Class TopologyTestDriver
- All Implemented Interfaces:
Closeable
,AutoCloseable
Topology
or
StreamsBuilder
.
You can test simple topologies that have a single processor, or very complex topologies that have multiple sources,
processors, sinks, or sub-topologies.
Best of all, the class works without a real Kafka broker, so the tests execute very quickly with very little overhead.
Using the TopologyTestDriver
in tests is easy: simply instantiate the driver and provide a Topology
(cf. StreamsBuilder.build()
) and config
, create
and use a TestInputTopic
to supply an input records to the topology,
and then create
and use a TestOutputTopic
to read and
verify any output records by the topology.
Although the driver doesn't use a real Kafka broker, it does simulate Kafka consumers
and
producers
that read and write raw byte[]
messages.
You can let TestInputTopic
and TestOutputTopic
to handle conversion
form regular Java objects to raw bytes.
Driver setup
In order to create aTopologyTestDriver
instance, you need a Topology
and a config
.
The configuration needs to be representative of what you'd supply to the real topology, so that means including
several key properties (cf. StreamsConfig
).
For example, the following code fragment creates a configuration that specifies a timestamp extractor,
default serializers and deserializers for string keys and values:
Properties props = new Properties();
props.setProperty(StreamsConfig.DEFAULT_TIMESTAMP_EXTRACTOR_CLASS_CONFIG, CustomTimestampExtractor.class.getName());
props.setProperty(StreamsConfig.DEFAULT_KEY_SERDE_CLASS_CONFIG, Serdes.String().getClass().getName());
props.setProperty(StreamsConfig.DEFAULT_VALUE_SERDE_CLASS_CONFIG, Serdes.String().getClass().getName());
Topology topology = ...
TopologyTestDriver driver = new TopologyTestDriver(topology, props);
Note that the TopologyTestDriver
processes input records synchronously.
This implies that commit.interval.ms
and
cache.max.bytes.buffering
configuration have no effect.
The driver behaves as if both configs would be set to zero, i.e., as if a "commit" (and thus "flush") would happen
after each input record.
Processing messages
Your test can supply new input records on any of the topics that the topology's sources consume.
This test driver simulates single-partitioned input topics.
Here's an example of an input message on the topic named input-topic
:
TestInputTopic<String, String> inputTopic = driver.createInputTopic("input-topic", stringSerdeSerializer, stringSerializer);
inputTopic.pipeInput("key1", "value1");
When TestInputTopic.pipeInput(Object, Object)
is called, the driver passes the input message through to the appropriate source that
consumes the named topic, and will invoke the processor(s) downstream of the source.
If your topology's processors forward messages to sinks, your test can then consume these output messages to verify
they match the expected outcome.
For example, if our topology should have generated 2 messages on output-topic-1
and 1 message on
output-topic-2
, then our test can obtain these messages using the
TestOutputTopic.readKeyValue()
method:
TestOutputTopic<String, String> outputTopic1 = driver.createOutputTopic("output-topic-1", stringDeserializer, stringDeserializer);
TestOutputTopic<String, String> outputTopic2 = driver.createOutputTopic("output-topic-2", stringDeserializer, stringDeserializer);
KeyValue<String, String> record1 = outputTopic1.readKeyValue();
KeyValue<String, String> record2 = outputTopic2.readKeyValue();
KeyValue<String, String> record3 = outputTopic1.readKeyValue();
Again, our example topology generates messages with string keys and values, so we supply our string deserializer
instance for use on both the keys and values. Your test logic can then verify whether these output records are
correct.
Note, that calling pipeInput()
will also trigger event-time
base
punctuation
callbacks.
However, you won't trigger wall-clock
type punctuations that you must
trigger manually via advanceWallClockTime(Duration)
.
Finally, when completed, make sure your tests close()
the driver to release all resources and
processors
.
Processor state
Some processors use Kafka state storage
, so this driver class provides the generic
getStateStore(String)
as well as store-type specific methods so that your tests can check the underlying
state store(s) used by your topology's processors.
In our previous example, after we supplied a single input message and checked the three output messages, our test
could also check the key value store to verify the processor correctly added, removed, or updated internal state.
Or, our test might have pre-populated some state before submitting the input message, and verified afterward
that the processor(s) correctly updated the state.
