获取 PCM
数据
处理 PCM
数据
Float32
转 Int16
ArrayBuffer
转 Base64
PCM
文件播放
重采样
PCM
转 MP3
PCM
转 WAV
短时能量计算
Web Worker优化性能
音频存储(IndexedDB)
WebView
开启 WebRTC
获取 PCM 数据
查看 DEMO
https://github.com/deepkolos/pc-pcm-wave
样例代码:
const mediaStream = await window.navigator.mediaDevices.getUserMedia({ audio: { // sampleRate: 44100, // 采样率 不生效需要手动重采样 channelCount: 1, // 声道 // echoCancellation: true, // noiseSuppression: true, // 降噪 实测效果不错 }, }) const audioContext = new window.AudioContext() const inputSampleRate = audioContext.sampleRate const mediaNode = audioContext.createMediaStreamSource(mediaStream) if (!audioContext.createScriptProcessor) { audioContext.createScriptProcessor = audioContext.createJavaScriptNode } // 创建一个jsNode const jsNode = audioContext.createScriptProcessor(4096, 1, 1) jsNode.connect(audioContext.destination) jsNode.onaudioprocess = (e) => { // e.inputBuffer.getChannelData(0) (left) // 双通道通过e.inputBuffer.getChannelData(1)获取 (right) } mediaNode.connect(jsNode)
简要流程如下:
start=>start: 开始 getUserMedia=>operation: 获取MediaStream audioContext=>operation: 创建AudioContext scriptNode=>operation: 创建scriptNode并关联AudioContext onaudioprocess=>operation: 设置onaudioprocess并处理数据 end=>end: 结束 start->getUserMedia->audioContext->scriptNode->onaudioprocess->end
停止录制只需要把 audioContext
挂在的 node
卸载即可,然后把存储的每一帧数据合并即可产出 PCM
数据
jsNode.disconnect() mediaNode.disconnect() jsNode.onaudioprocess = null
PCM 数据处理
通过 WebRTC
获取的 PCM
数据格式是 Float32
的, 如果是双通道录音的话, 还需要增加合并通道
const leftDataList = []; const rightDataList = []; function onAudioProcess(event) { // 一帧的音频PCM数据 let audioBuffer = event.inputBuffer; leftDataList.push(audioBuffer.getChannelData(0).slice(0)); rightDataList.push(audioBuffer.getChannelData(1).slice(0)); } // 交叉合并左右声道的数据 function interleaveLeftAndRight(left, right) { let totalLength = left.length + right.length; let data = new Float32Array(totalLength); for (let i = 0; i < left.length; i++) { let k = i * 2; data[k] = left[i]; data[k + 1] = right[i]; } return data; }
Float32 转 Int16
const float32 = new Float32Array(1) const int16 = Int16Array.from( float32.map(x => (x > 0 ? x * 0x7fff : x * 0x8000)), )
arrayBuffer 转 Base64
注意: 在浏览器上有个 btoa() 函数也是可以转换为 Base64 但是输入参数必须为字符串, 如果传递 buffer 参数会先被 toString() 然后再 Base64 , 使用 ffplay 播放反序列化的 Base64 , 会比较刺耳
使用 base64-arraybuffer 即可完成
import { encode } from 'base64-arraybuffer' const float32 = new Float32Array(1) const int16 = Int16Array.from( float32.map(x => (x > 0 ? x * 0x7fff : x * 0x8000)), ) console.log(encode(int16.buffer))
验证 Base64 是否正确, 可以在 node 下把产出的 Base64 转换为 Int16 的 PCM 文件, 然后使用 FFPlay 播放, 看看音频是否正常播放
PCM 文件播放
# 单通道 采样率:16000 Int16 ffplay -f s16le -ar 16k -ac 1 test.pcm # 双通道 采样率:48000 Float32 ffplay -f f32le -ar 48000 -ac 2 test.pcm
重采样/调整采样率
虽然 getUserMedia 参数可设置采样率, 但是在最新Chrome也不生效, 所以需要手动做个重采样
const mediaStream = await window.navigator.mediaDevices.getUserMedia({ audio: { // sampleRate: 44100, // 采样率 设置不生效 channelCount: 1, // 声道 // echoCancellation: true, // 减低回音 // noiseSuppression: true, // 降噪, 实测效果不错 }, })
