/* 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/. */ /** * How does the clients engine work? * * - We use 2 files - commands.json and commands-syncing.json. * * - At sync upload time, we attempt a rename of commands.json to * commands-syncing.json, and ignore errors (helps for crash during sync!). * - We load commands-syncing.json and stash the contents in * _currentlySyncingCommands which lives for the duration of the upload process. * - We use _currentlySyncingCommands to build the outgoing records * - Immediately after successful upload, we delete commands-syncing.json from * disk (and clear _currentlySyncingCommands). We reconcile our local records * with what we just wrote in the server, and add failed IDs commands * back in commands.json * - Any time we need to "save" a command for future syncs, we load * commands.json, update it, and write it back out. */ import { Async } from "resource://services-common/async.sys.mjs"; import { DEVICE_TYPE_DESKTOP, DEVICE_TYPE_MOBILE, SINGLE_USER_THRESHOLD, SYNC_API_VERSION, } from "resource://services-sync/constants.sys.mjs"; import { Store, SyncEngine, LegacyTracker, } from "resource://services-sync/engines.sys.mjs"; import { CryptoWrapper } from "resource://services-sync/record.sys.mjs"; import { Resource } from "resource://services-sync/resource.sys.mjs"; import { Svc, Utils } from "resource://services-sync/util.sys.mjs"; const lazy = {}; ChromeUtils.defineLazyGetter(lazy, "fxAccounts", () => { return ChromeUtils.importESModule( "resource://gre/modules/FxAccounts.sys.mjs" ).getFxAccountsSingleton(); }); import { PREF_ACCOUNT_ROOT } from "resource://gre/modules/FxAccountsCommon.sys.mjs"; const CLIENTS_TTL = 15552000; // 180 days const CLIENTS_TTL_REFRESH = 604800; // 7 days const STALE_CLIENT_REMOTE_AGE = 604800; // 7 days // TTL of the message sent to another device when sending a tab const NOTIFY_TAB_SENT_TTL_SECS = 1 * 3600; // 1 hour // How often we force a refresh of the FxA device list. const REFRESH_FXA_DEVICE_INTERVAL_MS = 2 * 60 * 60 * 1000; // 2 hours // Reasons behind sending collection_changed push notifications. const COLLECTION_MODIFIED_REASON_SENDTAB = "sendtab"; const COLLECTION_MODIFIED_REASON_FIRSTSYNC = "firstsync"; const SUPPORTED_PROTOCOL_VERSIONS = [SYNC_API_VERSION]; const LAST_MODIFIED_ON_PROCESS_COMMAND_PREF = "services.sync.clients.lastModifiedOnProcessCommands"; function hasDupeCommand(commands, action) { if (!commands) { return false; } return commands.some( other => other.command == action.command && Utils.deepEquals(other.args, action.args) ); } export function ClientsRec(collection, id) { CryptoWrapper.call(this, collection, id); } ClientsRec.prototype = { _logName: "Sync.Record.Clients", ttl: CLIENTS_TTL, }; Object.setPrototypeOf(ClientsRec.prototype, CryptoWrapper.prototype); Utils.deferGetSet(ClientsRec, "cleartext", [ "name", "type", "commands", "version", "protocols", "formfactor", "os", "appPackage", "application", "device", "fxaDeviceId", ]); export function ClientEngine(service) { SyncEngine.call(this, "Clients", service); this.fxAccounts = lazy.fxAccounts; this.addClientCommandQueue = Async.asyncQueueCaller(this._log); Utils.defineLazyIDProperty(this, "localID", "services.sync.client.GUID"); } ClientEngine.prototype = { _storeObj: ClientStore, _recordObj: ClientsRec, _trackerObj: ClientsTracker, allowSkippedRecord: false, _knownStaleFxADeviceIds: null, _lastDeviceCounts: null, _lastFxaDeviceRefresh: 0, async initialize() { // Reset the last sync timestamp on every startup so that we fetch all clients await this.resetLastSync(); }, // These two properties allow us to avoid replaying the same commands // continuously if we cannot manage to upload our own record. _localClientLastModified: 0, get _lastModifiedOnProcessCommands() { return Services.prefs.getIntPref(LAST_MODIFIED_ON_PROCESS_COMMAND_PREF, -1); }, set _lastModifiedOnProcessCommands(value) { Services.prefs.setIntPref(LAST_MODIFIED_ON_PROCESS_COMMAND_PREF, value); }, get isFirstSync() { return !this.lastRecordUpload; }, // Always sync client data as it controls other sync behavior get enabled() { return true; }, get lastRecordUpload() { return Svc.PrefBranch.getIntPref(this.name + ".lastRecordUpload", 0); }, set lastRecordUpload(value) { Svc.PrefBranch.setIntPref( this.name + ".lastRecordUpload", Math.floor(value) ); }, get remoteClients() { // return all non-stale clients for external consumption. return Object.values(this._store._remoteClients).filter(v => !v.stale); }, remoteClient(id) { let client = this._store._remoteClients[id]; return client && !client.stale ? client : null; }, remoteClientExists(id) { return !!this.remoteClient(id); }, // Aggregate some stats on the composition of clients on this account get stats() { let stats = { hasMobile: this.localType == DEVICE_TYPE_MOBILE, names: [this.localName], numClients: 1, }; for (let id in this._store._remoteClients) { let { name, type, stale } = this._store._remoteClients[id]; if (!stale) { stats.hasMobile = stats.hasMobile || type == DEVICE_TYPE_MOBILE; stats.names.push(name); stats.numClients++; } } return stats; }, /** * Obtain information about device types. * * Returns a Map of device types to integer counts. Guaranteed to include * "desktop" (which will have at least 1 - this device) and "mobile" (which * may have zero) counts. It almost certainly will include only these 2. */ get deviceTypes() { let counts = new Map(); counts.set(this.localType, 1); // currently this must be DEVICE_TYPE_DESKTOP counts.set(DEVICE_TYPE_MOBILE, 0); for (let id in this._store._remoteClients) { let record = this._store._remoteClients[id]; if (record.stale) { continue; // pretend "stale" records don't exist. } let type = record.type; if (!counts.has(type)) { counts.set(type, 0); } counts.set(type, counts.get(type) + 1); } return counts; }, get brandName() { let brand = Services.strings.createBundle( "chrome://branding/locale/brand.properties" ); return brand.GetStringFromName("brandShortName"); }, get localName() { return this.fxAccounts.device.getLocalName(); }, set localName(value) { this.fxAccounts.device.setLocalName(value); }, get localType() { return this.fxAccounts.device.getLocalType(); }, getClientName(id) { if (id == this.localID) { return this.localName; } let client = this._store._remoteClients[id]; if (!client) { return ""; } // Sometimes the sync clients don't always correctly update the device name // However FxA always does, so try to pull the name from there first let fxaDevice = this.fxAccounts.device.recentDeviceList?.find( device => device.id === client.fxaDeviceId ); // should be very rare, but could happen if we have yet to fetch devices, // or the client recently disconnected if (!fxaDevice) { this._log.warn( "Couldn't find associated FxA device, falling back to client name" ); return client.name; } return fxaDevice.name; }, getClientFxaDeviceId(id) { if (this._store._remoteClients[id]) { return this._store._remoteClients[id].fxaDeviceId; } return null; }, getClientByFxaDeviceId(fxaDeviceId) { for (let id in this._store._remoteClients) { let client = this._store._remoteClients[id]; if (client.stale) { continue; } if (client.fxaDeviceId == fxaDeviceId) { return client; } } return null; }, getClientType(id) { const client = this._store._remoteClients[id]; if (client.type == DEVICE_TYPE_DESKTOP) { return "desktop"; } if (client.formfactor && client.formfactor.includes("tablet")) { return "tablet"; } return "phone"; }, async _readCommands() { let commands = await Utils.jsonLoad("commands", this); return commands || {}; }, /** * Low level function, do not use directly (use _addClientCommand instead). */ async _saveCommands(commands) { try { await Utils.jsonSave("commands", this, commands); } catch (error) { this._log.error("Failed to save JSON outgoing commands", error); } }, async _prepareCommandsForUpload() { try { await Utils.jsonMove("commands", "commands-syncing", this); } catch (e) { // Ignore errors } let commands = await Utils.jsonLoad("commands-syncing", this); return commands || {}; }, async _deleteUploadedCommands() { delete this._currentlySyncingCommands; try { await Utils.jsonRemove("commands-syncing", this); } catch (err) { this._log.error("Failed to delete syncing-commands file", err); } }, // Gets commands for a client we are yet to write to the server. Doesn't // include commands for that client which are already on the server. // We should rename this! async getClientCommands(clientId) { const allCommands = await this._readCommands(); return allCommands[clientId] || []; }, async removeLocalCommand(command) { // the implementation of this engine is such that adding a command to // the local client is how commands are deleted! ¯\_(ツ)_/¯ await this._addClientCommand(this.localID, command); }, async _addClientCommand(clientId, command) { this.addClientCommandQueue.enqueueCall(async () => { try { const localCommands = await this._readCommands(); const localClientCommands = localCommands[clientId] || []; const remoteClient = this._store._remoteClients[clientId]; let remoteClientCommands = []; if (remoteClient && remoteClient.commands) { remoteClientCommands = remoteClient.commands; } const clientCommands = localClientCommands.concat(remoteClientCommands); if (hasDupeCommand(clientCommands, command)) { return false; } localCommands[clientId] = localClientCommands.concat(command); await this._saveCommands(localCommands); return true; } catch (e) { // Failing to save a command should not "break the queue" of pending operations. this._log.error(e); return false; } }); return this.addClientCommandQueue.promiseCallsComplete(); }, async _removeClientCommands(clientId) { const allCommands = await this._readCommands(); delete allCommands[clientId]; await this._saveCommands(allCommands); }, async updateKnownStaleClients() { this._log.debug("Updating the known stale clients"); // _fetchFxADevices side effect updates this._knownStaleFxADeviceIds. await this._fetchFxADevices(); let localFxADeviceId = await lazy.fxAccounts.device.getLocalId(); // Process newer records first, so that if we hit a record with a device ID // we've seen before, we can mark it stale immediately. let clientList = Object.values(this._store._remoteClients).sort( (a, b) => b.serverLastModified - a.serverLastModified ); let seenDeviceIds = new Set([localFxADeviceId]); for (let client of clientList) { // Clients might not have an `fxaDeviceId` if they fail the FxA // registration process. if (!client.fxaDeviceId) { continue; } if (this._knownStaleFxADeviceIds.includes(client.fxaDeviceId)) { this._log.info( `Hiding stale client ${client.id} - in known stale clients list` ); client.stale = true; } else if (seenDeviceIds.has(client.fxaDeviceId)) { this._log.info( `Hiding stale client ${client.id}` + ` - duplicate device id ${client.fxaDeviceId}` ); client.stale = true; } else { seenDeviceIds.add(client.fxaDeviceId); } } }, async _fetchFxADevices() { // We only force a refresh periodically to keep the load on the servers // down, and because we expect FxA to have received a push message in // most cases when the FxA device list would have changed. For this reason // we still go ahead and check the stale list even if we didn't force a // refresh. let now = this.fxAccounts._internal.now(); // tests mock this .now() impl. if (now - REFRESH_FXA_DEVICE_INTERVAL_MS > this._lastFxaDeviceRefresh) { this._lastFxaDeviceRefresh = now; try { await this.fxAccounts.device.refreshDeviceList(); } catch (e) { this._log.error("Could not refresh the FxA device list", e); } } // We assume that clients not present in the FxA Device Manager list have been // disconnected and so are stale this._log.debug("Refreshing the known stale clients list"); let localClients = Object.values(this._store._remoteClients) .filter(client => client.fxaDeviceId) // iOS client records don't have fxaDeviceId .map(client => client.fxaDeviceId); const fxaClients = this.fxAccounts.device.recentDeviceList ? this.fxAccounts.device.recentDeviceList.map(device => device.id) : []; this._knownStaleFxADeviceIds = Utils.arraySub(localClients, fxaClients); }, async _syncStartup() { // Reupload new client record periodically. if (Date.now() / 1000 - this.lastRecordUpload > CLIENTS_TTL_REFRESH) { await this._tracker.addChangedID(this.localID); } return SyncEngine.prototype._syncStartup.call(this); }, async _processIncoming() { // Fetch all records from the server. await this.resetLastSync(); this._incomingClients = {}; try { await SyncEngine.prototype._processIncoming.call(this); // Update FxA Device list. await this._fetchFxADevices(); // Since clients are synced unconditionally, any records in the local store // that don't exist on the server must be for disconnected clients. Remove // them, so that we don't upload records with commands for clients that will // never see them. We also do this to filter out stale clients from the // tabs collection, since showing their list of tabs is confusing. for (let id in this._store._remoteClients) { if (!this._incomingClients[id]) { this._log.info(`Removing local state for deleted client ${id}`); await this._removeRemoteClient(id); } } let localFxADeviceId = await lazy.fxAccounts.device.getLocalId(); // Bug 1264498: Mobile clients don't remove themselves from the clients // collection when the user disconnects Sync, so we mark as stale clients // with the same name that haven't synced in over a week. // (Note we can't simply delete them, or we