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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-19 00:47:55 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-19 00:47:55 +0000
commit26a029d407be480d791972afb5975cf62c9360a6 (patch)
treef435a8308119effd964b339f76abb83a57c29483 /dom/push/PushCrypto.sys.mjs
parentInitial commit. (diff)
downloadfirefox-26a029d407be480d791972afb5975cf62c9360a6.tar.xz
firefox-26a029d407be480d791972afb5975cf62c9360a6.zip
Adding upstream version 124.0.1.upstream/124.0.1
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'dom/push/PushCrypto.sys.mjs')
-rw-r--r--dom/push/PushCrypto.sys.mjs879
1 files changed, 879 insertions, 0 deletions
diff --git a/dom/push/PushCrypto.sys.mjs b/dom/push/PushCrypto.sys.mjs
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+/* This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this file,
+ * You can obtain one at http://mozilla.org/MPL/2.0/. */
+
+const lazy = {};
+
+ChromeUtils.defineLazyGetter(lazy, "gDOMBundle", () =>
+ Services.strings.createBundle("chrome://global/locale/dom/dom.properties")
+);
+
+// getCryptoParamsFromHeaders is exported for test purposes.
+const UTF8 = new TextEncoder();
+
+const ECDH_KEY = { name: "ECDH", namedCurve: "P-256" };
+const ECDSA_KEY = { name: "ECDSA", namedCurve: "P-256" };
+const HMAC_SHA256 = { name: "HMAC", hash: "SHA-256" };
+const NONCE_INFO = UTF8.encode("Content-Encoding: nonce");
+
+// A default keyid with a name that won't conflict with a real keyid.
+const DEFAULT_KEYID = "";
+
+/** Localized error property names. */
+
+// `Encryption` header missing or malformed.
+const BAD_ENCRYPTION_HEADER = "PushMessageBadEncryptionHeader";
+// `Crypto-Key` or legacy `Encryption-Key` header missing.
+const BAD_CRYPTO_KEY_HEADER = "PushMessageBadCryptoKeyHeader";
+const BAD_ENCRYPTION_KEY_HEADER = "PushMessageBadEncryptionKeyHeader";
+// `Content-Encoding` header missing or contains unsupported encoding.
+const BAD_ENCODING_HEADER = "PushMessageBadEncodingHeader";
+// `dh` parameter of `Crypto-Key` header missing or not base64url-encoded.
+const BAD_DH_PARAM = "PushMessageBadSenderKey";
+// `salt` parameter of `Encryption` header missing or not base64url-encoded.
+const BAD_SALT_PARAM = "PushMessageBadSalt";
+// `rs` parameter of `Encryption` header not a number or less than pad size.
+const BAD_RS_PARAM = "PushMessageBadRecordSize";
+// Invalid or insufficient padding for encrypted chunk.
+const BAD_PADDING = "PushMessageBadPaddingError";
+// Generic crypto error.
+const BAD_CRYPTO = "PushMessageBadCryptoError";
+
+class CryptoError extends Error {
+ /**
+ * Creates an error object indicating an incoming push message could not be
+ * decrypted.
+ *
+ * @param {String} message A human-readable error message. This is only for
+ * internal module logging, and doesn't need to be localized.
+ * @param {String} property The localized property name from `dom.properties`.
+ * @param {String...} params Substitutions to insert into the localized
+ * string.
+ */
+ constructor(message, property, ...params) {
+ super(message);
+ this.isCryptoError = true;
+ this.property = property;
+ this.params = params;
+ }
+
+ /**
+ * Formats a localized string for reporting decryption errors to the Web
+ * Console.
+ *
+ * @param {String} scope The scope of the service worker receiving the
+ * message, prepended to any other substitutions in the string.
+ * @returns {String} The localized string.
