corosync/exec/main.c

/*
 * Copyright (c) 2002-2006 MontaVista Software, Inc.
 * Copyright (c) 2006-2009 Red Hat, Inc.
 *
 * All rights reserved.
 *
 * Author: Steven Dake (sdake@redhat.com)
 *
 * This software licensed under BSD license, the text of which follows:
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 *
 * - Redistributions of source code must retain the above copyright notice,
 *   this list of conditions and the following disclaimer.
 * - Redistributions in binary form must reproduce the above copyright notice,
 *   this list of conditions and the following disclaimer in the documentation
 *   and/or other materials provided with the distribution.
 * - Neither the name of the MontaVista Software, Inc. nor the names of its
 *   contributors may be used to endorse or promote products derived from this
 *   software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */

#include <config.h>

#include <pthread.h>
#include <assert.h>
#include <sys/types.h>
#include <sys/file.h>
#include <sys/poll.h>
#include <sys/uio.h>
#include <sys/mman.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <sys/time.h>
#include <sys/resource.h>
#include <sys/stat.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <unistd.h>
#include <fcntl.h>
#include <stdlib.h>
#include <stdio.h>
#include <errno.h>
#include <signal.h>
#include <sched.h>
#include <time.h>
#include <semaphore.h>

#include <corosync/swab.h>
#include <corosync/corotypes.h>
#include <corosync/coroipc_types.h>
#include <corosync/corodefs.h>
#include <corosync/list.h>
#include <corosync/lcr/lcr_ifact.h>
#include <corosync/totem/coropoll.h>
#include <corosync/totem/totempg.h>
#include <corosync/engine/objdb.h>
#include <corosync/engine/config.h>
#include <corosync/engine/logsys.h>
#include <corosync/coroipcs.h>

#include "quorum.h"
#include "totemsrp.h"
#include "mainconfig.h"
#include "totemconfig.h"
#include "main.h"
#include "sync.h"
#include "syncv2.h"
#include "tlist.h"
#include "timer.h"
#include "util.h"
#include "apidef.h"
#include "service.h"
#include "schedwrk.h"
#include "evil.h"

LOGSYS_DECLARE_SYSTEM ("corosync",
	LOGSYS_MODE_OUTPUT_STDERR | LOGSYS_MODE_THREADED | LOGSYS_MODE_FORK,
	0,
	NULL,
	LOG_INFO,
	LOG_DAEMON,
	LOG_INFO,
	NULL,
	1000000);

LOGSYS_DECLARE_SUBSYS ("MAIN");

#define SERVER_BACKLOG 5

static int sched_priority = 0;

static unsigned int service_count = 32;

#if defined(HAVE_PTHREAD_SPIN_LOCK)
static pthread_spinlock_t serialize_spin;
#else
static pthread_mutex_t serialize_mutex = PTHREAD_MUTEX_INITIALIZER;
#endif

static struct totem_logging_configuration totem_logging_configuration;

static int num_config_modules;

static struct config_iface_ver0 *config_modules[MAX_DYNAMIC_SERVICES];

static struct objdb_iface_ver0 *objdb = NULL;

static struct corosync_api_v1 *api = NULL;

static enum cs_sync_mode minimum_sync_mode;

static int sync_in_process = 1;

static hdb_handle_t corosync_poll_handle;

struct sched_param global_sched_param;

static hdb_handle_t object_connection_handle;

static corosync_timer_handle_t corosync_stats_timer_handle;

static pthread_t corosync_exit_thread;

static sem_t corosync_exit_sem;

static const char *corosync_lock_file = LOCALSTATEDIR"/run/corosync.pid";

static int32_t corosync_not_enough_fds_left = 0;

static void serialize_unlock (void);

hdb_handle_t corosync_poll_handle_get (void)
{
	return (corosync_poll_handle);
}

void corosync_state_dump (void)
{
	int i;

	for (i = 0; i < SERVICE_HANDLER_MAXIMUM_COUNT; i++) {
		if (ais_service[i] && ais_service[i]->exec_dump_fn) {
			ais_service[i]->exec_dump_fn ();
		}
	}
}

static void unlink_all_completed (void)
{
	/*
	 * The schedwrk_do API takes the global serializer lock
	 * but doesn't release it because this exit callback is called
	 * before it finishes.  Since we know we are exiting, we unlock it
	 * here
	 */
	serialize_unlock ();
	api->timer_delete (corosync_stats_timer_handle);
	poll_stop (corosync_poll_handle);
	totempg_finalize ();

	/*
	 * Remove pid lock file
	 */
	unlink (corosync_lock_file);

	corosync_exit_error (AIS_DONE_EXIT);
}

void corosync_shutdown_request (void)
{
	static int called = 0;
	if (called) {
		return;
	}
	if (called == 0) {
		called = 1;
	}

	sem_post (&corosync_exit_sem);
}

static void *corosync_exit_thread_handler (void *arg)
{
	sem_wait (&corosync_exit_sem);

	corosync_service_unlink_all (api, unlink_all_completed);

	return arg;
}

static void sigusr2_handler (int num)
{
	/*
	 * TODO remove this from sigusr2 handler and access via cfg service
	 * engine api - corosync-cfgtool
	 */
	corosync_state_dump ();
}

static void sigterm_handler (int num)
{
	corosync_shutdown_request ();
}

static void sigquit_handler (int num)
{
	corosync_shutdown_request ();
}

static void sigintr_handler (int num)
{
	corosync_shutdown_request ();
}

static void sigsegv_handler (int num)
{
	(void)signal (SIGSEGV, SIG_DFL);
	logsys_atexit();
	logsys_log_rec_store (LOCALSTATEDIR "/lib/corosync/fdata");
	raise (SIGSEGV);
}

static void sigabrt_handler (int num)
{
	(void)signal (SIGABRT, SIG_DFL);
	logsys_atexit();
	logsys_log_rec_store (LOCALSTATEDIR "/lib/corosync/fdata");
	raise (SIGABRT);
}

#define LOCALHOST_IP inet_addr("127.0.0.1")

static hdb_handle_t corosync_group_handle;

static struct totempg_group corosync_group = {
	.group		= "a",
	.group_len	= 1
};



