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|
/* SPDX-License-Identifier: LGPL-2.1-or-later */
#include <errno.h>
#include <fcntl.h>
#include <poll.h>
#include <sys/file.h>
#include <sys/mman.h>
#include <sys/personality.h>
#include <sys/prctl.h>
#include <sys/shm.h>
#include <sys/types.h>
#include <sys/un.h>
#include <unistd.h>
#include <utmpx.h>
#include <linux/fs.h> /* Must be included after <sys/mount.h> */
#include "sd-messages.h"
#include "af-list.h"
#include "alloc-util.h"
#include "async.h"
#include "cap-list.h"
#include "capability-util.h"
#include "cgroup-setup.h"
#include "constants.h"
#include "cpu-set-util.h"
#include "env-file.h"
#include "env-util.h"
#include "errno-list.h"
#include "escape.h"
#include "exec-credential.h"
#include "execute.h"
#include "execute-serialize.h"
#include "exit-status.h"
#include "fd-util.h"
#include "fileio.h"
#include "format-util.h"
#include "glob-util.h"
#include "hexdecoct.h"
#include "ioprio-util.h"
#include "lock-util.h"
#include "log.h"
#include "macro.h"
#include "manager.h"
#include "manager-dump.h"
#include "memory-util.h"
#include "missing_fs.h"
#include "missing_prctl.h"
#include "mkdir-label.h"
#include "namespace.h"
#include "parse-util.h"
#include "path-util.h"
#include "process-util.h"
#include "rlimit-util.h"
#include "rm-rf.h"
#include "seccomp-util.h"
#include "securebits-util.h"
#include "selinux-util.h"
#include "serialize.h"
#include "sort-util.h"
#include "special.h"
#include "stat-util.h"
#include "string-table.h"
#include "string-util.h"
#include "strv.h"
#include "syslog-util.h"
#include "terminal-util.h"
#include "tmpfile-util.h"
#include "umask-util.h"
#include "unit-serialize.h"
#include "user-util.h"
#include "utmp-wtmp.h"
static bool is_terminal_input(ExecInput i) {
return IN_SET(i,
EXEC_INPUT_TTY,
EXEC_INPUT_TTY_FORCE,
EXEC_INPUT_TTY_FAIL);
}
static bool is_terminal_output(ExecOutput o) {
return IN_SET(o,
EXEC_OUTPUT_TTY,
EXEC_OUTPUT_KMSG_AND_CONSOLE,
EXEC_OUTPUT_JOURNAL_AND_CONSOLE);
}
const char* exec_context_tty_path(const ExecContext *context) {
assert(context);
if (context->stdio_as_fds)
return NULL;
if (context->tty_path)
return context->tty_path;
return "/dev/console";
}
int exec_context_apply_tty_size(
const ExecContext *context,
int input_fd,
int output_fd,
const char *tty_path) {
unsigned rows, cols;
int r;
assert(context);
assert(input_fd >= 0);
assert(output_fd >= 0);
if (!isatty_safe(output_fd))
return 0;
if (!tty_path)
tty_path = exec_context_tty_path(context);
/* Preferably use explicitly configured data */
rows = context->tty_rows;
cols = context->tty_cols;
/* Fill in data from kernel command line if anything is unspecified */
if (tty_path && (rows == UINT_MAX || cols == UINT_MAX))
(void) proc_cmdline_tty_size(
tty_path,
rows == UINT_MAX ? &rows : NULL,
cols == UINT_MAX ? &cols : NULL);
/* If we got nothing so far and we are talking to a physical device, and the TTY reset logic is on,
* then let's query dimensions from the ANSI driver. */
if (rows == UINT_MAX && cols == UINT_MAX &&
context->tty_reset &&
terminal_is_pty_fd(output_fd) == 0 &&
isatty_safe(input_fd)) {
r = terminal_get_size_by_dsr(input_fd, output_fd, &rows, &cols);
if (r < 0)
log_debug_errno(r, "Failed to get terminal size by DSR, ignoring: %m");
}
return terminal_set_size_fd(output_fd, tty_path, rows, cols);
}
void exec_context_tty_reset(const ExecContext *context, const ExecParameters *p) {
_cleanup_close_ int _fd = -EBADF, lock_fd = -EBADF;
int fd, r;
assert(context);
/* Note that this is potentially a "destructive" reset of a TTY device. It's about getting rid of the
* remains of previous uses of the TTY. It's *not* about getting things set up for coming uses. We'll
* potentially invalidate the TTY here through hangups or VT disallocations, and hence do not keep a
* continuous fd open. */
const char *path = exec_context_tty_path(context);
if (p && p->stdout_fd >= 0 && isatty_safe(p->stdout_fd))
fd = p->stdout_fd;
else if (path && (context->tty_path || is_terminal_input(context->std_input) ||
is_terminal_output(context->std_output) || is_terminal_output(context->std_error))) {
fd = _fd = open_terminal(path, O_RDWR|O_NOCTTY|O_CLOEXEC|O_NONBLOCK);
if (fd < 0)
return (void) log_debug_errno(fd, "Failed to open terminal '%s', ignoring: %m", path);
} else
return; /* nothing to do */
/* Take a synchronization lock for the duration of the setup that we do here.
* systemd-vconsole-setup.service also takes the lock to avoid being interrupted. We open a new fd
* that will be closed automatically, and operate on it for convenience. */
lock_fd = lock_dev_console();
if (ERRNO_IS_NEG_PRIVILEGE(lock_fd))
log_debug_errno(lock_fd, "No privileges to lock /dev/console, proceeding without lock: %m");
else if (ERRNO_IS_NEG_DEVICE_ABSENT(lock_fd))
log_debug_errno(lock_fd, "Device /dev/console does not exist, proceeding without lock: %m");
else if (lock_fd < 0)
log_warning_errno(lock_fd, "Failed to lock /dev/console, proceeding without lock: %m");
if (context->tty_reset)
(void) terminal_reset_defensive(fd, /* switch_to_text= */ true);
r = exec_context_apply_tty_size(context, fd, fd, path);
if (r < 0)
log_debug_errno(r, "Failed to configure TTY dimensions, ignoring: %m");
if (context->tty_vhangup)
(void) terminal_vhangup_fd(fd);
/* We don't need the fd anymore now, and it potentially points to a hungup TTY anyway, let's close it
* hence. */
_fd = safe_close(_fd);
if (context->tty_vt_disallocate && path)
(void) vt_disallocate(path);
}
bool exec_needs_network_namespace(const ExecContext *context) {
assert(context);
return context->private_network || context->network_namespace_path;
}
static bool exec_needs_ephemeral(const ExecContext *context) {
return (context->root_image || context->root_directory) && context->root_ephemeral;
}
bool exec_needs_ipc_namespace(const ExecContext *context) {
assert(context);
return context->private_ipc || context->ipc_namespace_path;
}
static bool can_apply_cgroup_namespace(const ExecContext *context, const ExecParameters *params) {
return cg_all_unified() > 0 && ns_type_supported(NAMESPACE_CGROUP);
}
static bool needs_cgroup_namespace(ProtectControlGroups i) {
return IN_SET(i, PROTECT_CONTROL_GROUPS_PRIVATE, PROTECT_CONTROL_GROUPS_STRICT);
}
ProtectControlGroups exec_get_protect_control_groups(const ExecContext *context, const ExecParameters *params) {
assert(context);
/* If cgroup namespace is configured via ProtectControlGroups=private or strict but we can't actually
* use cgroup namespace, either from not having unified hierarchy or kernel support, we ignore the
* setting and do not unshare the namespace. ProtectControlGroups=private and strict get downgraded
* to no and yes respectively. This ensures that strict always gets a read-only mount of /sys/fs/cgroup.
*
* TODO: Remove fallback once cgroupv1 support is removed in v258. */
if (needs_cgroup_namespace(context->protect_control_groups) && !can_apply_cgroup_namespace(context, params)) {
if (context->protect_control_groups == PROTECT_CONTROL_GROUPS_PRIVATE)
return PROTECT_CONTROL_GROUPS_NO;
if (context->protect_control_groups == PROTECT_CONTROL_GROUPS_STRICT)
return PROTECT_CONTROL_GROUPS_YES;
}
return context->protect_control_groups;
}
bool exec_needs_cgroup_namespace(const ExecContext *context, const ExecParameters *params) {
assert(context);
return needs_cgroup_namespace(exec_get_protect_control_groups(context, params));
}
bool exec_needs_cgroup_mount(const ExecContext *context, const ExecParameters *params) {
assert(context);
return exec_get_protect_control_groups(context, params) != PROTECT_CONTROL_GROUPS_NO;
}
bool exec_is_cgroup_mount_read_only(const ExecContext *context, const ExecParameters *params) {
assert(context);
return IN_SET(exec_get_protect_control_groups(context, params), PROTECT_CONTROL_GROUPS_YES, PROTECT_CONTROL_GROUPS_STRICT);
}
bool exec_needs_mount_namespace(
const ExecContext *context,
const ExecParameters *params,
const ExecRuntime *runtime) {
assert(context);
if (context->root_image)
return true;
if (!strv_isempty(context->read_write_paths) ||
!strv_isempty(context->read_only_paths) ||
!strv_isempty(context->inaccessible_paths) ||
!strv_isempty(context->exec_paths) ||
!strv_isempty(context->no_exec_paths))
return true;
if (context->n_bind_mounts > 0)
return true;
if (context->n_temporary_filesystems > 0)
return true;
if (context->n_mount_images > 0)
return true;
if (context->n_extension_images > 0)
return true;
if (!strv_isempty(context->extension_directories))
return true;
if (!IN_SET(context->mount_propagation_flag, 0, MS_SHARED))
return true;
if (context->private_tmp == PRIVATE_TMP_DISCONNECTED)
return true;
if (context->private_tmp == PRIVATE_TMP_CONNECTED && runtime && runtime->shared && (runtime->shared->tmp_dir || runtime->shared->var_tmp_dir))
return true;
if (context->private_devices ||
context->private_mounts > 0 ||
(context->private_mounts < 0 && exec_needs_network_namespace(context)) ||
context->protect_system != PROTECT_SYSTEM_NO ||
context->protect_home != PROTECT_HOME_NO ||
context->protect_kernel_tunables ||
context->protect_kernel_modules ||
context->protect_kernel_logs ||
exec_needs_cgroup_mount(context, params) ||
context->protect_proc != PROTECT_PROC_DEFAULT ||
context->proc_subset != PROC_SUBSET_ALL ||
exec_needs_ipc_namespace(context))
return true;
if (context->root_directory) {
if (exec_context_get_effective_mount_apivfs(context))
return true;
for (ExecDirectoryType t = 0; t < _EXEC_DIRECTORY_TYPE_MAX; t++) {
if (params && !params->prefix[t])
continue;
