int main(int argc, char *argv[])
{
char *conf_filename;
int result;
int success_count;
int fail_count;
int expires;
FDHTKeyInfo key_info;
char szValue[101];
char *pValue;
int value_len;
struct sigaction act;
int i;
printf("This is FastDHT client test program v%d.%02d\n" \
"\nCopyright (C) 2008, Happy Fish / YuQing\n" \
"\nFastDHT may be copied only under the terms of the GNU General\n" \
"Public License V3, which may be found in the FastDHT source kit.\n" \
"Please visit the FastDHT Home Page http://www.csource.org/ \n" \
"for more detail.\n\n" \
, g_fdht_version.major, g_fdht_version.minor);
if (argc < 2)
{
printf("Usage: %s <config_file>\n", argv[0]);
return 1;
}
log_init();
conf_filename = argv[1];
g_log_context.log_level = LOG_DEBUG;
if ((result=fdht_client_init(conf_filename)) != 0)
{
return result;
}
log_set_prefix(g_fdht_base_path, "fdht_test_get");
log_set_cache(false);
memset(&act, 0, sizeof(act));
sigemptyset(&act.sa_mask);
act.sa_handler = SIG_IGN;
if(sigaction(SIGPIPE, &act, NULL) < 0)
{
logError("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
return errno;
}
srand(time(NULL));
expires = 0;
memset(&key_info, 0, sizeof(key_info));
value_len = sizeof(szValue) - 1;
for (i=0; i<value_len; i++)
{
szValue[i] = (char)rand();
}
g_keep_alive = true;
if (g_keep_alive)
{
if ((result=fdht_connect_all_servers(&g_group_array, true, \
&success_count, &fail_count)) != 0)
{
printf("fdht_connect_all_servers fail, " \
"error code: %d, error info: %s\n", \
result, STRERROR(result));
return result;
}
}
key_info.key_len = sprintf(key_info.szKey, "k%015d", rand());
if ((result=fdht_set(&key_info, expires, szValue, value_len)) != 0)
{
return result;
}
pValue = szValue;
success_count = 0;
fail_count = 0;
for (i=1; i<=100000; i++)
{
if (i % 10000 == 0)
{
printf("current: %d\n", i);
fflush(stdout);
}
value_len = sizeof(szValue);
if ((result=fdht_get(&key_info, &pValue, &value_len)) != 0)
{
logError("fdht_get return %d", result);
fail_count++;
}
else
{
success_count++;
}
}
if (g_keep_alive)
{
fdht_disconnect_all_servers(&g_group_array);
}
fdht_client_destroy();
printf("success count=%d, fail count=%d\n", success_count, fail_count);
return result;
}
int main(int argc, char *argv[])
{
char *conf_filename;
int result;
int wait_count;
int sock;
pthread_t schedule_tid;
struct sigaction act;
ScheduleEntry scheduleEntries[SCHEDULE_ENTRIES_COUNT];
ScheduleArray scheduleArray;
char pidFilename[MAX_PATH_SIZE];
bool stop;
if (argc < 2)
{
usage(argv[0]);
return 1;
}
g_current_time = time(NULL);
g_up_time = g_current_time;
srand(g_up_time);
log_init2();
//通过指定的conf文件,获取base path
conf_filename = argv[1];
if ((result=get_base_path_from_conf_file(conf_filename,
g_fdfs_base_path, sizeof(g_fdfs_base_path))) != 0)
{
log_destroy();
return result;
}
//启动程序,或者通过文件中的pid来kill掉之前的进程
snprintf(pidFilename, sizeof(pidFilename),
"%s/data/fdfs_trackerd.pid", g_fdfs_base_path);
if ((result=process_action(pidFilename, argv[2], &stop)) != 0)
{
if (result == EINVAL)
{
usage(argv[0]);
}
log_destroy();
return result;
}
if (stop)
{
log_destroy();
return 0;
}
#if defined(DEBUG_FLAG) && defined(OS_LINUX)
if (getExeAbsoluteFilename(argv[0], g_exe_name, \
sizeof(g_exe_name)) == NULL)
{
logCrit("exit abnormally!\n");
log_destroy();
return errno != 0 ? errno : ENOENT;
}
#endif
memset(bind_addr, 0, sizeof(bind_addr));
if ((result=tracker_load_from_conf_file(conf_filename, \
bind_addr, sizeof(bind_addr))) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
//g_tracker_last_status只记录了uptime和last check time作用未知
if ((result=tracker_load_status_from_file(&g_tracker_last_status)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