re-apply them next sync - see // bug 1287687) this._localClientLastModified = Math.round( this._incomingClients[this.localID] ); delete this._incomingClients[this.localID]; let names = new Set([this.localName]); let seenDeviceIds = new Set([localFxADeviceId]); let idToLastModifiedList = Object.entries(this._incomingClients).sort( (a, b) => b[1] - a[1] ); for (let [id, serverLastModified] of idToLastModifiedList) { let record = this._store._remoteClients[id]; // stash the server last-modified time on the record. record.serverLastModified = serverLastModified; if ( record.fxaDeviceId && this._knownStaleFxADeviceIds.includes(record.fxaDeviceId) ) { this._log.info( `Hiding stale client ${id} - in known stale clients list` ); record.stale = true; } if (!names.has(record.name)) { if (record.fxaDeviceId) { seenDeviceIds.add(record.fxaDeviceId); } names.add(record.name); continue; } let remoteAge = Resource.serverTime - this._incomingClients[id]; if (remoteAge > STALE_CLIENT_REMOTE_AGE) { this._log.info(`Hiding stale client ${id} with age ${remoteAge}`); record.stale = true; continue; } if (record.fxaDeviceId && seenDeviceIds.has(record.fxaDeviceId)) { this._log.info( `Hiding stale client ${record.id}` + ` - duplicate device id ${record.fxaDeviceId}` ); record.stale = true; } else if (record.fxaDeviceId) { seenDeviceIds.add(record.fxaDeviceId); } } } finally { this._incomingClients = null; } }, async _uploadOutgoing() { this._currentlySyncingCommands = await this._prepareCommandsForUpload(); const clientWithPendingCommands = Object.keys( this._currentlySyncingCommands ); for (let clientId of clientWithPendingCommands) { if (this._store._remoteClients[clientId] || this.localID == clientId) { this._modified.set(clientId, 0); } } let updatedIDs = this._modified.ids(); await SyncEngine.prototype._uploadOutgoing.call(this); // Record the response time as the server time for each item we uploaded. let lastSync = await this.getLastSync(); for (let id of updatedIDs) { if (id == this.localID) { this.lastRecordUpload = lastSync; } else { this._store._remoteClients[id].serverLastModified = lastSync; } } }, async _onRecordsWritten(succeeded, failed) { // Reconcile the status of the local records with what we just wrote on the // server for (let id of succeeded) { const commandChanges = this._currentlySyncingCommands[id]; if (id == this.localID) { if (this.isFirstSync) { this._log.info( "Uploaded our client record for the first time, notifying other clients." ); this._notifyClientRecordUploaded(); } if (this.localCommands) { this.localCommands = this.localCommands.filter( command => !hasDupeCommand(commandChanges, command) ); } } else { const clientRecord = this._store._remoteClients[id]; if (!commandChanges || !clientRecord) { // should be impossible, else we wouldn't have been writing it. this._log.warn( "No command/No record changes for a client we uploaded" ); continue; } // fixup the client record, so our copy of _remoteClients matches what we uploaded. this._store._remoteClients[id] = await this._store.createRecord(id); // we could do better and pass the reference to the record we just uploaded, // but this will do for now } } // Re-add failed commands for (let id of failed) { const commandChanges = this._currentlySyncingCommands[id]; if (!commandChanges) { continue; } await this._addClientCommand(id, commandChanges); } await this._deleteUploadedCommands(); // Notify other devices that their own client collection changed const idsToNotify = succeeded.reduce((acc, id) => { if (id == this.localID) { return acc; } const fxaDeviceId = this.getClientFxaDeviceId(id); return fxaDeviceId ? acc.concat(fxaDeviceId) : acc; }, []); if (idsToNotify.length) { this._notifyOtherClientsModified(idsToNotify); } }, _notifyOtherClientsModified(ids) { // We are not waiting on this promise on purpose. this._notifyCollectionChanged( ids, NOTIFY_TAB_SENT_TTL_SECS, COLLECTION_MODIFIED_REASON_SENDTAB ); }, _notifyClientRecordUploaded() { // We are not waiting on this promise on purpose. this._notifyCollectionChanged( null, 0, COLLECTION_MODIFIED_REASON_FIRSTSYNC ); }, /** * @param {?string[]} ids FxA Client IDs to notify. null means everyone else. * @param {number} ttl TTL of the push notification. * @param {string} reason Reason for sending this push notification. */ async _notifyCollectionChanged(ids, ttl, reason) { const message = { version: 1, command: "sync:collection_changed", data: { collections: ["clients"], reason, }, }; let excludedIds = null; if (!ids) { const localFxADeviceId = await lazy.fxAccounts.device.getLocalId(); excludedIds = [localFxADeviceId]; } try { await this.fxAccounts.notifyDevices(ids, excludedIds, message, ttl); } catch (e) { this._log.error("Could not notify of changes in the collection", e); } }, async _syncFinish() { // Record histograms for our device types, and also write them to a pref // so non-histogram telemetry (eg, UITelemetry) and the sync scheduler // has easy access to them, and so they are accurate even before we've // successfully synced the first time after startup. let deviceTypeCounts = this.deviceTypes; for (let [deviceType, count] of deviceTypeCounts) { let hid; let prefName = this.name + ".devices."; switch (deviceType) { case DEVICE_TYPE_DESKTOP: hid = "WEAVE_DEVICE_COUNT_DESKTOP"; prefName += "desktop"; break; case DEVICE_TYPE_MOBILE: hid = "WEAVE_DEVICE_COUNT_MOBILE"; prefName += "mobile"; break; default: this._log.warn( `Unexpected deviceType "${deviceType}" recording device telemetry.` ); continue; } Services.telemetry.getHistogramById(hid).add(count); // Optimization: only write the pref if it changed since our last sync. if ( this._lastDeviceCounts == null || this._lastDeviceCounts.get(prefName) != count ) { Svc.PrefBranch.setIntPref(prefName, count); } } this._lastDeviceCounts = deviceTypeCounts; return SyncEngine.prototype._syncFinish.call(this); }, async _reconcile(item) { // Every incoming record is reconciled, so we use this to track the // contents of the collection on the server. this._incomingClients[item.id] = item.modified; if (!(await this._store.itemExists(item.id))) { return true; } // Clients are synced unconditionally, so we'll always have new records. // Unfortunately, this will cause the scheduler to use the immediate sync // interval for the multi-device case, instead of the active interval. We // work around this by updating the record during reconciliation, and // returning false to indicate that the record doesn't need to be applied // later. await this._store.update(item); return false; }, // Treat reset the same as wiping for locally cached clients async _resetClient() { await this._wipeClient(); }, async _wipeClient() { await SyncEngine.prototype._resetClient.call(this); this._knownStaleFxADeviceIds = null; delete this.localCommands; await this._store.wipe(); try { await Utils.jsonRemove("commands", this); } catch (err) { this._log.warn("Could not delete commands.json", err); } try { await Utils.jsonRemove("commands-syncing", this); } catch (err) { this._log.warn("Could not delete commands-syncing.json", err); } }, async removeClientData() { let res = this.service.resource(this.engineURL + "/" + this.localID); await res.delete(); }, // Override the default behavior to delete bad records from the server. async handleHMACMismatch(item, mayRetry) { this._log.debug("Handling HMAC mismatch for " + item.id); let base = await SyncEngine.prototype.handleHMACMismatch.call( this, item, mayRetry ); if (base != SyncEngine.kRecoveryStrategy.error) { return base; } // It's a bad client record. Save it to be deleted at the end of the sync. this._log.debug("Bad client record detected. Scheduling for deletion."); await this._deleteId(item.id); // Neither try again nor error; we're going to delete it. return SyncEngine.kRecoveryStrategy.ignore; }, /** * A hash of valid commands that the client knows about. The key is a command * and the value is a hash containing information about the command such as * number of arguments, description, and importance (lower importance numbers * indicate higher importance. */ _commands: { resetAll: { args: 0, importance: 0, desc: "Clear temporary local data for all engines", }, resetEngine: { args: 1, importance: 0, desc: "Clear temporary local data for engine", }, wipeEngine: { args: 1, importance: 0, desc: "Delete all client data for engine", }, logout: { args: 0, importance: 0, desc: "Log out client" }, }, /** * Sends a command+args pair to a specific client. * * @param command Command string * @param args Array of arguments/data for command * @param clientId Client to send command to */ async _sendCommandToClient(command, args, clientId, telemetryExtra) { this._log.trace("Sending " + command + " to " + clientId); let client = this._store._remoteClients[clientId]; if (!client) { throw new Error("Unknown remote client ID: '" + clientId + "'."); } if (client.stale) { throw new Error("Stale remote client ID: '" + clientId + "'."); } let action = { command, args, // We send the flowID to the other client so *it* can report it in its // telemetry - we record it in ours below. flowID: telemetryExtra.flowID, }; if (await this._addClientCommand(clientId, action)) { this._log.trace(`Client ${clientId} got a new action`, [command, args]); await this._tracker.addChangedID(clientId); try { telemetryExtra.deviceID = this.service.identity.hashedDeviceID(clientId); } catch (_) {} this.service.recordTelemetryEvent( "sendcommand", command, undefined, telemetryExtra ); } else { this._log.trace(`Client ${clientId} got a duplicate action`, [ command, args, ]); } }, /** * Check if the local client has any remote commands and perform them. * * @return false to abort sync */ async processIncomingCommands() { return this._notify("clients:process-commands", "", async function () { if ( !this.localCommands || (this._lastModifiedOnProcessCommands == this._localClientLastModified && !this.ignoreLastModifiedOnProcessCommands) ) { return true; } this._lastModifiedOnProcessCommands = this._localClientLastModified; const clearedCommands = await this._readCommands()[this.localID]; const commands = this.localCommands.filter( command => !hasDupeCommand(clearedCommands, command) ); let didRemoveCommand = false; // Process each command in order. for (let rawCommand of commands) { let shouldRemoveCommand = true; // most commands are auto-removed. let { command, args, flowID } = rawCommand; this._log.debug("Processing command " + command, args); this.service.recordTelemetryEvent( "processcommand", command, undefined, { flowID } ); let engines = [args[0]]; switch (command) { case "resetAll": engines = null; // Fallthrough case "resetEngine": await this.service.resetClient(engines); break; case "wipeEngine": await this.service.wipeClient(engines); break; case "logout": this.service.logout(); return false; default: this._log.warn("Received an unknown command: " + command); break; } // Add the command to the "cleared" commands list if (shouldRemoveCommand) { await this.removeLocalCommand(rawCommand); didRemoveCommand = true; } } if (didRemoveCommand) { await this._tracker.addChangedID(this.localID); } return true; })(); }, /** * Validates and sends a command to a client or all clients. * * Calling this does not actually sync the command data to the server. If the * client already has the command/args pair, it won't receive a duplicate * command. * This method is async since it writes the command to a file. * * @param command * Command to invoke on remote clients * @param args * Array of arguments to give to the command * @param clientId * Client ID to send command to. If undefined, send to all remote * clients. * @param flowID * A unique identifier used to track success for this operation across * devices. */ async sendCommand(command, args, clientId = null, telemetryExtra = {}) { let commandData = this._commands[command]; // Don't send commands that we don't know about. if (!commandData) { this._log.error("Unknown command to send: " + command); return; } else if (!args || args.length != commandData.args) { // Don't send a command with the wrong number of arguments. this._log.error( "Expected " + commandData.args + " args for '" + command + "', but got " + args ); return; } // We allocate a "flowID" here, so it is used for each client. telemetryExtra = Object.assign({}, telemetryExtra); // don't clobber the caller's object if (!telemetryExtra.flowID) { telemetryExtra.flowID = Utils.makeGUID(); } if (clientId) { await this._sendCommandToClient(command, args, clientId, telemetryExtra); } else { for (let [id, record] of Object.entries(this._store._remoteClients)) { if (!record.stale) { await this._sendCommandToClient(command, args, id, telemetryExtra); } } } }, async _removeRemoteClient(id) { delete this._store._remoteClients[id]; await this._tracker.removeChangedID(id); await this._removeClientCommands(id); this._modified.delete(id); }, }; Object.setPrototypeOf(ClientEngine.prototype, SyncEngine.prototype); function ClientStore(name, engine) { Store.call(this, name, engine); } ClientStore.prototype = { _remoteClients: {}, async create(record) { await this.update(record); }, async update(record) { if (record.id == this.engine.localID) { // Only grab commands from the server; local name/type always wins this.engine.localCommands = record.commands; } else { this._remoteClients[record.id] = record.cleartext; } }, async createRecord(id, collection) { let record = new ClientsRec(collection, id); const