external/minijail/libminijail.c

*4b9c6d91SCole Faust/* Copyright 2012 The ChromiumOS Authors
*4b9c6d91SCole Faust * Use of this source code is governed by a BSD-style license that can be
*4b9c6d91SCole Faust * found in the LICENSE file.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust#define _BSD_SOURCE
*4b9c6d91SCole Faust#define _DEFAULT_SOURCE
*4b9c6d91SCole Faust#define _GNU_SOURCE
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust#include <asm/unistd.h>
*4b9c6d91SCole Faust#include <assert.h>
*4b9c6d91SCole Faust#include <dirent.h>
*4b9c6d91SCole Faust#include <errno.h>
*4b9c6d91SCole Faust#include <fcntl.h>
*4b9c6d91SCole Faust#include <grp.h>
*4b9c6d91SCole Faust#include <linux/capability.h>
*4b9c6d91SCole Faust#include <linux/filter.h>
*4b9c6d91SCole Faust#include <sched.h>
*4b9c6d91SCole Faust#include <signal.h>
*4b9c6d91SCole Faust#include <stdbool.h>
*4b9c6d91SCole Faust#include <stddef.h>
*4b9c6d91SCole Faust#include <stdio.h>
*4b9c6d91SCole Faust#include <stdlib.h>
*4b9c6d91SCole Faust#include <string.h>
*4b9c6d91SCole Faust#include <sys/capability.h>
*4b9c6d91SCole Faust#include <sys/mount.h>
*4b9c6d91SCole Faust#include <sys/param.h>
*4b9c6d91SCole Faust#include <sys/prctl.h>
*4b9c6d91SCole Faust#include <sys/resource.h>
*4b9c6d91SCole Faust#include <sys/select.h>
*4b9c6d91SCole Faust#include <sys/stat.h>
*4b9c6d91SCole Faust#include <sys/sysmacros.h>
*4b9c6d91SCole Faust#include <sys/types.h>
*4b9c6d91SCole Faust#include <sys/user.h>
*4b9c6d91SCole Faust#include <sys/wait.h>
*4b9c6d91SCole Faust#include <syscall.h>
*4b9c6d91SCole Faust#include <unistd.h>
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust#include "landlock_util.h"
*4b9c6d91SCole Faust#include "libminijail-private.h"
*4b9c6d91SCole Faust#include "libminijail.h"
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust#include "signal_handler.h"
*4b9c6d91SCole Faust#include "syscall_filter.h"
*4b9c6d91SCole Faust#include "syscall_wrapper.h"
*4b9c6d91SCole Faust#include "system.h"
*4b9c6d91SCole Faust#include "util.h"
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* Until these are reliably available in linux/prctl.h. */
*4b9c6d91SCole Faust#ifndef PR_ALT_SYSCALL
*4b9c6d91SCole Faust#define PR_ALT_SYSCALL 0x43724f53
*4b9c6d91SCole Faust#endif
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* New cgroup namespace might not be in linux-headers yet. */
*4b9c6d91SCole Faust#ifndef CLONE_NEWCGROUP
*4b9c6d91SCole Faust#define CLONE_NEWCGROUP 0x02000000
*4b9c6d91SCole Faust#endif
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust#define MAX_CGROUPS 10 /* 10 different controllers supported by Linux. */
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust#define MAX_RLIMITS 32 /* Currently there are 15 supported by Linux. */
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust#define MAX_PRESERVED_FDS 128U
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* Keyctl commands. */
*4b9c6d91SCole Faust#define KEYCTL_JOIN_SESSION_KEYRING 1
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * The userspace equivalent of MNT_USER_SETTABLE_MASK, which is the mask of all
*4b9c6d91SCole Faust * flags that can be modified by MS_REMOUNT.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Faust#define MS_USER_SETTABLE_MASK                                                  \
*4b9c6d91SCole Faust	(MS_NOSUID | MS_NODEV | MS_NOEXEC | MS_NOATIME | MS_NODIRATIME |       \
*4b9c6d91SCole Faust	 MS_RELATIME | MS_RDONLY)
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * TODO(b/235960683): Drop this after CrOS upgrades to glibc >= 2.34
*4b9c6d91SCole Faust * because MS_NOSYMFOLLOW will be defined in sys/mount.h.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Faust#ifndef MS_NOSYMFOLLOW
*4b9c6d91SCole Faust/* Added locally in kernels 4.x+. */
*4b9c6d91SCole Faust#define MS_NOSYMFOLLOW 256
*4b9c6d91SCole Faust#endif
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct minijail_rlimit {
*4b9c6d91SCole Faust	int type;
*4b9c6d91SCole Faust	rlim_t cur;
*4b9c6d91SCole Faust	rlim_t max;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct mountpoint {
*4b9c6d91SCole Faust	char *src;
*4b9c6d91SCole Faust	char *dest;
*4b9c6d91SCole Faust	char *type;
*4b9c6d91SCole Faust	char *data;
*4b9c6d91SCole Faust	int has_data;
*4b9c6d91SCole Faust	unsigned long flags;
*4b9c6d91SCole Faust	struct mountpoint *next;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct minijail_remount {
*4b9c6d91SCole Faust	unsigned long remount_mode;
*4b9c6d91SCole Faust	char *mount_name;
*4b9c6d91SCole Faust	struct minijail_remount *next;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct hook {
*4b9c6d91SCole Faust	minijail_hook_t hook;
*4b9c6d91SCole Faust	void *payload;
*4b9c6d91SCole Faust	minijail_hook_event_t event;
*4b9c6d91SCole Faust	struct hook *next;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct fs_rule {
*4b9c6d91SCole Faust	char *path;
*4b9c6d91SCole Faust	uint64_t landlock_flags;
*4b9c6d91SCole Faust	struct fs_rule *next;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct preserved_fd {
*4b9c6d91SCole Faust	int parent_fd;
*4b9c6d91SCole Faust	int child_fd;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct minijail {
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * WARNING: if you add a flag here you need to make sure it's
*4b9c6d91SCole Faust	 * accounted for in minijail_pre{enter|exec}() below.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	struct {
*4b9c6d91SCole Faust		bool uid : 1;
*4b9c6d91SCole Faust		bool gid : 1;
*4b9c6d91SCole Faust		bool inherit_suppl_gids : 1;
*4b9c6d91SCole Faust		bool set_suppl_gids : 1;
*4b9c6d91SCole Faust		bool keep_suppl_gids : 1;
*4b9c6d91SCole Faust		bool use_caps : 1;
*4b9c6d91SCole Faust		bool capbset_drop : 1;
*4b9c6d91SCole Faust		bool set_ambient_caps : 1;
*4b9c6d91SCole Faust		bool vfs : 1;
*4b9c6d91SCole Faust		bool enter_vfs : 1;
*4b9c6d91SCole Faust		bool pids : 1;
*4b9c6d91SCole Faust		bool ipc : 1;
*4b9c6d91SCole Faust		bool uts : 1;
*4b9c6d91SCole Faust		bool net : 1;
*4b9c6d91SCole Faust		bool enter_net : 1;
*4b9c6d91SCole Faust		bool ns_cgroups : 1;
*4b9c6d91SCole Faust		bool userns : 1;
*4b9c6d91SCole Faust		bool disable_setgroups : 1;
*4b9c6d91SCole Faust		bool seccomp : 1;
*4b9c6d91SCole Faust		bool remount_proc_ro : 1;
*4b9c6d91SCole Faust		bool no_new_privs : 1;
*4b9c6d91SCole Faust		bool seccomp_filter : 1;
*4b9c6d91SCole Faust		bool seccomp_filter_tsync : 1;
*4b9c6d91SCole Faust		bool seccomp_filter_logging : 1;
*4b9c6d91SCole Faust		bool seccomp_filter_allow_speculation : 1;
*4b9c6d91SCole Faust		bool chroot : 1;
*4b9c6d91SCole Faust		bool pivot_root : 1;
*4b9c6d91SCole Faust		bool mount_dev : 1;
*4b9c6d91SCole Faust		bool mount_tmp : 1;
*4b9c6d91SCole Faust		bool do_init : 1;
*4b9c6d91SCole Faust		bool run_as_init : 1;
*4b9c6d91SCole Faust		bool pid_file : 1;
*4b9c6d91SCole Faust		bool cgroups : 1;
*4b9c6d91SCole Faust		bool alt_syscall : 1;
*4b9c6d91SCole Faust		bool reset_signal_mask : 1;
*4b9c6d91SCole Faust		bool reset_signal_handlers : 1;
*4b9c6d91SCole Faust		bool close_open_fds : 1;
*4b9c6d91SCole Faust		bool new_session_keyring : 1;
*4b9c6d91SCole Faust		bool forward_signals : 1;
*4b9c6d91SCole Faust		bool setsid : 1;
*4b9c6d91SCole Faust	} flags;
*4b9c6d91SCole Faust	uid_t uid;
*4b9c6d91SCole Faust	gid_t gid;
*4b9c6d91SCole Faust	gid_t usergid;
*4b9c6d91SCole Faust	char *user;
*4b9c6d91SCole Faust	size_t suppl_gid_count;
*4b9c6d91SCole Faust	gid_t *suppl_gid_list;
*4b9c6d91SCole Faust	uint64_t caps;
*4b9c6d91SCole Faust	uint64_t cap_bset;
*4b9c6d91SCole Faust	pid_t initpid;
*4b9c6d91SCole Faust	int mountns_fd;
*4b9c6d91SCole Faust	int netns_fd;
*4b9c6d91SCole Faust	char *chrootdir;
*4b9c6d91SCole Faust	char *pid_file_path;
*4b9c6d91SCole Faust	char *uidmap;
*4b9c6d91SCole Faust	char *gidmap;
*4b9c6d91SCole Faust	char *hostname;
*4b9c6d91SCole Faust	char *preload_path;
*4b9c6d91SCole Faust	size_t filter_len;
*4b9c6d91SCole Faust	struct sock_fprog *filter_prog;
*4b9c6d91SCole Faust	char *alt_syscall_table;
*4b9c6d91SCole Faust	struct mountpoint *mounts_head;
*4b9c6d91SCole Faust	struct mountpoint *mounts_tail;
*4b9c6d91SCole Faust	size_t mounts_count;
*4b9c6d91SCole Faust	unsigned long remount_mode;
*4b9c6d91SCole Faust	struct minijail_remount *remounts_head;
*4b9c6d91SCole Faust	struct minijail_remount *remounts_tail;
*4b9c6d91SCole Faust	size_t tmpfs_size;
*4b9c6d91SCole Faust	bool using_minimalistic_mountns;
*4b9c6d91SCole Faust	struct fs_rule *fs_rules_head;
*4b9c6d91SCole Faust	struct fs_rule *fs_rules_tail;
*4b9c6d91SCole Faust	char *cgroups[MAX_CGROUPS];
*4b9c6d91SCole Faust	size_t cgroup_count;
*4b9c6d91SCole Faust	struct minijail_rlimit rlimits[MAX_RLIMITS];
*4b9c6d91SCole Faust	size_t rlimit_count;
*4b9c6d91SCole Faust	uint64_t securebits_skip_mask;
*4b9c6d91SCole Faust	struct hook *hooks_head;
*4b9c6d91SCole Faust	struct hook *hooks_tail;
*4b9c6d91SCole Faust	struct preserved_fd preserved_fds[MAX_PRESERVED_FDS];
*4b9c6d91SCole Faust	size_t preserved_fd_count;
*4b9c6d91SCole Faust	char *seccomp_policy_path;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void run_hooks_or_die(const struct minijail *j,
*4b9c6d91SCole Faust			     minijail_hook_event_t event);
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic bool seccomp_is_logging_allowed(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	return seccomp_default_ret_log() || j->flags.seccomp_filter_logging;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void free_mounts_list(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	while (j->mounts_head) {
*4b9c6d91SCole Faust		struct mountpoint *m = j->mounts_head;
*4b9c6d91SCole Faust		j->mounts_head = j->mounts_head->next;
*4b9c6d91SCole Faust		free(m->data);
*4b9c6d91SCole Faust		free(m->type);
*4b9c6d91SCole Faust		free(m->dest);
*4b9c6d91SCole Faust		free(m->src);
*4b9c6d91SCole Faust		free(m);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	// No need to clear mounts_head as we know it's NULL after the loop.
*4b9c6d91SCole Faust	j->mounts_tail = NULL;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void free_remounts_list(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	while (j->remounts_head) {
*4b9c6d91SCole Faust		struct minijail_remount *m = j->remounts_head;
*4b9c6d91SCole Faust		j->remounts_head = j->remounts_head->next;
*4b9c6d91SCole Faust		free(m->mount_name);
*4b9c6d91SCole Faust		free(m);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	// No need to clear remounts_head as we know it's NULL after the loop.
*4b9c6d91SCole Faust	j->remounts_tail = NULL;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Writes exactly n bytes from buf to file descriptor fd.
*4b9c6d91SCole Faust * Returns 0 on success or a negative error code on error.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststatic int write_exactly(int fd, const void *buf, size_t n)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	const char *p = buf;
*4b9c6d91SCole Faust	while (n > 0) {
*4b9c6d91SCole Faust		const ssize_t written = write(fd, p, n);
*4b9c6d91SCole Faust		if (written < 0) {
*4b9c6d91SCole Faust			if (errno == EINTR)
*4b9c6d91SCole Faust				continue;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust			return -errno;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		p += written;
*4b9c6d91SCole Faust		n -= written;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* Closes *pfd and sets it to -1. */
*4b9c6d91SCole Fauststatic void close_and_reset(int *pfd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (*pfd != -1)
*4b9c6d91SCole Faust		close(*pfd);
*4b9c6d91SCole Faust	*pfd = -1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Strip out flags meant for the parent.
*4b9c6d91SCole Faust * We keep things that are not inherited across execve(2) (e.g. capabilities),
*4b9c6d91SCole Faust * or are easier to set after execve(2) (e.g. seccomp filters).
*4b9c6d91SCole Faust */
*4b9c6d91SCole Faustvoid minijail_preenter(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.vfs = 0;
*4b9c6d91SCole Faust	j->flags.enter_vfs = 0;
*4b9c6d91SCole Faust	j->flags.ns_cgroups = 0;
*4b9c6d91SCole Faust	j->flags.net = 0;
*4b9c6d91SCole Faust	j->flags.uts = 0;
*4b9c6d91SCole Faust	j->flags.remount_proc_ro = 0;
*4b9c6d91SCole Faust	j->flags.pids = 0;
*4b9c6d91SCole Faust	j->flags.do_init = 0;
*4b9c6d91SCole Faust	j->flags.run_as_init = 0;
*4b9c6d91SCole Faust	j->flags.pid_file = 0;
*4b9c6d91SCole Faust	j->flags.cgroups = 0;
*4b9c6d91SCole Faust	j->flags.forward_signals = 0;
*4b9c6d91SCole Faust	j->flags.setsid = 0;
*4b9c6d91SCole Faust	j->remount_mode = 0;
*4b9c6d91SCole Faust	free_remounts_list(j);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* Adds a rule for a given path to apply once minijail is entered. */
*4b9c6d91SCole Faustint add_fs_restriction_path(struct minijail *j,
*4b9c6d91SCole Faust		const char *path,
*4b9c6d91SCole Faust		uint64_t landlock_flags)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct fs_rule *r = calloc(1, sizeof(*r));
*4b9c6d91SCole Faust	if (!r)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	r->path = strdup(path);
*4b9c6d91SCole Faust	r->landlock_flags = landlock_flags;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->fs_rules_tail) {
*4b9c6d91SCole Faust		j->fs_rules_tail->next = r;
*4b9c6d91SCole Faust		j->fs_rules_tail = r;
*4b9c6d91SCole Faust	} else {
*4b9c6d91SCole Faust		j->fs_rules_head = r;
*4b9c6d91SCole Faust		j->fs_rules_tail = r;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustbool mount_has_bind_flag(struct mountpoint *m) {
*4b9c6d91SCole Faust	return !!(m->flags & MS_BIND);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustbool mount_has_readonly_flag(struct mountpoint *m) {
*4b9c6d91SCole Faust	return !!(m->flags & MS_RDONLY);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustbool mount_events_allowed(struct mountpoint *m) {
*4b9c6d91SCole Faust	return !!(m->flags & MS_SHARED) || !!(m->flags & MS_SLAVE);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Strip out flags meant for the child.
*4b9c6d91SCole Faust * We keep things that are inherited across execve(2).
*4b9c6d91SCole Faust */
*4b9c6d91SCole Faustvoid minijail_preexec(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	int vfs = j->flags.vfs;
*4b9c6d91SCole Faust	int enter_vfs = j->flags.enter_vfs;
*4b9c6d91SCole Faust	int ns_cgroups = j->flags.ns_cgroups;
*4b9c6d91SCole Faust	int net = j->flags.net;
*4b9c6d91SCole Faust	int uts = j->flags.uts;
*4b9c6d91SCole Faust	int remount_proc_ro = j->flags.remount_proc_ro;
*4b9c6d91SCole Faust	int userns = j->flags.userns;
*4b9c6d91SCole Faust	if (j->user)
*4b9c6d91SCole Faust		free(j->user);
*4b9c6d91SCole Faust	j->user = NULL;
*4b9c6d91SCole Faust	if (j->suppl_gid_list)
*4b9c6d91SCole Faust		free(j->suppl_gid_list);
*4b9c6d91SCole Faust	j->suppl_gid_list = NULL;
*4b9c6d91SCole Faust	if (j->preload_path)
*4b9c6d91SCole Faust		free(j->preload_path);
*4b9c6d91SCole Faust	j->preload_path = NULL;
*4b9c6d91SCole Faust	free_mounts_list(j);
*4b9c6d91SCole Faust	memset(&j->flags, 0, sizeof(j->flags));
*4b9c6d91SCole Faust	/* Now restore anything we meant to keep. */
*4b9c6d91SCole Faust	j->flags.vfs = vfs;
*4b9c6d91SCole Faust	j->flags.enter_vfs = enter_vfs;
*4b9c6d91SCole Faust	j->flags.ns_cgroups = ns_cgroups;
*4b9c6d91SCole Faust	j->flags.net = net;
*4b9c6d91SCole Faust	j->flags.uts = uts;
*4b9c6d91SCole Faust	j->flags.remount_proc_ro = remount_proc_ro;
*4b9c6d91SCole Faust	j->flags.userns = userns;
*4b9c6d91SCole Faust	/* Note, |pids| will already have been used before this call. */
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* Minijail API. */
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct minijail API *minijail_new(void)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail *j = calloc(1, sizeof(struct minijail));
*4b9c6d91SCole Faust	if (j) {
*4b9c6d91SCole Faust		j->remount_mode = MS_PRIVATE;
*4b9c6d91SCole Faust		j->using_minimalistic_mountns = false;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	return j;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_change_uid(struct minijail *j, uid_t uid)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (uid == 0)
*4b9c6d91SCole Faust		die("useless change to uid 0");
*4b9c6d91SCole Faust	j->uid = uid;
*4b9c6d91SCole Faust	j->flags.uid = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_change_gid(struct minijail *j, gid_t gid)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (gid == 0)
*4b9c6d91SCole Faust		die("useless change to gid 0");
*4b9c6d91SCole Faust	j->gid = gid;
*4b9c6d91SCole Faust	j->flags.gid = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_set_supplementary_gids(struct minijail *j, size_t size,
*4b9c6d91SCole Faust					 const gid_t *list)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	size_t i;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.inherit_suppl_gids)
*4b9c6d91SCole Faust		die("cannot inherit *and* set supplementary groups");
*4b9c6d91SCole Faust	if (j->flags.keep_suppl_gids)
*4b9c6d91SCole Faust		die("cannot keep *and* set supplementary groups");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (size == 0) {
*4b9c6d91SCole Faust		/* Clear supplementary groups. */
*4b9c6d91SCole Faust		j->suppl_gid_list = NULL;
*4b9c6d91SCole Faust		j->suppl_gid_count = 0;
*4b9c6d91SCole Faust		j->flags.set_suppl_gids = 1;
*4b9c6d91SCole Faust		return;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Copy the gid_t array. */
*4b9c6d91SCole Faust	j->suppl_gid_list = calloc(size, sizeof(gid_t));
*4b9c6d91SCole Faust	if (!j->suppl_gid_list) {
*4b9c6d91SCole Faust		die("failed to allocate internal supplementary group array");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	for (i = 0; i < size; i++) {
*4b9c6d91SCole Faust		j->suppl_gid_list[i] = list[i];
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	j->suppl_gid_count = size;
*4b9c6d91SCole Faust	j->flags.set_suppl_gids = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_keep_supplementary_gids(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.keep_suppl_gids = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_change_user(struct minijail *j, const char *user)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	uid_t uid;
*4b9c6d91SCole Faust	gid_t gid;
*4b9c6d91SCole Faust	int rc = lookup_user(user, &uid, &gid);
*4b9c6d91SCole Faust	if (rc)
*4b9c6d91SCole Faust		return rc;
*4b9c6d91SCole Faust	minijail_change_uid(j, uid);
*4b9c6d91SCole Faust	j->user = strdup(user);
*4b9c6d91SCole Faust	if (!j->user)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	j->usergid = gid;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_change_group(struct minijail *j, const char *group)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	gid_t gid;
*4b9c6d91SCole Faust	int rc = lookup_group(group, &gid);
*4b9c6d91SCole Faust	if (rc)
*4b9c6d91SCole Faust		return rc;
*4b9c6d91SCole Faust	minijail_change_gid(j, gid);
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_use_seccomp(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.seccomp = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_no_new_privs(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.no_new_privs = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_use_seccomp_filter(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.seccomp_filter = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_set_seccomp_filter_tsync(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->filter_len > 0 && j->filter_prog != NULL) {
*4b9c6d91SCole Faust		die("minijail_set_seccomp_filter_tsync() must be called "
*4b9c6d91SCole Faust		    "before minijail_parse_seccomp_filters()");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (seccomp_is_logging_allowed(j) && !seccomp_ret_log_available()) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * If SECCOMP_RET_LOG is not available, we don't want to use
*4b9c6d91SCole Faust		 * SECCOMP_RET_TRAP to both kill the entire process and report
*4b9c6d91SCole Faust		 * failing syscalls, since it will be brittle. Just bail.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		die("SECCOMP_RET_LOG not available, cannot use logging with "
*4b9c6d91SCole Faust		    "thread sync at the same time");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	j->flags.seccomp_filter_tsync = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_set_seccomp_filter_allow_speculation(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->filter_len > 0 && j->filter_prog != NULL) {
*4b9c6d91SCole Faust		die("minijail_set_seccomp_filter_allow_speculation() must be "
*4b9c6d91SCole Faust		    "called before minijail_parse_seccomp_filters()");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	j->flags.seccomp_filter_allow_speculation = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_log_seccomp_filter_failures(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->filter_len > 0 && j->filter_prog != NULL) {
*4b9c6d91SCole Faust		die("minijail_log_seccomp_filter_failures() must be called "
*4b9c6d91SCole Faust		    "before minijail_parse_seccomp_filters()");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.seccomp_filter_tsync && !seccomp_ret_log_available()) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * If SECCOMP_RET_LOG is not available, we don't want to use
*4b9c6d91SCole Faust		 * SECCOMP_RET_TRAP to both kill the entire process and report
*4b9c6d91SCole Faust		 * failing syscalls, since it will be brittle. Just bail.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		die("SECCOMP_RET_LOG not available, cannot use thread sync "
*4b9c6d91SCole Faust		    "with logging at the same time");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (debug_logging_allowed()) {
*4b9c6d91SCole Faust		j->flags.seccomp_filter_logging = 1;
*4b9c6d91SCole Faust	} else {
*4b9c6d91SCole Faust		warn("non-debug build: ignoring request to enable seccomp "
*4b9c6d91SCole Faust		     "logging");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_set_using_minimalistic_mountns(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->using_minimalistic_mountns = true;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_add_minimalistic_mountns_fs_rules(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct mountpoint *m = j->mounts_head;
*4b9c6d91SCole Faust	bool landlock_enabled_by_profile = false;
*4b9c6d91SCole Faust	if (!j->using_minimalistic_mountns)
*4b9c6d91SCole Faust		return;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Apply Landlock rules. */
*4b9c6d91SCole Faust	while (m) {
*4b9c6d91SCole Faust		landlock_enabled_by_profile = true;
*4b9c6d91SCole Faust		minijail_add_fs_restriction_rx(j, m->dest);
*4b9c6d91SCole Faust		/* Allow rw if mounted as writable, or mount flags allow mount events.*/
*4b9c6d91SCole Faust		if (!mount_has_readonly_flag(m) || mount_events_allowed(m))
*4b9c6d91SCole Faust			minijail_add_fs_restriction_rw(j, m->dest);
*4b9c6d91SCole Faust		m = m->next;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (landlock_enabled_by_profile) {
*4b9c6d91SCole Faust		minijail_enable_default_fs_restrictions(j);
*4b9c6d91SCole Faust		minijail_add_fs_restriction_edit(j, "/dev");
*4b9c6d91SCole Faust		minijail_add_fs_restriction_ro(j, "/proc");
*4b9c6d91SCole Faust		if (j->flags.vfs)
*4b9c6d91SCole Faust			minijail_add_fs_restriction_rw(j, "/tmp");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_enable_default_fs_restrictions(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	// Common library locations.
