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posthog/bin/migrate_kafka_data.py
Harry Waye dfe389dfdc
chore: fix typing of int arguments in migrate_kafka_data.py (#14304)
* chore: fix typing of int arguments in migrate_kafka_data.py

I'd given defaults but didn't ensure the types were right.

* decrease linger
2023-02-17 19:24:57 +00:00

256 lines
9.6 KiB
Python
Executable File

#!/usr/bin/env python3
#
# This management command is intended to be used to migrate data from one Kafka
# cluster to another. It is intended for the use case where the Kafka cluster
# has suffered some catastrophic failure that causes us to migrate to a new
# cluster. The old cluster may well come back up, and in which case we would
# want to ensure that if there is any data in the old cluster that wasn't
# consumed by the PostHog app when it was pointing at it, then that data is
# transferred to the new cluster.
#
# We do not make any attempt at validation, so it's important to ensure that you
# move data to and from the corresponding topics.
#
# We also do not validate that you use the correct consumer group ID, so it's
# important that you use the same consumer group ID that the PostHog app is
# using when consuming from the old cluster, otherwise you risk migrating data
# that has already been consumed.
#
# By default the target Kafka cluster is the currently configured cluster in
# Django settings.
import argparse
import sys
from typing import List
from kafka import KafkaAdminClient, KafkaConsumer, KafkaProducer
from kafka.errors import KafkaError
from kafka.producer.future import FutureRecordMetadata
from kafka.structs import TopicPartition
help = "Migrate data from one Kafka cluster to another"
def get_parser():
parser = argparse.ArgumentParser()
parser.add_argument(
"--from-topic",
required=True,
help="The topic to migrate data from",
)
parser.add_argument(
"--from-cluster",
required=True,
help="The Kafka cluster to migrate data from",
)
parser.add_argument(
"--from-cluster-security-protocol",
default="PLAINTEXT",
help="The security protocol to use when connecting to the old cluster",
)
parser.add_argument(
"--to-topic",
required=True,
help="The topic to migrate data to",
)
parser.add_argument(
"--to-cluster",
required=True,
help="The Kafka cluster to migrate data to",
)
parser.add_argument(
"--to-cluster-security-protocol",
default="PLAINTEXT",
help="The security protocol to use when connecting to the new cluster",
)
parser.add_argument(
"--consumer-group-id",
required=True,
help="The consumer group ID to use when consuming from the old cluster",
)
parser.add_argument(
"--linger-ms",
default=1000,
type=int,
help="The number of milliseconds to wait before sending a batch of messages to the new cluster",
)
parser.add_argument(
"--batch-size",
default=1000 * 1000,
type=int,
help="The maximum number of bytes per partition to send in a batch of messages to the new cluster",
)
parser.add_argument(
"--timeout-ms",
default=1000 * 10,
type=int,
help="The maximum number of milliseconds to wait for a batch from the old cluster before timing out",
)
parser.add_argument(
"--dry-run",
action="store_true",
help="Do not actually migrate any data or commit any offsets, just print the number of messages that would be migrated",
)
return parser
def handle(**options):
from_topic = options["from_topic"]
to_topic = options["to_topic"]
from_cluster = options["from_cluster"]
to_cluster = options["to_cluster"]
consumer_group_id = options["consumer_group_id"]
linger_ms = options["linger_ms"]
batch_size = options["batch_size"]
from_cluster_security_protocol = options["from_cluster_security_protocol"]
to_cluster_security_protocol = options["to_cluster_security_protocol"]
dry_run = options["dry_run"]
timeout_ms = options["timeout_ms"]
# Validate that we don't push messages back into the same cluster and
# topic.
if from_cluster == to_cluster and from_topic == to_topic:
raise ValueError("You must specify a different topic and cluster to migrate data to")
# Fail if the to_topic doesn't exist
admin_client = KafkaAdminClient(bootstrap_servers=to_cluster, security_protocol=to_cluster_security_protocol)
topics_response = admin_client.describe_topics([to_topic])
if not list(topics_response) or topics_response[0]["error_code"]:
