/*- * Copyright (c) 2003-2007 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" __FBSDID("$FreeBSD: src/usr.bin/tar/test/test_copy.c,v 1.3 2008/08/15 06:12:02 kientzle Exp $"); #define LOOP_MAX 170 static void create_tree(void) { char buff[260]; char buff2[260]; int i; int fd; assertEqualInt(0, mkdir("original", 0775)); chdir("original"); assertEqualInt(0, mkdir("f", 0775)); assertEqualInt(0, mkdir("l", 0775)); assertEqualInt(0, mkdir("m", 0775)); assertEqualInt(0, mkdir("s", 0775)); assertEqualInt(0, mkdir("d", 0775)); for (i = 0; i < LOOP_MAX; i++) { buff[0] = 'f'; buff[1] = '/'; /* Create a file named "f/abcdef..." */ buff[i + 2] = 'a' + (i % 26); buff[i + 3] = '\0'; fd = open(buff, O_CREAT | O_WRONLY, 0644); assert(fd >= 0); assertEqualInt(i + 3, write(fd, buff, strlen(buff))); close(fd); /* Create a link named "l/abcdef..." to the above. */ strcpy(buff2, buff); buff2[0] = 'l'; assertEqualInt(0, link(buff, buff2)); /* Create a link named "m/abcdef..." to the above. */ strcpy(buff2, buff); buff2[0] = 'm'; assertEqualInt(0, link(buff, buff2)); /* Create a symlink named "s/abcdef..." to the above. */ strcpy(buff2 + 3, buff); buff[0] = 's'; buff2[0] = '.'; buff2[1] = '.'; buff2[2] = '/'; assertEqualInt(0, symlink(buff2, buff)); /* Create a dir named "d/abcdef...". */ buff[0] = 'd'; assertEqualInt(0, mkdir(buff, 0775)); } chdir(".."); } #define LIMIT_NONE 0 #define LIMIT_USTAR 1 static void verify_tree(int limit) { struct stat st, st2; char filename[260]; char name1[260]; char name2[260]; char contents[260]; int i, j, r; int fd; int len; const char *p, *dp; DIR *d; struct dirent *de; /* Generate the names we know should be there and verify them. */ for (i = 1; i < LOOP_MAX; i++) { /* Generate a base name of the correct length. */ for (j = 0; j < i; ++j) filename[j] = 'a' + (j % 26); #if 0 for (n = i; n > 0; n /= 10) filename[--j] = '0' + (n % 10); #endif filename[i] = '\0'; /* Verify a file named "f/abcdef..." */ strcpy(name1, "f/"); strcat(name1, filename); if (limit != LIMIT_USTAR || strlen(filename) <= 100) { fd = open(name1, O_RDONLY); failure("Couldn't open \"%s\": %s", name1, strerror(errno)); if (assert(fd >= 0)) { len = read(fd, contents, i + 10); close(fd); assertEqualInt(len, i + 2); /* Verify contents of 'contents' */ contents[len] = '\0'; failure("Each test file contains its own name"); assertEqualString(name1, contents); /* stat() for dev/ino for next check */ assertEqualInt(0, lstat(name1, &st)); } } /* * ustar allows 100 chars for links, and we have * "original/" as part of the name, so the link * names here can't exceed 91 chars. */ strcpy(name2, "l/"); strcat(name2, filename); if (limit != LIMIT_USTAR || strlen(name2) <= 100) { /* Verify hardlink "l/abcdef..." */ assertEqualInt(0, (r = lstat(name2, &st2))); if (r == 0) { assertEqualInt(st2.st_dev, st.st_dev); assertEqualInt(st2.st_ino, st.st_ino); } /* Verify hardlink "m_abcdef..." */ name2[0] = 'm'; assertEqualInt(0, (r = lstat(name2, &st2))); if (r == 0) { assertEqualInt(st2.st_dev, st.st_dev); assertEqualInt(st2.st_ino, st.st_ino); } } /* * Symlink text doesn't include the 'original/' prefix, * so the limit here is 100 characters. */ /* Verify symlink "s/abcdef..." */ strcpy(name2, "../s/"); strcat(name2, filename); if (limit != LIMIT_USTAR || strlen(name2) <= 100) { /* This is a symlink. */ failure("Couldn't stat %s (length %d)", filename, strlen(filename)); if (assertEqualInt(0, lstat(name2 + 3, &st2))) { assert(S_ISLNK(st2.st_mode)); /* This is a symlink to the file above. */ failure("Couldn't stat %s", name2 + 3); if (assertEqualInt(0, stat(name2 + 3, &st2))) { assertEqualInt(st2.st_dev, st.st_dev); assertEqualInt(st2.st_ino, st.st_ino); } } } /* Verify dir "d/abcdef...". */ strcpy(name1, "d/"); strcat(name1, filename); if (limit != LIMIT_USTAR || strlen(filename) < 100) { /* This is a dir. */ failure("Couldn't stat %s (length %d)", name1, strlen(filename)); if (assertEqualInt(0, lstat(name1, &st2))) { if (assert(S_ISDIR(st2.st_mode))) { /* TODO: opendir/readdir this * directory and make sure * it's empty. */ } } } } /* Now make sure nothing is there that shouldn't be. */ for (dp = "dflms"; *dp != '\0'; ++dp) { char dir[2]; dir[0] = *dp; dir[1] = '\0'; d = opendir(dir); failure("Unable to open dir '%s'", dir); if (!assert(d != NULL)) continue; while ((de = readdir(d)) != NULL) { p = de->d_name; switch(dp[0]) { case 'l': case 'm': if (limit == LIMIT_USTAR) { failure("strlen(p) = %d", strlen(p)); assert(strlen(p) <= 100); } case 'd': if (limit == LIMIT_USTAR) { failure("strlen(p)=%d", strlen(p)); assert(strlen(p) < 100); } case 'f': case 's': if (limit == LIMIT_USTAR) { failure("strlen(p)=%d", strlen(p)); assert(strlen(p) < 101); } /* Our files have very particular filename patterns. */ if (p[0] != '.' || (p[1] != '.' && p[1] != '\0')) { for (i = 0; p[i] != '\0' && i < LOOP_MAX; i++) { failure("i=%d, p[i]='%c' 'a'+(i%%26)='%c'", i, p[i], 'a' + (i % 26)); assertEqualInt(p[i], 'a' + (i % 26)); } assert(p[i] == '\0'); } break; case '.': assert(p[1] == '\0' || (p[1] == '.' && p[2] == '\0')); break; default: failure("File %s shouldn't be here", p); assert(0); } } closedir(d); } } static void copy_basic(void) { int r; assertEqualInt(0, mkdir("plain", 0775)); assertEqualInt(0, chdir("plain")); /* * Use the tar program to create an archive. */ r = systemf("%s cf archive -C ../original f d l m s >pack.out 2>pack.err", testprog); failure("Error invoking \"%s cf\"", testprog); assertEqualInt(r, 0); /* Verify that nothing went to stdout or stderr. */ assertEmptyFile("pack.err"); assertEmptyFile("pack.out"); /* * Use tar to unpack the archive into another directory. */ r = systemf("%s xf archive >unpack.out 2>unpack.err", testprog); failure("Error invoking %s xf archive", testprog); assertEqualInt(r, 0); /* Verify that nothing went to stdout or stderr. */ assertEmptyFile("unpack.err"); assertEmptyFile("unpack.out"); verify_tree(LIMIT_NONE); assertEqualInt(0, chdir("..")); } static void copy_ustar(void) { const char *target = "ustar"; int r; assertEqualInt(0, mkdir(target, 0775)); assertEqualInt(0, chdir(target)); /* * Use the tar program to create an archive. */ r = systemf("%s cf archive --format=ustar -C ../original f d l m s >pack.out 2>pack.err", testprog); failure("Error invoking \"%s cf archive --format=ustar\"", testprog); assertEqualInt(r, 0); /* Verify that nothing went to stdout. */ assertEmptyFile("pack.out"); /* Stderr is non-empty, since there are a bunch of files * with filenames too long to archive. */ /* * Use tar to unpack the archive into another directory. */ r = systemf("%s xf archive >unpack.out 2>unpack.err", testprog); failure("Error invoking %s xf archive", testprog); assertEqualInt(r, 0); /* Verify that nothing went to stdout or stderr. */ assertEmptyFile("unpack.err"); assertEmptyFile("unpack.out"); chdir("original"); verify_tree(LIMIT_USTAR); chdir("../.."); } DEFINE_TEST(test_copy) { int oldumask; oldumask = umask(0); create_tree(); /* Create sample files in "original" dir. */ /* Test simple "tar -c | tar -x" pipeline copy. */ copy_basic(); /* Same, but constrain to ustar format. */ copy_ustar(); umask(oldumask); }