+ */
+ format(scope) {
+ let params = [scope, ...this.params].map(String);
+ return lazy.gDOMBundle.formatStringFromName(this.property, params);
+ }
+}
+
+function getEncryptionKeyParams(encryptKeyField) {
+ if (!encryptKeyField) {
+ return null;
+ }
+ var params = encryptKeyField.split(",");
+ return params.reduce((m, p) => {
+ var pmap = p.split(";").reduce(parseHeaderFieldParams, {});
+ if (pmap.keyid && pmap.dh) {
+ m[pmap.keyid] = pmap.dh;
+ }
+ if (!m[DEFAULT_KEYID] && pmap.dh) {
+ m[DEFAULT_KEYID] = pmap.dh;
+ }
+ return m;
+ }, {});
+}
+
+function getEncryptionParams(encryptField) {
+ if (!encryptField) {
+ throw new CryptoError("Missing encryption header", BAD_ENCRYPTION_HEADER);
+ }
+ var p = encryptField.split(",", 1)[0];
+ if (!p) {
+ throw new CryptoError(
+ "Encryption header missing params",
+ BAD_ENCRYPTION_HEADER
+ );
+ }
+ return p.split(";").reduce(parseHeaderFieldParams, {});
+}
+
+// Extracts the sender public key, salt, and record size from the payload for the
+// aes128gcm scheme.
+function getCryptoParamsFromPayload(payload) {
+ if (payload.byteLength < 21) {
+ throw new CryptoError("Truncated header", BAD_CRYPTO);
+ }
+ let rs =
+ (payload[16] << 24) |
+ (payload[17] << 16) |
+ (payload[18] << 8) |
+ payload[19];
+ let keyIdLen = payload[20];
+ if (keyIdLen != 65) {
+ throw new CryptoError("Invalid sender public key", BAD_DH_PARAM);
+ }
+ if (payload.byteLength <= 21 + keyIdLen) {
+ throw new CryptoError("Truncated payload", BAD_CRYPTO);
+ }
+ return {
+ salt: payload.slice(0, 16),
+ rs,
+ senderKey: payload.slice(21, 21 + keyIdLen),
+ ciphertext: payload.slice(21 + keyIdLen),
+ };
+}
+
+// Extracts the sender public key, salt, and record size from the `Crypto-Key`,
+// `Encryption-Key`, and `Encryption` headers for the aesgcm and aesgcm128
+// schemes.
+export function getCryptoParamsFromHeaders(headers) {
+ if (!headers) {
+ return null;
+ }
+
+ var keymap;
+ if (headers.encoding == AESGCM_ENCODING) {
+ // aesgcm uses the Crypto-Key header, 2 bytes for the pad length, and an
+ // authentication secret.
+ // https://tools.ietf.org/html/draft-ietf-httpbis-encryption-encoding-01
+ keymap = getEncryptionKeyParams(headers.crypto_key);
+ if (!keymap) {
+ throw new CryptoError("Missing Crypto-Key header", BAD_CRYPTO_KEY_HEADER);
+ }
+ } else if (headers.encoding == AESGCM128_ENCODING) {
+ // aesgcm128 uses Encryption-Key, 1 byte for the pad length, and no secret.
+ // https://tools.ietf.org/html/draft-thomson-http-encryption-02
+ keymap = getEncryptionKeyParams(headers.encryption_key);
+ if (!keymap) {
+ throw new CryptoError(
+ "Missing Encryption-Key header",
+ BAD_ENCRYPTION_KEY_HEADER
+ );
+ }
+ }
+
+ var enc = getEncryptionParams(headers.encryption);
+ var dh = keymap[enc.keyid || DEFAULT_KEYID];
+ var senderKey = base64URLDecode(dh);
+ if (!senderKey) {
+ throw new CryptoError("Invalid dh parameter", BAD_DH_PARAM);
+ }
+
+ var salt = base64URLDecode(enc.salt);
+ if (!salt) {
+ throw new CryptoError("Invalid salt parameter", BAD_SALT_PARAM);
+ }
+ var rs = enc.rs ? parseInt(enc.rs, 10) : 4096;
+ if (isNaN(rs)) {
+ throw new CryptoError("rs parameter must be a number", BAD_RS_PARAM);
+ }
+ return {
+ salt,
+ rs,
+ senderKey,
+ };
+}
+
+// Decodes an unpadded, base64url-encoded string.