#if defined(HAVE_PTHREAD_SPIN_LOCK)
static void serialize_lock (void)
{
	pthread_spin_lock (&serialize_spin);
}

static void serialize_unlock (void)
{
	pthread_spin_unlock (&serialize_spin);
}
#else
static void serialize_lock (void)
{
	pthread_mutex_lock (&serialize_mutex);
}

static void serialize_unlock (void)
{
	pthread_mutex_unlock (&serialize_mutex);
}
#endif

static void corosync_sync_completed (void)
{
	log_printf (LOGSYS_LEVEL_NOTICE,
		"Completed service synchronization, ready to provide service.\n");
	sync_in_process = 0;
}

static int corosync_sync_callbacks_retrieve (int sync_id,
	struct sync_callbacks *callbacks)
{
	unsigned int ais_service_index;
	int res;

	for (ais_service_index = 0;
		ais_service_index < SERVICE_HANDLER_MAXIMUM_COUNT;
		ais_service_index++) {

		if (ais_service[ais_service_index] != NULL
			&& (ais_service[ais_service_index]->sync_mode == CS_SYNC_V1
				|| ais_service[ais_service_index]->sync_mode == CS_SYNC_V1_APIV2)) {
			if (ais_service_index == sync_id) {
				break;
			}
		}
	}
	/*
	 * Try to load backwards compat sync engines
	 */
	if (ais_service_index == SERVICE_HANDLER_MAXIMUM_COUNT) {
		res = evil_callbacks_load (sync_id, callbacks);
		return (res);
	}
	callbacks->name = ais_service[ais_service_index]->name;
	callbacks->sync_init_api.sync_init_v1 = ais_service[ais_service_index]->sync_init;
	callbacks->api_version = 1;
	if (ais_service[ais_service_index]->sync_mode == CS_SYNC_V1_APIV2) {
		callbacks->api_version = 2;
	}
	callbacks->sync_process = ais_service[ais_service_index]->sync_process;
	callbacks->sync_activate = ais_service[ais_service_index]->sync_activate;
	callbacks->sync_abort = ais_service[ais_service_index]->sync_abort;
	return (0);
}

static int corosync_sync_v2_callbacks_retrieve (
	int service_id,
	struct sync_callbacks *callbacks)
{
	int res;

	if (minimum_sync_mode == CS_SYNC_V2 && service_id == CLM_SERVICE && ais_service[CLM_SERVICE] == NULL) {
		res = evil_callbacks_load (service_id, callbacks);
		return (res);
	}
	if (minimum_sync_mode == CS_SYNC_V2 && service_id == EVT_SERVICE && ais_service[EVT_SERVICE] == NULL) {
		res = evil_callbacks_load (service_id, callbacks);
		return (res);
	}
	if (ais_service[service_id] == NULL) {
		return (-1);
	}
	if (minimum_sync_mode == CS_SYNC_V1 && ais_service[service_id]->sync_mode != CS_SYNC_V2) {
		return (-1);
	}

	callbacks->name = ais_service[service_id]->name;

	callbacks->api_version = 1;
	if (ais_service[service_id]->sync_mode == CS_SYNC_V1_APIV2) {
		callbacks->api_version = 2;
	}

	callbacks->sync_init_api.sync_init_v1 = ais_service[service_id]->sync_init;
	callbacks->sync_process = ais_service[service_id]->sync_process;
	callbacks->sync_activate = ais_service[service_id]->sync_activate;
	callbacks->sync_abort = ais_service[service_id]->sync_abort;
	return (0);
}

static struct memb_ring_id corosync_ring_id;

static void confchg_fn (
	enum totem_configuration_type configuration_type,
	const unsigned int *member_list, size_t member_list_entries,
	const unsigned int *left_list, size_t left_list_entries,
	const unsigned int *joined_list, size_t joined_list_entries,
	const struct memb_ring_id *ring_id)
{
	int i;
	int abort_activate = 0;

	if (sync_in_process == 1) {
		abort_activate = 1;
	}
	sync_in_process = 1;
	serialize_lock ();
	memcpy (&corosync_ring_id, ring_id, sizeof (struct memb_ring_id));

	/*
	 * Call configuration change for all services
	 */
	for (i = 0; i < service_count; i++) {
		if (ais_service[i] && ais_service[i]->confchg_fn) {
			ais_service[i]->confchg_fn (configuration_type,
				member_list, member_list_entries,
				left_list, left_list_entries,
				joined_list, joined_list_entries, ring_id);
		}
	}
	serialize_unlock ();

	if (abort_activate) {
		sync_v2_abort ();
	}
	if (minimum_sync_mode == CS_SYNC_V2 && configuration_type == TOTEM_CONFIGURATION_TRANSITIONAL) {
		sync_v2_save_transitional (member_list, member_list_entries, ring_id);
	}
	if (minimum_sync_mode == CS_SYNC_V2 && configuration_type == TOTEM_CONFIGURATION_REGULAR) {
		sync_v2_start (member_list, member_list_entries, ring_id);
	}
}

static void priv_drop (void)
{
	return; /* TODO: we are still not dropping privs */
}

static void corosync_tty_detach (void)
{
	/*
	 * Disconnect from TTY if this is not a debug run
	 */

	switch (fork ()) {
		case -1:
			corosync_exit_error (AIS_DONE_FORK);
			break;
		case 0:
			/*
			 * child which is disconnected, run this process
			 */
			break;
		default:
			exit (0);
			break;
	}

	/* Create new session */
	(void)setsid();

	/*
	 * Map stdin/out/err to /dev/null.
	 */
	freopen("/dev/null", "r", stdin);
	freopen("/dev/null", "a", stderr);
	freopen("/dev/null", "a", stdout);
}

static void corosync_mlockall (void)
{
#if !defined(COROSYNC_BSD) || defined(COROSYNC_FREEBSD_GE_8)
	int res;
#endif
	struct rlimit rlimit;

	rlimit.rlim_cur = RLIM_INFINITY;
	rlimit.rlim_max = RLIM_INFINITY;
#ifndef COROSYNC_SOLARIS
	setrlimit (RLIMIT_MEMLOCK, &rlimit);
#else
	setrlimit (RLIMIT_VMEM, &rlimit);
#endif

#if defined(COROSYNC_BSD) && !defined(COROSYNC_FREEBSD_GE_8)
	/* under FreeBSD < 8 a process with locked page cannot call dlopen
	 * code disabled until FreeBSD bug i386/93396 was solved
	 */
	log_printf (LOGSYS_LEVEL_WARNING, "Could not lock memory of service to avoid page faults\n");
#else
	res = mlockall (MCL_CURRENT | MCL_FUTURE);
	if (res == -1) {
		char error_str[100];
		strerror_r (errno, error_str, 100);
		log_printf (LOGSYS_LEVEL_WARNING,
			"Could not lock memory of service to avoid page faults: %s\n",
			error_str);
	};
#endif
}


static void corosync_totem_stats_updater (void *data)
{
	totempg_stats_t * stats;
	uint32_t mtt_rx_token;
	uint32_t total_mtt_rx_token;
	uint32_t avg_backlog_calc;
	uint32_t total_backlog_calc;
	uint32_t avg_token_holdtime;
	uint32_t total_token_holdtime;
	int t, prev;
	int32_t token_count;

	stats = api->totem_get_stats();

