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strongswan/Source/charon/daemon.c

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/**
* @file daemon.c
*
* @brief Implementation of daemon_t and main of IKEv2-Daemon.
*
*/
/*
* Copyright (C) 2005 Jan Hutter, Martin Willi
* Hochschule fuer Technik Rapperswil
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*/
#include <stdio.h>
#include <signal.h>
#include <pthread.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include "daemon.h"
#include <types.h>
#include <utils/allocator.h>
typedef struct private_daemon_t private_daemon_t;
/**
* Private additions to daemon_t, contains threads and internal functions.
*/
struct private_daemon_t {
/**
* Public members of daemon_t.
*/
daemon_t public;
/**
* A logger_t object assigned for daemon things.
*/
logger_t *logger;
/**
* Signal set used for signal handling.
*/
sigset_t signal_set;
/**
* The thread_id of main-thread.
*/
pthread_t main_thread_id;
/**
* Main loop function.
*
* @param this calling object
*/
void (*run) (private_daemon_t *this);
/**
* Initialize the daemon.
*
* @param this calling object
*/
void (*initialize) (private_daemon_t *this);
/**
* Destroy the daemon.
*
* @param this calling object
*/
void (*destroy) (private_daemon_t *this);
};
/**
* One and only instance of the daemon.
*/
daemon_t *charon;
/**
* Implementation of private_daemon_t.run.
*/
static void run(private_daemon_t *this)
{
while(TRUE)
{
int signal_number;
int error;
error = sigwait(&(this->signal_set), &signal_number);
if(error)
{
this->logger->log(this->logger, ERROR, "Error %d when waiting for signal", error);
return;
}
switch (signal_number)
{
case SIGHUP:
{
this->logger->log(this->logger, CONTROL, "Signal of type SIGHUP received. Do nothing");
break;
}
case SIGINT:
{
this->logger->log(this->logger, CONTROL, "Signal of type SIGINT received. Exit main loop");
return;
}
case SIGTERM:
this->logger->log(this->logger, CONTROL, "Signal of type SIGTERM received. Exit main loop");
return;
default:
{
this->logger->log(this->logger, CONTROL, "Unknown signal %d received. Do nothing", signal_number);
break;
}
}
}
}
/**
* Implementation of daemon_t.kill.
*/
static void kill_daemon(private_daemon_t *this, char *reason)
{
/* we send SIGTERM, so the daemon can cleanly shut down */
this->logger->log(this->logger, CONTROL, "Killing daemon: %s", reason);
if (this->main_thread_id == pthread_self())
{
/* initialization failed, terminate daemon */
this->destroy(this);
unlink(PID_FILE);
exit(-1);
}
else
{
this->logger->log(this->logger, CONTROL, "sending SIGTERM to ourself", reason);
kill(0, SIGTERM);
/* thread must die, since he produced a ciritcal failure and can't continue */
pthread_exit(NULL);
}
}
/**
* Implementation of private_daemon_t.initialize.