+function base64URLDecode(string) {
+ if (!string) {
+ return null;
+ }
+ try {
+ return ChromeUtils.base64URLDecode(string, {
+ // draft-ietf-httpbis-encryption-encoding-01 prohibits padding.
+ padding: "reject",
+ });
+ } catch (ex) {}
+ return null;
+}
+
+var parseHeaderFieldParams = (m, v) => {
+ var i = v.indexOf("=");
+ if (i >= 0) {
+ // A quoted string with internal quotes is invalid for all the possible
+ // values of this header field.
+ m[v.substring(0, i).trim()] = v
+ .substring(i + 1)
+ .trim()
+ .replace(/^"(.*)"$/, "$1");
+ }
+ return m;
+};
+
+function chunkArray(array, size) {
+ var start = array.byteOffset || 0;
+ array = array.buffer || array;
+ var index = 0;
+ var result = [];
+ while (index + size <= array.byteLength) {
+ result.push(new Uint8Array(array, start + index, size));
+ index += size;
+ }
+ if (index < array.byteLength) {
+ result.push(new Uint8Array(array, start + index));
+ }
+ return result;
+}
+
+function concatArray(arrays) {
+ var size = arrays.reduce((total, a) => total + a.byteLength, 0);
+ var index = 0;
+ return arrays.reduce((result, a) => {
+ result.set(new Uint8Array(a), index);
+ index += a.byteLength;
+ return result;
+ }, new Uint8Array(size));
+}
+
+function hmac(key) {
+ this.keyPromise = crypto.subtle.importKey("raw", key, HMAC_SHA256, false, [
+ "sign",
+ ]);
+}
+
+hmac.prototype.hash = function (input) {
+ return this.keyPromise.then(k => crypto.subtle.sign("HMAC", k, input));
+};
+
+function hkdf(salt, ikm) {
+ this.prkhPromise = new hmac(salt).hash(ikm).then(prk => new hmac(prk));
+}
+
+hkdf.prototype.extract = function (info, len) {
+ var input = concatArray([info, new Uint8Array([1])]);
+ return this.prkhPromise
+ .then(prkh => prkh.hash(input))
+ .then(h => {
+ if (h.byteLength < len) {
+ throw new CryptoError("HKDF length is too long", BAD_CRYPTO);
+ }
+ return h.slice(0, len);
+ });
+};
+
+/* generate a 96-bit nonce for use in GCM, 48-bits of which are populated */
+function generateNonce(base, index) {
+ if (index >= Math.pow(2, 48)) {
+ throw new CryptoError("Nonce index is too large", BAD_CRYPTO);
+ }
+ var nonce = base.slice(0, 12);
+ nonce = new Uint8Array(nonce);
+ for (var i = 0; i < 6; ++i) {
+ nonce[nonce.byteLength - 1 - i] ^= (index / Math.pow(256, i)) & 0xff;
+ }
+ return nonce;
+}
+
+function encodeLength(buffer) {
+ return new Uint8Array([0, buffer.byteLength]);
+}
+
+class Decoder {
+ /**
+ * Creates a decoder for decrypting an incoming push message.
+ *
+ * @param {JsonWebKey} privateKey The static subscription private key.
+ * @param {BufferSource} publicKey The static subscription public key.
+ * @param {BufferSource} authenticationSecret The subscription authentication
+ * secret, or `null` if not used by the scheme.
+ * @param {Object} cryptoParams An object containing the ephemeral sender
+ * public key, salt, and record size.
+ * @param {BufferSource} ciphertext The encrypted message data.
+ */
+ constructor(
+ privateKey,
+ publicKey,
+ authenticationSecret,
+ cryptoParams,
+ ciphertext
+ ) {
+ this.privateKey = privateKey;
+ this.publicKey = publicKey;
+ this.authenticationSecret = authenticationSecret;
+ this.senderKey = cryptoParams.senderKey;
+ this.salt = cryptoParams.salt;
+ this.rs = cryptoParams.rs;
+ this.ciphertext = ciphertext;
+ }
+
+ /**
+ * Derives the decryption keys and decodes the push message.
