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---
name: kafka-streams-topology
description: Kafka Streams topology design expert. Covers KStream vs KTable vs GlobalKTable, topology patterns, stream operations (filter, map, flatMap, branch), joins, windowing strategies, and exactly-once semantics. Activates for kafka streams topology, kstream, ktable, globalkTable, stream operations, stream joins, windowing, exactly-once, topology design.
---
# Kafka Streams Topology Skill
Expert knowledge of Kafka Streams library for building stream processing topologies in Java/Kotlin.
## What I Know
### Core Abstractions
**KStream** (Event Stream - Unbounded, Append-Only):
- Represents immutable event sequences
- Each record is an independent event
- Use for: Clickstreams, transactions, sensor readings
**KTable** (Changelog Stream - Latest State by Key):
- Represents mutable state (compacted topic)
- Updates override previous values (by key)
- Use for: User profiles, product catalog, account balances
**GlobalKTable** (Replicated Table - Available on All Instances):
- Full table replicated to every stream instance
- No partitioning (broadcast)
- Use for: Reference data (countries, products), lookups
**Key Differences**:
```java
// KStream: Every event is independent
KStream<Long, Click> clicks = builder.stream("clicks");
clicks.foreach((key, value) -> {
System.out.println(value); // Prints every click event
});
// KTable: Latest value wins (by key)
KTable<Long, User> users = builder.table("users");
users.toStream().foreach((key, value) -> {
System.out.println(value); // Prints only current user state
});
// GlobalKTable: Replicated to all instances (no partitioning)
GlobalKTable<Long, Product> products = builder.globalTable("products");
// Available for lookups on any instance (no repartitioning needed)
```
## When to Use This Skill
Activate me when you need help with:
- Topology design ("How to design Kafka Streams topology?")
- KStream vs KTable ("When to use KStream vs KTable?")
- Stream operations ("Filter and transform events")
- Joins ("Join KStream with KTable")
- Windowing ("Tumbling vs hopping vs session windows")
- Exactly-once semantics ("Enable EOS")
- Topology optimization ("Optimize stream processing")
## Common Patterns
### Pattern 1: Filter and Transform
**Use Case**: Clean and enrich events
```java
StreamsBuilder builder = new StreamsBuilder();
// Input stream
KStream<Long, ClickEvent> clicks = builder.stream("clicks");
// Filter out bot clicks
KStream<Long, ClickEvent> humanClicks = clicks
.filter((key, value) -> !value.isBot());
// Transform: Extract page from URL
KStream<Long, String> pages = humanClicks
.mapValues(click -> extractPage(click.getUrl()));
// Write to output topic
pages.to("pages");
```
### Pattern 2: Branch by Condition
**Use Case**: Route events to different paths
```java
Map<String, KStream<Long, Order>> branches = orders
.split(Named.as("order-"))
.branch((key, order) -> order.getTotal() > 1000, Branched.as("high-value"))
.branch((key, order) -> order.getTotal() > 100, Branched.as("medium-value"))
.defaultBranch(Branched.as("low-value"));
// High-value orders → priority processing
branches.get("order-high-value").to("priority-orders");
// Low-value orders → standard processing
branches.get("order-low-value").to("standard-orders");
```
### Pattern 3: Enrich Stream with Table (Stream-Table Join)
**Use Case**: Add user details to click events
```java
// Users table (current state)
KTable<Long, User> users = builder.table("users");
// Clicks stream
KStream<Long, ClickEvent> clicks = builder.stream("clicks");
// Enrich clicks with user data (left join)
KStream<Long, EnrichedClick> enriched = clicks.leftJoin(
users,
(click, user) -> new EnrichedClick(
click.getPage(),
user != null ? user.getName() : "unknown",
user != null ? user.getEmail() : "unknown"
),
Joined.with(Serdes.Long(), clickSerde, userSerde)
);
enriched.to("enriched-clicks");
```
### Pattern 4: Aggregate with Windowing
**Use Case**: Count clicks per user, per 5-minute window
```java
KTable<Windowed<Long>, Long> clickCounts = clicks
.groupByKey()
.windowedBy(TimeWindows.of(Duration.ofMinutes(5)))
.count(Materialized.as("click-counts-store"));
// Convert to stream for output
clickCounts.toStream()
.map((windowedKey, count) -> {
Long userId = windowedKey.key();
Instant start = windowedKey.window().startTime();
Instant end = windowedKey.window().endTime();
return KeyValue.pair(userId, new WindowedCount(userId, start, end, count));
})
.to("click-counts");
```
### Pattern 5: Stateful Processing with State Store
**Use Case**: Detect duplicate events within 10 minutes
```java
// Define state store
StoreBuilder<KeyValueStore<Long, Long>> storeBuilder =
Stores.keyValueStoreBuilder(
Stores.persistentKeyValueStore("dedup-store"),
Serdes.Long(),
Serdes.Long()
);