if (context->directories[t].n_items > 0)
return true;
}
}
if (context->dynamic_user &&
(context->directories[EXEC_DIRECTORY_STATE].n_items > 0 ||
context->directories[EXEC_DIRECTORY_CACHE].n_items > 0 ||
context->directories[EXEC_DIRECTORY_LOGS].n_items > 0))
return true;
if (exec_context_get_effective_bind_log_sockets(context))
return true;
for (ExecDirectoryType t = 0; t < _EXEC_DIRECTORY_TYPE_MAX; t++)
FOREACH_ARRAY(i, context->directories[t].items, context->directories[t].n_items)
if (FLAGS_SET(i->flags, EXEC_DIRECTORY_READ_ONLY))
return true;
return false;
}
bool exec_directory_is_private(const ExecContext *context, ExecDirectoryType type) {
assert(context);
if (!context->dynamic_user)
return false;
if (!EXEC_DIRECTORY_TYPE_SHALL_CHOWN(type))
return false;
if (type == EXEC_DIRECTORY_RUNTIME && context->runtime_directory_preserve_mode == EXEC_PRESERVE_NO)
return false;
return true;
}
int exec_params_get_cgroup_path(
const ExecParameters *params,
const CGroupContext *c,
char **ret) {
const char *subgroup = NULL;
char *p;
assert(params);
assert(ret);
if (!params->cgroup_path)
return -EINVAL;
/* If we are called for a unit where cgroup delegation is on, and the payload created its own populated
* subcgroup (which we expect it to do, after all it asked for delegation), then we cannot place the control
* processes started after the main unit's process in the unit's main cgroup because it is now an inner one,
* and inner cgroups may not contain processes. Hence, if delegation is on, and this is a control process,
* let's use ".control" as subcgroup instead. Note that we do so only for ExecStartPost=, ExecReload=,
* ExecStop=, ExecStopPost=, i.e. for the commands where the main process is already forked. For ExecStartPre=
* this is not necessary, the cgroup is still empty. We distinguish these cases with the EXEC_CONTROL_CGROUP
* flag, which is only passed for the former statements, not for the latter. */
if (FLAGS_SET(params->flags, EXEC_CGROUP_DELEGATE) && (FLAGS_SET(params->flags, EXEC_CONTROL_CGROUP) || c->delegate_subgroup)) {
if (FLAGS_SET(params->flags, EXEC_IS_CONTROL))
subgroup = ".control";
else
subgroup = c->delegate_subgroup;
}
if (subgroup)
p = path_join(params->cgroup_path, subgroup);
else
p = strdup(params->cgroup_path);
if (!p)
return -ENOMEM;
*ret = p;
return !!subgroup;
}
bool exec_context_get_cpu_affinity_from_numa(const ExecContext *c) {
assert(c);
return c->cpu_affinity_from_numa;
}
static void log_command_line(Unit *unit, const char *msg, const char *executable, char **argv) {
assert(unit);
assert(msg);
assert(executable);
if (!DEBUG_LOGGING)
return;
_cleanup_free_ char *cmdline = quote_command_line(argv, SHELL_ESCAPE_EMPTY);
log_unit_struct(unit, LOG_DEBUG,
"EXECUTABLE=%s", executable,
LOG_UNIT_MESSAGE(unit, "%s: %s", msg, strnull(cmdline)),
LOG_UNIT_INVOCATION_ID(unit));
}
static int exec_context_load_environment(const Unit *unit, const ExecContext *c, char ***l);
int exec_spawn(
Unit *unit,
ExecCommand *command,
const ExecContext *context,
ExecParameters *params,
ExecRuntime *runtime,
const CGroupContext *cgroup_context,
PidRef *ret) {
_cleanup_free_ char *subcgroup_path = NULL, *max_log_levels = NULL, *executor_path = NULL;
_cleanup_fdset_free_ FDSet *fdset = NULL;
_cleanup_fclose_ FILE *f = NULL;
int r;
assert(unit);
assert(unit->manager);
assert(unit->manager->executor_fd >= 0);
assert(command);
assert(context);
assert(params);
assert(!params->fds || FLAGS_SET(params->flags, EXEC_PASS_FDS));
assert(params->fds || (params->n_socket_fds + params->n_storage_fds + params->n_extra_fds == 0));
assert(!params->files_env); /* We fill this field, ensure it comes NULL-initialized to us */
assert(ret);
LOG_CONTEXT_PUSH_UNIT(unit);
r = exec_context_load_environment(unit, context, ¶ms->files_env);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to load environment files: %m");
/* We won't know the real executable path until we create the mount namespace in the child, but we
want to log from the parent, so we use the possibly inaccurate path here. */
log_command_line(unit, "About to execute", command->path, command->argv);
if (params->cgroup_path) {
r = exec_params_get_cgroup_path(params, cgroup_context, &subcgroup_path);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to acquire subcgroup path: %m");
if (r > 0) {
/* If there's a subcgroup, then let's create it here now (the main cgroup was already
* realized by the unit logic) */
r = cg_create(SYSTEMD_CGROUP_CONTROLLER, subcgroup_path);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to create subcgroup '%s': %m", subcgroup_path);
}
}
/* In order to avoid copy-on-write traps and OOM-kills when pid1's memory.current is above the
* child's memory.max, serialize all the state needed to start the unit, and pass it to the
* systemd-executor binary. clone() with CLONE_VM + CLONE_VFORK will pause the parent until the exec
* and ensure all memory is shared. The child immediately execs the new binary so the delay should
* be minimal. If glibc 2.39 is available pidfd_spawn() is used in order to get a race-free pid fd
* and to clone directly into the target cgroup (if we booted with cgroupv2). */
r = open_serialization_file("sd-executor-state", &f);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to open serialization stream: %m");
fdset = fdset_new();
if (!fdset)
return log_oom();
r = exec_serialize_invocation(f, fdset, context, command, params, runtime, cgroup_context);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to serialize parameters: %m");
if (fseeko(f, 0, SEEK_SET) < 0)
return log_unit_error_errno(unit, errno, "Failed to reseek on serialization stream: %m");
r = fd_cloexec(fileno(f), false);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to set O_CLOEXEC on serialization fd: %m");
r = fdset_cloexec(fdset, false);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to set O_CLOEXEC on serialized fds: %m");
/* If LogLevelMax= is specified, then let's use the specified log level at the beginning of the
* executor process. To achieve that the specified log level is passed as an argument, rather than
* the one for the manager process. */
r = log_max_levels_to_string(context->log_level_max >= 0 ? context->log_level_max : log_get_max_level(), &max_log_levels);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to convert max log levels to string: %m");
r = fd_get_path(unit->manager->executor_fd, &executor_path);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to get executor path from fd: %m");
char serialization_fd_number[DECIMAL_STR_MAX(int)];
xsprintf(serialization_fd_number, "%i", fileno(f));
_cleanup_(pidref_done) PidRef pidref = PIDREF_NULL;
dual_timestamp start_timestamp;
/* Restore the original ambient capability set the manager was started with to pass it to
* sd-executor. */
r = capability_ambient_set_apply(unit->manager->saved_ambient_set, /* also_inherit= */ false);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to apply the starting ambient set: %m");
/* Record the start timestamp before we fork so that it is guaranteed to be earlier than the
* handoff timestamp. */
dual_timestamp_now(&start_timestamp);
/* The executor binary is pinned, to avoid compatibility problems during upgrades. */
r = posix_spawn_wrapper(
FORMAT_PROC_FD_PATH(unit->manager->executor_fd),
STRV_MAKE(executor_path,
"--deserialize", serialization_fd_number,
"--log-level", max_log_levels,
"--log-target", log_target_to_string(manager_get_executor_log_target(unit->manager))),
environ,
cg_unified() > 0 ? subcgroup_path : NULL,
&pidref);
/* Drop the ambient set again, so no processes other than sd-executore spawned from the manager inherit it. */
(void) capability_ambient_set_apply(0, /* also_inherit= */ false);
if (r == -EUCLEAN && subcgroup_path)
return log_unit_error_errno(unit, r,
"Failed to spawn process into cgroup '%s', because the cgroup "
"or one of its parents or siblings is in the threaded mode.",
subcgroup_path);
if (r < 0)
return log_unit_error_errno(unit, r, "Failed to spawn executor: %m");
/* We add the new process to the cgroup both in the child (so that we can be sure that no user code is ever
* executed outside of the cgroup) and in the parent (so that we can be sure that when we kill the cgroup the
* process will be killed too). */
if (r == 0 && subcgroup_path)
(void) cg_attach(SYSTEMD_CGROUP_CONTROLLER, subcgroup_path, pidref.pid);
/* r > 0: Already in the right cgroup thanks to CLONE_INTO_CGROUP */
log_unit_debug(unit, "Forked %s as " PID_FMT " (%s CLONE_INTO_CGROUP)",
command->path, pidref.pid, r > 0 ? "via" : "without");
exec_status_start(&command->exec_status, pidref.pid, &start_timestamp);
*ret = TAKE_PIDREF(pidref);
return 0;
}
void exec_context_init(ExecContext *c) {
assert(c);
/* When initializing a bool member to 'true', make sure to serialize in execute-serialize.c using
* serialize_bool() instead of serialize_bool_elide(). */
*c = (ExecContext) {
.umask = 0022,
.ioprio = IOPRIO_DEFAULT_CLASS_AND_PRIO,
.cpu_sched_policy = SCHED_OTHER,
.syslog_priority = LOG_DAEMON|LOG_INFO,
.syslog_level_prefix = true,
.ignore_sigpipe = true,
.timer_slack_nsec = NSEC_INFINITY,
.personality = PERSONALITY_INVALID,
.timeout_clean_usec = USEC_INFINITY,
.capability_bounding_set = CAP_MASK_UNSET,
.restrict_namespaces = NAMESPACE_FLAGS_INITIAL,
.log_level_max = -1,
#if HAVE_SECCOMP
.syscall_errno = SECCOMP_ERROR_NUMBER_KILL,
#endif
.tty_rows = UINT_MAX,
.tty_cols = UINT_MAX,
.private_mounts = -1,
.mount_apivfs = -1,
.bind_log_sockets = -1,
.memory_ksm = -1,
