trilium/static/js/encryption.js
2017-10-11 20:37:27 -04:00

370 lines
No EOL
9.2 KiB
JavaScript

let globalEncryptionCallback = null;
function handleEncryption(requireEncryption, modal, callback) {
if (requireEncryption && globalDataKey === null) {
globalEncryptionCallback = callback;
$("#encryption-password-dialog").dialog({
modal: modal,
width: 400,
open: () => {
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, (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
}
});
});
}
$("#encryption-password-form").submit(() => {
const password = $("#encryption-password").val();
$("#encryption-password").val("");
getDataKey(password).then(key => {
$("#encryption-password-dialog").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) {
loadNoteToEditor(globalCurrentNote.detail.note_id);
for (const noteId of globalAllNoteIds) {
const note = getNodeByKey(noteId);
if (note.data.encryption > 0) {
note.setTitle("[encrypted]");
}
}
}
}
setInterval(() => {
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) {
loadNoteToEditor(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) {
loadNoteToEditor(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: baseApiUrl + 'notes/' + noteId,
type: 'GET',
async: false,
success: note => {
const needSave = updateCallback(note);
if (!needSave) {
return;
}
for (const link of note.links) {
delete link.type;
}
$.ajax({
url: baseApiUrl + 'notes/' + noteId,
type: 'PUT',
data: JSON.stringify(note),
contentType: "application/json",
async: false,
success: () => {
if (successCallback) {
successCallback(note);
}
},
error: () => {
console.log("Updating " + noteId + " failed.");
}
});
},
error: () => {
console.log("Reading " + noteId + " failed.");
}
});
}