+ *
+ * @throws {CryptoError} if decryption fails.
+ * @returns {Uint8Array} The decrypted message data.
+ */
+ async decode() {
+ if (this.ciphertext.byteLength === 0) {
+ // Zero length messages will be passed as null.
+ return null;
+ }
+ try {
+ let ikm = await this.computeSharedSecret();
+ let [gcmBits, nonce] = await this.deriveKeyAndNonce(ikm);
+ let key = await crypto.subtle.importKey(
+ "raw",
+ gcmBits,
+ "AES-GCM",
+ false,
+ ["decrypt"]
+ );
+
+ let r = await Promise.all(
+ chunkArray(this.ciphertext, this.chunkSize).map(
+ (slice, index, chunks) =>
+ this.decodeChunk(
+ slice,
+ index,
+ nonce,
+ key,
+ index >= chunks.length - 1
+ )
+ )
+ );
+
+ return concatArray(r);
+ } catch (error) {
+ if (error.isCryptoError) {
+ throw error;
+ }
+ // Web Crypto returns an unhelpful "operation failed for an
+ // operation-specific reason" error if decryption fails. We don't have
+ // context about what went wrong, so we throw a generic error instead.
+ throw new CryptoError("Bad encryption", BAD_CRYPTO);
+ }
+ }
+
+ /**
+ * Computes the ECDH shared secret, used as the input key material for HKDF.
+ *
+ * @throws if the static or ephemeral ECDH keys are invalid.
+ * @returns {ArrayBuffer} The shared secret.
+ */
+ async computeSharedSecret() {
+ let [appServerKey, subscriptionPrivateKey] = await Promise.all([
+ crypto.subtle.importKey("raw", this.senderKey, ECDH_KEY, false, [
+ "deriveBits",
+ ]),
+ crypto.subtle.importKey("jwk", this.privateKey, ECDH_KEY, false, [
+ "deriveBits",
+ ]),
+ ]);
+ return crypto.subtle.deriveBits(
+ { name: "ECDH", public: appServerKey },
+ subscriptionPrivateKey,
+ 256
+ );
+ }
+
+ /**
+ * Derives the content encryption key and nonce.
+ *
+ * @param {BufferSource} ikm The ECDH shared secret.
+ * @returns {Array} A `[gcmBits, nonce]` tuple.
+ */
+ async deriveKeyAndNonce(ikm) {
+ throw new Error("Missing `deriveKeyAndNonce` implementation");
+ }
+
+ /**
+ * Decrypts and removes padding from an encrypted record.
+ *
+ * @throws {CryptoError} if decryption fails or padding is incorrect.
+ * @param {Uint8Array} slice The encrypted record.
+ * @param {Number} index The record sequence number.
+ * @param {Uint8Array} nonce The nonce base, used to generate the IV.
+ * @param {Uint8Array} key The content encryption key.
+ * @param {Boolean} last Indicates if this is the final record.
+ * @returns {Uint8Array} The decrypted block with padding removed.
+ */
+ async decodeChunk(slice, index, nonce, key, last) {
+ let params = {
+ name: "AES-GCM",
+ iv: generateNonce(nonce, index),
+ };
+ let decoded = await crypto.subtle.decrypt(params, key, slice);
+ return this.unpadChunk(new Uint8Array(decoded), last);
+ }
+
+ /**
+ * Removes padding from a decrypted block.
+ *
+ * @throws {CryptoError} if padding is missing or invalid.
+ * @param {Uint8Array} chunk The decrypted block with padding.
+ * @returns {Uint8Array} The block with padding removed.
+ */
+ unpadChunk(chunk, last) {
+ throw new Error("Missing `unpadChunk` implementation");
+ }
+
+ /** The record chunking size. */
+ get chunkSize() {
+ throw new Error("Missing `chunkSize` implementation");
+ }
+}
+
+class OldSchemeDecoder extends Decoder {
+ async decode() {
+ // For aesgcm and aesgcm128, the ciphertext length can't fall on a record
+ // boundary.