.set_login_environment = -1,
};
FOREACH_ARRAY(d, c->directories, _EXEC_DIRECTORY_TYPE_MAX)
d->mode = 0755;
numa_policy_reset(&c->numa_policy);
assert_cc(NAMESPACE_FLAGS_INITIAL != NAMESPACE_FLAGS_ALL);
}
void exec_context_done(ExecContext *c) {
assert(c);
c->environment = strv_free(c->environment);
c->environment_files = strv_free(c->environment_files);
c->pass_environment = strv_free(c->pass_environment);
c->unset_environment = strv_free(c->unset_environment);
rlimit_free_all(c->rlimit);
for (size_t l = 0; l < 3; l++) {
c->stdio_fdname[l] = mfree(c->stdio_fdname[l]);
c->stdio_file[l] = mfree(c->stdio_file[l]);
}
c->working_directory = mfree(c->working_directory);
c->root_directory = mfree(c->root_directory);
c->root_image = mfree(c->root_image);
c->root_image_options = mount_options_free_all(c->root_image_options);
c->root_hash = mfree(c->root_hash);
c->root_hash_size = 0;
c->root_hash_path = mfree(c->root_hash_path);
c->root_hash_sig = mfree(c->root_hash_sig);
c->root_hash_sig_size = 0;
c->root_hash_sig_path = mfree(c->root_hash_sig_path);
c->root_verity = mfree(c->root_verity);
c->extension_images = mount_image_free_many(c->extension_images, &c->n_extension_images);
c->extension_directories = strv_free(c->extension_directories);
c->tty_path = mfree(c->tty_path);
c->syslog_identifier = mfree(c->syslog_identifier);
c->user = mfree(c->user);
c->group = mfree(c->group);
c->supplementary_groups = strv_free(c->supplementary_groups);
c->pam_name = mfree(c->pam_name);
c->read_only_paths = strv_free(c->read_only_paths);
c->read_write_paths = strv_free(c->read_write_paths);
c->inaccessible_paths = strv_free(c->inaccessible_paths);
c->exec_paths = strv_free(c->exec_paths);
c->no_exec_paths = strv_free(c->no_exec_paths);
c->exec_search_path = strv_free(c->exec_search_path);
bind_mount_free_many(c->bind_mounts, c->n_bind_mounts);
c->bind_mounts = NULL;
c->n_bind_mounts = 0;
temporary_filesystem_free_many(c->temporary_filesystems, c->n_temporary_filesystems);
c->temporary_filesystems = NULL;
c->n_temporary_filesystems = 0;
c->mount_images = mount_image_free_many(c->mount_images, &c->n_mount_images);
cpu_set_reset(&c->cpu_set);
numa_policy_reset(&c->numa_policy);
c->utmp_id = mfree(c->utmp_id);
c->selinux_context = mfree(c->selinux_context);
c->apparmor_profile = mfree(c->apparmor_profile);
c->smack_process_label = mfree(c->smack_process_label);
c->restrict_filesystems = set_free_free(c->restrict_filesystems);
c->syscall_filter = hashmap_free(c->syscall_filter);
c->syscall_archs = set_free(c->syscall_archs);
c->address_families = set_free(c->address_families);
FOREACH_ARRAY(d, c->directories, _EXEC_DIRECTORY_TYPE_MAX)
exec_directory_done(d);
c->log_level_max = -1;
exec_context_free_log_extra_fields(c);
c->log_filter_allowed_patterns = set_free_free(c->log_filter_allowed_patterns);
c->log_filter_denied_patterns = set_free_free(c->log_filter_denied_patterns);
c->log_ratelimit = (RateLimit) {};
c->stdin_data = mfree(c->stdin_data);
c->stdin_data_size = 0;
c->network_namespace_path = mfree(c->network_namespace_path);
c->ipc_namespace_path = mfree(c->ipc_namespace_path);
c->log_namespace = mfree(c->log_namespace);
c->load_credentials = hashmap_free(c->load_credentials);
c->set_credentials = hashmap_free(c->set_credentials);
c->import_credentials = ordered_set_free(c->import_credentials);
c->root_image_policy = image_policy_free(c->root_image_policy);
c->mount_image_policy = image_policy_free(c->mount_image_policy);
c->extension_image_policy = image_policy_free(c->extension_image_policy);
}
int exec_context_destroy_runtime_directory(const ExecContext *c, const char *runtime_prefix) {
assert(c);
if (!runtime_prefix)
return 0;
FOREACH_ARRAY(i, c->directories[EXEC_DIRECTORY_RUNTIME].items, c->directories[EXEC_DIRECTORY_RUNTIME].n_items) {
_cleanup_free_ char *p = NULL;
if (exec_directory_is_private(c, EXEC_DIRECTORY_RUNTIME))
p = path_join(runtime_prefix, "private", i->path);
else
p = path_join(runtime_prefix, i->path);
if (!p)
return -ENOMEM;
/* We execute this synchronously, since we need to be sure this is gone when we start the
* service next. */
(void) rm_rf(p, REMOVE_ROOT);
STRV_FOREACH(symlink, i->symlinks) {
_cleanup_free_ char *symlink_abs = NULL;
if (exec_directory_is_private(c, EXEC_DIRECTORY_RUNTIME))
symlink_abs = path_join(runtime_prefix, "private", *symlink);
else
symlink_abs = path_join(runtime_prefix, *symlink);
if (!symlink_abs)
return -ENOMEM;
(void) unlink(symlink_abs);
}
}
return 0;
}
int exec_context_destroy_mount_ns_dir(Unit *u) {
_cleanup_free_ char *p = NULL;
if (!u || !MANAGER_IS_SYSTEM(u->manager))
return 0;
p = path_join("/run/systemd/propagate/", u->id);
if (!p)
return -ENOMEM;
/* This is only filled transiently (see mount_in_namespace()), should be empty or even non-existent*/
if (rmdir(p) < 0 && errno != ENOENT)
log_unit_debug_errno(u, errno, "Unable to remove propagation dir '%s', ignoring: %m", p);
return 0;
}
void exec_command_done(ExecCommand *c) {
assert(c);
c->path = mfree(c->path);
c->argv = strv_free(c->argv);
}
void exec_command_done_array(ExecCommand *c, size_t n) {
FOREACH_ARRAY(i, c, n)
exec_command_done(i);
}
ExecCommand* exec_command_free(ExecCommand *c) {
if (!c)
return NULL;
exec_command_done(c);
return mfree(c);
}
ExecCommand* exec_command_free_list(ExecCommand *c) {
ExecCommand *i;
while ((i = LIST_POP(command, c)))
exec_command_free(i);
return NULL;
}
void exec_command_free_array(ExecCommand **c, size_t n) {
FOREACH_ARRAY(i, c, n)
*i = exec_command_free_list(*i);
}
void exec_command_reset_status_array(ExecCommand *c, size_t n) {
FOREACH_ARRAY(i, c, n)
exec_status_reset(&i->exec_status);
}
void exec_command_reset_status_list_array(ExecCommand **c, size_t n) {
FOREACH_ARRAY(i, c, n)
LIST_FOREACH(command, z, *i)
exec_status_reset(&z->exec_status);
}
typedef struct InvalidEnvInfo {
const Unit *unit;
const char *path;
} InvalidEnvInfo;
static void invalid_env(const char *p, void *userdata) {
InvalidEnvInfo *info = userdata;
log_unit_error(info->unit, "Ignoring invalid environment assignment '%s': %s", p, info->path);
}
const char* exec_context_fdname(const ExecContext *c, int fd_index) {
assert(c);
switch (fd_index) {
case STDIN_FILENO:
if (c->std_input != EXEC_INPUT_NAMED_FD)
return NULL;
return c->stdio_fdname[STDIN_FILENO] ?: "stdin";
case STDOUT_FILENO:
if (c->std_output != EXEC_OUTPUT_NAMED_FD)
return NULL;
return c->stdio_fdname[STDOUT_FILENO] ?: "stdout";
case STDERR_FILENO:
if (c->std_error != EXEC_OUTPUT_NAMED_FD)
return NULL;
return c->stdio_fdname[STDERR_FILENO] ?: "stderr";
default:
return NULL;
}
}
static int exec_context_load_environment(const Unit *unit, const ExecContext *c, char ***ret) {
_cleanup_strv_free_ char **v = NULL;
int r;
assert(c);
assert(ret);
STRV_FOREACH(i, c->environment_files) {
_cleanup_globfree_ glob_t pglob = {};
bool ignore = false;
char *fn = *i;
if (fn[0] == '-') {
ignore = true;
fn++;
}
if (!path_is_absolute(fn)) {
if (ignore)
continue;
return -EINVAL;
}
/* Filename supports globbing, take all matching files */
r = safe_glob(fn, 0, &pglob);
if (r < 0) {
if (ignore)
continue;
return r;
}
/* When we don't match anything, -ENOENT should be returned */
assert(pglob.gl_pathc > 0);
FOREACH_ARRAY(path, pglob.gl_pathv, pglob.gl_pathc) {
_cleanup_strv_free_ char **p = NULL;
r = load_env_file(NULL, *path, &p);
if (r < 0) {
if (ignore)
continue;
return r;
}
/* Log invalid environment variables with filename */
if (p) {
InvalidEnvInfo info = {
.unit = unit,
.path = *path,
};
p = strv_env_clean_with_callback(p, invalid_env, &info);
}
if (!v)
v = TAKE_PTR(p);
else {
char **m = strv_env_merge(v, p);
if (!m)
return -ENOMEM;
strv_free_and_replace(v, m);
}
}
}
*ret = TAKE_PTR(v);
return 0;
}
static bool tty_may_match_dev_console(const char *tty) {
_cleanup_free_ char *resolved = NULL;
if (!tty)
return true;
tty = skip_dev_prefix(tty);
/* trivial identity? */
if (streq(tty, "console"))
return true;
if (resolve_dev_console(&resolved) < 0)
return true; /* if we could not resolve, assume it may */
/* "tty0" means the active VC, so it may be the same sometimes */
return path_equal(resolved, tty) || (streq(resolved, "tty0") && tty_is_vc(tty));
}
static bool exec_context_may_touch_tty(const ExecContext *ec) {
assert(ec);
return ec->tty_reset ||
ec->tty_vhangup ||
ec->tty_vt_disallocate ||
is_terminal_input(ec->std_input) ||
is_terminal_output(ec->std_output) ||
is_terminal_output(ec->std_error);
}
bool exec_context_may_touch_console(const ExecContext *ec) {
return exec_context_may_touch_tty(ec) &&
tty_may_match_dev_console(exec_context_tty_path(ec));
}
static void strv_fprintf(FILE *f, char **l) {
assert(f);
STRV_FOREACH(g, l)
fprintf(f, " %s", *g);
}
static void strv_dump(FILE* f, const char *prefix, const char *name, char **strv) {
assert(f);
assert(prefix);
assert(name);
if (!strv_isempty(strv)) {
fprintf(f, "%s%s:", prefix, name);
strv_fprintf(f, strv);
fputs("\n", f);
}
}
void exec_params_dump(const ExecParameters *p, FILE* f, const char *prefix) {
assert(p);
assert(f);
prefix = strempty(prefix);
fprintf(f,
"%sRuntimeScope: %s\n"
"%sExecFlags: %u\n"
"%sSELinuxContextNetwork: %s\n"
"%sCgroupSupportedMask: %u\n"
"%sCgroupPath: %s\n"
"%sCrededentialsDirectory: %s\n"
"%sEncryptedCredentialsDirectory: %s\n"
"%sConfirmSpawn: %s\n"
"%sShallConfirmSpawn: %s\n"
"%sWatchdogUSec: " USEC_FMT "\n"
"%sNotifySocket: %s\n"
"%sDebugInvocation: %s\n"
"%sFallbackSmackProcessLabel: %s\n",
prefix, runtime_scope_to_string(p->runtime_scope),
prefix, p->flags,
prefix, yes_no(p->selinux_context_net),
