public async Task PullAsync_Cancels_WhenCancellationTokenIsCancelled()
        {
            var store = new MobileServiceLocalStoreMock();

            var handler = new MobileServiceSyncHandlerMock();
            handler.TableOperationAction = op => Task.Delay(TimeSpan.MaxValue).ContinueWith<JObject>(t => null); // long slow operation
            var hijack = new TestHttpHandler();
            hijack.OnSendingRequest = async req =>
            {
                await Task.Delay(1000);
                return req;
            };
            IMobileServiceClient service = new MobileServiceClient(MobileAppUriValidator.DummyMobileApp, hijack);
            await service.SyncContext.InitializeAsync(store, handler);

            IMobileServiceSyncTable table = service.GetSyncTable("someTable");

            using (var cts = new CancellationTokenSource())
            {
                Task pullTask = table.PullAsync(null, null, null, cancellationToken: cts.Token);
                cts.Cancel();

                var ex = await ThrowsAsync<Exception>(() => pullTask);

                Assert.IsTrue((ex is OperationCanceledException || ex is TaskCanceledException));
                Assert.AreEqual(pullTask.Status, TaskStatus.Canceled);
            }
        }
        public async Task PullAsync_Cancels_WhenCancellationTokenIsCancelled()
        {
            var store = new MobileServiceLocalStoreMock();

            var handler = new MobileServiceSyncHandlerMock();
            handler.TableOperationAction = op => Task.Delay(TimeSpan.MaxValue).ContinueWith<JObject>(t => null); // long slow operation

            IMobileServiceClient service = new MobileServiceClient("http://www.test.com", "secret...");
            await service.SyncContext.InitializeAsync(store, handler);

            IMobileServiceSyncTable table = service.GetSyncTable("someTable");

            using (var cts = new CancellationTokenSource())
            {
                // now pull
                Task pullTask = table.PullAsync(null, null, null, cancellationToken: cts.Token);
                cts.Cancel();

                var ex = await ThrowsAsync<Exception>(() => pullTask);

                Assert.IsTrue((ex is OperationCanceledException || ex is TaskCanceledException));
                Assert.AreEqual(pullTask.Status, TaskStatus.Canceled);
            }
        }
        public async Task PushAsync_Succeeds_WithPendingOperations_AndOpQueueIsConsistent()
        {
            // Essentially async ManualResetEvents
            SemaphoreSlim untilPendingOpsCreated = new SemaphoreSlim(0, 1);
            SemaphoreSlim untilAboutToExecuteOp = new SemaphoreSlim(0, 1);

            int pushState = 0;

            var handler = new MobileServiceSyncHandlerMock();

            handler.TableOperationAction = async op =>
            {
                try
                {
                    untilAboutToExecuteOp.Release();
                    await untilPendingOpsCreated.WaitAsync();

                    JObject result = await op.ExecuteAsync();

                    if (0 == pushState)
                    {
                        Assert.AreEqual(MobileServiceTableOperationKind.Insert, op.Kind);
                        Assert.AreEqual(0, op.Item.Value<int>("value"));
                    }
                    else
                    {
                        Assert.AreEqual(MobileServiceTableOperationKind.Update, op.Kind);
                        Assert.AreEqual(2, op.Item.Value<int>("value")); // We shouldn't see the value == 1, since it should have been collapsed
                    }

                    // We don't care what the server actually returned, as long as there was no exception raised in our Push logic
                    return result;
                }
                catch (Exception ex)
                {
                    Assert.Fail("Things are bad: " + ex.Message);
                }

                return null;
            };

            var hijack = new TestHttpHandler();

            IMobileServiceClient service = new MobileServiceClient("http://www.test.com", hijack);
            LocalStoreWithDelay mockLocalStore = new LocalStoreWithDelay();
            await service.SyncContext.InitializeAsync(mockLocalStore, handler);

            JObject item = null;

            // Add the initial operation and perform a push
            IMobileServiceSyncTable table = service.GetSyncTable("someTable");

            string responseContent = @"{ ""id"": ""abc"", ""value"": ""0"", ""version"": ""v0"" }"; // Whatever is fine, since we won't use it or look at it

            // Do this Insert/Push/Update+Update/Push cycle several times fast to try to hit any race conditions that would cause an error
            for (int id = 0; id < 10; id++)
            {
                hijack.SetResponseContent(responseContent);
                string idStr = "id" + id; // Generate a new Id each time in case the mock objects ever care that we insert an item that already exists

