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consumer_group_spec.rb
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# frozen_string_literal: true
require "timeout"
describe "Consumer API", functional: true do
let(:offset_retention_time) { 30 }
example "consuming messages from the beginning of a topic" do
topic = create_random_topic(num_partitions: 1)
messages = (1..1000).to_a
begin
kafka = Kafka.new(kafka_brokers, client_id: "test")
producer = kafka.producer
messages.each do |i|
producer.produce(i.to_s, topic: topic, partition: 0)
end
producer.deliver_messages
end
group_id = "test#{rand(1000)}"
mutex = Mutex.new
received_messages = []
consumers = 2.times.map do
kafka = Kafka.new(kafka_brokers, client_id: "test", logger: logger)
consumer = kafka.consumer(group_id: group_id, offset_retention_time: offset_retention_time)
consumer.subscribe(topic)
consumer
end
threads = consumers.map do |consumer|
t = Thread.new do
consumer.each_message do |message|
mutex.synchronize do
received_messages << message
if received_messages.count == messages.count
consumers.each(&:stop)
end
end
end
end
t.abort_on_exception = true
t
end
threads.each(&:join)
expect(received_messages.map(&:value).map(&:to_i)).to match_array messages
end
example "subscribing to multiple topics using regex" do
topic_a = create_random_topic(num_partitions: 1)
topic_b = create_random_topic(num_partitions: 1)
messages_a = (1..500).to_a
messages_b = (501..1000).to_a
messages = messages_a + messages_b
begin
kafka = Kafka.new(kafka_brokers, client_id: "test")
producer = kafka.producer
messages_a.each do |i|
producer.produce(i.to_s, topic: topic_a, partition: 0)
end
messages_b.each do |i|
producer.produce(i.to_s, topic: topic_b, partition: 0)
end
producer.deliver_messages
end
group_id = "test#{rand(1000)}"
mutex = Mutex.new
received_messages = []
consumers = 2.times.map do
kafka = Kafka.new(kafka_brokers, client_id: "test", logger: logger)
consumer = kafka.consumer(group_id: group_id, offset_retention_time: offset_retention_time)
consumer.subscribe(/#{topic_a}|#{topic_b}/)
consumer
end
threads = consumers.map do |consumer|
t = Thread.new do
consumer.each_message do |message|
mutex.synchronize do
received_messages << message
if received_messages.count == messages.count
consumers.each(&:stop)
end
end
end
end
t.abort_on_exception = true
t
end
threads.each(&:join)
expect(received_messages.map(&:value).map(&:to_i).sort).to match_array messages
end
example "subscribing to multiple topics using regex and enable refreshing the topic list" do
topic_a = generate_topic_name
topic_b = generate_topic_name
messages_a = (1..500).to_a
messages_b = (501..1000).to_a
messages = messages_a + messages_b
producer = Kafka.new(kafka_brokers, client_id: "test").producer
messages_a.each { |i| producer.produce(i.to_s, topic: topic_a) }
producer.deliver_messages
group_id = "test#{rand(1000)}"
received_messages = []
kafka = Kafka.new(kafka_brokers, client_id: "test", logger: logger)
consumer = kafka.consumer(group_id: group_id, offset_retention_time: offset_retention_time, refresh_topic_interval: 1)
consumer.subscribe(/#{topic_a}|#{topic_b}/)
thread = Thread.new do
consumer.each_message do |message|
received_messages << message
if received_messages.count == messages.count
consumer.stop
end
end
end
thread.abort_on_exception = true
sleep 1
messages_b.each { |i| producer.produce(i.to_s, topic: topic_b) }
producer.deliver_messages
thread.join
expect(received_messages.map(&:value).map(&:to_i).sort).to match_array messages
end
example "consuming messages from a topic that's being written to" do
num_partitions = 3
topic = create_random_topic(num_partitions: num_partitions)
messages = (1..100).to_a
mutex = Mutex.new
var = ConditionVariable.new
Thread.new do
kafka = Kafka.new(kafka_brokers, client_id: "test")
producer = kafka.producer
messages.each do |i|
producer.produce(i.to_s, topic: topic, partition: i % 3)
if i % 100 == 0
producer.deliver_messages
mutex.synchronize do
var.wait(mutex)