- See Also:
-
Constructor Summary
ConstructorDescriptionTopologyTestDriver
(Topology topology) Create a new test diver instance.TopologyTestDriver
(Topology topology, Instant initialWallClockTimeMs) Create a new test diver instance.TopologyTestDriver
(Topology topology, Properties config) Create a new test diver instance.TopologyTestDriver
(Topology topology, Properties config, Instant initialWallClockTime) Create a new test diver instance. -
Method Summary
Modifier and TypeMethodDescriptionvoid
advanceWallClockTime
(Duration advance) Advances the internally mocked wall-clock time.void
close()
Close the driver, its topology, and all processors.final <K,
V> TestInputTopic<K, V> createInputTopic
(String topicName, Serializer<K> keySerializer, Serializer<V> valueSerializer) CreateTestInputTopic
to be used for piping records to topic Uses current system time as start timestamp for records.final <K,
V> TestInputTopic<K, V> createInputTopic
(String topicName, Serializer<K> keySerializer, Serializer<V> valueSerializer, Instant startTimestamp, Duration autoAdvance) CreateTestInputTopic
to be used for piping records to topic Uses provided start timestamp and autoAdvance parameter for recordsfinal <K,
V> TestOutputTopic<K, V> createOutputTopic
(String topicName, Deserializer<K> keyDeserializer, Deserializer<V> valueDeserializer) CreateTestOutputTopic
to be used for reading records from topicGet allStateStores
from the topology.<K,
V> KeyValueStore<K, V> getKeyValueStore
(String name) Get theKeyValueStore
orTimestampedKeyValueStore
with the given name.<K,
V> SessionStore<K, V> getSessionStore
(String name) Get theSessionStore
with the given name.getStateStore
(String name) Get theStateStore
with the given name.<K,
V> KeyValueStore<K, ValueAndTimestamp<V>> Get theTimestampedKeyValueStore
with the given name.<K,
V> WindowStore<K, ValueAndTimestamp<V>> Get theTimestampedWindowStore
with the given name.<K,
V> VersionedKeyValueStore<K, V> Get theVersionedKeyValueStore
with the given name.<K,
V> WindowStore<K, V> getWindowStore
(String name) Get theWindowStore
orTimestampedWindowStore
with the given name.Map<MetricName,
? extends Metric> metrics()
Get read-only handle on global metrics registry.Get all the names of all the topics to which records have been produced during the test run.
-
Constructor Details
-
TopologyTestDriver
Create a new test diver instance. Default test properties are used to initialize the driver instance- Parameters:
topology
- the topology to be tested
-
TopologyTestDriver
Create a new test diver instance. Initialized the internally mocked wall-clock time withcurrent system time
.- Parameters:
topology
- the topology to be testedconfig
- the configuration for the topology
-
TopologyTestDriver
Create a new test diver instance.- Parameters:
topology
- the topology to be testedinitialWallClockTimeMs
- the initial value of internally mocked wall-clock time
-
TopologyTestDriver
Create a new test diver instance.- Parameters:
topology
- the topology to be testedconfig
- the configuration for the topologyinitialWallClockTime
- the initial value of internally mocked wall-clock time
-
-
Method Details
-
metrics
Get read-only handle on global metrics registry.- Returns:
- Map of all metrics.
-
advanceWallClockTime
Advances the internally mocked wall-clock time. This might trigger awall-clock
typepunctuations
.- Parameters:
advance
- the amount of time to advance wall-clock time
-
createInputTopic
public final <K,V> TestInputTopic<K,V> createInputTopic(String topicName, Serializer<K> keySerializer, Serializer<V> valueSerializer) CreateTestInputTopic
to be used for piping records to topic Uses current system time as start timestamp for records. Auto-advance is disabled.- Type Parameters:
K
- the key typeV
- the value type- Parameters:
topicName
- the name of the topickeySerializer
- the Serializer for the key typevalueSerializer
- the Serializer for the value type- Returns:
TestInputTopic
object
-
createInputTopic
public final <K,V> TestInputTopic<K,V> createInputTopic(String topicName, Serializer<K> keySerializer, Serializer<V> valueSerializer, Instant startTimestamp, Duration autoAdvance) CreateTestInputTopic
to be used for piping records to topic Uses provided start timestamp and autoAdvance parameter for records- Type Parameters:
K
- the key typeV
- the value type- Parameters:
topicName
- the name of the topickeySerializer
- the Serializer for the key typevalueSerializer
- the Serializer for the value typestartTimestamp
- Start timestamp for auto-generated record timeautoAdvance
- autoAdvance duration for auto-generated record time- Returns:
TestInputTopic
object
-
createOutputTopic
public final <K,V> TestOutputTopic<K,V> createOutputTopic(String topicName, Deserializer<K> keyDeserializer, Deserializer<V> valueDeserializer) CreateTestOutputTopic
to be used for reading records from topic- Type Parameters:
K
- the key typeV
- the value type- Parameters:
topicName
- the name of the topickeyDeserializer
- the Deserializer for the key typevalueDeserializer
- the Deserializer for the value type- Returns:
TestOutputTopic
object
-
producedTopicNames
Get all the names of all the topics to which records have been produced during the test run.Call this method after piping the input into the test driver to retrieve the full set of topic names the topology produced records to.
