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joplin/ReactNativeClient/lib/file-api.js

445 lines
14 KiB
JavaScript

const { isHidden } = require('lib/path-utils.js');
const Logger = require('lib/Logger').default;
const shim = require('lib/shim').default;
const BaseItem = require('lib/models/BaseItem.js');
const JoplinError = require('lib/JoplinError');
const ArrayUtils = require('lib/ArrayUtils');
const { time } = require('lib/time-utils.js');
const { sprintf } = require('sprintf-js');
const Mutex = require('async-mutex').Mutex;
function requestCanBeRepeated(error) {
const errorCode = typeof error === 'object' && error.code ? error.code : null;
// The target is explicitely rejecting the item so repeating wouldn't make a difference.
if (errorCode === 'rejectedByTarget') return false;
// We don't repeat failSafe errors because it's an indication of an issue at the
// server-level issue which usually cannot be fixed by repeating the request.
// Also we print the previous requests and responses to the log in this case,
// so not repeating means there will be less noise in the log.
if (errorCode === 'failSafe') return false;
return true;
}
async function tryAndRepeat(fn, count) {
let retryCount = 0;
// Don't use internal fetch retry mechanim since we
// are already retrying here.
const shimFetchMaxRetryPrevious = shim.fetchMaxRetrySet(0);
const defer = () => {
shim.fetchMaxRetrySet(shimFetchMaxRetryPrevious);
};
while (true) {
try {
const result = await fn();
defer();
return result;
} catch (error) {
if (retryCount >= count || !requestCanBeRepeated(error)) {
defer();
throw error;
}
retryCount++;
await time.sleep(1 + retryCount * 3);
}
}
}
class FileApi {
constructor(baseDir, driver) {
this.baseDir_ = baseDir;
this.driver_ = driver;
this.logger_ = new Logger();
this.syncTargetId_ = null;
this.tempDirName_ = null;
this.driver_.fileApi_ = this;
this.requestRepeatCount_ = null; // For testing purpose only - normally this value should come from the driver
this.remoteDateOffset_ = 0;
this.remoteDateNextCheckTime_ = 0;
this.remoteDateMutex_ = new Mutex();
}
async fetchRemoteDateOffset_() {
const tempFile = `${this.tempDirName()}/timeCheck${Math.round(Math.random() * 1000000)}.txt`;
const startTime = Date.now();
await this.put(tempFile, 'timeCheck');
// Normally it should be possible to read the file back immediately but
// just in case, read it in a loop.
const loopStartTime = Date.now();
let stat = null;
while (Date.now() - loopStartTime < 5000) {
stat = await this.stat(tempFile);
if (stat) break;
await time.msleep(200);
}
if (!stat) throw new Error('Timed out trying to get sync target clock time');
this.delete(tempFile); // No need to await for this call
const endTime = Date.now();
const expectedTime = Math.round((endTime + startTime) / 2);
return stat.updated_time - expectedTime;
}
// Approximates the current time on the sync target. It caches the time offset to
// improve performance.
async remoteDate() {
const shouldSyncTime = () => {
return !this.remoteDateNextCheckTime_ || Date.now() > this.remoteDateNextCheckTime_;
};
if (shouldSyncTime()) {
const release = await this.remoteDateMutex_.acquire();
try {
// Another call might have refreshed the time while we were waiting for the mutex,
// so check again if we need to refresh.
if (shouldSyncTime()) {
this.remoteDateOffset_ = await this.fetchRemoteDateOffset_();
// The sync target clock should rarely change but the device one might,
// so we need to refresh relatively frequently.
this.remoteDateNextCheckTime_ = Date.now() + 10 * 60 * 1000;
}
} catch (error) {
this.logger().warn('Could not retrieve remote date - defaulting to device date:', error);
this.remoteDateOffset_ = 0;
this.remoteDateNextCheckTime_ = Date.now() + 60 * 1000;
} finally {
release();
}
}
return new Date(Date.now() + this.remoteDateOffset_);
}
// Ideally all requests repeating should be done at the FileApi level to remove duplicate code in the drivers, but
// historically some drivers (eg. OneDrive) are already handling request repeating, so this is optional, per driver,
// and it defaults to no repeating.