end
end
end
(0...num_partitions).each do |i|
# Send a tombstone to each partition.
producer.produce(nil, topic: topic, partition: i)
end
producer.deliver_messages
end
group_id = "test#{rand(1000)}"
received_messages = []
threads = 2.times.map do |thread_id|
t = Thread.new do
kafka = Kafka.new(kafka_brokers, client_id: "test", logger: logger)
consumer = kafka.consumer(group_id: group_id, offset_retention_time: offset_retention_time)
consumer.subscribe(topic)
consumer.each_message do |message|
if message.value.nil?
consumer.stop
else
mutex.synchronize do
received_messages << Integer(message.value)
var.signal
end
end
end
end
t.abort_on_exception = true
t
end
threads.each(&:join)
expect(received_messages).to match_array messages
end
example "stopping and restarting a consumer group" do
topic = create_random_topic(num_partitions: 1)
num_messages = 10
processed_messages = 0
producer = kafka.producer
(1..num_messages).each {|i| producer.produce(i.to_s, topic: topic) }
producer.deliver_messages
group_id = "test#{rand(1000)}"
consumer = kafka.consumer(group_id: group_id, offset_retention_time: offset_retention_time)
consumer.subscribe(topic, start_from_beginning: true)
consumer.each_message do |message|
processed_messages += 1
consumer.stop if Integer(message.value) == num_messages
end
expect(processed_messages).to eq num_messages
(1..num_messages).each {|i| producer.produce(i.to_s, topic: topic) }
producer.deliver_messages
consumer = kafka.consumer(group_id: group_id)
consumer.subscribe(topic, start_from_beginning: true)
consumer.each_message do |message|
processed_messages += 1
consumer.stop if Integer(message.value) == num_messages
end
expect(processed_messages).to eq(num_messages * 2)
end
example "consumers process all messages in-order and non-duplicated" do
topic = create_random_topic(num_partitions: 2)
message_count = 500
messages_set_1 = (1..500).to_a
messages_set_2 = (501..1000).to_a
begin
kafka = Kafka.new(seed_brokers: kafka_brokers, client_id: "test")
producer = kafka.producer
messages_set_1.each do |i|
producer.produce(i.to_s, topic: topic, partition: 0)
end
messages_set_2.each do |i|
producer.produce(i.to_s, topic: topic, partition: 1)
end
producer.deliver_messages
end
group_id = "test#{rand(1000)}"
received_messages = {}
consumers = 2.times.map do
kafka = Kafka.new(seed_brokers: kafka_brokers, client_id: "test", logger: logger)
consumer = kafka.consumer(group_id: group_id)
consumer.subscribe(topic)
consumer
end
threads = consumers.map do |consumer|
t = Thread.new do
received_messages[Thread.current] = []
consumer.each_message do |message|
received_messages[Thread.current] << message
if received_messages[Thread.current].count == message_count
consumer.stop
end
end
end
t.abort_on_exception = true
t
end
threads.each(&:join)
received_messages.each do |_thread, messages|
values = messages.map(&:value).map(&:to_i)
if messages.first.partition == 0
expect(values).to eql(messages_set_1)
else
expect(values).to eql(messages_set_2)
end
end
end
example 'support record headers' do
topic = create_random_topic(num_partitions: 1)
kafka = Kafka.new(seed_brokers: kafka_brokers, client_id: "test")
producer = kafka.producer
producer.produce(
'hello', topic: topic, headers: { 'TracingID' => 'a1', 'SpanID' => 'b2' }
)
producer.produce(
'hello2', topic: topic, headers: { 'TracingID' => 'c3', 'SpanID' => 'd4' }
)
producer.deliver_messages
consumer = kafka.consumer(group_id: SecureRandom.uuid)
consumer.subscribe(topic)
headers = []
consumer.each_message do |message|
