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WebRTC를 결합한 푸시

Before You Start

Please read the integration guide for Beauty AR Web.
Please read Getting Started and WebRTC Push to complete the basic settings and learn how to publish streams over WebRTC.

Directions

Step 1. Import the Beauty AR Web SDK

Add the following JavaScript script into the webpage (desktop) from which streams are to be published:
<script charset="utf-8" src="https://webar-static.tencent-cloud.com/ar-sdk/resources/latest/webar-sdk.umd.js"></script>
Note:
The above example uses a script tag to import the SDK. You can also import it using an npm package.

Step 2. Import the WebRTC publishing resources

Add the following JavaScript script into the webpage (desktop) from which streams are to be published:
<script src="https://video.sdk.qcloudecdn.com/web/TXLivePusher-2.0.0.min.js" charset="utf-8"></script>
Note:
Make sure you add the script to the body of the HTML. Adding it to the head may cause an error.

Step 3. Initialize the Beauty AR Web SDK

Sample code:
const { ArSdk } = window.AR;

/** ----- Authentication configuration ----- */

/**
Tencent Cloud account's APPID
*
* You can view your APPID in the [Account Center](https://console.tencentcloud.com/developer).
*/
const APPID = ''; // Set it to your Tencent Cloud account APPID.

/**
* Web LicenseKey
*
* Log in to the RT-Cube console and click [Web Licenses](https://console.tencentcloud.com/vcube/web) on the left sidebar. A license key will be automatically generated after you create a license.
*/
const LICENSE_KEY = ''; // Set it to your license key.

/**
* The token used to calculate the signature.
*
* Note: This method is only suitable for debugging. In a production environment, you should store the token and calculate the signature on your server. The front end can get the signature by calling an API. For details, see
* [Signature](https://cloud.tencent.com/document/product/616/71370#.E7.AD.BE.E5.90.8D.E6.96.B9.E6.B3.95)
*/
const token = ''; // Set it to your token.

/** ----------------------- */

/**
* Get the signature
*
* Note: This method is only suitable for debugging. In a production environment, you should calculate the signature on your server. The front end can get the signature by calling an API.
* Example:
* async function () {
* return fetch('http://xxx.com/get-ar-sign').then(res => res.json());
* };
*/
const getSignature = function () {
const timestamp = Math.round(new Date().getTime() / 1000);
const signature = sha256(timestamp + token + APPID + timestamp).toUpperCase();
return { signature, timestamp };
};

let w = 720;
let h = 480;

// Get the input stream
const stream = await navigator.mediaDevices.getUserMedia({
audio: true,
video: { width: w, height: h }
})

// The basic settings for the Tencent Effect SDK
const config = {
input: stream,
auth: {
licenseKey: LICENSE_KEY,
appId: APPID,
authFunc: getSignature
},
// Configure the initial effects (optional)
beautify: {
whiten: 0.1, // The brightening effect. Value range: 0-1.
dermabrasion: 0.5, // The smooth skin effect. Value range: 0-1.
lift: 0.3, // The slim face effect. Value range: 0-1.
shave: 0, // The V shape effect. Value range: 0-1.
eye: 0, // The big eyes effect. Value range: 0-1.
chin: 0, // The chin effect. Value range: 0-1.
……
},
language: 'en',
……
}

// Pass `config` to the Tencent Effect SDK
const ar = new ArSdk(config);

// You can display the effect and filter list in the `created` callback.
ar.on('created', () => {
// Get the built-in makeup effects and stickers
ar.getEffectList({
Type: 'Preset'
}).then((res) => {
const list = res.map(item => ({
"name": *item.Name,
id: item.EffectId,
cover: item.CoverUrl,
url: item.Url,
label: item.Label,
type: item.PresetType,
}));

const makeupList = list.filter(item=>item.label.indexOf('Makeup')>=0)
const stickerList = list.filter(item=>item.label.indexOf('Sticker')>=0)
// Show the makeup and sticker lists
renderMakeupList(makeupList);
renderStickerList(stickerList);

}).catch((e) => {
console.log(e);
});
// Get the built-in filters
ar.getCommonFilter().then((res) => {
const list = res.map(item => ({
"name": *item.Name,
id: item.EffectId,
cover: item.CoverUrl,
url: item.Url,
label: item.Label,
type: item.PresetType,
}));

// Show the filter list
renderFilterList(list);

}).catch((e) => {
console.log(e);
});
});

ar.on('ready', async (e) => {

// After receiving the `ready` callback, you can call `setBeautify`, `setEffect`, or `setFilter` to configure effects.

// For example, you can use `range input` to set the smooth skin effect:
$('#dermabrasion_range_input').change((e) => {
ar.setBeautify({
dermabrasion: e.target.value, // The smooth skin effect. Value range: 0-1.
});
});

// In the `created` callback, apply the effects based on user interactions with the makeup effect and sticker lists. The `setEffect` API supports three types of request parameters. For details, see the SDK integration guide.
$('#makeup_list li').click(() => {
ar.setEffect([{id: effect.id, intensity: 1}]);
});
$('#sticker_list li').click(() => {
ar.setEffect([{id: effect.id, intensity: 1}]);
});

// In the `created` callback, apply the filter based on user interactions with the filter list. The value `1` for the second parameter of `setFilter` indicates the filter strength. For details, see the SDK integration guide.
ar.setFilter(filterList[0].id, 1);
$('#filter_list li').click(() => {
ar.setFilter(filter.id, 1);
});

// Get the output stream of the Tencent Effect SDK
const arStream = await ar.getOutput();

});

ar.on('error', (e) => {
console.log(e);
});

To learn more about UI control, you can download our code package at the end of this document.

Step 4. Publish the stream

After getting the output stream in the ready callback of the SDK, publish it over WebRTC:
let livePusher = new TXLivePusher()
// Set the basic stream publishing parameters (begin)
let DOMAIN = 'Your push domain'
let AppName = 'Your app name'
let StreamName = 'Your stream name'
let txSecret = 'Your txSecret'
let txTime = 'Your txTime'
// Set the basic stream publishing parameters (end)

let pushUrl = `webrtc://${DOMAIN}/${AppName}/${StreamName}?txSecret=${txSecret}&txTime=${txTime}`

// Set the preview (optional)
livePusher.setRenderView('id_local_video')
// Capture the stream
livePusher.startCustomCapture(arStream).then(()=>{
// Publish the stream immediately (you can also use another API to control when to start publishing the stream)
livePusher.startPush(pushUrl)
})


In the above code, both txSecret and txTime need to be calculated. You can use the address generator of the CSS console to quickly generate the parameters and get the publishing URL. For detailed directions, see Address Generator. After the stream is successfully published (`startPush), you should be able to see the video with effects applied.

Step 5. Play the stream

Note:
For the example project, you need to start the web service of your device and make sure that the HTML file can be accessed via the specified port.
If you have an available playback domain, follow the steps in Live Playback to play the stream.
If you don’t have a playback domain, you can preview the stream in Stream Management of the CSS console.

Sample Code Package

You can download our sample code package here. The code for publishing over WebRTC is in AR_LEB_WEB.