// Load #1, load as little as possible because we are in a race to get the loading screen up. define([ '/bower_components/nthen/index.js', '/api/config', '/common/dom-ready.js', '/common/sframe-common-outer.js', '/bower_components/tweetnacl/nacl-fast.min.js', ], function (nThen, ApiConfig, DomReady, SFCommonO) { var Nacl = window.nacl; var href, hash; // Loaded in load #2 nThen(function (waitFor) { DomReady.onReady(waitFor()); }).nThen(function (waitFor) { var obj = SFCommonO.initIframe(waitFor, true); href = obj.href; hash = obj.hash; }).nThen(function (/*waitFor*/) { var privateKey, publicKey; var channels = {}; var getPropChannels = function () { return channels; }; var addData = function (meta, CryptPad, user, Utils) { var keys = Utils.secret && Utils.secret.keys; var parsed = Utils.Hash.parseTypeHash('pad', hash.slice(1)); if (parsed && parsed.auditorKey) { meta.form_auditorKey = parsed.auditorKey; meta.form_auditorHash = hash; } var formData = Utils.Hash.getFormData(Utils.secret); if (!formData) { return; } var validateKey = keys.secondaryValidateKey; meta.form_answerValidateKey = validateKey; publicKey = meta.form_public = formData.form_public; privateKey = meta.form_private = formData.form_private; meta.form_auditorHash = formData.form_auditorHash; }; var addRpc = function (sframeChan, Cryptpad, Utils) { sframeChan.on('EV_FORM_PIN', function (data) { channels.answersChannel = data.channel; Cryptpad.getPadAttribute('answersChannel', function (err, res) { // If already stored, don't pin it again if (res && res === data.channel) { return; } Cryptpad.pinPads([data.channel], function () { Cryptpad.setPadAttribute('answersChannel', data.channel, function () {}); }); }); }); var getAnonymousKeys = function (formSeed, channel) { var array = Nacl.util.decodeBase64(formSeed + channel); var hash = Nacl.hash(array); var secretKey = Nacl.util.encodeBase64(hash.subarray(32)); var publicKey = Utils.Hash.getCurvePublicFromPrivate(secretKey); return { curvePrivate: secretKey, curvePublic: publicKey, }; }; var u8_slice = function (A, start, end) { return new Uint8Array(Array.prototype.slice.call(A, start, end)); }; var u8_concat = function (A) { var length = 0; A.forEach(function (a) { length += a.length; }); var total = new Uint8Array(length); var offset = 0; A.forEach(function (a) { total.set(a, offset); offset += a.length; }); return total; }; var anonProof = function (channel, theirPub, anonKeys) { var u8_plain = Nacl.util.decodeUTF8(channel); var u8_nonce = Nacl.randomBytes(Nacl.box.nonceLength); var u8_cipher = Nacl.box( u8_plain, u8_nonce, Nacl.util.decodeBase64(theirPub), Nacl.util.decodeBase64(anonKeys.curvePrivate) ); var u8_bundle = u8_concat([ u8_nonce, // 24 uint8s u8_cipher, // arbitrary length ]); return { key: anonKeys.curvePublic, proof: Nacl.util.encodeBase64(u8_bundle) }; }; var checkAnonProof = function (proofObj, channel, curvePrivate) { var pub = proofObj.key; var proofTxt = proofObj.proof; try { var u8_bundle = Nacl.util.decodeBase64(proofTxt); var u8_nonce = u8_slice(u8_bundle, 0, Nacl.box.nonceLength); var u8_cipher = u8_slice(u8_bundle, Nacl.box.nonceLength); var u8_plain = Nacl.box.open( u8_cipher, u8_nonce, Nacl.util.decodeBase64(pub), Nacl.util.decodeBase64(curvePrivate) ); return channel === Nacl.util.encodeUTF8(u8_plain); } catch (e) { console.error(e); return false; } }; sframeChan.on('Q_FORM_FETCH_ANSWERS', function (data, _cb) { var cb = Utils.Util.once(_cb); var myKeys = {}; var myFormKeys; var accessKeys; var CPNetflux, Pinpad; var network; var noDriveAnswered = false; nThen(function (w) { require([ '/bower_components/chainpad-netflux/chainpad-netflux.js', '/common/pinpad.js', ], w(function (_CPNetflux, _Pinpad) { CPNetflux = _CPNetflux; Pinpad = _Pinpad; })); Cryptpad.getAccessKeys(w(function (_keys) { if (!Array.isArray(_keys)) { return; } accessKeys = _keys; _keys.some(function (_k) { if ((!Cryptpad.initialTeam && !_k.id) || Cryptpad.initialTeam === _k.id) { myKeys = _k; return true; } }); })); Cryptpad.getFormKeys(w(function (keys) { if (!keys.curvePublic && !keys.formSeed) { // No drive mode var answered = JSON.parse(localStorage.CP_formAnswered || "[]"); noDriveAnswered = answered.indexOf(data.channel) !