headers << message.headers
break if headers.length == 2
end
expect(headers).to eql(
[
{ 'TracingID' => 'a1', 'SpanID' => 'b2' },
{ 'TracingID' => 'c3', 'SpanID' => 'd4' }
]
)
end
example 'consumer ignored consumed records of a record batch' do
topic = create_random_topic(num_partitions: 1)
kafka = Kafka.new(seed_brokers: kafka_brokers, client_id: "test")
producer = kafka.producer
group_id = SecureRandom.uuid
(1..4).each do |index|
producer.produce(index.to_s, topic: topic)
end
producer.deliver_messages
count = 0
data = []
consumer = kafka.consumer(group_id: group_id)
consumer.subscribe(topic)
consumer.each_message(automatically_mark_as_processed: false) do |message|
count += 1
consumer.mark_message_as_processed(message)
consumer.commit_offsets
data << message.value
break if count == 3
end
consumer_2 = kafka.consumer(group_id: group_id)
consumer_2.subscribe(topic)
consumer_2.each_message(automatically_mark_as_processed: false) do |message|
consumer_2.mark_message_as_processed(message)
consumer_2.commit_offsets
data << message.value
break
end
expect(data).to eql(%w(1 2 3 4))
end
example "joining a consumer group doesn't reprocess messages" do
topic = create_random_topic(num_partitions: 4)
group_id = SecureRandom.uuid
begin
# Continuously publish messages in a background thread
producer_thread = Thread.new do
kafka = Kafka.new(seed_brokers: kafka_brokers, client_id: "test")
producer = kafka.producer
loop do |i|
producer.produce("message-#{i}", topic: topic)
producer.deliver_messages
sleep 0.1
end
end.tap(&:abort_on_exception)
# A single consumer joins the consumer group and starts consuming
@consumer_1_messages = []
consumer_1_thread = Thread.new do
kafka = Kafka.new(seed_brokers: kafka_brokers, client_id: "test")
consumer = kafka.consumer(group_id: group_id)
consumer.subscribe(topic)
consumer.each_message do |message|
@consumer_1_messages << message
end
end.tap(&:abort_on_exception)
# Ensure consumer 1 started processing
begin
wait_until(timeout: 20) { @consumer_1_messages.size >= 5 }
rescue TimeoutError
fail "consumer #1 didn't consumer 5 messages within 20 seconds"
end
# A single consumer joins the consumer group, forcing all consumers to
# rejoin.
@consumer_2_messages = []
consumer_2_thread = Thread.new do
kafka = Kafka.new(seed_brokers: kafka_brokers, client_id: "test")
consumer = kafka.consumer(group_id: group_id)
consumer.subscribe(topic)
consumer.each_message do |message|
@consumer_2_messages << message
end
end.tap(&:abort_on_exception)
# Ensure consumer 2 has joined the group and been assigned partitions
begin
wait_until(timeout: 20) { @consumer_2_messages.size >= 5 }
rescue TimeoutError
fail "consumer #2 didn't consumer 5 messages within 20 seconds"
end
expect(@consumer_1_messages + @consumer_2_messages)
.to_not contain_duplicate_messages
ensure
producer_thread && producer_thread.kill
consumer_1_thread && consumer_1_thread.kill
consumer_2_thread && consumer_2_thread.kill
end
end
def wait_until(timeout:)
Timeout.timeout(timeout) do
sleep 0.5 until yield
end
end
RSpec::Matchers.define :contain_duplicate_messages do |first|
match do |actual|
@dups = actual
.group_by { |message| [message.partition, message.offset] }
.select { |offset, messages| messages.size > 1 }
@dups.size > 0
end
failure_message_when_negated do |actual|
dup_description = @dups.sort.map do |(partition, offset), messages|
"#{partition}-#{offset} was processed #{messages.size} times"
end.join(", ")
"Expected no duplicate messages, but #{dup_description}"
end
end
end