*4b9c6d91SCole Faust	minijail_add_fs_restriction_rx(j, "/lib");
*4b9c6d91SCole Faust	minijail_add_fs_restriction_rx(j, "/lib64");
*4b9c6d91SCole Faust	minijail_add_fs_restriction_rx(j, "/usr/lib");
*4b9c6d91SCole Faust	minijail_add_fs_restriction_rx(j, "/usr/lib64");
*4b9c6d91SCole Faust	// Common locations for services invoking Minijail.
*4b9c6d91SCole Faust	minijail_add_fs_restriction_rx(j, "/bin");
*4b9c6d91SCole Faust	minijail_add_fs_restriction_rx(j, "/sbin");
*4b9c6d91SCole Faust	minijail_add_fs_restriction_rx(j, "/usr/sbin");
*4b9c6d91SCole Faust	minijail_add_fs_restriction_rx(j, "/usr/bin");
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_use_caps(struct minijail *j, uint64_t capmask)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * 'minijail_use_caps' configures a runtime-capabilities-only
*4b9c6d91SCole Faust	 * environment, including a bounding set matching the thread's runtime
*4b9c6d91SCole Faust	 * (permitted|inheritable|effective) sets.
*4b9c6d91SCole Faust	 * Therefore, it will override any existing bounding set configurations
*4b9c6d91SCole Faust	 * since the latter would allow gaining extra runtime capabilities from
*4b9c6d91SCole Faust	 * file capabilities.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.capbset_drop) {
*4b9c6d91SCole Faust		warn("overriding bounding set configuration");
*4b9c6d91SCole Faust		j->cap_bset = 0;
*4b9c6d91SCole Faust		j->flags.capbset_drop = 0;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	j->caps = capmask;
*4b9c6d91SCole Faust	j->flags.use_caps = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_capbset_drop(struct minijail *j, uint64_t capmask)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->flags.use_caps) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * 'minijail_use_caps' will have already configured a capability
*4b9c6d91SCole Faust		 * bounding set matching the (permitted|inheritable|effective)
*4b9c6d91SCole Faust		 * sets. Abort if the user tries to configure a separate
*4b9c6d91SCole Faust		 * bounding set. 'minijail_capbset_drop' and 'minijail_use_caps'
*4b9c6d91SCole Faust		 * are mutually exclusive.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		die("runtime capabilities already configured, can't drop "
*4b9c6d91SCole Faust		    "bounding set separately");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	j->cap_bset = capmask;
*4b9c6d91SCole Faust	j->flags.capbset_drop = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_set_ambient_caps(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.set_ambient_caps = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_reset_signal_mask(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.reset_signal_mask = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_reset_signal_handlers(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.reset_signal_handlers = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_vfs(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.vfs = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_enter_vfs(struct minijail *j, const char *ns_path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	/* Note: Do not use O_CLOEXEC here.  We'll close it after we use it. */
*4b9c6d91SCole Faust	int ns_fd = open(ns_path, O_RDONLY);
*4b9c6d91SCole Faust	if (ns_fd < 0) {
*4b9c6d91SCole Faust		pdie("failed to open namespace '%s'", ns_path);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	j->mountns_fd = ns_fd;
*4b9c6d91SCole Faust	j->flags.enter_vfs = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_new_session_keyring(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.new_session_keyring = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_skip_setting_securebits(struct minijail *j,
*4b9c6d91SCole Faust					  uint64_t securebits_skip_mask)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->securebits_skip_mask = securebits_skip_mask;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_remount_mode(struct minijail *j, unsigned long mode)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->remount_mode = mode;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_skip_remount_private(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->remount_mode = 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_pids(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.vfs = 1;
*4b9c6d91SCole Faust	j->flags.remount_proc_ro = 1;
*4b9c6d91SCole Faust	j->flags.pids = 1;
*4b9c6d91SCole Faust	j->flags.do_init = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_pids_rw_proc(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.vfs = 1;
*4b9c6d91SCole Faust	j->flags.pids = 1;
*4b9c6d91SCole Faust	j->flags.do_init = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_ipc(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.ipc = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_uts(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.uts = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_namespace_set_hostname(struct minijail *j, const char *name)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->hostname)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	minijail_namespace_uts(j);
*4b9c6d91SCole Faust	j->hostname = strdup(name);
*4b9c6d91SCole Faust	if (!j->hostname)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_net(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.net = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_enter_net(struct minijail *j, const char *ns_path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	/* Note: Do not use O_CLOEXEC here.  We'll close it after we use it. */
*4b9c6d91SCole Faust	int ns_fd = open(ns_path, O_RDONLY);
*4b9c6d91SCole Faust	if (ns_fd < 0) {
*4b9c6d91SCole Faust		pdie("failed to open namespace '%s'", ns_path);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	j->netns_fd = ns_fd;
*4b9c6d91SCole Faust	j->flags.enter_net = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_cgroups(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.ns_cgroups = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_close_open_fds(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.close_open_fds = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_remount_proc_readonly(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.vfs = 1;
*4b9c6d91SCole Faust	j->flags.remount_proc_ro = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_user(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.userns = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_namespace_user_disable_setgroups(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.disable_setgroups = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_uidmap(struct minijail *j, const char *uidmap)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->uidmap = strdup(uidmap);
*4b9c6d91SCole Faust	if (!j->uidmap)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	char *ch;
*4b9c6d91SCole Faust	for (ch = j->uidmap; *ch; ch++) {
*4b9c6d91SCole Faust		if (*ch == ',')
*4b9c6d91SCole Faust			*ch = '\n';
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_gidmap(struct minijail *j, const char *gidmap)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->gidmap = strdup(gidmap);
*4b9c6d91SCole Faust	if (!j->gidmap)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	char *ch;
*4b9c6d91SCole Faust	for (ch = j->gidmap; *ch; ch++) {
*4b9c6d91SCole Faust		if (*ch == ',')
*4b9c6d91SCole Faust			*ch = '\n';
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_inherit_usergroups(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.inherit_suppl_gids = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_run_as_init(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Since the jailed program will become 'init' in the new PID namespace,
*4b9c6d91SCole Faust	 * Minijail does not need to fork an 'init' process.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	j->flags.run_as_init = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_enter_chroot(struct minijail *j, const char *dir)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->chrootdir)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	j->chrootdir = strdup(dir);
*4b9c6d91SCole Faust	if (!j->chrootdir)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	j->flags.chroot = 1;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_enter_pivot_root(struct minijail *j, const char *dir)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->chrootdir)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	j->chrootdir = strdup(dir);
*4b9c6d91SCole Faust	if (!j->chrootdir)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	j->flags.pivot_root = 1;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustchar API *minijail_get_original_path(struct minijail *j,
*4b9c6d91SCole Faust				     const char *path_inside_chroot)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct mountpoint *b;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	b = j->mounts_head;
*4b9c6d91SCole Faust	while (b) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * If |path_inside_chroot| is the exact destination of a
*4b9c6d91SCole Faust		 * mount, then the original path is exactly the source of
*4b9c6d91SCole Faust		 * the mount.
*4b9c6d91SCole Faust		 *  for example: "-b /some/path/exe,/chroot/path/exe"
*4b9c6d91SCole Faust		 *    mount source = /some/path/exe, mount dest =
*4b9c6d91SCole Faust		 *    /chroot/path/exe Then when getting the original path of
*4b9c6d91SCole Faust		 *    "/chroot/path/exe", the source of that mount,
*4b9c6d91SCole Faust		 *    "/some/path/exe" is what should be returned.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if (streq(b->dest, path_inside_chroot))
*4b9c6d91SCole Faust			return strdup(b->src);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * If |path_inside_chroot| is within the destination path of a
*4b9c6d91SCole Faust		 * mount, take the suffix of the chroot path relative to the
*4b9c6d91SCole Faust		 * mount destination path, and append it to the mount source
*4b9c6d91SCole Faust		 * path.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if (!strncmp(b->dest, path_inside_chroot, strlen(b->dest))) {
*4b9c6d91SCole Faust			const char *relative_path =
*4b9c6d91SCole Faust			    path_inside_chroot + strlen(b->dest);
*4b9c6d91SCole Faust			return path_join(b->src, relative_path);
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		b = b->next;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* If there is a chroot path, append |path_inside_chroot| to that. */
*4b9c6d91SCole Faust	if (j->chrootdir)
*4b9c6d91SCole Faust		return path_join(j->chrootdir, path_inside_chroot);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* No chroot, so the path outside is the same as it is inside. */
*4b9c6d91SCole Faust	return strdup(path_inside_chroot);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_mount_dev(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.mount_dev = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_mount_tmp(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	minijail_mount_tmp_size(j, 64 * 1024 * 1024);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_mount_tmp_size(struct minijail *j, size_t size)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->tmpfs_size = size;
*4b9c6d91SCole Faust	j->flags.mount_tmp = 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_write_pid_file(struct minijail *j, const char *path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->pid_file_path = strdup(path);
*4b9c6d91SCole Faust	if (!j->pid_file_path)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	j->flags.pid_file = 1;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_add_to_cgroup(struct minijail *j, const char *path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->cgroup_count >= MAX_CGROUPS)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	j->cgroups[j->cgroup_count] = strdup(path);
*4b9c6d91SCole Faust	if (!j->cgroups[j->cgroup_count])
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	j->cgroup_count++;
*4b9c6d91SCole Faust	j->flags.cgroups = 1;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_rlimit(struct minijail *j, int type, rlim_t cur, rlim_t max)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	size_t i;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->rlimit_count >= MAX_RLIMITS)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	/* It's an error if the caller sets the same rlimit multiple times. */
*4b9c6d91SCole Faust	for (i = 0; i < j->rlimit_count; i++) {
*4b9c6d91SCole Faust		if (j->rlimits[i].type == type)
*4b9c6d91SCole Faust			return -EEXIST;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	j->rlimits[j->rlimit_count].type = type;
*4b9c6d91SCole Faust	j->rlimits[j->rlimit_count].cur = cur;
*4b9c6d91SCole Faust	j->rlimits[j->rlimit_count].max = max;
*4b9c6d91SCole Faust	j->rlimit_count++;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_forward_signals(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.forward_signals = 1;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_create_session(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.setsid = 1;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_add_fs_restriction_rx(struct minijail *j, const char *path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	return !add_fs_restriction_path(j, path,
*4b9c6d91SCole Faust		ACCESS_FS_ROUGHLY_READ_EXECUTE);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_add_fs_restriction_ro(struct minijail *j, const char *path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	return !add_fs_restriction_path(j, path, ACCESS_FS_ROUGHLY_READ);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_add_fs_restriction_rw(struct minijail *j, const char *path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	return !add_fs_restriction_path(j, path,
*4b9c6d91SCole Faust		ACCESS_FS_ROUGHLY_READ | ACCESS_FS_ROUGHLY_BASIC_WRITE);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_add_fs_restriction_advanced_rw(struct minijail *j,
*4b9c6d91SCole Faust						const char *path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	return !add_fs_restriction_path(j, path,
*4b9c6d91SCole Faust		ACCESS_FS_ROUGHLY_READ | ACCESS_FS_ROUGHLY_FULL_WRITE);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_add_fs_restriction_edit(struct minijail *j,
*4b9c6d91SCole Faust						const char *path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	return !add_fs_restriction_path(j, path,
*4b9c6d91SCole Faust		ACCESS_FS_ROUGHLY_READ | ACCESS_FS_ROUGHLY_EDIT);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic bool is_valid_bind_path(const char *path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (!block_symlinks_in_bindmount_paths()) {
*4b9c6d91SCole Faust		return true;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * tokenize() will modify both the |prefixes| pointer and the contents
*4b9c6d91SCole Faust	 * of the string, so:
*4b9c6d91SCole Faust	 * -Copy |BINDMOUNT_ALLOWED_PREFIXES| since it lives in .rodata.
*4b9c6d91SCole Faust	 * -Save the original pointer for free()ing.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	char *prefixes = strdup(BINDMOUNT_ALLOWED_PREFIXES);
*4b9c6d91SCole Faust	attribute_cleanup_str char *orig_prefixes = prefixes;
*4b9c6d91SCole Faust	(void)orig_prefixes;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	char *prefix = NULL;
*4b9c6d91SCole Faust	bool found_prefix = false;
*4b9c6d91SCole Faust	if (!is_canonical_path(path)) {
*4b9c6d91SCole Faust		while ((prefix = tokenize(&prefixes, ",")) != NULL) {
*4b9c6d91SCole Faust			if (path_is_parent(prefix, path)) {
*4b9c6d91SCole Faust				found_prefix = true;
*4b9c6d91SCole Faust				break;
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		if (!found_prefix) {
*4b9c6d91SCole Faust			/*
*4b9c6d91SCole Faust			 * If the path does not include one of the allowed
*4b9c6d91SCole Faust			 * prefixes, fail.
*4b9c6d91SCole Faust			 */
*4b9c6d91SCole Faust			warn("path '%s' is not a canonical path", path);
*4b9c6d91SCole Faust			return false;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	return true;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_mount_with_data(struct minijail *j, const char *src,
*4b9c6d91SCole Faust				 const char *dest, const char *type,
*4b9c6d91SCole Faust				 unsigned long flags, const char *data)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct mountpoint *m;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (*dest != '/')
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	m = calloc(1, sizeof(*m));
*4b9c6d91SCole Faust	if (!m)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	m->dest = strdup(dest);
*4b9c6d91SCole Faust	if (!m->dest)
*4b9c6d91SCole Faust		goto error;
*4b9c6d91SCole Faust	m->src = strdup(src);
*4b9c6d91SCole Faust	if (!m->src)
*4b9c6d91SCole Faust		goto error;
*4b9c6d91SCole Faust	m->type = strdup(type);
*4b9c6d91SCole Faust	if (!m->type)
*4b9c6d91SCole Faust		goto error;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (!data || !data[0]) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * Set up secure defaults for certain filesystems.  Adding this
*4b9c6d91SCole Faust		 * fs-specific logic here kind of sucks, but considering how
*4b9c6d91SCole Faust		 * people use these in practice, it's probably OK.  If they want
*4b9c6d91SCole Faust		 * the kernel defaults, they can pass data="" instead of NULL.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if (streq(type, "tmpfs")) {
*4b9c6d91SCole Faust			/* tmpfs defaults to mode=1777 and size=50%. */
*4b9c6d91SCole Faust			data = "mode=0755,size=10M";
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (data) {
*4b9c6d91SCole Faust		m->data = strdup(data);
*4b9c6d91SCole Faust		if (!m->data)
*4b9c6d91SCole Faust			goto error;
*4b9c6d91SCole Faust		m->has_data = 1;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* If they don't specify any flags, default to secure ones. */
*4b9c6d91SCole Faust	if (flags == 0)
*4b9c6d91SCole Faust		flags = MS_NODEV | MS_NOEXEC | MS_NOSUID;
*4b9c6d91SCole Faust	m->flags = flags;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Unless asked to enter an existing namespace, force vfs namespacing
*4b9c6d91SCole Faust	 * so the mounts don't leak out into the containing vfs namespace.
*4b9c6d91SCole Faust	 * If Minijail is being asked to enter the root vfs namespace this will
*4b9c6d91SCole Faust	 * leak mounts, but it's unlikely that the user would ask to do that by
*4b9c6d91SCole Faust	 * mistake.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (!j->flags.enter_vfs)
*4b9c6d91SCole Faust		minijail_namespace_vfs(j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->mounts_tail)
*4b9c6d91SCole Faust		j->mounts_tail->next = m;
*4b9c6d91SCole Faust	else
*4b9c6d91SCole Faust		j->mounts_head = m;
*4b9c6d91SCole Faust	j->mounts_tail = m;
*4b9c6d91SCole Faust	j->mounts_count++;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust
*4b9c6d91SCole Fausterror:
*4b9c6d91SCole Faust	free(m->type);
*4b9c6d91SCole Faust	free(m->src);
*4b9c6d91SCole Faust	free(m->dest);
*4b9c6d91SCole Faust	free(m);
*4b9c6d91SCole Faust	return -ENOMEM;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_mount(struct minijail *j, const char *src, const char *dest,
*4b9c6d91SCole Faust		       const char *type, unsigned long flags)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	return minijail_mount_with_data(j, src, dest, type, flags, NULL);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_bind(struct minijail *j, const char *src, const char *dest,
*4b9c6d91SCole Faust		      int writeable)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	unsigned long flags = MS_BIND;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Check for symlinks in bind-mount source paths to warn the user early.
*4b9c6d91SCole Faust	 * Minijail will perform one final check immediately before the mount()
*4b9c6d91SCole Faust	 * call.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (!is_valid_bind_path(src)) {
*4b9c6d91SCole Faust		warn("src '%s' is not a valid bind mount path", src);
*4b9c6d91SCole Faust		return -ELOOP;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Symlinks in |dest| are blocked by the ChromiumOS LSM:
*4b9c6d91SCole Faust	 * <kernel>/security/chromiumos/lsm.c#77
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (!writeable)
*4b9c6d91SCole Faust		flags |= MS_RDONLY;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * |type| is ignored for bind mounts, use it to signal that this mount
*4b9c6d91SCole Faust	 * came from minijail_bind().
