signal-desktop/ts/Crypto.ts

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// Yep, we're doing some bitwise stuff in an encryption-related file
// tslint:disable no-bitwise
// We want some extra variables to make the decrption algorithm easier to understand
// tslint:disable no-unnecessary-local-variable
// Seems that tslint doesn't understand that crypto.subtle.importKey does return a Promise
// tslint:disable await-promise
export function typedArrayToArrayBuffer(typedArray: Uint8Array): ArrayBuffer {
const { buffer, byteOffset, byteLength } = typedArray;
// tslint:disable-next-line no-unnecessary-type-assertion
return buffer.slice(byteOffset, byteLength + byteOffset) as ArrayBuffer;
}
export function arrayBufferToBase64(arrayBuffer: ArrayBuffer) {
return window.dcodeIO.ByteBuffer.wrap(arrayBuffer).toString('base64');
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}
export function arrayBufferToHex(arrayBuffer: ArrayBuffer) {
return window.dcodeIO.ByteBuffer.wrap(arrayBuffer).toString('hex');
}
export function base64ToArrayBuffer(base64string: string) {
return window.dcodeIO.ByteBuffer.wrap(base64string, 'base64').toArrayBuffer();
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}
export function hexToArrayBuffer(hexString: string) {
return window.dcodeIO.ByteBuffer.wrap(hexString, 'hex').toArrayBuffer();
}
export function fromEncodedBinaryToArrayBuffer(key: string) {
return window.dcodeIO.ByteBuffer.wrap(key, 'binary').toArrayBuffer();
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}
export function bytesFromString(string: string) {
return window.dcodeIO.ByteBuffer.wrap(string, 'utf8').toArrayBuffer();
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}
export function stringFromBytes(buffer: ArrayBuffer) {
return window.dcodeIO.ByteBuffer.wrap(buffer).toString('utf8');
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}
export function hexFromBytes(buffer: ArrayBuffer) {
return window.dcodeIO.ByteBuffer.wrap(buffer).toString('hex');
}
export function bytesFromHexString(string: string) {
return window.dcodeIO.ByteBuffer.wrap(string, 'hex').toArrayBuffer();
}
export async function deriveStickerPackKey(packKey: ArrayBuffer) {
const salt = getZeroes(32);
const info = bytesFromString('Sticker Pack');
const [part1, part2] = await window.libsignal.HKDF.deriveSecrets(
packKey,
salt,
info
);
return concatenateBytes(part1, part2);
}
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// High-level Operations
export async function encryptDeviceName(
deviceName: string,
identityPublic: ArrayBuffer
) {
const plaintext = bytesFromString(deviceName);
const ephemeralKeyPair = await window.libsignal.KeyHelper.generateIdentityKeyPair();
const masterSecret = await window.libsignal.Curve.async.calculateAgreement(
identityPublic,
ephemeralKeyPair.privKey
);
const key1 = await hmacSha256(masterSecret, bytesFromString('auth'));
const syntheticIv = getFirstBytes(await hmacSha256(key1, plaintext), 16);
const key2 = await hmacSha256(masterSecret, bytesFromString('cipher'));
const cipherKey = await hmacSha256(key2, syntheticIv);
const counter = getZeroes(16);
const ciphertext = await encryptAesCtr(cipherKey, plaintext, counter);
return {
ephemeralPublic: ephemeralKeyPair.pubKey,
syntheticIv,
ciphertext,
};
}
export async function decryptDeviceName(
{
ephemeralPublic,
syntheticIv,
ciphertext,
}: {
ephemeralPublic: ArrayBuffer;
syntheticIv: ArrayBuffer;
ciphertext: ArrayBuffer;
},
identityPrivate: ArrayBuffer
) {
const masterSecret = await window.libsignal.Curve.async.calculateAgreement(
