gecko-dev/services/fxaccounts/FxAccountsClient.jsm

356 строки
12 KiB
JavaScript
Исходник Обычный вид История

/* 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/. */
this.EXPORTED_SYMBOLS = ["FxAccountsClient"];
const {classes: Cc, interfaces: Ci, utils: Cu} = Components;
Cu.import("resource://gre/modules/Log.jsm");
Cu.import("resource://gre/modules/Promise.jsm");
Cu.import("resource://gre/modules/Services.jsm");
Cu.import("resource://services-common/utils.js");
Cu.import("resource://services-common/hawkclient.js");
Cu.import("resource://services-crypto/utils.js");
Cu.import("resource://gre/modules/FxAccountsCommon.js");
Cu.import("resource://gre/modules/Credentials.jsm");
let _host = "https://api.accounts.firefox.com/v1"
try {
_host = Services.prefs.getCharPref("identity.fxaccounts.auth.uri");
} catch(keepDefault) {}
const HOST = _host;
this.FxAccountsClient = function(host = HOST) {
this.host = host;
// The FxA auth server expects requests to certain endpoints to be authorized
// using Hawk.
this.hawk = new HawkClient(host);
};
this.FxAccountsClient.prototype = {
/**
* Return client clock offset, in milliseconds, as determined by hawk client.
* Provided because callers should not have to know about hawk
* implementation.
*
* The offset is the number of milliseconds that must be added to the client
* clock to make it equal to the server clock. For example, if the client is
* five minutes ahead of the server, the localtimeOffsetMsec will be -300000.
*/
get localtimeOffsetMsec() {
return this.hawk.localtimeOffsetMsec;
},
/*
* Return current time in milliseconds
*
* Not used by this module, but made available to the FxAccounts.jsm
* that uses this client.
*/
now: function() {
return this.hawk.now();
},
/**
* Create a new Firefox Account and authenticate
*
* @param email
* The email address for the account (utf8)
* @param password
* The user's password
* @return Promise
* Returns a promise that resolves to an object:
* {
* uid: the user's unique ID (hex)
* sessionToken: a session token (hex)
* keyFetchToken: a key fetch token (hex)
* }
*/
signUp: function(email, password) {
return Credentials.setup(email, password).then((creds) => {
let data = {
email: creds.emailUTF8,
authPW: CommonUtils.bytesAsHex(creds.authPW),
};
return this._request("/account/create", "POST", null, data);
});
},
/**
* Authenticate and create a new session with the Firefox Account API server
*
* @param email
* The email address for the account (utf8)
* @param password
* The user's password
* @return Promise
* Returns a promise that resolves to an object:
* {
* uid: the user's unique ID (hex)
* sessionToken: a session token (hex)
* keyFetchToken: a key fetch token (hex)
* verified: flag indicating verification status of the email
* }
*/
signIn: function signIn(email, password, retryOK=true) {
return Credentials.setup(email, password).then((creds) => {
let data = {
email: creds.emailUTF8,
authPW: CommonUtils.bytesAsHex(creds.authPW),
};
return this._request("/account/login", "POST", null, data).then(
// Include the canonical capitalization of the email in the response so
// the caller can set its signed-in user state accordingly.
result => {
result.email = data.email;
return result;
},
error => {
log.debug("signIn error: " + JSON.stringify(error));
// If the user entered an email with different capitalization from
// what's stored in the database (e.g., Greta.Garbo@gmail.COM as
// opposed to greta.garbo@gmail.com), the server will respond with a
// errno 120 (code 400) and the expected capitalization of the email.
// We retry with this email exactly once. If successful, we use the
// server's version of the email as the signed-in-user's email. This
// is necessary because the email also serves as salt; so we must be
// in agreement with the server on capitalization.