*4b9c6d91SCole Faust	 * TODO(b/238362528): Implement a better way to signal this.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	return minijail_mount(j, src, dest, "minijail_bind", flags);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_add_remount(struct minijail *j, const char *mount_name,
*4b9c6d91SCole Faust			     unsigned long remount_mode)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_remount *m;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (*mount_name != '/')
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	m = calloc(1, sizeof(*m));
*4b9c6d91SCole Faust	if (!m)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	m->mount_name = strdup(mount_name);
*4b9c6d91SCole Faust	if (!m->mount_name) {
*4b9c6d91SCole Faust		free(m);
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	m->remount_mode = remount_mode;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->remounts_tail)
*4b9c6d91SCole Faust		j->remounts_tail->next = m;
*4b9c6d91SCole Faust	else
*4b9c6d91SCole Faust		j->remounts_head = m;
*4b9c6d91SCole Faust	j->remounts_tail = m;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_add_hook(struct minijail *j, minijail_hook_t hook,
*4b9c6d91SCole Faust			  void *payload, minijail_hook_event_t event)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct hook *c;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (hook == NULL)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	if (event >= MINIJAIL_HOOK_EVENT_MAX)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	c = calloc(1, sizeof(*c));
*4b9c6d91SCole Faust	if (!c)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	c->hook = hook;
*4b9c6d91SCole Faust	c->payload = payload;
*4b9c6d91SCole Faust	c->event = event;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->hooks_tail)
*4b9c6d91SCole Faust		j->hooks_tail->next = c;
*4b9c6d91SCole Faust	else
*4b9c6d91SCole Faust		j->hooks_head = c;
*4b9c6d91SCole Faust	j->hooks_tail = c;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_preserve_fd(struct minijail *j, int parent_fd, int child_fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (parent_fd < 0 || child_fd < 0)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	if (j->preserved_fd_count >= MAX_PRESERVED_FDS)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	j->preserved_fds[j->preserved_fd_count].parent_fd = parent_fd;
*4b9c6d91SCole Faust	j->preserved_fds[j->preserved_fd_count].child_fd = child_fd;
*4b9c6d91SCole Faust	j->preserved_fd_count++;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_set_preload_path(struct minijail *j, const char *preload_path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->preload_path)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	j->preload_path = strdup(preload_path);
*4b9c6d91SCole Faust	if (!j->preload_path)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void clear_seccomp_options(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->flags.seccomp_filter = 0;
*4b9c6d91SCole Faust	j->flags.seccomp_filter_tsync = 0;
*4b9c6d91SCole Faust	j->flags.seccomp_filter_logging = 0;
*4b9c6d91SCole Faust	j->flags.seccomp_filter_allow_speculation = 0;
*4b9c6d91SCole Faust	j->filter_len = 0;
*4b9c6d91SCole Faust	j->filter_prog = NULL;
*4b9c6d91SCole Faust	j->flags.no_new_privs = 0;
*4b9c6d91SCole Faust	if (j->seccomp_policy_path) {
*4b9c6d91SCole Faust		free(j->seccomp_policy_path);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	j->seccomp_policy_path = NULL;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int seccomp_should_use_filters(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (prctl(PR_SET_SECCOMP, SECCOMP_MODE_FILTER, NULL) == -1) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * |errno| will be set to EINVAL when seccomp has not been
*4b9c6d91SCole Faust		 * compiled into the kernel. On certain platforms and kernel
*4b9c6d91SCole Faust		 * versions this is not a fatal failure. In that case, and only
*4b9c6d91SCole Faust		 * in that case, disable seccomp and skip loading the filters.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if ((errno == EINVAL) && seccomp_can_softfail()) {
*4b9c6d91SCole Faust			warn("not loading seccomp filters, seccomp filter not "
*4b9c6d91SCole Faust			     "supported");
*4b9c6d91SCole Faust			clear_seccomp_options(j);
*4b9c6d91SCole Faust			return 0;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * If |errno| != EINVAL or seccomp_can_softfail() is false,
*4b9c6d91SCole Faust		 * we can proceed. Worst case scenario minijail_enter() will
*4b9c6d91SCole Faust		 * abort() if seccomp fails.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (j->flags.seccomp_filter_tsync) {
*4b9c6d91SCole Faust		/* Are the seccomp(2) syscall and the TSYNC option supported? */
*4b9c6d91SCole Faust		if (sys_seccomp(SECCOMP_SET_MODE_FILTER,
*4b9c6d91SCole Faust				SECCOMP_FILTER_FLAG_TSYNC, NULL) == -1) {
*4b9c6d91SCole Faust			int saved_errno = errno;
*4b9c6d91SCole Faust			if (saved_errno == ENOSYS && seccomp_can_softfail()) {
*4b9c6d91SCole Faust				warn("seccomp(2) syscall not supported");
*4b9c6d91SCole Faust				clear_seccomp_options(j);
*4b9c6d91SCole Faust				return 0;
*4b9c6d91SCole Faust			} else if (saved_errno == EINVAL &&
*4b9c6d91SCole Faust				   seccomp_can_softfail()) {
*4b9c6d91SCole Faust				warn(
*4b9c6d91SCole Faust				    "seccomp filter thread sync not supported");
*4b9c6d91SCole Faust				clear_seccomp_options(j);
*4b9c6d91SCole Faust				return 0;
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust			/*
*4b9c6d91SCole Faust			 * Similar logic here. If seccomp_can_softfail() is
*4b9c6d91SCole Faust			 * false, or |errno| != ENOSYS, or |errno| != EINVAL,
*4b9c6d91SCole Faust			 * we can proceed. Worst case scenario minijail_enter()
*4b9c6d91SCole Faust			 * will abort() if seccomp or TSYNC fail.
*4b9c6d91SCole Faust			 */
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (j->flags.seccomp_filter_allow_speculation) {
*4b9c6d91SCole Faust		/* Is the SPEC_ALLOW flag supported? */
*4b9c6d91SCole Faust		if (!seccomp_filter_flags_available(
*4b9c6d91SCole Faust			SECCOMP_FILTER_FLAG_SPEC_ALLOW)) {
*4b9c6d91SCole Faust			warn("allowing speculative execution on seccomp "
*4b9c6d91SCole Faust			     "processes not supported");
*4b9c6d91SCole Faust			j->flags.seccomp_filter_allow_speculation = 0;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	return 1;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int set_seccomp_filters_internal(struct minijail *j,
*4b9c6d91SCole Faust					const struct sock_fprog *filter,
*4b9c6d91SCole Faust					bool owned)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct sock_fprog *fprog;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (owned) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * If |owned| is true, it's OK to cast away the const-ness since
*4b9c6d91SCole Faust		 * we'll own the pointer going forward.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		fprog = (struct sock_fprog *)filter;
*4b9c6d91SCole Faust	} else {
*4b9c6d91SCole Faust		fprog = malloc(sizeof(struct sock_fprog));
*4b9c6d91SCole Faust		if (!fprog)
*4b9c6d91SCole Faust			return -ENOMEM;
*4b9c6d91SCole Faust		fprog->len = filter->len;
*4b9c6d91SCole Faust		fprog->filter = malloc(sizeof(struct sock_filter) * fprog->len);
*4b9c6d91SCole Faust		if (!fprog->filter) {
*4b9c6d91SCole Faust			free(fprog);
*4b9c6d91SCole Faust			return -ENOMEM;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		memcpy(fprog->filter, filter->filter,
*4b9c6d91SCole Faust		       sizeof(struct sock_filter) * fprog->len);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->filter_prog) {
*4b9c6d91SCole Faust		free(j->filter_prog->filter);
*4b9c6d91SCole Faust		free(j->filter_prog);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	j->filter_len = fprog->len;
*4b9c6d91SCole Faust	j->filter_prog = fprog;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int parse_seccomp_filters(struct minijail *j, const char *filename,
*4b9c6d91SCole Faust				 FILE *policy_file)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct sock_fprog *fprog = malloc(sizeof(struct sock_fprog));
*4b9c6d91SCole Faust	if (!fprog)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	struct filter_options filteropts;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Figure out filter options.
*4b9c6d91SCole Faust	 * Allow logging?
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	filteropts.allow_logging =
*4b9c6d91SCole Faust	    debug_logging_allowed() && seccomp_is_logging_allowed(j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* What to do on a blocked system call? */
*4b9c6d91SCole Faust	if (filteropts.allow_logging) {
*4b9c6d91SCole Faust		if (seccomp_ret_log_available())
*4b9c6d91SCole Faust			filteropts.action = ACTION_RET_LOG;
*4b9c6d91SCole Faust		else
*4b9c6d91SCole Faust			filteropts.action = ACTION_RET_TRAP;
*4b9c6d91SCole Faust	} else {
*4b9c6d91SCole Faust		if (j->flags.seccomp_filter_tsync) {
*4b9c6d91SCole Faust			if (seccomp_ret_kill_process_available()) {
*4b9c6d91SCole Faust				filteropts.action = ACTION_RET_KILL_PROCESS;
*4b9c6d91SCole Faust			} else {
*4b9c6d91SCole Faust				filteropts.action = ACTION_RET_TRAP;
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		} else {
*4b9c6d91SCole Faust			filteropts.action = ACTION_RET_KILL;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * If SECCOMP_RET_LOG is not available, need to allow extra syscalls
*4b9c6d91SCole Faust	 * for logging.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	filteropts.allow_syscalls_for_logging =
*4b9c6d91SCole Faust	    filteropts.allow_logging && !seccomp_ret_log_available();
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Whether to fail on duplicate syscalls. */
*4b9c6d91SCole Faust	filteropts.allow_duplicate_syscalls = allow_duplicate_syscalls();
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (compile_filter(filename, policy_file, fprog, &filteropts)) {
*4b9c6d91SCole Faust		free(fprog);
*4b9c6d91SCole Faust		return -1;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return set_seccomp_filters_internal(j, fprog, true /* owned */);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_parse_seccomp_filters(struct minijail *j, const char *path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (!seccomp_should_use_filters(j))
*4b9c6d91SCole Faust		return;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	attribute_cleanup_fp FILE *file = fopen(path, "re");
*4b9c6d91SCole Faust	if (!file) {
*4b9c6d91SCole Faust		pdie("failed to open seccomp filter file '%s'", path);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (parse_seccomp_filters(j, path, file) != 0) {
*4b9c6d91SCole Faust		die("failed to compile seccomp filter BPF program in '%s'",
*4b9c6d91SCole Faust		    path);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (j->seccomp_policy_path) {
*4b9c6d91SCole Faust		free(j->seccomp_policy_path);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	j->seccomp_policy_path = strdup(path);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_parse_seccomp_filters_from_fd(struct minijail *j, int fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	char *fd_path, *path;
*4b9c6d91SCole Faust	attribute_cleanup_fp FILE *file = NULL;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (!seccomp_should_use_filters(j))
*4b9c6d91SCole Faust		return;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	file = fdopen(fd, "r");
*4b9c6d91SCole Faust	if (!file) {
*4b9c6d91SCole Faust		pdie("failed to associate stream with fd %d", fd);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (asprintf(&fd_path, "/proc/self/fd/%d", fd) == -1)
*4b9c6d91SCole Faust		pdie("failed to create path for fd %d", fd);
*4b9c6d91SCole Faust	path = realpath(fd_path, NULL);
*4b9c6d91SCole Faust	if (path == NULL)
*4b9c6d91SCole Faust		pwarn("failed to get path of fd %d", fd);
*4b9c6d91SCole Faust	free(fd_path);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (parse_seccomp_filters(j, path ? path : "<fd>", file) != 0) {
*4b9c6d91SCole Faust		die("failed to compile seccomp filter BPF program from fd %d",
*4b9c6d91SCole Faust		    fd);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (j->seccomp_policy_path) {
*4b9c6d91SCole Faust		free(j->seccomp_policy_path);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	j->seccomp_policy_path = path;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_set_seccomp_filters(struct minijail *j,
*4b9c6d91SCole Faust				      const struct sock_fprog *filter)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (!seccomp_should_use_filters(j))
*4b9c6d91SCole Faust		return;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (seccomp_is_logging_allowed(j)) {
*4b9c6d91SCole Faust		die("minijail_log_seccomp_filter_failures() is incompatible "
*4b9c6d91SCole Faust		    "with minijail_set_seccomp_filters()");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * set_seccomp_filters_internal() can only fail with ENOMEM.
*4b9c6d91SCole Faust	 * Furthermore, since we won't own the incoming filter, it will not be
*4b9c6d91SCole Faust	 * modified.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (set_seccomp_filters_internal(j, filter, false /* owned */) < 0) {
*4b9c6d91SCole Faust		die("failed to set seccomp filter");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_use_alt_syscall(struct minijail *j, const char *table)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	j->alt_syscall_table = strdup(table);
*4b9c6d91SCole Faust	if (!j->alt_syscall_table)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	j->flags.alt_syscall = 1;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct marshal_state {
*4b9c6d91SCole Faust	size_t available;
*4b9c6d91SCole Faust	size_t total;
*4b9c6d91SCole Faust	char *buf;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void marshal_state_init(struct marshal_state *state, char *buf,
*4b9c6d91SCole Faust			       size_t available)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	state->available = available;
*4b9c6d91SCole Faust	state->buf = buf;
*4b9c6d91SCole Faust	state->total = 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void marshal_append(struct marshal_state *state, const void *src,
*4b9c6d91SCole Faust			   size_t length)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	size_t copy_len = MIN(state->available, length);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Up to |available| will be written. */
*4b9c6d91SCole Faust	if (copy_len) {
*4b9c6d91SCole Faust		memcpy(state->buf, src, copy_len);
*4b9c6d91SCole Faust		state->buf += copy_len;
*4b9c6d91SCole Faust		state->available -= copy_len;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	/* |total| will contain the expected length. */
*4b9c6d91SCole Faust	state->total += length;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void marshal_append_string(struct marshal_state *state, const char *src)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	marshal_append(state, src, strlen(src) + 1);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void marshal_mount(struct marshal_state *state,
*4b9c6d91SCole Faust			  const struct mountpoint *m)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	marshal_append(state, m->src, strlen(m->src) + 1);
*4b9c6d91SCole Faust	marshal_append(state, m->dest, strlen(m->dest) + 1);
*4b9c6d91SCole Faust	marshal_append(state, m->type, strlen(m->type) + 1);
*4b9c6d91SCole Faust	marshal_append(state, (char *)&m->has_data, sizeof(m->has_data));
*4b9c6d91SCole Faust	if (m->has_data)
*4b9c6d91SCole Faust		marshal_append(state, m->data, strlen(m->data) + 1);
*4b9c6d91SCole Faust	marshal_append(state, (char *)&m->flags, sizeof(m->flags));
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void minijail_marshal_helper(struct marshal_state *state,
*4b9c6d91SCole Faust				    const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct mountpoint *m = NULL;
*4b9c6d91SCole Faust	size_t i;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	marshal_append(state, (char *)j, sizeof(*j));
*4b9c6d91SCole Faust	if (j->user)
*4b9c6d91SCole Faust		marshal_append_string(state, j->user);
*4b9c6d91SCole Faust	if (j->suppl_gid_list) {
*4b9c6d91SCole Faust		marshal_append(state, j->suppl_gid_list,
*4b9c6d91SCole Faust			       j->suppl_gid_count * sizeof(gid_t));
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (j->chrootdir)
*4b9c6d91SCole Faust		marshal_append_string(state, j->chrootdir);
*4b9c6d91SCole Faust	if (j->hostname)
*4b9c6d91SCole Faust		marshal_append_string(state, j->hostname);
*4b9c6d91SCole Faust	if (j->alt_syscall_table) {
*4b9c6d91SCole Faust		marshal_append(state, j->alt_syscall_table,
*4b9c6d91SCole Faust			       strlen(j->alt_syscall_table) + 1);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (j->flags.seccomp_filter && j->filter_prog) {
*4b9c6d91SCole Faust		struct sock_fprog *fp = j->filter_prog;
*4b9c6d91SCole Faust		marshal_append(state, (char *)fp->filter,
*4b9c6d91SCole Faust			       fp->len * sizeof(struct sock_filter));
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	for (m = j->mounts_head; m; m = m->next) {
*4b9c6d91SCole Faust		marshal_mount(state, m);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	for (i = 0; i < j->cgroup_count; ++i)
*4b9c6d91SCole Faust		marshal_append_string(state, j->cgroups[i]);
*4b9c6d91SCole Faust	if (j->seccomp_policy_path)
*4b9c6d91SCole Faust		marshal_append_string(state, j->seccomp_policy_path);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustsize_t API minijail_size(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct marshal_state state;
*4b9c6d91SCole Faust	marshal_state_init(&state, NULL, 0);
*4b9c6d91SCole Faust	minijail_marshal_helper(&state, j);
*4b9c6d91SCole Faust	return state.total;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint minijail_marshal(const struct minijail *j, char *buf, size_t available)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct marshal_state state;
*4b9c6d91SCole Faust	marshal_state_init(&state, buf, available);
*4b9c6d91SCole Faust	minijail_marshal_helper(&state, j);
*4b9c6d91SCole Faust	return (state.total > available);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint minijail_unmarshal(struct minijail *j, char *serialized, size_t length)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	size_t i;
*4b9c6d91SCole Faust	size_t count;
*4b9c6d91SCole Faust	int ret = -EINVAL;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (length < sizeof(*j))
*4b9c6d91SCole Faust		goto out;
*4b9c6d91SCole Faust	memcpy((void *)j, serialized, sizeof(*j));
*4b9c6d91SCole Faust	serialized += sizeof(*j);
*4b9c6d91SCole Faust	length -= sizeof(*j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Potentially stale pointers not used as signals. */
*4b9c6d91SCole Faust	j->preload_path = NULL;
*4b9c6d91SCole Faust	j->pid_file_path = NULL;
*4b9c6d91SCole Faust	j->uidmap = NULL;
*4b9c6d91SCole Faust	j->gidmap = NULL;
*4b9c6d91SCole Faust	j->mounts_head = NULL;
*4b9c6d91SCole Faust	j->mounts_tail = NULL;
*4b9c6d91SCole Faust	j->remounts_head = NULL;
*4b9c6d91SCole Faust	j->remounts_tail = NULL;
*4b9c6d91SCole Faust	j->filter_prog = NULL;
*4b9c6d91SCole Faust	j->hooks_head = NULL;
*4b9c6d91SCole Faust	j->hooks_tail = NULL;
*4b9c6d91SCole Faust	j->fs_rules_head = NULL;
*4b9c6d91SCole Faust	j->fs_rules_tail = NULL;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->user) { /* stale pointer */
*4b9c6d91SCole Faust		char *user = consumestr(&serialized, &length);
*4b9c6d91SCole Faust		if (!user)
*4b9c6d91SCole Faust			goto clear_pointers;
*4b9c6d91SCole Faust		j->user = strdup(user);
*4b9c6d91SCole Faust		if (!j->user)
*4b9c6d91SCole Faust			goto clear_pointers;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->suppl_gid_list) { /* stale pointer */
*4b9c6d91SCole Faust		if (j->suppl_gid_count > NGROUPS_MAX) {
*4b9c6d91SCole Faust			goto bad_gid_list;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		size_t gid_list_size = j->suppl_gid_count * sizeof(gid_t);
*4b9c6d91SCole Faust		void *gid_list_bytes =
*4b9c6d91SCole Faust		    consumebytes(gid_list_size, &serialized, &length);
*4b9c6d91SCole Faust		if (!gid_list_bytes)
*4b9c6d91SCole Faust			goto bad_gid_list;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		j->suppl_gid_list = calloc(j->suppl_gid_count, sizeof(gid_t));
*4b9c6d91SCole Faust		if (!j->suppl_gid_list)
*4b9c6d91SCole Faust			goto bad_gid_list;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		memcpy(j->suppl_gid_list, gid_list_bytes, gid_list_size);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->chrootdir) { /* stale pointer */
*4b9c6d91SCole Faust		char *chrootdir = consumestr(&serialized, &length);
*4b9c6d91SCole Faust		if (!chrootdir)
*4b9c6d91SCole Faust			goto bad_chrootdir;
*4b9c6d91SCole Faust		j->chrootdir = strdup(chrootdir);
*4b9c6d91SCole Faust		if (!j->chrootdir)
*4b9c6d91SCole Faust			goto bad_chrootdir;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->hostname) { /* stale pointer */
*4b9c6d91SCole Faust		char *hostname = consumestr(&serialized, &length);
*4b9c6d91SCole Faust		if (!hostname)
*4b9c6d91SCole Faust			goto bad_hostname;
*4b9c6d91SCole Faust		j->hostname = strdup(hostname);
*4b9c6d91SCole Faust		if (!j->hostname)
*4b9c6d91SCole Faust			goto bad_hostname;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->alt_syscall_table) { /* stale pointer */
*4b9c6d91SCole Faust		char *alt_syscall_table = consumestr(&serialized, &length);
*4b9c6d91SCole Faust		if (!alt_syscall_table)
*4b9c6d91SCole Faust			goto bad_syscall_table;
*4b9c6d91SCole Faust		j->alt_syscall_table = strdup(alt_syscall_table);
*4b9c6d91SCole Faust		if (!j->alt_syscall_table)
*4b9c6d91SCole Faust			goto bad_syscall_table;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.seccomp_filter && j->filter_len > 0) {
*4b9c6d91SCole Faust		size_t ninstrs = j->filter_len;
*4b9c6d91SCole Faust		if (ninstrs > (SIZE_MAX / sizeof(struct sock_filter)) ||
*4b9c6d91SCole Faust		    ninstrs > USHRT_MAX)
*4b9c6d91SCole Faust			goto bad_filters;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		size_t program_len = ninstrs * sizeof(struct sock_filter);
*4b9c6d91SCole Faust		void *program = consumebytes(program_len, &serialized, &length);
*4b9c6d91SCole Faust		if (!program)
*4b9c6d91SCole Faust			goto bad_filters;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		j->filter_prog = malloc(sizeof(struct sock_fprog));
*4b9c6d91SCole Faust		if (!j->filter_prog)
*4b9c6d91SCole Faust			goto bad_filters;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		j->filter_prog->len = ninstrs;
*4b9c6d91SCole Faust		j->filter_prog->filter = malloc(program_len);
*4b9c6d91SCole Faust		if (!j->filter_prog->filter)
*4b9c6d91SCole Faust			goto bad_filter_prog_instrs;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		memcpy(j->filter_prog->filter, program, program_len);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	count = j->mounts_count;