requestRepeatCount() {
if (this.requestRepeatCount_ !== null) return this.requestRepeatCount_;
if (this.driver_.requestRepeatCount) return this.driver_.requestRepeatCount();
return 0;
}
lastRequests() {
return this.driver_.lastRequests ? this.driver_.lastRequests() : [];
}
clearLastRequests() {
if (this.driver_.clearLastRequests) this.driver_.clearLastRequests();
}
baseDir() {
return this.baseDir_;
}
tempDirName() {
if (this.tempDirName_ === null) throw Error('Temp dir not set!');
return this.tempDirName_;
}
setTempDirName(v) {
this.tempDirName_ = v;
}
fsDriver() {
return shim.fsDriver();
}
driver() {
return this.driver_;
}
setSyncTargetId(v) {
this.syncTargetId_ = v;
}
syncTargetId() {
if (this.syncTargetId_ === null) throw new Error('syncTargetId has not been set!!');
return this.syncTargetId_;
}
setLogger(l) {
if (!l) l = new Logger();
this.logger_ = l;
}
logger() {
return this.logger_;
}
fullPath_(path) {
const output = [];
if (this.baseDir()) output.push(this.baseDir());
if (path) output.push(path);
return output.join('/');
}
// DRIVER MUST RETURN PATHS RELATIVE TO `path`
// eslint-disable-next-line no-unused-vars, @typescript-eslint/no-unused-vars
async list(path = '', options = null) {
if (!options) options = {};
if (!('includeHidden' in options)) options.includeHidden = false;
if (!('context' in options)) options.context = null;
if (!('includeDirs' in options)) options.includeDirs = true;
if (!('syncItemsOnly' in options)) options.syncItemsOnly = false;
this.logger().debug(`list ${this.baseDir()}`);
const result = await tryAndRepeat(() => this.driver_.list(this.fullPath_(path), options), this.requestRepeatCount());
if (!options.includeHidden) {
const temp = [];
for (let i = 0; i < result.items.length; i++) {
if (!isHidden(result.items[i].path)) temp.push(result.items[i]);
}
result.items = temp;
}
if (!options.includeDirs) {
result.items = result.items.filter(f => !f.isDir);
}
if (options.syncItemsOnly) {
result.items = result.items.filter(f => !f.isDir && BaseItem.isSystemPath(f.path));
}
return result;
}
// Deprectated
setTimestamp(path, timestampMs) {
this.logger().debug(`setTimestamp ${this.fullPath_(path)}`);
return tryAndRepeat(() => this.driver_.setTimestamp(this.fullPath_(path), timestampMs), this.requestRepeatCount());
// return this.driver_.setTimestamp(this.fullPath_(path), timestampMs);
}
mkdir(path) {
this.logger().debug(`mkdir ${this.fullPath_(path)}`);
return tryAndRepeat(() => this.driver_.mkdir(this.fullPath_(path)), this.requestRepeatCount());
}
async stat(path) {
this.logger().debug(`stat ${this.fullPath_(path)}`);
const output = await tryAndRepeat(() => this.driver_.stat(this.fullPath_(path)), this.requestRepeatCount());
if (!output) return output;
output.path = path;
return output;
// return this.driver_.stat(this.fullPath_(path)).then((output) => {
// if (!output) return output;
// output.path = path;
// return output;
// });
}
// Returns UTF-8 encoded string by default, or a Response if `options.target = 'file'`
get(path, options = null) {
if (!options) options = {};
if (!options.encoding) options.encoding = 'utf8';
this.logger().debug(`get ${this.fullPath_(path)}`);
return tryAndRepeat(() => this.driver_.get(this.fullPath_(path), options), this.requestRepeatCount());
}
async put(path, content, options = null) {
this.logger().debug(`put ${this.fullPath_(path)}`, options);
if (options && options.source === 'file') {
if (!(await this.fsDriver().exists(options.path))) throw new JoplinError(`File not found: ${options.path}`, 'fileNotFound');
}
return tryAndRepeat(() => this.driver_.put(this.fullPath_(path), content, options), this.requestRepeatCount());
}
delete(path) {
this.logger().debug(`delete ${this.fullPath_(path)}`);
return tryAndRepeat(() => this.driver_.delete(this.fullPath_(path)), this.requestRepeatCount());
}
// Deprectated
move(oldPath, newPath) {
this.logger().debug(`move ${this.fullPath_(oldPath)} => ${this.fullPath_(newPath)}`);
return tryAndRepeat(() => this.driver_.move(this.fullPath_(oldPath), this.fullPath_(newPath)), this.requestRepeatCount());
}
// Deprectated
format() {
return tryAndRepeat(() => this.driver_.format(), this.requestRepeatCount());
}
clearRoot() {
return tryAndRepeat(() => this.driver_.clearRoot(this.baseDir()), this.requestRepeatCount());
}
delta(path, options = null) {
this.logger().debug(`delta ${this.fullPath_(path)}`);
return tryAndRepeat(() => this.driver_.delta(this.fullPath_(path), options), this.requestRepeatCount());
}
}
function basicDeltaContextFromOptions_(options) {
const output = {
timestamp: 0,
filesAtTimestamp: [],
statsCache: null,
statIdsCache: null,
deletedItemsProcessed: false,
};
if (!options || !options.context) return output;
const d = new Date(options.context.timestamp);
output.timestamp = isNaN(d.getTime()) ? 0 : options.context.timestamp;
output.filesAtTimestamp = Array.isArray(options.context.filesAtTimestamp) ? options.context.filesAtTimestamp.slice() : [];
output.statsCache = options.context && options.context.statsCache ? options.context.statsCache : null;
output.statIdsCache = options.context && options.context.statIdsCache ? options.context.statIdsCache : null;
output.deletedItemsProcessed = options.context && 'deletedItemsProcessed' in options.context ? options.context.deletedItemsProcessed : false;
return output;
}
// This is the basic delta algorithm, which can be used in case the cloud service does not have
// a built-in delta API. OneDrive and Dropbox have one for example, but Nextcloud and obviously
// the file system do not.
