The documentation here describes the Service Bus SDK prefetch feature in general. It also states that setting the prefetch-count property in the builder to zero disables prefetch.
Even after the application disables prefetch in the builder, the receiveMessages API in ServiceBusReceiverClient can re-enable prefetch implicitly, which may not be obvious. This document outlines how this API impacts prefetch (covers minimal internals to ease the understanding), helping developers to learn about the API behaviors and account for it in the application design.
IterableStream<ServiceBusReceivedMessage> receiveMessages(int maxMessages, Duration maxWaitTime)where maxMessages is the maximum number of messages to receive and maxWaitTime is the maximum duration client should wait for the entire batch of maxMessages messages to arrive.
Note: the overload receiveMessages(int maxMessages) is based on the above method, with maxWaitTime computed from RetryConfig set in builder.
Once the application obtains the ServiceBusReceiverClient object, an unbounded prefetch-queue object is assigned to this client object (though in reality, the creation of prefetch-queue is lazy).
IterableStream<ServiceBusReceivedMessage> messagesIterable = client.receiveMessages(10, Duration.ofSeconds(5));Once the receiveMessages method is called, the Client immediately requests the service bus to return maxMessages messages, which asynchronously starts buffering the messages to the prefetch-queue.
This is an important point to note, i.e., the prefetch-queue can already have some messages before the application starts iterating the messagesIterable. It also means the delivery count on the server side will be incremented due to the API invocation.
Once the application starts iterating messagesIterable, the iterator will read and deliver messages from the prefetch-queue.
int msgCnt = 0;
for (ServiceBusReceivedMessage message : messagesIterable) {
msgCnt++;
System.out.println("Received Message #" + msgCnt);
}Here is the state of the prefetch-queue after two passes of iteration:
The prefetch-queue is scoped to the Client and shared across all receiveMessages calls.
Given the prefetch-queue is shared, the messages will get asynchronously buffered even if:
- the application ignores the Iterable returned from
receiveMessagescalls. - the application stops iteration in the middle.
- the
maxTimeoutelapses before receivingmaxMessages.
On #3, the current iterator will be completed if the
maxTimeoutelapses, but the buffering continues in the background.
Any messages from a previous receiveMessages call that its Iterable couldn't read from the buffer (prefetch-queue) will be read and delivered by the Iterable from the next receiveMessages call on the same Client.
Let's take the previous example, say within maxTimeout of 5 sec, the service returned only 7 messages out of 10; the messagesIterable will complete after returning those 7 messages and exits the for-loop. The remaining 3 messages can get buffered in the background. If the application then calls receiveMessages(5, ..), then SDK initiates a request for 5 messages. The new Iterable read and deliver 5 messages from the buffer (starting with the first three messages buffered by the initial receiveMessages call).
If the application decide not to do anything with the messages in the buffer, those are eventually GC-ed. If such messages were requested with PEEK_LOCK mode, then, after the server-side lock duration elapses, a later receiveMessages call on another ServiceBusReceiverClient object returns the same messages.
It is possible to have more than one Iterable to co-exist. For example, 3 Iterable will be allocated and co-exists if the application simply calls receiveMessages 3 times in a row.
Regardless of the number of co-existing Iterable, there can be only one "active" Iterable, i.e., the application can iterate only one Iterable at a time. The currently "active" Iterable needs to complete ("terminated") for another Iterable to be "active". The Iterable transitions from "active" to "terminated" in the FIFO order they were allocated.
Hence it is recommended to complete the iteration on Iterable from a receiveMessages call before invoking receiveMessages again to obtain another Iterable. There is no actual use of many "in-active" Iterable to co-exists; it just consumes Heap, possibly making it hard to reason the application code.
An invocation of receiveMessages(int maxMessages, Duration maxWaitTime) uses two timers.
The first timer enables maxWaitTime support, controlling the maximum duration client should wait for the entire batch of maxMessages messages to arrive. If maxWaitTime elapses before maxMessages messages arrive, Iterable completes immediately after returning the messages received within this duration.
The second timer controls the timeout between messages, i.e., the maximum duration the client should wait for the next message since the arrival of the last message. The Iterable completes if no message arrives within this duration. Currently, this duration is set to 1 second and cannot be changed.
Another important point is that messages may expire while in the prefetch-queue, which means the iterator may return expired messages.
The lock timeout configured on the service bus entity and maxMessages needs to be balanced such that the lock timeout is at least exceeds the cumulative expected message processing time for the maxMessages, plus one message. At the same time, the lock timeout shouldn't be so long that messages can exceed their maximum time to live when they're accidentally dropped, and so requiring their lock to expire before being redelivered.
Refer to this document for the tradeoff when enabling prefetch (or maxMessages > 1).
The exception topic is not directly related to prefetching, but adding this section given exception/faulted state is also scoped in client object-level (like prefetch-queue) and impacts the behavior of Iterables from receiveMessages calls.
The Client types in Service Bus SDK have built-in retry to recover from retriable errors. A ServiceBusReceiverClient object can reach a faulted terminal state if it exhausts the maximum retry or encounters a non-retriable error.
Once a ServiceBusReceiverClient object is in a faulted state, the SDK will throw an Exception if the application attempt to use any future Iterable.
If the application finds that a ServiceBusReceiverClient object is in a faulted state while iterating, the application should create a new client object and dispose the current one.