*4b9c6d91SCole Faust	j->mounts_count = 0;
*4b9c6d91SCole Faust	for (i = 0; i < count; ++i) {
*4b9c6d91SCole Faust		unsigned long *flags;
*4b9c6d91SCole Faust		int *has_data;
*4b9c6d91SCole Faust		const char *dest;
*4b9c6d91SCole Faust		const char *type;
*4b9c6d91SCole Faust		const char *data = NULL;
*4b9c6d91SCole Faust		const char *src = consumestr(&serialized, &length);
*4b9c6d91SCole Faust		if (!src)
*4b9c6d91SCole Faust			goto bad_mounts;
*4b9c6d91SCole Faust		dest = consumestr(&serialized, &length);
*4b9c6d91SCole Faust		if (!dest)
*4b9c6d91SCole Faust			goto bad_mounts;
*4b9c6d91SCole Faust		type = consumestr(&serialized, &length);
*4b9c6d91SCole Faust		if (!type)
*4b9c6d91SCole Faust			goto bad_mounts;
*4b9c6d91SCole Faust		has_data =
*4b9c6d91SCole Faust		    consumebytes(sizeof(*has_data), &serialized, &length);
*4b9c6d91SCole Faust		if (!has_data)
*4b9c6d91SCole Faust			goto bad_mounts;
*4b9c6d91SCole Faust		if (*has_data) {
*4b9c6d91SCole Faust			data = consumestr(&serialized, &length);
*4b9c6d91SCole Faust			if (!data)
*4b9c6d91SCole Faust				goto bad_mounts;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		flags = consumebytes(sizeof(*flags), &serialized, &length);
*4b9c6d91SCole Faust		if (!flags)
*4b9c6d91SCole Faust			goto bad_mounts;
*4b9c6d91SCole Faust		if (minijail_mount_with_data(j, src, dest, type, *flags, data))
*4b9c6d91SCole Faust			goto bad_mounts;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	count = j->cgroup_count;
*4b9c6d91SCole Faust	j->cgroup_count = 0;
*4b9c6d91SCole Faust	for (i = 0; i < count; ++i) {
*4b9c6d91SCole Faust		char *cgroup = consumestr(&serialized, &length);
*4b9c6d91SCole Faust		if (!cgroup)
*4b9c6d91SCole Faust			goto bad_cgroups;
*4b9c6d91SCole Faust		j->cgroups[i] = strdup(cgroup);
*4b9c6d91SCole Faust		if (!j->cgroups[i])
*4b9c6d91SCole Faust			goto bad_cgroups;
*4b9c6d91SCole Faust		++j->cgroup_count;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->seccomp_policy_path) { /* stale pointer */
*4b9c6d91SCole Faust		char *seccomp_policy_path = consumestr(&serialized, &length);
*4b9c6d91SCole Faust		if (!seccomp_policy_path)
*4b9c6d91SCole Faust			goto bad_cgroups;
*4b9c6d91SCole Faust		j->seccomp_policy_path = strdup(seccomp_policy_path);
*4b9c6d91SCole Faust		if (!j->seccomp_policy_path)
*4b9c6d91SCole Faust			goto bad_cgroups;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * If more is added after j->seccomp_policy_path, then this is needed:
*4b9c6d91SCole Faust	 * if (j->seccomp_policy_path)
*4b9c6d91SCole Faust	 * 	free(j->seccomp_policy_path);
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustbad_cgroups:
*4b9c6d91SCole Faust	free_mounts_list(j);
*4b9c6d91SCole Faust	free_remounts_list(j);
*4b9c6d91SCole Faust	for (i = 0; i < j->cgroup_count; ++i)
*4b9c6d91SCole Faust		free(j->cgroups[i]);
*4b9c6d91SCole Faustbad_mounts:
*4b9c6d91SCole Faust	if (j->filter_prog && j->filter_prog->filter)
*4b9c6d91SCole Faust		free(j->filter_prog->filter);
*4b9c6d91SCole Faustbad_filter_prog_instrs:
*4b9c6d91SCole Faust	if (j->filter_prog)
*4b9c6d91SCole Faust		free(j->filter_prog);
*4b9c6d91SCole Faustbad_filters:
*4b9c6d91SCole Faust	if (j->alt_syscall_table)
*4b9c6d91SCole Faust		free(j->alt_syscall_table);
*4b9c6d91SCole Faustbad_syscall_table:
*4b9c6d91SCole Faust	if (j->hostname)
*4b9c6d91SCole Faust		free(j->hostname);
*4b9c6d91SCole Faustbad_hostname:
*4b9c6d91SCole Faust	if (j->chrootdir)
*4b9c6d91SCole Faust		free(j->chrootdir);
*4b9c6d91SCole Faustbad_chrootdir:
*4b9c6d91SCole Faust	if (j->suppl_gid_list)
*4b9c6d91SCole Faust		free(j->suppl_gid_list);
*4b9c6d91SCole Faustbad_gid_list:
*4b9c6d91SCole Faust	if (j->user)
*4b9c6d91SCole Faust		free(j->user);
*4b9c6d91SCole Faustclear_pointers:
*4b9c6d91SCole Faust	j->user = NULL;
*4b9c6d91SCole Faust	j->suppl_gid_list = NULL;
*4b9c6d91SCole Faust	j->chrootdir = NULL;
*4b9c6d91SCole Faust	j->hostname = NULL;
*4b9c6d91SCole Faust	j->alt_syscall_table = NULL;
*4b9c6d91SCole Faust	j->cgroup_count = 0;
*4b9c6d91SCole Faust	j->seccomp_policy_path = NULL;
*4b9c6d91SCole Faustout:
*4b9c6d91SCole Faust	return ret;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct dev_spec {
*4b9c6d91SCole Faust	const char *name;
*4b9c6d91SCole Faust	mode_t mode;
*4b9c6d91SCole Faust	dev_t major, minor;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust// clang-format off
*4b9c6d91SCole Fauststatic const struct dev_spec device_nodes[] = {
*4b9c6d91SCole Faust    {
*4b9c6d91SCole Faust"null",
*4b9c6d91SCole Faust	S_IFCHR | 0666, 1, 3,
*4b9c6d91SCole Faust    },
*4b9c6d91SCole Faust    {
*4b9c6d91SCole Faust	"zero",
*4b9c6d91SCole Faust	S_IFCHR | 0666, 1, 5,
*4b9c6d91SCole Faust    },
*4b9c6d91SCole Faust    {
*4b9c6d91SCole Faust	"full",
*4b9c6d91SCole Faust	S_IFCHR | 0666, 1, 7,
*4b9c6d91SCole Faust    },
*4b9c6d91SCole Faust    {
*4b9c6d91SCole Faust	"urandom",
*4b9c6d91SCole Faust	S_IFCHR | 0444, 1, 9,
*4b9c6d91SCole Faust    },
*4b9c6d91SCole Faust    {
*4b9c6d91SCole Faust	"tty",
*4b9c6d91SCole Faust	S_IFCHR | 0666, 5, 0,
*4b9c6d91SCole Faust    },
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust// clang-format on
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststruct dev_sym_spec {
*4b9c6d91SCole Faust	const char *source, *dest;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic const struct dev_sym_spec device_symlinks[] = {
*4b9c6d91SCole Faust    {
*4b9c6d91SCole Faust	"ptmx",
*4b9c6d91SCole Faust	"pts/ptmx",
*4b9c6d91SCole Faust    },
*4b9c6d91SCole Faust    {
*4b9c6d91SCole Faust	"fd",
*4b9c6d91SCole Faust	"/proc/self/fd",
*4b9c6d91SCole Faust    },
*4b9c6d91SCole Faust    {
*4b9c6d91SCole Faust	"stdin",
*4b9c6d91SCole Faust	"fd/0",
*4b9c6d91SCole Faust    },
*4b9c6d91SCole Faust    {
*4b9c6d91SCole Faust	"stdout",
*4b9c6d91SCole Faust	"fd/1",
*4b9c6d91SCole Faust    },
*4b9c6d91SCole Faust    {
*4b9c6d91SCole Faust	"stderr",
*4b9c6d91SCole Faust	"fd/2",
*4b9c6d91SCole Faust    },
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Clean up the temporary dev path we had setup previously.  In case of errors,
*4b9c6d91SCole Faust * we don't want to go leaking empty tempdirs.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststatic void mount_dev_cleanup(char *dev_path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	umount2(dev_path, MNT_DETACH);
*4b9c6d91SCole Faust	rmdir(dev_path);
*4b9c6d91SCole Faust	free(dev_path);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Set up the pseudo /dev path at the temporary location.
*4b9c6d91SCole Faust * See mount_dev_finalize for more details.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststatic int mount_dev(char **dev_path_ret)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	int ret;
*4b9c6d91SCole Faust	attribute_cleanup_fd int dev_fd = -1;
*4b9c6d91SCole Faust	size_t i;
*4b9c6d91SCole Faust	mode_t mask;
*4b9c6d91SCole Faust	char *dev_path;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Create a temp path for the /dev init.  We'll relocate this to the
*4b9c6d91SCole Faust	 * final location later on in the startup process.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	dev_path = *dev_path_ret = strdup("/tmp/minijail.dev.XXXXXX");
*4b9c6d91SCole Faust	if (dev_path == NULL || mkdtemp(dev_path) == NULL)
*4b9c6d91SCole Faust		pdie("could not create temp path for /dev");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Set up the empty /dev mount point first. */
*4b9c6d91SCole Faust	ret = mount("minijail-devfs", dev_path, "tmpfs", MS_NOEXEC | MS_NOSUID,
*4b9c6d91SCole Faust		    "size=5M,mode=755");
*4b9c6d91SCole Faust	if (ret) {
*4b9c6d91SCole Faust		rmdir(dev_path);
*4b9c6d91SCole Faust		return ret;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* We want to set the mode directly from the spec. */
*4b9c6d91SCole Faust	mask = umask(0);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Get a handle to the temp dev path for *at funcs below. */
*4b9c6d91SCole Faust	dev_fd = open(dev_path, O_DIRECTORY | O_PATH | O_CLOEXEC);
*4b9c6d91SCole Faust	if (dev_fd < 0) {
*4b9c6d91SCole Faust		ret = 1;
*4b9c6d91SCole Faust		goto done;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Create all the nodes in /dev. */
*4b9c6d91SCole Faust	for (i = 0; i < ARRAY_SIZE(device_nodes); ++i) {
*4b9c6d91SCole Faust		const struct dev_spec *ds = &device_nodes[i];
*4b9c6d91SCole Faust		ret = mknodat(dev_fd, ds->name, ds->mode,
*4b9c6d91SCole Faust			      makedev(ds->major, ds->minor));
*4b9c6d91SCole Faust		if (ret)
*4b9c6d91SCole Faust			goto done;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Create all the symlinks in /dev. */
*4b9c6d91SCole Faust	for (i = 0; i < ARRAY_SIZE(device_symlinks); ++i) {
*4b9c6d91SCole Faust		const struct dev_sym_spec *ds = &device_symlinks[i];
*4b9c6d91SCole Faust		ret = symlinkat(ds->dest, dev_fd, ds->source);
*4b9c6d91SCole Faust		if (ret)
*4b9c6d91SCole Faust			goto done;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Create empty dir for glibc shared mem APIs. */
*4b9c6d91SCole Faust	ret = mkdirat(dev_fd, "shm", 01777);
*4b9c6d91SCole Faust	if (ret)
*4b9c6d91SCole Faust		goto done;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Restore old mask. */
*4b9c6d91SCole Faustdone:
*4b9c6d91SCole Faust	umask(mask);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (ret)
*4b9c6d91SCole Faust		mount_dev_cleanup(dev_path);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return ret;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Relocate the temporary /dev mount to its final /dev place.
*4b9c6d91SCole Faust * We have to do this two step process so people can bind mount extra
*4b9c6d91SCole Faust * /dev paths like /dev/log.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststatic int mount_dev_finalize(const struct minijail *j, char *dev_path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	int ret = -1;
*4b9c6d91SCole Faust	char *dest = NULL;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Unmount the /dev mount if possible. */
*4b9c6d91SCole Faust	if (umount2("/dev", MNT_DETACH))
*4b9c6d91SCole Faust		goto done;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (asprintf(&dest, "%s/dev", j->chrootdir ?: "") < 0)
*4b9c6d91SCole Faust		goto done;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (mount(dev_path, dest, NULL, MS_MOVE, NULL))
*4b9c6d91SCole Faust		goto done;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	ret = 0;
*4b9c6d91SCole Faustdone:
*4b9c6d91SCole Faust	free(dest);
*4b9c6d91SCole Faust	mount_dev_cleanup(dev_path);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return ret;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * mount_one: Applies mounts from @m for @j, recursing as needed.
*4b9c6d91SCole Faust * @j Minijail these mounts are for
*4b9c6d91SCole Faust * @m Head of list of mounts
*4b9c6d91SCole Faust *
*4b9c6d91SCole Faust * Returns 0 for success.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststatic int mount_one(const struct minijail *j, struct mountpoint *m,
*4b9c6d91SCole Faust		     const char *dev_path)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	int ret;
*4b9c6d91SCole Faust	char *dest;
*4b9c6d91SCole Faust	bool do_remount = false;
*4b9c6d91SCole Faust	bool has_bind_flag = mount_has_bind_flag(m);
*4b9c6d91SCole Faust	bool has_remount_flag = !!(m->flags & MS_REMOUNT);
*4b9c6d91SCole Faust	unsigned long original_mnt_flags = 0;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* We assume |dest| has a leading "/". */
*4b9c6d91SCole Faust	if (dev_path && strncmp("/dev/", m->dest, 5) == 0) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * Since the temp path is rooted at /dev, skip that dest part.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if (asprintf(&dest, "%s%s", dev_path, m->dest + 4) < 0)
*4b9c6d91SCole Faust			return -ENOMEM;
*4b9c6d91SCole Faust	} else {
*4b9c6d91SCole Faust		if (asprintf(&dest, "%s%s", j->chrootdir ?: "", m->dest) < 0)
*4b9c6d91SCole Faust			return -ENOMEM;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	ret = setup_mount_destination(m->src, dest, j->uid, j->gid,
*4b9c6d91SCole Faust				      has_bind_flag);
*4b9c6d91SCole Faust	if (ret) {
*4b9c6d91SCole Faust		warn("cannot create mount target '%s'", dest);
*4b9c6d91SCole Faust		goto error;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Remount bind mounts that:
*4b9c6d91SCole Faust	 * - Come from the minijail_bind() API, and
*4b9c6d91SCole Faust	 * - Add the 'ro' flag
*4b9c6d91SCole Faust	 * since 'bind' and other flags can't both be specified in the same
*4b9c6d91SCole Faust	 * mount(2) call.
*4b9c6d91SCole Faust	 * Callers using minijail_mount() to perform bind mounts are expected to
*4b9c6d91SCole Faust	 * know what they're doing and call minijail_mount() with MS_REMOUNT as
*4b9c6d91SCole Faust	 * needed.
*4b9c6d91SCole Faust	 * Therefore, if the caller is asking for a remount (using MS_REMOUNT),
*4b9c6d91SCole Faust	 * there is no need to do an extra remount here.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (has_bind_flag && strcmp(m->type, "minijail_bind") == 0 &&
*4b9c6d91SCole Faust	    !has_remount_flag) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * Grab the mount flags of the source. These are used to figure
*4b9c6d91SCole Faust		 * out whether the bind mount needs to be remounted read-only.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if (get_mount_flags(m->src, &original_mnt_flags)) {
*4b9c6d91SCole Faust			warn("cannot get mount flags for '%s'", m->src);
*4b9c6d91SCole Faust			goto error;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if ((m->flags & MS_RDONLY) !=
*4b9c6d91SCole Faust		    (original_mnt_flags & MS_RDONLY)) {
*4b9c6d91SCole Faust			do_remount = 1;
*4b9c6d91SCole Faust			/*
*4b9c6d91SCole Faust			 * Restrict the mount flags to those that are
*4b9c6d91SCole Faust			 * user-settable in a MS_REMOUNT request, but excluding
*4b9c6d91SCole Faust			 * MS_RDONLY. The user-requested mount flags will
*4b9c6d91SCole Faust			 * dictate whether the remount will have that flag or
*4b9c6d91SCole Faust			 * not.
*4b9c6d91SCole Faust			 */
*4b9c6d91SCole Faust			original_mnt_flags &=
*4b9c6d91SCole Faust			    (MS_USER_SETTABLE_MASK & ~MS_RDONLY);
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Do a final check for symlinks in |m->src|.
*4b9c6d91SCole Faust	 * |m->src| will only contain a valid path when purely bind-mounting
*4b9c6d91SCole Faust	 * (but not when remounting a bind mount).
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * Short of having a version of mount(2) that can take fd's, this is the
*4b9c6d91SCole Faust	 * smallest we can make the TOCTOU window.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (has_bind_flag && !has_remount_flag && !is_valid_bind_path(m->src)) {
*4b9c6d91SCole Faust		warn("src '%s' is not a valid bind mount path", m->src);
*4b9c6d91SCole Faust		goto error;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	ret = mount(m->src, dest, m->type, m->flags, m->data);
*4b9c6d91SCole Faust	if (ret) {
*4b9c6d91SCole Faust		pwarn("cannot mount '%s' as '%s' with flags %#lx", m->src, dest,
*4b9c6d91SCole Faust		      m->flags);
*4b9c6d91SCole Faust		goto error;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Remount *after* the initial mount. */
*4b9c6d91SCole Faust	if (do_remount) {
*4b9c6d91SCole Faust		ret =
*4b9c6d91SCole Faust		    mount(m->src, dest, NULL,
*4b9c6d91SCole Faust			  m->flags | original_mnt_flags | MS_REMOUNT, m->data);
*4b9c6d91SCole Faust		if (ret) {
*4b9c6d91SCole Faust			pwarn(
*4b9c6d91SCole Faust			    "cannot bind-remount '%s' as '%s' with flags %#lx",
*4b9c6d91SCole Faust			    m->src, dest,
*4b9c6d91SCole Faust			    m->flags | original_mnt_flags | MS_REMOUNT);
*4b9c6d91SCole Faust			goto error;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	free(dest);
*4b9c6d91SCole Faust	if (m->next)
*4b9c6d91SCole Faust		return mount_one(j, m->next, dev_path);
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust
*4b9c6d91SCole Fausterror:
*4b9c6d91SCole Faust	free(dest);
*4b9c6d91SCole Faust	return ret;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void process_mounts_or_die(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * We have to mount /dev first in case there are bind mounts from
*4b9c6d91SCole Faust	 * the original /dev into the new unique tmpfs one.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	char *dev_path = NULL;
*4b9c6d91SCole Faust	if (j->flags.mount_dev && mount_dev(&dev_path))
*4b9c6d91SCole Faust		pdie("mount_dev failed");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->mounts_head && mount_one(j, j->mounts_head, dev_path)) {
*4b9c6d91SCole Faust		warn("mount_one failed with /dev at '%s'", dev_path);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (dev_path)
*4b9c6d91SCole Faust			mount_dev_cleanup(dev_path);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		_exit(MINIJAIL_ERR_MOUNT);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Once all bind mounts have been processed, move the temp dev to
*4b9c6d91SCole Faust	 * its final /dev home.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.mount_dev && mount_dev_finalize(j, dev_path))
*4b9c6d91SCole Faust		pdie("mount_dev_finalize failed");
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int enter_chroot(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	run_hooks_or_die(j, MINIJAIL_HOOK_EVENT_PRE_CHROOT);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (chroot(j->chrootdir))
*4b9c6d91SCole Faust		return -errno;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (chdir("/"))
*4b9c6d91SCole Faust		return -errno;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int enter_pivot_root(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	attribute_cleanup_fd int oldroot = -1;
*4b9c6d91SCole Faust	attribute_cleanup_fd int newroot = -1;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	run_hooks_or_die(j, MINIJAIL_HOOK_EVENT_PRE_CHROOT);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Keep the fd for both old and new root.
*4b9c6d91SCole Faust	 * It will be used in fchdir(2) later.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	oldroot = open("/", O_DIRECTORY | O_RDONLY | O_CLOEXEC);
*4b9c6d91SCole Faust	if (oldroot < 0)
*4b9c6d91SCole Faust		pdie("failed to open / for fchdir");
*4b9c6d91SCole Faust	newroot = open(j->chrootdir, O_DIRECTORY | O_RDONLY | O_CLOEXEC);
*4b9c6d91SCole Faust	if (newroot < 0)
*4b9c6d91SCole Faust		pdie("failed to open %s for fchdir", j->chrootdir);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * To ensure j->chrootdir is the root of a filesystem,
*4b9c6d91SCole Faust	 * do a self bind mount.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (mount(j->chrootdir, j->chrootdir, "bind", MS_BIND | MS_REC, ""))
*4b9c6d91SCole Faust		pdie("failed to bind mount '%s'", j->chrootdir);
*4b9c6d91SCole Faust	if (chdir(j->chrootdir))
*4b9c6d91SCole Faust		return -errno;
*4b9c6d91SCole Faust	if (syscall(SYS_pivot_root, ".", "."))
*4b9c6d91SCole Faust		pdie("pivot_root");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Now the old root is mounted on top of the new root. Use fchdir(2) to
*4b9c6d91SCole Faust	 * change to the old root and unmount it.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (fchdir(oldroot))
*4b9c6d91SCole Faust		pdie("failed to fchdir to old /");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * If skip_remount_private was enabled for minijail_enter(),
*4b9c6d91SCole Faust	 * there could be a shared mount point under |oldroot|. In that case,
*4b9c6d91SCole Faust	 * mounts under this shared mount point will be unmounted below, and
*4b9c6d91SCole Faust	 * this unmounting will propagate to the original mount namespace
*4b9c6d91SCole Faust	 * (because the mount point is shared). To prevent this unexpected
*4b9c6d91SCole Faust	 * unmounting, remove these mounts from their peer groups by recursively
*4b9c6d91SCole Faust	 * remounting them as MS_PRIVATE.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (mount(NULL, ".", NULL, MS_REC | MS_PRIVATE, NULL))
*4b9c6d91SCole Faust		pdie("failed to mount(/, private) before umount(/)");
*4b9c6d91SCole Faust	/* The old root might be busy, so use lazy unmount. */
*4b9c6d91SCole Faust	if (umount2(".", MNT_DETACH))
*4b9c6d91SCole Faust		pdie("umount(/)");
*4b9c6d91SCole Faust	/* Change back to the new root. */
*4b9c6d91SCole Faust	if (fchdir(newroot))
*4b9c6d91SCole Faust		return -errno;
*4b9c6d91SCole Faust	if (chroot("/"))
*4b9c6d91SCole Faust		return -errno;
*4b9c6d91SCole Faust	/* Set correct CWD for getcwd(3). */
*4b9c6d91SCole Faust	if (chdir("/"))
*4b9c6d91SCole Faust		return -errno;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int mount_tmp(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	const char fmt[] = "size=%zu,mode=1777";
*4b9c6d91SCole Faust	/* Count for the user storing ULLONG_MAX literally + extra space. */
*4b9c6d91SCole Faust	char data[sizeof(fmt) + sizeof("18446744073709551615ULL")];
*4b9c6d91SCole Faust	int ret;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	ret = snprintf(data, sizeof(data), fmt, j->tmpfs_size);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (ret <= 0)
*4b9c6d91SCole Faust		pdie("tmpfs size spec error");
*4b9c6d91SCole Faust	else if ((size_t)ret >= sizeof(data))
*4b9c6d91SCole Faust		pdie("tmpfs size spec too large");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	unsigned long flags = MS_NODEV | MS_NOEXEC | MS_NOSUID;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (block_symlinks_in_noninit_mountns_tmp()) {
*4b9c6d91SCole Faust		flags |= MS_NOSYMFOLLOW;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return mount("none", "/tmp", "tmpfs", flags, data);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int remount_proc_readonly(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	const char *kProcPath = "/proc";
*4b9c6d91SCole Faust	const unsigned int kSafeFlags = MS_NODEV | MS_NOEXEC | MS_NOSUID;
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Right now, we're holding a reference to our parent's old mount of
*4b9c6d91SCole Faust	 * /proc in our namespace, which means using MS_REMOUNT here would
*4b9c6d91SCole Faust	 * mutate our parent's mount as well, even though we're in a VFS
*4b9c6d91SCole Faust	 * namespace (!). Instead, remove their mount from our namespace lazily
*4b9c6d91SCole Faust	 * (MNT_DETACH) and make our own.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * However, we skip this in the user namespace case because it will
*4b9c6d91SCole Faust	 * invariably fail. Every mount namespace is "owned" by the
*4b9c6d91SCole Faust	 * user namespace of the process that creates it. Mount namespace A is
*4b9c6d91SCole Faust	 * "less privileged" than mount namespace B if A is created off of B,
*4b9c6d91SCole Faust	 * and B is owned by a different user namespace.