The returned set of topic names may include user (e.g., output) and internal (e.g., changelog, repartition) topic names.
- Returns:
- the set of topic names the topology has produced to
-
getAllStateStores
Get allStateStores
from the topology. The stores can be a "regular" or global stores.This is often useful in test cases to pre-populate the store before the test case instructs the topology to
TestInputTopic.pipeInput(TestRecord)
process an input message}, and/or to check the store afterward.Note, that
StateStore
might benull
if a store is added but not connected to any processor.Caution: Using this method to access stores that are added by the DSL is unsafe as the store types may change. Stores added by the DSL should only be accessed via the corresponding typed methods like
getKeyValueStore(String)
etc. -
getStateStore
Get theStateStore
with the given name. The store can be a "regular" or global store.Should be used for custom stores only. For built-in stores, the corresponding typed methods like
getKeyValueStore(String)
should be used.This is often useful in test cases to pre-populate the store before the test case instructs the topology to
process an input message
, and/or to check the store afterward.- Parameters:
name
- the name of the store- Returns:
- the state store, or
null
if no store has been registered with the given name - Throws:
IllegalArgumentException
- if the store is a built-in store likeKeyValueStore
,WindowStore
, orSessionStore
- See Also:
-
getKeyValueStore
Get theKeyValueStore
orTimestampedKeyValueStore
with the given name. The store can be a "regular" or global store.If the registered store is a
TimestampedKeyValueStore
this method will return a value-only query interface. It is highly recommended to update the code for this case to avoid bugs and to usegetTimestampedKeyValueStore(String)
for full store access instead.This is often useful in test cases to pre-populate the store before the test case instructs the topology to
process an input message
, and/or to check the store afterward.- Parameters:
name
- the name of the store- Returns:
- the key value store, or
null
if noKeyValueStore
orTimestampedKeyValueStore
has been registered with the given name - See Also:
-
getTimestampedKeyValueStore
Get theTimestampedKeyValueStore
with the given name. The store can be a "regular" or global store.This is often useful in test cases to pre-populate the store before the test case instructs the topology to
process an input message
, and/or to check the store afterward.- Parameters:
name
- the name of the store- Returns:
- the key value store, or
null
if noTimestampedKeyValueStore
has been registered with the given name - See Also:
-
getVersionedKeyValueStore
Get theVersionedKeyValueStore
with the given name. The store can be a "regular" or global store.This is often useful in test cases to pre-populate the store before the test case instructs the topology to
process an input message
, and/or to check the store afterward.- Parameters:
name
- the name of the store- Returns:
- the key value store, or
null
if noVersionedKeyValueStore
has been registered with the given name - See Also:
-
getWindowStore
Get theWindowStore
orTimestampedWindowStore
with the given name. The store can be a "regular" or global store.If the registered store is a
TimestampedWindowStore
this method will return a value-only query interface. It is highly recommended to update the code for this case to avoid bugs and to usegetTimestampedWindowStore(String)
for full store access instead.This is often useful in test cases to pre-populate the store before the test case instructs the topology to
process an input message
, and/or to check the store afterward.- Parameters:
name
- the name of the store- Returns:
- the key value store, or
null
if noWindowStore
orTimestampedWindowStore
has been registered with the given name - See Also:
-
getTimestampedWindowStore
Get theTimestampedWindowStore
with the given name. The store can be a "regular" or global store.This is often useful in test cases to pre-populate the store before the test case instructs the topology to
process an input message
, and/or to check the store afterward.- Parameters:
name
- the name of the store- Returns:
- the key value store, or
null
if noTimestampedWindowStore
has been registered with the given name - See Also:
-
getSessionStore
Get theSessionStore
with the given name. The store can be a "regular" or global store.This is often useful in test cases to pre-populate the store before the test case instructs the topology to
process an input message
, and/or to check the store afterward.- Parameters:
name
- the name of the store- Returns:
- the key value store, or
null
if noSessionStore
has been registered with the given name - See Also:
-
close
public void close()Close the driver, its topology, and all processors.- Specified by:
close
in interfaceAutoCloseable
- Specified by:
close
in interfaceCloseable
-