传统业务实现 Websocket 并不难,然而函数计算基本上都是事件驱动,不支持长链接操作。如果将函数计算与 API 网关结合,是否可以有 Websocket 的实现方案呢?
WebSocket 协议是基于 TCP 的一种新的网络协议。它实现了浏览器与服务器全双工 (full-duplex) 通信,即允许服务器主动发送信息给客户端。WebSocket 在服务端有数据推送需求时,可以主动发送数据至客户端。而原有 HTTP 协议的服务端对于需推送的数据,仅能通过轮询或 long poll 的方式来让客户端获得。
由于云函数是无状态且以触发式运行,即在有事件到来时才会被触发。因此,为了实现 WebSocket,云函数 SCF 与 API 网关相结合,通过 API 网关承接及保持与客户端的连接。您可以认为云函数与 API 网关一起实现了服务端。当客户端有消息发出时,会先传递给 API 网关,再由 API 网关触发云函数执行。当服务端云函数要向客户端发送消息时,会先由云函数将消息 POST 到 API 网关的反向推送链接,再由 API 网关向客户端完成消息的推送。
具体的实现架构如下:
对于 WebSocket 的整个生命周期,主要由以下几个事件组成:
对于 WebSocket 整个生命周期的事件,云函数和 API 网关的处理过程如下:
因此,云函数与 API 网关之间的交互,需要由 3 类云函数来承载:
根据腾讯云官网提供的该功能的整体架构图:
这里我们可以使用对象存储 COS 作为持久化的方案,当用户建立链接存储 ConnectionId
到 COS 中,当用户断开连接删除该链接 ID 。
其中注册函数:
# -*- coding: utf8 -*-
import os
from qcloud_cos_v5 import CosConfig
from qcloud_cos_v5 import CosS3Client
bucket = os.environ.get('bucket')
region = os.environ.get('region')
secret_id = os.environ.get('secret_id')
secret_key = os.environ.get('secret_key')
cosClient = CosS3Client(CosConfig(Region=region, SecretId=secret_id, SecretKey=secret_key))
def main_handler(event, context):
print("event is %s" % event)
connectionID = event['websocket']['secConnectionID']
retmsg = {}
retmsg['errNo'] = 0
retmsg['errMsg'] = "ok"
retmsg['websocket'] = {
"action": "connecting",
"secConnectionID": connectionID
}
cosClient.put_object(
Bucket=bucket,
Body='websocket'.encode("utf-8"),
Key=str(connectionID),
EnableMD5=False
)
return retmsg
传输函数:
# -*- coding: utf8 -*-
import os
import json
import requests
from qcloud_cos_v5 import CosConfig
from qcloud_cos_v5 import CosS3Client
bucket = os.environ.get('bucket')
region = os.environ.get('region')
secret_id = os.environ.get('secret_id')
secret_key = os.environ.get('secret_key')
cosClient = CosS3Client(CosConfig(Region=region, SecretId=secret_id, SecretKey=secret_key))
sendbackHost = os.environ.get("url")
def Get_ConnectionID_List():
response = cosClient.list_objects(
Bucket=bucket,
)
return [eve['Key'] for eve in response['Contents']]
def send(connectionID, data):
retmsg = {}
retmsg['websocket'] = {}
retmsg['websocket']['action'] = "data send"
retmsg['websocket']['secConnectionID'] = connectionID
retmsg['websocket']['dataType'] = 'text'
retmsg['websocket']['data'] = data
requests.post(sendbackHost, json=retmsg)
def main_handler(event, context):
print("event is %s" % event)
connectionID_List = Get_ConnectionID_List()
connectionID = event['websocket']['secConnectionID']
count = len(connectionID_List)
data = event['websocket']['data'] + "(===Online people:" + str(count) + "===)"
for ID in connectionID_List:
if ID != connectionID:
send(ID, data)
return "send success"
清理函数:
# -*- coding: utf8 -*-
import os
import requests
from qcloud_cos_v5 import CosConfig
from qcloud_cos_v5 import CosS3Client
bucket = os.environ.get('bucket')
region = os.environ.get('region')
secret_id = os.environ.get('secret_id')
secret_key = os.environ.get('secret_key')
cosClient = CosS3Client(CosConfig(Region=region, SecretId=secret_id, SecretKey=secret_key))
sendbackHost = os.environ.get("url")
def main_handler(event, context):
print("event is %s" % event)
connectionID = event['websocket']['secConnectionID']
retmsg = {}
retmsg['websocket'] = {}
retmsg['websocket']['action'] = "closing"
retmsg['websocket']['secConnectionID'] = connectionID
requests.post(sendbackHost, json=retmsg)
cosClient.delete_object(
Bucket=bucket,
Key=str(connectionID),
)
return event
Yaml 文件如下:
Conf:
component: "serverless-global"
inputs:
region: ap-guangzhou
bucket: chat-cos-1256773370
secret_id:
secret_key:
myBucket:
