Introduction to WebRTC protocols - Web APIs 编辑

Draft

This page is not complete.

This article introduces the protocols on top of which the WebRTC API is built.

ICE

Interactive Connectivity Establishment (ICE) is a framework to allow your web browser to connect with peers. There are many reasons why a straight up connection from Peer A to Peer B won’t work. It needs to bypass firewalls that would prevent opening connections, give you a unique address if like most situations your device doesn’t have a public IP address, and relay data through a server if your router doesn’t allow you to directly connect with peers. ICE uses STUN and/or TURN servers to accomplish this, as described below.

STUN

Session Traversal Utilities for NAT (STUN) (acronym within an acronym) is a protocol to discover your public address and determine any restrictions in your router that would prevent a direct connection with a peer.

The client will send a request to a STUN server on the Internet who will reply with the client’s public address and whether or not the client is accessible behind the router’s NAT.

An interaction between two users of a WebRTC application involving a STUN server.

NAT

Network Address Translation (NAT) is used to give your device a public IP address. A router will have a public IP address and every device connected to the router will have a private IP address. Requests will be translated from the device’s private IP to the router’s public IP with a unique port. That way you don’t need a unique public IP for each device but can still be discovered on the Internet.

Some routers will have restrictions on who can connect to devices on the network. This can mean that even though we have the public IP address found by the STUN server, not anyone can create a connection. In this situation we need to turn to TURN.

TURN

Some routers using NAT employ a restriction called ‘Symmetric NAT’. This means the router will only accept connections from peers you’ve previously connected to.

Traversal Using Relays around NAT (TURN) is meant to bypass the Symmetric NAT restriction by opening a connection with a TURN server and relaying all information through that server. You would create a connection with a TURN server and tell all peers to send packets to the server which will then be forwarded to you. This obviously comes with some overhead so it is only used if there are no other alternatives.

An interaction between two users of a WebRTC application involving STUN and TURN servers.

SDP

Session Description Protocol (SDP) is a standard for describing the multimedia content of the connection such as resolution, formats, codecs, encryption, etc. so that both peers can understand each other once the data is transferring. This is, in essence, the metadata describing the content and not the media content itself.

Technically, then, SDP is not truly a protocol, but a data format used to describe connection that shares media between devices.

Documenting SDP is well outside the scope of this documentation; however, there are a few things worth noting here.

Structure

SDP consists of one or more lines of UTF-8 text, each beginning with a one-character type, followed by an equals sign ("="), followed by structured text comprising a value or description, whose format depends on the type. The lines of text that begin with a given letter are generally referred to as "letter-lines". For example, lines providing media descriptions have the type "m", so those lines are referred to as "m-lines."

For more information

To learn more about SDP, see the following useful resources:

如果你对这篇内容有疑问,欢迎到本站社区发帖提问 参与讨论,获取更多帮助,或者扫码二维码加入 Web 技术交流群。

扫码二维码加入Web技术交流群

发布评论

需要 登录 才能够评论, 你可以免费 注册 一个本站的账号。
列表为空,暂无数据

词条统计

浏览:188 次

字数:5238

最后编辑:7年前

编辑次数:0 次

    我们使用 Cookies 和其他技术来定制您的体验包括您的登录状态等。通过阅读我们的 隐私政策 了解更多相关信息。 单击 接受 或继续使用网站,即表示您同意使用 Cookies 和您的相关数据。
    原文