commandsChanges = this.engine._currentlySyncingCommands ? this.engine._currentlySyncingCommands[id] : []; // Package the individual components into a record for the local client if (id == this.engine.localID) { try { record.fxaDeviceId = await this.engine.fxAccounts.device.getLocalId(); } catch (error) { this._log.warn("failed to get fxa device id", error); } record.name = this.engine.localName; record.type = this.engine.localType; record.version = Services.appinfo.version; record.protocols = SUPPORTED_PROTOCOL_VERSIONS; // Substract the commands we recorded that we've already executed if ( commandsChanges && commandsChanges.length && this.engine.localCommands && this.engine.localCommands.length ) { record.commands = this.engine.localCommands.filter( command => !hasDupeCommand(commandsChanges, command) ); } // Optional fields. record.os = Services.appinfo.OS; // "Darwin" record.appPackage = Services.appinfo.ID; record.application = this.engine.brandName; // "Nightly" // We can't compute these yet. // record.device = ""; // Bug 1100723 // record.formfactor = ""; // Bug 1100722 } else { record.cleartext = Object.assign({}, this._remoteClients[id]); delete record.cleartext.serverLastModified; // serverLastModified is a local only attribute. // Add the commands we have to send if (commandsChanges && commandsChanges.length) { const recordCommands = record.cleartext.commands || []; const newCommands = commandsChanges.filter( command => !hasDupeCommand(recordCommands, command) ); record.cleartext.commands = recordCommands.concat(newCommands); } if (record.cleartext.stale) { // It's almost certainly a logic error for us to upload a record we // consider stale, so make log noise, but still remove the flag. this._log.error( `Preparing to upload record ${id} that we consider stale` ); delete record.cleartext.stale; } } if (record.commands) { const maxPayloadSize = this.engine.service.getMemcacheMaxRecordPayloadSize(); let origOrder = new Map(record.commands.map((c, i) => [c, i])); // we sort first by priority, and second by age (indicated by order in the // original list) let commands = record.commands.slice().sort((a, b) => { let infoA = this.engine._commands[a.command]; let infoB = this.engine._commands[b.command]; // Treat unknown command types as highest priority, to allow us to add // high priority commands in the future without worrying about clients // removing them on each-other unnecessarially. let importA = infoA ? infoA.importance : 0; let importB = infoB ? infoB.importance : 0; // Higher importantance numbers indicate that we care less, so they // go to the end of the list where they'll be popped off. let importDelta = importA - importB; if (importDelta != 0) { return importDelta; } let origIdxA = origOrder.get(a); let origIdxB = origOrder.get(b); // Within equivalent priorities, we put older entries near the end // of the list, so that they are removed first. return origIdxB - origIdxA; }); let truncatedCommands = Utils.tryFitItems(commands, maxPayloadSize); if (truncatedCommands.length != record.commands.length) { this._log.warn( `Removing commands from client ${id} (from ${record.commands.length} to ${truncatedCommands.length})` ); // Restore original order. record.commands = truncatedCommands.sort( (a, b) => origOrder.get(a) - origOrder.get(b) ); } } return record; }, async itemExists(id) { return id in (await this.getAllIDs()); }, async getAllIDs() { let ids = {}; ids[this.engine.localID] = true; for (let id in this._remoteClients) { ids[id] = true; } return ids; }, async wipe() { this._remoteClients = {}; }, }; Object.setPrototypeOf(ClientStore.prototype, Store.prototype); function ClientsTracker(name, engine) { LegacyTracker.call(this, name, engine); } ClientsTracker.prototype = { _enabled: false, onStart() { Svc.Obs.add("fxaccounts:new_device_id", this.asyncObserver); Services.prefs.addObserver( PREF_ACCOUNT_ROOT + "device.name", this.asyncObserver ); }, onStop() { Services.prefs.removeObserver( PREF_ACCOUNT_ROOT + "device.name", this.asyncObserver ); Svc.Obs.remove("fxaccounts:new_device_id", this.asyncObserver); }, async observe(subject, topic, data) { switch (topic) { case "nsPref:changed": this._log.debug("client.name preference changed"); // Fallthrough intended. case "fxaccounts:new_device_id": await this.addChangedID(this.engine.localID); this.score += SINGLE_USER_THRESHOLD + 1; // ALWAYS SYNC NOW. break; } }, }; Object.setPrototypeOf(ClientsTracker.prototype, LegacyTracker.prototype);