public async Task ReceiveExactlyOnceNackedTest()
{
var taskQueue = Guid.NewGuid().ToString();
var processingQueuePrefix = Guid.NewGuid().ToString();
var testDtoHandler = new TestDtoHandler(async ack => await ack.NackAsync());
using (var manager = CreaterConsumerManager(taskQueue, processingQueuePrefix, new[] { testDtoHandler }))
{
manager.Start();
var messageId = Guid.NewGuid().ToString();
var testMessage = new TestMessage();
await SendMessage(taskQueue, messageId, testMessage);
await WaitingAssert.CheckBecomeTrueAsync(
assertion : () => Assert.Equal(1, testDtoHandler.Received.Count),
waitIntervalMs : 50,
waitRetries : 20);
Assert.Collection(testDtoHandler.Received, (tuple) => Assert.Equal(messageId, tuple.MessageId));
}
}
public async Task StartingMoreThanInstanceCountConsumersTest()
{
var taskQueue = Guid.NewGuid().ToString();
var processingQueuePrefix = Guid.NewGuid().ToString();
var messagesCount = 500;
var workDurationMs = 10;
for (var i = 0; i < messagesCount; i++)
{
var messageId = Guid.NewGuid().ToString();
var testMessage = new TestMessage();
await SendMessage(taskQueue, messageId, testMessage);
}
var testDtoHandler1 = new TestDtoHandler(AcknowledgementTask);
var testDtoHandler2 = new TestDtoHandler(AcknowledgementTask);
var testDtoHandler3 = new TestDtoHandler(AcknowledgementTask);
using (var manager1 = CreaterConsumerManager(
taskQueue,
processingQueuePrefix,
new[] { testDtoHandler1 },
instanceCount: 2,
lookupDelayMilliseconds: 50))
using (var manager2 = CreaterConsumerManager(
taskQueue,
processingQueuePrefix,
new[] { testDtoHandler2 },
instanceCount: 2,
lookupDelayMilliseconds: 50))
using (var manager3 = CreaterConsumerManager(
taskQueue,
processingQueuePrefix,
new[] { testDtoHandler3 },
instanceCount: 2,
lookupDelayMilliseconds: 50))
{
manager1.Start();
manager2.Start();
await Task.Delay(workDurationMs * 2);
manager3.Start();
await WaitingAssert.CheckBecomeTrueAsync(
assertion : () =>
Assert.Equal(
expected: messagesCount,
actual: testDtoHandler1.Received.Count + testDtoHandler2.Received.Count),
waitIntervalMs : 50,
waitRetries : 200);
Assert.Equal(0, testDtoHandler3.Received.Count);
}
async Task AcknowledgementTask(IAcknowledgement ack)
{
await Task.Delay(workDurationMs);
await ack.AckAsync();
}
}
public async Task SecondShouldStartProcessingTest()
{
var messagesCount = 500;
var stopConsumerAfterNumberOfMessages = 50;
var workDurationMs = 5;
var taskQueue = Guid.NewGuid().ToString();
var processingQueuePrefix = Guid.NewGuid().ToString();
var sendMessagesIds = new string[messagesCount];
for (var i = 0; i < messagesCount; i++)
{
var messageId = Guid.NewGuid().ToString();
var testMessage = new TestMessage();
await SendMessage(taskQueue, messageId, testMessage);
sendMessagesIds[i] = messageId;
}
var testDtoHandler1 = new TestDtoHandler(DelayedAcknowledgementTask);
var testDtoHandler2 = new TestDtoHandler(AcknowledgementTask);
using (var manager1 = CreaterConsumerManager(
taskQueue,
processingQueuePrefix,
new[] { testDtoHandler1 },
instanceCount: 1,
lookupDelayMilliseconds: 100,
output: _output))
using (var manager2 = CreaterConsumerManager(
taskQueue,
processingQueuePrefix,
new[] { testDtoHandler2 },
instanceCount: 1,
lookupDelayMilliseconds: 100,
output: _output))
{
manager1.Start();
await Task.Delay(10);
manager2.Start();
await Task.Delay(workDurationMs *stopConsumerAfterNumberOfMessages);
Assert.Equal(0, testDtoHandler2.Received.Count);
manager1.Dispose();
await WaitingAssert.CheckBecomeTrueAsync(
assertion : () =>
Assert.Equal(
expected: messagesCount,
actual: testDtoHandler1.Received.Count + testDtoHandler2.Received.Count),
waitIntervalMs : 100,
waitRetries : 100);
// check both handlers received messages
Assert.NotInRange(testDtoHandler1.Received.Count, 0, 1);
Assert.NotInRange(testDtoHandler2.Received.Count, 0, 1);
Assert.All(testDtoHandler1.Received,
(tuple) => Assert.Contains(sendMessagesIds, id => id == tuple.MessageId));
}
async Task DelayedAcknowledgementTask(IAcknowledgement ack)
{
await Task.Delay(workDurationMs);
await ack.AckAsync();
}
async Task AcknowledgementTask(IAcknowledgement ack)
{
await ack.AckAsync();
}
}