prefix, p->cgroup_supported,
prefix, p->cgroup_path,
prefix, strempty(p->received_credentials_directory),
prefix, strempty(p->received_encrypted_credentials_directory),
prefix, strempty(p->confirm_spawn),
prefix, yes_no(p->shall_confirm_spawn),
prefix, p->watchdog_usec,
prefix, strempty(p->notify_socket),
prefix, yes_no(p->debug_invocation),
prefix, strempty(p->fallback_smack_process_label));
strv_dump(f, prefix, "FdNames", p->fd_names);
strv_dump(f, prefix, "Environment", p->environment);
strv_dump(f, prefix, "Prefix", p->prefix);
LIST_FOREACH(open_files, file, p->open_files)
fprintf(f, "%sOpenFile: %s %s", prefix, file->path, open_file_flags_to_string(file->flags));
strv_dump(f, prefix, "FilesEnv", p->files_env);
}
void exec_context_dump(const ExecContext *c, FILE* f, const char *prefix) {
int r;
assert(c);
assert(f);
prefix = strempty(prefix);
fprintf(f,
"%sUMask: %04o\n"
"%sWorkingDirectory: %s\n"
"%sRootDirectory: %s\n"
"%sRootEphemeral: %s\n"
"%sNonBlocking: %s\n"
"%sPrivateTmp: %s\n"
"%sPrivateDevices: %s\n"
"%sProtectKernelTunables: %s\n"
"%sProtectKernelModules: %s\n"
"%sProtectKernelLogs: %s\n"
"%sProtectClock: %s\n"
"%sProtectControlGroups: %s\n"
"%sPrivateNetwork: %s\n"
"%sPrivateUsers: %s\n"
"%sProtectHome: %s\n"
"%sProtectSystem: %s\n"
"%sMountAPIVFS: %s\n"
"%sBindLogSockets: %s\n"
"%sIgnoreSIGPIPE: %s\n"
"%sMemoryDenyWriteExecute: %s\n"
"%sRestrictRealtime: %s\n"
"%sRestrictSUIDSGID: %s\n"
"%sKeyringMode: %s\n"
"%sProtectHostname: %s\n"
"%sProtectProc: %s\n"
"%sProcSubset: %s\n",
prefix, c->umask,
prefix, empty_to_root(c->working_directory),
prefix, empty_to_root(c->root_directory),
prefix, yes_no(c->root_ephemeral),
prefix, yes_no(c->non_blocking),
prefix, private_tmp_to_string(c->private_tmp),
prefix, yes_no(c->private_devices),
prefix, yes_no(c->protect_kernel_tunables),
prefix, yes_no(c->protect_kernel_modules),
prefix, yes_no(c->protect_kernel_logs),
prefix, yes_no(c->protect_clock),
prefix, protect_control_groups_to_string(c->protect_control_groups),
prefix, yes_no(c->private_network),
prefix, private_users_to_string(c->private_users),
prefix, protect_home_to_string(c->protect_home),
prefix, protect_system_to_string(c->protect_system),
prefix, yes_no(exec_context_get_effective_mount_apivfs(c)),
prefix, yes_no(exec_context_get_effective_bind_log_sockets(c)),
prefix, yes_no(c->ignore_sigpipe),
prefix, yes_no(c->memory_deny_write_execute),
prefix, yes_no(c->restrict_realtime),
prefix, yes_no(c->restrict_suid_sgid),
prefix, exec_keyring_mode_to_string(c->keyring_mode),
prefix, yes_no(c->protect_hostname),
prefix, protect_proc_to_string(c->protect_proc),
prefix, proc_subset_to_string(c->proc_subset));
if (c->set_login_environment >= 0)
fprintf(f, "%sSetLoginEnvironment: %s\n", prefix, yes_no(c->set_login_environment > 0));
if (c->root_image)
fprintf(f, "%sRootImage: %s\n", prefix, c->root_image);
if (c->root_image_options) {
fprintf(f, "%sRootImageOptions:", prefix);
LIST_FOREACH(mount_options, o, c->root_image_options)
if (!isempty(o->options))
fprintf(f, " %s:%s",
partition_designator_to_string(o->partition_designator),
o->options);
fprintf(f, "\n");
}
if (c->root_hash) {
_cleanup_free_ char *encoded = NULL;
encoded = hexmem(c->root_hash, c->root_hash_size);
if (encoded)
fprintf(f, "%sRootHash: %s\n", prefix, encoded);
}
if (c->root_hash_path)
fprintf(f, "%sRootHash: %s\n", prefix, c->root_hash_path);
if (c->root_hash_sig) {
_cleanup_free_ char *encoded = NULL;
ssize_t len;
len = base64mem(c->root_hash_sig, c->root_hash_sig_size, &encoded);
if (len)
fprintf(f, "%sRootHashSignature: base64:%s\n", prefix, encoded);
}
if (c->root_hash_sig_path)
fprintf(f, "%sRootHashSignature: %s\n", prefix, c->root_hash_sig_path);
if (c->root_verity)
fprintf(f, "%sRootVerity: %s\n", prefix, c->root_verity);
STRV_FOREACH(e, c->environment)
fprintf(f, "%sEnvironment: %s\n", prefix, *e);
STRV_FOREACH(e, c->environment_files)
fprintf(f, "%sEnvironmentFile: %s\n", prefix, *e);
STRV_FOREACH(e, c->pass_environment)
fprintf(f, "%sPassEnvironment: %s\n", prefix, *e);
STRV_FOREACH(e, c->unset_environment)
fprintf(f, "%sUnsetEnvironment: %s\n", prefix, *e);
fprintf(f, "%sRuntimeDirectoryPreserve: %s\n", prefix, exec_preserve_mode_to_string(c->runtime_directory_preserve_mode));
for (ExecDirectoryType dt = 0; dt < _EXEC_DIRECTORY_TYPE_MAX; dt++) {
fprintf(f, "%s%sMode: %04o\n", prefix, exec_directory_type_to_string(dt), c->directories[dt].mode);
for (size_t i = 0; i < c->directories[dt].n_items; i++) {
fprintf(f,
"%s%s: %s%s\n",
prefix,
exec_directory_type_to_string(dt),
c->directories[dt].items[i].path,
FLAGS_SET(c->directories[dt].items[i].flags, EXEC_DIRECTORY_READ_ONLY) ? " (ro)" : "");
STRV_FOREACH(d, c->directories[dt].items[i].symlinks)
fprintf(f, "%s%s: %s:%s\n", prefix, exec_directory_type_symlink_to_string(dt), c->directories[dt].items[i].path, *d);
}
}
fprintf(f, "%sTimeoutCleanSec: %s\n", prefix, FORMAT_TIMESPAN(c->timeout_clean_usec, USEC_PER_SEC));
if (c->memory_ksm >= 0)
fprintf(f, "%sMemoryKSM: %s\n", prefix, yes_no(c->memory_ksm > 0));
if (c->nice_set)
fprintf(f, "%sNice: %i\n", prefix, c->nice);
if (c->oom_score_adjust_set)
fprintf(f, "%sOOMScoreAdjust: %i\n", prefix, c->oom_score_adjust);
if (c->coredump_filter_set)
fprintf(f, "%sCoredumpFilter: 0x%"PRIx64"\n", prefix, c->coredump_filter);
for (unsigned i = 0; i < RLIM_NLIMITS; i++)
if (c->rlimit[i]) {
fprintf(f, "%sLimit%s: " RLIM_FMT "\n",
prefix, rlimit_to_string(i), c->rlimit[i]->rlim_max);
fprintf(f, "%sLimit%sSoft: " RLIM_FMT "\n",
prefix, rlimit_to_string(i), c->rlimit[i]->rlim_cur);
}
if (c->ioprio_set) {
_cleanup_free_ char *class_str = NULL;
r = ioprio_class_to_string_alloc(ioprio_prio_class(c->ioprio), &class_str);
if (r >= 0)
fprintf(f, "%sIOSchedulingClass: %s\n", prefix, class_str);
fprintf(f, "%sIOPriority: %d\n", prefix, ioprio_prio_data(c->ioprio));
}
if (c->cpu_sched_set) {
_cleanup_free_ char *policy_str = NULL;
r = sched_policy_to_string_alloc(c->cpu_sched_policy, &policy_str);
if (r >= 0)
fprintf(f, "%sCPUSchedulingPolicy: %s\n", prefix, policy_str);
fprintf(f,
"%sCPUSchedulingPriority: %i\n"
"%sCPUSchedulingResetOnFork: %s\n",
prefix, c->cpu_sched_priority,
prefix, yes_no(c->cpu_sched_reset_on_fork));
}
if (c->cpu_set.set) {
_cleanup_free_ char *affinity = NULL;
affinity = cpu_set_to_range_string(&c->cpu_set);
fprintf(f, "%sCPUAffinity: %s\n", prefix, affinity);
}
if (mpol_is_valid(numa_policy_get_type(&c->numa_policy))) {
_cleanup_free_ char *nodes = NULL;
nodes = cpu_set_to_range_string(&c->numa_policy.nodes);
fprintf(f, "%sNUMAPolicy: %s\n", prefix, mpol_to_string(numa_policy_get_type(&c->numa_policy)));
fprintf(f, "%sNUMAMask: %s\n", prefix, strnull(nodes));
}
if (c->timer_slack_nsec != NSEC_INFINITY)
fprintf(f, "%sTimerSlackNSec: "NSEC_FMT "\n", prefix, c->timer_slack_nsec);
fprintf(f,
"%sStandardInput: %s\n"
"%sStandardOutput: %s\n"
"%sStandardError: %s\n",
prefix, exec_input_to_string(c->std_input),
prefix, exec_output_to_string(c->std_output),
prefix, exec_output_to_string(c->std_error));
if (c->std_input == EXEC_INPUT_NAMED_FD)
fprintf(f, "%sStandardInputFileDescriptorName: %s\n", prefix, c->stdio_fdname[STDIN_FILENO]);
if (c->std_output == EXEC_OUTPUT_NAMED_FD)
fprintf(f, "%sStandardOutputFileDescriptorName: %s\n", prefix, c->stdio_fdname[STDOUT_FILENO]);
if (c->std_error == EXEC_OUTPUT_NAMED_FD)
fprintf(f, "%sStandardErrorFileDescriptorName: %s\n", prefix, c->stdio_fdname[STDERR_FILENO]);
if (c->std_input == EXEC_INPUT_FILE)
fprintf(f, "%sStandardInputFile: %s\n", prefix, c->stdio_file[STDIN_FILENO]);
if (c->std_output == EXEC_OUTPUT_FILE)
fprintf(f, "%sStandardOutputFile: %s\n", prefix, c->stdio_file[STDOUT_FILENO]);
if (c->std_output == EXEC_OUTPUT_FILE_APPEND)
fprintf(f, "%sStandardOutputFileToAppend: %s\n", prefix, c->stdio_file[STDOUT_FILENO]);
if (c->std_output == EXEC_OUTPUT_FILE_TRUNCATE)
fprintf(f, "%sStandardOutputFileToTruncate: %s\n", prefix, c->stdio_file[STDOUT_FILENO]);
if (c->std_error == EXEC_OUTPUT_FILE)
fprintf(f, "%sStandardErrorFile: %s\n", prefix, c->stdio_file[STDERR_FILENO]);
if (c->std_error == EXEC_OUTPUT_FILE_APPEND)
fprintf(f, "%sStandardErrorFileToAppend: %s\n", prefix, c->stdio_file[STDERR_FILENO]);
if (c->std_error == EXEC_OUTPUT_FILE_TRUNCATE)
fprintf(f, "%sStandardErrorFileToTruncate: %s\n", prefix, c->stdio_file[STDERR_FILENO]);
if (c->tty_path)
fprintf(f,
"%sTTYPath: %s\n"
"%sTTYReset: %s\n"
"%sTTYVHangup: %s\n"
"%sTTYVTDisallocate: %s\n"
"%sTTYRows: %u\n"
"%sTTYColumns: %u\n",
prefix, c->tty_path,
prefix, yes_no(c->tty_reset),
prefix, yes_no(c->tty_vhangup),
prefix, yes_no(c->tty_vt_disallocate),
prefix, c->tty_rows,
prefix, c->tty_cols);
if (IN_SET(c->std_output,
EXEC_OUTPUT_KMSG,
EXEC_OUTPUT_JOURNAL,
EXEC_OUTPUT_KMSG_AND_CONSOLE,
EXEC_OUTPUT_JOURNAL_AND_CONSOLE) ||
IN_SET(c->std_error,
EXEC_OUTPUT_KMSG,
EXEC_OUTPUT_JOURNAL,
EXEC_OUTPUT_KMSG_AND_CONSOLE,
EXEC_OUTPUT_JOURNAL_AND_CONSOLE)) {
_cleanup_free_ char *fac_str = NULL, *lvl_str = NULL;
r = log_facility_unshifted_to_string_alloc(c->syslog_priority >> 3, &fac_str);
if (r >= 0)
fprintf(f, "%sSyslogFacility: %s\n", prefix, fac_str);
r = log_level_to_string_alloc(LOG_PRI(c->syslog_priority), &lvl_str);
if (r >= 0)
fprintf(f, "%sSyslogLevel: %s\n", prefix, lvl_str);
}
if (c->log_level_max >= 0) {
_cleanup_free_ char *t = NULL;
(void) log_level_to_string_alloc(c->log_level_max, &t);
fprintf(f, "%sLogLevelMax: %s\n", prefix, strna(t));
}
if (c->log_ratelimit.interval > 0)
fprintf(f,
"%sLogRateLimitIntervalSec: %s\n",