//
// API reference:
// https://github.com/mozilla/fxa-auth-server/blob/master/docs/api.md
if (ERRNO_INCORRECT_EMAIL_CASE === error.errno && retryOK) {
if (!error.email) {
log.error("Server returned errno 120 but did not provide email");
throw error;
}
return this.signIn(error.email, password, false);
}
throw error;
}
);
});
},
/**
* Destroy the current session with the Firefox Account API server
*
* @param sessionTokenHex
* The session token encoded in hex
* @return Promise
*/
signOut: function (sessionTokenHex) {
return this._request("/session/destroy", "POST",
this._deriveHawkCredentials(sessionTokenHex, "sessionToken"));
},
/**
* Check the verification status of the user's FxA email address
*
* @param sessionTokenHex
* The current session token encoded in hex
* @return Promise
*/
recoveryEmailStatus: function (sessionTokenHex) {
return this._request("/recovery_email/status", "GET",
this._deriveHawkCredentials(sessionTokenHex, "sessionToken"));
},
/**
* Resend the verification email for the user
*
* @param sessionTokenHex
* The current token encoded in hex
* @return Promise
*/
resendVerificationEmail: function(sessionTokenHex) {
return this._request("/recovery_email/resend_code", "POST",
this._deriveHawkCredentials(sessionTokenHex, "sessionToken"));
},
/**
* Retrieve encryption keys
*
* @param keyFetchTokenHex
* A one-time use key fetch token encoded in hex
* @return Promise
* Returns a promise that resolves to an object:
* {
* kA: an encryption key for recevorable data (bytes)
* wrapKB: an encryption key that requires knowledge of the
* user's password (bytes)
* }
*/
accountKeys: function (keyFetchTokenHex) {
let creds = this._deriveHawkCredentials(keyFetchTokenHex, "keyFetchToken");
let keyRequestKey = creds.extra.slice(0, 32);
let morecreds = CryptoUtils.hkdf(keyRequestKey, undefined,
Credentials.keyWord("account/keys"), 3 * 32);
let respHMACKey = morecreds.slice(0, 32);
let respXORKey = morecreds.slice(32, 96);
return this._request("/account/keys", "GET", creds).then(resp => {
if (!resp.bundle) {
throw new Error("failed to retrieve keys");
}
let bundle = CommonUtils.hexToBytes(resp.bundle);
let mac = bundle.slice(-32);
let hasher = CryptoUtils.makeHMACHasher(Ci.nsICryptoHMAC.SHA256,
CryptoUtils.makeHMACKey(respHMACKey));
let bundleMAC = CryptoUtils.digestBytes(bundle.slice(0, -32), hasher);
if (mac !== bundleMAC) {
throw new Error("error unbundling encryption keys");
}
let keyAWrapB = CryptoUtils.xor(respXORKey, bundle.slice(0, 64));
return {
kA: keyAWrapB.slice(0, 32),
wrapKB: keyAWrapB.slice(32)
};
});
},
/**
* Sends a public key to the FxA API server and returns a signed certificate
*
* @param sessionTokenHex
* The current session token encoded in hex
* @param serializedPublicKey
* A public key (usually generated by jwcrypto)
* @param lifetime
* The lifetime of the certificate
* @return Promise
* Returns a promise that resolves to the signed certificate. The certificate
* can be used to generate a Persona assertion.
*/
signCertificate: function (sessionTokenHex, serializedPublicKey, lifetime) {
let creds = this._deriveHawkCredentials(sessionTokenHex, "sessionToken");
let body = { publicKey: serializedPublicKey,
duration: lifetime };
return Promise.resolve()
.then(_ => this._request("/certificate/sign", "POST", creds, body))
.then(resp => resp.cert,
err => {
log.error("HAWK.signCertificate error: " + JSON.stringify(err));
throw err;
});
},
/**
* Determine if an account exists
*
* @param email
* The email address to check
* @return Promise
* The promise resolves to true if the account exists, or false
* if it doesn't. The promise is rejected on other errors.
*/
accountExists: function (email) {
return this.signIn(email, "").then(
(cantHappen) => {
throw new Error("How did I sign in with an empty password?");
},
(expectedError) => {
switch (expectedError.errno) {
case ERRNO_ACCOUNT_DOES_NOT_EXIST:
return false;
break;
case ERRNO_INCORRECT_PASSWORD:
return true;
break;
default:
// not so expected, any more ...
throw expectedError;
break;
}
}
);
},
/**
* The FxA auth server expects requests to certain endpoints to be authorized using Hawk.
* Hawk credentials are derived using shared secrets, which depend on the context
* (e.g. sessionToken vs. keyFetchToken).
*
* @param tokenHex
* The current session token encoded in hex
* @param context
* A context for the credentials
* @param size
* The size in bytes of the expected derived buffer
* @return credentials
* Returns an object:
* {
* algorithm: sha256
* id: the Hawk id (from the first 32 bytes derived)
* key: the Hawk key (from bytes 32 to 64)
* extra: size - 64 extra bytes
* }
*/
_deriveHawkCredentials: function (tokenHex, context, size) {
let token = CommonUtils.hexToBytes(tokenHex);
let out = CryptoUtils.hkdf(token, undefined, Credentials.keyWord(context), size || 3 * 32);
return {
algorithm: "sha256",
key: out.slice(32, 64),
extra: out.slice(64),
id: CommonUtils.bytesAsHex(out.slice(0, 32))
};
},
/**
* A general method for sending raw API calls to the FxA auth server.
* All request bodies and responses are JSON.
*
* @param path
* API endpoint path
* @param method
* The HTTP request method
* @param credentials
* Hawk credentials
* @param jsonPayload
* A JSON payload
* @return Promise
* Returns a promise that resolves to the JSON response of the API call,
* or is rejected with an error. Error responses have the following properties:
* {
* "code": 400, // matches the HTTP status code
* "errno": 107, // stable application-level error number
* "error": "Bad Request", // string description of the error type
* "message": "the value of salt is not allowed to be undefined",
* "info": "https://docs.dev.lcip.og/errors/1234" // link to more info on the error
* }
*/
_request: function hawkRequest(path, method, credentials, jsonPayload) {
let deferred = Promise.defer();
this.hawk.request(path, method, credentials, jsonPayload).then(
(responseText) => {
try {
let response = JSON.parse(responseText);
deferred.resolve(response);
} catch (err) {
log.error("json parse error on response: " + responseText);
deferred.reject({error: err});
}
},
(error) => {
log.error("error " + method + "ing " + path + ": " + JSON.stringify(error));
deferred.reject(error);
}
);
return deferred.promise;
},
};