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authorLennart Poettering <lennart@poettering.net>2016-08-01 19:24:40 +0200
committerLennart Poettering <lennart@poettering.net>2016-08-19 00:37:25 +0200
commit00d9ef8560c252d8504be99cb38d1a54d35a9144 (patch)
tree388323761f8f32b4ec3b83a017a8931c4fd450b9 /src/core/unit.c
parent51d73fd96a55810ca40324eec098e66c6657699b (diff)
core: add RemoveIPC= setting
This adds the boolean RemoveIPC= setting to service, socket, mount and swap units (i.e. all unit types that may invoke processes). if turned on, and the unit's user/group is not root, all IPC objects of the user/group are removed when the service is shut down. The life-cycle of the IPC objects is hence bound to the unit life-cycle. This is particularly relevant for units with dynamic users, as it is essential that no objects owned by the dynamic users survive the service exiting. In fact, this patch adds code to imply RemoveIPC= if DynamicUser= is set. In order to communicate the UID/GID of an executed process back to PID 1 this adds a new "user lookup" socket pair, that is inherited into the forked processes, and closed before the exec(). This is needed since we cannot do NSS from PID 1 due to deadlock risks, However need to know the used UID/GID in order to clean up IPC owned by it if the unit shuts down.
Diffstat (limited to 'src/core/unit.c')
-rw-r--r--src/core/unit.c174
1 files changed, 173 insertions, 1 deletions
diff --git a/src/core/unit.c b/src/core/unit.c
index 952604e0db..4b8d81c3f1 100644
--- a/src/core/unit.c
+++ b/src/core/unit.c
@@ -100,7 +100,8 @@ Unit *unit_new(Manager *m, size_t size) {
u->on_failure_job_mode = JOB_REPLACE;
u->cgroup_inotify_wd = -1;
u->job_timeout = USEC_INFINITY;
- u->sigchldgen = 0;
+ u->ref_uid = UID_INVALID;
+ u->ref_gid = GID_INVALID;
RATELIMIT_INIT(u->start_limit, m->default_start_limit_interval, m->default_start_limit_burst);
RATELIMIT_INIT(u->auto_stop_ratelimit, 10 * USEC_PER_SEC, 16);
@@ -550,6 +551,8 @@ void unit_free(Unit *u) {
unit_release_cgroup(u);
+ unit_unref_uid_gid(u, false);
+
(void) manager_update_failed_units(u->manager, u, false);
set_remove(u->manager->startup_units, u);
@@ -2614,6 +2617,11 @@ int unit_serialize(Unit *u, FILE *f, FDSet *fds, bool serialize_jobs) {
unit_serialize_item(u, f, "cgroup", u->cgroup_path);
unit_serialize_item(u, f, "cgroup-realized", yes_no(u->cgroup_realized));
+ if (uid_is_valid(u->ref_uid))
+ unit_serialize_item_format(u, f, "ref-uid", UID_FMT, u->ref_uid);
+ if (gid_is_valid(u->ref_gid))
+ unit_serialize_item_format(u, f, "ref-gid", GID_FMT, u->ref_gid);
+
if (serialize_jobs) {
if (u->job) {
fprintf(f, "job\n");
@@ -2851,6 +2859,28 @@ int unit_deserialize(Unit *u, FILE *f, FDSet *fds) {
u->cgroup_realized = b;
continue;
+
+ } else if (streq(l, "ref-uid")) {
+ uid_t uid;
+
+ r = parse_uid(v, &uid);
+ if (r < 0)
+ log_unit_debug(u, "Failed to parse referenced UID %s, ignoring.", v);
+ else
+ unit_ref_uid_gid(u, uid, GID_INVALID);
+
+ continue;
+
+ } else if (streq(l, "ref-gid")) {
+ gid_t gid;
+
+ r = parse_gid(v, &gid);
+ if (r < 0)
+ log_unit_debug(u, "Failed to parse referenced GID %s, ignoring.", v);
+ else
+ unit_ref_uid_gid(u, UID_INVALID, gid);
+
+ continue;
}
if (unit_can_serialize(u)) {
@@ -3310,6 +3340,7 @@ int unit_patch_contexts(Unit *u) {
}
ec->private_tmp = true;
+ ec->remove_ipc = true;
}
}
@@ -3932,3 +3963,144 @@ pid_t unit_main_pid(Unit *u) {
return 0;
}
+
+static void unit_unref_uid_internal(
+ Unit *u,
+ uid_t *ref_uid,
+ bool destroy_now,
+ void (*_manager_unref_uid)(Manager *m, uid_t uid, bool destroy_now)) {
+
+ assert(u);
+ assert(ref_uid);
+ assert(_manager_unref_uid);
+
+ /* Generic implementation of both unit_unref_uid() and unit_unref_gid(), under the assumption that uid_t and
+ * gid_t are actually the same time, with the same validity rules.
