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session-desktop/libloki/crypto.js

331 lines
10 KiB
JavaScript
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/* global
window,
libsignal,
textsecure,
StringView,
Multibase,
TextEncoder,
TextDecoder,
crypto,
dcodeIO
*/
// eslint-disable-next-line func-names
(function() {
window.libloki = window.libloki || {};
class FallBackDecryptionError extends Error {}
const IV_LENGTH = 16;
async function DHEncrypt(symmetricKey, plainText) {
const iv = libsignal.crypto.getRandomBytes(IV_LENGTH);
const ciphertext = await libsignal.crypto.encrypt(
symmetricKey,
plainText,
iv
);
const ivAndCiphertext = new Uint8Array(
iv.byteLength + ciphertext.byteLength
);
ivAndCiphertext.set(new Uint8Array(iv));
ivAndCiphertext.set(new Uint8Array(ciphertext), iv.byteLength);
return ivAndCiphertext;
}
async function DHDecrypt(symmetricKey, ivAndCiphertext) {
const iv = ivAndCiphertext.slice(0, IV_LENGTH);
const ciphertext = ivAndCiphertext.slice(IV_LENGTH);
return libsignal.crypto.decrypt(symmetricKey, ciphertext, iv);
}
class FallBackSessionCipher {
constructor(address) {
this.identityKeyString = address.getName();
this.pubKey = StringView.hexToArrayBuffer(address.getName());
}
async encrypt(plaintext) {
const myKeyPair = await textsecure.storage.protocol.getIdentityKeyPair();
const myPrivateKey = myKeyPair.privKey;
const symmetricKey = libsignal.Curve.calculateAgreement(
this.pubKey,
myPrivateKey
);
const ivAndCiphertext = await DHEncrypt(symmetricKey, plaintext);
return {
type: textsecure.protobuf.Envelope.Type.FRIEND_REQUEST,
body: ivAndCiphertext,
registrationId: null,
};
}
async decrypt(ivAndCiphertext) {
const myKeyPair = await textsecure.storage.protocol.getIdentityKeyPair();
const myPrivateKey = myKeyPair.privKey;
const symmetricKey = libsignal.Curve.calculateAgreement(
this.pubKey,
myPrivateKey
);
try {
return await DHDecrypt(symmetricKey, ivAndCiphertext);
} catch (e) {
throw new FallBackDecryptionError(
`Could not decrypt message from ${
this.identityKeyString
} using FallBack encryption.`
);
}
}
}
const base32zIndex = Multibase.names.indexOf('base32z');
const base32zCode = Multibase.codes[base32zIndex];
function bufferToArrayBuffer(buf) {
const ab = new ArrayBuffer(buf.length);
const view = new Uint8Array(ab);
for (let i = 0; i < buf.length; i += 1) {
view[i] = buf[i];
}
return ab;
}
function decodeSnodeAddressToPubKey(snodeAddress) {
const snodeAddressClean = snodeAddress
.replace('.snode', '')
.replace('https://', '')
.replace('http://', '');
return Multibase.decode(`${base32zCode}${snodeAddressClean}`);
}
class LokiSnodeChannel {
constructor() {
this._ephemeralKeyPair = libsignal.Curve.generateKeyPair();
// Signal protocol prepends with "0x05"
this._ephemeralKeyPair.pubKey = this._ephemeralKeyPair.pubKey.slice(1);
this._ephemeralPubKeyHex = StringView.arrayBufferToHex(
this._ephemeralKeyPair.pubKey
);
this._cache = {};
}
async _getSymmetricKey(snodeAddress) {
if (snodeAddress in this._cache) {
return this._cache[snodeAddress];
}
const ed25519PubKey = decodeSnodeAddressToPubKey(snodeAddress);
const sodium = await window.getSodium();
const curve25519PubKey = sodium.crypto_sign_ed25519_pk_to_curve25519(
ed25519PubKey
);
const snodePubKeyArrayBuffer = bufferToArrayBuffer(curve25519PubKey);
const symmetricKey = libsignal.Curve.calculateAgreement(
snodePubKeyArrayBuffer,
this._ephemeralKeyPair.privKey
);
this._cache[snodeAddress] = symmetricKey;
return symmetricKey;
}
getChannelPublicKeyHex() {
return this._ephemeralPubKeyHex;
}
async decrypt(snodeAddress, ivAndCiphertextBase64) {
const ivAndCiphertext = dcodeIO.ByteBuffer.wrap(
ivAndCiphertextBase64,
'base64'
).toArrayBuffer();
const symmetricKey = await this._getSymmetricKey(snodeAddress);
try {
const decrypted = await DHDecrypt(symmetricKey, ivAndCiphertext);
const decoder = new TextDecoder();
return decoder.decode(decrypted);
} catch (e) {
return ivAndCiphertext;
}
}
async encrypt(snodeAddress, plainText) {
if (typeof plainText === 'string') {
const textEncoder = new TextEncoder();
// eslint-disable-next-line no-param-reassign
plainText = textEncoder.encode(plainText);
}
const symmetricKey = await this._getSymmetricKey(snodeAddress);
const ciphertext = await DHEncrypt(symmetricKey, plainText);
return dcodeIO.ByteBuffer.wrap(ciphertext).toString('base64');
}
}
async function generateSignatureForPairing(secondaryPubKey, type) {
const pubKeyArrayBuffer = StringView.hexToArrayBuffer(secondaryPubKey);
// Make sure the signature includes the pairing action (pairing or unpairing)
const len = pubKeyArrayBuffer.byteLength;
const data = new Uint8Array(len + 1);
data.set(new Uint8Array(pubKeyArrayBuffer), 0);
data[len] = type;
const myKeyPair = await textsecure.storage.protocol.getIdentityKeyPair();
const signature = await libsignal.Curve.async.calculateSignature(
myKeyPair.privKey,
data.buffer
);
return signature;
}
async function verifyAuthorisation(authorisation) {
const {
primaryDevicePubKey,
secondaryDevicePubKey,
requestSignature,
grantSignature,
} = authorisation;
const isGrant = !!grantSignature;
if (!primaryDevicePubKey || !secondaryDevicePubKey) {
window.log.warn(
'Received a pairing request with missing pubkeys. Ignored.'