ephemeralPublic,
identityPrivate
);
const key2 = await hmacSha256(masterSecret, bytesFromString('cipher'));
const cipherKey = await hmacSha256(key2, syntheticIv);
const counter = getZeroes(16);
const plaintext = await decryptAesCtr(cipherKey, ciphertext, counter);
const key1 = await hmacSha256(masterSecret, bytesFromString('auth'));
const ourSyntheticIv = getFirstBytes(await hmacSha256(key1, plaintext), 16);
if (!constantTimeEqual(ourSyntheticIv, syntheticIv)) {
throw new Error('decryptDeviceName: synthetic IV did not match');
}
return stringFromBytes(plaintext);
}
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// Path structure: 'fa/facdf99c22945b1c9393345599a276f4b36ad7ccdc8c2467f5441b742c2d11fa'
export function getAttachmentLabel(path: string) {
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const filename = path.slice(3);
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return base64ToArrayBuffer(filename);
}
const PUB_KEY_LENGTH = 32;
export async function encryptAttachment(
staticPublicKey: ArrayBuffer,
path: string,
plaintext: ArrayBuffer
) {
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const uniqueId = getAttachmentLabel(path);
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return encryptFile(staticPublicKey, uniqueId, plaintext);
}
export async function decryptAttachment(
staticPrivateKey: ArrayBuffer,
path: string,
data: ArrayBuffer
) {
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const uniqueId = getAttachmentLabel(path);
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return decryptFile(staticPrivateKey, uniqueId, data);
}
export async function encryptFile(
staticPublicKey: ArrayBuffer,
uniqueId: ArrayBuffer,
plaintext: ArrayBuffer
) {
const ephemeralKeyPair = await window.libsignal.KeyHelper.generateIdentityKeyPair();
const agreement = await window.libsignal.Curve.async.calculateAgreement(
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staticPublicKey,
ephemeralKeyPair.privKey
);
const key = await hmacSha256(agreement, uniqueId);
const prefix = ephemeralKeyPair.pubKey.slice(1);
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return concatenateBytes(prefix, await encryptSymmetric(key, plaintext));
}
export async function decryptFile(
staticPrivateKey: ArrayBuffer,
uniqueId: ArrayBuffer,
data: ArrayBuffer
) {
const ephemeralPublicKey = getFirstBytes(data, PUB_KEY_LENGTH);
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const ciphertext = _getBytes(data, PUB_KEY_LENGTH, data.byteLength);
const agreement = await window.libsignal.Curve.async.calculateAgreement(
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ephemeralPublicKey,
staticPrivateKey
);
const key = await hmacSha256(agreement, uniqueId);
return decryptSymmetric(key, ciphertext);
}
export async function deriveStorageManifestKey(
storageServiceKey: ArrayBuffer,
version: number
) {
return hmacSha256(storageServiceKey, bytesFromString(`Manifest_${version}`));
}
export async function deriveStorageItemKey(
storageServiceKey: ArrayBuffer,
itemID: string
) {
return hmacSha256(storageServiceKey, bytesFromString(`Item_${itemID}`));
}
export async function deriveAccessKey(profileKey: ArrayBuffer) {
const iv = getZeroes(12);
const plaintext = getZeroes(16);
const accessKey = await _encrypt_aes_gcm(profileKey, iv, plaintext);
return getFirstBytes(accessKey, 16);
}
export async function getAccessKeyVerifier(accessKey: ArrayBuffer) {
const plaintext = getZeroes(32);
return hmacSha256(accessKey, plaintext);
}
export async function verifyAccessKey(
accessKey: ArrayBuffer,
