Swoole 源码分析——Server 模块之 Stream 模式 | Laravel China 社区 - 高品质的 Laravel 和 PHP 开发者社区
[Swoole 源码分析——Server 模块之 Stream 模式 | Laravel China 社区 - 高品质的 Laravel 和 PHP 开发者社区]
swReactorThread_dispatch 发送数据
reactor 线程会通过 swReactorThread_dispatch 发送数据,当采用 stream 发送数据的时候,会调用 swStream_new 新建 stream,利用 swStream_send 发送数据。
int swReactorThread_dispatch(swConnection *conn, char *data, uint32_t length)
{
...
if (serv->dispatch_mode == SW_DISPATCH_STREAM)
{
swStream *stream = swStream_new(serv->stream_socket, 0, SW_SOCK_UNIX_STREAM);
if (stream == NULL)
{
return SW_ERR;
}
stream->response = swReactorThread_onStreamResponse;
stream->session_id = conn->session_id;
swListenPort *port = swServer_get_port(serv, conn->fd);
swStream_set_max_length(stream, port->protocol.package_max_length);
task.data.info.fd = conn->session_id;
task.data.info.type = SW_EVENT_PACKAGE_END;
task.data.info.len = 0;
if (swStream_send(stream, (char*) &task.data.info, sizeof(task.data.info)) < 0)
{
return SW_ERR;
}
if (swStream_send(stream, data, length) < 0)
{
stream->cancel = 1;
return SW_ERR;
}
return SW_OK;
}
...
}
swStream_new 新建 stream
- 可以看到,
stream自动采用包长检测的方法 - 该函数主要功能是设置各种回调函数
- 值得注意的是
swClient_create第三个参数代表是否异步。在这里设置的是 1,也就是说,无论connect还是send都是异步。
typedef struct _swStream
{
swString *buffer;
uint32_t session_id;
uint8_t cancel;
void (*response)(struct _swStream *stream, char *data, uint32_t length);
swClient client;
} swStream;
swStream* swStream_new(char *dst_host, int dst_port, int type)
{
swStream *stream = (swStream*) sw_malloc(sizeof(swStream));
bzero(stream, sizeof(swStream));
swClient *cli = &stream->client;
if (swClient_create(cli, type, 1) < 0)
{
swStream_free(stream);
return NULL;
}
cli->onConnect = swStream_onConnect;
cli->onReceive = swStream_onReceive;
cli->onError = swStream_onError;
cli->onClose = swStream_onClose;
cli->object = stream;
cli->open_length_check = 1;
swStream_set_protocol(&cli->protocol);
if (cli->connect(cli, dst_host, dst_port, -1, 0) < 0)
{
swSysError("failed to connect to [%s:%d].", dst_host, dst_port);
swStream_free(stream);
return NULL;
}
else
{
return stream;
}
}
void swStream_set_protocol(swProtocol *protocol)
{
protocol->get_package_length = swProtocol_get_package_length;
protocol->package_length_size = 4;
protocol->package_length_type = 'N';
protocol->package_body_offset = 4;
protocol->package_length_offset = 0;
}
swStream_onConnect 连接回调函数
swStream_onConnect不仅是连接成功的回调函数,还是每次onWrite写事件的回调函数,因此每次都需要调用cli->send函数,发送存储在stream->buffer数据。值得注意的是,每次发送数据,都要将数据长度存放在buffer的头部,否则包长检测会失败。
static void swStream_onConnect(swClient *cli)
{
swStream *stream = (swStream*) cli->object;
if (stream->cancel)
{
cli->close(cli);
}
*((uint32_t *) stream->buffer->str) = ntohl(stream->buffer->length - 4);
if (cli->send(cli, stream->buffer->str, stream->buffer->length, 0) < 0)
{
cli->close(cli);
}
else
{
swString_free(stream->buffer);
stream->buffer = NULL;
}
}
swStream_send 发送数据
swStream_send 函数并不是直接发送数据,而是将数据存储在 stream->buffer,等着写事件就绪之后调用 swStream_onConnect 发送数据。值得注意的是,每次新建 buffer 的时候,要预留 4 个字节来存储 buffer 的数据长度
int swStream_send(swStream *stream, char *data, size_t length)
{
if (stream->buffer == NULL)
{
stream->buffer = swString_new(swoole_size_align(length + 4, SwooleG.pagesize));
if (stream->buffer == NULL)
{
return SW_ERR;
}
stream->buffer->length = 4;
}
if (swString_append_ptr(stream->buffer, data, length) < 0)
{
return SW_ERR;
}
return SW_OK;
}
swStream_onReceive 函数
swStream_onReceive 函数是 stream 读事件就绪的回调函数,worker 进程发送给客户端的数据将会发送到本函数。如果 length 为 4,说明 worker 只发送了一个 length 的空数据包,代表着 worker 进程已消费完毕,这时我们可以关闭 stream。
static void swStream_onReceive(swClient *cli, char *data, uint32_t length)
{
swStream *stream = (swStream*) cli->object;