使用 wave-resampler 即可完成
import { resample } from 'wave-resampler' const inputSampleRate = 44100 const outputSampleRate = 16000 const resampledBuffers = resample( // 需要onAudioProcess每一帧的buffer合并后的数组 mergeArray(audioBuffers), inputSampleRate, outputSampleRate, )
PCM 转 MP3
import { Mp3Encoder } from 'lamejs' let mp3buf const mp3Data = [] const sampleBlockSize = 576 * 10 // 工作缓存区, 576的倍数 const mp3Encoder = new Mp3Encoder(1, outputSampleRate, kbps) const samples = float32ToInt16( audioBuffers, inputSampleRate, outputSampleRate, ) let remaining = samples.length for (let i = 0; remaining >= 0; i += sampleBlockSize) { const left = samples.subarray(i, i + sampleBlockSize) mp3buf = mp3Encoder.encodeBuffer(left) mp3Data.push(new Int8Array(mp3buf)) remaining -= sampleBlockSize } mp3Data.push(new Int8Array(mp3Encoder.flush())) console.log(mp3Data) // 工具函数 function float32ToInt16(audioBuffers, inputSampleRate, outputSampleRate) { const float32 = resample( // 需要onAudioProcess每一帧的buffer合并后的数组 mergeArray(audioBuffers), inputSampleRate, outputSampleRate, ) const int16 = Int16Array.from( float32.map(x => (x > 0 ? x * 0x7fff : x * 0x8000)), ) return int16 }
使用 lamejs 即可, 但是体积较大(160+KB), 如果没有存储需求可使用 WAV 格式
> ls -alh -rwxrwxrwx 1 root root 95K 4月 22 12:45 12s.mp3* -rwxrwxrwx 1 root root 1.1M 4月 22 12:44 12s.wav* -rwxrwxrwx 1 root root 235K 4月 22 12:41 30s.mp3* -rwxrwxrwx 1 root root 2.6M 4月 22 12:40 30s.wav* -rwxrwxrwx 1 root root 63K 4月 22 12:49 8s.mp3* -rwxrwxrwx 1 root root 689K 4月 22 12:48 8s.wav*
PCM 转 WAV
function mergeArray(list) { const length = list.length * list[0].length const data = new Float32Array(length) let offset = 0 for (let i = 0; i < list.length; i++) { data.set(list[i], offset) offset += list[i].length } return data } function writeUTFBytes(view, offset, string) { var lng = string.length for (let i = 0; i < lng; i++) { view.setUint8(offset + i, string.charCodeAt(i)) } } function createWavBuffer(audioData, sampleRate = 44100, channels = 1) { const WAV_HEAD_SIZE = 44 const buffer = new ArrayBuffer(audioData.length * 2 + WAV_HEAD_SIZE) // 需要用一个view来操控buffer const view = new DataView(buffer) // 写入wav头部信息 // RIFF chunk descriptor/identifier writeUTFBytes(view, 0, 'RIFF') // RIFF chunk length view.setUint32(4, 44 + audioData.length * 2, true) // RIFF type writeUTFBytes(view, 8, 'WAVE') // format chunk identifier // FMT sub-chunk writeUTFBytes(view, 12, 'fmt') // format chunk length view.setUint32(16, 16, true) // sample format (raw) view.setUint16(20, 1, true) // stereo (2 channels) view.setUint16(22, channels, true) // sample rate view.setUint32(24, sampleRate, true) // byte rate (sample rate * block align) view.setUint32(28, sampleRate * 2, true) // block align (channel count * bytes per sample) view.setUint16(32, channels * 2, true) // bits per sample view.setUint16(34, 16, true) // data sub-chunk // data chunk identifier writeUTFBytes(view, 36, 'data') // data chunk length view.setUint32(40, audioData.length * 2, true) // 写入PCM数据 let index = 44 const volume = 1 const { length } = audioData for (let i = 0; i < length; i++) { view.setInt16(index, audioData[i] * (0x7fff * volume), true) index += 2 } return buffer } // 需要onAudioProcess每一帧的buffer合并后的数组 createWavBuffer(mergeArray(audioBuffers))