== -1; } myFormKeys = keys; })); Cryptpad.makeNetwork(w(function (err, nw) { network = nw; })); }).nThen(function () { if (!network) { return void cb({error: "E_CONNECT"}); } if (myFormKeys.formSeed) { myFormKeys = getAnonymousKeys(myFormKeys.formSeed, data.channel); } var keys = Utils.secret && Utils.secret.keys; var curvePrivate = privateKey || data.privateKey; if (!curvePrivate) { return void cb({error: 'EFORBIDDEN'}); } var crypto = Utils.Crypto.Mailbox.createEncryptor({ curvePrivate: curvePrivate, curvePublic: publicKey || data.publicKey, validateKey: data.validateKey }); var config = { network: network, channel: data.channel, noChainPad: true, validateKey: keys.secondaryValidateKey, owners: [myKeys.edPublic], crypto: crypto, Cache: Utils.Cache }; var results = {}; config.onError = function (info) { cb({ error: info.type }); }; config.onRejected = function (data, cb) { if (!Array.isArray(data) || !data.length || data[0].length !== 16) { return void cb(true); } if (!Array.isArray(accessKeys)) { return void cb(true); } network.historyKeeper = data[0]; nThen(function (waitFor) { accessKeys.forEach(function (obj) { Pinpad.create(network, obj, waitFor(function (e) { console.log('done', obj); if (e) { console.error(e); } })); }); }).nThen(function () { cb(); }); }; config.onReady = function () { var myKey; // If we have submitted an anonymous answer, retrieve it if (myFormKeys.curvePublic && results[myFormKeys.curvePublic]) { myKey = myFormKeys.curvePublic; } cb({ noDriveAnswered: noDriveAnswered, myKey: myKey, results: results }); network.disconnect(); }; config.onMessage = function (msg, peer, vKey, isCp, hash, senderCurve, cfg) { var parsed = Utils.Util.tryParse(msg); if (!parsed) { return; } if (parsed._proof) { var check = checkAnonProof(parsed._proof, data.channel, curvePrivate); if (check) { delete results[parsed._proof.key]; } } results[senderCurve] = { msg: parsed, hash: hash, time: cfg && cfg.time }; }; CPNetflux.start(config); }); }); sframeChan.on("Q_FETCH_MY_ANSWERS", function (data, cb) { var answer; var myKeys; nThen(function (w) { Cryptpad.getFormKeys(w(function (keys) { myKeys = keys; })); Cryptpad.getFormAnswer({channel: data.channel}, w(function (obj) { if (!obj || obj.error) { if (obj && obj.error === "ENODRIVE") { var answered = JSON.parse(localStorage.CP_formAnswered || "[]"); if (answered.indexOf(data.channel) !== -1) { cb({error:'EANSWERED'}); } else { cb(); } return void w.abort(); } w.abort(); return void cb(obj); } answer = obj; })); }).nThen(function () { if (answer.anonymous) { if (!myKeys.formSeed) { return void cb({ error: "ANONYMOUS_ERROR" }); } myKeys = getAnonymousKeys(myKeys.formSeed, data.channel); } Cryptpad.getHistoryRange({ channel: data.channel, lastKnownHash: answer.hash, toHash: answer.hash, }, function (obj) { if (obj && obj.error) { return void cb(obj); } var messages = obj.messages; var res = Utils.Crypto.Mailbox.openOwnSecretLetter(messages[0].msg, { validateKey: data.validateKey, ephemeral_private: Nacl.util.decodeBase64(answer.curvePrivate), my_private: Nacl.util.decodeBase64(myKeys.curvePrivate), their_public: Nacl.util.decodeBase64(data.publicKey) }); res.content._isAnon = answer.anonymous; cb(JSON.parse(res.content)); }); }); }); var noDriveSeed = Utils.Hash.createChannelId(); sframeChan.on("Q_FORM_SUBMIT", function (data, cb) { var box = data.mailbox; var myKeys; nThen(function (w) { Cryptpad.getFormKeys(w(function (keys) { // If formSeed doesn't exists, it means we're probably in noDrive mode. // We can create a seed in localStorage. if (!keys.formSeed) { // No drive mode var answered = JSON.parse(localStorage.CP_formAnswered || "[]"); if(answered.indexOf(data.channel) !== -1) { // Already answered: abort return void cb({ error: "EANSWERED" }); } keys = { formSeed: noDriveSeed }; } myKeys = keys; })); }).nThen(function () { var myAnonymousKeys; if (data.anonymous) { if (!myKeys.formSeed) { return void cb({ error: "ANONYMOUS_ERROR" }); } myKeys = getAnonymousKeys(myKeys.formSeed, box.channel); } else { myAnonymousKeys = getAnonymousKeys(myKeys.formSeed, box.channel); } var keys = Utils.secret && Utils.secret.keys; myKeys.signingKey = keys.secondarySignKey; var ephemeral_keypair = Nacl.box.keyPair(); var ephemeral_private = Nacl.util.encodeBase64(ephemeral_keypair.secretKey); myKeys.ephemeral_keypair = ephemeral_keypair; if (myAnonymousKeys) { var proof = anonProof(box.channel, box.publicKey, myAnonymousKeys); data.results._proof = proof; } var crypto = Utils.Crypto.Mailbox.createEncryptor(myKeys); var text = JSON.stringify(data.results); var ciphertext = crypto.encrypt(text, box.publicKey); var hash = ciphertext.slice(0,64); Cryptpad.anonRpcMsg("WRITE_PRIVATE_MESSAGE", [ box.channel, ciphertext ], function (err, response) { Cryptpad.storeFormAnswer({ channel: box.channel, hash: hash, curvePrivate: ephemeral_private, anonymous: Boolean(data.anonymous) }); cb({error: err, response: response, hash: hash}); }); }); }); }; SFCommonO.start({ addData: addData, addRpc: addRpc, //cache: true, noDrive: true, hash: hash, href: href, useCreationScreen: true, messaging: true, getPropChannels: getPropChannels }); }); });