*4b9c6d91SCole Faust	 * When a less privileged mount namespace is created, the mounts used to
*4b9c6d91SCole Faust	 * initialize it (coming from the more privileged mount namespace) come
*4b9c6d91SCole Faust	 * as a unit, and are locked together. This means that code running in
*4b9c6d91SCole Faust	 * the new mount (and user) namespace cannot piecemeal unmount
*4b9c6d91SCole Faust	 * individual mounts inherited from a more privileged mount namespace.
*4b9c6d91SCole Faust	 * See https://man7.org/linux/man-pages/man7/mount_namespaces.7.html,
*4b9c6d91SCole Faust	 * "Restrictions on mount namespaces" for details.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * This happens in our use case because we first enter a new user
*4b9c6d91SCole Faust	 * namespace (on clone(2)) and then we unshare(2) a new mount namespace,
*4b9c6d91SCole Faust	 * which means the new mount namespace is less privileged than its
*4b9c6d91SCole Faust	 * parent mount namespace. This would also happen if we entered a new
*4b9c6d91SCole Faust	 * mount namespace on clone(2), since the user namespace is created
*4b9c6d91SCole Faust	 * first.
*4b9c6d91SCole Faust	 * In all other non-user-namespace cases the new mount namespace is
*4b9c6d91SCole Faust	 * similarly privileged as the parent mount namespace so unmounting a
*4b9c6d91SCole Faust	 * single mount is allowed.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * We still remount /proc as read-only in the user namespace case
*4b9c6d91SCole Faust	 * because while a process with CAP_SYS_ADMIN in the new user namespace
*4b9c6d91SCole Faust	 * can unmount the RO mount and get at the RW mount, an attacker with
*4b9c6d91SCole Faust	 * access only to a write primitive will not be able to modify /proc.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (!j->flags.userns && umount2(kProcPath, MNT_DETACH))
*4b9c6d91SCole Faust		return -errno;
*4b9c6d91SCole Faust	if (mount("proc", kProcPath, "proc", kSafeFlags | MS_RDONLY, ""))
*4b9c6d91SCole Faust		return -errno;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void kill_child_and_die(const struct minijail *j, const char *msg)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	kill(j->initpid, SIGKILL);
*4b9c6d91SCole Faust	die("%s", msg);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void write_pid_file_or_die(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (write_pid_to_path(j->initpid, j->pid_file_path))
*4b9c6d91SCole Faust		kill_child_and_die(j, "failed to write pid file");
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void add_to_cgroups_or_die(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	size_t i;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	for (i = 0; i < j->cgroup_count; ++i) {
*4b9c6d91SCole Faust		if (write_pid_to_path(j->initpid, j->cgroups[i]))
*4b9c6d91SCole Faust			kill_child_and_die(j, "failed to add to cgroups");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void set_rlimits_or_die(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	size_t i;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	for (i = 0; i < j->rlimit_count; ++i) {
*4b9c6d91SCole Faust		struct rlimit limit;
*4b9c6d91SCole Faust		limit.rlim_cur = j->rlimits[i].cur;
*4b9c6d91SCole Faust		limit.rlim_max = j->rlimits[i].max;
*4b9c6d91SCole Faust		if (prlimit(j->initpid, j->rlimits[i].type, &limit, NULL))
*4b9c6d91SCole Faust			kill_child_and_die(j, "failed to set rlimit");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void write_ugid_maps_or_die(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->uidmap && write_proc_file(j->initpid, j->uidmap, "uid_map") != 0)
*4b9c6d91SCole Faust		kill_child_and_die(j, "failed to write uid_map");
*4b9c6d91SCole Faust	if (j->gidmap && j->flags.disable_setgroups) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * Older kernels might not have the /proc/<pid>/setgroups files.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		int ret = write_proc_file(j->initpid, "deny", "setgroups");
*4b9c6d91SCole Faust		if (ret != 0) {
*4b9c6d91SCole Faust			if (ret == -ENOENT) {
*4b9c6d91SCole Faust				/*
*4b9c6d91SCole Faust				 * See
*4b9c6d91SCole Faust				 * http://man7.org/linux/man-pages/man7/user_namespaces.7.html.
*4b9c6d91SCole Faust				 */
*4b9c6d91SCole Faust				warn("could not disable setgroups(2)");
*4b9c6d91SCole Faust			} else
*4b9c6d91SCole Faust				kill_child_and_die(
*4b9c6d91SCole Faust				    j, "failed to disable setgroups(2)");
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (j->gidmap && write_proc_file(j->initpid, j->gidmap, "gid_map") != 0)
*4b9c6d91SCole Faust		kill_child_and_die(j, "failed to write gid_map");
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void enter_user_namespace(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	int uid = j->flags.uid ? j->uid : 0;
*4b9c6d91SCole Faust	int gid = j->flags.gid ? j->gid : 0;
*4b9c6d91SCole Faust	if (j->gidmap && setresgid(gid, gid, gid)) {
*4b9c6d91SCole Faust		pdie("user_namespaces: setresgid(%d, %d, %d) failed", gid, gid,
*4b9c6d91SCole Faust		     gid);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (j->uidmap && setresuid(uid, uid, uid)) {
*4b9c6d91SCole Faust		pdie("user_namespaces: setresuid(%d, %d, %d) failed", uid, uid,
*4b9c6d91SCole Faust		     uid);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void parent_setup_complete(int *pipe_fds)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	close_and_reset(&pipe_fds[0]);
*4b9c6d91SCole Faust	close_and_reset(&pipe_fds[1]);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * wait_for_parent_setup: Called by the child process to wait for any
*4b9c6d91SCole Faust * further parent-side setup to complete before continuing.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststatic void wait_for_parent_setup(int *pipe_fds)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	char buf;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	close_and_reset(&pipe_fds[1]);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Wait for parent to complete setup and close the pipe. */
*4b9c6d91SCole Faust	if (read(pipe_fds[0], &buf, 1) != 0)
*4b9c6d91SCole Faust		die("failed to sync with parent");
*4b9c6d91SCole Faust	close_and_reset(&pipe_fds[0]);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void drop_ugid(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->flags.inherit_suppl_gids + j->flags.keep_suppl_gids +
*4b9c6d91SCole Faust		j->flags.set_suppl_gids >
*4b9c6d91SCole Faust	    1) {
*4b9c6d91SCole Faust		die("can only do one of inherit, keep, or set supplementary "
*4b9c6d91SCole Faust		    "groups");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.inherit_suppl_gids) {
*4b9c6d91SCole Faust		if (initgroups(j->user, j->usergid))
*4b9c6d91SCole Faust			pdie("initgroups(%s, %d) failed", j->user, j->usergid);
*4b9c6d91SCole Faust	} else if (j->flags.set_suppl_gids) {
*4b9c6d91SCole Faust		if (setgroups(j->suppl_gid_count, j->suppl_gid_list))
*4b9c6d91SCole Faust			pdie("setgroups(suppl_gids) failed");
*4b9c6d91SCole Faust	} else if (!j->flags.keep_suppl_gids && !j->flags.disable_setgroups) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * Only attempt to clear supplementary groups if we are changing
*4b9c6d91SCole Faust		 * users or groups, and if the caller did not request to disable
*4b9c6d91SCole Faust		 * setgroups (used when entering a user namespace as a
*4b9c6d91SCole Faust		 * non-privileged user).
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if ((j->flags.uid || j->flags.gid) && setgroups(0, NULL))
*4b9c6d91SCole Faust			pdie("setgroups(0, NULL) failed");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.gid && setresgid(j->gid, j->gid, j->gid))
*4b9c6d91SCole Faust		pdie("setresgid(%d, %d, %d) failed", j->gid, j->gid, j->gid);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.uid && setresuid(j->uid, j->uid, j->uid))
*4b9c6d91SCole Faust		pdie("setresuid(%d, %d, %d) failed", j->uid, j->uid, j->uid);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void drop_capbset(uint64_t keep_mask, unsigned int last_valid_cap)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	const uint64_t one = 1;
*4b9c6d91SCole Faust	unsigned int i;
*4b9c6d91SCole Faust	for (i = 0; i < sizeof(keep_mask) * 8 && i <= last_valid_cap; ++i) {
*4b9c6d91SCole Faust		if (keep_mask & (one << i))
*4b9c6d91SCole Faust			continue;
*4b9c6d91SCole Faust		if (prctl(PR_CAPBSET_DROP, i))
*4b9c6d91SCole Faust			pdie("could not drop capability from bounding set");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void drop_caps(const struct minijail *j, unsigned int last_valid_cap)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (!j->flags.use_caps)
*4b9c6d91SCole Faust		return;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	cap_t caps = cap_get_proc();
*4b9c6d91SCole Faust	cap_value_t flag[1];
*4b9c6d91SCole Faust	const size_t ncaps = sizeof(j->caps) * 8;
*4b9c6d91SCole Faust	const uint64_t one = 1;
*4b9c6d91SCole Faust	unsigned int i;
*4b9c6d91SCole Faust	if (!caps)
*4b9c6d91SCole Faust		die("can't get process caps");
*4b9c6d91SCole Faust	if (cap_clear(caps))
*4b9c6d91SCole Faust		die("can't clear caps");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	for (i = 0; i < ncaps && i <= last_valid_cap; ++i) {
*4b9c6d91SCole Faust		/* Keep CAP_SETPCAP for dropping bounding set bits. */
*4b9c6d91SCole Faust		if (i != CAP_SETPCAP && !(j->caps & (one << i)))
*4b9c6d91SCole Faust			continue;
*4b9c6d91SCole Faust		flag[0] = i;
*4b9c6d91SCole Faust		if (cap_set_flag(caps, CAP_EFFECTIVE, 1, flag, CAP_SET))
*4b9c6d91SCole Faust			die("can't add effective cap");
*4b9c6d91SCole Faust		if (cap_set_flag(caps, CAP_PERMITTED, 1, flag, CAP_SET))
*4b9c6d91SCole Faust			die("can't add permitted cap");
*4b9c6d91SCole Faust		if (cap_set_flag(caps, CAP_INHERITABLE, 1, flag, CAP_SET))
*4b9c6d91SCole Faust			die("can't add inheritable cap");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (cap_set_proc(caps))
*4b9c6d91SCole Faust		die("can't apply initial cleaned capset");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Instead of dropping the bounding set first, do it here in case
*4b9c6d91SCole Faust	 * the caller had a more permissive bounding set which could
*4b9c6d91SCole Faust	 * have been used above to raise a capability that wasn't already
*4b9c6d91SCole Faust	 * present. This requires CAP_SETPCAP, so we raised/kept it above.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * However, if we're asked to skip setting *and* locking the
*4b9c6d91SCole Faust	 * SECURE_NOROOT securebit, also skip dropping the bounding set.
*4b9c6d91SCole Faust	 * If the caller wants to regain all capabilities when executing a
*4b9c6d91SCole Faust	 * set-user-ID-root program, allow them to do so. The default behavior
*4b9c6d91SCole Faust	 * (i.e. the behavior without |securebits_skip_mask| set) will still put
*4b9c6d91SCole Faust	 * the jailed process tree in a capabilities-only environment.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * We check the negated skip mask for SECURE_NOROOT and
*4b9c6d91SCole Faust	 * SECURE_NOROOT_LOCKED. If the bits are set in the negated mask they
*4b9c6d91SCole Faust	 * will *not* be skipped in lock_securebits(), and therefore we should
*4b9c6d91SCole Faust	 * drop the bounding set.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (secure_noroot_set_and_locked(~j->securebits_skip_mask)) {
*4b9c6d91SCole Faust		drop_capbset(j->caps, last_valid_cap);
*4b9c6d91SCole Faust	} else {
*4b9c6d91SCole Faust		warn("SECURE_NOROOT not set, not dropping bounding set");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* If CAP_SETPCAP wasn't specifically requested, now we remove it. */
*4b9c6d91SCole Faust	if ((j->caps & (one << CAP_SETPCAP)) == 0) {
*4b9c6d91SCole Faust		flag[0] = CAP_SETPCAP;
*4b9c6d91SCole Faust		if (cap_set_flag(caps, CAP_EFFECTIVE, 1, flag, CAP_CLEAR))
*4b9c6d91SCole Faust			die("can't clear effective cap");
*4b9c6d91SCole Faust		if (cap_set_flag(caps, CAP_PERMITTED, 1, flag, CAP_CLEAR))
*4b9c6d91SCole Faust			die("can't clear permitted cap");
*4b9c6d91SCole Faust		if (cap_set_flag(caps, CAP_INHERITABLE, 1, flag, CAP_CLEAR))
*4b9c6d91SCole Faust			die("can't clear inheritable cap");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (cap_set_proc(caps))
*4b9c6d91SCole Faust		die("can't apply final cleaned capset");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * If ambient capabilities are supported, clear all capabilities first,
*4b9c6d91SCole Faust	 * then raise the requested ones.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.set_ambient_caps) {
*4b9c6d91SCole Faust		if (!cap_ambient_supported()) {
*4b9c6d91SCole Faust			pdie("ambient capabilities not supported");
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		if (prctl(PR_CAP_AMBIENT, PR_CAP_AMBIENT_CLEAR_ALL, 0, 0, 0) !=
*4b9c6d91SCole Faust		    0) {
*4b9c6d91SCole Faust			pdie("can't clear ambient capabilities");
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		for (i = 0; i < ncaps && i <= last_valid_cap; ++i) {
*4b9c6d91SCole Faust			if (!(j->caps & (one << i)))
*4b9c6d91SCole Faust				continue;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust			if (prctl(PR_CAP_AMBIENT, PR_CAP_AMBIENT_RAISE, i, 0,
*4b9c6d91SCole Faust				  0) != 0) {
*4b9c6d91SCole Faust				pdie("prctl(PR_CAP_AMBIENT, "
*4b9c6d91SCole Faust				     "PR_CAP_AMBIENT_RAISE, %u) failed",
*4b9c6d91SCole Faust				     i);
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	cap_free(caps);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* Creates a ruleset for current inodes then calls landlock_restrict_self(). */
*4b9c6d91SCole Fauststatic void apply_landlock_restrictions(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct fs_rule *r;
*4b9c6d91SCole Faust	attribute_cleanup_fd int ruleset_fd = -1;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	r = j->fs_rules_head;
*4b9c6d91SCole Faust	while (r) {
*4b9c6d91SCole Faust		if (ruleset_fd < 0) {
*4b9c6d91SCole Faust			struct minijail_landlock_ruleset_attr ruleset_attr = {
*4b9c6d91SCole Faust				.handled_access_fs = HANDLED_ACCESS_TYPES
*4b9c6d91SCole Faust			};
*4b9c6d91SCole Faust			ruleset_fd = landlock_create_ruleset(
*4b9c6d91SCole Faust				&ruleset_attr, sizeof(ruleset_attr), 0);
*4b9c6d91SCole Faust			if (ruleset_fd < 0) {
*4b9c6d91SCole Faust				const int err = errno;
*4b9c6d91SCole Faust				pwarn("Failed to create a ruleset");
*4b9c6d91SCole Faust				switch (err) {
*4b9c6d91SCole Faust				case ENOSYS:
*4b9c6d91SCole Faust					pwarn("Landlock is not supported by the current kernel");
*4b9c6d91SCole Faust					break;
*4b9c6d91SCole Faust				case EOPNOTSUPP:
*4b9c6d91SCole Faust					pwarn("Landlock is currently disabled by kernel config");
*4b9c6d91SCole Faust					break;
*4b9c6d91SCole Faust				}
*4b9c6d91SCole Faust				return;
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		populate_ruleset_internal(r->path, ruleset_fd, r->landlock_flags);
*4b9c6d91SCole Faust		r = r->next;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (ruleset_fd >= 0) {
*4b9c6d91SCole Faust		if (landlock_restrict_self(ruleset_fd, 0)) {
*4b9c6d91SCole Faust			pdie("Failed to enforce ruleset");
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void set_seccomp_filter(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Set no_new_privs. See </kernel/seccomp.c> and </kernel/sys.c>
*4b9c6d91SCole Faust	 * in the kernel source tree for an explanation of the parameters.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.no_new_privs) {
*4b9c6d91SCole Faust		if (prctl(PR_SET_NO_NEW_PRIVS, 1, 0, 0, 0))
*4b9c6d91SCole Faust			pdie("prctl(PR_SET_NO_NEW_PRIVS)");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Code running with ASan
*4b9c6d91SCole Faust	 * (https://github.com/google/sanitizers/wiki/AddressSanitizer)
*4b9c6d91SCole Faust	 * will make system calls not included in the syscall filter policy,
*4b9c6d91SCole Faust	 * which will likely crash the program. Skip setting seccomp filter in
*4b9c6d91SCole Faust	 * that case.
*4b9c6d91SCole Faust	 * 'running_with_asan()' has no inputs and is completely defined at
*4b9c6d91SCole Faust	 * build time, so this cannot be used by an attacker to skip setting
*4b9c6d91SCole Faust	 * seccomp filter.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.seccomp_filter && running_with_asan()) {
*4b9c6d91SCole Faust		warn("running with (HW)ASan, not setting seccomp filter");
*4b9c6d91SCole Faust		return;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.seccomp_filter) {
*4b9c6d91SCole Faust		if (seccomp_is_logging_allowed(j)) {
*4b9c6d91SCole Faust			warn("logging seccomp filter failures");
*4b9c6d91SCole Faust			if (!seccomp_ret_log_available()) {
*4b9c6d91SCole Faust				/*
*4b9c6d91SCole Faust				 * If SECCOMP_RET_LOG is not available,
*4b9c6d91SCole Faust				 * install the SIGSYS handler first.
*4b9c6d91SCole Faust				 */
*4b9c6d91SCole Faust				if (install_sigsys_handler())
*4b9c6d91SCole Faust					pdie(
*4b9c6d91SCole Faust					    "failed to install SIGSYS handler");
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		} else if (j->flags.seccomp_filter_tsync) {
*4b9c6d91SCole Faust			/*
*4b9c6d91SCole Faust			 * If setting thread sync,
*4b9c6d91SCole Faust			 * reset the SIGSYS signal handler so that
*4b9c6d91SCole Faust			 * the entire thread group is killed.