theirVerifier: ArrayBuffer
) {
const ourVerifier = await getAccessKeyVerifier(accessKey);
if (constantTimeEqual(ourVerifier, theirVerifier)) {
return true;
}
return false;
}
const IV_LENGTH = 16;
const MAC_LENGTH = 16;
const NONCE_LENGTH = 16;
export async function encryptSymmetric(
key: ArrayBuffer,
plaintext: ArrayBuffer
) {
const iv = getZeroes(IV_LENGTH);
const nonce = getRandomBytes(NONCE_LENGTH);
const cipherKey = await hmacSha256(key, nonce);
const macKey = await hmacSha256(key, cipherKey);
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const cipherText = await _encrypt_aes256_CBC_PKCSPadding(
cipherKey,
iv,
plaintext
);
const mac = getFirstBytes(await hmacSha256(macKey, cipherText), MAC_LENGTH);
return concatenateBytes(nonce, cipherText, mac);
}
export async function decryptSymmetric(key: ArrayBuffer, data: ArrayBuffer) {
const iv = getZeroes(IV_LENGTH);
const nonce = getFirstBytes(data, NONCE_LENGTH);
const cipherText = _getBytes(
data,
NONCE_LENGTH,
data.byteLength - NONCE_LENGTH - MAC_LENGTH
);
const theirMac = _getBytes(data, data.byteLength - MAC_LENGTH, MAC_LENGTH);
const cipherKey = await hmacSha256(key, nonce);
const macKey = await hmacSha256(key, cipherKey);
const ourMac = getFirstBytes(
await hmacSha256(macKey, cipherText),
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MAC_LENGTH
);
if (!constantTimeEqual(theirMac, ourMac)) {
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throw new Error(
'decryptSymmetric: Failed to decrypt; MAC verification failed'
);
}
return _decrypt_aes256_CBC_PKCSPadding(cipherKey, iv, cipherText);
}
export function constantTimeEqual(left: ArrayBuffer, right: ArrayBuffer) {
if (left.byteLength !== right.byteLength) {
return false;
}
let result = 0;
const ta1 = new Uint8Array(left);
const ta2 = new Uint8Array(right);
const max = left.byteLength;
for (let i = 0; i < max; i += 1) {
// eslint-disable-next-line no-bitwise
result |= ta1[i] ^ ta2[i];
}
return result === 0;
}
// Encryption
export async function hmacSha256(key: ArrayBuffer, plaintext: ArrayBuffer) {
const algorithm = {
name: 'HMAC',
hash: 'SHA-256',
};
const extractable = false;
const cryptoKey = await window.crypto.subtle.importKey(
'raw',
key,
algorithm as any,
extractable,
['sign']
);
return window.crypto.subtle.sign(algorithm, cryptoKey, plaintext);
}
export async function _encrypt_aes256_CBC_PKCSPadding(
key: ArrayBuffer,
iv: ArrayBuffer,
plaintext: ArrayBuffer
) {
const algorithm = {
name: 'AES-CBC',
iv,
};
const extractable = false;
const cryptoKey = await window.crypto.subtle.importKey(
'raw',
key,
algorithm as any,
extractable,
['encrypt']
);
return window.crypto.subtle.encrypt(algorithm, cryptoKey, plaintext);
}
export async function _decrypt_aes256_CBC_PKCSPadding(
key: ArrayBuffer,
iv: ArrayBuffer,
plaintext: ArrayBuffer
) {
const algorithm = {
name: 'AES-CBC',
iv,
};
const extractable = false;
const cryptoKey = await window.crypto.subtle.importKey(
'raw',
key,
algorithm as any,
extractable,
['decrypt']
);
return window.crypto.subtle.decrypt(algorithm, cryptoKey, plaintext);
}
export async function encryptAesCtr(
key: ArrayBuffer,
plaintext: ArrayBuffer,
counter: ArrayBuffer
) {
const extractable = false;
const algorithm = {
name: 'AES-CTR',
counter: new Uint8Array(counter),
length: 128,
};
const cryptoKey = await crypto.subtle.importKey(
'raw',
key,
algorithm as any,
extractable,
['encrypt']
);
const ciphertext = await crypto.subtle.encrypt(
algorithm,
cryptoKey,
plaintext
);
return ciphertext;
}
export async function decryptAesCtr(
key: ArrayBuffer,
