# Licensed to the Apache Software Foundation (ASF) under one or more # contributor license agreements. See the NOTICE file distributed with # this work for additional information regarding copyright ownership. # The ASF licenses this file to You under the Apache License, Version 2.0 # (the "License"); you may not use this file except in compliance with # the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import json import os import signal from ducktape.services.background_thread import BackgroundThreadService from kafkatest.directory_layout.kafka_path import KafkaPathResolverMixin from kafkatest.services.kafka import TopicPartition from kafkatest.services.verifiable_client import VerifiableClientMixin from kafkatest.version import DEV_BRANCH class ConsumerState: Started = 1 Dead = 2 Rebalancing = 3 Joined = 4 class ConsumerEventHandler(object): def __init__(self, node): self.node = node self.state = ConsumerState.Dead self.revoked_count = 0 self.assigned_count = 0 self.assignment = [] self.position = {} self.committed = {} self.total_consumed = 0 def handle_shutdown_complete(self): self.state = ConsumerState.Dead self.assignment = [] self.position = {} def handle_startup_complete(self): self.state = ConsumerState.Started def handle_offsets_committed(self, event, node, logger): if event["success"]: for offset_commit in event["offsets"]: if offset_commit.get("error", "") != "": logger.debug("%s: Offset commit failed for: %s" % (str(node.account), offset_commit)) continue topic = offset_commit["topic"] partition = offset_commit["partition"] tp = TopicPartition(topic, partition) offset = offset_commit["offset"] assert tp in self.assignment, \ "Committed offsets for partition %s not assigned (current assignment: %s)" % \ (str(tp), str(self.assignment)) assert tp in self.position, "No previous position for %s: %s" % (str(tp), event) assert self.position[tp] >= offset, \ "The committed offset %d was greater than the current position %d for partition %s" % \ (offset, self.position[tp], str(tp)) self.committed[tp] = offset def handle_records_consumed(self, event): assert self.state == ConsumerState.Joined, \ "Consumed records should only be received when joined (current state: %s)" % str(self.state) for record_batch in event["partitions"]: tp = TopicPartition(topic=record_batch["topic"], partition=record_batch["partition"]) min_offset = record_batch["minOffset"] max_offset = record_batch["maxOffset"] assert tp in self.assignment, \ "Consumed records for partition %s which is not assigned (current assignment: %s)" % \ (str(tp), str(self.assignment)) assert tp not in self.position or self.position[tp] == min_offset, \ "Consumed from an unexpected offset (%d, %d) for partition %s" % \ (self.position[tp], min_offset, str(tp)) self.position[tp] = max_offset + 1 self.total_consumed += event["count"] def handle_partitions_revoked(self, event): self.revoked_count += 1 self.state = ConsumerState.Rebalancing self.position = {} def handle_partitions_assigned(self, event): self.assigned_count += 1 self.state = ConsumerState.Joined assignment = [] for topic_partition in event["partitions"]: topic = topic_partition["topic"] partition = topic_partition["partition"] assignment.append(TopicPartition(topic, partition)) self.assignment = assignment def handle_kill_process(self, clean_shutdown): # if the shutdown was clean, then we expect the explicit # shutdown event from the consumer if not clean_shutdown: self.handle_shutdown_complete() def current_assignment(self): return list(self.assignment) def current_position(self, tp): if tp in self.position: return self.position[tp] else: return None def last_commit(self, tp): if tp in self.committed: return self.committed[tp] else: return None class VerifiableConsumer(KafkaPathResolverMixin, VerifiableClientMixin, BackgroundThreadService): """This service wraps org.apache.kafka.tools.VerifiableConsumer for use in system testing. NOTE: this class should be treated as a PUBLIC API. Downstream users use this service both directly and through class extension, so care must be