/* Any copyright is dedicated to the Public Domain. * http://creativecommons.org/publicdomain/zero/1.0/ */ "use strict"; const { FxAccountsCommands, SendTab } = ChromeUtils.import( "resource://gre/modules/FxAccountsCommands.js" ); const { FxAccountsClient } = ChromeUtils.import( "resource://gre/modules/FxAccountsClient.jsm" ); const { COMMAND_SENDTAB, COMMAND_SENDTAB_TAIL } = ChromeUtils.import( "resource://gre/modules/FxAccountsCommon.js" ); class TelemetryMock { constructor() { this._events = []; this._uuid_counter = 0; } recordEvent(object, method, value, extra = undefined) { this._events.push({ object, method, value, extra }); } generateFlowID() { this._uuid_counter += 1; return this._uuid_counter.toString(); } sanitizeDeviceId(id) { return id + "-san"; } } function FxaInternalMock() { return { telemetry: new TelemetryMock(), }; } function MockFxAccountsClient() { FxAccountsClient.apply(this); } MockFxAccountsClient.prototype = {}; Object.setPrototypeOf( MockFxAccountsClient.prototype, FxAccountsClient.prototype ); add_task(async function test_sendtab_isDeviceCompatible() { const sendTab = new SendTab(null, null); let device = { name: "My device" }; Assert.ok(!sendTab.isDeviceCompatible(device)); device = { name: "My device", availableCommands: {} }; Assert.ok(!sendTab.isDeviceCompatible(device)); device = { name: "My device", availableCommands: { "https://identity.mozilla.com/cmd/open-uri": "payload", }, }; Assert.ok(sendTab.isDeviceCompatible(device)); }); add_task(async function test_sendtab_send() { const commands = { invoke: sinon.spy((cmd, device, payload) => { if (device.name == "Device 1") { throw new Error("Invoke error!"); } Assert.equal(payload.encrypted, "encryptedpayload"); }), }; const fxai = FxaInternalMock(); const sendTab = new SendTab(commands, fxai); sendTab._encrypt = (bytes, device) => { if (device.name == "Device 2") { throw new Error("Encrypt error!"); } return "encryptedpayload"; }; const to = [ { name: "Device 1" }, { name: "Device 2" }, { id: "dev3", name: "Device 3" }, ]; // although we are sending to 3 devices, only 1 is successful - so there's // only 1 streamID we care about. However, we've created IDs even for the // failing items - so it's "4" const expectedTelemetryStreamID = "4"; const tab = { title: "Foo", url: "https://foo.bar/" }; const report = await sendTab.send(to, tab); Assert.equal(report.succeeded.length, 1); Assert.equal(report.failed.length, 2); Assert.equal(report.succeeded[0].name, "Device 3"); Assert.equal(report.failed[0].device.name, "Device 1"); Assert.equal(report.failed[0].error.message, "Invoke error!"); Assert.equal(report.failed[1].device.name, "Device 2"); Assert.equal(report.failed[1].error.message, "Encrypt error!"); Assert.ok(commands.invoke.calledTwice); Assert.deepEqual(fxai.telemetry._events, [ { object: "command-sent", method: COMMAND_SENDTAB_TAIL, value: "dev3-san", extra: { flowID: "1", streamID: expectedTelemetryStreamID }, }, ]); }); add_task(async function test_sendtab_send_rate_limit() { const rateLimitReject = { code: 429, retryAfter: 5, retryAfterLocalized: "retry after 5 seconds", }; const fxAccounts = { fxAccountsClient: new MockFxAccountsClient(), getUserAccountData() { return {}; }, telemetry: new TelemetryMock(), }; let rejected = false; let invoked = 0; fxAccounts.fxAccountsClient.invokeCommand = async function invokeCommand() { invoked++; Assert.ok(invoked <= 2, "only called twice and not more"); if (rejected) { return {}; } rejected = true; return Promise.reject(rateLimitReject); }; const commands = new FxAccountsCommands(fxAccounts); const sendTab = new SendTab(commands, fxAccounts); sendTab._encrypt = () => "encryptedpayload"; const tab = { title: "Foo", url: "https://foo.bar/" }; let report = await sendTab.send([{ name: "Device 1" }], tab); Assert.equal(report.succeeded.length, 0); Assert.equal(report.failed.length, 1); Assert.equal(report.failed[0].error, rateLimitReject); report = await sendTab.send([{ name: "Device 1" }], tab); Assert.equal(report.succeeded.length, 