// SPDX-License-Identifier: GPL-2.0-or-later /* * Author: Aleksa Sarai * Copyright (C) 2018-2019 SUSE LLC. */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include "../kselftest.h" #include "helpers.h" /* * Construct a test directory with the following structure: * * root/ * |-- procexe -> /proc/self/exe * |-- procroot -> /proc/self/root * |-- root/ * |-- mnt/ [mountpoint] * | |-- self -> ../mnt/ * | `-- absself -> /mnt/ * |-- etc/ * | `-- passwd * |-- creatlink -> /newfile3 * |-- reletc -> etc/ * |-- relsym -> etc/passwd * |-- absetc -> /etc/ * |-- abssym -> /etc/passwd * |-- abscheeky -> /cheeky * `-- cheeky/ * |-- absself -> / * |-- self -> ../../root/ * |-- garbageself -> /../../root/ * |-- passwd -> ../cheeky/../cheeky/../etc/../etc/passwd * |-- abspasswd -> /../cheeky/../cheeky/../etc/../etc/passwd * |-- dotdotlink -> ../../../../../../../../../../../../../../etc/passwd * `-- garbagelink -> /../../../../../../../../../../../../../../etc/passwd */ int setup_testdir(void) { int dfd, tmpfd; char dirname[] = "/tmp/ksft-openat2-testdir.XXXXXX"; /* Unshare and make /tmp a new directory. */ E_unshare(CLONE_NEWNS); E_mount("", "/tmp", "", MS_PRIVATE, ""); /* Make the top-level directory. */ if (!mkdtemp(dirname)) ksft_exit_fail_msg("setup_testdir: failed to create tmpdir\n"); dfd = open(dirname, O_PATH | O_DIRECTORY); if (dfd < 0) ksft_exit_fail_msg("setup_testdir: failed to open tmpdir\n"); /* A sub-directory which is actually used for tests. */ E_mkdirat(dfd, "root", 0755); tmpfd = openat(dfd, "root", O_PATH | O_DIRECTORY); if (tmpfd < 0) ksft_exit_fail_msg("setup_testdir: failed to open tmpdir\n"); close(dfd); dfd = tmpfd; E_symlinkat("/proc/self/exe", dfd, "procexe"); E_symlinkat("/proc/self/root", dfd, "procroot"); E_mkdirat(dfd, "root", 0755); /* There is no mountat(2), so use chdir. */ E_mkdirat(dfd, "mnt", 0755); E_fchdir(dfd); E_mount("tmpfs", "./mnt", "tmpfs", MS_NOSUID | MS_NODEV, ""); E_symlinkat("../mnt/", dfd, "mnt/self"); E_symlinkat("/mnt/", dfd, "mnt/absself"); E_mkdirat(dfd, "etc", 0755); E_touchat(dfd, "etc/passwd"); E_symlinkat("/newfile3", dfd, "creatlink"); E_symlinkat("etc/", dfd, "reletc"); E_symlinkat("etc/passwd", dfd, "relsym"); E_symlinkat("/etc/", dfd, "absetc"); E_symlinkat("/etc/passwd", dfd, "abssym"); E_symlinkat("/cheeky", dfd, "abscheeky"); E_mkdirat(dfd, "cheeky", 0755); E_symlinkat("/", dfd, "cheeky/absself"); E_symlinkat("../../root/", dfd, "cheeky/self"); E_symlinkat("/../../root/", dfd, "cheeky/garbageself"); E_symlinkat("../cheeky/../etc/../etc/passwd", dfd, "cheeky/passwd"); E_symlinkat("/../cheeky/../etc/../etc/passwd", dfd, "cheeky/abspasswd"); E_symlinkat("../../../../../../../../../../../../../../etc/passwd", dfd, "cheeky/dotdotlink"); E_symlinkat("/../../../../../../../../../../../../../../etc/passwd", dfd, "cheeky/garbagelink"); return dfd; } struct basic_test { const char *name; const char *dir; const char *path; struct open_how how; bool pass; union { int err; const char *path; } out; }; #define NUM_OPENAT2_OPATH_TESTS 88 void test_openat2_opath_tests(void) { int rootfd, hardcoded_fd; char *procselfexe, *hardcoded_fdpath; E_asprintf(&procselfexe, "/proc/%d/exe", getpid()); rootfd = setup_testdir(); hardcoded_fd = open("/dev/null", O_RDONLY); E_assert(hardcoded_fd >= 0, "open fd to hardcode"); E_asprintf(&hardcoded_fdpath, "self/fd/%d", hardcoded_fd); struct basic_test tests[] = { /** RESOLVE_BENEATH **/ /* Attempts to cross dirfd should be blocked. */ { .name = "[beneath] jump to /", .path = "/", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] absolute link to $root", .path = "cheeky/absself", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] chained absolute