prefix, FORMAT_TIMESPAN(c->log_ratelimit.interval, USEC_PER_SEC));
if (c->log_ratelimit.burst > 0)
fprintf(f, "%sLogRateLimitBurst: %u\n", prefix, c->log_ratelimit.burst);
if (!set_isempty(c->log_filter_allowed_patterns) || !set_isempty(c->log_filter_denied_patterns)) {
fprintf(f, "%sLogFilterPatterns:", prefix);
char *pattern;
SET_FOREACH(pattern, c->log_filter_allowed_patterns)
fprintf(f, " %s", pattern);
SET_FOREACH(pattern, c->log_filter_denied_patterns)
fprintf(f, " ~%s", pattern);
fputc('\n', f);
}
FOREACH_ARRAY(field, c->log_extra_fields, c->n_log_extra_fields) {
fprintf(f, "%sLogExtraFields: ", prefix);
fwrite(field->iov_base, 1, field->iov_len, f);
fputc('\n', f);
}
if (c->log_namespace)
fprintf(f, "%sLogNamespace: %s\n", prefix, c->log_namespace);
if (c->secure_bits) {
_cleanup_free_ char *str = NULL;
r = secure_bits_to_string_alloc(c->secure_bits, &str);
if (r >= 0)
fprintf(f, "%sSecure Bits: %s\n", prefix, str);
}
if (c->capability_bounding_set != CAP_MASK_UNSET) {
_cleanup_free_ char *str = NULL;
r = capability_set_to_string(c->capability_bounding_set, &str);
if (r >= 0)
fprintf(f, "%sCapabilityBoundingSet: %s\n", prefix, str);
}
if (c->capability_ambient_set != 0) {
_cleanup_free_ char *str = NULL;
r = capability_set_to_string(c->capability_ambient_set, &str);
if (r >= 0)
fprintf(f, "%sAmbientCapabilities: %s\n", prefix, str);
}
if (c->user)
fprintf(f, "%sUser: %s\n", prefix, c->user);
if (c->group)
fprintf(f, "%sGroup: %s\n", prefix, c->group);
fprintf(f, "%sDynamicUser: %s\n", prefix, yes_no(c->dynamic_user));
strv_dump(f, prefix, "SupplementaryGroups", c->supplementary_groups);
if (c->pam_name)
fprintf(f, "%sPAMName: %s\n", prefix, c->pam_name);
strv_dump(f, prefix, "ReadWritePaths", c->read_write_paths);
strv_dump(f, prefix, "ReadOnlyPaths", c->read_only_paths);
strv_dump(f, prefix, "InaccessiblePaths", c->inaccessible_paths);
strv_dump(f, prefix, "ExecPaths", c->exec_paths);
strv_dump(f, prefix, "NoExecPaths", c->no_exec_paths);
strv_dump(f, prefix, "ExecSearchPath", c->exec_search_path);
FOREACH_ARRAY(mount, c->bind_mounts, c->n_bind_mounts)
fprintf(f, "%s%s: %s%s:%s:%s\n", prefix,
mount->read_only ? "BindReadOnlyPaths" : "BindPaths",
mount->ignore_enoent ? "-": "",
mount->source,
mount->destination,
mount->recursive ? "rbind" : "norbind");
FOREACH_ARRAY(tmpfs, c->temporary_filesystems, c->n_temporary_filesystems)
fprintf(f, "%sTemporaryFileSystem: %s%s%s\n", prefix,
tmpfs->path,
isempty(tmpfs->options) ? "" : ":",
strempty(tmpfs->options));
if (c->utmp_id)
fprintf(f,
"%sUtmpIdentifier: %s\n",
prefix, c->utmp_id);
if (c->selinux_context)
fprintf(f,
"%sSELinuxContext: %s%s\n",
prefix, c->selinux_context_ignore ? "-" : "", c->selinux_context);
if (c->apparmor_profile)
fprintf(f,
"%sAppArmorProfile: %s%s\n",
prefix, c->apparmor_profile_ignore ? "-" : "", c->apparmor_profile);
if (c->smack_process_label)
fprintf(f,
"%sSmackProcessLabel: %s%s\n",
prefix, c->smack_process_label_ignore ? "-" : "", c->smack_process_label);
if (c->personality != PERSONALITY_INVALID)
fprintf(f,
"%sPersonality: %s\n",
prefix, strna(personality_to_string(c->personality)));
fprintf(f,
"%sLockPersonality: %s\n",
prefix, yes_no(c->lock_personality));
if (c->syscall_filter) {
fprintf(f,
"%sSystemCallFilter: ",
prefix);
if (!c->syscall_allow_list)
fputc('~', f);
#if HAVE_SECCOMP
void *id, *val;
bool first = true;
HASHMAP_FOREACH_KEY(val, id, c->syscall_filter) {
_cleanup_free_ char *name = NULL;
const char *errno_name = NULL;
int num = PTR_TO_INT(val);
if (first)
first = false;
else
fputc(' ', f);
name = seccomp_syscall_resolve_num_arch(SCMP_ARCH_NATIVE, PTR_TO_INT(id) - 1);
fputs(strna(name), f);
if (num >= 0) {
errno_name = seccomp_errno_or_action_to_string(num);
if (errno_name)
fprintf(f, ":%s", errno_name);
else
fprintf(f, ":%d", num);
}
}
#endif
fputc('\n', f);
}
if (c->syscall_archs) {
fprintf(f,
"%sSystemCallArchitectures:",
prefix);
#if HAVE_SECCOMP
void *id;
SET_FOREACH(id, c->syscall_archs)
fprintf(f, " %s", strna(seccomp_arch_to_string(PTR_TO_UINT32(id) - 1)));
#endif
fputc('\n', f);
}
if (exec_context_restrict_namespaces_set(c)) {
_cleanup_free_ char *s = NULL;
r = namespace_flags_to_string(c->restrict_namespaces, &s);
if (r >= 0)
fprintf(f, "%sRestrictNamespaces: %s\n",
prefix, strna(s));
}
#if HAVE_LIBBPF
if (exec_context_restrict_filesystems_set(c)) {
char *fs;
SET_FOREACH(fs, c->restrict_filesystems)
fprintf(f, "%sRestrictFileSystems: %s\n", prefix, fs);
}
#endif
if (c->network_namespace_path)
fprintf(f,
"%sNetworkNamespacePath: %s\n",
prefix, c->network_namespace_path);
if (c->syscall_errno > 0) {
fprintf(f, "%sSystemCallErrorNumber: ", prefix);
#if HAVE_SECCOMP
const char *errno_name = seccomp_errno_or_action_to_string(c->syscall_errno);
if (errno_name)
fputs(errno_name, f);
else
fprintf(f, "%d", c->syscall_errno);
#endif
fputc('\n', f);
}
FOREACH_ARRAY(mount, c->mount_images, c->n_mount_images) {
fprintf(f, "%sMountImages: %s%s:%s", prefix,
mount->ignore_enoent ? "-": "",
mount->source,
mount->destination);
LIST_FOREACH(mount_options, o, mount->mount_options)
fprintf(f, ":%s:%s",
partition_designator_to_string(o->partition_designator),
strempty(o->options));
fprintf(f, "\n");
}
FOREACH_ARRAY(mount, c->extension_images, c->n_extension_images) {
fprintf(f, "%sExtensionImages: %s%s", prefix,
mount->ignore_enoent ? "-": "",
mount->source);
LIST_FOREACH(mount_options, o, mount->mount_options)
fprintf(f, ":%s:%s",
partition_designator_to_string(o->partition_designator),
strempty(o->options));
fprintf(f, "\n");
}
strv_dump(f, prefix, "ExtensionDirectories", c->extension_directories);
}
bool exec_context_maintains_privileges(const ExecContext *c) {
assert(c);
/* Returns true if the process forked off would run under
* an unchanged UID or as root. */
if (!c->user)
return true;
if (STR_IN_SET(c->user, "root", "0"))
return true;
return false;
}
int exec_context_get_effective_ioprio(const ExecContext *c) {
int p;
assert(c);
if (c->ioprio_set)
return c->ioprio;
p = ioprio_get(IOPRIO_WHO_PROCESS, 0);
if (p < 0)
return IOPRIO_DEFAULT_CLASS_AND_PRIO;
return ioprio_normalize(p);
}
bool exec_context_get_effective_mount_apivfs(const ExecContext *c) {
assert(c);
/* Explicit setting wins */
if (c->mount_apivfs >= 0)
return c->mount_apivfs > 0;
/* Default to "yes" if root directory or image are specified */
if (exec_context_with_rootfs(c))
return true;
return false;
}
bool exec_context_get_effective_bind_log_sockets(const ExecContext *c) {
assert(c);
/* If log namespace is specified, "/run/systemd/journal.namespace/" would be bind mounted to
* "/run/systemd/journal/", which effectively means BindLogSockets=yes */
if (c->log_namespace)
return true;
if (c->bind_log_sockets >= 0)
return c->bind_log_sockets > 0;
if (exec_context_get_effective_mount_apivfs(c))
return true;
/* When PrivateDevices=yes, /dev/log gets symlinked to /run/systemd/journal/dev-log */
if (exec_context_with_rootfs(c) && c->private_devices)
return true;
return false;
}
void exec_context_free_log_extra_fields(ExecContext *c) {
assert(c);
FOREACH_ARRAY(field, c->log_extra_fields, c->n_log_extra_fields)
free(field->iov_base);
c->log_extra_fields = mfree(c->log_extra_fields);
c->n_log_extra_fields = 0;
}
void exec_context_revert_tty(ExecContext *c) {
_cleanup_close_ int fd = -EBADF;
const char *path;
struct stat st;
int r;
assert(c);
/* First, reset the TTY (possibly kicking everybody else from the TTY) */
exec_context_tty_reset(c, /* parameters= */ NULL);
/* And then undo what chown_terminal() did earlier. Note that we only do this if we have a path
* configured. If the TTY was passed to us as file descriptor we assume the TTY is opened and managed
* by whoever passed it to us and thus knows better when and how to chmod()/chown() it back. */
if (!exec_context_may_touch_tty(c))
return;
path = exec_context_tty_path(c);
if (!path)
return;
fd = open(path, O_PATH|O_CLOEXEC); /* Pin the inode */
if (fd < 0)
return (void) log_full_errno(errno == ENOENT ? LOG_DEBUG : LOG_WARNING, errno,
"Failed to open TTY inode of '%s' to adjust ownership/access mode, ignoring: %m",
path);
if (fstat(fd, &st) < 0)
return (void) log_warning_errno(errno, "Failed to stat TTY '%s', ignoring: %m", path);
/* Let's add a superficial check that we only do this for stuff that looks like a TTY. We only check
* if things are a character device, since a proper check either means we'd have to open the TTY and
* use isatty(), but we'd rather not do that since opening TTYs comes with all kinds of side-effects
* and is slow. Or we'd have to hardcode dev_t major information, which we'd rather avoid. Why bother
* with this at all? → https://github.com/systemd/systemd/issues/19213 */
if (!S_ISCHR(st.st_mode))
return log_warning("Configured TTY '%s' is not actually a character device, ignoring.", path);
r = fchmod_and_chown(fd, TTY_MODE, 0, TTY_GID);
if (r < 0)
log_warning_errno(r, "Failed to reset TTY ownership/access mode of %s to " UID_FMT ":" GID_FMT ", ignoring: %m", path, (uid_t) 0, (gid_t) TTY_GID);
}
int exec_context_get_clean_directories(
ExecContext *c,
char **prefix,
ExecCleanMask mask,
char ***ret) {
_cleanup_strv_free_ char **l = NULL;
int r;
assert(c);
assert(prefix);
assert(ret);
for (ExecDirectoryType t = 0; t < _EXEC_DIRECTORY_TYPE_MAX; t++) {
if (!FLAGS_SET(mask, 1U << t))
continue;
if (!prefix[t])
continue;
FOREACH_ARRAY(i, c->directories[t].items, c->directories[t].n_items) {
char *j;
j = path_join(prefix[t], i->path);
if (!j)
return -ENOMEM;
r = strv_consume(&l, j);
if (r < 0)
return r;
/* Also remove private directories unconditionally. */