	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"orf_token_tx", strlen("orf_token_tx"),
		&stats->mrp->srp->orf_token_tx, sizeof (stats->mrp->srp->orf_token_tx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"orf_token_rx", strlen("orf_token_rx"),
		&stats->mrp->srp->orf_token_rx, sizeof (stats->mrp->srp->orf_token_rx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"memb_merge_detect_tx", strlen("memb_merge_detect_tx"),
		&stats->mrp->srp->memb_merge_detect_tx, sizeof (stats->mrp->srp->memb_merge_detect_tx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"memb_merge_detect_rx", strlen("memb_merge_detect_rx"),
		&stats->mrp->srp->memb_merge_detect_rx, sizeof (stats->mrp->srp->memb_merge_detect_rx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"memb_join_tx", strlen("memb_join_tx"),
		&stats->mrp->srp->memb_join_tx, sizeof (stats->mrp->srp->memb_join_tx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"memb_join_rx", strlen("memb_join_rx"),
		&stats->mrp->srp->memb_join_rx, sizeof (stats->mrp->srp->memb_join_rx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"mcast_tx", strlen("mcast_tx"),
		&stats->mrp->srp->mcast_tx,	sizeof (stats->mrp->srp->mcast_tx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"mcast_retx", strlen("mcast_retx"),
		&stats->mrp->srp->mcast_retx, sizeof (stats->mrp->srp->mcast_retx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"mcast_rx", strlen("mcast_rx"),
		&stats->mrp->srp->mcast_rx, sizeof (stats->mrp->srp->mcast_rx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"memb_commit_token_tx", strlen("memb_commit_token_tx"),
		&stats->mrp->srp->memb_commit_token_tx, sizeof (stats->mrp->srp->memb_commit_token_tx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"memb_commit_token_rx", strlen("memb_commit_token_rx"),
		&stats->mrp->srp->memb_commit_token_rx, sizeof (stats->mrp->srp->memb_commit_token_rx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"token_hold_cancel_tx", strlen("token_hold_cancel_tx"),
		&stats->mrp->srp->token_hold_cancel_tx, sizeof (stats->mrp->srp->token_hold_cancel_tx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"token_hold_cancel_rx", strlen("token_hold_cancel_rx"),
		&stats->mrp->srp->token_hold_cancel_rx, sizeof (stats->mrp->srp->token_hold_cancel_rx));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"operational_entered", strlen("operational_entered"),
		&stats->mrp->srp->operational_entered, sizeof (stats->mrp->srp->operational_entered));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"operational_token_lost", strlen("operational_token_lost"),
		&stats->mrp->srp->operational_token_lost, sizeof (stats->mrp->srp->operational_token_lost));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"gather_entered", strlen("gather_entered"),
		&stats->mrp->srp->gather_entered, sizeof (stats->mrp->srp->gather_entered));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"gather_token_lost", strlen("gather_token_lost"),
		&stats->mrp->srp->gather_token_lost, sizeof (stats->mrp->srp->gather_token_lost));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"commit_entered", strlen("commit_entered"),
		&stats->mrp->srp->commit_entered, sizeof (stats->mrp->srp->commit_entered));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"commit_token_lost", strlen("commit_token_lost"),
		&stats->mrp->srp->commit_token_lost, sizeof (stats->mrp->srp->commit_token_lost));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"recovery_entered", strlen("recovery_entered"),
		&stats->mrp->srp->recovery_entered, sizeof (stats->mrp->srp->recovery_entered));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"recovery_token_lost", strlen("recovery_token_lost"),
		&stats->mrp->srp->recovery_token_lost, sizeof (stats->mrp->srp->recovery_token_lost));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"consensus_timeouts", strlen("consensus_timeouts"),
		&stats->mrp->srp->consensus_timeouts, sizeof (stats->mrp->srp->consensus_timeouts));
	objdb->object_key_replace (stats->mrp->srp->hdr.handle,
		"rx_msg_dropped", strlen("rx_msg_dropped"),
		&stats->mrp->srp->rx_msg_dropped, sizeof (stats->mrp->srp->rx_msg_dropped));

	total_mtt_rx_token = 0;
	total_token_holdtime = 0;
	total_backlog_calc = 0;
	token_count = 0;
	t = stats->mrp->srp->latest_token;
	while (1) {
		if (t == 0)
			prev = TOTEM_TOKEN_STATS_MAX - 1;
		else
			prev = t - 1;
		if (prev == stats->mrp->srp->earliest_token)
			break;
		/* if tx == 0, then dropped token (not ours) */
		if (stats->mrp->srp->token[t].tx != 0 ||
			(stats->mrp->srp->token[t].rx - stats->mrp->srp->token[prev].rx) > 0 ) {
			total_mtt_rx_token += (stats->mrp->srp->token[t].rx - stats->mrp->srp->token[prev].rx);
			total_token_holdtime += (stats->mrp->srp->token[t].tx - stats->mrp->srp->token[t].rx);
			total_backlog_calc += stats->mrp->srp->token[t].backlog_calc;
			token_count++;
		}
		t = prev;
	}
	if (token_count) {
		mtt_rx_token = (total_mtt_rx_token / token_count);
		avg_backlog_calc = (total_backlog_calc / token_count);
		avg_token_holdtime = (total_token_holdtime / token_count);
		objdb->object_key_replace (stats->mrp->srp->hdr.handle,
			"mtt_rx_token", strlen("mtt_rx_token"),
			&mtt_rx_token, sizeof (mtt_rx_token));
		objdb->object_key_replace (stats->mrp->srp->hdr.handle,
			"avg_token_workload", strlen("avg_token_workload"),
			&avg_token_holdtime, sizeof (avg_token_holdtime));
		objdb->object_key_replace (stats->mrp->srp->hdr.handle,
			"avg_backlog_calc", strlen("avg_backlog_calc"),
			&avg_backlog_calc, sizeof (avg_backlog_calc));
	}
	api->timer_add_duration (1500 * MILLI_2_NANO_SECONDS, NULL,
		corosync_totem_stats_updater,
		&corosync_stats_timer_handle);
}

static void corosync_totem_stats_init (void)
{
	totempg_stats_t * stats;
	hdb_handle_t object_find_handle;
	hdb_handle_t object_runtime_handle;
	hdb_handle_t object_totem_handle;
	uint32_t zero_32 = 0;
	uint64_t zero_64 = 0;

	stats = api->totem_get_stats();

	objdb->object_find_create (
		OBJECT_PARENT_HANDLE,
		"runtime",
		strlen ("runtime"),
		&object_find_handle);

	if (objdb->object_find_next (object_find_handle,
			&object_runtime_handle) == 0) {

		objdb->object_create (object_runtime_handle,
			&object_totem_handle,
			"totem", strlen ("totem"));
		objdb->object_create (object_totem_handle,
			&stats->hdr.handle,
			"pg", strlen ("pg"));
		objdb->object_create (stats->hdr.handle,
			&stats->mrp->hdr.handle,
			"mrp", strlen ("mrp"));
		objdb->object_create (stats->mrp->hdr.handle,
			&stats->mrp->srp->hdr.handle,
			"srp", strlen ("srp"));