links to $root", .path = "abscheeky/absself", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] jump outside $root", .path = "..", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] temporary jump outside $root", .path = "../root/", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] symlink temporary jump outside $root", .path = "cheeky/self", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] chained symlink temporary jump outside $root", .path = "abscheeky/self", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] garbage links to $root", .path = "cheeky/garbageself", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] chained garbage links to $root", .path = "abscheeky/garbageself", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, /* Only relative paths that stay inside dirfd should work. */ { .name = "[beneath] ordinary path to 'root'", .path = "root", .how.resolve = RESOLVE_BENEATH, .out.path = "root", .pass = true }, { .name = "[beneath] ordinary path to 'etc'", .path = "etc", .how.resolve = RESOLVE_BENEATH, .out.path = "etc", .pass = true }, { .name = "[beneath] ordinary path to 'etc/passwd'", .path = "etc/passwd", .how.resolve = RESOLVE_BENEATH, .out.path = "etc/passwd", .pass = true }, { .name = "[beneath] relative symlink inside $root", .path = "relsym", .how.resolve = RESOLVE_BENEATH, .out.path = "etc/passwd", .pass = true }, { .name = "[beneath] chained-'..' relative symlink inside $root", .path = "cheeky/passwd", .how.resolve = RESOLVE_BENEATH, .out.path = "etc/passwd", .pass = true }, { .name = "[beneath] absolute symlink component outside $root", .path = "abscheeky/passwd", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] absolute symlink target outside $root", .path = "abssym", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] absolute path outside $root", .path = "/etc/passwd", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] cheeky absolute path outside $root", .path = "cheeky/abspasswd", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] chained cheeky absolute path outside $root", .path = "abscheeky/abspasswd", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, /* Tricky paths should fail. */ { .name = "[beneath] tricky '..'-chained symlink outside $root", .path = "cheeky/dotdotlink", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] tricky absolute + '..'-chained symlink outside $root", .path = "abscheeky/dotdotlink", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] tricky garbage link outside $root", .path = "cheeky/garbagelink", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, { .name = "[beneath] tricky absolute + garbage link outside $root", .path = "abscheeky/garbagelink", .how.resolve = RESOLVE_BENEATH, .out.err = -EXDEV, .pass = false }, /** RESOLVE_IN_ROOT **/ /* All attempts to cross the dirfd will be scoped-to-root. */ { .name = "[in_root] jump to /", .path = "/", .how.resolve = RESOLVE_IN_ROOT, .out.path = NULL, .pass = true }, { .name = "[in_root] absolute symlink to /root", .path = "cheeky/absself", .how.resolve = RESOLVE_IN_ROOT, .out.path = NULL, .pass = true }, { .name = "[in_root] chained absolute symlinks to /root", .path = "abscheeky/absself", .how.resolve = RESOLVE_IN_ROOT, .out.path = NULL, .pass = true }, { .name = "[in_root] '..' at root", .path = "..", .how.resolve = RESOLVE_IN_ROOT, .out.path = NULL, .pass = true }, { .name = "[in_root] '../root' at root", .path = "../root/", .how.resolve = RESOLVE_IN_ROOT, .out.path = "root", .pass = true }, { .name = "[in_root] relative symlink containing '..' above root", .path = "cheeky/self", .how.resolve = RESOLVE_IN_ROOT, .out.path = "root", .pass = true }, { .name = "[in_root] garbage