import { CropOptions, IMediaRepository, ResizeOptions, TranscodeOptions, VideoInfo } from '@app/domain';
import { Logger } from '@nestjs/common';
import ffmpeg, { FfprobeData } from 'fluent-ffmpeg';
import fs from 'fs/promises';
import sharp from 'sharp';
import { promisify } from 'util';
const probe = promisify<string, FfprobeData>(ffmpeg.ffprobe);
sharp.concurrency(0);
export class MediaRepository implements IMediaRepository {
private logger = new Logger(MediaRepository.name);
crop(input: string, options: CropOptions): Promise<Buffer> {
return sharp(input, { failOn: 'none' })
.extract({
left: options.left,
top: options.top,
width: options.width,
height: options.height,
})
.toBuffer();
}
async resize(input: string | Buffer, output: string, options: ResizeOptions): Promise<void> {
await sharp(input, { failOn: 'none' })
.resize(options.size, options.size, { fit: 'outside', withoutEnlargement: true })
.rotate()
.toFormat(options.format)
.toFile(output);
}
async probe(input: string): Promise<VideoInfo> {
const results = await probe(input);
return {
format: {
formatName: results.format.format_name,
formatLongName: results.format.format_long_name,
duration: results.format.duration || 0,
},
videoStreams: results.streams
.filter((stream) => stream.codec_type === 'video')
.map((stream) => ({
height: stream.height || 0,
width: stream.width || 0,
codecName: stream.codec_name === 'h265' ? 'hevc' : stream.codec_name,
codecType: stream.codec_type,
frameCount: Number.parseInt(stream.nb_frames ?? '0'),
rotation: Number.parseInt(`${stream.rotation ?? 0}`),
isHDR: stream.color_transfer === 'smpte2084' || stream.color_transfer === 'arib-std-b67',
})),
audioStreams: results.streams
.filter((stream) => stream.codec_type === 'audio')
.map((stream) => ({
codecType: stream.codec_type,
codecName: stream.codec_name,
})),
};
}
transcode(input: string, output: string, options: TranscodeOptions): Promise<void> {
if (!options.twoPass) {
return new Promise((resolve, reject) => {
ffmpeg(input, { niceness: 10 })
.inputOptions(options.inputOptions)
.outputOptions(options.outputOptions)
.output(output)
.on('error', (err, stdout, stderr) => {
this.logger.error(stderr);
reject(err);
})
.on('end', resolve)
.run();
});
}
// two-pass allows for precise control of bitrate at the cost of running twice
// recommended for vp9 for better quality and compression
return new Promise((resolve, reject) => {
ffmpeg(input, { niceness: 10 })
.inputOptions(options.inputOptions)
.outputOptions(options.outputOptions)
.addOptions('-pass', '1')
.addOptions('-passlogfile', output)
.addOptions('-f null')
.output('/dev/null') // first pass output is not saved as only the .log file is needed
.on('error', (err, stdout, stderr) => {
this.logger.error(stderr);
reject(err);
})
.on('end', () => {
// second pass
ffmpeg(input, { niceness: 10 })
.inputOptions(options.inputOptions)
.outputOptions(options.outputOptions)
.addOptions('-pass', '2')
.addOptions('-passlogfile', output)
.output(output)
.on('error', (err, stdout, stderr) => {
this.logger.error(stderr);
reject(err);
})
.on('end', () => fs.unlink(`${output}-0.log`))
.on('end', () => fs.rm(`${output}-0.log.mbtree`, { force: true }))
.on('end', resolve)
.run();
})
.run();
});
}
async generateThumbhash(imagePath: string): Promise<Buffer> {
const maxSize = 100;
const { data, info } = await sharp(imagePath)
.resize(maxSize, maxSize, { fit: 'inside', withoutEnlargement: true })
.raw()
.ensureAlpha()
.toBuffer({ resolveWithObject: true });
const thumbhash = await import('thumbhash');
return Buffer.from(thumbhash.rgbaToThumbHash(info.width, info.height, data));
}
}