		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"orf_token_tx",	&stats->mrp->srp->orf_token_tx,
			sizeof (stats->mrp->srp->orf_token_tx),	OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"orf_token_rx", &stats->mrp->srp->orf_token_rx,
			sizeof (stats->mrp->srp->orf_token_rx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"memb_merge_detect_tx", &stats->mrp->srp->memb_merge_detect_tx,
			sizeof (stats->mrp->srp->memb_merge_detect_tx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"memb_merge_detect_rx", &stats->mrp->srp->memb_merge_detect_rx,
			sizeof (stats->mrp->srp->memb_merge_detect_rx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"memb_join_tx", &stats->mrp->srp->memb_join_tx,
			sizeof (stats->mrp->srp->memb_join_tx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"memb_join_rx", &stats->mrp->srp->memb_join_rx,
			sizeof (stats->mrp->srp->memb_join_rx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"mcast_tx", &stats->mrp->srp->mcast_tx,
			sizeof (stats->mrp->srp->mcast_tx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"mcast_retx", &stats->mrp->srp->mcast_retx,
			sizeof (stats->mrp->srp->mcast_retx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"mcast_rx", &stats->mrp->srp->mcast_rx,
			sizeof (stats->mrp->srp->mcast_rx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"memb_commit_token_tx", &stats->mrp->srp->memb_commit_token_tx,
			sizeof (stats->mrp->srp->memb_commit_token_tx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"memb_commit_token_rx", &stats->mrp->srp->memb_commit_token_rx,
			sizeof (stats->mrp->srp->memb_commit_token_rx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"token_hold_cancel_tx", &stats->mrp->srp->token_hold_cancel_tx,
			sizeof (stats->mrp->srp->token_hold_cancel_tx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"token_hold_cancel_rx", &stats->mrp->srp->token_hold_cancel_rx,
			sizeof (stats->mrp->srp->token_hold_cancel_rx), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"operational_entered", &stats->mrp->srp->operational_entered,
			sizeof (stats->mrp->srp->operational_entered), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"operational_token_lost", &stats->mrp->srp->operational_token_lost,
			sizeof (stats->mrp->srp->operational_token_lost), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"gather_entered", &stats->mrp->srp->gather_entered,
			sizeof (stats->mrp->srp->gather_entered), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"gather_token_lost", &stats->mrp->srp->gather_token_lost,
			sizeof (stats->mrp->srp->gather_token_lost), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"commit_entered", &stats->mrp->srp->commit_entered,
			sizeof (stats->mrp->srp->commit_entered), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"commit_token_lost", &stats->mrp->srp->commit_token_lost,
			sizeof (stats->mrp->srp->commit_token_lost), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"recovery_entered", &stats->mrp->srp->recovery_entered,
			sizeof (stats->mrp->srp->recovery_entered), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"recovery_token_lost", &stats->mrp->srp->recovery_token_lost,
			sizeof (stats->mrp->srp->recovery_token_lost), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"consensus_timeouts", &stats->mrp->srp->consensus_timeouts,
			sizeof (stats->mrp->srp->consensus_timeouts), OBJDB_VALUETYPE_UINT64);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"mtt_rx_token", &zero_32,
			sizeof (zero_32), OBJDB_VALUETYPE_UINT32);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"avg_token_workload", &zero_32,
			sizeof (zero_32), OBJDB_VALUETYPE_UINT32);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"avg_backlog_calc", &zero_32,
			sizeof (zero_32), OBJDB_VALUETYPE_UINT32);
		objdb->object_key_create_typed (stats->mrp->srp->hdr.handle,
			"rx_msg_dropped", &zero_64,
			sizeof (zero_64), OBJDB_VALUETYPE_UINT64);

	}
	/* start stats timer */
	api->timer_add_duration (1500 * MILLI_2_NANO_SECONDS, NULL,
		corosync_totem_stats_updater,
		&corosync_stats_timer_handle);

}


static void deliver_fn (
	unsigned int nodeid,
	const void *msg,
	unsigned int msg_len,
	int endian_conversion_required)
{
	const coroipc_request_header_t *header;
	int service;
	int fn_id;
	unsigned int id;
	unsigned int size;
	unsigned int key_incr_dummy;

	header = msg;
	if (endian_conversion_required) {
		id = swab32 (header->id);
		size = swab32 (header->size);
	} else {
		id = header->id;
		size = header->size;
	}

	/*
	 * Call the proper executive handler
	 */
	service = id >> 16;
	fn_id = id & 0xffff;

	serialize_lock();

	if (ais_service[service] == NULL && service == EVT_SERVICE) {
		evil_deliver_fn (nodeid, service, fn_id, msg,
			endian_conversion_required);
	}

	if (!ais_service[service]) {
		serialize_unlock();
		return;
	}
	if (fn_id >= ais_service[service]->exec_engine_count) {
		log_printf(LOGSYS_LEVEL_WARNING, "discarded unknown message %d for service %d (max id %d)",
			fn_id, service, ais_service[service]->exec_engine_count);
		serialize_unlock();
		return;
	}

	objdb->object_key_increment (service_stats_handle[service][fn_id],
		"rx", strlen("rx"),
		&key_incr_dummy);

	if (endian_conversion_required) {
		assert(ais_service[service]->exec_engine[fn_id].exec_endian_convert_fn != NULL);
		ais_service[service]->exec_engine[fn_id].exec_endian_convert_fn
			((void *)msg);
	}

	ais_service[service]->exec_engine[fn_id].exec_handler_fn
		(msg, nodeid);

	serialize_unlock();
}

void main_get_config_modules(struct config_iface_ver0 ***modules, int *num)
{
	*modules = config_modules;
	*num = num_config_modules;
}

int main_mcast (
        const struct iovec *iovec,
        unsigned int iov_len,
        unsigned int guarantee)
{
	const coroipc_request_header_t *req = iovec->iov_base;
	int service;
	int fn_id;
	unsigned int key_incr_dummy;

	service = req->id >> 16;
	fn_id = req->id & 0xffff;

	if (ais_service[service]) {
		objdb->object_key_increment (service_stats_handle[service][fn_id],
			"tx", strlen("tx"), &key_incr_dummy);
	}

	return (totempg_groups_mcast_joined (corosync_group_handle, iovec, iov_len, guarantee));
}

int message_source_is_local (const mar_message_source_t *source)
{
	int ret = 0;

	assert (source != NULL);
	if (source->nodeid == totempg_my_nodeid_get ()) {
		ret = 1;
	}
	return ret;
}

void message_source_set (
	mar_message_source_t *source,
	void *conn)
{
	assert ((source != NULL) && (conn != NULL));
	memset (source, 0, sizeof (mar_message_source_t));
	source->nodeid = totempg_my_nodeid_get ();
	source->conn = conn;
}

