let globalEncryptionCallback = null; function handleEncryption(requireEncryption, modal, callback) { if (requireEncryption && globalDataKey === null) { globalEncryptionCallback = callback; if (!modal) { $("#noteDetailWrapper").hide(); } $("#encryptionPasswordDialog").dialog({ modal: modal, width: 400, open: function() { if (!modal) { // dialog steals focus for itself, which is not what we want for non-modal (viewing) getNodeByKey(globalCurrentNote.detail.note_id).setFocus(); } } }); } else { callback(); } } let globalDataKey = null; let globalLastEncryptionOperationDate = null; function getDataKey(password) { return computeScrypt(password, globalEncryptionSalt, (key, resolve, reject) => { const dataKeyAes = getDataKeyAes(key); const decryptedDataKey = decrypt(dataKeyAes, globalEncryptedDataKey); if (decryptedDataKey === false) { reject("Wrong password."); } resolve(decryptedDataKey); }); } function computeScrypt(password, salt, callback) { const normalizedPassword = password.normalize('NFKC'); const passwordBuffer = new buffer.SlowBuffer(normalizedPassword); const saltBuffer = new buffer.SlowBuffer(salt); // this settings take ~500ms on my laptop const N = 16384, r = 8, p = 1; // 32 byte key - AES 256 const dkLen = 32; const startedDate = new Date(); return new Promise((resolve, reject) => { scrypt(passwordBuffer, saltBuffer, N, r, p, dkLen, function (error, progress, key) { if (error) { console.log("Error: " + error); reject(); } else if (key) { console.log("Computation took " + (new Date().getTime() - startedDate.getTime()) + "ms"); callback(key, resolve, reject); } else { // update UI with progress complete } }); }); } $("#encryptionPasswordForm").submit(function() { const password = $("#encryptionPassword").val(); $("#encryptionPassword").val(""); getDataKey(password).then(key => { $("#noteDetailWrapper").show(); $("#encryptionPasswordDialog").dialog("close"); globalDataKey = key; for (const noteId of globalAllNoteIds) { const note = getNodeByKey(noteId); if (note.data.encryption > 0) { const title = decryptString(note.data.note_title); note.setTitle(title); } } if (globalEncryptionCallback !== null) { globalEncryptionCallback(); globalEncryptionCallback = null; } }) .catch(reason => { console.log(reason); alert(reason); }); return false; }); function resetEncryptionSession() { globalDataKey = null; if (globalCurrentNote.detail.encryption > 0) { loadNote(globalCurrentNote.detail.note_id); for (const noteId of globalAllNoteIds) { const note = getNodeByKey(noteId); if (note.data.encryption > 0) { note.setTitle("[encrypted]"); } } } } setInterval(function() { if (globalLastEncryptionOperationDate !== null && new Date().getTime() - globalLastEncryptionOperationDate.getTime() > globalEncryptionSessionTimeout * 1000) { resetEncryptionSession(); } }, 5000); function isEncryptionAvailable() { return globalDataKey !== null; } function getDataAes() { globalLastEncryptionOperationDate = new Date(); return new aesjs.ModeOfOperation.ctr(globalDataKey, new aesjs.Counter(5)); } function getDataKeyAes(key) { return new aesjs.ModeOfOperation.ctr(key, new aesjs.Counter(5)); } function encryptNoteIfNecessary(note) { if (note.detail.encryption === 0) { return note; } else { return encryptNote(note); } } function encryptString(str) { return encrypt(getDataAes(), str); } function encrypt(aes, str) { const payload = aesjs.utils.utf8.toBytes(str); const digest = sha256Array(payload).slice(0, 4); const digestWithPayload = concat(digest, payload); const encryptedBytes = aes.encrypt(digestWithPayload); return uint8ToBase64(encryptedBytes); } function decryptString(encryptedBase64) { const decryptedBytes = decrypt(getDataAes(), encryptedBase64); return aesjs.utils.utf8.fromBytes(decryptedBytes); } function decrypt(aes, encryptedBase64) { const encryptedBytes = base64ToUint8Array(encryptedBase64); const decryptedBytes = aes.decrypt(encryptedBytes); const digest = decryptedBytes.slice(0, 4); const payload = decryptedBytes.slice(4); const hashArray = sha256Array(payload); const computedDigest = hashArray.slice(0, 4); if (!arraysIdentical(digest, computedDigest)) { return false; } return payload; } function concat(a, b) { const result = []; for (let key in a) { result.push(a[key]); } for (let key in b) { result.push(b[key]); } return result; } function sha256Array(content) { const hash = sha256.create(); hash.update(content); return hash.array(); } function arraysIdentical(a, b) { let i = a.length; if (i !== b.length) return false; while (i--) { if (a[i] !== b[i]) return false; } return true; } function encryptNote(note) { note.detail.note_title = encryptString(note.detail.note_title); note.detail.note_text = encryptString(note.detail.note_text); note.detail.encryption = 1; return note; } function encryptNoteAndSendToServer() { handleEncryption(true, true, () => { const note = globalCurrentNote; updateNoteFromInputs(note); encryptNote(note); saveNoteToServer(note); setNoteBackgroundIfEncrypted(note); }); } function decryptNoteAndSendToServer() { handleEncryption(true, true, () => { const note = globalCurrentNote; updateNoteFromInputs(note); note.detail.encryption = 0; saveNoteToServer(note); setNoteBackgroundIfEncrypted(note); }); } function decryptNoteIfNecessary(note) { if (note.detail.encryption > 0) { decryptNote(note); } } function decryptNote(note) { note.detail.note_title = decryptString(note.detail.note_title); note.detail.note_text = decryptString(note.detail.note_text); } function encryptSubTree(noteId) { handleEncryption(true, true, () => { updateSubTreeRecursively(noteId, note => { if (note.detail.encryption === null || note.detail.encryption === 0) { encryptNote(note); note.detail.encryption = 1; return true; } else { return false; } }, note => { if (note.detail.note_id === globalCurrentNote.detail.note_id) { loadNote(note.detail.note_id); } else { setTreeBasedOnEncryption(note); } }); alert("Encryption finished."); }); } function decryptSubTree(noteId) { handleEncryption(true, true, () => { updateSubTreeRecursively(noteId, note => { if (note.detail.encryption === 1) { decryptNote(note); note.detail.encryption = 0; return true; } else { return false; } }, note => { if (note.detail.note_id === globalCurrentNote.detail.note_id) { loadNote(note.detail.note_id); } else { setTreeBasedOnEncryption(note); } }); alert("Decryption finished."); }); } function updateSubTreeRecursively(noteId, updateCallback, successCallback) { updateNoteSynchronously(noteId, updateCallback, successCallback); const node = getNodeByKey(noteId); if (!node || !node.getChildren()) { return; } for (const child of node.getChildren()) { updateSubTreeRecursively(child.key, updateCallback, successCallback); } } function updateNoteSynchronously(noteId, updateCallback, successCallback) { $.ajax({ url: baseUrl + 'notes/' + noteId, type: 'GET', async: false, success: function (note) { const needSave = updateCallback(note); if (!needSave) { return; } for (const link of note.links) { delete link.type; } $.ajax({ url: baseUrl + 'notes/' + noteId, type: 'PUT', data: JSON.stringify(note), contentType: "application/json", async: false, success: function () { if (successCallback) { successCallback(note); } }, error: function () { console.log("Updating " + noteId + " failed."); } }); }, error: function () { console.log("Reading " + noteId + " failed."); } }); }