);
return false;
} else if (!requestSignature) {
window.log.warn(
'Received a pairing request with missing request signature. Ignored.'
);
return false;
}
const verify = async (signature, signatureType) => {
const encoding = typeof signature === 'string' ? 'base64' : undefined;
await this.verifyPairingSignature(
primaryDevicePubKey,
secondaryDevicePubKey,
dcodeIO.ByteBuffer.wrap(signature, encoding).toArrayBuffer(),
signatureType
);
};
try {
await verify(requestSignature, PairingType.REQUEST);
} catch (e) {
window.log.warn(
'Could not verify pairing request authorisation signature. Ignoring message.'
);
window.log.error(e);
return false;
}
// can't have grant without requestSignature?
if (isGrant) {
try {
await verify(grantSignature, PairingType.GRANT);
} catch (e) {
window.log.warn(
'Could not verify pairing grant authorisation signature. Ignoring message.'
);
window.log.error(e);
return false;
}
}
return true;
}
// FIXME: rename to include the fact it's relative to YOUR device
async function validateAuthorisation(authorisation) {
const {
primaryDevicePubKey,
secondaryDevicePubKey,
grantSignature,
} = authorisation;
const alreadySecondaryDevice = !!window.storage.get('isSecondaryDevice');
const ourPubKey = textsecure.storage.user.getNumber();
const isRequest = !grantSignature;
if (isRequest && alreadySecondaryDevice) {
window.log.warn(
'Received a pairing request while being a secondary device. Ignored.'
);
return false;
} else if (isRequest && primaryDevicePubKey !== ourPubKey) {
window.log.warn(
'Received a pairing request addressed to another pubkey. Ignored.'
);
return false;
} else if (isRequest && secondaryDevicePubKey === ourPubKey) {
window.log.warn('Received a pairing request from ourselves. Ignored.');
return false;
}
return this.verifyAuthorisation(authorisation);
}
async function verifyPairingSignature(
primaryDevicePubKey,
secondaryPubKey,
signature,
type
) {
const secondaryPubKeyArrayBuffer = StringView.hexToArrayBuffer(
secondaryPubKey
);
const primaryDevicePubKeyArrayBuffer = StringView.hexToArrayBuffer(
primaryDevicePubKey
);
const len = secondaryPubKeyArrayBuffer.byteLength;
const data = new Uint8Array(len + 1);
// For REQUEST type message, the secondary device signs the primary device pubkey
// For GRANT type message, the primary device signs the secondary device pubkey
let issuer;
if (type === PairingType.GRANT) {
data.set(new Uint8Array(secondaryPubKeyArrayBuffer));
issuer = primaryDevicePubKeyArrayBuffer;
} else if (type === PairingType.REQUEST) {
data.set(new Uint8Array(primaryDevicePubKeyArrayBuffer));
issuer = secondaryPubKeyArrayBuffer;
}
data[len] = type;
// Throws for invalid signature
await libsignal.Curve.async.verifySignature(issuer, data.buffer, signature);
}
async function decryptToken({ cipherText64, serverPubKey64 }) {
const ivAndCiphertext = new Uint8Array(
dcodeIO.ByteBuffer.fromBase64(cipherText64).toArrayBuffer()
);
const serverPubKey = new Uint8Array(
dcodeIO.ByteBuffer.fromBase64(serverPubKey64).toArrayBuffer()
);
const { privKey } = await textsecure.storage.protocol.getIdentityKeyPair();
const symmetricKey = libsignal.Curve.calculateAgreement(
serverPubKey,
privKey
);
const token = await DHDecrypt(symmetricKey, ivAndCiphertext);
const tokenString = dcodeIO.ByteBuffer.wrap(token).toString('utf8');
return tokenString;
}
const snodeCipher = new LokiSnodeChannel();
const sha512 = data => crypto.subtle.digest('SHA-512', data);
const PairingType = Object.freeze({
REQUEST: 1,
GRANT: 2,
});
window.libloki.crypto = {
DHEncrypt,
DHDecrypt,
FallBackSessionCipher,
FallBackDecryptionError,
snodeCipher,
decryptToken,
generateSignatureForPairing,
verifyPairingSignature,
verifyAuthorisation,
validateAuthorisation,
PairingType,
// for testing
_LokiSnodeChannel: LokiSnodeChannel,
_decodeSnodeAddressToPubKey: decodeSnodeAddressToPubKey,
sha512,
};
})();
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