if (length == 4)
{
cli->socket->close_wait = 1;
}
else
{
stream->response(stream, data + 4, length - 4);
}
}
static void swReactorThread_onStreamResponse(swStream *stream, char *data, uint32_t length)
{
swSendData response;
swConnection *conn = swServer_connection_verify(SwooleG.serv, stream->session_id);
if (!conn)
{
swoole_error_log(SW_LOG_NOTICE, SW_ERROR_SESSION_NOT_EXIST, "connection[fd=%d] does not exists.", stream->session_id);
return;
}
response.info.fd = conn->session_id;
response.info.type = SW_EVENT_TCP;
response.info.len = 0;
response.length = length;
response.data = data;
swReactorThread_send(&response);
}
swWorker_onStreamAccept 接受连接请求
接受请求和主进程的 reactor 接受连接大致一致,略有不同的是 conn->socket_type 设置为了 SW_SOCK_UNIX_STREAM
static int swWorker_onStreamAccept(swReactor *reactor, swEvent *event)
{
int fd = 0;
swSocketAddress client_addr;
socklen_t client_addrlen = sizeof(client_addr);
#ifdef HAVE_ACCEPT4
fd = accept4(event->fd, (struct sockaddr *) &client_addr, &client_addrlen, SOCK_NONBLOCK | SOCK_CLOEXEC);
#else
fd = accept(event->fd, (struct sockaddr *) &client_addr, &client_addrlen);
#endif
if (fd < 0)
{
switch (errno)
{
case EINTR:
case EAGAIN:
return SW_OK;
default:
swoole_error_log(SW_LOG_ERROR, SW_ERROR_SYSTEM_CALL_FAIL, "accept() failed. Error: %s[%d]", strerror(errno),
errno);
return SW_OK;
}
}
#ifndef HAVE_ACCEPT4
else
{
swoole_fcntl_set_option(fd, 1, 1);
}
#endif
swConnection *conn = swReactor_get(reactor, fd);
bzero(conn, sizeof(swConnection));
conn->fd = fd;
conn->active = 1;
conn->socket_type = SW_SOCK_UNIX_STREAM;
memcpy(&conn->info.addr, &client_addr, sizeof(client_addr));
if (reactor->add(reactor, fd, SW_FD_STREAM | SW_EVENT_READ) < 0)
{
return SW_ERR;
}
return SW_OK;
}
swWorker_onStreamRead 读取数据
swWorker_onStreamRead 读取数据核心是调用 swProtocol_recv_check_length 函数收取数据放入 serv->buffer_pool 单链表中,swProtocol_recv_check_length 函数我们在 reactor 线程的事件循环中已经了解了,我们这里不再重复,我们知道,该函数获取数据之后,会调用 onPackage 函数,也就是 swWorker_onStreamPackage 函数
void swStream_set_protocol(swProtocol *protocol)
{
protocol->get_package_length = swProtocol_get_package_length;
protocol->package_length_size = 4;
protocol->package_length_type = 'N';
protocol->package_body_offset = 4;
protocol->package_length_offset = 0;
}
static int swWorker_onStreamRead(swReactor *reactor, swEvent *event)
{
swConnection *conn = event->socket;
swServer *serv = SwooleG.serv;
swProtocol *protocol = &serv->stream_protocol;
swString *buffer;
if (!event->socket->recv_buffer)
{
buffer = swLinkedList_shift(serv->buffer_pool);
if (buffer == NULL)
{
buffer = swString_new(8192);
if (!buffer)
{
return SW_ERR;
}
}
event->socket->recv_buffer = buffer;
}
else
{
buffer = event->socket->recv_buffer;
}
if (swProtocol_recv_check_length(protocol, conn, buffer) < 0)
{
swWorker_onStreamClose(reactor, event);
}
return SW_OK;
}
swWorker_onStreamPackage 函数
swWorker_onStreamPackage 函数用于将数据包投送到 swWorker_onTask 函数进行消费。消费完毕会发送一个只含长度 0 的数据包,告知 reactor worker 已经结束。
static int swWorker_onStreamPackage(swConnection *conn, char *data, uint32_t length)
{
swServer *serv = SwooleG.serv;
swEventData *task = (swEventData *) (data + 4);
serv->last_stream_fd = conn->fd;
swString *package = swWorker_get_buffer(serv, task->info.from_id);
uint32_t data_length = length - sizeof(task->info) - 4;
//merge data to package buffer
swString_append_ptr(package, data + sizeof(task->info) + 4, data_length);
swWorker_onTask(&serv->factory, task);
int _end = htonl(0);
SwooleG.main_reactor->write(SwooleG.main_reactor, conn->fd, (void *) &_end, sizeof(_end));
return SW_OK;
}
Original url: Access
Created at: 2018-10-10 17:53:54
Category: default
Tags: none
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