1
0
Fork 0
mirror of https://github.com/pygos/init.git synced 2024-11-05 20:27:09 +01:00
init/initd/supervisor.c
David Oberhollenzer 028394b8a5 Add service configuration reloading
This commit add the ability to initd to reload the service configuration
while running. The new configuration is merged with the existing one as
follows:

For each target:
 - If the existing service list is not NULL, we have not started that
   target yet. Simply replace it with the new list.
 - If it is NULL, the services have already been started.
    - First, remove all entries for services in that target that no
      loner exist (except from the 'running' list).
    - Second, add new services that we don't have yet. Treat them as
      recently diseased and let the user start them manualy.

Signed-off-by: David Oberhollenzer <goliath@infraroot.at>
2019-03-29 21:00:53 +01:00

344 lines
6.8 KiB
C

/* SPDX-License-Identifier: ISC */
#include "init.h"
static service_list_t cfg;
static int service_id = 1;
static int target = -1;
static service_t *running = NULL;
static service_t *terminated = NULL;
static service_t *queue = NULL;
static service_t *completed = NULL;
static service_t *failed = NULL;
static int singleshot = 0;
static bool waiting = false;
static bool find_service(service_t *list, service_t *svc)
{
while (list != NULL) {
if (strcmp(list->fname, svc->fname) == 0)
return true;
list = list->next;
}
return false;
}
static void remove_not_in_list(service_t **current, service_t *list, int tgt)
{
service_t *it = *current, *prev = NULL;
while (it != NULL) {
if (it->target == tgt && !find_service(list, it)) {
if (prev == NULL) {
delsvc(it);
*current = (*current)->next;
it = *current;
} else {
prev->next = it->next;
delsvc(it);
it = prev->next;
}
} else {
prev = it;
it = it->next;
}
}
}
static bool have_service(service_t *svc)
{
return find_service(running, svc) || find_service(terminated, svc) ||
find_service(queue, svc) || find_service(completed, svc) ||
find_service(failed, svc);
}
static int start_service(service_t *svc)
{
if (svc->id < 1)
svc->id = service_id++;
svc->pid = runsvc(svc);
if (svc->pid == -1) {
print_status(svc->desc, STATUS_FAIL, false);
svc->next = completed;
completed = svc;
return -1;
}
svc->next = running;
running = svc;
return 0;
}
static void handle_terminated_service(service_t *svc)
{
switch (svc->type) {
case SVC_RESPAWN:
if (target == TGT_REBOOT || target == TGT_SHUTDOWN)
break;
if (svc->flags & SVC_FLAG_ADMIN_STOPPED)
break;
if (svc->rspwn_limit > 0) {
svc->rspwn_limit -= 1;
if (svc->rspwn_limit == 0) {
print_status(svc->desc, STATUS_FAIL, false);
goto out_failure;
}
}
start_service(svc);
return;
case SVC_WAIT:
waiting = false;
print_status(svc->desc,
svc->status == EXIT_SUCCESS ?
STATUS_OK : STATUS_FAIL, true);
if (singleshot == 0 && queue == NULL)
target_completed(target);
if (svc->status != EXIT_SUCCESS)
goto out_failure;
break;
case SVC_ONCE:
singleshot -= 1;
print_status(svc->desc,
svc->status == EXIT_SUCCESS ?
STATUS_OK : STATUS_FAIL, false);
if (singleshot == 0 && queue == NULL && !waiting)
target_completed(target);
if (svc->status != EXIT_SUCCESS)
goto out_failure;
break;
}
svc->next = completed;
completed = svc;
return;
out_failure:
svc->next = failed;
failed = svc;
}
void supervisor_handle_exited(pid_t pid, int status)
{
service_t *prev = NULL, *svc = running;
while (svc != NULL && svc->pid != pid) {
prev = svc;
svc = svc->next;
}
if (svc == NULL)
return;
if (prev != NULL) {
prev->next = svc->next;
} else {
running = svc->next;
}
svc->status = status;
svc->next = terminated;
terminated = svc;
}
void supervisor_set_target(int next)
{
service_t *svc;
