#include "exile.h" #include #include #include #include #include #include #define LOG(...) do { fprintf(stdout, "%s(): ", __func__); fprintf(stdout, __VA_ARGS__); } while(0) int xexile_enable_policy(struct exile_policy *policy) { int ret = exile_enable_policy(policy); if(ret != 0) { LOG("failed: %i\n", ret); exit(EXIT_FAILURE); } return 0; } int test_default_main() { struct exile_policy *policy = exile_init_policy(); return xexile_enable_policy(policy); } static int test_expected_kill(int (*f)()) { pid_t pid = fork(); if(pid == 0) { return f(); } int status = 0; waitpid(pid, &status, 0); if(WIFSIGNALED(status)) { int c = WTERMSIG(status); if(c == SIGSYS) { LOG("Got expected signal\n"); return 0; } LOG("Unexpected status code: %i\n", c); return 1; } else { int c = WEXITSTATUS(status); LOG("Process was not killed, test fails. Status code of exit: %i\n", c); return 1; } return 0; } static int test_successful_exit(int (*f)()) { pid_t pid = fork(); if(pid == 0) { return f(); } int status = 0; waitpid(pid, &status, 0); if(WIFSIGNALED(status)) { int c = WTERMSIG(status); LOG("Received signal, which was not expected. Signal was: %i\n", c); return 1; } else { int c = WEXITSTATUS(status); if(c != 0) { LOG("Process failed to exit properly. Status code is: %i\n", c); } return c; } LOG("Process exited sucessfully as expected"); return 0; } static int do_test_seccomp_blacklisted() { struct exile_policy *policy = exile_init_policy(); exile_append_syscall_policy(policy,EXILE_SYS(getuid), EXILE_SYSCALL_DENY_KILL_PROCESS, NULL, 0); exile_append_syscall_default_policy(policy, EXILE_SYSCALL_ALLOW); xexile_enable_policy(policy); uid_t pid = syscall(EXILE_SYS(geteuid)); pid = syscall(EXILE_SYS(getuid)); return 0; } int test_seccomp_blacklisted() { return test_expected_kill(&do_test_seccomp_blacklisted); } static int do_test_seccomp_blacklisted_call_permitted() { struct exile_policy *policy = exile_init_policy(); exile_append_syscall_policy(policy, EXILE_SYS(getuid), EXILE_SYSCALL_DENY_KILL_PROCESS, NULL, 0); exile_append_syscall_default_policy(policy, EXILE_SYSCALL_ALLOW); xexile_enable_policy(policy); //geteuid is not blacklisted, so must succeed uid_t pid = syscall(EXILE_SYS(geteuid)); return 0; } int test_seccomp_blacklisted_call_permitted() { return test_successful_exit(&do_test_seccomp_blacklisted_call_permitted); } static int do_test_seccomp_x32_kill() { struct exile_policy *policy = exile_init_policy(); exile_append_syscall_policy(policy, EXILE_SYS(getuid), EXILE_SYSCALL_DENY_KILL_PROCESS, NULL, 0); exile_append_syscall_default_policy(policy, EXILE_SYSCALL_ALLOW); xexile_enable_policy(policy); /* Attempt to bypass by falling back to x32 should be blocked */ syscall(EXILE_SYS(getuid)+__X32_SYSCALL_BIT); return 0; } int test_seccomp_x32_kill() { return test_expected_kill(&do_test_seccomp_x32_kill); } /* Tests whether seccomp rules end with a policy matching all syscalls */ int test_seccomp_require_last_matchall() { struct exile_policy *policy = exile_init_policy(); exile_append_syscall_policy(policy, EXILE_SYS(getuid), EXILE_SYSCALL_DENY_KILL_PROCESS, NULL, 0); int status = exile_enable_policy(policy); if(status == 0) { LOG("Failed. Should