mirror of
https://github.com/koush/scrypted.git
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170 lines
6.3 KiB
TypeScript
170 lines
6.3 KiB
TypeScript
import { Deferred } from "@scrypted/common/src/deferred";
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import { ffmpegLogInitialOutput, safeKillFFmpeg, safePrintFFmpegArguments } from "@scrypted/common/src/media-helpers";
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import { readLength, readLine } from "@scrypted/common/src/read-stream";
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import sdk, { FFmpegInput, Image, ImageFormat, ImageOptions, MediaObject, ScryptedDeviceBase, ScryptedMimeTypes, VideoFrame, VideoFrameGenerator, VideoFrameGeneratorOptions } from "@scrypted/sdk";
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import child_process from 'child_process';
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import { Readable } from 'stream';
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interface RawFrame {
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width: number;
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height: number;
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data: Buffer;
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}
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async function createRawImageMediaObject(image: RawImage): Promise<VideoFrame & MediaObject> {
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const ret = await sdk.mediaManager.createMediaObject(image, ScryptedMimeTypes.Image, {
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format: null,
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timestamp: 0,
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width: image.width,
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height: image.height,
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queued: 0,
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toBuffer: (options: ImageOptions) => image.toBuffer(options),
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toImage: (options: ImageOptions) => image.toImage(options),
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flush: async () => { },
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});
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return ret;
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}
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class RawImage implements Image, RawFrame {
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constructor(public data: Buffer, public width: number, public height: number, public format: ImageFormat) {
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}
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checkOptions(options: ImageOptions) {
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if (options?.resize || options?.crop)
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throw new Error('resize and crop are not supported');
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if (options?.format && options?.format !== this.format)
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throw new Error('format not supported');
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}
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async toBuffer(options: ImageOptions) {
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this.checkOptions(options);
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return this.data;
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}
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async toImage(options: ImageOptions) {
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this.checkOptions(options);
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return createRawImageMediaObject(this);
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}
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}
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export class FFmpegVideoFrameGenerator extends ScryptedDeviceBase implements VideoFrameGenerator {
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async *generateVideoFramesInternal(mediaObject: MediaObject, options?: VideoFrameGeneratorOptions, filter?: (videoFrame: VideoFrame & MediaObject) => Promise<boolean>): AsyncGenerator<VideoFrame & MediaObject, any, unknown> {
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const ffmpegInput = await sdk.mediaManager.convertMediaObjectToJSON<FFmpegInput>(mediaObject, ScryptedMimeTypes.FFmpegInput);
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const gray = options?.format === 'gray';
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const channels = gray ? 1 : 3;
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const format: ImageFormat = gray ? 'gray' : 'rgb';
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const vf: string[] = [];
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if (options?.fps)
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vf.push(`fps=${options.fps}`);
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if (options.resize)
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vf.push(`scale=${options.resize.width}:${options.resize.height}`);
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const args = [
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'-hide_banner',
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//'-hwaccel', 'auto',
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...ffmpegInput.inputArguments,
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'-vcodec', 'pam',
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'-pix_fmt', gray ? 'gray' : 'rgb24',
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...vf.length ? [
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'-vf',
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vf.join(','),
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] : [],
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'-f', 'image2pipe',
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'pipe:3',
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];
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// this seems to reduce latency.
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// addVideoFilterArguments(args, 'fps=10', 'fps');
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const cp = child_process.spawn(await sdk.mediaManager.getFFmpegPath(), args, {
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stdio: ['pipe', 'pipe', 'pipe', 'pipe'],
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});
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const console = mediaObject?.sourceId ? sdk.deviceManager.getMixinConsole(mediaObject.sourceId) : this.console;
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safePrintFFmpegArguments(console, args);
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ffmpegLogInitialOutput(console, cp);
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let finished = false;
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let frameDeferred: Deferred<RawFrame>;
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const reader = async () => {
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try {
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const readable = cp.stdio[3] as Readable;
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const headers = new Map<string, string>();
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while (!finished) {
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const line = await readLine(readable);
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if (line !== 'ENDHDR') {
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const [key, value] = line.split(' ');
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headers[key] = value;
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continue;
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}
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if (headers['TUPLTYPE'] !== 'RGB' && headers['TUPLTYPE'] !== 'GRAYSCALE')
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throw new Error(`Unexpected TUPLTYPE in PAM stream: ${headers['TUPLTYPE']}`);
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const width = parseInt(headers['WIDTH']);
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const height = parseInt(headers['HEIGHT']);
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if (!width || !height)
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throw new Error('Invalid dimensions in PAM stream');
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const length = width * height * channels;
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headers.clear();
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const data = await readLength(readable, length);
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if (frameDeferred) {
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const f = frameDeferred;
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frameDeferred = undefined;
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f.resolve({
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width,
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height,
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data,
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});
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}
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else {
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// this.console.warn('skipped frame');
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}
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}
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}
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catch (e) {
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}
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finally {
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console.log('finished reader');
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finished = true;
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frameDeferred?.reject(new Error('frame generator finished'));
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}
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}
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try {
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reader();
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while (!finished) {
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frameDeferred = new Deferred();
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const raw = await frameDeferred.promise;
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const { width, height, data } = raw;
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const rawImage = new RawImage(data, width, height, format);
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try {
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const mo = await createRawImageMediaObject(rawImage);
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yield mo;
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}
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finally {
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rawImage.data = undefined;
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}
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}
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}
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catch (e) {
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}
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finally {
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console.log('finished generator');
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finished = true;
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safeKillFFmpeg(cp);
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}
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}
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async generateVideoFrames(mediaObject: MediaObject, options?: VideoFrameGeneratorOptions, filter?: (videoFrame: VideoFrame & MediaObject) => Promise<boolean>): Promise<AsyncGenerator<VideoFrame & MediaObject, any, unknown>> {
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return this.generateVideoFramesInternal(mediaObject, options, filter);
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}
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}
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