base64_init_ex(&g_base64_context, 0, '-', '_', '.');
if ((result=set_rand_seed()) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"set_rand_seed fail, program exit!", __LINE__);
return result;
}
//内存分配及历史group和storage载入
if ((result=tracker_mem_init()) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
sock = socketServer(bind_addr, g_server_port, &result);
if (sock < 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
if ((result=tcpsetserveropt(sock, g_fdfs_network_timeout)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
//后台运行
daemon_init(false);
umask(0);
//将pid记录到文件中
if ((result=write_to_pid_file(pidFilename)) != 0)
{
log_destroy();
return result;
}
//启动工作线程,这一块需要重点看
if ((result=tracker_service_init()) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
//注册信号处理函数
memset(&act, 0, sizeof(act));
sigemptyset(&act.sa_mask);
act.sa_handler = sigUsrHandler;
if(sigaction(SIGUSR1, &act, NULL) < 0 || \
sigaction(SIGUSR2, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
act.sa_handler = sigHupHandler;
if(sigaction(SIGHUP, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
act.sa_handler = SIG_IGN;
if(sigaction(SIGPIPE, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
act.sa_handler = sigQuitHandler;
if(sigaction(SIGINT, &act, NULL) < 0 || \
sigaction(SIGTERM, &act, NULL) < 0 || \
sigaction(SIGQUIT, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
#if defined(DEBUG_FLAG)
/*
#if defined(OS_LINUX)
memset(&act, 0, sizeof(act));
sigemptyset(&act.sa_mask);
act.sa_sigaction = sigSegvHandler;
act.sa_flags = SA_SIGINFO;
if (sigaction(SIGSEGV, &act, NULL) < 0 || \
sigaction(SIGABRT, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
#endif
*/
memset(&act, 0, sizeof(act));
sigemptyset(&act.sa_mask);
act.sa_handler = sigDumpHandler;
if(sigaction(SIGUSR1, &act, NULL) < 0 || \
sigaction(SIGUSR2, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
#endif
#ifdef WITH_HTTPD
if (!g_http_params.disabled)
{
if ((result=tracker_httpd_start(bind_addr)) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"tracker_httpd_start fail, program exit!", \
__LINE__);
return result;
}
}
if ((result=tracker_http_check_start()) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"tracker_http_check_start fail, " \
"program exit!", __LINE__);
return result;
}
#endif
if ((result=set_run_by(g_run_by_group, g_run_by_user)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
//schedule 调度线程,主要作用待细看
scheduleArray.entries = scheduleEntries;
scheduleArray.count = 0;
memset(scheduleEntries, 0, sizeof(scheduleEntries));
//日志处理,日志是先存在cache中的,需要定时存储
INIT_SCHEDULE_ENTRY(scheduleEntries[scheduleArray.count],
scheduleArray.count + 1, TIME_NONE, TIME_NONE, TIME_NONE,
g_sync_log_buff_interval, log_sync_func, &g_log_context);
scheduleArray.count++;
//用户检测trunk server服务器是否可用(trunk server是选定的一个storage)
INIT_SCHEDULE_ENTRY(scheduleEntries[scheduleArray.count],
scheduleArray.count + 1, TIME_NONE, TIME_NONE, TIME_NONE,
g_check_active_interval, tracker_mem_check_alive, NULL);
scheduleArray.count++;
//每5分钟刷新一下status
INIT_SCHEDULE_ENTRY(scheduleEntries[scheduleArray.count],
scheduleArray.count + 1, 0, 0, 0,
TRACKER_SYNC_STATUS_FILE_INTERVAL,
tracker_write_status_to_file, NULL);
scheduleArray.count++;
if (g_rotate_error_log)
{
INIT_SCHEDULE_ENTRY_EX(scheduleEntries[scheduleArray.count],
scheduleArray.count + 1, g_error_log_rotate_time,
24 * 3600, log_notify_rotate, &g_log_context);
scheduleArray.count++;
if (g_log_file_keep_days > 0)
{
log_set_keep_days(&g_log_context, g_log_file_keep_days);
INIT_SCHEDULE_ENTRY(scheduleEntries[scheduleArray.count],
scheduleArray.count + 1, 1, 0, 0, 24 * 3600,
log_delete_old_files, &g_log_context);