                // The Operations and PushAction don't necessarily clone the JObject, so we need a fresh one for each operation or else we'll change
                // the in-memory representation of the JObject stored in all operations, as well as in the "batch" the PushAction owns. This is problematic.
                item = new JObject() { { "id", idStr }, { "value", 0 } };
                await table.InsertAsync(item);

                Task pushComplete = service.SyncContext.PushAsync();

                // Make sure the PushAction has actually called into our SyncHandler, otherwise the two UpdateOperations could collapse onto it, and
                // there won't necessarily even be a second PushAction
                await untilAboutToExecuteOp.WaitAsync();

                // Add some more operations while that push is in flight. Since these operations affect the same item in someTable, the operations
                // will be stuck awaiting the PushAction since it locks on the row.
                item = new JObject() { { "id", idStr }, { "value", 1 } };
                Task updateOnce = table.UpdateAsync(item);

                item = new JObject() { { "id", idStr }, { "value", 2 } };
                Task updateTwice = table.UpdateAsync(item);

                // Before we let the push finish, let's inject a delay that will cause it to take a long time deleting the operation from the queue.
                // This will give the other operations, if there's an unaddressed race condition, a chance to wreak havoc on the op queue.
                mockLocalStore.SetLookupDelay(500);

                // Let the first push finish
                untilPendingOpsCreated.Release();
                await pushComplete;

                mockLocalStore.SetLookupDelay(0);

                await updateOnce;
                await updateTwice;

                // Push again, but now the operation condensed from the two updates should be executed remotely
                pushState = (pushState + 1) % 2;
                hijack.SetResponseContent(responseContent);
                pushComplete = service.SyncContext.PushAsync();
                await untilAboutToExecuteOp.WaitAsync(); // not strictly necessary other than to keep the semaphore count at 0
                untilPendingOpsCreated.Release();

                await pushComplete;
                pushState = (pushState + 1) % 2;
            }
        }
        public async Task PushAsync_Succeeds_WithClientWinsPolicy()
        {
            var hijack = new TestHttpHandler();
            hijack.Responses.Add(new HttpResponseMessage(HttpStatusCode.PreconditionFailed)
            {
                Content = new StringContent("{\"id\":\"abc\",\"version\":\"Hey\"}")
            });
            hijack.AddResponseContent(@"{""id"": ""abc""}");

            var handler = new MobileServiceSyncHandlerMock();
            handler.TableOperationAction = async op =>
            {
                for (int i = 0; i < 2; i++)
                {
                    try
                    {
                        return await op.ExecuteAsync();
                    }
                    catch (MobileServicePreconditionFailedException ex)
                    {
                        op.Item[MobileServiceSystemColumns.Version] = ex.Value[MobileServiceSystemColumns.Version];
                    }
                }
                return null;
            };
            IMobileServiceClient service = new MobileServiceClient(MobileAppUriValidator.DummyMobileApp, hijack);
            await service.SyncContext.InitializeAsync(new MobileServiceLocalStoreMock(), handler);

            IMobileServiceSyncTable table = service.GetSyncTable("someTable");

            await table.UpdateAsync(new JObject() { { "id", "abc" }, { "version", "Wow" } });

            await service.SyncContext.PushAsync();
        }
        public async Task UpdateOperationAsync_UpsertsTheItemInLocalStore_AndDeletesTheError_FromSyncHandler()
        {
            // Arrange
            string itemId = "abc";
            var hijack = new TestHttpHandler();
            hijack.Responses.Add(new HttpResponseMessage(HttpStatusCode.InternalServerError));

            var handler = new MobileServiceSyncHandlerMock();
            handler.PushCompleteAction = async pushCompletionResult =>
            {
                foreach (var error in pushCompletionResult.Errors)
                {
                    await error.UpdateOperationAsync(JObject.Parse("{\"id\":\"abc\",\"__version\":\"Hey\"}"));
                }
            };
            var store = new MobileServiceLocalStoreMock();
            IMobileServiceClient service = new MobileServiceClient("http://www.test.com", hijack);
            await service.SyncContext.InitializeAsync(store, handler);

            IMobileServiceSyncTable table = service.GetSyncTable("someTable");

            await table.InsertAsync(new JObject() { { "id", "abc" }, { "__version", "Wow" } });

            // Act
            await (service.SyncContext as MobileServiceSyncContext).PushAsync(CancellationToken.None, MobileServiceTableKind.Table);