builder.addStateStore(storeBuilder);
// Deduplicate events
KStream<Long, Event> deduplicated = events.transformValues(
() -> new ValueTransformerWithKey<Long, Event, Event>() {
private KeyValueStore<Long, Long> store;
@Override
public void init(ProcessorContext context) {
this.store = context.getStateStore("dedup-store");
}
@Override
public Event transform(Long key, Event value) {
Long lastSeen = store.get(key);
long now = System.currentTimeMillis();
// Duplicate detected (within 10 minutes)
if (lastSeen != null && (now - lastSeen) < 600_000) {
return null; // Drop duplicate
}
// Not duplicate, store timestamp
store.put(key, now);
return value;
}
},
"dedup-store"
).filter((key, value) -> value != null); // Remove nulls
deduplicated.to("unique-events");
```
## Join Types
### 1. Stream-Stream Join (Inner)
**Use Case**: Correlate related events within time window
```java
// Page views and clicks within 10 minutes
KStream<Long, PageView> views = builder.stream("page-views");
KStream<Long, Click> clicks = builder.stream("clicks");
KStream<Long, ClickWithView> joined = clicks.join(
views,
(click, view) -> new ClickWithView(click, view),
JoinWindows.of(Duration.ofMinutes(10)),
StreamJoined.with(Serdes.Long(), clickSerde, viewSerde)
);
```
### 2. Stream-Table Join (Left)
**Use Case**: Enrich events with current state
```java
// Add product details to order items
KTable<Long, Product> products = builder.table("products");
KStream<Long, OrderItem> items = builder.stream("order-items");
KStream<Long, EnrichedOrderItem> enriched = items.leftJoin(
products,
(item, product) -> new EnrichedOrderItem(
item,
product != null ? product.getName() : "Unknown",
product != null ? product.getPrice() : 0.0
)
);
```
### 3. Table-Table Join (Inner)
**Use Case**: Combine two tables (latest state)
```java
// Join users with their current shopping cart
KTable<Long, User> users = builder.table("users");
KTable<Long, Cart> carts = builder.table("shopping-carts");
KTable<Long, UserWithCart> joined = users.join(
carts,
(user, cart) -> new UserWithCart(user.getName(), cart.getTotal())
);
```
### 4. Stream-GlobalKTable Join
**Use Case**: Enrich with reference data (no repartitioning)
```java
// Add country details to user registrations
GlobalKTable<String, Country> countries = builder.globalTable("countries");
KStream<Long, UserRegistration> registrations = builder.stream("registrations");
KStream<Long, EnrichedRegistration> enriched = registrations.leftJoin(
countries,
(userId, registration) -> registration.getCountryCode(), // Key extractor
(registration, country) -> new EnrichedRegistration(
registration,
country != null ? country.getName() : "Unknown"
)
);
```
## Windowing Strategies
### Tumbling Windows (Non-Overlapping)
**Use Case**: Aggregate per fixed time period
```java
// Count events every 5 minutes
KTable<Windowed<Long>, Long> counts = events
.groupByKey()
.windowedBy(TimeWindows.ofSizeWithNoGrace(Duration.ofMinutes(5)))
.count();
// Windows: [0:00-0:05), [0:05-0:10), [0:10-0:15)
```
### Hopping Windows (Overlapping)
**Use Case**: Moving average or overlapping aggregates
```java
// Count events in 10-minute windows, advancing every 5 minutes
KTable<Windowed<Long>, Long> counts = events
.groupByKey()
.windowedBy(TimeWindows.ofSizeAndGrace(
Duration.ofMinutes(10),
Duration.ofMinutes(5)
).advanceBy(Duration.ofMinutes(5)))
.count();
// Windows: [0:00-0:10), [0:05-0:15), [0:10-0:20)
```
### Session Windows (Event-Based)
**Use Case**: User sessions with inactivity gap
```java
// Session ends after 30 minutes of inactivity
KTable<Windowed<Long>, Long> sessionCounts = events
.groupByKey()
.windowedBy(SessionWindows.ofInactivityGapWithNoGrace(Duration.ofMinutes(30)))
.count();
```
### Sliding Windows (Continuous)
**Use Case**: Anomaly detection over sliding time window
```java
// Detect >100 events in any 1-minute period
KTable<Windowed<Long>, Long> slidingCounts = events
.groupByKey()
.windowedBy(SlidingWindows.ofTimeDifferenceWithNoGrace(Duration.ofMinutes(1)))
.count();
```
## Best Practices
### 1. Partition Keys Correctly
**DO**:
```java
// Repartition by user_id before aggregation
KStream<Long, Event> byUser = events
.selectKey((key, value) -> value.getUserId());
// Now aggregation is efficient
KTable<Long, Long> userCounts = byUser
.groupByKey()
.count();
```
**DON'T**:
```java
// WRONG: groupBy with different key (triggers repartitioning!)
KTable<Long, Long> userCounts = events
.groupBy((key, value) -> KeyValue.pair(value.getUserId(), value))
.count();
```
### 2. Use Appropriate Serdes
**DO**:
```java
// Define custom serde for complex types
Serde<User> userSerde = new JsonSerde<>(User.class);
KStream<Long, User> users = builder.stream(
"users",
Consumed.with(Serdes.Long(), userSerde)
);
```
**DON'T**:
```java
// WRONG: No serde specified (uses default String serde!)