scheduleArray.count++;
}
}
if ((result=sched_start(&scheduleArray, &schedule_tid, \
g_thread_stack_size, (bool * volatile)&g_continue_flag)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
//选主机制,tracker默认不会把自己加入队列
if ((result=tracker_relationship_init()) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
log_set_cache(true);
bTerminateFlag = false;
bAcceptEndFlag = false;
//accept线程,工作线程和消息接收线程是分开的
tracker_accept_loop(sock);
bAcceptEndFlag = true;
if (g_schedule_flag)
{
pthread_kill(schedule_tid, SIGINT);
}
tracker_terminate_threads();
#ifdef WITH_HTTPD
if (g_http_check_flag)
{
tracker_http_check_stop();
}
while (g_http_check_flag)
{
usleep(50000);
}
#endif
wait_count = 0;
//线程数和调度flag还在,则继续运行程序
while ((g_tracker_thread_count != 0) || g_schedule_flag)
{
/*
#if defined(DEBUG_FLAG) && defined(OS_LINUX)
if (bSegmentFault)
{
sleep(5);
break;
}
#endif
*/
usleep(10000);
if (++wait_count > 3000)
{
logWarning("waiting timeout, exit!");
break;
}
}
tracker_mem_destroy();
tracker_service_destroy();
tracker_relationship_destroy();
logInfo("exit normally.\n");
log_destroy();
delete_pid_file(pidFilename);
return 0;
}
int main(int argc, char *argv[])
{
char *conf_filename;
int result;
int sock;
int wait_count;
pthread_t schedule_tid;
struct sigaction act;
ScheduleEntry scheduleEntries[SCHEDULE_ENTRIES_MAX_COUNT];
ScheduleArray scheduleArray;
char pidFilename[MAX_PATH_SIZE];
bool stop;
if (argc < 2)
{
usage(argv[0]);
return 1;
}
g_current_time = time(NULL);
g_up_time = g_current_time;
log_init2();
trunk_shared_init();
conf_filename = argv[1];
if ((result=get_base_path_from_conf_file(conf_filename,
g_fdfs_base_path, sizeof(g_fdfs_base_path))) != 0)
{
log_destroy();
return result;
}
snprintf(pidFilename, sizeof(pidFilename),
"%s/data/fdfs_storaged.pid", g_fdfs_base_path);
if ((result=process_action(pidFilename, argv[2], &stop)) != 0)
{
if (result == EINVAL)
{
usage(argv[0]);
}
log_destroy();
return result;
}
if (stop)
{
log_destroy();
return 0;
}
#if defined(DEBUG_FLAG) && defined(OS_LINUX)
if (getExeAbsoluteFilename(argv[0], g_exe_name, \
sizeof(g_exe_name)) == NULL)
{
logCrit("exit abnormally!\n");
log_destroy();
return errno != 0 ? errno : ENOENT;
}
#endif
memset(g_bind_addr, 0, sizeof(g_bind_addr));
if ((result=storage_func_init(conf_filename, \
g_bind_addr, sizeof(g_bind_addr))) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
sock = socketServer(g_bind_addr, g_server_port, &result);
if (sock < 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
if ((result=tcpsetserveropt(sock, g_fdfs_network_timeout)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
daemon_init(false);
umask(0);
if ((result=write_to_pid_file(pidFilename)) != 0)
{
log_destroy();
return result;
}
if ((result=storage_sync_init()) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"storage_sync_init fail, program exit!", __LINE__);
g_continue_flag = false;
return result;
}
if ((result=tracker_report_init()) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"tracker_report_init fail, program exit!", __LINE__);
g_continue_flag = false;
return result;
}
if ((result=storage_service_init()) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"storage_service_init fail, program exit!", __LINE__);
g_continue_flag = false;
return result;
}
if ((result=set_rand_seed()) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"set_rand_seed fail, program exit!", __LINE__);
g_continue_flag = false;
return result;
}
memset(&act, 0, sizeof(act));
sigemptyset(&act.sa_mask);
act.sa_handler = sigUsrHandler;
if(sigaction(SIGUSR1, &act, NULL) < 0 || \
sigaction(SIGUSR2, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
act.sa_handler = sigHupHandler;