not have been enabled!"); return 1; } return 0; } static int do_test_seccomp_errno() { struct exile_policy *policy = exile_init_policy(); exile_append_syscall_policy(policy, EXILE_SYS(close),EXILE_SYSCALL_DENY_RET_ERROR, NULL, 0); exile_append_syscall_default_policy(policy, EXILE_SYSCALL_ALLOW); xexile_enable_policy(policy); uid_t id = syscall(EXILE_SYS(getuid)); int fd = syscall(EXILE_SYS(close), 0); LOG("close() return code: %i, errno: %s\n", fd, strerror(errno)); return fd == -1 ? 0 : 1; } int test_seccomp_errno() { return test_successful_exit(&do_test_seccomp_errno); } int test_seccomp_argfilter_allowed() { struct exile_policy *policy = exile_init_policy(); struct sock_filter argfilter[2] = { BPF_STMT(BPF_LD+BPF_W+BPF_ABS, (offsetof(struct seccomp_data, args[1]))), BPF_JUMP(BPF_JMP+BPF_JSET+BPF_K, O_WRONLY, 0, EXILE_SYSCALL_EXIT_BPF_NO_MATCH) }; exile_append_syscall_policy(policy, EXILE_SYS(open),EXILE_SYSCALL_DENY_RET_ERROR, argfilter, 2); exile_append_syscall_default_policy(policy, EXILE_SYSCALL_ALLOW); xexile_enable_policy(policy); char *t = "/dev/random"; int ret = (int) syscall(EXILE_SYS(open),t, O_RDONLY); if(ret == -1) { printf("Failed: open was expected to succeed, but returned %i\n", ret); return 1; } return 0; } int test_seccomp_argfilter_filtered() { struct exile_policy *policy = exile_init_policy(); struct sock_filter argfilter[2] = { BPF_STMT(BPF_LD+BPF_W+BPF_ABS, (offsetof(struct seccomp_data, args[1]))), BPF_JUMP(BPF_JMP+BPF_JSET+BPF_K, O_WRONLY, 0, EXILE_SYSCALL_EXIT_BPF_NO_MATCH) }; exile_append_syscall_policy(policy, EXILE_SYS(open),EXILE_SYSCALL_DENY_RET_ERROR, argfilter, 2); exile_append_syscall_default_policy(policy, EXILE_SYSCALL_ALLOW); xexile_enable_policy(policy); char *t = "/dev/random"; int ret = (int) syscall(EXILE_SYS(open),t, O_WRONLY); if(ret != -1) { printf("Failed: open was expected to fail, but returned %i\n", ret); return 1; } return 0; } int test_seccomp_argfilter_mixed() { struct exile_policy *policy = exile_init_policy(); struct sock_filter argfilter[2] = { BPF_STMT(BPF_LD+BPF_W+BPF_ABS, (offsetof(struct seccomp_data, args[1]))), BPF_JUMP(BPF_JMP+BPF_JSET+BPF_K, O_WRONLY, 0, EXILE_SYSCALL_EXIT_BPF_NO_MATCH) }; exile_append_syscall_policy(policy, EXILE_SYS(stat),EXILE_SYSCALL_DENY_RET_ERROR, NULL,0); exile_append_syscall_policy(policy, EXILE_SYS(open),EXILE_SYSCALL_DENY_RET_ERROR, argfilter, 2); exile_append_syscall_policy(policy, EXILE_SYS(getpid),EXILE_SYSCALL_DENY_RET_ERROR, NULL, 0); exile_append_syscall_default_policy(policy, EXILE_SYSCALL_ALLOW); xexile_enable_policy(policy); struct stat statbuf; int s = (int) syscall(EXILE_SYS(stat), "/dev/urandom", &statbuf); if(s != -1) { LOG("Failed: stat was expected to fail, but returned %i\n", s); return 1; } pid_t p = (pid_t) syscall(EXILE_SYS(getpid)); if(p != -1) { LOG("Failed: getpid was expected to fail, but returned %i\n", p); return 1; } char *t = "/dev/random"; int ret = (int) syscall(EXILE_SYS(open),t, O_WRONLY); if(ret != -1) { LOG("Failed: open was expected to fail, but returned %i\n", ret); return 1; } ret = (int) syscall(EXILE_SYS(open), t, O_RDONLY); if(ret == -1) { LOG("Failed: open with O_RDONLY was expected