            // Assert
            var syncError = store.TableMap[MobileServiceLocalSystemTables.SyncErrors].Values;
            var operation = store.TableMap[MobileServiceLocalSystemTables.OperationQueue].Values.FirstOrDefault();
            var item = JObject.Parse("{\"id\":\"abc\",\"__version\":\"Hey\"}");
            JObject upserted = await store.LookupAsync("someTable", itemId);
            // item is upserted
            Assert.IsNotNull(upserted);

            // verify if the record was updated
            Assert.AreEqual(item.ToString(), upserted.ToString());

            // verify if the errors were cleared
            Assert.AreEqual(0, syncError.Count);

            // Verify operation is still present
            Assert.AreEqual(operation.Value<string>("itemId"),itemId);
        }
        public async Task PushAsync_InvokesHandler_WhenTableTypeIsTable()
        {
            var hijack = new TestHttpHandler();
            hijack.Responses.Add(new HttpResponseMessage(HttpStatusCode.InternalServerError));

            bool invoked = false;
            var handler = new MobileServiceSyncHandlerMock();
            handler.TableOperationAction = op =>
            {
                invoked = true;
                return Task.FromResult(JObject.Parse("{\"id\":\"abc\",\"version\":\"Hey\"}"));
            };

            IMobileServiceClient service = new MobileServiceClient(MobileAppUriValidator.DummyMobileApp, hijack);
            await service.SyncContext.InitializeAsync(new MobileServiceLocalStoreMock(), handler);

            IMobileServiceSyncTable table = service.GetSyncTable("someTable");

            await table.InsertAsync(new JObject() { { "id", "abc" }, { "version", "Wow" } });

            await (service.SyncContext as MobileServiceSyncContext).PushAsync(CancellationToken.None, MobileServiceTableKind.Table);

            Assert.IsTrue(invoked);
        }
        public async Task PushAsync_DoesNotRunHandler_WhenTableTypeIsNotTable()
        {
            var hijack = new TestHttpHandler();
            hijack.AddResponseContent("{\"id\":\"abc\",\"version\":\"Hey\"}");

            bool invoked = false;
            var handler = new MobileServiceSyncHandlerMock();
            handler.TableOperationAction = op =>
            {
                invoked = true;
                throw new InvalidOperationException();
            };

            IMobileServiceClient service = new MobileServiceClient(MobileAppUriValidator.DummyMobileApp, hijack);
            await service.SyncContext.InitializeAsync(new MobileServiceLocalStoreMock(), handler);

            IMobileServiceSyncTable table = service.GetSyncTable("someTable");

            await table.InsertAsync(new JObject() { { "id", "abc" }, { "version", "Wow" } });

            await (service.SyncContext as MobileServiceSyncContext).PushAsync(CancellationToken.None, (MobileServiceTableKind)1);

            Assert.IsFalse(invoked);
        }
        /// <summary>
        /// Tests that throwing an exception of type toThrow from the http handler causes the push sync to be aborted
        /// </summary>
        /// <param name="toThrow">The exception to simulate coming from http layer</param>
        /// <param name="expectedStatus">The expected status of push operation as reported in PushCompletionResult and PushFailedException</param>
        /// <returns></returns>
        private async Task TestPushAbort(Exception toThrow, MobileServicePushStatus expectedStatus)
        {
            bool thrown = false;
            var hijack = new TestHttpHandler();
            hijack.OnSendingRequest = req =>
            {
                if (!thrown)
                {
                    thrown = true;
                    throw toThrow;
                }
                return Task.FromResult(req);
            };

            var operationHandler = new MobileServiceSyncHandlerMock();

            hijack.SetResponseContent("{\"id\":\"abc\",\"String\":\"Hey\"}");
            IMobileServiceClient service = new MobileServiceClient("http://www.test.com", "secret...", hijack);
            await service.SyncContext.InitializeAsync(new MobileServiceLocalStoreMock(), operationHandler);

            IMobileServiceSyncTable<StringIdType> table = service.GetSyncTable<StringIdType>();

            var item = new StringIdType() { Id = "an id", String = "what?" };
            await table.InsertAsync(item);

            Assert.AreEqual(service.SyncContext.PendingOperations, 1L);

            MobileServicePushFailedException ex = await ThrowsAsync<MobileServicePushFailedException>(service.SyncContext.PushAsync);

            Assert.AreEqual(ex.PushResult.Status, expectedStatus);
            Assert.AreEqual(ex.PushResult.Errors.Count(), 0);

            Assert.AreEqual(operationHandler.PushCompletionResult.Status, expectedStatus);

            // the insert operation is still in queue
            Assert.AreEqual(service.SyncContext.PendingOperations, 1L);

            await service.SyncContext.PushAsync();