+ if (
+ this.ciphertext.byteLength > 0 &&
+ this.ciphertext.byteLength % this.chunkSize === 0
+ ) {
+ throw new CryptoError("Encrypted data truncated", BAD_CRYPTO);
+ }
+ return super.decode();
+ }
+
+ /**
+ * For aesgcm, the padding length is a 16-bit unsigned big endian integer.
+ * For aesgcm128, the padding is an 8-bit integer.
+ */
+ unpadChunk(decoded) {
+ if (decoded.length < this.padSize) {
+ throw new CryptoError("Decoded array is too short!", BAD_PADDING);
+ }
+ var pad = decoded[0];
+ if (this.padSize == 2) {
+ pad = (pad << 8) | decoded[1];
+ }
+ if (pad > decoded.length - this.padSize) {
+ throw new CryptoError("Padding is wrong!", BAD_PADDING);
+ }
+ // All padded bytes must be zero except the first one.
+ for (var i = this.padSize; i < this.padSize + pad; i++) {
+ if (decoded[i] !== 0) {
+ throw new CryptoError("Padding is wrong!", BAD_PADDING);
+ }
+ }
+ return decoded.slice(pad + this.padSize);
+ }
+
+ /**
+ * aesgcm and aesgcm128 don't account for the authentication tag as part of
+ * the record size.
+ */
+ get chunkSize() {
+ return this.rs + 16;
+ }
+
+ get padSize() {
+ throw new Error("Missing `padSize` implementation");
+ }
+}
+
+/** New encryption scheme (draft-ietf-httpbis-encryption-encoding-06). */
+
+const AES128GCM_ENCODING = "aes128gcm";
+const AES128GCM_KEY_INFO = UTF8.encode("Content-Encoding: aes128gcm\0");
+const AES128GCM_AUTH_INFO = UTF8.encode("WebPush: info\0");
+const AES128GCM_NONCE_INFO = UTF8.encode("Content-Encoding: nonce\0");
+
+class aes128gcmDecoder extends Decoder {
+ /**
+ * Derives the aes128gcm decryption key and nonce. The PRK info string for
+ * HKDF is "WebPush: info\0", followed by the unprefixed receiver and sender
+ * public keys.
+ */
+ async deriveKeyAndNonce(ikm) {
+ let authKdf = new hkdf(this.authenticationSecret, ikm);
+ let authInfo = concatArray([
+ AES128GCM_AUTH_INFO,
+ this.publicKey,
+ this.senderKey,
+ ]);
+ let prk = await authKdf.extract(authInfo, 32);
+ let prkKdf = new hkdf(this.salt, prk);
+ return Promise.all([
+ prkKdf.extract(AES128GCM_KEY_INFO, 16),
+ prkKdf.extract(AES128GCM_NONCE_INFO, 12),
+ ]);
+ }
+
+ unpadChunk(decoded, last) {
+ let length = decoded.length;
+ while (length--) {
+ if (decoded[length] === 0) {
+ continue;
+ }
+ let recordPad = last ? 2 : 1;
+ if (decoded[length] != recordPad) {
+ throw new CryptoError("Padding is wrong!", BAD_PADDING);
+ }
+ return decoded.slice(0, length);
+ }
+ throw new CryptoError("Zero plaintext", BAD_PADDING);
+ }
+
+ /** aes128gcm accounts for the authentication tag in the record size. */
+ get chunkSize() {
+ return this.rs;
+ }
+}
+
+/** Older encryption scheme (draft-ietf-httpbis-encryption-encoding-01). */
+
+const AESGCM_ENCODING = "aesgcm";
+const AESGCM_KEY_INFO = UTF8.encode("Content-Encoding: aesgcm\0");
+const AESGCM_AUTH_INFO = UTF8.encode("Content-Encoding: auth\0"); // note nul-terminus
+const AESGCM_P256DH_INFO = UTF8.encode("P-256\0");
+
+class aesgcmDecoder extends OldSchemeDecoder {
+ /**
+ * Derives the aesgcm decryption key and nonce. We mix the authentication
+ * secret with the ikm using HKDF. The context string for the PRK is
+ * "Content-Encoding: auth\0". The context string for the key and nonce is
+ * "Content-Encoding: <blah>\0P-256\0" then the length and value of both the
+ * receiver key and sender key.