to succeed, but returned %i\n", ret); return 1; } return 0; } int do_test_seccomp_vow_socket() { struct exile_policy *policy = exile_init_policy(); policy->vow_promises = EXILE_SYSCALL_VOW_STDIO | EXILE_SYSCALL_VOW_INET | EXILE_SYSCALL_VOW_DENY_ERROR; xexile_enable_policy(policy); int s = socket(AF_INET, SOCK_STREAM, 0); if(s == -1) { LOG("Failed: socket was expected to succeed, but returned %i\n", s); return 1; } s = socket(AF_UNIX, SOCK_DGRAM, 0); if(s != -1) { LOG("Failed: socket was expected to fail, but returned %i\n", s); return 1; } return 0; } int do_test_seccomp_vow_open() { struct exile_policy *policy = exile_init_policy(); policy->vow_promises = EXILE_SYSCALL_VOW_STDIO | EXILE_SYSCALL_VOW_RPATH | EXILE_SYSCALL_VOW_DENY_ERROR; xexile_enable_policy(policy); int ret = open("/dev/urandom", O_WRONLY | O_APPEND); if(ret != -1) { LOG("Failed: open was expected to fail, but returned %i\n", ret); return 1; } ret = open("/dev/urandom", O_RDWR); if(ret != -1) { LOG("Failed: open O_RDWR was expected to fail, but returned %i\n", ret); return 1; } ret = open("/dev/urandom", O_RDONLY); if(ret == -1) { LOG("Failed: open was expected to succceed, but returned %i\n", ret); return 1; } return 0; } int test_seccomp_vow() { int ret = test_successful_exit(&do_test_seccomp_vow_open); if(ret != 0) { LOG("Failed: do_test_seccomp_vow_open()\n"); return 1; } ret = test_successful_exit(&do_test_seccomp_vow_socket); if(ret != 0) { LOG("Failed: do_test_seccomp_vow_socket()\n"); return 1; } return 0; } int test_seccomp_exile_vow_multiple() { int ret = exile_vow(EXILE_SYSCALL_VOW_STDIO | EXILE_SYSCALL_VOW_UNIX | EXILE_SYSCALL_VOW_SECCOMP_INSTALL | EXILE_SYSCALL_VOW_DENY_ERROR); if(ret != 0) { LOG("Failed: exile_vow() call 1 failed\n"); return 1; } int s = socket(AF_UNIX, SOCK_STREAM, 0); if(s == -1) { LOG("Failed: socket was expected to succeed, but returned %i\n", s); return 1; } /* Let's take away unix sockets, so it should not be possible anymore */ ret = exile_vow(EXILE_SYSCALL_VOW_STDIO | EXILE_SYSCALL_VOW_SECCOMP_INSTALL | EXILE_SYSCALL_VOW_DENY_ERROR); if(ret != 0) { LOG("Failed: exile_vow() call 2 failed\n"); return 1; } s = socket(AF_UNIX, SOCK_STREAM, 0); if(s != -1) { LOG("Failed: socket was expected to fail, but returned %i\n", s); return 1; } /* Let's try to regain unix sockets again */ ret = exile_vow(EXILE_SYSCALL_VOW_STDIO | EXILE_SYSCALL_VOW_UNIX | EXILE_SYSCALL_VOW_SECCOMP_INSTALL | EXILE_SYSCALL_VOW_DENY_ERROR); if(ret != 0) { LOG("Failed: exile_vow() call 3 failed\n"); return 1; } s = socket(AF_UNIX, SOCK_STREAM, 0); if(s != -1) { LOG("Failed: socket was still expected to fail, but returned %i\n", s); return 1; } return 0; } #if HAVE_LANDLOCK == 1 int test_landlock() { if(!exile_landlock_is_available()) { LOG("landlock not available, so cannot test\n"); return 1; } struct exile_policy *policy = exile_init_policy(); exile_append_path_policies(policy, EXILE_FS_ALLOW_ALL_READ, "/proc/self/fd"); xexile_enable_policy(policy); int fd = open("/", O_RDONLY | O_CLOEXEC); if(fd < 0) { return 0; } return 1; } int test_landlock_deny_write() { struct exile_policy *policy = exile_init_policy(); exile_append_path_policies(policy, EXILE_FS_ALLOW_ALL_READ, "/tmp/"); xexile_enable_policy(policy); int fd = open("/tmp/a", O_WRONLY | O_CLOEXEC); if(fd < 0) { return 0; } return 1; } #else int test_landlock() { return 2; } int test_landlock_deny_write() { return 2; } #endif int test_nofs() { struct exile_policy *policy = exile_init_policy(); policy->no_fs = 1; xexile_enable_policy(policy); int s = socket(AF_INET,SOCK_STREAM,0); if(s == -1) { LOG("Failed to open socket but this was not requested by policy\n"); return 1; } /* Expect seccomp to take care of this */ if(open("/test", O_CREAT | O_WRONLY) >= 0) { LOG("Failed: We do not expect write access\n"); return 1; } return 0; } int test_no_new_fds() { struct exile_policy *policy = exile_init_policy(); policy->no_new_fds = 1; xexile_enable_policy(policy); if(open("/tmp/test", O_CREAT | O_WRONLY) >= 0) { LOG("Failed: Could open new file descriptor\n"); return -1; } int s = socket(AF_INET,SOCK_STREAM,0); if(s >= 0) { LOG("Failed: socket got opened but policy denied\n"); return -1; } return 0; } extern int mkpath(const char *p, mode_t mode, int baseisfile); int test_mkpath() { system("rm -rf /tmp/.exile.h/"); const char *filepath = "/tmp/.exile.h/test_mkpath/some/sub/dir/file"; const char *dirpath = "/tmp/.exile.h/test_mkpath/some/other/sub/dir"; int ret = mkpath(filepath, 0700, 1); if(ret != 0) { LOG("Failed: mkpath(file) returned: %i\n", ret); return 1; } ret = mkpath(dirpath, 0700, 0); if(ret != 0) { LOG("Failed: mkpath(dirpath) returned: %i\n", ret); return 1; } struct stat statbuf; ret = stat(filepath, &statbuf); if(ret != 0) { LOG("Failed: stat on filepath returned: %i\n", ret); return 1; } if(!S_ISREG(statbuf.st_mode)) { LOG("Failed: mkpath did not create a file: %i\n", ret); return 1; } ret = stat(dirpath, &statbuf); if(ret != 0) { LOG("Failed: stat on dirpath returned: %i\n", ret); return 1; } if(!S_ISDIR(statbuf.st_mode)) { LOG("Failed: mkpath did not create a directory: %i\n", ret); return 1; } system("rm -rf /tmp/.exile.h/"); return 0; } int test_fail_flags() { struct exile_policy *policy = exile_init_policy(); exile_append_path_policies(policy, EXILE_FS_ALLOW_ALL_READ, "/nosuchpathexists"); int ret = exile_enable_policy(policy); if(ret == 0) { fprintf(stderr, "Failed: A path that does not exist should have set the error flag %i\n", ret); return 1; } return 0; } static int *read_pipe = NULL; int do_launch_test(void *arg) { int num = *(int *)(arg); num += 1; char buffer[512] = { 0 }; read(*read_pipe, buffer, sizeof(buffer)-1); printf("Sandboxed +1: %i\n", num); printf("Echoing: %s\n", buffer); fflush(stdout); return 0; } int test_launch() { struct exile_policy *policy = exile_init_policy(); struct exile_launch_params params = { 0 }; struct exile_launch_result res = {0}; int num = 22; params.func = &do_launch_test; params.funcarg = # params.policy = policy; read_pipe = ¶ms.child_write_pipe[0]; int launchfd = exile_launch(¶ms, &res); if(launchfd < 0) { LOG("Failed to launch\n"); return 1; } char buffer[4096] = { 0 }; write(res.write_fd, "1234", 4); int s = read(res.read_fd, buffer, sizeof(buffer)-1); write(1, buffer, s); LOG("Before wait, got: %i\n", s); fflush(stdout); if(strstr(buffer, "Echoing: 1234") == NULL) { LOG("Failed: Did not get back what we wrote\n"); } int status = 0; waitpid(res.tid, &status, __WALL); if(WIFEXITED(status)) { status = WEXITSTATUS(status); return status; } return 1; } #define LAUNCH_GET_TEST_STR "Control yourself. Take only what you need from it.