WAV 基本上是 PCM 加上一些音频信息
简单的短时能量计算
function shortTimeEnergy(audioData) { let sum = 0 const energy = [] const { length } = audioData for (let i = 0; i < length; i++) { sum += audioData[i] ** 2 if ((i + 1) % 256 === 0) { energy.push(sum) sum = 0 } else if (i === length - 1) { energy.push(sum) } } return energy }
由于计算结果有会因设备的录音增益差异较大, 计算出数据也较大, 所以使用比值简单区分人声和噪音
查看 DEMO
const NoiseVoiceWatershedWave = 2.3 const energy = shortTimeEnergy(e.inputBuffer.getChannelData(0).slice(0)) const avg = energy.reduce((a, b) => a + b) / energy.length const nextState = Math.max(...energy) / avg > NoiseVoiceWatershedWave ? 'voice' : 'noise'
Web Worker 优化性能
音频数据数据量较大, 所以可以使用 Web Worker 进行优化, 不卡 UI 线程
在 Webpack 项目里 Web Worker 比较简单, 安装 worker-loader 即可
preact.config.js
export default (config, env, helpers) => { config.module.rules.push({ test: /\.worker\.js$/, use: { loader: 'worker-loader', options: { inline: true } }, }) }
recorder.worker.js
self.addEventListener('message', event => { console.log(event.data) // 转MP3/转Base64/转WAV等等 const output = '' self.postMessage(output) }
使用 Worker
async function toMP3(audioBuffers, inputSampleRate, outputSampleRate = 16000) { const { default: Worker } = await import('./recorder.worker') const worker = new Worker() // 简单使用, 项目可以在recorder实例化的时候创建worker实例, 有并法需求可多个实例 return new Promise(resolve => { worker.postMessage({ audioBuffers: audioBuffers, inputSampleRate: inputSampleRate, outputSampleRate: outputSampleRate, type: 'mp3', }) worker.onmessage = event => resolve(event.data) }) }
音频的存储
浏览器持久化储存的地方有 LocalStorage 和 IndexedDB , 其中 LocalStorage 较为常用, 但是只能储存字符串, 而 IndexedDB 可直接储存 Blob , 所以优先选择 IndexedDB ,使用 LocalStorage 则需要转 Base64 体积将会更大
所以为了避免占用用户太多空间, 所以选择MP3格式进行存储
> ls -alh -rwxrwxrwx 1 root root 95K 4月 22 12:45 12s.mp3* -rwxrwxrwx 1 root root 1.1M 4月 22 12:44 12s.wav* -rwxrwxrwx 1 root root 235K 4月 22 12:41 30s.mp3* -rwxrwxrwx 1 root root 2.6M 4月 22 12:40 30s.wav* -rwxrwxrwx 1 root root 63K 4月 22 12:49 8s.mp3* -rwxrwxrwx 1 root root 689K 4月 22 12:48 8s.wav*
IndexedDB 简单封装如下, 熟悉后台的同学可以找个 ORM 库方便数据读写
const indexedDB = window.indexedDB || window.webkitIndexedDB || window.mozIndexedDB || window.OIndexedDB || window.msIndexedDB const IDBTransaction = window.IDBTransaction || window.webkitIDBTransaction || window.OIDBTransaction || window.msIDBTransaction const readWriteMode = typeof IDBTransaction.READ_WRITE === 'undefined' ? 