+ */
+ async deriveKeyAndNonce(ikm) {
+ // Since we are using an authentication secret, we need to run an extra
+ // round of HKDF with the authentication secret as salt.
+ let authKdf = new hkdf(this.authenticationSecret, ikm);
+ let prk = await authKdf.extract(AESGCM_AUTH_INFO, 32);
+ let prkKdf = new hkdf(this.salt, prk);
+ let keyInfo = concatArray([
+ AESGCM_KEY_INFO,
+ AESGCM_P256DH_INFO,
+ encodeLength(this.publicKey),
+ this.publicKey,
+ encodeLength(this.senderKey),
+ this.senderKey,
+ ]);
+ let nonceInfo = concatArray([
+ NONCE_INFO,
+ new Uint8Array([0]),
+ AESGCM_P256DH_INFO,
+ encodeLength(this.publicKey),
+ this.publicKey,
+ encodeLength(this.senderKey),
+ this.senderKey,
+ ]);
+ return Promise.all([
+ prkKdf.extract(keyInfo, 16),
+ prkKdf.extract(nonceInfo, 12),
+ ]);
+ }
+
+ get padSize() {
+ return 2;
+ }
+}
+
+/** Oldest encryption scheme (draft-thomson-http-encryption-02). */
+
+const AESGCM128_ENCODING = "aesgcm128";
+const AESGCM128_KEY_INFO = UTF8.encode("Content-Encoding: aesgcm128");
+
+class aesgcm128Decoder extends OldSchemeDecoder {
+ constructor(privateKey, publicKey, cryptoParams, ciphertext) {
+ super(privateKey, publicKey, null, cryptoParams, ciphertext);
+ }
+
+ /**
+ * The aesgcm128 scheme ignores the authentication secret, and uses
+ * "Content-Encoding: <blah>" for the context string. It should eventually
+ * be removed: bug 1230038.
+ */
+ deriveKeyAndNonce(ikm) {
+ let prkKdf = new hkdf(this.salt, ikm);
+ return Promise.all([
+ prkKdf.extract(AESGCM128_KEY_INFO, 16),
+ prkKdf.extract(NONCE_INFO, 12),
+ ]);
+ }
+
+ get padSize() {
+ return 1;
+ }
+}
+
+export var PushCrypto = {
+ concatArray,
+
+ generateAuthenticationSecret() {
+ return crypto.getRandomValues(new Uint8Array(16));
+ },
+
+ validateAppServerKey(key) {
+ return crypto.subtle
+ .importKey("raw", key, ECDSA_KEY, true, ["verify"])
+ .then(_ => key);
+ },
+
+ generateKeys() {
+ return crypto.subtle
+ .generateKey(ECDH_KEY, true, ["deriveBits"])
+ .then(cryptoKey =>
+ Promise.all([
+ crypto.subtle.exportKey("raw", cryptoKey.publicKey),
+ crypto.subtle.exportKey("jwk", cryptoKey.privateKey),
+ ])
+ );
+ },
+
+ /**
+ * Decrypts a push message.
+ *
+ * @throws {CryptoError} if decryption fails.
+ * @param {JsonWebKey} privateKey The ECDH private key of the subscription
+ * receiving the message, in JWK form.
+ * @param {BufferSource} publicKey The ECDH public key of the subscription
+ * receiving the message, in raw form.
+ * @param {BufferSource} authenticationSecret The 16-byte shared
+ * authentication secret of the subscription receiving the message.
+ * @param {Object} headers The encryption headers from the push server.
+ * @param {BufferSource} payload The encrypted message payload.
+ * @returns {Uint8Array} The decrypted message data.