if(sigaction(SIGHUP, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
act.sa_handler = SIG_IGN;
if(sigaction(SIGPIPE, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
act.sa_handler = sigQuitHandler;
if(sigaction(SIGINT, &act, NULL) < 0 || \
sigaction(SIGTERM, &act, NULL) < 0 || \
sigaction(SIGQUIT, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
#if defined(DEBUG_FLAG)
/*
#if defined(OS_LINUX)
memset(&act, 0, sizeof(act));
act.sa_sigaction = sigSegvHandler;
act.sa_flags = SA_SIGINFO;
if (sigaction(SIGSEGV, &act, NULL) < 0 || \
sigaction(SIGABRT, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
#endif
*/
memset(&act, 0, sizeof(act));
sigemptyset(&act.sa_mask);
act.sa_handler = sigDumpHandler;
if(sigaction(SIGUSR1, &act, NULL) < 0 || \
sigaction(SIGUSR2, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
#endif
#ifdef WITH_HTTPD
if (!g_http_params.disabled)
{
if ((result=storage_httpd_start(g_bind_addr)) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"storage_httpd_start fail, " \
"program exit!", __LINE__);
return result;
}
}
#endif
if ((result=tracker_report_thread_start()) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"tracker_report_thread_start fail, " \
"program exit!", __LINE__);
g_continue_flag = false;
storage_func_destroy();
log_destroy();
return result;
}
scheduleArray.entries = scheduleEntries;
memset(scheduleEntries, 0, sizeof(scheduleEntries));
scheduleEntries[0].id = 1;
scheduleEntries[0].time_base.hour = TIME_NONE;
scheduleEntries[0].time_base.minute = TIME_NONE;
scheduleEntries[0].interval = g_sync_log_buff_interval;
scheduleEntries[0].task_func = log_sync_func;
scheduleEntries[0].func_args = &g_log_context;
scheduleEntries[1].id = 2;
scheduleEntries[1].time_base.hour = TIME_NONE;
scheduleEntries[1].time_base.minute = TIME_NONE;
scheduleEntries[1].interval = g_sync_binlog_buff_interval;
scheduleEntries[1].task_func = fdfs_binlog_sync_func;
scheduleEntries[1].func_args = NULL;
scheduleEntries[2].id = 3;
scheduleEntries[2].time_base.hour = TIME_NONE;
scheduleEntries[2].time_base.minute = TIME_NONE;
scheduleEntries[2].interval = g_sync_stat_file_interval;
scheduleEntries[2].task_func = fdfs_stat_file_sync_func;
scheduleEntries[2].func_args = NULL;
scheduleArray.count = 3;
if (g_if_use_trunk_file)
{
scheduleEntries[scheduleArray.count].id = 4;
scheduleEntries[scheduleArray.count].time_base.hour = TIME_NONE;
scheduleEntries[scheduleArray.count].time_base.minute=TIME_NONE;
scheduleEntries[scheduleArray.count].interval = 1;
scheduleEntries[scheduleArray.count].task_func = \
trunk_binlog_sync_func;
scheduleEntries[scheduleArray.count].func_args = NULL;
scheduleArray.count++;
}
if (g_use_access_log)
{
scheduleEntries[scheduleArray.count].id = 5;
scheduleEntries[scheduleArray.count].time_base.hour = TIME_NONE;
scheduleEntries[scheduleArray.count].time_base.minute=TIME_NONE;
scheduleEntries[scheduleArray.count].interval = \
g_sync_log_buff_interval;
scheduleEntries[scheduleArray.count].task_func = log_sync_func;
scheduleEntries[scheduleArray.count].func_args = \
&g_access_log_context;
scheduleArray.count++;
if (g_rotate_access_log)
{
scheduleEntries[scheduleArray.count].id = 6;
scheduleEntries[scheduleArray.count].time_base = \
g_access_log_rotate_time;
scheduleEntries[scheduleArray.count].interval = \
24 * 3600;
scheduleEntries[scheduleArray.count].task_func = \
log_notify_rotate;
scheduleEntries[scheduleArray.count].func_args = \
&g_access_log_context;
scheduleArray.count++;
}
}
if (g_rotate_error_log)
{
scheduleEntries[scheduleArray.count].id = 7;
scheduleEntries[scheduleArray.count].time_base = \
g_error_log_rotate_time;