*4b9c6d91SCole Faust			 */
*4b9c6d91SCole Faust			if (signal(SIGSYS, SIG_DFL) == SIG_ERR)
*4b9c6d91SCole Faust				pdie("failed to reset SIGSYS disposition");
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Install the syscall filter.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.seccomp_filter) {
*4b9c6d91SCole Faust		if (j->flags.seccomp_filter_tsync ||
*4b9c6d91SCole Faust		    j->flags.seccomp_filter_allow_speculation) {
*4b9c6d91SCole Faust			int filter_flags =
*4b9c6d91SCole Faust			    (j->flags.seccomp_filter_tsync
*4b9c6d91SCole Faust				 ? SECCOMP_FILTER_FLAG_TSYNC
*4b9c6d91SCole Faust				 : 0) |
*4b9c6d91SCole Faust			    (j->flags.seccomp_filter_allow_speculation
*4b9c6d91SCole Faust				 ? SECCOMP_FILTER_FLAG_SPEC_ALLOW
*4b9c6d91SCole Faust				 : 0);
*4b9c6d91SCole Faust			if (sys_seccomp(SECCOMP_SET_MODE_FILTER, filter_flags,
*4b9c6d91SCole Faust					j->filter_prog)) {
*4b9c6d91SCole Faust				pdie("seccomp(tsync) failed");
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		} else {
*4b9c6d91SCole Faust			if (prctl(PR_SET_SECCOMP, SECCOMP_MODE_FILTER,
*4b9c6d91SCole Faust				  j->filter_prog)) {
*4b9c6d91SCole Faust				pdie("prctl(seccomp_filter) failed");
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic pid_t forward_pid = -1;
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void forward_signal(int sig, siginfo_t *siginfo attribute_unused,
*4b9c6d91SCole Faust			   void *void_context attribute_unused)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (forward_pid != -1) {
*4b9c6d91SCole Faust		kill(forward_pid, sig);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void install_signal_handlers(void)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct sigaction act;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	memset(&act, 0, sizeof(act));
*4b9c6d91SCole Faust	act.sa_sigaction = &forward_signal;
*4b9c6d91SCole Faust	act.sa_flags = SA_SIGINFO | SA_RESTART;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Handle all signals, except SIGCHLD. */
*4b9c6d91SCole Faust	for (int sig = 1; sig < NSIG; sig++) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * We don't care if we get EINVAL: that just means that we
*4b9c6d91SCole Faust		 * can't handle this signal, so let's skip it and continue.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		sigaction(sig, &act, NULL);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	/* Reset SIGCHLD's handler. */
*4b9c6d91SCole Faust	signal(SIGCHLD, SIG_DFL);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Handle real-time signals. */
*4b9c6d91SCole Faust	for (int sig = SIGRTMIN; sig <= SIGRTMAX; sig++) {
*4b9c6d91SCole Faust		sigaction(sig, &act, NULL);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic const char *lookup_hook_name(minijail_hook_event_t event)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	switch (event) {
*4b9c6d91SCole Faust	case MINIJAIL_HOOK_EVENT_PRE_DROP_CAPS:
*4b9c6d91SCole Faust		return "pre-drop-caps";
*4b9c6d91SCole Faust	case MINIJAIL_HOOK_EVENT_PRE_EXECVE:
*4b9c6d91SCole Faust		return "pre-execve";
*4b9c6d91SCole Faust	case MINIJAIL_HOOK_EVENT_PRE_CHROOT:
*4b9c6d91SCole Faust		return "pre-chroot";
*4b9c6d91SCole Faust	case MINIJAIL_HOOK_EVENT_MAX:
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * Adding this in favor of a default case to force the
*4b9c6d91SCole Faust		 * compiler to error out if a new enum value is added.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		break;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	return "unknown";
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void run_hooks_or_die(const struct minijail *j,
*4b9c6d91SCole Faust			     minijail_hook_event_t event)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	int rc;
*4b9c6d91SCole Faust	int hook_index = 0;
*4b9c6d91SCole Faust	for (struct hook *c = j->hooks_head; c; c = c->next) {
*4b9c6d91SCole Faust		if (c->event != event)
*4b9c6d91SCole Faust			continue;
*4b9c6d91SCole Faust		rc = c->hook(c->payload);
*4b9c6d91SCole Faust		if (rc != 0) {
*4b9c6d91SCole Faust			errno = -rc;
*4b9c6d91SCole Faust			pdie("%s hook (index %d) failed",
*4b9c6d91SCole Faust			     lookup_hook_name(event), hook_index);
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		/* Only increase the index within the same hook event type. */
*4b9c6d91SCole Faust		++hook_index;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_enter(const struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * If we're dropping caps, get the last valid cap from /proc now,
*4b9c6d91SCole Faust	 * since /proc can be unmounted before drop_caps() is called.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	unsigned int last_valid_cap = 0;
*4b9c6d91SCole Faust	if (j->flags.capbset_drop || j->flags.use_caps)
*4b9c6d91SCole Faust		last_valid_cap = get_last_valid_cap();
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.pids)
*4b9c6d91SCole Faust		die("tried to enter a pid-namespaced jail;"
*4b9c6d91SCole Faust		    " try minijail_run()?");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.inherit_suppl_gids && !j->user)
*4b9c6d91SCole Faust		die("cannot inherit supplementary groups without setting a "
*4b9c6d91SCole Faust		    "username");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * We can't recover from failures if we've dropped privileges partially,
*4b9c6d91SCole Faust	 * so we don't even try. If any of our operations fail, we abort() the
*4b9c6d91SCole Faust	 * entire process.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.enter_vfs) {
*4b9c6d91SCole Faust		if (setns(j->mountns_fd, CLONE_NEWNS))
*4b9c6d91SCole Faust			pdie("setns(CLONE_NEWNS) failed");
*4b9c6d91SCole Faust		close(j->mountns_fd);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.vfs) {
*4b9c6d91SCole Faust		if (unshare(CLONE_NEWNS))
*4b9c6d91SCole Faust			pdie("unshare(CLONE_NEWNS) failed");
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * By default, remount all filesystems as private, unless
*4b9c6d91SCole Faust		 * - Passed a specific remount mode, in which case remount with
*4b9c6d91SCole Faust		 *   that,
*4b9c6d91SCole Faust		 * - Asked not to remount at all, in which case skip the
*4b9c6d91SCole Faust		 *   mount(2) call.
*4b9c6d91SCole Faust		 * https://www.kernel.org/doc/Documentation/filesystems/sharedsubtree.txt
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if (j->remount_mode) {
*4b9c6d91SCole Faust			if (mount(NULL, "/", NULL, MS_REC | j->remount_mode,
*4b9c6d91SCole Faust				  NULL))
*4b9c6d91SCole Faust				pdie("mount(NULL, /, NULL, "
*4b9c6d91SCole Faust				     "MS_REC | j->remount_mode, NULL) failed");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust			struct minijail_remount *temp = j->remounts_head;
*4b9c6d91SCole Faust			while (temp) {
*4b9c6d91SCole Faust				if (temp->remount_mode < j->remount_mode)
*4b9c6d91SCole Faust					die("cannot remount %s as stricter "
*4b9c6d91SCole Faust					    "than the root dir",
*4b9c6d91SCole Faust					    temp->mount_name);
*4b9c6d91SCole Faust				if (mount(NULL, temp->mount_name, NULL,
*4b9c6d91SCole Faust					  MS_REC | temp->remount_mode, NULL))
*4b9c6d91SCole Faust					pdie("mount(NULL, %s, NULL, "
*4b9c6d91SCole Faust					     "MS_REC | temp->remount_mode, "
*4b9c6d91SCole Faust					     "NULL) failed",
*4b9c6d91SCole Faust					     temp->mount_name);
*4b9c6d91SCole Faust				temp = temp->next;
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.ipc && unshare(CLONE_NEWIPC)) {
*4b9c6d91SCole Faust		pdie("unshare(CLONE_NEWIPC) failed");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.uts) {
*4b9c6d91SCole Faust		if (unshare(CLONE_NEWUTS))
*4b9c6d91SCole Faust			pdie("unshare(CLONE_NEWUTS) failed");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (j->hostname &&
*4b9c6d91SCole Faust		    sethostname(j->hostname, strlen(j->hostname)))
*4b9c6d91SCole Faust			pdie("sethostname(%s) failed", j->hostname);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.enter_net) {
*4b9c6d91SCole Faust		if (setns(j->netns_fd, CLONE_NEWNET))
*4b9c6d91SCole Faust			pdie("setns(CLONE_NEWNET) failed");
*4b9c6d91SCole Faust		close(j->netns_fd);
*4b9c6d91SCole Faust	} else if (j->flags.net) {
*4b9c6d91SCole Faust		if (unshare(CLONE_NEWNET))
*4b9c6d91SCole Faust			pdie("unshare(CLONE_NEWNET) failed");
*4b9c6d91SCole Faust		config_net_loopback();
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.ns_cgroups && unshare(CLONE_NEWCGROUP))
*4b9c6d91SCole Faust		pdie("unshare(CLONE_NEWCGROUP) failed");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.new_session_keyring) {
*4b9c6d91SCole Faust		if (syscall(SYS_keyctl, KEYCTL_JOIN_SESSION_KEYRING, NULL) < 0)
*4b9c6d91SCole Faust			pdie("keyctl(KEYCTL_JOIN_SESSION_KEYRING) failed");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* We have to process all the mounts before we chroot/pivot_root. */
*4b9c6d91SCole Faust	process_mounts_or_die(j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.chroot && enter_chroot(j))
*4b9c6d91SCole Faust		pdie("chroot");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.pivot_root && enter_pivot_root(j))
*4b9c6d91SCole Faust		pdie("pivot_root");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.mount_tmp && mount_tmp(j))
*4b9c6d91SCole Faust		pdie("mount_tmp");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.remount_proc_ro && remount_proc_readonly(j))
*4b9c6d91SCole Faust		pdie("remount");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	run_hooks_or_die(j, MINIJAIL_HOOK_EVENT_PRE_DROP_CAPS);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * If we're only dropping capabilities from the bounding set, but not
*4b9c6d91SCole Faust	 * from the thread's (permitted|inheritable|effective) sets, do it now.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.capbset_drop) {
*4b9c6d91SCole Faust		drop_capbset(j->cap_bset, last_valid_cap);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * POSIX capabilities are a bit tricky. We must set SECBIT_KEEP_CAPS
*4b9c6d91SCole Faust	 * before drop_ugid() below as the latter would otherwise drop all
*4b9c6d91SCole Faust	 * capabilities.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.use_caps) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * When using ambient capabilities, CAP_SET{GID,UID} can be
*4b9c6d91SCole Faust		 * inherited across execve(2), so SECBIT_KEEP_CAPS is not
*4b9c6d91SCole Faust		 * strictly needed.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		bool require_keep_caps = !j->flags.set_ambient_caps;
*4b9c6d91SCole Faust		if (lock_securebits(j->securebits_skip_mask,
*4b9c6d91SCole Faust				    require_keep_caps) < 0) {
*4b9c6d91SCole Faust			pdie("locking securebits failed");
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.no_new_privs) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * If we're setting no_new_privs, we can drop privileges
*4b9c6d91SCole Faust		 * before setting seccomp filter. This way filter policies
*4b9c6d91SCole Faust		 * don't need to allow privilege-dropping syscalls.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		drop_ugid(j);
*4b9c6d91SCole Faust		drop_caps(j, last_valid_cap);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		// Landlock is applied as late as possible. If no_new_privs is
*4b9c6d91SCole Faust		// set, then it can be applied after dropping caps.
*4b9c6d91SCole Faust		apply_landlock_restrictions(j);
*4b9c6d91SCole Faust		set_seccomp_filter(j);
*4b9c6d91SCole Faust	} else {
*4b9c6d91SCole Faust		apply_landlock_restrictions(j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * If we're not setting no_new_privs,
*4b9c6d91SCole Faust		 * we need to set seccomp filter *before* dropping privileges.
*4b9c6d91SCole Faust		 * WARNING: this means that filter policies *must* allow
*4b9c6d91SCole Faust		 * setgroups()/setresgid()/setresuid() for dropping root and
*4b9c6d91SCole Faust		 * capget()/capset()/prctl() for dropping caps.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		set_seccomp_filter(j);
*4b9c6d91SCole Faust		drop_ugid(j);
*4b9c6d91SCole Faust		drop_caps(j, last_valid_cap);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Select the specified alternate syscall table.  The table must not
*4b9c6d91SCole Faust	 * block prctl(2) if we're using seccomp as well.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.alt_syscall) {
*4b9c6d91SCole Faust		if (prctl(PR_ALT_SYSCALL, 1, j->alt_syscall_table))
*4b9c6d91SCole Faust			pdie("prctl(PR_ALT_SYSCALL) failed");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * seccomp has to come last since it cuts off all the other
*4b9c6d91SCole Faust	 * privilege-dropping syscalls :)
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.seccomp && prctl(PR_SET_SECCOMP, 1)) {
*4b9c6d91SCole Faust		if ((errno == EINVAL) && seccomp_can_softfail()) {
*4b9c6d91SCole Faust			warn("seccomp not supported");
*4b9c6d91SCole Faust			return;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		pdie("prctl(PR_SET_SECCOMP) failed");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* TODO(wad): will visibility affect this variable? */
*4b9c6d91SCole Fauststatic int init_exitstatus = 0;
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void init_term(int sig attribute_unused)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	_exit(init_exitstatus);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void init(pid_t rootpid)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	pid_t pid;
*4b9c6d91SCole Faust	int status;
*4b9c6d91SCole Faust	/* So that we exit with the right status. */
*4b9c6d91SCole Faust	signal(SIGTERM, init_term);
*4b9c6d91SCole Faust	/* TODO(wad): self jail with seccomp filters here. */
*4b9c6d91SCole Faust	while ((pid = wait(&status)) > 0) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * This loop will only end when either there are no processes
*4b9c6d91SCole Faust		 * left inside our pid namespace or we get a signal.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if (pid == rootpid)
*4b9c6d91SCole Faust			init_exitstatus = status;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	if (!WIFEXITED(init_exitstatus))
*4b9c6d91SCole Faust		_exit(MINIJAIL_ERR_INIT);
*4b9c6d91SCole Faust	_exit(WEXITSTATUS(init_exitstatus));
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_from_fd(int fd, struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	size_t sz = 0;
*4b9c6d91SCole Faust	size_t bytes = read(fd, &sz, sizeof(sz));
*4b9c6d91SCole Faust	attribute_cleanup_str char *buf = NULL;
*4b9c6d91SCole Faust	int r;
*4b9c6d91SCole Faust	if (sizeof(sz) != bytes)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	if (sz > USHRT_MAX) /* arbitrary check */
*4b9c6d91SCole Faust		return -E2BIG;
*4b9c6d91SCole Faust	buf = malloc(sz);
*4b9c6d91SCole Faust	if (!buf)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust	bytes = read(fd, buf, sz);
*4b9c6d91SCole Faust	if (bytes != sz)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	r = minijail_unmarshal(j, buf, sz);
*4b9c6d91SCole Faust	return r;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_to_fd(struct minijail *j, int fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	size_t sz = minijail_size(j);
*4b9c6d91SCole Faust	if (!sz)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	attribute_cleanup_str char *buf = malloc(sz);
*4b9c6d91SCole Faust	if (!buf)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	int err = minijail_marshal(j, buf, sz);
*4b9c6d91SCole Faust	if (err)
*4b9c6d91SCole Faust		return err;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Sends [size][minijail]. */
*4b9c6d91SCole Faust	err = write_exactly(fd, &sz, sizeof(sz));
*4b9c6d91SCole Faust	if (err)
*4b9c6d91SCole Faust		return err;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return write_exactly(fd, buf, sz);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_copy_jail(const struct minijail *from, struct minijail *out)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	size_t sz = minijail_size(from);
*4b9c6d91SCole Faust	if (!sz)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	attribute_cleanup_str char *buf = malloc(sz);
*4b9c6d91SCole Faust	if (!buf)
*4b9c6d91SCole Faust		return -ENOMEM;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	int err = minijail_marshal(from, buf, sz);
*4b9c6d91SCole Faust	if (err)
*4b9c6d91SCole Faust		return err;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return minijail_unmarshal(out, buf, sz);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int setup_preload(const struct minijail *j attribute_unused,
*4b9c6d91SCole Faust			 char ***child_env attribute_unused)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust#if defined(__ANDROID__)
*4b9c6d91SCole Faust	/* Don't use LDPRELOAD on Android. */
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust#else
*4b9c6d91SCole Faust	const char *preload_path = j->preload_path ?: PRELOADPATH;
*4b9c6d91SCole Faust	char *newenv = NULL;
*4b9c6d91SCole Faust	int ret = 0;
*4b9c6d91SCole Faust	const char *oldenv = minijail_getenv(*child_env, kLdPreloadEnvVar);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (!oldenv)
*4b9c6d91SCole Faust		oldenv = "";
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Only insert a separating space if we have something to separate... */
*4b9c6d91SCole Faust	if (asprintf(&newenv, "%s%s%s", oldenv, oldenv[0] != '\0' ? " " : "",
*4b9c6d91SCole Faust		     preload_path) < 0) {
*4b9c6d91SCole Faust		return -1;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	ret = minijail_setenv(child_env, kLdPreloadEnvVar, newenv, 1);
*4b9c6d91SCole Faust	free(newenv);
*4b9c6d91SCole Faust	return ret;
*4b9c6d91SCole Faust#endif
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * This is for logging purposes and does not change the enforced seccomp
*4b9c6d91SCole Faust * filter.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststatic int setup_seccomp_policy_path(const struct minijail *j,
*4b9c6d91SCole Faust				     char ***child_env)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	return minijail_setenv(child_env, kSeccompPolicyPathEnvVar,
*4b9c6d91SCole Faust			       j->seccomp_policy_path ? j->seccomp_policy_path
*4b9c6d91SCole Faust						      : "NO-LABEL",
*4b9c6d91SCole Faust			       1 /* overwrite */);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int setup_pipe(char ***child_env, int fds[2])
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	int r = pipe(fds);
*4b9c6d91SCole Faust	char fd_buf[11];
*4b9c6d91SCole Faust	if (r)
*4b9c6d91SCole Faust		return r;
*4b9c6d91SCole Faust	r = snprintf(fd_buf, sizeof(fd_buf), "%d", fds[0]);
*4b9c6d91SCole Faust	if (r <= 0)
*4b9c6d91SCole Faust		return -EINVAL;
*4b9c6d91SCole Faust	return minijail_setenv(child_env, kFdEnvVar, fd_buf, 1);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int close_open_fds(int *inheritable_fds, size_t size)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	const char *kFdPath = "/proc/self/fd";
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	DIR *d = opendir(kFdPath);
*4b9c6d91SCole Faust	struct dirent *dir_entry;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (d == NULL)
*4b9c6d91SCole Faust		return -1;
*4b9c6d91SCole Faust	int dir_fd = dirfd(d);
*4b9c6d91SCole Faust	while ((dir_entry = readdir(d)) != NULL) {
*4b9c6d91SCole Faust		size_t i;
*4b9c6d91SCole Faust		char *end;
*4b9c6d91SCole Faust		bool should_close = true;
*4b9c6d91SCole Faust		const int fd = strtol(dir_entry->d_name, &end, 10);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if ((*end) != '\0') {
*4b9c6d91SCole Faust			continue;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * We might have set up some pipes that we want to share with
*4b9c6d91SCole Faust		 * the parent process, and should not be closed.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		for (i = 0; i < size; ++i) {
*4b9c6d91SCole Faust			if (fd == inheritable_fds[i]) {
*4b9c6d91SCole Faust				should_close = false;
*4b9c6d91SCole Faust				break;
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		/* Also avoid closing the directory fd. */
*4b9c6d91SCole Faust		if (should_close && fd != dir_fd)
*4b9c6d91SCole Faust			close(fd);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	closedir(d);
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* Return true if the specified file descriptor is already open. */
*4b9c6d91SCole Fauststatic int fd_is_open(int fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	return fcntl(fd, F_GETFD) != -1 || errno != EBADF;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic_assert(FD_SETSIZE >= MAX_PRESERVED_FDS * 2 - 1,
*4b9c6d91SCole Faust	      "If true, ensure_no_fd_conflict will always find an unused fd.");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* If parent_fd will be used by a child fd, move it to an unused fd. */
*4b9c6d91SCole Fauststatic int ensure_no_fd_conflict(const fd_set *child_fds, int child_fd,
*4b9c6d91SCole Faust				 int *parent_fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (!FD_ISSET(*parent_fd, child_fds)) {
*4b9c6d91SCole Faust		return 0;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * If no other parent_fd matches the child_fd then use it instead of a
*4b9c6d91SCole Faust	 * temporary.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	int fd = child_fd;
*4b9c6d91SCole Faust	if (fd == -1 || fd_is_open(fd)) {
*4b9c6d91SCole Faust		fd = FD_SETSIZE - 1;
*4b9c6d91SCole Faust		while (FD_ISSET(fd, child_fds) || fd_is_open(fd)) {
*4b9c6d91SCole Faust			--fd;
*4b9c6d91SCole Faust			if (fd < 0) {
*4b9c6d91SCole Faust				die("failed to find an unused fd");
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	int ret = dup2(*parent_fd, fd);
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * warn() opens a file descriptor so it needs to happen after dup2 to
*4b9c6d91SCole Faust	 * avoid unintended side effects. This can be avoided by reordering the
*4b9c6d91SCole Faust	 * mapping requests so that the source fds with overlap are mapped
*4b9c6d91SCole Faust	 * first (unless there are cycles).
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	warn("mapped fd overlap: moving %d to %d", *parent_fd, fd);
*4b9c6d91SCole Faust	if (ret == -1) {
*4b9c6d91SCole Faust		return -1;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	*parent_fd = fd;
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Populate child_fds_out with the set of file descriptors that will be replaced
*4b9c6d91SCole Faust * by redirect_fds().
*4b9c6d91SCole Faust *
*4b9c6d91SCole Faust * NOTE: This creates temporaries for parent file descriptors that would
*4b9c6d91SCole Faust * otherwise be overwritten during redirect_fds().
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststatic int get_child_fds(struct minijail *j, fd_set *child_fds_out)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	/* Relocate parent_fds that would be replaced by a child_fd. */
*4b9c6d91SCole Faust	for (size_t i = 0; i < j->preserved_fd_count; i++) {
*4b9c6d91SCole Faust		int child_fd = j->preserved_fds[i].child_fd;
*4b9c6d91SCole Faust		if (FD_ISSET(child_fd, child_fds_out)) {
*4b9c6d91SCole Faust			die("fd %d is mapped more than once", child_fd);
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		int *parent_fd = &j->preserved_fds[i].parent_fd;
*4b9c6d91SCole Faust		if (ensure_no_fd_conflict(child_fds_out, child_fd, parent_fd) ==
*4b9c6d91SCole Faust		    -1) {
*4b9c6d91SCole Faust			return -1;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		FD_SET(child_fd, child_fds_out);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Structure holding resources and state created when running a minijail.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststruct minijail_run_state {
*4b9c6d91SCole Faust	pid_t child_pid;
*4b9c6d91SCole Faust	int pipe_fds[2];
*4b9c6d91SCole Faust	int stdin_fds[2];
*4b9c6d91SCole Faust	int stdout_fds[2];
*4b9c6d91SCole Faust	int stderr_fds[2];
*4b9c6d91SCole Faust	int child_sync_pipe_fds[2];
*4b9c6d91SCole Faust	char **child_env;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Move pipe_fds if they conflict with a child_fd.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststatic int avoid_pipe_conflicts(struct minijail_run_state *state,
*4b9c6d91SCole Faust				fd_set *child_fds_out)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	int *pipe_fds[] = {
*4b9c6d91SCole Faust	    state->pipe_fds,   state->child_sync_pipe_fds, state->stdin_fds,
*4b9c6d91SCole Faust	    state->stdout_fds, state->stderr_fds,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	for (size_t i = 0; i < ARRAY_SIZE(pipe_fds); ++i) {
*4b9c6d91SCole Faust		if (pipe_fds[i][0] != -1 &&
*4b9c6d91SCole Faust		    ensure_no_fd_conflict(child_fds_out, -1, &pipe_fds[i][0]) ==
*4b9c6d91SCole Faust			-1) {
*4b9c6d91SCole Faust			return -1;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		if (pipe_fds[i][1] != -1 &&
*4b9c6d91SCole Faust		    ensure_no_fd_conflict(child_fds_out, -1, &pipe_fds[i][1]) ==
*4b9c6d91SCole Faust			-1) {
*4b9c6d91SCole Faust			return -1;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Redirect j->preserved_fds from the parent_fd to the child_fd.
