//create worker child proccess
static int swFactoryProcess_manager_start(swFactory *factory)
{
swFactoryProcess *object = factory->object;
int i, pid, ret;
int writer_pti;
swServer *serv = factory->ptr;
#if SW_WORKER_IPC_MODE == 2
#define _SW_PATH_BUF_LEN 128
//这里使用ftok来获取消息队列的key
char path_buf[_SW_PATH_BUF_LEN];
char *path_ptr = getcwd(path_buf, _SW_PATH_BUF_LEN);
//读数据队列
if(swQueueMsg_create(&object->rd_queue, 1, ftok(path_ptr, 1), 1) < 0)
{
swError("[Master] swPipeMsg_create[In] fail. Error: %s [%d]", strerror(errno), errno);
return SW_ERR;
}
//为TCP创建写队列
if (serv->have_tcp_sock == 1)
{
//写数据队列
if(swQueueMsg_create(&object->wt_queue, 1, ftok(path_ptr, 2), 1) < 0)
{
swError("[Master] swPipeMsg_create[out] fail. Error: %s [%d]", strerror(errno), errno);
return SW_ERR;
}
}
#else
object->pipes = sw_calloc(object->worker_num, sizeof(swPipe));
if (object->pipes == NULL)
{
swError("malloc[worker_pipes] fail. Error: %s [%d]", strerror(errno), errno);
return SW_ERR;
}
//worker进程的pipes
for (i = 0; i < object->worker_num; i++)
{
if (swPipeUnsock_create(&object->pipes[i], 1, SOCK_DGRAM) < 0)
{
swError("create unix socket[1] fail");
return SW_ERR;
}
object->workers[i].pipe_master = object->pipes[i].getFd(&object->pipes[i], 1);
object->workers[i].pipe_worker = object->pipes[i].getFd(&object->pipes[i], 0);
}
#endif
if (serv->task_worker_num > 0)
{
if (swProcessPool_create(&SwooleG.task_workers, serv->task_worker_num, serv->max_request)< 0)
{
swWarn("[Master] create task_workers fail");
return SW_ERR;
}
//设置指针和回调函数
SwooleG.task_workers.ptr = serv;
SwooleG.task_workers.onTask = swTaskWorker_onTask;
}
pid = fork();
switch (pid)
{
//创建manager进程
case 0:
for (i = 0; i < object->worker_num; i++)
{
// close(worker_pipes[i].pipes[0]);
writer_pti = (i % object->writer_num);
object->workers[i].writer_id = writer_pti;
pid = swFactoryProcess_worker_spawn(factory, i);
if (pid < 0)
{
swError("Fork worker process fail");
return SW_ERR;
}
else
{
object->workers[i].pid = pid;
}
}
//创建task_worker进程
if (serv->task_worker_num > 0)
{
swProcessPool_start(&SwooleG.task_workers);
}
//标识为管理进程
SwooleG.process_type = SW_PROCESS_MANAGER;
ret = swFactoryProcess_manager_loop(factory);
exit(ret);
break;
//主进程
default:
object->manager_pid = pid;
//TCP需要writer线程
if (serv->have_tcp_sock == 1)
{
int ret = swFactoryProcess_writer_start(factory);
if (ret < 0)
{
return SW_ERR;
}
}
#if SW_WORKER_IPC_MODE != 2
for (i = 0; i < object->worker_num; i++)
{
writer_pti = (i % object->writer_num);
object->workers[i].writer_id = writer_pti;
if (serv->have_tcp_sock == 1)
{
//将写pipe设置到writer的reactor中
object->writers[writer_pti].reactor.add(&(object->writers[writer_pti].reactor),
object->workers[i].pipe_master, SW_FD_PIPE);
}
}
#endif
break;
case -1:
swError("[swFactoryProcess_worker_start]fork manager process fail\n");
return SW_ERR;
}
return SW_OK;
}
//create worker child proccess
static int swFactoryProcess_manager_start(swFactory *factory)
{
swFactoryProcess *object = factory->object;
int i, pid, ret;
int reactor_pti;
swServer *serv = factory->ptr;
if (serv->ipc_mode == SW_IPC_MSGQUEUE)
{
//读数据队列
if (swQueueMsg_create(&object->rd_queue, 1, serv->message_queue_key, 1) < 0)
{
swError("[Master] swPipeMsg_create[In] fail. Error: %s [%d]", strerror(errno), errno);
return SW_ERR;
}
//为TCP创建写队列
if (serv->have_tcp_sock == 1)
{
//写数据队列
if (swQueueMsg_create(&object->wt_queue, 1, serv->message_queue_key + 1, 1) < 0)
{
swError("[Master] swPipeMsg_create[out] fail. Error: %s [%d]", strerror(errno), errno);
return SW_ERR;
}
}
}
else
{
object->pipes = sw_calloc(serv->worker_num, sizeof(swPipe));
if (object->pipes == NULL)
{
swError("malloc[worker_pipes] fail. Error: %s [%d]", strerror(errno), errno);
return SW_ERR;
}
//worker进程的pipes
for (i = 0; i < serv->worker_num; i++)
{
if (swPipeUnsock_create(&object->pipes[i], 1, SOCK_DGRAM) < 0)
{
swError("create unix socket[1] fail");
return SW_ERR;
}
object->workers[i].pipe_master = object->pipes[i].getFd(&object->pipes[i], 1);
object->workers[i].pipe_worker = object->pipes[i].getFd(&object->pipes[i], 0);
}
}
if (SwooleG.task_worker_num > 0)
{
key_t msgqueue_key = 0;
if (SwooleG.task_ipc_mode > 0)
{
msgqueue_key = serv->message_queue_key + 2;
}
if (swProcessPool_create(&SwooleG.task_workers, SwooleG.task_worker_num, serv->max_request, msgqueue_key)< 0)
{
swWarn("[Master] create task_workers fail");
return SW_ERR;
}
//设置指针和回调函数
SwooleG.task_workers.ptr = serv;
SwooleG.task_workers.onTask = swTaskWorker_onTask;
if (serv->onWorkerStart != NULL)
{
SwooleG.task_workers.onWorkerStart = swTaskWorker_onWorkerStart;
}
}
pid = fork();
switch (pid)
{
//创建manager进程
case 0:
//创建子进程
for (i = 0; i < serv->worker_num; i++)
{
//close(worker_pipes[i].pipes[0]);
reactor_pti = (i % serv->writer_num);
object->workers[i].reactor_id = reactor_pti;
pid = swFactoryProcess_worker_spawn(factory, i);
if (pid < 0)
{
swError("Fork worker process fail");
return SW_ERR;
}
else
{
object->workers[i].pid = pid;
}
}
/**
* create task worker pool
*/
if (SwooleG.task_worker_num > 0)
{
swProcessPool_start(&SwooleG.task_workers);
}
//标识为管理进程
SwooleG.process_type = SW_PROCESS_MANAGER;
ret = swFactoryProcess_manager_loop(factory);
exit(ret);
break;
//主进程
default:
SwooleGS->manager_pid = pid;
break;
case -1:
swError("[swFactoryProcess_worker_start]fork manager process fail");
return SW_ERR;
}
return SW_OK;
}