/*
 * Provides the glue from corosync to the IPC Service
 */
static int corosync_private_data_size_get (unsigned int service)
{
	return (ais_service[service]->private_data_size);
}

static coroipcs_init_fn_lvalue corosync_init_fn_get (unsigned int service)
{
	return (ais_service[service]->lib_init_fn);
}

static coroipcs_exit_fn_lvalue corosync_exit_fn_get (unsigned int service)
{
	return (ais_service[service]->lib_exit_fn);
}

static coroipcs_handler_fn_lvalue corosync_handler_fn_get (unsigned int service, unsigned int id)
{
	return (ais_service[service]->lib_engine[id].lib_handler_fn);
}


static int corosync_security_valid (int euid, int egid)
{
	struct list_head *iter;

	if (corosync_not_enough_fds_left) {
		errno = EMFILE;
		return (0);
	}

	if (euid == 0 || egid == 0) {
		return (1);
	}

	for (iter = uidgid_list_head.next; iter != &uidgid_list_head;
		iter = iter->next) {

		struct uidgid_item *ugi = list_entry (iter, struct uidgid_item,
			list);

		if (euid == ugi->uid || egid == ugi->gid)
			return (1);
	}

	errno = EACCES;
	return (0);
}

static int corosync_service_available (unsigned int service)
{
	return (ais_service[service] != NULL && !ais_service_exiting[service]);
}

struct sending_allowed_private_data_struct {
	int reserved_msgs;
};

static int corosync_sending_allowed (
	unsigned int service,
	unsigned int id,
	const void *msg,
	void *sending_allowed_private_data)
{
	struct sending_allowed_private_data_struct *pd =
		(struct sending_allowed_private_data_struct *)sending_allowed_private_data;
	struct iovec reserve_iovec;
	coroipc_request_header_t *header = (coroipc_request_header_t *)msg;
	int sending_allowed;

	reserve_iovec.iov_base = (char *)header;
	reserve_iovec.iov_len = header->size;

	pd->reserved_msgs = totempg_groups_joined_reserve (
		corosync_group_handle,
		&reserve_iovec, 1);
	if (pd->reserved_msgs == -1) {
		return (-1);
	}

	sending_allowed =
		(corosync_quorum_is_quorate() == 1 ||
		ais_service[service]->allow_inquorate == CS_LIB_ALLOW_INQUORATE) &&
		((ais_service[service]->lib_engine[id].flow_control == CS_LIB_FLOW_CONTROL_NOT_REQUIRED) ||
		((ais_service[service]->lib_engine[id].flow_control == CS_LIB_FLOW_CONTROL_REQUIRED) &&
		(pd->reserved_msgs) &&
		(sync_in_process == 0)));

	return (sending_allowed);
}

static void corosync_sending_allowed_release (void *sending_allowed_private_data)
{
	struct sending_allowed_private_data_struct *pd =
		(struct sending_allowed_private_data_struct *)sending_allowed_private_data;

	if (pd->reserved_msgs == -1) {
		return;
	}
	totempg_groups_joined_release (pd->reserved_msgs);
}

static int ipc_subsys_id = -1;


static void ipc_fatal_error(const char *error_msg) __attribute__((noreturn));

static void ipc_fatal_error(const char *error_msg) {
       _logsys_log_printf (
		LOGSYS_ENCODE_RECID(LOGSYS_LEVEL_ERROR,
				    ipc_subsys_id,
				    LOGSYS_RECID_LOG),
		__FUNCTION__, __FILE__, __LINE__,
                "%s", error_msg);
	exit(EXIT_FAILURE);
}

static int corosync_poll_handler_accept (
	hdb_handle_t handle,
	int fd,
	int revent,
	void *context)
{
	return (coroipcs_handler_accept (fd, revent, context));
}

static int corosync_poll_handler_dispatch (
	hdb_handle_t handle,
	int fd,
	int revent,
	void *context)
{
	return (coroipcs_handler_dispatch (fd, revent, context));
}


static void corosync_poll_accept_add (
	int fd)
{
	poll_dispatch_add (corosync_poll_handle, fd, POLLIN|POLLNVAL, 0,
		corosync_poll_handler_accept);
}

static void corosync_poll_dispatch_add (
	int fd,
	void *context)
{
	poll_dispatch_add (corosync_poll_handle, fd, POLLIN|POLLNVAL, context,
		corosync_poll_handler_dispatch);
}

static void corosync_poll_dispatch_modify (
	int fd,
	int events)
{
	poll_dispatch_modify (corosync_poll_handle, fd, events,
		corosync_poll_handler_dispatch);
}

static void corosync_poll_dispatch_destroy (
    int fd,
    void *context)
{
	poll_dispatch_delete (corosync_poll_handle, fd);
}

static hdb_handle_t corosync_stats_create_connection (const char* name,
                       const pid_t pid, const int fd)
{
	uint32_t zero_32 = 0;
	uint64_t zero_64 = 0;
	unsigned int key_incr_dummy;
	hdb_handle_t object_handle;

	objdb->object_key_increment (object_connection_handle,
		"active", strlen("active"),
		&key_incr_dummy);


	objdb->object_create (object_connection_handle,
		&object_handle,
		name,
		strlen (name));

	objdb->object_key_create_typed (object_handle,
		"service_id",
		&zero_32, sizeof (zero_32),
		OBJDB_VALUETYPE_UINT32);

	objdb->object_key_create_typed (object_handle,
		"client_pid",
		&pid, sizeof (pid),
		OBJDB_VALUETYPE_INT32);

	objdb->object_key_create_typed (object_handle,
		"responses",
		&zero_64, sizeof (zero_64),
		OBJDB_VALUETYPE_UINT64);

	objdb->object_key_create_typed (object_handle,
		"dispatched",
		&zero_64, sizeof (zero_64),
		OBJDB_VALUETYPE_UINT64);

	objdb->object_key_create_typed (object_handle,
		"requests",
		&zero_64, sizeof (zero_64),
		OBJDB_VALUETYPE_INT64);

	objdb->object_key_create_typed (object_handle,
		"sem_retry_count",
		&zero_64, sizeof (zero_64),
		OBJDB_VALUETYPE_UINT64);

	objdb->object_key_create_typed (object_handle,
		"send_retry_count",
		&zero_64, sizeof (zero_64),
		OBJDB_VALUETYPE_UINT64);

	objdb->object_key_create_typed (object_handle,
		"recv_retry_count",
		&zero_64, sizeof (zero_64),
		OBJDB_VALUETYPE_UINT64);