if (EXEC_DIRECTORY_TYPE_SHALL_CHOWN(t)) {
j = path_join(prefix[t], "private", i->path);
if (!j)
return -ENOMEM;
r = strv_consume(&l, j);
if (r < 0)
return r;
}
STRV_FOREACH(symlink, i->symlinks) {
j = path_join(prefix[t], *symlink);
if (!j)
return -ENOMEM;
r = strv_consume(&l, j);
if (r < 0)
return r;
}
}
}
*ret = TAKE_PTR(l);
return 0;
}
int exec_context_get_clean_mask(ExecContext *c, ExecCleanMask *ret) {
ExecCleanMask mask = 0;
assert(c);
assert(ret);
for (ExecDirectoryType t = 0; t < _EXEC_DIRECTORY_TYPE_MAX; t++)
if (c->directories[t].n_items > 0)
mask |= 1U << t;
*ret = mask;
return 0;
}
int exec_context_get_oom_score_adjust(const ExecContext *c) {
int n = 0, r;
assert(c);
if (c->oom_score_adjust_set)
return c->oom_score_adjust;
r = get_oom_score_adjust(&n);
if (r < 0)
log_debug_errno(r, "Failed to read /proc/self/oom_score_adj, ignoring: %m");
return n;
}
uint64_t exec_context_get_coredump_filter(const ExecContext *c) {
_cleanup_free_ char *t = NULL;
uint64_t n = COREDUMP_FILTER_MASK_DEFAULT;
int r;
assert(c);
if (c->coredump_filter_set)
return c->coredump_filter;
r = read_one_line_file("/proc/self/coredump_filter", &t);
if (r < 0)
log_debug_errno(r, "Failed to read /proc/self/coredump_filter, ignoring: %m");
else {
r = safe_atoux64(t, &n);
if (r < 0)
log_debug_errno(r, "Failed to parse \"%s\" from /proc/self/coredump_filter, ignoring: %m", t);
}
return n;
}
int exec_context_get_nice(const ExecContext *c) {
int n;
assert(c);
if (c->nice_set)
return c->nice;
errno = 0;
n = getpriority(PRIO_PROCESS, 0);
if (errno > 0) {
log_debug_errno(errno, "Failed to get process nice value, ignoring: %m");
n = 0;
}
return n;
}
int exec_context_get_cpu_sched_policy(const ExecContext *c) {
int n;
assert(c);
if (c->cpu_sched_set)
return c->cpu_sched_policy;
n = sched_getscheduler(0);
if (n < 0)
log_debug_errno(errno, "Failed to get scheduler policy, ignoring: %m");
return n < 0 ? SCHED_OTHER : n;
}
int exec_context_get_cpu_sched_priority(const ExecContext *c) {
struct sched_param p = {};
int r;
assert(c);
if (c->cpu_sched_set)
return c->cpu_sched_priority;
r = sched_getparam(0, &p);
if (r < 0)
log_debug_errno(errno, "Failed to get scheduler priority, ignoring: %m");
return r >= 0 ? p.sched_priority : 0;
}
uint64_t exec_context_get_timer_slack_nsec(const ExecContext *c) {
int r;
assert(c);
if (c->timer_slack_nsec != NSEC_INFINITY)
return c->timer_slack_nsec;
r = prctl(PR_GET_TIMERSLACK);
if (r < 0)
log_debug_errno(r, "Failed to get timer slack, ignoring: %m");
return (uint64_t) MAX(r, 0);
}
bool exec_context_get_set_login_environment(const ExecContext *c) {
assert(c);
if (c->set_login_environment >= 0)
return c->set_login_environment;
return c->user || c->dynamic_user || c->pam_name;
}
char** exec_context_get_syscall_filter(const ExecContext *c) {
_cleanup_strv_free_ char **l = NULL;
assert(c);
#if HAVE_SECCOMP
void *id, *val;
HASHMAP_FOREACH_KEY(val, id, c->syscall_filter) {
_cleanup_free_ char *name = NULL;
const char *e = NULL;
char *s;
int num = PTR_TO_INT(val);
if (c->syscall_allow_list && num >= 0)
/* syscall with num >= 0 in allow-list is denied. */
continue;
name = seccomp_syscall_resolve_num_arch(SCMP_ARCH_NATIVE, PTR_TO_INT(id) - 1);
if (!name)
continue;
if (num >= 0) {
e = seccomp_errno_or_action_to_string(num);
if (e) {
s = strjoin(name, ":", e);
if (!s)
return NULL;
} else {
if (asprintf(&s, "%s:%d", name, num) < 0)
return NULL;
}
} else
s = TAKE_PTR(name);
if (strv_consume(&l, s) < 0)
return NULL;
}
strv_sort(l);
#endif
return l ? TAKE_PTR(l) : strv_new(NULL);
}
char** exec_context_get_syscall_archs(const ExecContext *c) {
_cleanup_strv_free_ char **l = NULL;
assert(c);
#if HAVE_SECCOMP
void *id;
SET_FOREACH(id, c->syscall_archs) {
const char *name;
name = seccomp_arch_to_string(PTR_TO_UINT32(id) - 1);
if (!name)
continue;
if (strv_extend(&l, name) < 0)
return NULL;
}
strv_sort(l);
#endif
return l ? TAKE_PTR(l) : strv_new(NULL);
}
char** exec_context_get_syscall_log(const ExecContext *c) {
_cleanup_strv_free_ char **l = NULL;
assert(c);
#if HAVE_SECCOMP
void *id, *val;
HASHMAP_FOREACH_KEY(val, id, c->syscall_log) {
char *name = NULL;
name = seccomp_syscall_resolve_num_arch(SCMP_ARCH_NATIVE, PTR_TO_INT(id) - 1);
if (!name)
continue;
if (strv_consume(&l, name) < 0)
return NULL;
}
strv_sort(l);
#endif
return l ? TAKE_PTR(l) : strv_new(NULL);
}
char** exec_context_get_address_families(const ExecContext *c) {
_cleanup_strv_free_ char **l = NULL;
void *af;
assert(c);
SET_FOREACH(af, c->address_families) {
const char *name;
name = af_to_name(PTR_TO_INT(af));
if (!name)
continue;
if (strv_extend(&l, name) < 0)
return NULL;
}
strv_sort(l);
return l ? TAKE_PTR(l) : strv_new(NULL);
}
char** exec_context_get_restrict_filesystems(const ExecContext *c) {
_cleanup_strv_free_ char **l = NULL;
assert(c);
#if HAVE_LIBBPF
l = set_get_strv(c->restrict_filesystems);
if (!l)
return NULL;
strv_sort(l);
#endif
return l ? TAKE_PTR(l) : strv_new(NULL);
}
void exec_status_start(ExecStatus *s, pid_t pid, const dual_timestamp *ts) {
assert(s);
*s = (ExecStatus) {
.pid = pid,
};
if (ts)
s->start_timestamp = *ts;
else
dual_timestamp_now(&s->start_timestamp);
}
void exec_status_exit(ExecStatus *s, const ExecContext *context, pid_t pid, int code, int status) {
assert(s);
if (s->pid != pid)
*s = (ExecStatus) {
.pid = pid,
};
dual_timestamp_now(&s->exit_timestamp);
s->code = code;
s->status = status;
if (context && context->utmp_id)
(void) utmp_put_dead_process(context->utmp_id, pid, code, status);
}
void exec_status_handoff(ExecStatus *s, const struct ucred *ucred, const dual_timestamp *ts) {
assert(s);
assert(ucred);
assert(ts);
if (ucred->pid != s->pid)
*s = (ExecStatus) {
.pid = ucred->pid,
};
s->handoff_timestamp = *ts;
}
void exec_status_reset(ExecStatus *s) {
assert(s);
*s = (ExecStatus) {};
}
void exec_status_dump(const ExecStatus *s, FILE *f, const char *prefix) {
assert(s);
assert(f);
if (s->pid <= 0)
return;
prefix = strempty(prefix);
fprintf(f,
"%sPID: "PID_FMT"\n",
prefix, s->pid);
if (dual_timestamp_is_set(&s->start_timestamp))
fprintf(f,
"%sStart Timestamp: %s\n",
prefix, FORMAT_TIMESTAMP_STYLE(s->start_timestamp.realtime, TIMESTAMP_US));
if (dual_timestamp_is_set(&s->handoff_timestamp) && dual_timestamp_is_set(&s->start_timestamp) &&
s->handoff_timestamp.monotonic > s->start_timestamp.monotonic)
fprintf(f,
"%sHandoff Timestamp: %s since start\n",
prefix,
FORMAT_TIMESPAN(usec_sub_unsigned(s->handoff_timestamp.monotonic, s->start_timestamp.monotonic), 1));
else
fprintf(f,
"%sHandoff Timestamp: %s\n",
prefix, FORMAT_TIMESTAMP_STYLE(s->handoff_timestamp.realtime, TIMESTAMP_US));
if (dual_timestamp_is_set(&s->exit_timestamp)) {
if (dual_timestamp_is_set(&s->handoff_timestamp) && s->exit_timestamp.monotonic > s->handoff_timestamp.monotonic)
fprintf(f,
"%sExit Timestamp: %s since handoff\n",
prefix,
FORMAT_TIMESPAN(usec_sub_unsigned(s->exit_timestamp.monotonic, s->handoff_timestamp.monotonic), 1));
else if (dual_timestamp_is_set(&s->start_timestamp) && s->exit_timestamp.monotonic > s->start_timestamp.monotonic)
fprintf(f,
"%sExit Timestamp: %s since start\n",
prefix,
FORMAT_TIMESPAN(usec_sub_unsigned(s->exit_timestamp.monotonic, s->start_timestamp.monotonic), 1));
else
fprintf(f,
"%sExit Timestamp: %s\n",
prefix, FORMAT_TIMESTAMP_STYLE(s->exit_timestamp.realtime, TIMESTAMP_US));
fprintf(f,
"%sExit Code: %s\n"
"%sExit Status: %i\n",
prefix, sigchld_code_to_string(s->code),
prefix, s->status);
}
}
void exec_command_dump(ExecCommand *c, FILE *f, const char *prefix) {
_cleanup_free_ char *cmd = NULL;
const char *prefix2;
assert(c);
assert(f);
prefix = strempty(prefix);
prefix2 = strjoina(prefix, "\t");
cmd = quote_command_line(c->argv, SHELL_ESCAPE_EMPTY);
fprintf(f,
"%sCommand Line: %s\n",
prefix, strnull(cmd));
exec_status_dump(&c->exec_status, f, prefix2);
}
void exec_command_dump_list(ExecCommand *c, FILE *f, const char *prefix) {
assert(f);
prefix = strempty(prefix);
LIST_FOREACH(command, i, c)
exec_command_dump(i, f, prefix);
}
void exec_command_append_list(ExecCommand **l, ExecCommand *e) {
ExecCommand *end;
assert(l);
assert(e);
if (*l) {
/* It's kind of important, that we keep the order here */
end = LIST_FIND_TAIL(command, *l);
LIST_INSERT_AFTER(command, *l, end, e);
} else
*l = e;
}
int exec_command_set(ExecCommand *c, const char *path, ...) {
va_list ap;
char **l, *p;
assert(c);
assert(path);
va_start(ap, path);
l = strv_new_ap(path, ap);
va_end(ap);
if (!l)
return -ENOMEM;
p = strdup(path);
if (!p) {
strv_free(l);
return -ENOMEM;
}
free_and_replace(c->path, p);
return strv_free_and_replace(c->argv, l);
}
int exec_command_append(ExecCommand *c, const char *path, ...) {
char **l;
va_list ap;
int r;
assert(c);
assert(path);
va_start(ap, path);
l = strv_new_ap(path, ap);
va_end(ap);
if (!l)
return -ENOMEM;
r = strv_extend_strv_consume(&c->argv, l, /* filter_duplicates = */ false);
if (r < 0)
return r;
return 0;
}
static char *destroy_tree(char *path) {
if (!path)
return NULL;
if (!path_equal(path, RUN_SYSTEMD_EMPTY)) {
log_debug("Spawning process to nuke '%s'", path);
(void) asynchronous_rm_rf(path, REMOVE_ROOT|REMOVE_SUBVOLUME|REMOVE_PHYSICAL);
}
return mfree(path);
}
void exec_shared_runtime_done(ExecSharedRuntime *rt) {
assert(rt);
if (rt->manager)
(void) hashmap_remove(rt->manager->exec_shared_runtime_by_id, rt->id);
rt->id = mfree(rt->id);
rt->tmp_dir = mfree(rt->tmp_dir);
rt->var_tmp_dir = mfree(rt->var_tmp_dir);
safe_close_pair(rt->netns_storage_socket);
safe_close_pair(rt->ipcns_storage_socket);
}