KStream<Long, User> users = builder.stream("users");
```
### 3. Enable Exactly-Once Semantics
**DO**:
```java
Properties props = new Properties();
props.put(StreamsConfig.PROCESSING_GUARANTEE_CONFIG,
StreamsConfig.EXACTLY_ONCE_V2); // EOS v2 (recommended)
props.put(StreamsConfig.COMMIT_INTERVAL_MS_CONFIG, 100); // Commit frequently
```
### 4. Use Materialized Stores for Queries
**DO**:
```java
// Named store for interactive queries
KTable<Long, Long> counts = events
.groupByKey()
.count(Materialized.<Long, Long, KeyValueStore<Bytes, byte[]>>as("user-counts")
.withKeySerde(Serdes.Long())
.withValueSerde(Serdes.Long()));
// Query store from REST API
ReadOnlyKeyValueStore<Long, Long> store =
streams.store(StoreQueryParameters.fromNameAndType(
"user-counts",
QueryableStoreTypes.keyValueStore()
));
Long count = store.get(userId);
```
## Topology Optimization
### 1. Combine Operations
**GOOD** (Single pass):
```java
KStream<Long, String> result = events
.filter((key, value) -> value.isValid())
.mapValues(value -> value.toUpperCase())
.filterNot((key, value) -> value.contains("test"));
```
**BAD** (Multiple intermediate topics):
```java
KStream<Long, Event> valid = events.filter((key, value) -> value.isValid());
valid.to("valid-events"); // Unnecessary write
KStream<Long, Event> fromValid = builder.stream("valid-events");
KStream<Long, String> upper = fromValid.mapValues(v -> v.toUpperCase());
```
### 2. Reuse KTables
**GOOD** (Shared table):
```java
KTable<Long, User> users = builder.table("users");
KStream<Long, EnrichedClick> enrichedClicks = clicks.leftJoin(users, ...);
KStream<Long, EnrichedOrder> enrichedOrders = orders.leftJoin(users, ...);
```
**BAD** (Duplicate tables):
```java
KTable<Long, User> users1 = builder.table("users");
KTable<Long, User> users2 = builder.table("users"); // Duplicate!
```
## Testing Topologies
### Topology Test Driver
```java
@Test
public void testClickFilter() {
// Setup topology
StreamsBuilder builder = new StreamsBuilder();
KStream<Long, Click> clicks = builder.stream("clicks");
clicks.filter((key, value) -> !value.isBot())
.to("human-clicks");
Topology topology = builder.build();
// Create test driver
TopologyTestDriver testDriver = new TopologyTestDriver(topology);
// Input topic
TestInputTopic<Long, Click> inputTopic = testDriver.createInputTopic(
"clicks",
Serdes.Long().serializer(),
clickSerde.serializer()
);
// Output topic
TestOutputTopic<Long, Click> outputTopic = testDriver.createOutputTopic(
"human-clicks",
Serdes.Long().deserializer(),
clickSerde.deserializer()
);
// Send test data
inputTopic.pipeInput(1L, new Click(1L, "page1", false)); // Human
inputTopic.pipeInput(2L, new Click(2L, "page2", true)); // Bot
// Assert output
List<Click> output = outputTopic.readValuesToList();
assertEquals(1, output.size()); // Only human click
assertFalse(output.get(0).isBot());
testDriver.close();
}
```
## Common Issues & Solutions
### Issue 1: StreamsException - Not Co-Partitioned
**Error**: Topics not co-partitioned for join
**Root Cause**: Joined streams/tables have different partition counts
**Solution**: Repartition to match:
```java
// Ensure same partition count
KStream<Long, Event> repartitioned = events
.through("events-repartitioned",
Produced.with(Serdes.Long(), eventSerde)
.withStreamPartitioner((topic, key, value, numPartitions) ->
(int) (key % 12) // Match target partition count
)
);
```
### Issue 2: Out of Memory (Large State Store)
**Error**: Java heap space
**Root Cause**: State store too large, windowing not used
**Solution**: Add time-based cleanup:
```java
// Use windowing to limit state size
KTable<Windowed<Long>, Long> counts = events
.groupByKey()
.windowedBy(TimeWindows.ofSizeAndGrace(
Duration.ofHours(24), // Window size
Duration.ofHours(1) // Grace period
))
.count();
```
### Issue 3: High Lag, Slow Processing
**Root Cause**: Blocking operations, inefficient transformations
**Solution**: Use async processing:
```java
// BAD: Blocking HTTP call
events.mapValues(value -> {
return httpClient.get(value.getUrl()); // BLOCKS!
});
// GOOD: Async processing with state store
events.transformValues(() -> new AsyncEnricher());
```
## References
- Kafka Streams Documentation: https://kafka.apache.org/documentation/streams/
- Kafka Streams Tutorial: https://kafka.apache.org/documentation/streams/tutorial
- Testing Guide: https://kafka.apache.org/documentation/streams/developer-guide/testing.html
---
**Invoke me when you need topology design, joins, windowing, or exactly-once semantics expertise!**