drop.chapril.org-firefoxsend/app/ece.js

require('buffer');

const NONCE_LENGTH = 12;
const TAG_LENGTH = 16;
const KEY_LENGTH = 16;
const MODE_ENCRYPT = 'encrypt';
const MODE_DECRYPT = 'decrypt';

const encoder = new TextEncoder();

function generateSalt(len) {
  const randSalt = new Uint8Array(len);
  window.crypto.getRandomValues(randSalt);
  return randSalt.buffer;
}

/*
mode: string, either 'encrypt' or 'decrypt'
ikm:  Uint8Array containing key of KEY_LENGTH length
rs:   int containing record size, optional
salt: ArrayBuffer containing salt of KEY_LENGTH length, optional
The transform stream takes data as UInt8Arrays on the writable side, and outputs
UInt8Arrays on the readable side.
*/
export default class ECETransformer {
  constructor(mode, ikm, rs, salt) {
    this.mode = mode;
    this.prevChunk;
    this.params = {};
    this.seq = 0;
    this.firstchunk = true;
    this.rs = rs || 1024;
    this.ikm = ikm.buffer;
    this.params.salt = salt;
    if (!salt) {
      this.params.salt = generateSalt(KEY_LENGTH);
    }
  }

  async generateKey() {
    const inputKey = await window.crypto.subtle.importKey(
      'raw',
      this.ikm,
      'HKDF',
      false,
      ['deriveKey']
    );

    return window.crypto.subtle.deriveKey(
      {
        name: 'HKDF',
        salt: this.params.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 window.crypto.subtle.importKey(
      'raw',
      this.ikm,
      'HKDF',
      false,
      ['deriveKey']
    );

    const base = await window.crypto.subtle.exportKey(
      'raw',
      await window.crypto.subtle.deriveKey(
        {
          name: 'HKDF',
          salt: this.params.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) {
    const nonce = Buffer.from(this.params.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);

    const m2 = nonce.readUIntBE(nonce.length - 8, 4);
    const xor2 = (m2 ^ (seq >>> 4)) >>> 0;
    nonce.writeUIntBE(xor2, nonce.length - 8, 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.params.salt), nums]);
  }

  //salt is arraybuffer, rs is int, length is int
  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 window.crypto.subtle.encrypt(
      { name: 'AES-GCM', iv: nonce },
      this.params.key,
      this.pad(buffer, isLast)
    );
    return Buffer.from(encrypted);
  }

  async decryptRecord(buffer, seq, isLast) {
    const nonce = this.generateNonce(seq);
    const data = await window.crypto.subtle.decrypt(
      {
        name: 'AES-GCM',
        iv: nonce,
        tagLength: 128
      },
      this.params.key,
      buffer
    );

    return this.unpad(Buffer.from(data), isLast);
  }

  async start(controller) {
    if (this.mode === MODE_ENCRYPT) {
      this.params.key = await this.generateKey();
      this.params.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.params.salt = header.salt;
        this.rs = header.rs;
        this.params.key = await this.generateKey();
        this.params.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) {
    if (this.prevChunk) {
      await this.transformPrevChunk(true, controller);
    }
  }
}
add ece transformers 2018-06-04 19:47:55 +02:00			`require('buffer');`

			`const NONCE_LENGTH = 12;`
			`const TAG_LENGTH = 16;`
			`const KEY_LENGTH = 16;`
			`const MODE_ENCRYPT = 'encrypt';`
			`const MODE_DECRYPT = 'decrypt';`

			`const encoder = new TextEncoder();`

			`function generateSalt(len) {`
			`const randSalt = new Uint8Array(len);`
			`window.crypto.getRandomValues(randSalt);`
			`return randSalt.buffer;`
			`}`

			`/*`
			`mode: string, either 'encrypt' or 'decrypt'`
			`ikm: Uint8Array containing key of KEY_LENGTH length`
			`rs: int containing record size, optional`
			`salt: ArrayBuffer containing salt of KEY_LENGTH length, optional`
			`The transform stream takes data as UInt8Arrays on the writable side, and outputs`
			`UInt8Arrays on the readable side.`
			`*/`
			`export default class ECETransformer {`
			`constructor(mode, ikm, rs, salt) {`
			`this.mode = mode;`
			`this.prevChunk;`
			`this.params = {};`
			`this.seq = 0;`
			`this.firstchunk = true;`
			`this.rs = rs \|\| 1024;`
			`this.ikm = ikm.buffer;`
			`this.params.salt = salt;`
			`if (!salt) {`
			`this.params.salt = generateSalt(KEY_LENGTH);`
			`}`
			`}`

			`async generateKey() {`
			`const inputKey = await window.crypto.subtle.importKey(`
			`'raw',`
			`this.ikm,`
			`'HKDF',`
			`false,`
			`['deriveKey']`
			`);`

			`return window.crypto.subtle.deriveKey(`
			`{`
			`name: 'HKDF',`
			`salt: this.params.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 window.crypto.subtle.importKey(`
			`'raw',`
			`this.ikm,`
			`'HKDF',`
			`false,`
			`['deriveKey']`
			`);`

			`const base = await window.crypto.subtle.exportKey(`
			`'raw',`
			`await window.crypto.subtle.deriveKey(`
			`{`
			`name: 'HKDF',`
			`salt: this.params.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) {`
			`const nonce = Buffer.from(this.params.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);`

			`const m2 = nonce.readUIntBE(nonce.length - 8, 4);`
			`const xor2 = (m2 ^ (seq >>> 4)) >>> 0;`
			`nonce.writeUIntBE(xor2, nonce.length - 8, 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.params.salt), nums]);`
			`}`

			`//salt is arraybuffer, rs is int, length is int`
			`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 window.crypto.subtle.encrypt(`
			`{ name: 'AES-GCM', iv: nonce },`
			`this.params.key,`
			`this.pad(buffer, isLast)`
			`);`
			`return Buffer.from(encrypted);`
			`}`

			`async decryptRecord(buffer, seq, isLast) {`
			`const nonce = this.generateNonce(seq);`
			`const data = await window.crypto.subtle.decrypt(`
			`{`
			`name: 'AES-GCM',`
			`iv: nonce,`
			`tagLength: 128`
			`},`
			`this.params.key,`
			`buffer`
			`);`

			`return this.unpad(Buffer.from(data), isLast);`
			`}`

			`async start(controller) {`
			`if (this.mode === MODE_ENCRYPT) {`
			`this.params.key = await this.generateKey();`
			`this.params.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.params.salt = header.salt;`
			`this.rs = header.rs;`
			`this.params.key = await this.generateKey();`
			`this.params.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) {`
			`if (this.prevChunk) {`
			`await this.transformPrevChunk(true, controller);`
			`}`
			`}`
			`}`