'readwrite' : IDBTransaction.READ_WRITE const dbVersion = 1 const storeDefault = 'mp3' let dbLink function initDB(store) { return new Promise((resolve, reject) => { if (dbLink) resolve(dbLink) // Create/open database const request = indexedDB.open('audio', dbVersion) request.onsuccess = event => { const db = request.result db.onerror = event => { reject(event) } if (db.version === dbVersion) resolve(db) } request.onerror = event => { reject(event) } // For future use. Currently only in latest Firefox versions request.onupgradeneeded = event => { dbLink = event.target.result const { transaction } = event.target if (!dbLink.objectStoreNames.contains(store)) { dbLink.createObjectStore(store) } transaction.oncomplete = event => { // Now store is available to be populated resolve(dbLink) } } }) } export const writeIDB = async (name, blob, store = storeDefault) => { const db = await initDB(store) const transaction = db.transaction([store], readWriteMode) const objStore = transaction.objectStore(store) return new Promise((resolve, reject) => { const request = objStore.put(blob, name) request.onsuccess = event => resolve(event) request.onerror = event => reject(event) transaction.commit && transaction.commit() }) } export const readIDB = async (name, store = storeDefault) => { const db = await initDB(store) const transaction = db.transaction([store], readWriteMode) const objStore = transaction.objectStore(store) return new Promise((resolve, reject) => { const request = objStore.get(name) request.onsuccess = event => resolve(event.target.result) request.onerror = event => reject(event) transaction.commit && transaction.commit() }) } export const clearIDB = async (store = storeDefault) => { const db = await initDB(store) const transaction = db.transaction([store], readWriteMode) const objStore = transaction.objectStore(store) return new Promise((resolve, reject) => { const request = objStore.clear() request.onsuccess = event => resolve(event) request.onerror = event => reject(event) transaction.commit && transaction.commit() }) }
WebView 开启 WebRTC
见 WebView WebRTC not working
webView.setWebChromeClient(new WebChromeClient(){ @TargetApi(Build.VERSION_CODES.LOLLIPOP) @Override public void onPermissionRequest(final PermissionRequest request) { request.grant(request.getResources()); } });
html5录音
免责声明:本站文章均来自网站采集或用户投稿,网站不提供任何软件下载或自行开发的软件! 如有用户或公司发现本站内容信息存在侵权行为,请邮件告知! 858582#qq.com
稳了!魔兽国服回归的3条重磅消息!官宣时间再确认!
昨天有一位朋友在大神群里分享,自己亚服账号被封号之后居然弹出了国服的封号信息对话框。
这里面让他访问的是一个国服的战网网址,com.cn和后面的zh都非常明白地表明这就是国服战网。
而他在复制这个网址并且进行登录之后,确实是网易的网址,也就是我们熟悉的停服之后国服发布的暴雪游戏产品运营到期开放退款的说明。这是一件比较奇怪的事情,因为以前都没有出现这样的情况,现在突然提示跳转到国服战网的网址,是不是说明了简体中文客户端已经开始进行更新了呢?
更新日志
- 小骆驼-《草原狼2(蓝光CD)》[原抓WAV+CUE]
- 群星《欢迎来到我身边 电影原声专辑》[320K/MP3][105.02MB]
- 群星《欢迎来到我身边 电影原声专辑》[FLAC/分轨][480.9MB]
- 雷婷《梦里蓝天HQⅡ》 2023头版限量编号低速原抓[WAV+CUE][463M]
- 群星《2024好听新歌42》AI调整音效【WAV分轨】
- 王思雨-《思念陪着鸿雁飞》WAV
- 王思雨《喜马拉雅HQ》头版限量编号[WAV+CUE]
- 李健《无时无刻》[WAV+CUE][590M]
- 陈奕迅《酝酿》[WAV分轨][502M]
- 卓依婷《化蝶》2CD[WAV+CUE][1.1G]
- 群星《吉他王(黑胶CD)》[WAV+CUE]
- 齐秦《穿乐(穿越)》[WAV+CUE]
- 发烧珍品《数位CD音响测试-动向效果(九)》【WAV+CUE】
- 邝美云《邝美云精装歌集》[DSF][1.6G]
- 吕方《爱一回伤一回》[WAV+CUE][454M]