raise ValueError(f"Topic {to_topic} does not exist")
# Using the Kafka Admin API, make sure the specified consumer group
# already has offsets committed for the topic we're migrating data from.
# If it doesn't, then we do not want to try to migrate data as we expect
# that if called correctly, we would be specifying a consumer group ID
# that has already been consuming from the cluster.
admin_client = KafkaAdminClient(bootstrap_servers=from_cluster, security_protocol=from_cluster_security_protocol)
try:
committed_offsets = admin_client.list_consumer_group_offsets(consumer_group_id)
except KafkaError as e:
raise ValueError(f"Failed to list consumer group offsets: {e}")
if not committed_offsets:
raise ValueError(f"Consumer group {consumer_group_id} has no committed offsets")
if TopicPartition(topic=from_topic, partition=0) not in committed_offsets:
raise ValueError(
f"Consumer group {consumer_group_id} has no committed offsets for topic {from_topic}: {committed_offsets}"
)
print( # noqa: T201
f"Migrating data from topic {from_topic} on cluster {from_cluster} to topic {to_topic} on cluster {to_cluster} using consumer group ID {consumer_group_id}"
)
# Create a Kafka consumer to consume from the old topic.
consumer = KafkaConsumer(
from_topic,
bootstrap_servers=from_cluster,
auto_offset_reset="latest",
enable_auto_commit=False,
group_id=consumer_group_id,
consumer_timeout_ms=1000,
security_protocol=from_cluster_security_protocol,
)
# Create a Kafka producer to produce to the new topic.
producer = KafkaProducer(
bootstrap_servers=to_cluster,
linger_ms=linger_ms,
batch_size=batch_size,
security_protocol=to_cluster_security_protocol,
)
try:
# Get all the partitions for the topic we're migrating data from.
partitions = consumer.partitions_for_topic(from_topic)
assert partitions, "No partitions found for topic"
# Get the latest offsets for all the partitions of the topic we're
# migrating data from.
latest_offsets = consumer.end_offsets(
[TopicPartition(topic=from_topic, partition=partition) for partition in partitions]
)
assert latest_offsets, "No latest offsets found for topic"
# Calculate the current lag for the consumer group.
current_lag = sum(
latest_offsets[TopicPartition(topic=from_topic, partition=partition)]
- committed_offsets[TopicPartition(topic=from_topic, partition=partition)].offset
for partition in partitions
)
print(f"Current lag for consumer group {consumer_group_id} is {current_lag}") # noqa: T201
if dry_run:
print("Dry run, not migrating any data or committing any offsets") # noqa: T201
return
else:
print("Migrating data") # noqa: T201
# Now consume from the consumer, and produce to the producer.
while True:
print("Polling for messages") # noqa: T201
messages_by_topic = consumer.poll(timeout_ms=timeout_ms)
futures: List[FutureRecordMetadata] = []
if not messages_by_topic:
break
# Send the messages to the new topic. Note that messages may not be
# send immediately, but rather batched by the Kafka Producer
# according to e.g. linger_ms etc.
for topic, messages in messages_by_topic.items():
print(f"Sending {len(messages)} messages to topic {topic}") # noqa: T201
for message in messages:
futures.append(
producer.send(
to_topic,
message.value,
key=message.key,
headers=message.headers,
)
)
# Flush the producer to ensure that all messages are sent.
print("Flushing producer") # noqa: T201
producer.flush()
for future in futures:
future.get()
# Commit the offsets for the messages we just consumed.
print("Committing offsets") # noqa: T201
consumer.commit()
# Report the original offset lag, the current offset lag, and
# the percentage of the original offset lag that has been
# migrated.
new_lag = sum(
latest_offsets[TopicPartition(topic=from_topic, partition=partition)]
- consumer.position(TopicPartition(topic=from_topic, partition=partition))
for partition in partitions
)
print( # noqa: T201
f"Original lag: {current_lag}, current lag: {new_lag}, migrated: {100 - (new_lag / current_lag * 100):.2f}%"
)
finally:
# Close the consumer and producer.
print("Closing consumer") # noqa: T201
consumer.close()
print("Closing producer") # noqa: T201
producer.close()
print("Done migrating data") # noqa: T201
def run(*args):
parser = get_parser()
args = parser.parse_args(args)
handle(**vars(args))
if __name__ == "__main__":
run(*sys.argv[1:])