0); Assert.equal(report.failed.length, 1); Assert.ok( report.failed[0].error.message.includes( "Invoke for " + "https://identity.mozilla.com/cmd/open-uri is rate-limited" ) ); commands._invokeRateLimitExpiry = Date.now() - 1000; report = await sendTab.send([{ name: "Device 1" }], tab); Assert.equal(report.succeeded.length, 1); Assert.equal(report.failed.length, 0); }); add_task(async function test_sendtab_receive() { // We are testing 'receive' here, but might as well go through 'send' // to package the data and for additional testing... const commands = { _invokes: [], invoke(cmd, device, payload) { this._invokes.push({ cmd, device, payload }); }, }; const fxai = FxaInternalMock(); const sendTab = new SendTab(commands, fxai); sendTab._encrypt = (bytes, device) => { return bytes; }; sendTab._decrypt = bytes => { return bytes; }; const tab = { title: "tab title", url: "http://example.com" }; const to = [{ id: "devid", name: "The Device" }]; const reason = "push"; await sendTab.send(to, tab); Assert.equal(commands._invokes.length, 1); for (let { cmd, device, payload } of commands._invokes) { Assert.equal(cmd, COMMAND_SENDTAB); // Older Firefoxes would send a plaintext flowID in the top-level payload. // Test that we sensibly ignore it. Assert.ok(!payload.hasOwnProperty("flowID")); // change it - ensure we still get what we expect in telemetry later. payload.flowID = "ignore-me"; Assert.deepEqual(await sendTab.handle(device.id, payload, reason), { title: "tab title", uri: "http://example.com", }); } Assert.deepEqual(fxai.telemetry._events, [ { object: "command-sent", method: COMMAND_SENDTAB_TAIL, value: "devid-san", extra: { flowID: "1", streamID: "2" }, }, { object: "command-received", method: COMMAND_SENDTAB_TAIL, value: "devid-san", extra: { flowID: "1", streamID: "2", reason }, }, ]); }); // Test that a client which only sends the flowID in the envelope and not in the // encrypted body gets recorded without the flowID. add_task(async function test_sendtab_receive_old_client() { const fxai = FxaInternalMock(); const sendTab = new SendTab(null, fxai); sendTab._decrypt = bytes => { return bytes; }; const data = { entries: [{ title: "title", url: "url" }] }; // No 'flowID' in the encrypted payload, no 'streamID' anywhere. const payload = { flowID: "flow-id", encrypted: new TextEncoder("utf8").encode(JSON.stringify(data)), }; const reason = "push"; await sendTab.handle("sender-id", payload, reason); Assert.deepEqual(fxai.telemetry._events, [ { object: "command-received", method: COMMAND_SENDTAB_TAIL, value: "sender-id-san", // deepEqual doesn't ignore undefined, but our telemetry code and // JSON.stringify() do... extra: { flowID: undefined, streamID: undefined, reason }, }, ]); }); add_task(function test_commands_getReason() { const fxAccounts = { async withCurrentAccountState(cb) { await cb({}); }, }; const commands = new FxAccountsCommands(fxAccounts); const testCases = [ { receivedIndex: 0, currentIndex: 0, expectedReason: "poll", message: "should return reason 'poll'", }, { receivedIndex: 7, currentIndex: 3, expectedReason: "push-missed", message: "should return reason 'push-missed'", }, { receivedIndex: 2, currentIndex: 8, expectedReason: "push", message: "should return reason 'push'", }, ]; for (const tc of testCases) { const reason = commands._getReason(tc.receivedIndex, tc.currentIndex); Assert.equal(reason, tc.expectedReason, tc.message); } }); add_task(async function test_commands_pollDeviceCommands_push() { // Server state. const remoteMessages = [ { index: 11, data: {}, }, { index: 12, data: {}, }, ]; const remoteIndex = 12; // Local state. const pushIndexReceived = 11; const accountState = { data: { device: { lastCommandIndex: 10, }, }, getUserAccountData() { return this.data; }, updateUserAccountData(data) { this.data = data; }, }; const fxAccounts = { async withCurrentAccountState(cb) { await cb(accountState); }, }; const commands = new FxAccountsCommands(fxAccounts); const mockCommands = sinon.mock(commands); mockCommands .expects("_fetchDeviceCommands") .once() .withArgs(11) .returns({ index: remoteIndex, messages: remoteMessages, }); mockCommands .expects("_handleCommands") .once() .withArgs(remoteMessages, pushIndexReceived); await commands.pollDeviceCommands(pushIndexReceived); mockCommands.verify(); Assert.equal(accountState.data.device.lastCommandIndex, 12); }); add_task( async function test_commands_pollDeviceCommands_push_already_fetched() { // Local state. const pushIndexReceived = 12; const accountState = { data: { device: { lastCommandIndex: 12, }, }, getUserAccountData() { return this.data; }, updateUserAccountData(data) { this.data = data; }, }; const fxAccounts = { async withCurrentAccountState(cb) { await cb(accountState); }, }; const commands = new FxAccountsCommands(fxAccounts); const mockCommands = sinon.mock(commands); mockCommands.expects("_fetchDeviceCommands").never(); mockCommands.expects("_handleCommands").never(); await commands.pollDeviceCommands(pushIndexReceived); mockCommands.verify(); Assert.equal(accountState.data.device.lastCommandIndex, 12); } ); add_task(async function test_commands_handleCommands() { // This test ensures that `_getReason` is being called by // `_handleCommands` with the expected parameters. const pushIndexReceived = 12; const senderID = "6d09f6c4-89b2-41b3-a0ac-e4c2502b5485"; const remoteMessageIndex = 8; const remoteMessages = [ { index: remoteMessageIndex, data: { command: COMMAND_SENDTAB, payload: { encrypted: {}, }, sender: senderID, }, }, ]; const fxAccounts = { async withCurrentAccountState(cb) { await cb({}); }, }; const commands = new FxAccountsCommands(fxAccounts); commands.sendTab.handle = (sender, data, reason) => { return { title: "testTitle", uri: "https://testURI", }; }; commands._fxai.device = { refreshDeviceList: () => {}, recentDeviceList: [ { id: senderID, }, ], }; const mockCommands = sinon.mock(commands); mockCommands .expects("_getReason") .once() .withExactArgs(pushIndexReceived, remoteMessageIndex); mockCommands.expects("_notifyFxATabsReceived").once(); await commands._handleCommands(remoteMessages, pushIndexReceived); mockCommands.verify(); }); add_task(async function test_commands_handleCommands_invalid_tab() { // This test ensures that `_getReason` is being called by // `_handleCommands` with the expected parameters. const pushIndexReceived = 12; const senderID = "6d09f6c4-89b2-41b3-a0ac-e4c2502b5485"; const remoteMessageIndex = 8; const remoteMessages = [ { index: remoteMessageIndex, data: { command: COMMAND_SENDTAB, payload: { encrypted: {}, }, sender: senderID, }, }, ]; const fxAccounts = { async withCurrentAccountState(cb) { await cb({}); }, }; const commands = new FxAccountsCommands(fxAccounts); commands.sendTab.handle = (sender, data, reason) => { return { title: "badUriTab", uri: "file://path/to/pdf", }; }; commands._fxai.device = { refreshDeviceList: () => {}, recentDeviceList: [ { id: senderID, }, ], }; const mockCommands = sinon.mock(commands); mockCommands .expects("_getReason") .once() .withExactArgs(pushIndexReceived, remoteMessageIndex); // We shouldn't have tried to open a tab with an invalid uri mockCommands.expects("_notifyFxATabsReceived").never(); await commands._handleCommands(remoteMessages, pushIndexReceived); mockCommands.verify(); }); add_task( async function test_commands_pollDeviceCommands_push_local_state_empty() { // Server state. const remoteMessages = [ { index: 11, data: {}, }, { index: 12, data: {}, }, ]; const remoteIndex = 12; // Local state. const pushIndexReceived = 11; const accountState = { data: { device: {}, }, getUserAccountData() { return this.data; }, updateUserAccountData(data) { this.data = data; }, }; const fxAccounts = { async withCurrentAccountState(cb) { await cb(accountState); }, }; const commands = new FxAccountsCommands(fxAccounts); const mockCommands = sinon.mock(commands); mockCommands .expects("_fetchDeviceCommands") .once() .withArgs(11) .returns({ index: remoteIndex, messages: remoteMessages, }); mockCommands .expects("_handleCommands") .once() .withArgs(remoteMessages, pushIndexReceived); await