*/
static void initialize(private_daemon_t *this)
{
this->public.configuration = configuration_create();
this->public.socket = socket_create(IKEV2_UDP_PORT);
this->public.ike_sa_manager = ike_sa_manager_create();
this->public.job_queue = job_queue_create();
this->public.event_queue = event_queue_create();
this->public.send_queue = send_queue_create();
this->public.stroke = stroke_create();
this->public.connections = &this->public.stroke->connections;
this->public.policies = &this->public.stroke->policies;
this->public.credentials = &this->public.stroke->credentials;
this->public.sender = sender_create();
this->public.receiver = receiver_create();
this->public.scheduler = scheduler_create();
this->public.kernel_interface = kernel_interface_create();
this->public.thread_pool = thread_pool_create(NUMBER_OF_WORKING_THREADS);
}
/**
* Destory all initiated objects
*/
static void destroy(private_daemon_t *this)
{
if (this->public.ike_sa_manager != NULL)
{
this->public.ike_sa_manager->destroy(this->public.ike_sa_manager);
}
if (this->public.kernel_interface != NULL)
{
this->public.kernel_interface->destroy(this->public.kernel_interface);
}
if (this->public.receiver != NULL)
{
this->public.receiver->destroy(this->public.receiver);
}
if (this->public.scheduler != NULL)
{
this->public.scheduler->destroy(this->public.scheduler);
}
if (this->public.sender != NULL)
{
this->public.sender->destroy(this->public.sender);
}
if (this->public.thread_pool != NULL)
{
this->public.thread_pool->destroy(this->public.thread_pool);
}
if (this->public.job_queue != NULL)
{
this->public.job_queue->destroy(this->public.job_queue);
}
if (this->public.event_queue != NULL)
{
this->public.event_queue->destroy(this->public.event_queue);
}
if (this->public.send_queue != NULL)
{
this->public.send_queue->destroy(this->public.send_queue);
}
if (this->public.socket != NULL)
{
this->public.socket->destroy(this->public.socket);
}
if (this->public.configuration != NULL)
{
this->public.configuration->destroy(this->public.configuration);
}
if (this->public.credentials != NULL)
{
this->public.credentials->destroy(this->public.credentials);
}
if (this->public.connections != NULL)
{
this->public.connections->destroy(this->public.connections);
}
if (this->public.policies != NULL)
{
this->public.policies->destroy(this->public.policies);
}
if (this->public.stroke != NULL)
{
this->public.stroke->destroy(this->public.stroke);
}
this->public.logger_manager->destroy(this->public.logger_manager);
allocator_free(this);
}
/**
* @brief Create the daemon.
*
* @return created daemon_t
*/
private_daemon_t *daemon_create()
{
private_daemon_t *this = allocator_alloc_thing(private_daemon_t);
/* assign methods */
this->run = run;
this->destroy = destroy;
this->initialize = initialize;
this->public.kill = (void (*) (daemon_t*,char*))kill_daemon;
/* first build a logger */
this->public.logger_manager = logger_manager_create(DEFAULT_LOGLEVEL);
this->logger = (this->public.logger_manager)->get_logger(this->public.logger_manager, DAEMON);
/* NULL members for clean destruction */
this->public.socket = NULL;
this->public.ike_sa_manager = NULL;
this->public.job_queue = NULL;
this->public.event_queue = NULL;
this->public.send_queue = NULL;
this->public.configuration = NULL;
this->public.credentials = NULL;
this->public.connections = NULL;
this->public.policies = NULL;
this->public.sender= NULL;
this->public.receiver = NULL;
this->public.scheduler = NULL;
this->public.kernel_interface = NULL;
this->public.thread_pool = NULL;
this->public.stroke = NULL;
this->main_thread_id = pthread_self();
/* setup signal handling */
sigemptyset(&(this->signal_set));
sigaddset(&(this->signal_set), SIGINT);
sigaddset(&(this->signal_set), SIGHUP);
sigaddset(&(this->signal_set), SIGTERM);
pthread_sigmask(SIG_BLOCK, &(this->signal_set), 0);
return this;
}
/**
* Main function, manages the daemon.
*/
int main(int argc, char *argv[])
{
private_daemon_t *private_charon;
FILE *pid_file;
struct stat stb;
/* allocation needs initialization, before any allocs are done */
allocator_init();
private_charon = daemon_create();
charon = (daemon_t*)private_charon;
/* check/setup PID file */
if (stat(PID_FILE, &stb) == 0)
{
private_charon->logger->log(private_charon->logger, ERROR,
"charon already running (\""PID_FILE"\" exists)");
private_charon->destroy(private_charon);
exit(-1);
}
pid_file = fopen(PID_FILE, "w");
if (pid_file)
{
fprintf(pid_file, "%d\n", getpid());
fclose(pid_file);
}
/* initialize and run daemon*/
private_charon->initialize(private_charon);
private_charon->run(private_charon);
/* normal termination, cleanup and exit */
private_charon->destroy(private_charon);
unlink(PID_FILE);
#ifdef LEAK_DETECTIVE
report_memory_leaks(void);
#endif
exit(0);
}
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