+ *
+ * Drops a reference to UID/GID from a unit. */
+
+ assert_cc(sizeof(uid_t) == sizeof(gid_t));
+ assert_cc(UID_INVALID == (uid_t) GID_INVALID);
+
+ if (!uid_is_valid(*ref_uid))
+ return;
+
+ _manager_unref_uid(u->manager, *ref_uid, destroy_now);
+ *ref_uid = UID_INVALID;
+}
+
+void unit_unref_uid(Unit *u, bool destroy_now) {
+ unit_unref_uid_internal(u, &u->ref_uid, destroy_now, manager_unref_uid);
+}
+
+void unit_unref_gid(Unit *u, bool destroy_now) {
+ unit_unref_uid_internal(u, (uid_t*) &u->ref_gid, destroy_now, manager_unref_gid);
+}
+
+static int unit_ref_uid_internal(
+ Unit *u,
+ uid_t *ref_uid,
+ uid_t uid,
+ bool clean_ipc,
+ int (*_manager_ref_uid)(Manager *m, uid_t uid, bool clean_ipc)) {
+
+ int r;
+
+ assert(u);
+ assert(ref_uid);
+ assert(uid_is_valid(uid));
+ assert(_manager_ref_uid);
+
+ /* Generic implementation of both unit_ref_uid() and unit_ref_guid(), under the assumption that uid_t and gid_t
+ * are actually the same type, and have the same validity rules.
+ *
+ * Adds a reference on a specific UID/GID to this unit. Each unit referencing the same UID/GID maintains a
+ * reference so that we can destroy the UID/GID's IPC resources as soon as this is requested and the counter
+ * drops to zero. */
+
+ assert_cc(sizeof(uid_t) == sizeof(gid_t));
+ assert_cc(UID_INVALID == (uid_t) GID_INVALID);
+
+ if (*ref_uid == uid)
+ return 0;
+
+ if (uid_is_valid(*ref_uid)) /* Already set? */
+ return -EBUSY;
+
+ r = _manager_ref_uid(u->manager, uid, clean_ipc);
+ if (r < 0)
+ return r;
+
+ *ref_uid = uid;
+ return 1;
+}
+
+int unit_ref_uid(Unit *u, uid_t uid, bool clean_ipc) {
+ return unit_ref_uid_internal(u, &u->ref_uid, uid, clean_ipc, manager_ref_uid);
+}
+
+int unit_ref_gid(Unit *u, gid_t gid, bool clean_ipc) {
+ return unit_ref_uid_internal(u, (uid_t*) &u->ref_gid, (uid_t) gid, clean_ipc, manager_ref_gid);
+}
+
+static int unit_ref_uid_gid_internal(Unit *u, uid_t uid, gid_t gid, bool clean_ipc) {
+ int r = 0, q = 0;
+
+ assert(u);
+
+ /* Reference both a UID and a GID in one go. Either references both, or neither. */
+
+ if (uid_is_valid(uid)) {
+ r = unit_ref_uid(u, uid, clean_ipc);
+ if (r < 0)
+ return r;
+ }
+
+ if (gid_is_valid(gid)) {
+ q = unit_ref_gid(u, gid, clean_ipc);
+ if (q < 0) {
+ if (r > 0)
+ unit_unref_uid(u, false);
+
+ return q;
+ }
+ }
+
+ return r > 0 || q > 0;
+}
+
+int unit_ref_uid_gid(Unit *u, uid_t uid, gid_t gid) {
+ ExecContext *c;
+ int r;
+
+ assert(u);
+
+ c = unit_get_exec_context(u);
+
+ r = unit_ref_uid_gid_internal(u, uid, gid, c ? c->remove_ipc : false);
+ if (r < 0)
+ return log_unit_warning_errno(u, r, "Couldn't add UID/GID reference to unit, proceeding without: %m");
+
+ return r;
+}
+
+void unit_unref_uid_gid(Unit *u, bool destroy_now) {
+ assert(u);
+
+ unit_unref_uid(u, destroy_now);
+ unit_unref_gid(u, destroy_now);
+}
+
+void unit_notify_user_lookup(Unit *u, uid_t uid, gid_t gid) {
+ int r;
+
+ assert(u);
+
+ /* This is invoked whenever one of the forked off processes let's us know the UID/GID its user name/group names
+ * resolved to. We keep track of which UID/GID is currently assigned in order to be able to destroy its IPC
+ * objects when no service references the UID/GID anymore. */
+
+ r = unit_ref_uid_gid(u, uid, gid);
+ if (r > 0)
+ bus_unit_send_change_signal(u);
+}