buf.st_ino != stat_pointer->st_ino) { fprintf(temp, "ERROR: st_ino members do not match for %s\n", path_name); return 999; } if (st_buf.st_mode != stat_pointer->st_mode) { fprintf(temp, "ERROR: st_mode members do not match for %s\n", path_name); return 999; } if (st_buf.st_nlink != stat_pointer->st_nlink) { fprintf(temp, "ERROR: st_nlink members d o not match for %s\n", path_name); return 999; } if (st_buf.st_uid != stat_pointer->st_uid) { fprintf(temp, "ERROR: st_uid members do not match for %s\n", path_name); return 999; } if (st_buf.st_gid != stat_pointer->st_gid) { fprintf(temp, "ERROR: st_gid members do not match for %s\n", path_name); return 999; } if (st_buf.st_size != stat_pointer->st_size) { fprintf(temp, "ERROR: st_size members do not match for %s\n", path_name); return 999; } } } return 0; } int test_func9(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { int i; const char *p; do_info(path_name); temp = stderr; if ((p = strstr(path_name, NFTW)) != NULL) { p += strlen(NFTW); } else { p = path_name; } for (i = 0; i < nbads; i++) { if (strcmp(p, badlist[i].s) == 0) { if (ftw_integer == FTW_F) { if (ftw_integer != badlist[i].i) { fprintf(temp, "ERROR: Bad thrid arg to fn () for %s\n", path_name); fprintf(temp, " Expected %s\n", ftw_mnemonic(badlist[i].i)); fprintf(temp, " Received %s\n", ftw_mnemonic(ftw_integer)); return 999; } } } } return 0; } int test_func10(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { int i; const char *p; temp = stderr; do_info(path_name); if ((p = strstr(path_name, NFTW)) != NULL) { p += strlen(NFTW); } else { p = path_name; } for (i = 0; i < nbads; i++) { if (strcmp(p, badlist[i].s) == 0) { if (ftw_integer == FTW_D) { if (ftw_integer != badlist[i].i) { fprintf(temp, "ERROR: Bad third arg to fn () for %s\n", path_name); fprintf(temp, " Expected %s\n", ftw_mnemonic(badlist[i].i)); fprintf(temp, " Received %s\n", ftw_mnemonic(ftw_integer)); return 999; } } } } return 0; } int test_func11(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { int i; const char *p; temp = stderr; do_info(path_name); if ((p = strstr(path_name, NFTW)) != NULL) { p += strlen(NFTW); } else { p = path_name; } for (i = 0; i < nbads; i++) { if (strcmp(p, badlist[i].s) == 0) { if (ftw_integer == FTW_DP) { if (ftw_integer != badlist[i].i) { fprintf(temp, "ERROR: Bad third arg to fn () for %s\n", path_name); fprintf(temp, " Expected %s\n", ftw_mnemonic(badlist[i].i)); fprintf(temp, " Received %s\n", ftw_mnemonic(ftw_integer)); return 999; } } } } return 0; } int test_func12(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { int i; const char *p; temp = stderr; do_info(path_name); if ((p = strstr(path_name, NFTW)) != NULL) { p += strlen(NFTW); } else { p = path_name; } for (i = 0; i < nbads; i++) { if (strcmp(p, badlist[i].s) == 0) { if (ftw_integer == FTW_SL) { if (ftw_integer != badlist[i].i) { fprintf(temp, "ERROR: Bad third arg to fn() for %s. Expected %s, Received %s\n", path_name, ftw_mnemonic(badlist[i].i), ftw_mnemonic(ftw_integer)); return 999; } } } } return 0; } int test_func13(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { int i; const char *p; temp = stderr; do_info(path_name); if ((p = strstr(path_name, NFTW)) != NULL) { p += strlen(NFTW); } else { p = path_name; } for (i = 0; i < nbads; i++) { if (strcmp(p, badlist[i].s) == 0) { if (ftw_integer == FTW_SLN) { if (ftw_integer != badlist[i].i) { fprintf(temp, "ERROR: Bad third arg to fn() for %s\n", path_name); fprintf(temp, " Expected %s\n", ftw_mnemonic(badlist[i].i)); fprintf(temp, " Received %s\n", ftw_mnemonic(ftw_integer)); return 999; } } } } return 0; } int test_func14(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { int i; const char *p; temp = stderr; do_info(path_name); if ((p = strstr(path_name, NFTW)) != NULL) { p += strlen(NFTW); } else { p = path_name; } for (i = 0; i < nbads; i++) { if (strcmp(p, badlist[i].s) == 0) { if (ftw_integer == FTW_DNR) { if (ftw_integer != badlist[i].i) { fprintf(temp, "ERROR: Bad third arg to fn() for %s\n", path_name); fprintf(temp, " Expected %s\n", ftw_mnemonic(badlist[i].i)); fprintf(temp, " Received %s\n", ftw_mnemonic(ftw_integer)); return 999; } } } } return 0; } int test_func15(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { temp = stderr; do_info(path_name); if (strcmp(path_name, "./tmp/data/d666/errs") == 0) { if (ftw_integer != FTW_NS) { fprintf(temp, "ERROR: FTW_NS not passed for file in unsearchable dir\n"); return 999; } } return 0; } int test_func16(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { const char *p; temp = stderr; if ((p = strstr(path_name, NFTW2)) != NULL) { p += strlen(NFTW2) + 1; } else { p = path_name; } if (ftwp->level != getlev(p)) { fprintf(temp, "ERROR: Incorrect value of level for %s\n", path_name); fprintf(temp, " Expected %d, received %d\n", getlev(p), ftwp->level); return 999; } if (ftwp->base != getbase(path_name)) { fprintf(temp, "ERROR: Incorrect value of base for %s\n", path_name); fprintf(temp, " Expected %d, received %d\n", getbase(path_name), ftwp->base); return 999; } return 0; } int test_func17(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { do_info(path_name); if (ftw_integer == FTW_SL) { visit++; return 999; } return 0; } int test_func18(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { do_info(path_name); if (ftw_integer == FTW_SLN) { visit++; return 999; } return 0; } int test_func19(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { do_info(path_name); temp = stderr; visit++; if (ftw_integer == FTW_DNR) { if (strcmp(path_name, "./tmp/data/d333") == 0) { return 0; } else { fprintf(temp, "ERROR: When FTW_DNR is passed to the function fn the\n"); fprintf(temp, " descendants of the directory should not have\n"); fprintf(temp, " Been processed\n"); return 999; } } else { fprintf(temp, "ERROR: Directory has read permission or FTW_DNR was not passed to fn\n"); return 999; } } int test_func20(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { return 0; } int test_func21(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { int fd; do_info(path_name); temp = stderr; /* get next file descriptor available */ if ((fd = open(path_name, O_RDONLY)) == -1) { perror("open"); return 999; } if (close(fd) == -1) { perror("close"); return 999; } if ((fd != next_fd[0]) && (fd != next_fd[1])) { fprintf(temp, "ERROR: Expected next fd available to be %d (none used) or %d (1 used)\n", next_fd[0], next_fd[1]); fprintf(temp, " Next fd available is %d\n", fd); return 999; } return 0; } int test_func22(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { int fd; int i; do_info(path_name); /* get next file descriptor available */ if ((fd = open(path_name, O_RDONLY)) == -1) { perror("open"); return 999; } if (close(fd) == -1) { perror("close"); return 999; } for (i = 0; i <= ftwp->level + 1; i++) { if (fd == next_fd[i]) return 0; } fprintf(temp, "ERROR: At the start of the traversal the next four fds were: %d, %d, %d, and %d\n", next_fd[0], next_fd[1], next_fd[2], next_fd[3]); fprintf(temp, " Traversing level %d the next fd is %d\n", ftwp->level, fd); return 999; } int test_func23(const char *path_name, const struct stat64 *stat_pointer, int ftw_integer, struct FTW *ftwp) { visit++; temp = stderr; do_info(path_name); if (ftw_integer == FTW_F) { #ifdef DEBUG fprintf(temp, "INFO: fn() returning non-zero after traversal of %d objects\n", visit); #endif return 999; } return 0; }