taken to ensure compatibility. """ PERSISTENT_ROOT = "/mnt/verifiable_consumer" STDOUT_CAPTURE = os.path.join(PERSISTENT_ROOT, "verifiable_consumer.stdout") STDERR_CAPTURE = os.path.join(PERSISTENT_ROOT, "verifiable_consumer.stderr") LOG_DIR = os.path.join(PERSISTENT_ROOT, "logs") LOG_FILE = os.path.join(LOG_DIR, "verifiable_consumer.log") LOG4J_CONFIG = os.path.join(PERSISTENT_ROOT, "tools-log4j.properties") CONFIG_FILE = os.path.join(PERSISTENT_ROOT, "verifiable_consumer.properties") logs = { "verifiable_consumer_stdout": { "path": STDOUT_CAPTURE, "collect_default": False}, "verifiable_consumer_stderr": { "path": STDERR_CAPTURE, "collect_default": False}, "verifiable_consumer_log": { "path": LOG_FILE, "collect_default": True} } def __init__(self, context, num_nodes, kafka, topic, group_id, max_messages=-1, session_timeout_sec=30, enable_autocommit=False, assignment_strategy="org.apache.kafka.clients.consumer.RangeAssignor", version=DEV_BRANCH, stop_timeout_sec=30, log_level="INFO"): super(VerifiableConsumer, self).__init__(context, num_nodes) self.log_level = log_level self.kafka = kafka self.topic = topic self.group_id = group_id self.max_messages = max_messages self.session_timeout_sec = session_timeout_sec self.enable_autocommit = enable_autocommit self.assignment_strategy = assignment_strategy self.prop_file = "" self.stop_timeout_sec = stop_timeout_sec self.event_handlers = {} self.global_position = {} self.global_committed = {} for node in self.nodes: node.version = version def java_class_name(self): return "VerifiableConsumer" def _worker(self, idx, node): with self.lock: if node not in self.event_handlers: self.event_handlers[node] = ConsumerEventHandler(node) handler = self.event_handlers[node] node.account.ssh("mkdir -p %s" % VerifiableConsumer.PERSISTENT_ROOT, allow_fail=False) # Create and upload log properties log_config = self.render('tools_log4j.properties', log_file=VerifiableConsumer.LOG_FILE) node.account.create_file(VerifiableConsumer.LOG4J_CONFIG, log_config) # Create and upload config file self.security_config = self.kafka.security_config.client_config(self.prop_file, node) self.security_config.setup_node(node) self.prop_file += str(self.security_config) self.logger.info("verifiable_consumer.properties:") self.logger.info(self.prop_file) node.account.create_file(VerifiableConsumer.CONFIG_FILE, self.prop_file) self.security_config.setup_node(node) cmd = self.start_cmd(node) self.logger.debug("VerifiableConsumer %d command: %s" % (idx, cmd)) for line in node.account.ssh_capture(cmd): event = self.try_parse_json(node, line.strip()) if event is not None: with self.lock: name = event["name"] if name == "shutdown_complete": handler.handle_shutdown_complete() elif name == "startup_complete": handler.handle_startup_complete() elif name == "offsets_committed": handler.handle_offsets_committed(event, node, self.logger) self._update_global_committed(event) elif name == "records_consumed": handler.handle_records_consumed(event) self._update_global_position(event, node) elif name == "partitions_revoked": handler.handle_partitions_revoked(event) elif name == "partitions_assigned": handler.handle_partitions_assigned(event) else: self.logger.debug("%s: ignoring unknown event: %s" % (str(node.account), event)) def _update_global_position(self, consumed_event, node): for consumed_partition in consumed_event["partitions"]: tp = TopicPartition(consumed_partition["topic"], consumed_partition["partition"]) if tp in self.global_committed: # verify that the position never gets behind the current commit. assert self.global_committed[tp] <= consumed_partition["minOffset"], \ "Consumed position %d is behind the current committed offset %d for partition %s" % \ (consumed_partition["minOffset"], self.global_committed[tp], str(tp)) # the consumer cannot generally guarantee that the position increases monotonically # without gaps in the face of hard failures, so we only log a warning when this happens if tp in self.global_position and self.global_position[tp] != consumed_partition["minOffset"]: self.logger.warn("%s: Expected next consumed offset of %d for partition %s, but instead saw %d" % (str(node.account), self.global_position[tp], str(tp), consumed_partition["minOffset"])) self.global_position[tp] = consumed_partition["maxOffset"] + 1 def _update_global_committed(self, commit_event): if commit_event["success"]: for offset_commit in commit_event["offsets"]: tp = TopicPartition(offset_commit["topic"], offset_commit["partition"]) offset = offset_commit["offset"] assert self.global_position[tp] >= offset, \ "Committed offset %d for partition %s is ahead of the current position %d" % \ (offset, str(tp), self.global_position[tp]) self.global_committed[tp] = offset def start_cmd(self, node): cmd = "" cmd += "export LOG_DIR=%s;" % VerifiableConsumer.LOG_DIR cmd += " export KAFKA_OPTS=%s;" % self.security_config.kafka_opts cmd += " export KAFKA_LOG4J_OPTS=\"-Dlog4j.configuration=file:%s\"; " % VerifiableConsumer.LOG4J_CONFIG cmd += self.impl.exec_cmd(node) cmd += " --group-id %s --topic %s --broker-list %s --session-timeout %s --assignment-strategy %s %s" % \ (self.group_id, self.topic, self.kafka.bootstrap_servers(self.security_config.security_protocol), self.session_timeout_sec*1000, self.assignment_strategy, "--enable-autocommit" if self.enable_autocommit else "") if self.max_messages > 0: cmd += " --max-messages %s" % str(self.max_messages) cmd += " --consumer.config %s" % VerifiableConsumer.CONFIG_FILE cmd += " 2>> %s | tee -a %s &" % (VerifiableConsumer.STDOUT_CAPTURE, VerifiableConsumer.STDOUT_CAPTURE) return cmd def pids(self, node): return self.impl.pids(node) def try_parse_json(self, node, string): """Try to parse a string as json. Return None if not parseable.""" try: return json.loads(string) except ValueError: self.logger.debug("%s: Could not parse as json: %s" % (str(node.account), str(string))) return None def stop_all(self): for node in self.nodes: self.stop_node(node) def kill_node(self, node, clean_shutdown=True, allow_fail=False): sig = self.impl.kill_signal(clean_shutdown) for pid in self.pids(node): node.account.signal(pid, sig, allow_fail) with self.lock: self.event_handlers[node].handle_kill_process(clean_shutdown) def stop_node(self, node, clean_shutdown=True): self.kill_node(node, clean_shutdown=clean_shutdown) stopped = self.wait_node(node, timeout_sec=self.stop_timeout_sec) assert stopped, "Node %s: did not stop within the specified timeout of %s seconds" % \ (str(node.account), str(self.stop_timeout_sec)) def clean_node(self, node): self.kill_node(node, clean_shutdown=False) node.account.ssh("rm -rf " + self.PERSISTENT_ROOT, allow_fail=False) self.security_config.clean_node(node) def current_assignment(self): with self.lock: return { handler.node: handler.current_assignment() for handler in self.event_handlers.itervalues() } def current_position(self, tp): with self.lock: if tp in self.global_position: return self.global_position[tp] else: return None def owner(self, tp): with self.lock: for handler in self.event_handlers.itervalues(): if tp in handler.current_assignment(): return handler.node return None def last_commit(self, tp): with self.lock: if tp in self.global_committed: return self.global_committed[tp] else: return None def total_consumed(self): with self.lock: return sum(handler.total_consumed for handler in self.event_handlers.itervalues()) def num_rebalances(self): with self.lock: return max(handler.assigned_count for handler in self.event_handlers.itervalues()) def joined_nodes(self): with self.lock: return [handler.node for handler in self.event_handlers.itervalues() if handler.state == ConsumerState.Joined] def rebalancing_nodes(self): with self.lock: return [handler.node for handler in self.event_handlers.itervalues() if handler.state == ConsumerState.Rebalancing] def dead_nodes(self): with self.lock: return [handler.node for handler in self.event_handlers.itervalues() if handler.state == ConsumerState.Dead] def alive_nodes(self): with self.lock: return [handler.node for handler in self.event_handlers.itervalues() if handler.state != ConsumerState.Dead]