            Assert.AreEqual(service.SyncContext.PendingOperations, 0L);
            Assert.AreEqual(operationHandler.PushCompletionResult.Status, MobileServicePushStatus.Complete);
        }
Ejemplo n.º 9
0
        public async Task PushAsync_Succeeds_WithPendingOperations_AndOpQueueIsConsistent()
        {
            // Essentially async ManualResetEvents
            SemaphoreSlim untilPendingOpsCreated = new SemaphoreSlim(0, 1);
            SemaphoreSlim untilAboutToExecuteOp  = new SemaphoreSlim(0, 1);

            int pushState = 0;

            var handler = new MobileServiceSyncHandlerMock();

            handler.TableOperationAction = async op =>
            {
                try
                {
                    untilAboutToExecuteOp.Release();
                    await untilPendingOpsCreated.WaitAsync();

                    JObject result = await op.ExecuteAsync();

                    if (0 == pushState)
                    {
                        Assert.AreEqual(MobileServiceTableOperationKind.Insert, op.Kind);
                        Assert.AreEqual(0, op.Item.Value <int>("value"));
                    }
                    else
                    {
                        Assert.AreEqual(MobileServiceTableOperationKind.Update, op.Kind);
                        Assert.AreEqual(2, op.Item.Value <int>("value")); // We shouldn't see the value == 1, since it should have been collapsed
                    }

                    // We don't care what the server actually returned, as long as there was no exception raised in our Push logic
                    return(result);
                }
                catch (Exception ex)
                {
                    Assert.Fail("Things are bad: " + ex.Message);
                }

                return(null);
            };

            var hijack = new TestHttpHandler();

            IMobileServiceClient service        = new MobileServiceClient("http://www.test.com", "secret...", hijack);
            LocalStoreWithDelay  mockLocalStore = new LocalStoreWithDelay();
            await service.SyncContext.InitializeAsync(mockLocalStore, handler);

            JObject item = null;

            // Add the initial operation and perform a push
            IMobileServiceSyncTable table = service.GetSyncTable("someTable");

            string responseContent = @"{ ""id"": ""abc"", ""value"": ""0"", ""__version"": ""v0"" }"; // Whatever is fine, since we won't use it or look at it

            // Do this Insert/Push/Update+Update/Push cycle several times fast to try to hit any race conditions that would cause an error
            for (int id = 0; id < 10; id++)
            {
                hijack.SetResponseContent(responseContent);
                string idStr = "id" + id; // Generate a new Id each time in case the mock objects ever care that we insert an item that already exists

                // The Operations and PushAction don't necessarily clone the JObject, so we need a fresh one for each operation or else we'll change
                // the in-memory representation of the JObject stored in all operations, as well as in the "batch" the PushAction owns. This is problematic.
                item = new JObject()
                {
                    { "id", idStr }, { "value", 0 }
                };
                await table.InsertAsync(item);

                Task pushComplete = service.SyncContext.PushAsync();

                // Make sure the PushAction has actually called into our SyncHandler, otherwise the two UpdateOperations could collapse onto it, and
                // there won't necessarily even be a second PushAction
                await untilAboutToExecuteOp.WaitAsync();

                // Add some more operations while that push is in flight. Since these operations affect the same item in someTable, the operations
                // will be stuck awaiting the PushAction since it locks on the row.
                item = new JObject()
                {
                    { "id", idStr }, { "value", 1 }
                };
                Task updateOnce = table.UpdateAsync(item);

                item = new JObject()
                {
                    { "id", idStr }, { "value", 2 }
                };
                Task updateTwice = table.UpdateAsync(item);

                // Before we let the push finish, let's inject a delay that will cause it to take a long time deleting the operation from the queue.
                // This will give the other operations, if there's an unaddressed race condition, a chance to wreak havoc on the op queue.
                mockLocalStore.SetLookupDelay(500);

                // Let the first push finish
                untilPendingOpsCreated.Release();
                await pushComplete;

                mockLocalStore.SetLookupDelay(0);

                await updateOnce;
                await updateTwice;

                // Push again, but now the operation condensed from the two updates should be executed remotely
                pushState = (pushState + 1) % 2;
                hijack.SetResponseContent(responseContent);
                pushComplete = service.SyncContext.PushAsync();
                await untilAboutToExecuteOp.WaitAsync(); // not strictly necessary other than to keep the semaphore count at 0

                untilPendingOpsCreated.Release();

                await pushComplete;
                pushState = (pushState + 1) % 2;
            }
        }