if (target == TGT_REBOOT || target == TGT_SHUTDOWN || next == target)
return;
if (next == TGT_REBOOT || next == TGT_SHUTDOWN) {
while (queue != NULL) {
svc = queue;
queue = queue->next;
delsvc(svc);
}
}
if (queue != NULL) {
for (svc = queue; svc->next != NULL; svc = svc->next)
;
svc->next = cfg.targets[next];
} else {
queue = cfg.targets[next];
}
cfg.targets[next] = NULL;
target = next;
}
void supervisor_init(void)
{
int status = STATUS_OK;
if (svcscan(SVCDIR, &cfg, RDSVC_NO_EXEC | RDSVC_NO_CTTY))
status = STATUS_FAIL;
target = TGT_BOOT;
queue = cfg.targets[TGT_BOOT];
cfg.targets[TGT_BOOT] = NULL;
print_status("reading configuration from " SVCDIR, status, false);
}
void supervisor_reload_config(void)
{
service_list_t newcfg;
service_t *svc;
int i;
if (svcscan(SVCDIR, &newcfg, RDSVC_NO_EXEC | RDSVC_NO_CTTY))
return;
for (i = 0; i < TGT_MAX; ++i) {
if (cfg.targets[i] == NULL) {
remove_not_in_list(&queue, newcfg.targets[i], i);
remove_not_in_list(&terminated, newcfg.targets[i], i);
remove_not_in_list(&completed, newcfg.targets[i], i);
remove_not_in_list(&failed, newcfg.targets[i], i);
while (newcfg.targets[i] != NULL) {
svc = newcfg.targets[i];
newcfg.targets[i] = svc->next;
if (have_service(svc)) {
delsvc(svc);
} else {
svc->id = service_id++;
svc->status = EXIT_SUCCESS;
svc->next = completed;
completed = svc;
}
}
} else {
svc = cfg.targets[i];
cfg.targets[i] = newcfg.targets[i];
newcfg.targets[i] = svc;
}
}
del_svc_list(&newcfg);
}
bool supervisor_process_queues(void)
{
service_t *svc;
if (terminated != NULL) {
svc = terminated;
terminated = terminated->next;
handle_terminated_service(svc);
return true;
}
if (waiting || queue == NULL)
return false;
svc = queue;
queue = queue->next;
if (!(svc->flags & SVC_FLAG_HAS_EXEC)) {
print_status(svc->desc, STATUS_OK, false);
svc->status = EXIT_SUCCESS;
svc->next = completed;
completed = svc;
goto out;
}
if (start_service(svc) != 0)
return true;
switch (svc->type) {
case SVC_WAIT:
print_status(svc->desc, STATUS_WAIT, false);
waiting = true;
break;
case SVC_RESPAWN:
print_status(svc->desc, STATUS_STARTED, false);
break;
case SVC_ONCE:
singleshot += 1;
break;
}
out:
if (singleshot == 0 && queue == NULL && !waiting)
target_completed(target);
return true;
}
static int send_svc_list(int fd, const void *dst, size_t addrlen,
E_SERVICE_STATE filter, E_SERVICE_STATE state,
service_t *list)
{
if (filter != ESS_NONE && filter != state)
return 0;
while (list != NULL) {
if (init_socket_send_status(fd, dst, addrlen, state, list))
return -1;
list = list->next;
}
return 0;
}
void supervisor_answer_status_request(int fd, const void *dst, size_t addrlen,
E_SERVICE_STATE filter)
{
if (send_svc_list(fd, dst, addrlen, filter, ESS_RUNNING, running))
return;
if (send_svc_list(fd, dst, addrlen, filter, ESS_DONE, completed))
return;
if (send_svc_list(fd, dst, addrlen, filter, ESS_FAILED, failed))
return;
if (send_svc_list(fd, dst, addrlen, filter, ESS_ENQUEUED, queue))
return;
if (send_svc_list(fd, dst, addrlen, filter, ESS_ENQUEUED, terminated))
return;
init_socket_send_status(fd, dst, addrlen, ESS_NONE, NULL);
}
void supervisor_start(int id)
{
service_t *svc;
for (svc = completed; svc != NULL; svc = svc->next) {
if (svc->id == id)
goto found;
}
for (svc = failed; svc != NULL; svc = svc->next) {
if (svc->id == id)
goto found;
}
return;
found:
if (svc->type == SVC_RESPAWN)
svc->rspwn_limit = 0;
svc->flags &= ~SVC_FLAG_ADMIN_STOPPED;
svc->next = queue;
queue = svc;
}
void supervisor_stop(int id)
{
service_t *svc;
for (svc = running; svc != NULL; svc = svc->next) {
if (svc->id == id)
break;
}
if (svc != NULL) {
/* TODO: something more sophisticated? */
svc->flags |= SVC_FLAG_ADMIN_STOPPED;
kill(svc->pid, SIGTERM);
}
}