static ExecSharedRuntime* exec_shared_runtime_free(ExecSharedRuntime *rt) {
if (!rt)
return NULL;
exec_shared_runtime_done(rt);
return mfree(rt);
}
DEFINE_TRIVIAL_UNREF_FUNC(ExecSharedRuntime, exec_shared_runtime, exec_shared_runtime_free);
DEFINE_TRIVIAL_CLEANUP_FUNC(ExecSharedRuntime*, exec_shared_runtime_free);
ExecSharedRuntime* exec_shared_runtime_destroy(ExecSharedRuntime *rt) {
if (!rt)
return NULL;
assert(rt->n_ref > 0);
rt->n_ref--;
if (rt->n_ref > 0)
return NULL;
rt->tmp_dir = destroy_tree(rt->tmp_dir);
rt->var_tmp_dir = destroy_tree(rt->var_tmp_dir);
return exec_shared_runtime_free(rt);
}
static int exec_shared_runtime_allocate(ExecSharedRuntime **ret, const char *id) {
_cleanup_free_ char *id_copy = NULL;
ExecSharedRuntime *n;
assert(ret);
id_copy = strdup(id);
if (!id_copy)
return -ENOMEM;
n = new(ExecSharedRuntime, 1);
if (!n)
return -ENOMEM;
*n = (ExecSharedRuntime) {
.id = TAKE_PTR(id_copy),
.netns_storage_socket = EBADF_PAIR,
.ipcns_storage_socket = EBADF_PAIR,
};
*ret = n;
return 0;
}
static int exec_shared_runtime_add(
Manager *m,
const char *id,
char **tmp_dir,
char **var_tmp_dir,
int netns_storage_socket[2],
int ipcns_storage_socket[2],
ExecSharedRuntime **ret) {
_cleanup_(exec_shared_runtime_freep) ExecSharedRuntime *rt = NULL;
int r;
assert(m);
assert(id);
/* tmp_dir, var_tmp_dir, {net,ipc}ns_storage_socket fds are donated on success */
r = exec_shared_runtime_allocate(&rt, id);
if (r < 0)
return r;
r = hashmap_ensure_put(&m->exec_shared_runtime_by_id, &string_hash_ops, rt->id, rt);
if (r < 0)
return r;
assert(!!rt->tmp_dir == !!rt->var_tmp_dir); /* We require both to be set together */
rt->tmp_dir = TAKE_PTR(*tmp_dir);
rt->var_tmp_dir = TAKE_PTR(*var_tmp_dir);
if (netns_storage_socket) {
rt->netns_storage_socket[0] = TAKE_FD(netns_storage_socket[0]);
rt->netns_storage_socket[1] = TAKE_FD(netns_storage_socket[1]);
}
if (ipcns_storage_socket) {
rt->ipcns_storage_socket[0] = TAKE_FD(ipcns_storage_socket[0]);
rt->ipcns_storage_socket[1] = TAKE_FD(ipcns_storage_socket[1]);
}
rt->manager = m;
if (ret)
*ret = rt;
/* do not remove created ExecSharedRuntime object when the operation succeeds. */
TAKE_PTR(rt);
return 0;
}
static int exec_shared_runtime_make(
Manager *m,
const ExecContext *c,
const char *id,
ExecSharedRuntime **ret) {
_cleanup_(namespace_cleanup_tmpdirp) char *tmp_dir = NULL, *var_tmp_dir = NULL;
_cleanup_close_pair_ int netns_storage_socket[2] = EBADF_PAIR, ipcns_storage_socket[2] = EBADF_PAIR;
int r;
assert(m);
assert(c);
assert(id);
/* It is not necessary to create ExecSharedRuntime object. */
if (!exec_needs_network_namespace(c) && !exec_needs_ipc_namespace(c) && c->private_tmp != PRIVATE_TMP_CONNECTED) {
*ret = NULL;
return 0;
}
if (c->private_tmp == PRIVATE_TMP_CONNECTED &&
!(prefixed_path_strv_contains(c->inaccessible_paths, "/tmp") &&
(prefixed_path_strv_contains(c->inaccessible_paths, "/var/tmp") ||
prefixed_path_strv_contains(c->inaccessible_paths, "/var")))) {
r = setup_tmp_dirs(id, &tmp_dir, &var_tmp_dir);
if (r < 0)
return r;
}
if (exec_needs_network_namespace(c))
if (socketpair(AF_UNIX, SOCK_DGRAM|SOCK_CLOEXEC, 0, netns_storage_socket) < 0)
return -errno;
if (exec_needs_ipc_namespace(c))
if (socketpair(AF_UNIX, SOCK_DGRAM|SOCK_CLOEXEC, 0, ipcns_storage_socket) < 0)
return -errno;
r = exec_shared_runtime_add(m, id, &tmp_dir, &var_tmp_dir, netns_storage_socket, ipcns_storage_socket, ret);
if (r < 0)
return r;
return 1;
}
int exec_shared_runtime_acquire(Manager *m, const ExecContext *c, const char *id, bool create, ExecSharedRuntime **ret) {
ExecSharedRuntime *rt;
int r;
assert(m);
assert(id);
assert(ret);
rt = hashmap_get(m->exec_shared_runtime_by_id, id);
if (rt)
/* We already have an ExecSharedRuntime object, let's increase the ref count and reuse it */
goto ref;
if (!create) {
*ret = NULL;
return 0;
}
/* If not found, then create a new object. */
r = exec_shared_runtime_make(m, c, id, &rt);
if (r < 0)
return r;
if (r == 0) {
/* When r == 0, it is not necessary to create ExecSharedRuntime object. */
*ret = NULL;
return 0;
}
ref:
/* increment reference counter. */
rt->n_ref++;
*ret = rt;
return 1;
}
int exec_shared_runtime_serialize(const Manager *m, FILE *f, FDSet *fds) {
ExecSharedRuntime *rt;
assert(m);
assert(f);
assert(fds);
HASHMAP_FOREACH(rt, m->exec_shared_runtime_by_id) {
fprintf(f, "exec-runtime=%s", rt->id);
if (rt->tmp_dir)
fprintf(f, " tmp-dir=%s", rt->tmp_dir);
if (rt->var_tmp_dir)
fprintf(f, " var-tmp-dir=%s", rt->var_tmp_dir);
if (rt->netns_storage_socket[0] >= 0) {
int copy;
copy = fdset_put_dup(fds, rt->netns_storage_socket[0]);
if (copy < 0)
return copy;
fprintf(f, " netns-socket-0=%i", copy);
}
if (rt->netns_storage_socket[1] >= 0) {
int copy;
copy = fdset_put_dup(fds, rt->netns_storage_socket[1]);
if (copy < 0)
return copy;
fprintf(f, " netns-socket-1=%i", copy);
}
if (rt->ipcns_storage_socket[0] >= 0) {
int copy;
copy = fdset_put_dup(fds, rt->ipcns_storage_socket[0]);
if (copy < 0)
return copy;
fprintf(f, " ipcns-socket-0=%i", copy);
}
if (rt->ipcns_storage_socket[1] >= 0) {
int copy;
copy = fdset_put_dup(fds, rt->ipcns_storage_socket[1]);
if (copy < 0)
return copy;
fprintf(f, " ipcns-socket-1=%i", copy);
}
fputc('\n', f);
}
return 0;
}
int exec_shared_runtime_deserialize_compat(Unit *u, const char *key, const char *value, FDSet *fds) {
_cleanup_(exec_shared_runtime_freep) ExecSharedRuntime *rt_create = NULL;
ExecSharedRuntime *rt = NULL;
int r;
/* This is for the migration from old (v237 or earlier) deserialization text.
* Due to the bug #7790, this may not work with the units that use JoinsNamespaceOf=.
* Even if the ExecSharedRuntime object originally created by the other unit, we cannot judge
* so or not from the serialized text, then we always creates a new object owned by this. */
assert(u);
assert(key);
assert(value);
/* Manager manages ExecSharedRuntime objects by the unit id.
* So, we omit the serialized text when the unit does not have id (yet?)... */
if (isempty(u->id)) {
log_unit_debug(u, "Invocation ID not found. Dropping runtime parameter.");
return 0;
}
if (u->manager) {
if (hashmap_ensure_allocated(&u->manager->exec_shared_runtime_by_id, &string_hash_ops) < 0)
return log_oom();
rt = hashmap_get(u->manager->exec_shared_runtime_by_id, u->id);
}
if (!rt) {
if (exec_shared_runtime_allocate(&rt_create, u->id) < 0)
return log_oom();
rt = rt_create;
}
if (streq(key, "tmp-dir")) {
if (free_and_strdup_warn(&rt->tmp_dir, value) < 0)
return -ENOMEM;
} else if (streq(key, "var-tmp-dir")) {
if (free_and_strdup_warn(&rt->var_tmp_dir, value) < 0)
return -ENOMEM;
} else if (streq(key, "netns-socket-0")) {
safe_close(rt->netns_storage_socket[0]);
rt->netns_storage_socket[0] = deserialize_fd(fds, value);
if (rt->netns_storage_socket[0] < 0)
return 0;
} else if (streq(key, "netns-socket-1")) {
safe_close(rt->netns_storage_socket[1]);
rt->netns_storage_socket[1] = deserialize_fd(fds, value);
if (rt->netns_storage_socket[1] < 0)
return 0;
} else
return 0;
/* If the object is newly created, then put it to the hashmap which manages ExecSharedRuntime objects. */
if (rt_create && u->manager) {
r = hashmap_put(u->manager->exec_shared_runtime_by_id, rt_create->id, rt_create);
if (r < 0) {
log_unit_debug_errno(u, r, "Failed to put runtime parameter to manager's storage: %m");
return 0;
}
rt_create->manager = u->manager;
/* Avoid cleanup */
TAKE_PTR(rt_create);
}
return 1;
}
int exec_shared_runtime_deserialize_one(Manager *m, const char *value, FDSet *fds) {
_cleanup_free_ char *tmp_dir = NULL, *var_tmp_dir = NULL;
char *id = NULL;
int r, netns_fdpair[] = {-1, -1}, ipcns_fdpair[] = {-1, -1};
const char *p, *v = ASSERT_PTR(value);
size_t n;
assert(m);
assert(fds);
n = strcspn(v, " ");
id = strndupa_safe(v, n);
if (v[n] != ' ')
goto finalize;
p = v + n + 1;
v = startswith(p, "tmp-dir=");
if (v) {
n = strcspn(v, " ");
tmp_dir = strndup(v, n);
if (!tmp_dir)
return log_oom();
if (v[n] != ' ')
goto finalize;
p = v + n + 1;
}
v = startswith(p, "var-tmp-dir=");
if (v) {
n = strcspn(v, " ");
var_tmp_dir = strndup(v, n);
if (!var_tmp_dir)
return log_oom();
if (v[n] != ' ')
goto finalize;
p = v + n + 1;
}
v = startswith(p, "netns-socket-0=");
if (v) {
char *buf;
n = strcspn(v, " ");
buf = strndupa_safe(v, n);
netns_fdpair[0] = deserialize_fd(fds, buf);
if (netns_fdpair[0] < 0)
return netns_fdpair[0];
if (v[n] != ' ')
goto finalize;
p = v + n + 1;
}
v = startswith(p, "netns-socket-1=");
if (v) {
char *buf;
n = strcspn(v, " ");
buf = strndupa_safe(v, n);
netns_fdpair[1] = deserialize_fd(fds, buf);
if (netns_fdpair[1] < 0)
return netns_fdpair[1];
if (v[n] != ' ')
goto finalize;
p = v + n + 1;
}
v = startswith(p, "ipcns-socket-0=");
if (v) {
char *buf;
n = strcspn(v, " ");
buf = strndupa_safe(v, n);
ipcns_fdpair[0] = deserialize_fd(fds, buf);
if (ipcns_fdpair[0] < 0)
return ipcns_fdpair[0];
if (v[n] != ' ')
goto finalize;
p = v + n + 1;
}
v = startswith(p, "ipcns-socket-1=");
if (v) {
char *buf;
n = strcspn(v, " ");
buf = strndupa_safe(v, n);
ipcns_fdpair[1] = deserialize_fd(fds, buf);
if (ipcns_fdpair[1] < 0)
return ipcns_fdpair[1];
}
finalize:
r = exec_shared_runtime_add(m, id, &tmp_dir, &var_tmp_dir, netns_fdpair, ipcns_fdpair, NULL);
if (r < 0)
return log_debug_errno(r, "Failed to add exec-runtime: %m");
return 0;
}
void exec_shared_runtime_vacuum(Manager *m) {
ExecSharedRuntime *rt;
assert(m);
/* Free unreferenced ExecSharedRuntime objects. This is used after manager deserialization process. */
HASHMAP_FOREACH(rt, m->exec_shared_runtime_by_id) {
if (rt->n_ref > 0)
continue;
(void) exec_shared_runtime_free(rt);
