# 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. from ducktape.services.background_thread import BackgroundThreadService from kafkatest.services.kafka.directory import kafka_dir, KAFKA_TRUNK from kafkatest.services.kafka.version import TRUNK, LATEST_0_8_2 import json import os import signal import subprocess import time class VerifiableProducer(BackgroundThreadService): PERSISTENT_ROOT = "/mnt/verifiable_producer" STDOUT_CAPTURE = os.path.join(PERSISTENT_ROOT, "verifiable_producer.stdout") LOG_DIR = os.path.join(PERSISTENT_ROOT, "logs") LOG_FILE = os.path.join(LOG_DIR, "verifiable_producer.log") LOG4J_CONFIG = os.path.join(PERSISTENT_ROOT, "tools-log4j.properties") CONFIG_FILE = os.path.join(PERSISTENT_ROOT, "verifiable_producer.properties") logs = { "verifiable_producer_stdout": { "path": STDOUT_CAPTURE, "collect_default": False}, "verifiable_producer_log": { "path": LOG_FILE, "collect_default": True} } def __init__(self, context, num_nodes, kafka, topic, max_messages=-1, throughput=100000, version=TRUNK): super(VerifiableProducer, self).__init__(context, num_nodes) self.log_level = "TRACE" self.kafka = kafka self.topic = topic self.max_messages = max_messages self.throughput = throughput for node in self.nodes: node.version = version self.acked_values = [] self.not_acked_values = [] self.prop_file = "" self.security_config = kafka.security_config.client_config(self.prop_file) self.prop_file += str(self.security_config) def _worker(self, idx, node): node.account.ssh("mkdir -p %s" % VerifiableProducer.PERSISTENT_ROOT, allow_fail=False) # Create and upload log properties log_config = self.render('tools_log4j.properties', log_file=VerifiableProducer.LOG_FILE) node.account.create_file(VerifiableProducer.LOG4J_CONFIG, log_config) # Create and upload config file self.logger.info("verifiable_producer.properties:") self.logger.info(self.prop_file) node.account.create_file(VerifiableProducer.CONFIG_FILE, self.prop_file) self.security_config.setup_node(node) cmd = self.start_cmd(node) self.logger.debug("VerifiableProducer %d command: %s" % (idx, cmd)) last_produced_time = time.time() prev_msg = None for line in node.account.ssh_capture(cmd): line = line.strip() data = self.try_parse_json(line) if data is not None: with self.lock: if data["name"] == "producer_send_error": data["node"] = idx self.not_acked_values.append(int(data["value"])) elif data["name"] == "producer_send_success": self.acked_values.append(int(data["value"])) # Log information if there is a large gap between successively acknowledged messages t = time.time() time_delta_sec = t - last_produced_time if time_delta_sec > 2 and prev_msg is not None: self.logger.debug( "Time delta between successively acked messages is large: " + "delta_t_sec: %s, prev_message: %s, current_message: %s" % (str(time_delta_sec), str(prev_msg), str(data))) last_produced_time = t prev_msg = data def start_cmd(self, node): cmd = "" if node.version <= LATEST_0_8_2: # 0.8.2.X releases do not have VerifiableProducer.java, so cheat and add # the tools jar from trunk to the classpath cmd += "for file in /opt/%s/tools/build/libs/kafka-tools*.jar; do CLASSPATH=$CLASSPATH:$file; done; " % KAFKA_TRUNK cmd += "for file in /opt/%s/tools/build/dependant-libs-${SCALA_VERSION}*/*.jar; do CLASSPATH=$CLASSPATH:$file; done; " % KAFKA_TRUNK cmd += "export CLASSPATH; " cmd += "export LOG_DIR=%s;" % VerifiableProducer.LOG_DIR cmd += " export KAFKA_OPTS=%s;" % self.security_config.kafka_opts cmd += " export KAFKA_LOG4J_OPTS=\"-Dlog4j.configuration=file:%s\"; " % VerifiableProducer.LOG4J_CONFIG cmd += "/opt/" + kafka_dir(node) + "/bin/kafka-run-class.sh org.apache.kafka.tools.VerifiableProducer" \ " --topic %s --broker-list %s" % (self.topic, self.kafka.bootstrap_servers()) if self.max_messages > 0: cmd += " --max-messages %s" % str(self.max_messages) if self.throughput > 0: cmd += " --throughput %s" % str(self.throughput) cmd += " --producer.config %s" % VerifiableProducer.CONFIG_FILE cmd += " 2>> %s | tee -a %s &" % (VerifiableProducer.STDOUT_CAPTURE, VerifiableProducer.STDOUT_CAPTURE) return cmd def kill_node(self, node, clean_shutdown=True, allow_fail=False): if clean_shutdown: sig = signal.SIGTERM else: sig = signal.SIGKILL for pid in self.pids(node): node.account.signal(pid, sig, allow_fail) def pids(self, node): try: cmd = "jps | grep -i VerifiableProducer | awk '{print $1}'" pid_arr = [pid for pid in node.account.ssh_capture(cmd, allow_fail=True, callback=int)] return pid_arr except (subprocess.CalledProcessError, ValueError) as e: return [] def alive(self, node): return len(self.pids(node)) > 0 @property def acked(self): with self.lock: return self.acked_values @property def not_acked(self): with self.lock: return self.not_acked_values @property def num_acked(self): with self.lock: return len(self.acked_values) @property def num_not_acked(self): with self.lock: return len(self.not_acked_values) def stop_node(self, node): self.kill_node(node, clean_shutdown=False, allow_fail=False) if self.worker_threads is None: return # block until the corresponding thread exits if len(self.worker_threads) >= self.idx(node): # Need to guard this because stop is preemptively called before the worker threads are added and started self.worker_threads[self.idx(node) - 1].join() def clean_node(self, node): self.kill_node(node, clean_shutdown=False, allow_fail=False) node.account.ssh("rm -rf " + self.PERSISTENT_ROOT, allow_fail=False) self.security_config.clean_node(node) def try_parse_json(self, string): """Try to parse a string as json. Return None if not parseable.""" try: record = json.loads(string) return record except ValueError: self.logger.debug("Could not parse as json: %s" % str(string)) return None