+ */
+ async decrypt(privateKey, publicKey, authenticationSecret, headers, payload) {
+ if (!headers) {
+ return null;
+ }
+
+ let encoding = headers.encoding;
+ if (!headers.encoding) {
+ throw new CryptoError(
+ "Missing Content-Encoding header",
+ BAD_ENCODING_HEADER
+ );
+ }
+
+ let decoder;
+ if (encoding == AES128GCM_ENCODING) {
+ // aes128gcm includes the salt, record size, and sender public key in a
+ // binary header preceding the ciphertext.
+ let cryptoParams = getCryptoParamsFromPayload(new Uint8Array(payload));
+ decoder = new aes128gcmDecoder(
+ privateKey,
+ publicKey,
+ authenticationSecret,
+ cryptoParams,
+ cryptoParams.ciphertext
+ );
+ } else if (encoding == AESGCM128_ENCODING || encoding == AESGCM_ENCODING) {
+ // aesgcm and aesgcm128 include the salt, record size, and sender public
+ // key in the `Crypto-Key` and `Encryption` HTTP headers.
+ let cryptoParams = getCryptoParamsFromHeaders(headers);
+ if (headers.encoding == AESGCM_ENCODING) {
+ decoder = new aesgcmDecoder(
+ privateKey,
+ publicKey,
+ authenticationSecret,
+ cryptoParams,
+ payload
+ );
+ } else {
+ decoder = new aesgcm128Decoder(
+ privateKey,
+ publicKey,
+ cryptoParams,
+ payload
+ );
+ }
+ }
+
+ if (!decoder) {
+ throw new CryptoError(
+ "Unsupported Content-Encoding: " + encoding,
+ BAD_ENCODING_HEADER
+ );
+ }
+
+ return decoder.decode();
+ },
+
+ /**
+ * Encrypts a payload suitable for using in a push message. The encryption
+ * is always done with a record size of 4096 and no padding.
+ *
+ * @throws {CryptoError} if encryption fails.
+ * @param {plaintext} Uint8Array The plaintext to encrypt.
+ * @param {receiverPublicKey} Uint8Array The public key of the recipient
+ * of the message as a buffer.
+ * @param {receiverAuthSecret} Uint8Array The auth secret of the of the
+ * message recipient as a buffer.
+ * @param {options} Object Encryption options, used for tests.
+ * @returns {ciphertext, encoding} The encrypted payload and encoding.
+ */
+ async encrypt(
+ plaintext,
+ receiverPublicKey,
+ receiverAuthSecret,
+ options = {}
+ ) {
+ const encoding = options.encoding || AES128GCM_ENCODING;
+ // We only support one encoding type.
+ if (encoding != AES128GCM_ENCODING) {
+ throw new CryptoError(
+ `Only ${AES128GCM_ENCODING} is supported`,
+ BAD_ENCODING_HEADER
+ );
+ }
+ // We typically use an ephemeral key for this message, but for testing
+ // purposes we allow it to be specified.
+ const senderKeyPair =
+ options.senderKeyPair ||
+ (await crypto.subtle.generateKey(ECDH_KEY, true, ["deriveBits"]));
+ // allowing a salt to be specified is useful for tests.
+ const salt = options.salt || crypto.getRandomValues(new Uint8Array(16));
+ const rs = options.rs === undefined ? 4096 : options.rs;
+
+ const encoder = new aes128gcmEncoder(
+ plaintext,
+ receiverPublicKey,
+ receiverAuthSecret,
+ senderKeyPair,
+ salt,
+ rs
+ );
+ return encoder.encode();
+ },
+};
+
+// A class for aes128gcm encryption - the only kind we support.