	objdb->object_key_create_typed (object_handle,
		"flow_control",
		&zero_32, sizeof (zero_32),
		OBJDB_VALUETYPE_UINT32);

	objdb->object_key_create_typed (object_handle,
		"flow_control_count",
		&zero_64, sizeof (zero_64),
		OBJDB_VALUETYPE_UINT64);

	objdb->object_key_create_typed (object_handle,
		"queue_size",
		&zero_64, sizeof (zero_64),
		OBJDB_VALUETYPE_UINT64);

	return object_handle;
}

static void corosync_stats_destroy_connection (hdb_handle_t handle)
{
	unsigned int key_incr_dummy;

	objdb->object_destroy (handle);

	objdb->object_key_increment (object_connection_handle,
		"closed", strlen("closed"),
		&key_incr_dummy);
	objdb->object_key_decrement (object_connection_handle,
		"active", strlen("active"),
		&key_incr_dummy);
}

static void corosync_stats_update_value (hdb_handle_t handle,
	const char *name, const void *value,
	size_t value_len)
{
	objdb->object_key_replace (handle,
		name, strlen(name),
		value, value_len);
}

static void corosync_stats_increment_value (hdb_handle_t handle,
	const char* name)
{
	unsigned int key_incr_dummy;

	objdb->object_key_increment (handle,
		name, strlen(name),
		&key_incr_dummy);
}
static void corosync_stats_decrement_value (hdb_handle_t handle,
	const char* name)
{
	unsigned int key_incr_dummy;

	objdb->object_key_decrement (handle,
		name, strlen(name),
		&key_incr_dummy);
}

static struct coroipcs_init_state_v2 ipc_init_state_v2 = {
	.socket_name			= COROSYNC_SOCKET_NAME,
	.sched_policy			= SCHED_OTHER,
	.sched_param			= &global_sched_param,
	.malloc				= malloc,
	.free				= free,
	.log_printf			= _logsys_log_printf,
	.fatal_error			= ipc_fatal_error,
	.security_valid			= corosync_security_valid,
	.service_available		= corosync_service_available,
	.private_data_size_get		= corosync_private_data_size_get,
	.serialize_lock			= serialize_lock,
	.serialize_unlock		= serialize_unlock,
	.sending_allowed		= corosync_sending_allowed,
	.sending_allowed_release	= corosync_sending_allowed_release,
	.poll_accept_add		= corosync_poll_accept_add,
	.poll_dispatch_add		= corosync_poll_dispatch_add,
	.poll_dispatch_modify		= corosync_poll_dispatch_modify,
	.poll_dispatch_destroy		= corosync_poll_dispatch_destroy,
	.init_fn_get			= corosync_init_fn_get,
	.exit_fn_get			= corosync_exit_fn_get,
	.handler_fn_get			= corosync_handler_fn_get,
	.stats_create_connection	= corosync_stats_create_connection,
	.stats_destroy_connection	= corosync_stats_destroy_connection,
	.stats_update_value		= corosync_stats_update_value,
	.stats_increment_value		= corosync_stats_increment_value,
	.stats_decrement_value		= corosync_stats_decrement_value,
};

static void corosync_setscheduler (void)
{
#if defined(HAVE_PTHREAD_SETSCHEDPARAM) && defined(HAVE_SCHED_GET_PRIORITY_MAX) && defined(HAVE_SCHED_SETSCHEDULER)
	int res;

	sched_priority = sched_get_priority_max (SCHED_RR);
	if (sched_priority != -1) {
		global_sched_param.sched_priority = sched_priority;
		res = sched_setscheduler (0, SCHED_RR, &global_sched_param);
		if (res == -1) {
			char error_str[100];
			strerror_r (errno, error_str, 100);
			global_sched_param.sched_priority = 0;
			log_printf (LOGSYS_LEVEL_WARNING, "Could not set SCHED_RR at priority %d: %s\n",
				global_sched_param.sched_priority, error_str);

			logsys_thread_priority_set (SCHED_OTHER, NULL, 1);
		} else {
			/*
			 * Turn on SCHED_RR in ipc system
			 */
			ipc_init_state_v2.sched_policy = SCHED_RR;

			/*
			 * Turn on SCHED_RR in logsys system
			 */
			res = logsys_thread_priority_set (SCHED_RR, &global_sched_param, 10);
			if (res == -1) {
				log_printf (LOGSYS_LEVEL_ERROR,
					    "Could not set logsys thread priority."
					    " Can't continue because of priority inversions.");
				corosync_exit_error (AIS_DONE_LOGSETUP);
			}
		}
	} else {
		char error_str[100];
		strerror_r (errno, error_str, 100);
		log_printf (LOGSYS_LEVEL_WARNING,
			"Could not get maximum scheduler priority: %s\n",
			error_str);
		sched_priority = 0;
	}
#else
	log_printf(LOGSYS_LEVEL_WARNING,
		"The Platform is missing process priority setting features.  Leaving at default.");
#endif
}

static void corosync_stats_init (void)
{
	hdb_handle_t object_find_handle;
	hdb_handle_t object_runtime_handle;
	uint64_t zero_64 = 0;

	objdb->object_find_create (OBJECT_PARENT_HANDLE,
		"runtime", strlen ("runtime"),
		&object_find_handle);

	if (objdb->object_find_next (object_find_handle,
			&object_runtime_handle) != 0) {
		return;
	}

	/* Connection objects */
	objdb->object_create (object_runtime_handle,
		&object_connection_handle,
		"connections", strlen ("connections"));

	objdb->object_key_create_typed (object_connection_handle,
		"active", &zero_64, sizeof (zero_64),
		OBJDB_VALUETYPE_UINT64);
	objdb->object_key_create_typed (object_connection_handle,
		"closed", &zero_64, sizeof (zero_64),
		OBJDB_VALUETYPE_UINT64);
}

static void main_low_fds_event(int32_t not_enough, int32_t fds_available)
{
	corosync_not_enough_fds_left = not_enough;
	if (not_enough) {
		log_printf(LOGSYS_LEVEL_WARNING, "refusing new connections (fds_available:%d)\n",
			fds_available);
	} else {
		log_printf(LOGSYS_LEVEL_NOTICE, "allowing new connections (fds_available:%d)\n",
			fds_available);
	}
}

static void main_service_ready (void)
{
	int res;
	/*
	 * This must occur after totempg is initialized because "this_ip" must be set
	 */
	res = corosync_service_defaults_link_and_init (api);
	if (res == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "Could not initialize default services\n");
		corosync_exit_error (AIS_DONE_INIT_SERVICES);
	}
	evil_init (api);
	corosync_stats_init ();
	corosync_totem_stats_init ();
	if (minimum_sync_mode == CS_SYNC_V2) {
		log_printf (LOGSYS_LEVEL_NOTICE, "Compatibility mode set to none.  Using V2 of the synchronization engine.\n");
		sync_v2_init (
			corosync_sync_v2_callbacks_retrieve,
			corosync_sync_completed);
	} else
	if (minimum_sync_mode == CS_SYNC_V1) {
		log_printf (LOGSYS_LEVEL_NOTICE, "Compatibility mode set to whitetank.  Using V1 and V2 of the synchronization engine.\n");
		sync_register (
			corosync_sync_callbacks_retrieve,
			sync_v2_memb_list_determine,
			sync_v2_memb_list_abort,
			sync_v2_start);

		sync_v2_init (
			corosync_sync_v2_callbacks_retrieve,
			corosync_sync_completed);
	}