async function basicDelta(path, getDirStatFn, options) {
const outputLimit = 50;
const itemIds = await options.allItemIdsHandler();
if (!Array.isArray(itemIds)) throw new Error('Delta API not supported - local IDs must be provided');
const logger = options && options.logger ? options.logger : new Logger();
const context = basicDeltaContextFromOptions_(options);
if (context.timestamp > Date.now()) {
logger.warn(`BasicDelta: Context timestamp is greater than current time: ${context.timestamp}`);
logger.warn('BasicDelta: Sync will continue but it is likely that nothing will be synced');
}
const newContext = {
timestamp: context.timestamp,
filesAtTimestamp: context.filesAtTimestamp.slice(),
statsCache: context.statsCache,
statIdsCache: context.statIdsCache,
deletedItemsProcessed: context.deletedItemsProcessed,
};
// Stats are cached until all items have been processed (until hasMore is false)
if (newContext.statsCache === null) {
newContext.statsCache = await getDirStatFn(path);
newContext.statsCache.sort(function(a, b) {
return a.updated_time - b.updated_time;
});
newContext.statIdsCache = newContext.statsCache.filter(item => BaseItem.isSystemPath(item.path)).map(item => BaseItem.pathToId(item.path));
newContext.statIdsCache.sort(); // Items must be sorted to use binary search below
}
let output = [];
const updateReport = {
timestamp: context.timestamp,
older: 0,
newer: 0,
equal: 0,
};
// Find out which files have been changed since the last time. Note that we keep
// both the timestamp of the most recent change, *and* the items that exactly match
// this timestamp. This to handle cases where an item is modified while this delta
// function is running. For example:
// t0: Item 1 is changed
// t0: Sync items - run delta function
// t0: While delta() is running, modify Item 2
// Since item 2 was modified within the same millisecond, it would be skipped in the
// next sync if we relied exclusively on a timestamp.
for (let i = 0; i < newContext.statsCache.length; i++) {
const stat = newContext.statsCache[i];
if (stat.isDir) continue;
if (stat.updated_time < context.timestamp) {
updateReport.older++;
continue;
}
// Special case for items that exactly match the timestamp
if (stat.updated_time === context.timestamp) {
if (context.filesAtTimestamp.indexOf(stat.path) >= 0) {
updateReport.equal++;
continue;
}
}
if (stat.updated_time > newContext.timestamp) {
newContext.timestamp = stat.updated_time;
newContext.filesAtTimestamp = [];
updateReport.newer++;
}
newContext.filesAtTimestamp.push(stat.path);
output.push(stat);
if (output.length >= outputLimit) break;
}
logger.info(`BasicDelta: Report: ${JSON.stringify(updateReport)}`);
if (!newContext.deletedItemsProcessed) {
// Find out which items have been deleted on the sync target by comparing the items
// we have to the items on the target.
// Note that when deleted items are processed it might result in the output having
// more items than outputLimit. This is acceptable since delete operations are cheap.
const deletedItems = [];
for (let i = 0; i < itemIds.length; i++) {
const itemId = itemIds[i];
if (ArrayUtils.binarySearch(newContext.statIdsCache, itemId) < 0) {
deletedItems.push({
path: BaseItem.systemPath(itemId),
isDeleted: true,
});
}
}
const percentDeleted = itemIds.length ? deletedItems.length / itemIds.length : 0;
// If more than 90% of the notes are going to be deleted, it's most likely a
// configuration error or bug. For example, if the user moves their Nextcloud
// directory, or if a network drive gets disconnected and returns an empty dir
// instead of an error. In that case, we don't wipe out the user data, unless
// they have switched off the fail-safe.
if (options.wipeOutFailSafe && percentDeleted >= 0.90) throw new JoplinError(sprintf('Fail-safe: Sync was interrupted because %d%% of the data (%d items) is about to be deleted. To override this behaviour disable the fail-safe in the sync settings.', Math.round(percentDeleted * 100), deletedItems.length), 'failSafe');
output = output.concat(deletedItems);
}
newContext.deletedItemsProcessed = true;
const hasMore = output.length >= outputLimit;
if (!hasMore) {
// Clear temporary info from context. It's especially important to remove deletedItemsProcessed
// so that they are processed again on the next sync.
newContext.statsCache = null;
newContext.statIdsCache = null;
delete newContext.deletedItemsProcessed;
}
return {
hasMore: hasMore,
context: newContext,
items: output,
};
}
module.exports = { FileApi, basicDelta };