*4b9c6d91SCole Faust *
*4b9c6d91SCole Faust * NOTE: This will clear FD_CLOEXEC since otherwise the child_fd would not be
*4b9c6d91SCole Faust * inherited after the exec call.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststatic int redirect_fds(struct minijail *j, fd_set *child_fds)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	for (size_t i = 0; i < j->preserved_fd_count; i++) {
*4b9c6d91SCole Faust		if (j->preserved_fds[i].parent_fd ==
*4b9c6d91SCole Faust		    j->preserved_fds[i].child_fd) {
*4b9c6d91SCole Faust			// Clear CLOEXEC if it is set so the FD will be
*4b9c6d91SCole Faust			// inherited by the child.
*4b9c6d91SCole Faust			int flags =
*4b9c6d91SCole Faust			    fcntl(j->preserved_fds[i].child_fd, F_GETFD);
*4b9c6d91SCole Faust			if (flags == -1 || (flags & FD_CLOEXEC) == 0) {
*4b9c6d91SCole Faust				continue;
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust			// Currently FD_CLOEXEC is cleared without being
*4b9c6d91SCole Faust			// restored. It may make sense to track when this
*4b9c6d91SCole Faust			// happens and restore FD_CLOEXEC in the child process.
*4b9c6d91SCole Faust			flags &= ~FD_CLOEXEC;
*4b9c6d91SCole Faust			if (fcntl(j->preserved_fds[i].child_fd, F_SETFD,
*4b9c6d91SCole Faust				  flags) == -1) {
*4b9c6d91SCole Faust				pwarn("failed to clear CLOEXEC for %d",
*4b9c6d91SCole Faust				      j->preserved_fds[i].parent_fd);
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust			continue;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		if (dup2(j->preserved_fds[i].parent_fd,
*4b9c6d91SCole Faust			 j->preserved_fds[i].child_fd) == -1) {
*4b9c6d91SCole Faust			return -1;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * After all fds have been duped, we are now free to close all parent
*4b9c6d91SCole Faust	 * fds that are *not* child fds.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	for (size_t i = 0; i < j->preserved_fd_count; i++) {
*4b9c6d91SCole Faust		int parent_fd = j->preserved_fds[i].parent_fd;
*4b9c6d91SCole Faust		if (!FD_ISSET(parent_fd, child_fds)) {
*4b9c6d91SCole Faust			close(parent_fd);
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	return 0;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic void minijail_free_run_state(struct minijail_run_state *state)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	state->child_pid = -1;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	int *fd_pairs[] = {state->pipe_fds, state->stdin_fds, state->stdout_fds,
*4b9c6d91SCole Faust			   state->stderr_fds, state->child_sync_pipe_fds};
*4b9c6d91SCole Faust	for (size_t i = 0; i < ARRAY_SIZE(fd_pairs); ++i) {
*4b9c6d91SCole Faust		close_and_reset(&fd_pairs[i][0]);
*4b9c6d91SCole Faust		close_and_reset(&fd_pairs[i][1]);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	minijail_free_env(state->child_env);
*4b9c6d91SCole Faust	state->child_env = NULL;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/* Set up stdin/stdout/stderr file descriptors in the child. */
*4b9c6d91SCole Fauststatic void setup_child_std_fds(struct minijail *j,
*4b9c6d91SCole Faust				struct minijail_run_state *state)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct {
*4b9c6d91SCole Faust		const char *name;
*4b9c6d91SCole Faust		int from;
*4b9c6d91SCole Faust		int to;
*4b9c6d91SCole Faust	} fd_map[] = {
*4b9c6d91SCole Faust	    {"stdin", state->stdin_fds[0], STDIN_FILENO},
*4b9c6d91SCole Faust	    {"stdout", state->stdout_fds[1], STDOUT_FILENO},
*4b9c6d91SCole Faust	    {"stderr", state->stderr_fds[1], STDERR_FILENO},
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	for (size_t i = 0; i < ARRAY_SIZE(fd_map); ++i) {
*4b9c6d91SCole Faust		if (fd_map[i].from == -1 || fd_map[i].from == fd_map[i].to)
*4b9c6d91SCole Faust			continue;
*4b9c6d91SCole Faust		if (dup2(fd_map[i].from, fd_map[i].to) == -1)
*4b9c6d91SCole Faust			die("failed to set up %s pipe", fd_map[i].name);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Close temporary pipe file descriptors. */
*4b9c6d91SCole Faust	int *std_pipes[] = {state->stdin_fds, state->stdout_fds,
*4b9c6d91SCole Faust			    state->stderr_fds};
*4b9c6d91SCole Faust	for (size_t i = 0; i < ARRAY_SIZE(std_pipes); ++i) {
*4b9c6d91SCole Faust		close_and_reset(&std_pipes[i][0]);
*4b9c6d91SCole Faust		close_and_reset(&std_pipes[i][1]);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * If any of stdin, stdout, or stderr are TTYs, or setsid flag is
*4b9c6d91SCole Faust	 * set, create a new session. This prevents the jailed process from
*4b9c6d91SCole Faust	 * using the TIOCSTI ioctl to push characters into the parent process
*4b9c6d91SCole Faust	 * terminal's input buffer, therefore escaping the jail.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * Since it has just forked, the child will not be a process group
*4b9c6d91SCole Faust	 * leader, and this call to setsid() should always succeed.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.setsid || isatty(STDIN_FILENO) || isatty(STDOUT_FILENO) ||
*4b9c6d91SCole Faust	    isatty(STDERR_FILENO)) {
*4b9c6d91SCole Faust		if (setsid() < 0) {
*4b9c6d91SCole Faust			pdie("setsid() failed");
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (isatty(STDIN_FILENO)) {
*4b9c6d91SCole Faust			if (ioctl(STDIN_FILENO, TIOCSCTTY, 0) != 0) {
*4b9c6d91SCole Faust				pwarn("failed to set controlling terminal");
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust/*
*4b9c6d91SCole Faust * Structure that specifies how to start a minijail.
*4b9c6d91SCole Faust *
*4b9c6d91SCole Faust * filename - The program to exec in the child. Should be NULL if elf_fd is set.
*4b9c6d91SCole Faust * elf_fd - A fd to be used with fexecve. Should be -1 if filename is set.
*4b9c6d91SCole Faust *   NOTE: either filename or elf_fd is required if |exec_in_child| = 1.
*4b9c6d91SCole Faust * argv - Arguments for the child program. Required if |exec_in_child| = 1.
*4b9c6d91SCole Faust * envp - Environment for the child program. Available if |exec_in_child| = 1.
*4b9c6d91SCole Faust * use_preload - If true use LD_PRELOAD.
*4b9c6d91SCole Faust * exec_in_child - If true, run |filename|. Otherwise, the child will return to
*4b9c6d91SCole Faust *     the caller.
*4b9c6d91SCole Faust * pstdin_fd - Filled with stdin pipe if non-NULL.
*4b9c6d91SCole Faust * pstdout_fd - Filled with stdout pipe if non-NULL.
*4b9c6d91SCole Faust * pstderr_fd - Filled with stderr pipe if non-NULL.
*4b9c6d91SCole Faust * pchild_pid - Filled with the pid of the child process if non-NULL.
*4b9c6d91SCole Faust */
*4b9c6d91SCole Fauststruct minijail_run_config {
*4b9c6d91SCole Faust	const char *filename;
*4b9c6d91SCole Faust	int elf_fd;
*4b9c6d91SCole Faust	char *const *argv;
*4b9c6d91SCole Faust	char *const *envp;
*4b9c6d91SCole Faust	int use_preload;
*4b9c6d91SCole Faust	int exec_in_child;
*4b9c6d91SCole Faust	int *pstdin_fd;
*4b9c6d91SCole Faust	int *pstdout_fd;
*4b9c6d91SCole Faust	int *pstderr_fd;
*4b9c6d91SCole Faust	pid_t *pchild_pid;
*4b9c6d91SCole Faust};
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int
*4b9c6d91SCole Faustminijail_run_config_internal(struct minijail *j,
*4b9c6d91SCole Faust			     const struct minijail_run_config *config);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_run(struct minijail *j, const char *filename,
*4b9c6d91SCole Faust		     char *const argv[])
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .filename = filename,
*4b9c6d91SCole Faust	    .elf_fd = -1,
*4b9c6d91SCole Faust	    .argv = argv,
*4b9c6d91SCole Faust	    .envp = NULL,
*4b9c6d91SCole Faust	    .use_preload = true,
*4b9c6d91SCole Faust	    .exec_in_child = true,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_run_env(struct minijail *j, const char *filename,
*4b9c6d91SCole Faust			 char *const argv[], char *const envp[])
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .filename = filename,
*4b9c6d91SCole Faust	    .elf_fd = -1,
*4b9c6d91SCole Faust	    .argv = argv,
*4b9c6d91SCole Faust	    .envp = envp,
*4b9c6d91SCole Faust	    .use_preload = true,
*4b9c6d91SCole Faust	    .exec_in_child = true,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_run_pid(struct minijail *j, const char *filename,
*4b9c6d91SCole Faust			 char *const argv[], pid_t *pchild_pid)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .filename = filename,
*4b9c6d91SCole Faust	    .elf_fd = -1,
*4b9c6d91SCole Faust	    .argv = argv,
*4b9c6d91SCole Faust	    .envp = NULL,
*4b9c6d91SCole Faust	    .use_preload = true,
*4b9c6d91SCole Faust	    .exec_in_child = true,
*4b9c6d91SCole Faust	    .pchild_pid = pchild_pid,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_run_pipe(struct minijail *j, const char *filename,
*4b9c6d91SCole Faust			  char *const argv[], int *pstdin_fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .filename = filename,
*4b9c6d91SCole Faust	    .elf_fd = -1,
*4b9c6d91SCole Faust	    .argv = argv,
*4b9c6d91SCole Faust	    .envp = NULL,
*4b9c6d91SCole Faust	    .use_preload = true,
*4b9c6d91SCole Faust	    .exec_in_child = true,
*4b9c6d91SCole Faust	    .pstdin_fd = pstdin_fd,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_run_pid_pipes(struct minijail *j, const char *filename,
*4b9c6d91SCole Faust			       char *const argv[], pid_t *pchild_pid,
*4b9c6d91SCole Faust			       int *pstdin_fd, int *pstdout_fd, int *pstderr_fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .filename = filename,
*4b9c6d91SCole Faust	    .elf_fd = -1,
*4b9c6d91SCole Faust	    .argv = argv,
*4b9c6d91SCole Faust	    .envp = NULL,
*4b9c6d91SCole Faust	    .use_preload = true,
*4b9c6d91SCole Faust	    .exec_in_child = true,
*4b9c6d91SCole Faust	    .pstdin_fd = pstdin_fd,
*4b9c6d91SCole Faust	    .pstdout_fd = pstdout_fd,
*4b9c6d91SCole Faust	    .pstderr_fd = pstderr_fd,
*4b9c6d91SCole Faust	    .pchild_pid = pchild_pid,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_run_env_pid_pipes(struct minijail *j, const char *filename,
*4b9c6d91SCole Faust				   char *const argv[], char *const envp[],
*4b9c6d91SCole Faust				   pid_t *pchild_pid, int *pstdin_fd,
*4b9c6d91SCole Faust				   int *pstdout_fd, int *pstderr_fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .filename = filename,
*4b9c6d91SCole Faust	    .elf_fd = -1,
*4b9c6d91SCole Faust	    .argv = argv,
*4b9c6d91SCole Faust	    .envp = envp,
*4b9c6d91SCole Faust	    .use_preload = true,
*4b9c6d91SCole Faust	    .exec_in_child = true,
*4b9c6d91SCole Faust	    .pstdin_fd = pstdin_fd,
*4b9c6d91SCole Faust	    .pstdout_fd = pstdout_fd,
*4b9c6d91SCole Faust	    .pstderr_fd = pstderr_fd,
*4b9c6d91SCole Faust	    .pchild_pid = pchild_pid,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_run_fd_env_pid_pipes(struct minijail *j, int elf_fd,
*4b9c6d91SCole Faust				      char *const argv[], char *const envp[],
*4b9c6d91SCole Faust				      pid_t *pchild_pid, int *pstdin_fd,
*4b9c6d91SCole Faust				      int *pstdout_fd, int *pstderr_fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .filename = NULL,
*4b9c6d91SCole Faust	    .elf_fd = elf_fd,
*4b9c6d91SCole Faust	    .argv = argv,
*4b9c6d91SCole Faust	    .envp = envp,
*4b9c6d91SCole Faust	    .use_preload = true,
*4b9c6d91SCole Faust	    .exec_in_child = true,
*4b9c6d91SCole Faust	    .pstdin_fd = pstdin_fd,
*4b9c6d91SCole Faust	    .pstdout_fd = pstdout_fd,
*4b9c6d91SCole Faust	    .pstderr_fd = pstderr_fd,
*4b9c6d91SCole Faust	    .pchild_pid = pchild_pid,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_run_no_preload(struct minijail *j, const char *filename,
*4b9c6d91SCole Faust				char *const argv[])
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .filename = filename,
*4b9c6d91SCole Faust	    .elf_fd = -1,
*4b9c6d91SCole Faust	    .argv = argv,
*4b9c6d91SCole Faust	    .envp = NULL,
*4b9c6d91SCole Faust	    .use_preload = false,
*4b9c6d91SCole Faust	    .exec_in_child = true,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_run_pid_pipes_no_preload(struct minijail *j,
*4b9c6d91SCole Faust					  const char *filename,
*4b9c6d91SCole Faust					  char *const argv[], pid_t *pchild_pid,
*4b9c6d91SCole Faust					  int *pstdin_fd, int *pstdout_fd,
*4b9c6d91SCole Faust					  int *pstderr_fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .filename = filename,
*4b9c6d91SCole Faust	    .elf_fd = -1,
*4b9c6d91SCole Faust	    .argv = argv,
*4b9c6d91SCole Faust	    .envp = NULL,
*4b9c6d91SCole Faust	    .use_preload = false,
*4b9c6d91SCole Faust	    .exec_in_child = true,
*4b9c6d91SCole Faust	    .pstdin_fd = pstdin_fd,
*4b9c6d91SCole Faust	    .pstdout_fd = pstdout_fd,
*4b9c6d91SCole Faust	    .pstderr_fd = pstderr_fd,
*4b9c6d91SCole Faust	    .pchild_pid = pchild_pid,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_run_env_pid_pipes_no_preload(struct minijail *j,
*4b9c6d91SCole Faust					      const char *filename,
*4b9c6d91SCole Faust					      char *const argv[],
*4b9c6d91SCole Faust					      char *const envp[],
*4b9c6d91SCole Faust					      pid_t *pchild_pid, int *pstdin_fd,
*4b9c6d91SCole Faust					      int *pstdout_fd, int *pstderr_fd)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .filename = filename,
*4b9c6d91SCole Faust	    .elf_fd = -1,
*4b9c6d91SCole Faust	    .argv = argv,
*4b9c6d91SCole Faust	    .envp = envp,
*4b9c6d91SCole Faust	    .use_preload = false,
*4b9c6d91SCole Faust	    .exec_in_child = true,
*4b9c6d91SCole Faust	    .pstdin_fd = pstdin_fd,
*4b9c6d91SCole Faust	    .pstdout_fd = pstdout_fd,
*4b9c6d91SCole Faust	    .pstderr_fd = pstderr_fd,
*4b9c6d91SCole Faust	    .pchild_pid = pchild_pid,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustpid_t API minijail_fork(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_config config = {
*4b9c6d91SCole Faust	    .elf_fd = -1,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	return minijail_run_config_internal(j, &config);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int minijail_run_internal(struct minijail *j,
*4b9c6d91SCole Faust				 const struct minijail_run_config *config,
*4b9c6d91SCole Faust				 struct minijail_run_state *state_out)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	int sync_child = 0;
*4b9c6d91SCole Faust	int ret;
*4b9c6d91SCole Faust	/* We need to remember this across the minijail_preexec() call. */
*4b9c6d91SCole Faust	int pid_namespace = j->flags.pids;
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Create an init process if we are entering a pid namespace, unless the
*4b9c6d91SCole Faust	 * user has explicitly opted out by calling minijail_run_as_init().
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	int do_init = j->flags.do_init && !j->flags.run_as_init;
*4b9c6d91SCole Faust	int use_preload = config->use_preload;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (config->filename != NULL && config->elf_fd != -1) {
*4b9c6d91SCole Faust		die("filename and elf_fd cannot be set at the same time");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Only copy the environment if we need to modify it. If this is done
*4b9c6d91SCole Faust	 * unconditionally, it triggers odd behavior in the ARC container.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (use_preload || j->seccomp_policy_path) {
*4b9c6d91SCole Faust		state_out->child_env =
*4b9c6d91SCole Faust		    minijail_copy_env(config->envp ? config->envp : environ);
*4b9c6d91SCole Faust		if (!state_out->child_env)
*4b9c6d91SCole Faust			return ENOMEM;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->seccomp_policy_path &&
*4b9c6d91SCole Faust	    setup_seccomp_policy_path(j, &state_out->child_env))
*4b9c6d91SCole Faust		return -EFAULT;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (use_preload) {
*4b9c6d91SCole Faust		if (j->hooks_head != NULL)
*4b9c6d91SCole Faust			die("Minijail hooks are not supported with LD_PRELOAD");
*4b9c6d91SCole Faust		if (!config->exec_in_child)
*4b9c6d91SCole Faust			die("minijail_fork is not supported with LD_PRELOAD");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * Before we fork(2) and execve(2) the child process, we need
*4b9c6d91SCole Faust		 * to open a pipe(2) to send the minijail configuration over.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if (setup_preload(j, &state_out->child_env) ||
*4b9c6d91SCole Faust		    setup_pipe(&state_out->child_env, state_out->pipe_fds))
*4b9c6d91SCole Faust			return -EFAULT;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (!use_preload) {
*4b9c6d91SCole Faust		if (j->flags.use_caps && j->caps != 0 &&
*4b9c6d91SCole Faust		    !j->flags.set_ambient_caps) {
*4b9c6d91SCole Faust			die("non-empty, non-ambient capabilities are not "
*4b9c6d91SCole Faust			    "supported without LD_PRELOAD");
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Create pipes for stdin/stdout/stderr as requested by caller. */
*4b9c6d91SCole Faust	struct {
*4b9c6d91SCole Faust		bool requested;
*4b9c6d91SCole Faust		int *pipe_fds;
*4b9c6d91SCole Faust	} pipe_fd_req[] = {
*4b9c6d91SCole Faust	    {config->pstdin_fd != NULL, state_out->stdin_fds},
*4b9c6d91SCole Faust	    {config->pstdout_fd != NULL, state_out->stdout_fds},
*4b9c6d91SCole Faust	    {config->pstderr_fd != NULL, state_out->stderr_fds},
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	for (size_t i = 0; i < ARRAY_SIZE(pipe_fd_req); ++i) {
*4b9c6d91SCole Faust		if (pipe_fd_req[i].requested &&
*4b9c6d91SCole Faust		    pipe(pipe_fd_req[i].pipe_fds) == -1)
*4b9c6d91SCole Faust			return EFAULT;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * If the parent process needs to configure the child's runtime
*4b9c6d91SCole Faust	 * environment after forking, create a pipe(2) to block the child until
*4b9c6d91SCole Faust	 * configuration is done.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (j->flags.forward_signals || j->flags.pid_file || j->flags.cgroups ||
*4b9c6d91SCole Faust	    j->rlimit_count || j->flags.userns) {
*4b9c6d91SCole Faust		sync_child = 1;
*4b9c6d91SCole Faust		if (pipe(state_out->child_sync_pipe_fds))
*4b9c6d91SCole Faust			return -EFAULT;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Use sys_clone() if and only if we're creating a pid namespace.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * tl;dr: WARNING: do not mix pid namespaces and multithreading.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * In multithreaded programs, there are a bunch of locks inside libc,
*4b9c6d91SCole Faust	 * some of which may be held by other threads at the time that we call
*4b9c6d91SCole Faust	 * minijail_run_pid(). If we call fork(), glibc does its level best to
*4b9c6d91SCole Faust	 * ensure that we hold all of these locks before it calls clone()
*4b9c6d91SCole Faust	 * internally and drop them after clone() returns, but when we call
*4b9c6d91SCole Faust	 * sys_clone(2) directly, all that gets bypassed and we end up with a
*4b9c6d91SCole Faust	 * child address space where some of libc's important locks are held by
*4b9c6d91SCole Faust	 * other threads (which did not get cloned, and hence will never release
*4b9c6d91SCole Faust	 * those locks). This is okay so long as we call exec() immediately
*4b9c6d91SCole Faust	 * after, but a bunch of seemingly-innocent libc functions like setenv()
*4b9c6d91SCole Faust	 * take locks.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * Hence, only call sys_clone() if we need to, in order to get at pid
*4b9c6d91SCole Faust	 * namespacing. If we follow this path, the child's address space might
*4b9c6d91SCole Faust	 * have broken locks; you may only call functions that do not acquire
*4b9c6d91SCole Faust	 * any locks.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * Unfortunately, fork() acquires every lock it can get its hands on, as
*4b9c6d91SCole Faust	 * previously detailed, so this function is highly likely to deadlock
*4b9c6d91SCole Faust	 * later on (see "deadlock here") if we're multithreaded.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * We might hack around this by having the clone()d child (init of the
*4b9c6d91SCole Faust	 * pid namespace) return directly, rather than leaving the clone()d
*4b9c6d91SCole Faust	 * process hanging around to be init for the new namespace (and having
*4b9c6d91SCole Faust	 * its fork()ed child return in turn), but that process would be
*4b9c6d91SCole Faust	 * crippled with its libc locks potentially broken. We might try
*4b9c6d91SCole Faust	 * fork()ing in the parent before we clone() to ensure that we own all
*4b9c6d91SCole Faust	 * the locks, but then we have to have the forked child hanging around
*4b9c6d91SCole Faust	 * consuming resources (and possibly having file descriptors / shared
*4b9c6d91SCole Faust	 * memory regions / etc attached). We'd need to keep the child around to
*4b9c6d91SCole Faust	 * avoid having its children get reparented to init.