ciphertext: ArrayBuffer,
counter: ArrayBuffer
) {
const extractable = false;
const algorithm = {
name: 'AES-CTR',
counter: new Uint8Array(counter),
length: 128,
};
const cryptoKey = await crypto.subtle.importKey(
'raw',
key,
algorithm as any,
extractable,
['decrypt']
);
const plaintext = await crypto.subtle.decrypt(
algorithm,
cryptoKey,
ciphertext
);
return plaintext;
}
export async function _encrypt_aes_gcm(
key: ArrayBuffer,
iv: ArrayBuffer,
plaintext: ArrayBuffer
) {
const algorithm = {
name: 'AES-GCM',
iv,
};
const extractable = false;
const cryptoKey = await crypto.subtle.importKey(
'raw',
key,
algorithm as any,
extractable,
['encrypt']
);
return crypto.subtle.encrypt(algorithm, cryptoKey, plaintext);
}
// Utility
export function getRandomBytes(n: number) {
const bytes = new Uint8Array(n);
window.crypto.getRandomValues(bytes);
return typedArrayToArrayBuffer(bytes);
}
export function getRandomValue(low: number, high: number): number {
const diff = high - low;
const bytes = new Uint32Array(1);
window.crypto.getRandomValues(bytes);
// Because high and low are inclusive
const mod = diff + 1;
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return (bytes[0] % mod) + low;
}
export function getZeroes(n: number) {
const result = new Uint8Array(n);
const value = 0;
const startIndex = 0;
const endExclusive = n;
result.fill(value, startIndex, endExclusive);
return typedArrayToArrayBuffer(result);
}
export function highBitsToInt(byte: number): number {
return (byte & 0xff) >> 4;
}
export function intsToByteHighAndLow(
highValue: number,
lowValue: number
): number {
return ((highValue << 4) | lowValue) & 0xff;
}
export function trimBytes(buffer: ArrayBuffer, length: number) {
return getFirstBytes(buffer, length);
}
export function getViewOfArrayBuffer(
buffer: ArrayBuffer,
start: number,
finish: number
) {
const source = new Uint8Array(buffer);
const result = source.slice(start, finish);
return result.buffer;
}
export function concatenateBytes(...elements: Array<ArrayBuffer | Uint8Array>) {
const length = elements.reduce(
(total, element) => total + element.byteLength,
0
);
const result = new Uint8Array(length);
let position = 0;
const max = elements.length;
for (let i = 0; i < max; i += 1) {
const element = new Uint8Array(elements[i]);
result.set(element, position);
position += element.byteLength;
}
if (position !== result.length) {
throw new Error('problem concatenating!');
}
return typedArrayToArrayBuffer(result);
}
export function splitBytes(
buffer: ArrayBuffer,
...lengths: Array<number>
): Array<ArrayBuffer> {
const total = lengths.reduce((acc, length) => acc + length, 0);
if (total !== buffer.byteLength) {
throw new Error(
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`Requested lengths total ${total} does not match source total ${buffer.byteLength}`
);
}
const source = new Uint8Array(buffer);
const results = [];
let position = 0;
const max = lengths.length;
for (let i = 0; i < max; i += 1) {
const length = lengths[i];
const result = new Uint8Array(length);
const section = source.slice(position, position + length);
result.set(section);
position += result.byteLength;
results.push(typedArrayToArrayBuffer(result));
}
return results;
}
export function getFirstBytes(data: ArrayBuffer, n: number) {
const source = new Uint8Array(data);
return typedArrayToArrayBuffer(source.subarray(0, n));
}
// Internal-only
export function _getBytes(
data: ArrayBuffer | Uint8Array,
start: number,
n: number
) {
const source = new Uint8Array(data);
return typedArrayToArrayBuffer(source.subarray(start, start + n));
}