\n" int do_launch_get_test(void *a) { fprintf(stdout, LAUNCH_GET_TEST_STR); return 0; } int test_launch_get() { struct exile_policy *policy = exile_init_policy(); struct exile_launch_params params = { 0 }; params.func = &do_launch_get_test; params.funcarg = NULL; params.policy = policy; size_t n = 0; char *content = exile_launch_get(¶ms, &n); unsigned int len = strlen(LAUNCH_GET_TEST_STR); if(n != len) { LOG("Lenght does not match: %lu vs %u\n", n, len); return 1; } if(strcmp(content, LAUNCH_GET_TEST_STR) != 0) { LOG("Received content differs\n"); return 1; } return 0; } int test_vows_from_str() { uint64_t expected = EXILE_SYSCALL_VOW_CHOWN | EXILE_SYSCALL_VOW_WPATH | EXILE_SYSCALL_VOW_INET | EXILE_SYSCALL_VOW_DENY_ERROR; uint64_t actual = exile_vows_from_str("chown wpath inet error"); if(expected != actual) { LOG("Masks don't match: %lu vs %lu\n", expected, actual); return 1; } return 0; } int test_clone3_nosys() { struct exile_policy *policy = exile_init_policy(); policy->vow_promises = exile_vows_from_str("stdio rpath wpath cpath thread error"); exile_enable_policy(policy); /* While args are invalid, it should never reach clone3 syscall handler, so it's irrelevant for our test*/ long ret = syscall(__NR_clone3, NULL, 0); if(ret == -1 && errno != ENOSYS) { LOG("clone3() was not allowed but did not return ENOSYS. It returned: %li, errno: %i\n", ret, errno); return 1; } return 0; } int do_test_nsuidmap(const char *path, const char *firstfield, const char *secondfield, const char *thirdfield) { char *line = NULL; size_t n = 0; FILE *fp = fopen(path, "r"); int ret = getdelim(&line, &n, ' ', fp); while(ret != -1 && strlen(line) == 1 && *line == ' ') ret = getdelim(&line, &n, ' ', fp); if(ret == -1) { LOG("getdelim() failed to read a line from %s\n", path); return 1; } line[ret-1] = '\0'; if(strcmp(line, firstfield) != 0) { LOG("Invalid value for first entry in map: Expected: %s, was: %s\n", firstfield, line); return 1; } ret = getdelim(&line, &n, ' ', fp); while(ret != -1 && strlen(line) == 1 && *line == ' ') ret = getdelim(&line, &n, ' ', fp); if(ret == -1) { LOG("getdelim() failed to read a line from map\n"); return 1; } line[ret-1] = '\0'; if(strcmp(line, secondfield) != 0) { LOG("Invalid value for second entry in map: Expected: %s, was: %s\n", secondfield, line); return 1; } ret = getdelim(&line, &n, ' ', fp); while(ret != -1 && strlen(line) == 1 && *line == ' ') ret = getdelim(&line, &n, ' ', fp); if(ret == -1) { LOG("getdelim() failed to read a line from uid_map\n"); return 1; } line[ret-1] = '\0'; if(strcmp(line, thirdfield) != 0) { LOG("Invalid value for second entry in map: Expected: %s, was: %s\n", thirdfield, line); return 1; } fclose(fp); return 0; } int test_unshare_user() { char uidstr[64]; snprintf(uidstr, sizeof(uidstr), "%u", getuid()); char gidstr[64]; snprintf(gidstr, sizeof(gidstr), "%u", getgid()); struct exile_policy *policy = exile_init_policy(); policy->namespace_options = EXILE_UNSHARE_USER; xexile_enable_policy(policy); if(do_test_nsuidmap("/proc/self/uid_map", "0", uidstr, "1") != 0) { LOG("/proc/self/uid_map failed\n"); return 1; } if(do_test_nsuidmap("/proc/self/gid_map", "0", gidstr, "1") != 0) { LOG("/proc/self/gid_map failed\n"); return 1; } FILE *fp = fopen("/proc/self/setgroups", "r"); char buffer[4096] = { 0 }; fread(buffer, sizeof(buffer), 1, fp); fclose(fp); if(strcmp(buffer, "deny\n") != 0) { LOG("/proc/self/setgroups does not contain 'deny'\n"); return 1; } return 0; } int test_unshare_user_own_uid() { uid_t uid = getuid(); gid_t gid = getgid(); char uidstr[64]; snprintf(uidstr, sizeof(uidstr), "%u", uid); char gidstr[64]; snprintf(gidstr, sizeof(gidstr), "%u", gid); struct exile_policy *policy = exile_init_policy(); policy->namespace_options = EXILE_UNSHARE_USER; policy->namespace_gid = gid; policy->namespace_uid = uid; xexile_enable_policy(policy); if(do_test_nsuidmap("/proc/self/uid_map", uidstr, uidstr, "1") != 0) { LOG("/proc/self/uid_map failed\n"); return 1; } if(do_test_nsuidmap("/proc/self/gid_map", gidstr, gidstr, "1") != 0) { LOG("/proc/self/gid_map failed\n"); return 1; } FILE *fp = fopen("/proc/self/setgroups", "r"); char buffer[4096] = { 0 }; fread(buffer, sizeof(buffer), 1, fp); fclose(fp); if(strcmp(buffer, "deny\n") != 0) { LOG("/proc/self/setgroups does not contain 'deny'\n"); return 1; } return 0; } struct dispatcher { char *name; int (*f)(); }; struct dispatcher dispatchers[] = { { "default", &test_default_main }, { "seccomp-blacklisted", &test_seccomp_blacklisted}, { "seccomp-blacklisted-permitted", &test_seccomp_blacklisted_call_permitted}, { "seccomp-x32-kill", &test_seccomp_x32_kill}, { "seccomp-require-last-matchall", &test_seccomp_require_last_matchall}, { "seccomp-errno", &test_seccomp_errno}, { "seccomp-argfilter-allowed", &test_seccomp_argfilter_allowed}, { "seccomp-argfilter-filtered", &test_seccomp_argfilter_filtered}, { "seccomp-argfilter-mixed", &test_seccomp_argfilter_mixed}, { "seccomp-vow", &test_seccomp_vow}, { "seccomp-vow-exile_vow-multi", &test_seccomp_exile_vow_multiple}, { "landlock", &test_landlock}, { "landlock-deny-write", &test_landlock_deny_write }, { "no_fs", &test_nofs}, { "no_new_fds", &test_no_new_fds}, { "mkpath", &test_mkpath}, { "failflags", &test_fail_flags}, { "launch", &test_launch}, { "launch-get", &test_launch_get}, { "vow_from_str", &test_vows_from_str}, { "clone3_nosys", &test_clone3_nosys}, { "unshare-user", &test_unshare_user}, { "unshare-user-own-uid", &test_unshare_user_own_uid}, }; int main(int argc, char *argv[]) { if(argc < 2) { fprintf(stderr, "Usage: %s [testname]\n", argv[0]); return EXIT_FAILURE; } char *test = argv[1]; if(strcmp(test, "--dumptests") == 0) { for(unsigned int i = 0; i < sizeof(dispatchers)/sizeof(dispatchers[0]); i++) { printf("%s\n", dispatchers[i].name); } return EXIT_SUCCESS; } for(unsigned int i = 0; i < sizeof(dispatchers)/sizeof(dispatchers[0]); i++) { struct dispatcher *current = &dispatchers[i]; if(strcmp(current->name, test) == 0) { return current->f(); } } fprintf(stderr, "Unknown test\n"); return EXIT_FAILURE; }