*4b9c6d91SCole Faust	 *
*4b9c6d91SCole Faust	 * TODO(ellyjones): figure out if the "forked child hanging around"
*4b9c6d91SCole Faust	 * problem is fixable or not. It would be nice if we worked in this
*4b9c6d91SCole Faust	 * case.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	pid_t child_pid;
*4b9c6d91SCole Faust	if (pid_namespace) {
*4b9c6d91SCole Faust		unsigned long clone_flags = CLONE_NEWPID | SIGCHLD;
*4b9c6d91SCole Faust		if (j->flags.userns)
*4b9c6d91SCole Faust			clone_flags |= CLONE_NEWUSER;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		child_pid = syscall(SYS_clone, clone_flags, NULL, 0L, 0L, 0L);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (child_pid < 0) {
*4b9c6d91SCole Faust			if (errno == EPERM)
*4b9c6d91SCole Faust				pdie("clone(CLONE_NEWPID | ...) failed with "
*4b9c6d91SCole Faust				     "EPERM; is this process missing "
*4b9c6d91SCole Faust				     "CAP_SYS_ADMIN?");
*4b9c6d91SCole Faust			pdie("clone(CLONE_NEWPID | ...) failed");
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	} else {
*4b9c6d91SCole Faust		child_pid = fork();
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (child_pid < 0)
*4b9c6d91SCole Faust			pdie("fork failed");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	state_out->child_pid = child_pid;
*4b9c6d91SCole Faust	if (child_pid) {
*4b9c6d91SCole Faust		j->initpid = child_pid;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (j->flags.forward_signals) {
*4b9c6d91SCole Faust			forward_pid = child_pid;
*4b9c6d91SCole Faust			install_signal_handlers();
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (j->flags.pid_file)
*4b9c6d91SCole Faust			write_pid_file_or_die(j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (j->flags.cgroups)
*4b9c6d91SCole Faust			add_to_cgroups_or_die(j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (j->rlimit_count)
*4b9c6d91SCole Faust			set_rlimits_or_die(j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (j->flags.userns)
*4b9c6d91SCole Faust			write_ugid_maps_or_die(j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (j->flags.enter_vfs)
*4b9c6d91SCole Faust			close(j->mountns_fd);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (j->flags.enter_net)
*4b9c6d91SCole Faust			close(j->netns_fd);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (sync_child)
*4b9c6d91SCole Faust			parent_setup_complete(state_out->child_sync_pipe_fds);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (use_preload) {
*4b9c6d91SCole Faust			/*
*4b9c6d91SCole Faust			 * Add SIGPIPE to the signal mask to avoid getting
*4b9c6d91SCole Faust			 * killed if the child process finishes or closes its
*4b9c6d91SCole Faust			 * end of the pipe prematurely.
*4b9c6d91SCole Faust			 *
*4b9c6d91SCole Faust			 * TODO(crbug.com/1022170): Use pthread_sigmask instead
*4b9c6d91SCole Faust			 * of sigprocmask if Minijail is used in multithreaded
*4b9c6d91SCole Faust			 * programs.
*4b9c6d91SCole Faust			 */
*4b9c6d91SCole Faust			sigset_t to_block, to_restore;
*4b9c6d91SCole Faust			if (sigemptyset(&to_block) < 0)
*4b9c6d91SCole Faust				pdie("sigemptyset failed");
*4b9c6d91SCole Faust			if (sigaddset(&to_block, SIGPIPE) < 0)
*4b9c6d91SCole Faust				pdie("sigaddset failed");
*4b9c6d91SCole Faust			if (sigprocmask(SIG_BLOCK, &to_block, &to_restore) < 0)
*4b9c6d91SCole Faust				pdie("sigprocmask failed");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust			/* Send marshalled minijail. */
*4b9c6d91SCole Faust			close_and_reset(&state_out->pipe_fds[0]);
*4b9c6d91SCole Faust			ret = minijail_to_fd(j, state_out->pipe_fds[1]);
*4b9c6d91SCole Faust			close_and_reset(&state_out->pipe_fds[1]);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust			/* Accept any pending SIGPIPE. */
*4b9c6d91SCole Faust			while (true) {
*4b9c6d91SCole Faust				const struct timespec zero_time = {0, 0};
*4b9c6d91SCole Faust				const int sig =
*4b9c6d91SCole Faust				    sigtimedwait(&to_block, NULL, &zero_time);
*4b9c6d91SCole Faust				if (sig < 0) {
*4b9c6d91SCole Faust					if (errno != EINTR)
*4b9c6d91SCole Faust						break;
*4b9c6d91SCole Faust				} else {
*4b9c6d91SCole Faust					if (sig != SIGPIPE)
*4b9c6d91SCole Faust						die("unexpected signal %d",
*4b9c6d91SCole Faust						    sig);
*4b9c6d91SCole Faust				}
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust			/* Restore the signal mask to its original state. */
*4b9c6d91SCole Faust			if (sigprocmask(SIG_SETMASK, &to_restore, NULL) < 0)
*4b9c6d91SCole Faust				pdie("sigprocmask failed");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust			if (ret) {
*4b9c6d91SCole Faust				warn("failed to send marshalled minijail: %s",
*4b9c6d91SCole Faust				     strerror(-ret));
*4b9c6d91SCole Faust				kill(j->initpid, SIGKILL);
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		return 0;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* Child process. */
*4b9c6d91SCole Faust	if (j->flags.reset_signal_mask) {
*4b9c6d91SCole Faust		sigset_t signal_mask;
*4b9c6d91SCole Faust		if (sigemptyset(&signal_mask) != 0)
*4b9c6d91SCole Faust			pdie("sigemptyset failed");
*4b9c6d91SCole Faust		if (sigprocmask(SIG_SETMASK, &signal_mask, NULL) != 0)
*4b9c6d91SCole Faust			pdie("sigprocmask failed");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.reset_signal_handlers) {
*4b9c6d91SCole Faust		int signum;
*4b9c6d91SCole Faust		for (signum = 0; signum <= SIGRTMAX; signum++) {
*4b9c6d91SCole Faust			/*
*4b9c6d91SCole Faust			 * Ignore EINVAL since some signal numbers in the range
*4b9c6d91SCole Faust			 * might not be valid.
*4b9c6d91SCole Faust			 */
*4b9c6d91SCole Faust			if (signal(signum, SIG_DFL) == SIG_ERR &&
*4b9c6d91SCole Faust			    errno != EINVAL) {
*4b9c6d91SCole Faust				pdie("failed to reset signal %d disposition",
*4b9c6d91SCole Faust				     signum);
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.close_open_fds) {
*4b9c6d91SCole Faust		const size_t kMaxInheritableFdsSize = 11 + MAX_PRESERVED_FDS;
*4b9c6d91SCole Faust		int inheritable_fds[kMaxInheritableFdsSize];
*4b9c6d91SCole Faust		size_t size = 0;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		int *pipe_fds[] = {
*4b9c6d91SCole Faust		    state_out->pipe_fds,   state_out->child_sync_pipe_fds,
*4b9c6d91SCole Faust		    state_out->stdin_fds,  state_out->stdout_fds,
*4b9c6d91SCole Faust		    state_out->stderr_fds,
*4b9c6d91SCole Faust		};
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		for (size_t i = 0; i < ARRAY_SIZE(pipe_fds); ++i) {
*4b9c6d91SCole Faust			if (pipe_fds[i][0] != -1) {
*4b9c6d91SCole Faust				inheritable_fds[size++] = pipe_fds[i][0];
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust			if (pipe_fds[i][1] != -1) {
*4b9c6d91SCole Faust				inheritable_fds[size++] = pipe_fds[i][1];
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * Preserve namespace file descriptors over the close_open_fds()
*4b9c6d91SCole Faust		 * call. These are closed in minijail_enter() so they won't leak
*4b9c6d91SCole Faust		 * into the child process.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if (j->flags.enter_vfs)
*4b9c6d91SCole Faust			minijail_preserve_fd(j, j->mountns_fd, j->mountns_fd);
*4b9c6d91SCole Faust		if (j->flags.enter_net)
*4b9c6d91SCole Faust			minijail_preserve_fd(j, j->netns_fd, j->netns_fd);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		for (size_t i = 0; i < j->preserved_fd_count; i++) {
*4b9c6d91SCole Faust			/*
*4b9c6d91SCole Faust			 * Preserve all parent_fds. They will be dup2(2)-ed in
*4b9c6d91SCole Faust			 * the child later.
*4b9c6d91SCole Faust			 */
*4b9c6d91SCole Faust			inheritable_fds[size++] = j->preserved_fds[i].parent_fd;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (config->elf_fd > -1) {
*4b9c6d91SCole Faust			inheritable_fds[size++] = config->elf_fd;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (close_open_fds(inheritable_fds, size) < 0)
*4b9c6d91SCole Faust			die("failed to close open file descriptors");
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* The set of fds will be replaced. */
*4b9c6d91SCole Faust	fd_set child_fds;
*4b9c6d91SCole Faust	FD_ZERO(&child_fds);
*4b9c6d91SCole Faust	if (get_child_fds(j, &child_fds))
*4b9c6d91SCole Faust		die("failed to set up fd redirections");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (avoid_pipe_conflicts(state_out, &child_fds))
*4b9c6d91SCole Faust		die("failed to redirect conflicting pipes");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* The elf_fd needs to be mutable so use a stack copy from now on. */
*4b9c6d91SCole Faust	int elf_fd = config->elf_fd;
*4b9c6d91SCole Faust	if (elf_fd != -1 && ensure_no_fd_conflict(&child_fds, -1, &elf_fd))
*4b9c6d91SCole Faust		die("failed to redirect elf_fd");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (redirect_fds(j, &child_fds))
*4b9c6d91SCole Faust		die("failed to set up fd redirections");
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (sync_child)
*4b9c6d91SCole Faust		wait_for_parent_setup(state_out->child_sync_pipe_fds);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->flags.userns)
*4b9c6d91SCole Faust		enter_user_namespace(j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	setup_child_std_fds(j, state_out);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/* If running an init program, let it decide when/how to mount /proc. */
*4b9c6d91SCole Faust	if (pid_namespace && !do_init)
*4b9c6d91SCole Faust		j->flags.remount_proc_ro = 0;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (use_preload) {
*4b9c6d91SCole Faust		/* Strip out flags that cannot be inherited across execve(2). */
*4b9c6d91SCole Faust		minijail_preexec(j);
*4b9c6d91SCole Faust	} else {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * If not using LD_PRELOAD, do all jailing before execve(2).
*4b9c6d91SCole Faust		 * Note that PID namespaces can only be entered on fork(2),
*4b9c6d91SCole Faust		 * so that flag is still cleared.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		j->flags.pids = 0;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * Jail this process.
*4b9c6d91SCole Faust	 * If forking, return.
*4b9c6d91SCole Faust	 * If not, execve(2) the target.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	minijail_enter(j);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (config->exec_in_child && pid_namespace && do_init) {
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * pid namespace: this process will become init inside the new
*4b9c6d91SCole Faust		 * namespace. We don't want all programs we might exec to have
*4b9c6d91SCole Faust		 * to know how to be init. Normally (do_init == 1) we fork off
*4b9c6d91SCole Faust		 * a child to actually run the program. If |do_init == 0|, we
*4b9c6d91SCole Faust		 * let the program keep pid 1 and be init.
*4b9c6d91SCole Faust		 *
*4b9c6d91SCole Faust		 * If we're multithreaded, we'll probably deadlock here. See
*4b9c6d91SCole Faust		 * WARNING above.
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		child_pid = fork();
*4b9c6d91SCole Faust		if (child_pid < 0) {
*4b9c6d91SCole Faust			_exit(child_pid);
*4b9c6d91SCole Faust		} else if (child_pid > 0) {
*4b9c6d91SCole Faust			minijail_free_run_state(state_out);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust			/*
*4b9c6d91SCole Faust			 * Best effort. Don't bother checking the return value.
*4b9c6d91SCole Faust			 */
*4b9c6d91SCole Faust			prctl(PR_SET_NAME, "minijail-init");
*4b9c6d91SCole Faust			init(child_pid); /* Never returns. */
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		state_out->child_pid = child_pid;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	run_hooks_or_die(j, MINIJAIL_HOOK_EVENT_PRE_EXECVE);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (!config->exec_in_child)
*4b9c6d91SCole Faust		return 0;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * We're going to execve(), so make sure any remaining resources are
*4b9c6d91SCole Faust	 * freed. Exceptions are:
*4b9c6d91SCole Faust	 *  1. The child environment. No need to worry about freeing it since
*4b9c6d91SCole Faust	 *     execve reinitializes the heap anyways.
*4b9c6d91SCole Faust	 *  2. The read side of the LD_PRELOAD pipe, which we need to hand down
*4b9c6d91SCole Faust	 *     into the target in which the preloaded code will read from it and
*4b9c6d91SCole Faust	 *     then close it.
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	state_out->pipe_fds[0] = -1;
*4b9c6d91SCole Faust	char *const *child_env = state_out->child_env;
*4b9c6d91SCole Faust	state_out->child_env = NULL;
*4b9c6d91SCole Faust	minijail_free_run_state(state_out);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	/*
*4b9c6d91SCole Faust	 * If we aren't pid-namespaced, or the jailed program asked to be init:
*4b9c6d91SCole Faust	 *   calling process
*4b9c6d91SCole Faust	 *   -> execve()-ing process
*4b9c6d91SCole Faust	 * If we are:
*4b9c6d91SCole Faust	 *   calling process
*4b9c6d91SCole Faust	 *   -> init()-ing process
*4b9c6d91SCole Faust	 *      -> execve()-ing process
*4b9c6d91SCole Faust	 */
*4b9c6d91SCole Faust	if (!child_env)
*4b9c6d91SCole Faust		child_env = config->envp ? config->envp : environ;
*4b9c6d91SCole Faust	if (elf_fd > -1) {
*4b9c6d91SCole Faust		fexecve(elf_fd, config->argv, child_env);
*4b9c6d91SCole Faust		pwarn("fexecve(%d) failed", config->elf_fd);
*4b9c6d91SCole Faust	} else {
*4b9c6d91SCole Faust		execve(config->filename, config->argv, child_env);
*4b9c6d91SCole Faust		pwarn("execve(%s) failed", config->filename);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	ret = (errno == ENOENT ? MINIJAIL_ERR_NO_COMMAND
*4b9c6d91SCole Faust			       : MINIJAIL_ERR_NO_ACCESS);
*4b9c6d91SCole Faust	_exit(ret);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int
*4b9c6d91SCole Faustminijail_run_config_internal(struct minijail *j,
*4b9c6d91SCole Faust			     const struct minijail_run_config *config)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	struct minijail_run_state state = {
*4b9c6d91SCole Faust	    .child_pid = -1,
*4b9c6d91SCole Faust	    .pipe_fds = {-1, -1},
*4b9c6d91SCole Faust	    .stdin_fds = {-1, -1},
*4b9c6d91SCole Faust	    .stdout_fds = {-1, -1},
*4b9c6d91SCole Faust	    .stderr_fds = {-1, -1},
*4b9c6d91SCole Faust	    .child_sync_pipe_fds = {-1, -1},
*4b9c6d91SCole Faust	    .child_env = NULL,
*4b9c6d91SCole Faust	};
*4b9c6d91SCole Faust	int ret = minijail_run_internal(j, config, &state);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (ret == 0) {
*4b9c6d91SCole Faust		if (config->pchild_pid)
*4b9c6d91SCole Faust			*config->pchild_pid = state.child_pid;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		/* Grab stdin/stdout/stderr descriptors requested by caller. */
*4b9c6d91SCole Faust		struct {
*4b9c6d91SCole Faust			int *pfd;
*4b9c6d91SCole Faust			int *psrc;
*4b9c6d91SCole Faust		} fd_map[] = {
*4b9c6d91SCole Faust		    {config->pstdin_fd, &state.stdin_fds[1]},
*4b9c6d91SCole Faust		    {config->pstdout_fd, &state.stdout_fds[0]},
*4b9c6d91SCole Faust		    {config->pstderr_fd, &state.stderr_fds[0]},
*4b9c6d91SCole Faust		};
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		for (size_t i = 0; i < ARRAY_SIZE(fd_map); ++i) {
*4b9c6d91SCole Faust			if (fd_map[i].pfd) {
*4b9c6d91SCole Faust				*fd_map[i].pfd = *fd_map[i].psrc;
*4b9c6d91SCole Faust				*fd_map[i].psrc = -1;
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		if (!config->exec_in_child)
*4b9c6d91SCole Faust			ret = state.child_pid;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	minijail_free_run_state(&state);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return ret;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Fauststatic int minijail_wait_internal(struct minijail *j, int expected_signal)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->initpid <= 0)
*4b9c6d91SCole Faust		return -ECHILD;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	int st;
*4b9c6d91SCole Faust	while (true) {
*4b9c6d91SCole Faust		const int ret = waitpid(j->initpid, &st, 0);
*4b9c6d91SCole Faust		if (ret >= 0)
*4b9c6d91SCole Faust			break;
*4b9c6d91SCole Faust		if (errno != EINTR)
*4b9c6d91SCole Faust			return -errno;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (!WIFEXITED(st)) {
*4b9c6d91SCole Faust		int error_status = st;
*4b9c6d91SCole Faust		if (!WIFSIGNALED(st)) {
*4b9c6d91SCole Faust			return error_status;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust		int signum = WTERMSIG(st);
*4b9c6d91SCole Faust		/*
*4b9c6d91SCole Faust		 * We return MINIJAIL_ERR_JAIL if the process received
*4b9c6d91SCole Faust		 * SIGSYS, which happens when a syscall is blocked by
*4b9c6d91SCole Faust		 * seccomp filters.
*4b9c6d91SCole Faust		 * If not, we do what bash(1) does:
*4b9c6d91SCole Faust		 * $? = 128 + signum
*4b9c6d91SCole Faust		 */
*4b9c6d91SCole Faust		if (signum == SIGSYS) {
*4b9c6d91SCole Faust			warn("child process %d had a policy violation (%s)",
*4b9c6d91SCole Faust			     j->initpid,
*4b9c6d91SCole Faust			     j->seccomp_policy_path ? j->seccomp_policy_path
*4b9c6d91SCole Faust						    : "NO-LABEL");
*4b9c6d91SCole Faust			error_status = MINIJAIL_ERR_JAIL;
*4b9c6d91SCole Faust		} else {
*4b9c6d91SCole Faust			if (signum != expected_signal) {
*4b9c6d91SCole Faust				warn("child process %d received signal %d",
*4b9c6d91SCole Faust				     j->initpid, signum);
*4b9c6d91SCole Faust			}
*4b9c6d91SCole Faust			error_status = MINIJAIL_ERR_SIG_BASE + signum;
*4b9c6d91SCole Faust		}
*4b9c6d91SCole Faust		return error_status;
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	int exit_status = WEXITSTATUS(st);
*4b9c6d91SCole Faust	if (exit_status != 0)
*4b9c6d91SCole Faust		info("child process %d exited with status %d", j->initpid,
*4b9c6d91SCole Faust		     exit_status);
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return exit_status;
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_kill(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	if (j->initpid <= 0)
*4b9c6d91SCole Faust		return -ECHILD;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (kill(j->initpid, SIGTERM))
*4b9c6d91SCole Faust		return -errno;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	return minijail_wait_internal(j, SIGTERM);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustint API minijail_wait(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	return minijail_wait_internal(j, 0);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_destroy(struct minijail *j)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	size_t i;
*4b9c6d91SCole Faust
*4b9c6d91SCole Faust	if (j->filter_prog) {
*4b9c6d91SCole Faust		free(j->filter_prog->filter);
*4b9c6d91SCole Faust		free(j->filter_prog);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	free_mounts_list(j);
*4b9c6d91SCole Faust	free_remounts_list(j);
*4b9c6d91SCole Faust	while (j->hooks_head) {
*4b9c6d91SCole Faust		struct hook *c = j->hooks_head;
*4b9c6d91SCole Faust		j->hooks_head = c->next;
*4b9c6d91SCole Faust		free(c);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	j->hooks_tail = NULL;
*4b9c6d91SCole Faust	while (j->fs_rules_head) {
*4b9c6d91SCole Faust		struct fs_rule *r = j->fs_rules_head;
*4b9c6d91SCole Faust		j->fs_rules_head = r->next;
*4b9c6d91SCole Faust		free(r);
*4b9c6d91SCole Faust	}
*4b9c6d91SCole Faust	j->fs_rules_tail = NULL;
*4b9c6d91SCole Faust	if (j->user)
*4b9c6d91SCole Faust		free(j->user);
*4b9c6d91SCole Faust	if (j->suppl_gid_list)
*4b9c6d91SCole Faust		free(j->suppl_gid_list);
*4b9c6d91SCole Faust	if (j->chrootdir)
*4b9c6d91SCole Faust		free(j->chrootdir);
*4b9c6d91SCole Faust	if (j->pid_file_path)
*4b9c6d91SCole Faust		free(j->pid_file_path);
*4b9c6d91SCole Faust	if (j->uidmap)
*4b9c6d91SCole Faust		free(j->uidmap);
*4b9c6d91SCole Faust	if (j->gidmap)
*4b9c6d91SCole Faust		free(j->gidmap);
*4b9c6d91SCole Faust	if (j->hostname)
*4b9c6d91SCole Faust		free(j->hostname);
*4b9c6d91SCole Faust	if (j->preload_path)
*4b9c6d91SCole Faust		free(j->preload_path);
*4b9c6d91SCole Faust	if (j->alt_syscall_table)
*4b9c6d91SCole Faust		free(j->alt_syscall_table);
*4b9c6d91SCole Faust	for (i = 0; i < j->cgroup_count; ++i)
*4b9c6d91SCole Faust		free(j->cgroups[i]);
*4b9c6d91SCole Faust	if (j->seccomp_policy_path)
*4b9c6d91SCole Faust		free(j->seccomp_policy_path);
*4b9c6d91SCole Faust	free(j);
*4b9c6d91SCole Faust}
*4b9c6d91SCole Faust
*4b9c6d91SCole Faustvoid API minijail_log_to_fd(int fd, int min_priority)
*4b9c6d91SCole Faust{
*4b9c6d91SCole Faust	init_logging(LOG_TO_FD, fd, min_priority);
*4b9c6d91SCole Faust}