scheduleEntries[scheduleArray.count].interval = \
24 * 3600;
scheduleEntries[scheduleArray.count].task_func = \
log_notify_rotate;
scheduleEntries[scheduleArray.count].func_args = \
&g_log_context;
scheduleArray.count++;
}
if ((result=sched_start(&scheduleArray, &schedule_tid, \
g_thread_stack_size, (bool * volatile)&g_continue_flag)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
if ((result=set_run_by(g_run_by_group, g_run_by_user)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
if ((result=storage_dio_init()) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
log_set_cache(true);
bTerminateFlag = false;
bAcceptEndFlag = false;
storage_accept_loop(sock);
bAcceptEndFlag = true;
fdfs_binlog_sync_func(NULL); //binlog fsync
if (g_schedule_flag)
{
pthread_kill(schedule_tid, SIGINT);
}
storage_terminate_threads();
storage_dio_terminate();
kill_tracker_report_threads();
kill_storage_sync_threads();
wait_count = 0;
while (g_storage_thread_count != 0 || \
g_dio_thread_count != 0 || \
g_tracker_reporter_count > 0 || \
g_schedule_flag)
{
/*
#if defined(DEBUG_FLAG) && defined(OS_LINUX)
if (bSegmentFault)
{
sleep(5);
break;
}
#endif
*/
usleep(10000);
if (++wait_count > 6000)
{
logWarning("waiting timeout, exit!");
break;
}
}
tracker_report_destroy();
storage_service_destroy();
storage_sync_destroy();
storage_func_destroy();
if (g_if_use_trunk_file)
{
trunk_sync_destroy();
storage_trunk_destroy();
}
logInfo("exit normally.\n");
log_destroy();
delete_pid_file(pidFilename);
return 0;
}
int main(int argc, char *argv[])
{
char *conf_filename;
int result;
int sock;
pthread_t schedule_tid;
struct sigaction act;
ScheduleEntry scheduleEntries[SCHEDULE_ENTRIES_COUNT];
ScheduleArray scheduleArray;
if (argc < 2)
{
printf("Usage: %s <config_file>\n", argv[0]);
return 1;
}
g_current_time = time(NULL);
g_up_time = g_current_time;
srand(g_up_time);
log_init();
#if defined(DEBUG_FLAG) && defined(OS_LINUX)
if (getExeAbsoluteFilename(argv[0], g_exe_name, \
sizeof(g_exe_name)) == NULL)
{
logCrit("exit abnormally!\n");
log_destroy();
return errno != 0 ? errno : ENOENT;
}
#endif
conf_filename = argv[1];
memset(bind_addr, 0, sizeof(bind_addr));
if ((result=tracker_load_from_conf_file(conf_filename, \
bind_addr, sizeof(bind_addr))) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
if ((result=tracker_load_status_from_file(&g_tracker_last_status)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
base64_init_ex(&g_base64_context, 0, '-', '_', '.');
if ((result=set_rand_seed()) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"set_rand_seed fail, program exit!", __LINE__);
return result;
}
if ((result=tracker_mem_init()) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
sock = socketServer(bind_addr, g_server_port, &result);
if (sock < 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
if ((result=tcpsetserveropt(sock, g_fdfs_network_timeout)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
daemon_init(true);
umask(0);
if (dup2(g_log_context.log_fd, STDOUT_FILENO) < 0 || \
dup2(g_log_context.log_fd, STDERR_FILENO) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call dup2 fail, errno: %d, error info: %s, " \
"program exit!", __LINE__, errno, STRERROR(errno));
g_continue_flag = false;
return errno;
}
if ((result=tracker_service_init()) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
memset(&act, 0, sizeof(act));
sigemptyset(&act.sa_mask);
act.sa_handler = sigUsrHandler;
if(sigaction(SIGUSR1, &act, NULL) < 0 || \
sigaction(SIGUSR2, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
act.sa_handler = sigHupHandler;
if(sigaction(SIGHUP, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