link to /root", .path = "cheeky/garbageself", .how.resolve = RESOLVE_IN_ROOT, .out.path = "root", .pass = true }, { .name = "[in_root] chained garbage links to /root", .path = "abscheeky/garbageself", .how.resolve = RESOLVE_IN_ROOT, .out.path = "root", .pass = true }, { .name = "[in_root] relative path to 'root'", .path = "root", .how.resolve = RESOLVE_IN_ROOT, .out.path = "root", .pass = true }, { .name = "[in_root] relative path to 'etc'", .path = "etc", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc", .pass = true }, { .name = "[in_root] relative path to 'etc/passwd'", .path = "etc/passwd", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] relative symlink to 'etc/passwd'", .path = "relsym", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] chained-'..' relative symlink to 'etc/passwd'", .path = "cheeky/passwd", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] chained-'..' absolute + relative symlink to 'etc/passwd'", .path = "abscheeky/passwd", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] absolute symlink to 'etc/passwd'", .path = "abssym", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] absolute path 'etc/passwd'", .path = "/etc/passwd", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] cheeky absolute path 'etc/passwd'", .path = "cheeky/abspasswd", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] chained cheeky absolute path 'etc/passwd'", .path = "abscheeky/abspasswd", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] tricky '..'-chained symlink outside $root", .path = "cheeky/dotdotlink", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] tricky absolute + '..'-chained symlink outside $root", .path = "abscheeky/dotdotlink", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] tricky absolute path + absolute + '..'-chained symlink outside $root", .path = "/../../../../abscheeky/dotdotlink", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] tricky garbage link outside $root", .path = "cheeky/garbagelink", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] tricky absolute + garbage link outside $root", .path = "abscheeky/garbagelink", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, { .name = "[in_root] tricky absolute path + absolute + garbage link outside $root", .path = "/../../../../abscheeky/garbagelink", .how.resolve = RESOLVE_IN_ROOT, .out.path = "etc/passwd", .pass = true }, /* O_CREAT should handle trailing symlinks correctly. */ { .name = "[in_root] O_CREAT of relative path inside $root", .path = "newfile1", .how.flags = O_CREAT, .how.mode = 0700, .how.resolve = RESOLVE_IN_ROOT, .out.path = "newfile1", .pass = true }, { .name = "[in_root] O_CREAT of absolute path", .path = "/newfile2", .how.flags = O_CREAT, .how.mode = 0700, .how.resolve = RESOLVE_IN_ROOT, .out.path = "newfile2", .pass = true }, { .name = "[in_root] O_CREAT of tricky symlink outside root", .path = "/creatlink", .how.flags = O_CREAT, .how.mode = 0700, .how.resolve = RESOLVE_IN_ROOT, .out.path = "newfile3", .pass = true }, /** RESOLVE_NO_XDEV **/ /* Crossing *down* into a mountpoint is disallowed. */ { .name = "[no_xdev] cross into $mnt", .path = "mnt", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, { .name = "[no_xdev] cross into $mnt/", .path = "mnt/", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, { .name = "[no_xdev] cross into $mnt/.", .path = "mnt/.", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, /* Crossing *up* out of a mountpoint is disallowed. */ { .name = "[no_xdev] goto mountpoint root", .dir = "mnt", .path = ".", .how.resolve = RESOLVE_NO_XDEV, .out.path = "mnt", .pass = true }, { .name = "[no_xdev] cross up through '..'", .dir = "mnt", .path = "..", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, { .name = "[no_xdev] temporary cross up through '..'", .dir = "mnt", .path = "../mnt", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, { .name = "[no_xdev] temporary relative symlink cross up", .dir = "mnt", .path = "self", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, { .name = "[no_xdev] temporary absolute symlink cross up", .dir = "mnt", .path = "absself", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, /* Jumping to "/" is ok, but later components cannot cross. */ { .name = "[no_xdev] jump to / directly", .dir = "mnt", .path = "/", .how.resolve = RESOLVE_NO_XDEV, .out.path = "/", .pass = true }, { .name = "[no_xdev] jump to / (from /) directly", .dir = "/", .path = "/", .how.resolve = RESOLVE_NO_XDEV, .out.path = "/", .pass = true }, { .name = "[no_xdev] jump to / then proc", .path = "/proc/1", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, { .name = "[no_xdev] jump to / then tmp", .path = "/tmp", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, /* Magic-links are blocked since they can switch vfsmounts. */ { .name = "[no_xdev] cross through magic-link to self/root", .dir = "/proc", .path = "self/root", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, { .name = "[no_xdev] cross through magic-link to self/cwd", .dir = "/proc", .path = "self/cwd", .how.resolve = RESOLVE_NO_XDEV, .out.err = -EXDEV, .pass = false }, /* Except magic-link jumps inside the same vfsmount. */ { .name = "[no_xdev] jump through magic-link to same procfs", .dir = "/proc", .path = hardcoded_fdpath, .how.resolve = RESOLVE_NO_XDEV, .out.path = "/proc", .pass = true, }, /** RESOLVE_NO_MAGICLINKS **/ /* Regular symlinks should work. */ { .name = "[no_magiclinks] ordinary relative symlink", .path = "relsym", .how.resolve = RESOLVE_NO_MAGICLINKS, .out.path = "etc/passwd", .pass = true }, /* Magic-links should not work. */ { .name = "[no_magiclinks] symlink to magic-link", .path = "procexe", .how.resolve = RESOLVE_NO_MAGICLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_magiclinks] normal path to magic-link", .path = "/proc/self/exe", .how.resolve = RESOLVE_NO_MAGICLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_magiclinks] normal path to magic-link with O_NOFOLLOW", .path = "/proc/self/exe", .how.flags = O_NOFOLLOW, .how.resolve = RESOLVE_NO_MAGICLINKS, .out.path = procselfexe, .pass = true }, { .name = "[no_magiclinks] symlink to magic-link path component", .path = "procroot/etc", .how.resolve = RESOLVE_NO_MAGICLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_magiclinks] magic-link path component", .path = "/proc/self/root/etc", .how.resolve = RESOLVE_NO_MAGICLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_magiclinks] magic-link path component with O_NOFOLLOW", .path = "/proc/self/root/etc", .how.flags = O_NOFOLLOW, .how.resolve = RESOLVE_NO_MAGICLINKS, .out.err = -ELOOP, .pass = false }, /** RESOLVE_NO_SYMLINKS **/ /* Normal paths should work. */ { .name = "[no_symlinks] ordinary path to '.'", .path = ".", .how.resolve = RESOLVE_NO_SYMLINKS, .out.path = NULL, .pass = true }, { .name = "[no_symlinks] ordinary path to 'root'", .path = "root", .how.resolve = RESOLVE_NO_SYMLINKS, .out.path = "root", .pass = true }, { .name = "[no_symlinks] ordinary path to 'etc'", .path = "etc", .how.resolve = RESOLVE_NO_SYMLINKS, .out.path = "etc", .pass = true }, { .name = "[no_symlinks] ordinary path to 'etc/passwd'", .path = "etc/passwd", .how.resolve = RESOLVE_NO_SYMLINKS, .out.path = "etc/passwd", .pass = true }, /* Regular symlinks are blocked. */ { .name = "[no_symlinks] relative symlink target", .path = "relsym", .how.resolve = RESOLVE_NO_SYMLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_symlinks] relative symlink component", .path = "reletc/passwd", .how.resolve = RESOLVE_NO_SYMLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_symlinks] absolute symlink target", .path = "abssym", .how.resolve = RESOLVE_NO_SYMLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_symlinks] absolute symlink component", .path = "absetc/passwd", .how.resolve = RESOLVE_NO_SYMLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_symlinks] cheeky garbage link", .path = "cheeky/garbagelink", .how.resolve = RESOLVE_NO_SYMLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_symlinks] cheeky absolute + garbage link", .path = "abscheeky/garbagelink", .how.resolve = RESOLVE_NO_SYMLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_symlinks] cheeky absolute + absolute symlink", .path = "abscheeky/absself", .how.resolve = RESOLVE_NO_SYMLINKS, .out.err = -ELOOP, .pass = false }, /* Trailing symlinks with NO_FOLLOW. */ { .name = "[no_symlinks] relative symlink with O_NOFOLLOW", .path = "relsym", .how.flags = O_NOFOLLOW, .how.resolve = RESOLVE_NO_SYMLINKS, .out.path = "relsym", .pass = true }, { .name = "[no_symlinks] absolute symlink with O_NOFOLLOW", .path = "abssym", .how.flags = O_NOFOLLOW, .how.resolve = RESOLVE_NO_SYMLINKS, .out.path = "abssym", .pass = true }, { .name = "[no_symlinks] trailing symlink with O_NOFOLLOW", .path = "cheeky/garbagelink", .how.flags = O_NOFOLLOW, .how.resolve = RESOLVE_NO_SYMLINKS, .out.path = "cheeky/garbagelink", .pass = true }, { .name = "[no_symlinks] multiple symlink components with O_NOFOLLOW", .path = "abscheeky/absself", .how.flags = O_NOFOLLOW, .how.resolve = RESOLVE_NO_SYMLINKS, .out.err = -ELOOP, .pass = false }, { .name = "[no_symlinks] multiple symlink (and garbage link) components with O_NOFOLLOW", .path = "abscheeky/garbagelink", .how.flags = O_NOFOLLOW, .how.resolve = RESOLVE_NO_SYMLINKS, .out.err = -ELOOP, .pass = false }, }; BUILD_BUG_ON(ARRAY_LEN(tests) != NUM_OPENAT2_OPATH_TESTS); for (int i = 0; i < ARRAY_LEN(tests); i++) { int dfd, fd; char *fdpath = NULL; bool failed; void (*resultfn)(const char *msg, ...) = ksft_test_result_pass; struct basic_test *test = &tests[i]; if (!openat2_supported) { ksft_print_msg("openat2(2) unsupported\n"); resultfn = ksft_test_result_skip; goto skip; } /* Auto-set O_PATH. */ if (!(test->how.flags & O_CREAT)) test->how.flags |= O_PATH; if (test->dir) dfd = openat(rootfd, test->dir, O_PATH | O_DIRECTORY); else dfd = dup(rootfd); E_assert(dfd, "failed to openat root '%s': %m", test->dir); E_dup2(dfd, hardcoded_fd); fd = sys_openat2(dfd, test->path, &test->how); if (test->pass) failed = (fd < 0 || !fdequal(fd, rootfd, test->out.path)); else failed = (fd != test->out.err); if (fd >= 0) { fdpath = fdreadlink(fd); close(fd); } close(dfd); if (failed) { resultfn = ksft_test_result_fail; ksft_print_msg("openat2 unexpectedly returned "); if (fdpath) ksft_print_msg("%d['%s']\n", fd, fdpath); else ksft_print_msg("%d (%s)\n", fd, strerror(-fd)); } skip: if (test->pass) resultfn("%s gives path '%s'\n", test->name, test->out.path ?: "."); else resultfn("%s fails with %d (%s)\n", test->name, test->out.err, strerror(-test->out.err)); fflush(stdout); free(fdpath); } free(procselfexe); close(rootfd); free(hardcoded_fdpath); close(hardcoded_fd); } #define NUM_TESTS NUM_OPENAT2_OPATH_TESTS int main(int argc, char **argv) { ksft_print_header(); ksft_set_plan(NUM_TESTS); /* NOTE: We should be checking for CAP_SYS_ADMIN here... */ if (geteuid() != 0) ksft_exit_skip("all tests require euid == 0\n"); test_openat2_opath_tests(); if (ksft_get_fail_cnt() + ksft_get_error_cnt() > 0) ksft_exit_fail(); else ksft_exit_pass(); }