import 'buffer'; import { transformStream } from './streams'; const NONCE_LENGTH = 12; const TAG_LENGTH = 16; const KEY_LENGTH = 16; const MODE_ENCRYPT = 'encrypt'; const MODE_DECRYPT = 'decrypt'; export const ECE_RECORD_SIZE = 1024 * 64; const encoder = new TextEncoder(); function generateSalt(len) { const randSalt = new Uint8Array(len); crypto.getRandomValues(randSalt); return randSalt.buffer; } class ECETransformer { constructor(mode, ikm, rs, salt) { this.mode = mode; this.prevChunk; this.seq = 0; this.firstchunk = true; this.rs = rs; this.ikm = ikm.buffer; this.salt = salt; } async generateKey() { const inputKey = await crypto.subtle.importKey( 'raw', this.ikm, 'HKDF', false, ['deriveKey'] ); return crypto.subtle.deriveKey( { name: 'HKDF', salt: this.salt, info: encoder.encode('Content-Encoding: aes128gcm\0'), hash: 'SHA-256' }, inputKey, { name: 'AES-GCM', length: 128 }, false, ['encrypt', 'decrypt'] ); } async generateNonceBase() { const inputKey = await crypto.subtle.importKey( 'raw', this.ikm, 'HKDF', false, ['deriveKey'] ); const base = await crypto.subtle.exportKey( 'raw', await crypto.subtle.deriveKey( { name: 'HKDF', salt: this.salt, info: encoder.encode('Content-Encoding: nonce\0'), hash: 'SHA-256' }, inputKey, { name: 'AES-GCM', length: 128 }, true, ['encrypt', 'decrypt'] ) ); return Buffer.from(base.slice(0, NONCE_LENGTH)); } generateNonce(seq) { if (seq > 0xffffffff) { throw new Error('record sequence number exceeds limit'); } const nonce = Buffer.from(this.nonceBase); const m = nonce.readUIntBE(nonce.length - 4, 4); const xor = (m ^ seq) >>> 0; //forces unsigned int xor nonce.writeUIntBE(xor, nonce.length - 4, 4); return nonce; } pad(data, isLast) { const len = data.length; if (len + TAG_LENGTH >= this.rs) { throw new Error('data too large for record size'); } if (isLast) { const padding = Buffer.alloc(1); padding.writeUInt8(2, 0); return Buffer.concat([data, padding]); } else { const padding = Buffer.alloc(this.rs - len - TAG_LENGTH); padding.fill(0); padding.writeUInt8(1, 0); return Buffer.concat([data, padding]); } } unpad(data, isLast) { for (let i = data.length - 1; i >= 0; i--) { if (data[i]) { if (isLast) { if (data[i] !== 2) { throw new Error('delimiter of final record is not 2'); } } else { if (data[i] !== 1) { throw new Error('delimiter of not final record is not 1'); } } return data.slice(0, i); } } throw new Error('no delimiter found'); } createHeader() { const nums = Buffer.alloc(5); nums.writeUIntBE(this.rs, 0, 4); nums.writeUIntBE(0, 4, 1); return Buffer.concat([Buffer.from(this.salt), nums]); } readHeader(buffer) { if (buffer.length < 21) { throw new Error('chunk too small for reading header'); } const header = {}; header.salt = buffer.buffer.slice(0, KEY_LENGTH); header.rs = buffer.readUIntBE(KEY_LENGTH, 4); const idlen = buffer.readUInt8(KEY_LENGTH + 4); header.length = idlen + KEY_LENGTH + 5; return header; } async encryptRecord(buffer, seq, isLast) { const nonce = this.generateNonce(seq); const encrypted = await crypto.subtle.encrypt( { name: 'AES-GCM', iv: nonce }, this.key, this.pad(buffer, isLast) ); return Buffer.from(encrypted); } async decryptRecord(buffer, seq, isLast) { const nonce = this.generateNonce(seq); const data = await crypto.subtle.decrypt( { name: 'AES-GCM', iv: nonce, tagLength: 128 }, this.key, buffer ); return this.unpad(Buffer.from(data), isLast); } async start(controller) { if (this.mode === MODE_ENCRYPT) { this.key = await this.generateKey(); this.nonceBase = await this.generateNonceBase(); controller.enqueue(this.createHeader()); } else if (this.mode !== MODE_DECRYPT) { throw new Error('mode must be either encrypt or decrypt'); } } async transformPrevChunk(isLast, controller) { if (this.mode === MODE_ENCRYPT) { controller.enqueue( await this.encryptRecord(this.prevChunk, this.seq, isLast) ); this.seq++; } else { if (this.seq === 0) { //the first chunk during decryption contains only the header const header = this.readHeader(this.prevChunk); this.salt = header.salt; this.rs = header.rs; this.key = await this.generateKey(); this.nonceBase = await this.generateNonceBase(); } else { controller.enqueue( await this.decryptRecord(this.prevChunk, this.seq - 1, isLast) ); } this.seq++; } } async transform(chunk, controller) { if (!this.firstchunk) { await this.transformPrevChunk(false, controller); } this.firstchunk = false; this.prevChunk = Buffer.from(chunk.buffer); } async flush(controller) { //console.log('ece stream ends') if (this.prevChunk) { await this.transformPrevChunk(true, controller); } } } class StreamSlicer { constructor(rs, mode) { this.mode = mode; this.rs = rs; this.chunkSize = mode === MODE_ENCRYPT ? rs - 17 : 21; this.partialChunk = new Uint8Array(this.chunkSize); //where partial chunks are saved this.offset = 0; } send(buf, controller) { controller.enqueue(buf); if (this.chunkSize === 21 && this.mode === MODE_DECRYPT) { this.chunkSize = this.rs; } this.partialChunk = new Uint8Array(this.chunkSize); this.offset = 0; } //reslice input into record sized chunks transform(chunk, controller) { //console.log('Received chunk with %d bytes.', chunk.byteLength) let i = 0; if (this.offset > 0) { const len = Math.min(chunk.byteLength, this.chunkSize - this.offset); this.partialChunk.set(chunk.slice(0, len), this.offset); this.offset += len; i += len; if (this.offset === this.chunkSize) { this.send(this.partialChunk, controller); } } while (i < chunk.byteLength) { const remainingBytes = chunk.byteLength - i; if (remainingBytes >= this.chunkSize) { const record = chunk.slice(i, i + this.chunkSize); i += this.chunkSize; this.send(record, controller); } else { const end = chunk.slice(i, i + remainingBytes); i += end.byteLength; this.partialChunk.set(end); this.offset = end.byteLength; } } } flush(controller) { if (this.offset > 0) { controller.enqueue(this.partialChunk.slice(0, this.offset)); } } } /* input: a ReadableStream containing data to be transformed key: Uint8Array containing key of size KEY_LENGTH rs: int containing record size, optional salt: ArrayBuffer containing salt of KEY_LENGTH length, optional */ export function encryptStream( input, key, rs = ECE_RECORD_SIZE, salt = generateSalt(KEY_LENGTH) ) { const mode = 'encrypt'; const inputStream = transformStream(input, new StreamSlicer(rs, mode)); return transformStream(inputStream, new ECETransformer(mode, key, rs, salt)); } /* input: a ReadableStream containing data to be transformed key: Uint8Array containing key of size KEY_LENGTH rs: int containing record size, optional */ export function decryptStream(input, key, rs = ECE_RECORD_SIZE) { const mode = 'decrypt'; const inputStream = transformStream(input, new StreamSlicer(rs, mode)); return transformStream(inputStream, new ECETransformer(mode, key, rs)); }