}
}
int exec_runtime_make(
const Unit *unit,
const ExecContext *context,
ExecSharedRuntime *shared,
DynamicCreds *creds,
ExecRuntime **ret) {
_cleanup_close_pair_ int ephemeral_storage_socket[2] = EBADF_PAIR;
_cleanup_free_ char *ephemeral = NULL;
_cleanup_(exec_runtime_freep) ExecRuntime *rt = NULL;
int r;
assert(unit);
assert(context);
assert(ret);
if (!shared && !creds && !exec_needs_ephemeral(context)) {
*ret = NULL;
return 0;
}
if (exec_needs_ephemeral(context)) {
r = mkdir_p("/var/lib/systemd/ephemeral-trees", 0755);
if (r < 0)
return r;
r = tempfn_random_child("/var/lib/systemd/ephemeral-trees", unit->id, &ephemeral);
if (r < 0)
return r;
if (socketpair(AF_UNIX, SOCK_DGRAM|SOCK_CLOEXEC, 0, ephemeral_storage_socket) < 0)
return -errno;
}
rt = new(ExecRuntime, 1);
if (!rt)
return -ENOMEM;
*rt = (ExecRuntime) {
.shared = shared,
.dynamic_creds = creds,
.ephemeral_copy = TAKE_PTR(ephemeral),
.ephemeral_storage_socket[0] = TAKE_FD(ephemeral_storage_socket[0]),
.ephemeral_storage_socket[1] = TAKE_FD(ephemeral_storage_socket[1]),
};
*ret = TAKE_PTR(rt);
return 1;
}
ExecRuntime* exec_runtime_free(ExecRuntime *rt) {
if (!rt)
return NULL;
exec_shared_runtime_unref(rt->shared);
dynamic_creds_unref(rt->dynamic_creds);
rt->ephemeral_copy = destroy_tree(rt->ephemeral_copy);
safe_close_pair(rt->ephemeral_storage_socket);
return mfree(rt);
}
ExecRuntime* exec_runtime_destroy(ExecRuntime *rt) {
if (!rt)
return NULL;
rt->shared = exec_shared_runtime_destroy(rt->shared);
rt->dynamic_creds = dynamic_creds_destroy(rt->dynamic_creds);
return exec_runtime_free(rt);
}
void exec_runtime_clear(ExecRuntime *rt) {
if (!rt)
return;
safe_close_pair(rt->ephemeral_storage_socket);
rt->ephemeral_copy = mfree(rt->ephemeral_copy);
}
void exec_params_shallow_clear(ExecParameters *p) {
if (!p)
return;
/* This is called on the PID1 side, as many of the struct's FDs are only borrowed, and actually
* owned by the manager or other objects, and reused across multiple units. */
p->environment = strv_free(p->environment);
p->fd_names = strv_free(p->fd_names);
p->files_env = strv_free(p->files_env);
p->fds = mfree(p->fds);
p->exec_fd = safe_close(p->exec_fd);
p->user_lookup_fd = -EBADF;
p->bpf_restrict_fs_map_fd = -EBADF;
p->unit_id = mfree(p->unit_id);
p->invocation_id = SD_ID128_NULL;
p->invocation_id_string[0] = '\0';
p->confirm_spawn = mfree(p->confirm_spawn);
}
void exec_params_deep_clear(ExecParameters *p) {
if (!p)
return;
/* This is called on the sd-executor side, where everything received is owned by the process and has
* to be fully cleaned up to make sanitizers and analyzers happy, as opposed as the shallow clean
* function above. */
close_many_unset(p->fds, p->n_socket_fds + p->n_storage_fds + p->n_extra_fds);
p->cgroup_path = mfree(p->cgroup_path);
if (p->prefix) {
free_many_charp(p->prefix, _EXEC_DIRECTORY_TYPE_MAX);
p->prefix = mfree(p->prefix);
}
p->received_credentials_directory = mfree(p->received_credentials_directory);
p->received_encrypted_credentials_directory = mfree(p->received_encrypted_credentials_directory);
if (p->idle_pipe) {
close_many_and_free(p->idle_pipe, 4);
p->idle_pipe = NULL;
}
p->stdin_fd = safe_close(p->stdin_fd);
p->stdout_fd = safe_close(p->stdout_fd);
p->stderr_fd = safe_close(p->stderr_fd);
p->notify_socket = mfree(p->notify_socket);
open_file_free_many(&p->open_files);
p->fallback_smack_process_label = mfree(p->fallback_smack_process_label);
exec_params_shallow_clear(p);
}
void exec_directory_done(ExecDirectory *d) {
if (!d)
return;
FOREACH_ARRAY(i, d->items, d->n_items) {
free(i->path);
strv_free(i->symlinks);
}
d->items = mfree(d->items);
d->n_items = 0;
d->mode = 0755;
}
static ExecDirectoryItem *exec_directory_find(ExecDirectory *d, const char *path) {
assert(d);
assert(path);
FOREACH_ARRAY(i, d->items, d->n_items)
if (path_equal(i->path, path))
return i;
return NULL;
}
int exec_directory_add(ExecDirectory *d, const char *path, const char *symlink, ExecDirectoryFlags flags) {
_cleanup_strv_free_ char **s = NULL;
_cleanup_free_ char *p = NULL;
ExecDirectoryItem *existing;
int r;
assert(d);
assert(path);
existing = exec_directory_find(d, path);
if (existing) {
r = strv_extend(&existing->symlinks, symlink);
if (r < 0)
return r;
existing->flags |= flags;
return 0; /* existing item is updated */
}
p = strdup(path);
if (!p)
return -ENOMEM;
if (symlink) {
s = strv_new(symlink);
if (!s)
return -ENOMEM;
}
if (!GREEDY_REALLOC(d->items, d->n_items + 1))
return -ENOMEM;
d->items[d->n_items++] = (ExecDirectoryItem) {
.path = TAKE_PTR(p),
.symlinks = TAKE_PTR(s),
.flags = flags,
};
return 1; /* new item is added */
}
static int exec_directory_item_compare_func(const ExecDirectoryItem *a, const ExecDirectoryItem *b) {
assert(a);
assert(b);
return path_compare(a->path, b->path);
}
void exec_directory_sort(ExecDirectory *d) {
assert(d);
/* Sort the exec directories to make always parent directories processed at first in
* setup_exec_directory(), e.g., even if StateDirectory=foo/bar foo, we need to create foo at first,
* then foo/bar. Also, set the ONLY_CREATE flag if one of the parent directories is contained in the
* list. See also comments in setup_exec_directory() and issue #24783. */
if (d->n_items <= 1)
return;
typesafe_qsort(d->items, d->n_items, exec_directory_item_compare_func);
for (size_t i = 1; i < d->n_items; i++)
for (size_t j = 0; j < i; j++)
if (path_startswith(d->items[i].path, d->items[j].path)) {
d->items[i].flags |= EXEC_DIRECTORY_ONLY_CREATE;
break;
}
}
ExecCleanMask exec_clean_mask_from_string(const char *s) {
ExecDirectoryType t;
assert(s);
if (streq(s, "all"))
return EXEC_CLEAN_ALL;
if (streq(s, "fdstore"))
return EXEC_CLEAN_FDSTORE;
t = exec_resource_type_from_string(s);
if (t < 0)
return (ExecCleanMask) t;
return 1U << t;
}
static const char* const exec_input_table[_EXEC_INPUT_MAX] = {
[EXEC_INPUT_NULL] = "null",
[EXEC_INPUT_TTY] = "tty",
[EXEC_INPUT_TTY_FORCE] = "tty-force",
[EXEC_INPUT_TTY_FAIL] = "tty-fail",
[EXEC_INPUT_SOCKET] = "socket",
[EXEC_INPUT_NAMED_FD] = "fd",
[EXEC_INPUT_DATA] = "data",
[EXEC_INPUT_FILE] = "file",
};
DEFINE_STRING_TABLE_LOOKUP(exec_input, ExecInput);
static const char* const exec_output_table[_EXEC_OUTPUT_MAX] = {
[EXEC_OUTPUT_INHERIT] = "inherit",
[EXEC_OUTPUT_NULL] = "null",
[EXEC_OUTPUT_TTY] = "tty",
[EXEC_OUTPUT_KMSG] = "kmsg",
[EXEC_OUTPUT_KMSG_AND_CONSOLE] = "kmsg+console",
[EXEC_OUTPUT_JOURNAL] = "journal",
[EXEC_OUTPUT_JOURNAL_AND_CONSOLE] = "journal+console",
[EXEC_OUTPUT_SOCKET] = "socket",
[EXEC_OUTPUT_NAMED_FD] = "fd",
[EXEC_OUTPUT_FILE] = "file",
[EXEC_OUTPUT_FILE_APPEND] = "append",
[EXEC_OUTPUT_FILE_TRUNCATE] = "truncate",
};
DEFINE_STRING_TABLE_LOOKUP(exec_output, ExecOutput);
static const char* const exec_utmp_mode_table[_EXEC_UTMP_MODE_MAX] = {
[EXEC_UTMP_INIT] = "init",
[EXEC_UTMP_LOGIN] = "login",
[EXEC_UTMP_USER] = "user",
};
DEFINE_STRING_TABLE_LOOKUP(exec_utmp_mode, ExecUtmpMode);
static const char* const exec_preserve_mode_table[_EXEC_PRESERVE_MODE_MAX] = {
[EXEC_PRESERVE_NO] = "no",
[EXEC_PRESERVE_YES] = "yes",
[EXEC_PRESERVE_RESTART] = "restart",
};
DEFINE_STRING_TABLE_LOOKUP_WITH_BOOLEAN(exec_preserve_mode, ExecPreserveMode, EXEC_PRESERVE_YES);
/* This table maps ExecDirectoryType to the setting it is configured with in the unit */
static const char* const exec_directory_type_table[_EXEC_DIRECTORY_TYPE_MAX] = {
[EXEC_DIRECTORY_RUNTIME] = "RuntimeDirectory",
[EXEC_DIRECTORY_STATE] = "StateDirectory",
[EXEC_DIRECTORY_CACHE] = "CacheDirectory",
[EXEC_DIRECTORY_LOGS] = "LogsDirectory",
[EXEC_DIRECTORY_CONFIGURATION] = "ConfigurationDirectory",
};
DEFINE_STRING_TABLE_LOOKUP(exec_directory_type, ExecDirectoryType);
/* This table maps ExecDirectoryType to the symlink setting it is configured with in the unit */
static const char* const exec_directory_type_symlink_table[_EXEC_DIRECTORY_TYPE_MAX] = {
[EXEC_DIRECTORY_RUNTIME] = "RuntimeDirectorySymlink",
[EXEC_DIRECTORY_STATE] = "StateDirectorySymlink",
[EXEC_DIRECTORY_CACHE] = "CacheDirectorySymlink",
[EXEC_DIRECTORY_LOGS] = "LogsDirectorySymlink",
[EXEC_DIRECTORY_CONFIGURATION] = "ConfigurationDirectorySymlink",
};
DEFINE_STRING_TABLE_LOOKUP(exec_directory_type_symlink, ExecDirectoryType);
static const char* const exec_directory_type_mode_table[_EXEC_DIRECTORY_TYPE_MAX] = {
[EXEC_DIRECTORY_RUNTIME] = "RuntimeDirectoryMode",
[EXEC_DIRECTORY_STATE] = "StateDirectoryMode",
[EXEC_DIRECTORY_CACHE] = "CacheDirectoryMode",
[EXEC_DIRECTORY_LOGS] = "LogsDirectoryMode",
[EXEC_DIRECTORY_CONFIGURATION] = "ConfigurationDirectoryMode",
};
DEFINE_STRING_TABLE_LOOKUP(exec_directory_type_mode, ExecDirectoryType);
/* And this table maps ExecDirectoryType too, but to a generic term identifying the type of resource. This
* one is supposed to be generic enough to be used for unit types that don't use ExecContext and per-unit
* directories, specifically .timer units with their timestamp touch file. */
static const char* const exec_resource_type_table[_EXEC_DIRECTORY_TYPE_MAX] = {
[EXEC_DIRECTORY_RUNTIME] = "runtime",
[EXEC_DIRECTORY_STATE] = "state",
[EXEC_DIRECTORY_CACHE] = "cache",
[EXEC_DIRECTORY_LOGS] = "logs",
[EXEC_DIRECTORY_CONFIGURATION] = "configuration",
};
DEFINE_STRING_TABLE_LOOKUP(exec_resource_type, ExecDirectoryType);
static const char* const exec_keyring_mode_table[_EXEC_KEYRING_MODE_MAX] = {
[EXEC_KEYRING_INHERIT] = "inherit",
[EXEC_KEYRING_PRIVATE] = "private",
[EXEC_KEYRING_SHARED] = "shared",
};
DEFINE_STRING_TABLE_LOOKUP(exec_keyring_mode, ExecKeyringMode);
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