component: '@serverless/tencent-cos'
inputs:
bucket: ${Conf.bucket}
region: ${Conf.region}
restApi:
component: '@serverless/tencent-apigateway'
inputs:
region: ${Conf.region}
protocols:
- http
- https
serviceName: ChatDemo
environment: release
endpoints:
- path: /
method: GET
protocol: WEBSOCKET
serviceTimeout: 800
function:
transportFunctionName: ChatTrans
registerFunctionName: ChatReg
cleanupFunctionName: ChatClean
ChatReg:
component: "@serverless/tencent-scf"
inputs:
name: ChatReg
codeUri: ./code
handler: reg.main_handler
runtime: Python3.6
region: ${Conf.region}
environment:
variables:
region: ${Conf.region}
bucket: ${Conf.bucket}
secret_id: ${Conf.secret_id}
secret_key: ${Conf.secret_key}
url: http://set-gwm9thyc.cb-guangzhou.apigateway.tencentyun.com/api-etj7lhtw
ChatTrans:
component: "@serverless/tencent-scf"
inputs:
name: ChatTrans
codeUri: ./code
handler: trans.main_handler
runtime: Python3.6
region: ${Conf.region}
environment:
variables:
region: ${Conf.region}
bucket: ${Conf.bucket}
secret_id: ${Conf.secret_id}
secret_key: ${Conf.secret_key}
url: http://set-gwm9thyc.cb-guangzhou.apigateway.tencentyun.com/api-etj7lhtw
ChatClean:
component: "@serverless/tencent-scf"
inputs:
name: ChatClean
codeUri: ./code
handler: clean.main_handler
runtime: Python3.6
region: ${Conf.region}
environment:
variables:
region: ${Conf.region}
bucket: ${Conf.bucket}
secret_id: ${Conf.secret_id}
secret_key: ${Conf.secret_key}
url: http://set-gwm9thyc.cb-guangzhou.apigateway.tencentyun.com/api-etj7lhtw
注意,这里需要先部署 API 网关。当部署完成,获得回推地址,将回推地址以 url 的形式写入到对应函数的环境变量中:
理论上应该是可以通过 ${restApi.url[0].internalDomain}
自动获得到 url 的,但是我并没有成功获得到这个 url,只能先部署 API 网关,获得到这个地址之后,再重新部署。
部署完成之后,我们可以编写 HTML 代码,实现可视化的 Websocket Client,其核心的 JavaScript 代码为:
window.onload = function () {
var conn;
var msg = document.getElementById("msg");
var log = document.getElementById("log");
function appendLog(item) {
var doScroll = log.scrollTop === log.scrollHeight - log.clientHeight;
log.appendChild(item);
if (doScroll) {
log.scrollTop = log.scrollHeight - log.clientHeight;
}
}
document.getElementById("form").onsubmit = function () {
if (!conn) {
return false;
}
if (!msg.value) {
return false;
}
conn.send(msg.value);
//msg.value = "";
var item = document.createElement("div");
item.innerText = "发送↑:";
appendLog(item);
var item = document.createElement("div");
item.innerText = msg.value;
appendLog(item);
return false;
};
if (window["WebSocket"]) {
//替换为 websocket 连接地址
conn = new WebSocket("ws://service-01era6ni-1256773370.gz.apigw.tencentcs.com/release/");
conn.onclose = function (evt) {
var item = document.createElement("div");
item.innerHTML = "<b>Connection closed.</b>";
appendLog(item);
};
conn.onmessage = function (evt) {
var item = document.createElement("div");
item.innerText = "接收↓:";
appendLog(item);
var messages = evt.data.split('\n');
for (var i = 0; i < messages.length; i++) {
var item = document.createElement("div");
item.innerText = messages[i];
appendLog(item);
}
};
} else {
var item = document.createElement("div");
item.innerHTML = "<b>Your browser does not support WebSockets.</b>";
appendLog(item);
}
};
完成之后,我们打开两个页面,进行测试:
通过云函数 + API 网关进行 Websocket 的实践,绝对不仅仅是一个聊天工具这么简单,它可以用在很多方面,例如通过 Websocket 进行实时日志系统的制作等。
单独的函数计算,仅仅是一个计算平台,只有和周边的 BaaS 结合,才能展示出 Serverless 架构的价值和真正的能力。这也是为什么很多人说 Serverless=FaaS+BaaS 的一个原因。
期待更多小伙伴,可以通过 Serverless 架构,创造出更多有趣的应用。
这是一个专为移动设备优化的页面(即为了让你能够在 Google 搜索结果里秒开这个页面),如果你希望参与 V2EX 社区的讨论,你可以继续到 V2EX 上打开本讨论主题的完整版本。
V2EX 是创意工作者们的社区,是一个分享自己正在做的有趣事物、交流想法,可以遇见新朋友甚至新机会的地方。
V2EX is a community of developers, designers and creative people.