+class aes128gcmEncoder {
+ constructor(
+ plaintext,
+ receiverPublicKey,
+ receiverAuthSecret,
+ senderKeyPair,
+ salt,
+ rs
+ ) {
+ this.receiverPublicKey = receiverPublicKey;
+ this.receiverAuthSecret = receiverAuthSecret;
+ this.senderKeyPair = senderKeyPair;
+ this.salt = salt;
+ this.rs = rs;
+ this.plaintext = plaintext;
+ }
+
+ async encode() {
+ const sharedSecret = await this.computeSharedSecret(
+ this.receiverPublicKey,
+ this.senderKeyPair.privateKey
+ );
+
+ const rawSenderPublicKey = await crypto.subtle.exportKey(
+ "raw",
+ this.senderKeyPair.publicKey
+ );
+ const [gcmBits, nonce] = await this.deriveKeyAndNonce(
+ sharedSecret,
+ rawSenderPublicKey
+ );
+
+ const contentEncryptionKey = await crypto.subtle.importKey(
+ "raw",
+ gcmBits,
+ "AES-GCM",
+ false,
+ ["encrypt"]
+ );
+ const payloadHeader = this.createHeader(rawSenderPublicKey);
+
+ const ciphertextChunks = await this.encrypt(contentEncryptionKey, nonce);
+ return {
+ ciphertext: concatArray([payloadHeader, ...ciphertextChunks]),
+ encoding: "aes128gcm",
+ };
+ }
+
+ // Perform the actual encryption of the payload.
+ async encrypt(key, nonce) {
+ if (this.rs < 18) {
+ throw new CryptoError("recordsize is too small", BAD_RS_PARAM);
+ }
+
+ let chunks;
+ if (this.plaintext.byteLength === 0) {
+ // Send an authentication tag for empty messages.
+ chunks = [
+ await crypto.subtle.encrypt(
+ {
+ name: "AES-GCM",
+ iv: generateNonce(nonce, 0),
+ },
+ key,
+ new Uint8Array([2])
+ ),
+ ];
+ } else {
+ // Use specified recordsize, though we burn 1 for padding and 16 byte
+ // overhead.
+ let inChunks = chunkArray(this.plaintext, this.rs - 1 - 16);
+ chunks = await Promise.all(
+ inChunks.map(async function (slice, index) {
+ let isLast = index == inChunks.length - 1;
+ let padding = new Uint8Array([isLast ? 2 : 1]);
+ let input = concatArray([slice, padding]);
+ return crypto.subtle.encrypt(
+ {
+ name: "AES-GCM",
+ iv: generateNonce(nonce, index),
+ },
+ key,
+ input
+ );
+ })
+ );
+ }
+ return chunks;
+ }
+
+ // Note: this is a dupe of aes128gcmDecoder.deriveKeyAndNonce, but tricky
+ // to rationalize without a larger refactor.
+ async deriveKeyAndNonce(sharedSecret, senderPublicKey) {
+ const authKdf = new hkdf(this.receiverAuthSecret, sharedSecret);
+ const authInfo = concatArray([
+ AES128GCM_AUTH_INFO,
+ this.receiverPublicKey,
+ senderPublicKey,
+ ]);
+ const prk = await authKdf.extract(authInfo, 32);
+ const prkKdf = new hkdf(this.salt, prk);
+ return Promise.all([
+ prkKdf.extract(AES128GCM_KEY_INFO, 16),
+ prkKdf.extract(AES128GCM_NONCE_INFO, 12),
+ ]);
+ }
+
+ // Note: this duplicates some of Decoder.computeSharedSecret, but the key
+ // management is slightly different.
+ async computeSharedSecret(receiverPublicKey, senderPrivateKey) {
+ const receiverPublicCryptoKey = await crypto.subtle.importKey(
+ "raw",
+ receiverPublicKey,
+ ECDH_KEY,
+ false,
+ ["deriveBits"]
+ );
+
+ return crypto.subtle.deriveBits(
+ { name: "ECDH", public: receiverPublicCryptoKey },
+ senderPrivateKey,
+ 256
+ );
+ }
+
+ // create aes128gcm's header.
+ createHeader(key) {
+ // layout is "salt|32-bit-int|8-bit-int|key"
+ if (key.byteLength != 65) {
+ throw new CryptoError("Invalid key length for header", BAD_DH_PARAM);
+ }
+ // the 2 ints
+ let ints = new Uint8Array(5);
+ let intsv = new DataView(ints.buffer);
+ intsv.setUint32(0, this.rs); // bigendian
+ intsv.setUint8(4, key.byteLength);
+ return concatArray([this.salt, ints, key]);
+ }
+}