act.sa_handler = SIG_IGN;
if(sigaction(SIGPIPE, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
act.sa_handler = sigQuitHandler;
if(sigaction(SIGINT, &act, NULL) < 0 || \
sigaction(SIGTERM, &act, NULL) < 0 || \
sigaction(SIGQUIT, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
#if defined(DEBUG_FLAG)
/*
#if defined(OS_LINUX)
memset(&act, 0, sizeof(act));
sigemptyset(&act.sa_mask);
act.sa_sigaction = sigSegvHandler;
act.sa_flags = SA_SIGINFO;
if (sigaction(SIGSEGV, &act, NULL) < 0 || \
sigaction(SIGABRT, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
#endif
*/
memset(&act, 0, sizeof(act));
sigemptyset(&act.sa_mask);
act.sa_handler = sigDumpHandler;
if(sigaction(SIGUSR1, &act, NULL) < 0 || \
sigaction(SIGUSR2, &act, NULL) < 0)
{
logCrit("file: "__FILE__", line: %d, " \
"call sigaction fail, errno: %d, error info: %s", \
__LINE__, errno, STRERROR(errno));
logCrit("exit abnormally!\n");
return errno;
}
#endif
#ifdef WITH_HTTPD
if (!g_http_params.disabled)
{
if ((result=tracker_httpd_start(bind_addr)) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"tracker_httpd_start fail, program exit!", \
__LINE__);
return result;
}
}
if ((result=tracker_http_check_start()) != 0)
{
logCrit("file: "__FILE__", line: %d, " \
"tracker_http_check_start fail, " \
"program exit!", __LINE__);
return result;
}
#endif
if ((result=set_run_by(g_run_by_group, g_run_by_user)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
scheduleArray.entries = scheduleEntries;
memset(scheduleEntries, 0, sizeof(scheduleEntries));
scheduleEntries[0].id = 1;
scheduleEntries[0].time_base.hour = TIME_NONE;
scheduleEntries[0].time_base.minute = TIME_NONE;
scheduleEntries[0].interval = g_sync_log_buff_interval;
scheduleEntries[0].task_func = log_sync_func;
scheduleEntries[0].func_args = &g_log_context;
scheduleEntries[1].id = 2;
scheduleEntries[1].time_base.hour = TIME_NONE;
scheduleEntries[1].time_base.minute = TIME_NONE;
scheduleEntries[1].interval = g_check_active_interval;
scheduleEntries[1].task_func = tracker_mem_check_alive;
scheduleEntries[1].func_args = NULL;
scheduleEntries[2].id = 3;
scheduleEntries[2].time_base.hour = 0;
scheduleEntries[2].time_base.minute = 0;
scheduleEntries[2].interval = TRACKER_SYNC_STATUS_FILE_INTERVAL;
scheduleEntries[2].task_func = tracker_write_status_to_file;
scheduleEntries[2].func_args = NULL;
scheduleArray.count = 3;
if (g_rotate_error_log)
{
scheduleEntries[scheduleArray.count].id = 4;
scheduleEntries[scheduleArray.count].time_base = \
g_error_log_rotate_time;
scheduleEntries[scheduleArray.count].interval = \
24 * 3600;
scheduleEntries[scheduleArray.count].task_func = \
log_notify_rotate;
scheduleEntries[scheduleArray.count].func_args = \
&g_log_context;
scheduleArray.count++;
}
if ((result=sched_start(&scheduleArray, &schedule_tid, \
g_thread_stack_size, (bool * volatile)&g_continue_flag)) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
if ((result=tracker_relationship_init()) != 0)
{
logCrit("exit abnormally!\n");
log_destroy();
return result;
}
log_set_cache(true);
bTerminateFlag = false;
bAcceptEndFlag = false;
tracker_accept_loop(sock);
bAcceptEndFlag = true;
if (g_schedule_flag)
{
pthread_kill(schedule_tid, SIGINT);
}
tracker_terminate_threads();
#ifdef WITH_HTTPD
if (g_http_check_flag)
{
tracker_http_check_stop();
}
while (g_http_check_flag)
{
usleep(50000);
}
#endif
while ((g_tracker_thread_count != 0) || g_schedule_flag)
{
/*
#if defined(DEBUG_FLAG) && defined(OS_LINUX)
if (bSegmentFault)
{
sleep(5);
break;
}
#endif
*/
usleep(50000);
}
tracker_mem_destroy();
tracker_service_destroy();
tracker_relationship_destroy();
logInfo("exit normally.\n");
log_destroy();
return 0;
}