}

static enum e_ais_done corosync_flock (const char *lockfile, pid_t pid)
{
	struct flock lock;
	enum e_ais_done err;
	char pid_s[17];
	int fd_flag;
	int lf;

	err = AIS_DONE_EXIT;

	lf = open (lockfile, O_WRONLY | O_CREAT, 0640);
	if (lf == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't create lock file.\n");
		return (AIS_DONE_AQUIRE_LOCK);
	}

retry_fcntl:
	lock.l_type = F_WRLCK;
	lock.l_start = 0;
	lock.l_whence = SEEK_SET;
	lock.l_len = 0;
	if (fcntl (lf, F_SETLK, &lock) == -1) {
		switch (errno) {
		case EINTR:
			goto retry_fcntl;
			break;
		case EAGAIN:
		case EACCES:
			log_printf (LOGSYS_LEVEL_ERROR, "Another Corosync instance is already running.\n");
			err = AIS_DONE_ALREADY_RUNNING;
			goto error_close;
			break;
		default:
			log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't aquire lock. Error was %s\n",
			    strerror(errno));
			err = AIS_DONE_AQUIRE_LOCK;
			goto error_close;
			break;
		}
	}

	if (ftruncate (lf, 0) == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't truncate lock file. Error was %s\n",
		    strerror (errno));
		err = AIS_DONE_AQUIRE_LOCK;
		goto error_close_unlink;
	}

	memset (pid_s, 0, sizeof (pid_s));
	snprintf (pid_s, sizeof (pid_s) - 1, "%u\n", pid);

retry_write:
	if (write (lf, pid_s, strlen (pid_s)) != strlen (pid_s)) {
		if (errno == EINTR) {
			goto retry_write;
		} else {
			log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't write pid to lock file. "
				"Error was %s\n", strerror (errno));
			err = AIS_DONE_AQUIRE_LOCK;
			goto error_close_unlink;
		}
	}

	if ((fd_flag = fcntl (lf, F_GETFD, 0)) == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't get close-on-exec flag from lock file. "
			"Error was %s\n", strerror (errno));
		err = AIS_DONE_AQUIRE_LOCK;
		goto error_close_unlink;
	}
	fd_flag |= FD_CLOEXEC;
	if (fcntl (lf, F_SETFD, fd_flag) == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't set close-on-exec flag to lock file. "
			"Error was %s\n", strerror (errno));
		err = AIS_DONE_AQUIRE_LOCK;
		goto error_close_unlink;
	}

	return (err);

error_close_unlink:
	unlink (lockfile);
error_close:
	close (lf);

	return (err);
}

int main (int argc, char **argv, char **envp)
{
	const char *error_string;
	struct totem_config totem_config;
	hdb_handle_t objdb_handle;
	hdb_handle_t config_handle;
	unsigned int config_version = 0;
	void *objdb_p;
	struct config_iface_ver0 *config;
	void *config_p;
	const char *config_iface_init;
	char *config_iface;
	char *iface;
	char *strtok_save_pt;
	int res, ch;
	int background, setprio;
	struct stat stat_out;
	char corosync_lib_dir[PATH_MAX];
	hdb_handle_t object_runtime_handle;
	enum e_ais_done flock_err;

#if defined(HAVE_PTHREAD_SPIN_LOCK)
	pthread_spin_init (&serialize_spin, 0);
#endif

 	/* default configuration
	 */
	background = 1;
	setprio = 1;

	while ((ch = getopt (argc, argv, "fpv")) != EOF) {

		switch (ch) {
			case 'f':
				background = 0;
				logsys_config_mode_set (NULL, LOGSYS_MODE_OUTPUT_STDERR|LOGSYS_MODE_THREADED|LOGSYS_MODE_FORK);
				break;
			case 'p':
				setprio = 0;
				break;
			case 'v':
				printf ("Corosync Cluster Engine, version '%s'\n", VERSION);
				printf ("Copyright (c) 2006-2009 Red Hat, Inc.\n");
				return EXIT_SUCCESS;

				break;
			default:
				fprintf(stderr, \
					"usage:\n"\
					"        -f     : Start application in foreground.\n"\
					"        -p     : Do not set process priority.    \n"\
					"        -v     : Display version and SVN revision of Corosync and exit.\n");
				return EXIT_FAILURE;
		}
	}

	/*
	 * Set round robin realtime scheduling with priority 99
	 * Lock all memory to avoid page faults which may interrupt
	 * application healthchecking
	 */
	if (setprio) {
		corosync_setscheduler ();
	}

	corosync_mlockall ();

	log_printf (LOGSYS_LEVEL_NOTICE, "Corosync Cluster Engine ('%s'): started and ready to provide service.\n", VERSION);
	log_printf (LOGSYS_LEVEL_INFO, "Corosync built-in features:" PACKAGE_FEATURES "\n");


	(void)signal (SIGINT, sigintr_handler);
	(void)signal (SIGUSR2, sigusr2_handler);
	(void)signal (SIGSEGV, sigsegv_handler);
	(void)signal (SIGABRT, sigabrt_handler);
	(void)signal (SIGQUIT, sigquit_handler);
	(void)signal (SIGTERM, sigterm_handler);
#if MSG_NOSIGNAL != 0
	(void)signal (SIGPIPE, SIG_IGN);
#endif

	/*
	 * Load the object database interface
	 */
	res = lcr_ifact_reference (
		&objdb_handle,
		"objdb",
		0,
		&objdb_p,
		0);
	if (res == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't open configuration object database component.\n");
		corosync_exit_error (AIS_DONE_OBJDB);
	}

	objdb = (struct objdb_iface_ver0 *)objdb_p;

	objdb->objdb_init ();

	/*
	 * Initialize the corosync_api_v1 definition
	 */
	apidef_init (objdb);
	api = apidef_get ();

	num_config_modules = 0;

	/*
	 * Bootstrap in the default configuration parser or use
	 * the corosync default built in parser if the configuration parser
	 * isn't overridden
	 */
	config_iface_init = getenv("COROSYNC_DEFAULT_CONFIG_IFACE");
	if (!config_iface_init) {
		config_iface_init = "corosync_parser";
	}