commands.pollDeviceCommands(pushIndexReceived); mockCommands.verify(); Assert.equal(accountState.data.device.lastCommandIndex, 12); } ); add_task(async function test_commands_pollDeviceCommands_scheduled_local() { // Server state. const remoteMessages = [ { index: 11, data: {}, }, { index: 12, data: {}, }, ]; const remoteIndex = 12; const pushIndexReceived = 0; // Local state. const accountState = { data: { device: { lastCommandIndex: 10, }, }, getUserAccountData() { return this.data; }, updateUserAccountData(data) { this.data = data; }, }; const fxAccounts = { async withCurrentAccountState(cb) { await cb(accountState); }, }; const commands = new FxAccountsCommands(fxAccounts); const mockCommands = sinon.mock(commands); mockCommands .expects("_fetchDeviceCommands") .once() .withArgs(11) .returns({ index: remoteIndex, messages: remoteMessages, }); mockCommands .expects("_handleCommands") .once() .withArgs(remoteMessages, pushIndexReceived); await commands.pollDeviceCommands(); mockCommands.verify(); Assert.equal(accountState.data.device.lastCommandIndex, 12); }); add_task( async function test_commands_pollDeviceCommands_scheduled_local_state_empty() { // Server state. const remoteMessages = [ { index: 11, data: {}, }, { index: 12, data: {}, }, ]; const remoteIndex = 12; const pushIndexReceived = 0; // Local state. const accountState = { data: { device: {}, }, getUserAccountData() { return this.data; }, updateUserAccountData(data) { this.data = data; }, }; const fxAccounts = { async withCurrentAccountState(cb) { await cb(accountState); }, }; const commands = new FxAccountsCommands(fxAccounts); const mockCommands = sinon.mock(commands); mockCommands .expects("_fetchDeviceCommands") .once() .withArgs(0) .returns({ index: remoteIndex, messages: remoteMessages, }); mockCommands .expects("_handleCommands") .once() .withArgs(remoteMessages, pushIndexReceived); await commands.pollDeviceCommands(); mockCommands.verify(); Assert.equal(accountState.data.device.lastCommandIndex, 12); } ); add_task(async function test_send_tab_keys_regenerated_if_lost() { const commands = { _invokes: [], invoke(cmd, device, payload) { this._invokes.push({ cmd, device, payload }); }, }; // Local state. const accountState = { data: { // Since the device object has no // sendTabKeys, it will recover // when we attempt to get the // encryptedSendTabKeys device: { lastCommandIndex: 10, }, encryptedSendTabKeys: "keys", }, getUserAccountData() { return this.data; }, updateUserAccountData(data) { this.data = data; }, }; const fxAccounts = { async withCurrentAccountState(cb) { await cb(accountState); }, async getUserAccountData(data) { return accountState.getUserAccountData(data); }, telemetry: new TelemetryMock(), }; const sendTab = new SendTab(commands, fxAccounts); let generateEncryptedKeysCalled = false; sendTab._generateAndPersistEncryptedSendTabKey = async () => { generateEncryptedKeysCalled = true; }; await sendTab.getEncryptedSendTabKeys(); Assert.ok(generateEncryptedKeysCalled); }); add_task(async function test_send_tab_keys_are_not_regenerated_if_not_lost() { const commands = { _invokes: [], invoke(cmd, device, payload) { this._invokes.push({ cmd, device, payload }); }, }; // Local state. const accountState = { data: { // Since the device object has // sendTabKeys, it will not try // to regenerate them // when we attempt to get the // encryptedSendTabKeys device: { lastCommandIndex: 10, sendTabKeys: "keys", }, encryptedSendTabKeys: "encrypted-keys", }, getUserAccountData() { return this.data; }, updateUserAccountData(data) { this.data = data; }, }; const fxAccounts = { async withCurrentAccountState(cb) { await cb(accountState); }, async getUserAccountData(data) { return accountState.getUserAccountData(data); }, telemetry: new TelemetryMock(), }; const sendTab = new SendTab(commands, fxAccounts); let generateEncryptedKeysCalled = false; sendTab._generateAndPersistEncryptedSendTabKey = async () => { generateEncryptedKeysCalled = true; }; await sendTab.getEncryptedSendTabKeys(); Assert.ok(!generateEncryptedKeysCalled); });