	/* Make a copy so we can deface it with strtok */
	if ((config_iface = strdup(config_iface_init)) == NULL) {
		log_printf (LOGSYS_LEVEL_ERROR, "exhausted virtual memory");
		corosync_exit_error (AIS_DONE_OBJDB);
	}

	iface = strtok_r(config_iface, ":", &strtok_save_pt);
	while (iface)
	{
		res = lcr_ifact_reference (
			&config_handle,
			iface,
			config_version,
			&config_p,
			0);

		config = (struct config_iface_ver0 *)config_p;
		if (res == -1) {
			log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't open configuration component '%s'\n", iface);
			corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
		}

		res = config->config_readconfig(objdb, &error_string);
		if (res == -1) {
			log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
			corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
		}
		log_printf (LOGSYS_LEVEL_NOTICE, "%s", error_string);
		config_modules[num_config_modules++] = config;

		iface = strtok_r(NULL, ":", &strtok_save_pt);
	}
	free(config_iface);

	res = corosync_main_config_read (objdb, &error_string);
	if (res == -1) {
		/*
		 * if we are here, we _must_ flush the logsys queue
		 * and try to inform that we couldn't read the config.
		 * this is a desperate attempt before certain death
		 * and there is no guarantee that we can print to stderr
		 * nor that logsys is sending the messages where we expect.
		 */
		log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
		fprintf(stderr, "%s", error_string);
		syslog (LOGSYS_LEVEL_ERROR, "%s", error_string);
		corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
	}

	/*
	 * Make sure required directory is present
	 */
	sprintf (corosync_lib_dir, "%s/lib/corosync", LOCALSTATEDIR);
	res = stat (corosync_lib_dir, &stat_out);
	if ((res == -1) || (res == 0 && !S_ISDIR(stat_out.st_mode))) {
		log_printf (LOGSYS_LEVEL_ERROR, "Required directory not present %s.  Please create it.\n", corosync_lib_dir);
		corosync_exit_error (AIS_DONE_DIR_NOT_PRESENT);
	}

	res = totem_config_read (objdb, &totem_config, &error_string);
	if (res == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
		corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
	}

	res = totem_config_keyread (objdb, &totem_config, &error_string);
	if (res == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
		corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
	}

	res = totem_config_validate (&totem_config, &error_string);
	if (res == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
		corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
	}

	totem_config.totem_logging_configuration = totem_logging_configuration;
	totem_config.totem_logging_configuration.log_subsys_id =
		_logsys_subsys_create ("TOTEM");

	if (totem_config.totem_logging_configuration.log_subsys_id < 0) {
		log_printf (LOGSYS_LEVEL_ERROR,
			"Unable to initialize TOTEM logging subsystem\n");
		corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
	}

	totem_config.totem_logging_configuration.log_level_security = LOGSYS_LEVEL_WARNING;
	totem_config.totem_logging_configuration.log_level_error = LOGSYS_LEVEL_ERROR;
	totem_config.totem_logging_configuration.log_level_warning = LOGSYS_LEVEL_WARNING;
	totem_config.totem_logging_configuration.log_level_notice = LOGSYS_LEVEL_NOTICE;
	totem_config.totem_logging_configuration.log_level_debug = LOGSYS_LEVEL_DEBUG;
	totem_config.totem_logging_configuration.log_printf = _logsys_log_printf;

	res = corosync_main_config_compatibility_read (objdb,
		&minimum_sync_mode,
		&error_string);
	if (res == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
		corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
	}

	res = corosync_main_config_compatibility_read (objdb,
		&minimum_sync_mode,
		&error_string);
	if (res == -1) {
		log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
		corosync_exit_error (AIS_DONE_MAINCONFIGREAD);
	}

	/* create the main runtime object */
	objdb->object_create (OBJECT_PARENT_HANDLE,
		&object_runtime_handle,
		"runtime", strlen ("runtime"));

	/*
	 * Now we are fully initialized.
	 */
	if (background) {
		corosync_tty_detach ();
	}
	logsys_fork_completed();

	if ((flock_err = corosync_flock (corosync_lock_file, getpid ())) != AIS_DONE_EXIT) {
		corosync_exit_error (flock_err);
	}

	corosync_timer_init (
		serialize_lock,
		serialize_unlock,
		sched_priority);

	corosync_poll_handle = poll_create ();
	poll_low_fds_event_set(corosync_poll_handle, main_low_fds_event);

	/*
	 * Sleep for a while to let other nodes in the cluster
	 * understand that this node has been away (if it was
	 * an corosync restart).
	 */

// TODO what is this hack for?	usleep(totem_config.token_timeout * 2000);

	/*
	 * Create semaphore and start "exit" thread
	 */
	res = sem_init (&corosync_exit_sem, 0, 0);
	if (res != 0) {
		log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't create exit thread.\n");
		corosync_exit_error (AIS_DONE_FATAL_ERR);
	}

	res = pthread_create (&corosync_exit_thread, NULL, corosync_exit_thread_handler, NULL);
	if (res != 0) {
		log_printf (LOGSYS_LEVEL_ERROR, "Corosync Executive couldn't create exit thread.\n");
		corosync_exit_error (AIS_DONE_FATAL_ERR);
	}

	/*
	 * if totempg_initialize doesn't have root priveleges, it cannot
	 * bind to a specific interface.  This only matters if
	 * there is more then one interface in a system, so
	 * in this case, only a warning is printed
	 */
	/*
	 * Join multicast group and setup delivery
	 *  and configuration change functions
	 */
	totempg_initialize (
		corosync_poll_handle,
		&totem_config);

	totempg_service_ready_register (
		main_service_ready);

	totempg_groups_initialize (
		&corosync_group_handle,
		deliver_fn,
		confchg_fn);

	totempg_groups_join (
		corosync_group_handle,
		&corosync_group,
		1);

	/*
	 * Drop root privleges to user 'ais'
	 * TODO: Don't really need full root capabilities;
	 *       needed capabilities are:
	 * CAP_NET_RAW (bindtodevice)
	 * CAP_SYS_NICE (setscheduler)
	 * CAP_IPC_LOCK (mlockall)
	 */
	priv_drop ();

	schedwrk_init (
		serialize_lock,
		serialize_unlock);

	ipc_subsys_id = _logsys_subsys_create ("IPC");
	if (ipc_subsys_id < 0) {
		log_printf (LOGSYS_LEVEL_ERROR,
			"Could not initialize IPC logging subsystem\n");
		corosync_exit_error (AIS_DONE_INIT_SERVICES);
	}

	ipc_init_state_v2.log_subsys_id = ipc_subsys_id;
	coroipcs_ipc_init_v2 (&ipc_init_state_v2);

	/*
	 * Start main processing loop
	 */
	poll_run (corosync_poll_handle);

	return EXIT_SUCCESS;
}