Mirror of Apache Kafka
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#!/usr/bin/env bash
# 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.
#
# Ducker-AK: a tool for running Apache Kafka system tests inside Docker images.
#
# Note: this should be compatible with the version of bash that ships on most
# Macs, bash 3.2.57.
#
script_path="${0}"
# The absolute path to the directory which this script is in. This will also be the directory
# which we run docker build from.
ducker_dir="$( cd "$( dirname "${BASH_SOURCE[0]}" )" && pwd )"
# The absolute path to the root Kafka directory
kafka_dir="$( cd "${ducker_dir}/../.." && pwd )"
# The memory consumption to allow during the docker build.
# This does not include swap.
docker_build_memory_limit="3200m"
# The maximum mmemory consumption to allow in containers.
docker_run_memory_limit="2000m"
# The default number of cluster nodes to bring up if a number is not specified.
default_num_nodes=14
# The default ducker-ak image name.
default_image_name="ducker-ak"
# Display a usage message on the terminal and exit.
#
# $1: The exit status to use
usage() {
local exit_status="${1}"
cat <<EOF
ducker-ak: a tool for running Apache Kafka tests inside Docker images.
Usage: ${script_path} [command] [options]
help|-h|--help
Display this help message
up [-n|--num-nodes NUM_NODES] [-f|--force] [docker-image]
[-C|--custom-ducktape DIR]
Bring up a cluster with the specified amount of nodes (defaults to ${default_num_nodes}).
The docker image name defaults to ${default_image_name}. If --force is specified, we will
attempt to bring up an image even some parameters are not valid.
If --custom-ducktape is specified, we will install the provided custom
ducktape source code directory before bringing up the nodes. The provided
directory should be the ducktape git repo, not the ducktape installed module directory.
test [test-name(s)]
Run a test or set of tests inside the currently active Ducker nodes.
For example, to run the Muckrake test simple_consumer_shell_test, you would run:
./tests/docker/ducker-ak test ./tests/kafkatest/test/core/simple_consumer_shell_test.py
ssh [node-name|user-name@node-name] [command]
Log in to a running ducker container. If node-name is not given, it prints
the names of all running nodes. If node-name is 'all', we will run the
command on every node. If user-name is given, we will try to log in as
that user. Otherwise, we will log in as the 'ducker' user. If a command
is specified, we will run that command. Otherwise, we will provide a login
shell.
down [-q|--quiet]
Tear down all the currently active ducker-ak nodes. If --quiet is specified,
only error messages are printed.
purge [--f|--force]
Purge Docker images created by ducker-ak. This will free disk space.
If --force is set, we run 'docker rmi -f'.
EOF
exit "${exit_status}"
}
# Exit with an error message.
die() {
echo $@
exit 1
}
# Check for the presence of certain commands.
#
# $@: The commands to check for. This function will die if any of these commands are not found by
# the 'which' command.
require_commands() {
local cmds="${@}"
for cmd in ${cmds}; do
which -- "${cmd}" &> /dev/null || die "You must install ${cmd} to run this script."
done
}
# Set a global variable to a value.
#
# $1: The variable name to set. This function will die if the variable already has a value. The
# variable will be made readonly to prevent any future modifications.
# $2: The value to set the variable to. This function will die if the value is empty or starts
# with a dash.
# $3: A human-readable description of the variable.
set_once() {
local key="${1}"
local value="${2}"
local what="${3}"
[[ -n "${!key}" ]] && die "Error: more than one value specified for ${what}."
verify_command_line_argument "${value}" "${what}"
# It would be better to use declare -g, but older bash versions don't support it.
export ${key}="${value}"
}
# Verify that a command-line argument is present and does not start with a slash.
#
# $1: The command-line argument to verify.
# $2: A human-readable description of the variable.
verify_command_line_argument() {
local value="${1}"
local what="${2}"
[[ -n "${value}" ]] || die "Error: no value specified for ${what}"
[[ ${value} == -* ]] && die "Error: invalid value ${value} specified for ${what}"
}
# Echo a message if a flag is set.
#
# $1: If this is 1, the message will be echoed.
# $@: The message
maybe_echo() {
local verbose="${1}"
shift
[[ "${verbose}" -eq 1 ]] && echo "${@}"
}
# Counts the number of elements passed to this subroutine.
count() {
echo $#
}
# Push a new directory on to the bash directory stack, or exit with a failure message.
#
# $1: The directory push on to the directory stack.
must_pushd() {
local target_dir="${1}"
pushd -- "${target_dir}" &> /dev/null || die "failed to change directory to ${target_dir}"
}
# Pop a directory from the bash directory stack, or exit with a failure message.
must_popd() {
popd &> /dev/null || die "failed to popd"
}
# Run a command and die if it fails.
#
# Optional flags:
# -v: print the command before running it.
# -o: display the command output.
# $@: The command to run.
must_do() {
local verbose=0
local output="/dev/null"
while true; do
case ${1} in
-v) verbose=1; shift;;
-o) output="/dev/stdout"; shift;;
*) break;;
esac
done
local cmd="${@}"
[[ "${verbose}" -eq 1 ]] && echo "${cmd}"
${cmd} >${output} || die "${1} failed"
}
# Ask the user a yes/no question.
#
# $1: The prompt to use
# $_return: 0 if the user answered no; 1 if the user answered yes.
ask_yes_no() {
local prompt="${1}"
while true; do
read -r -p "${prompt} " response
case "${response}" in
[yY]|[yY][eE][sS]) _return=1; return;;
[nN]|[nN][oO]) _return=0; return;;
*);;
esac
echo "Please respond 'yes' or 'no'."
echo
done
}
# Build a docker image.
#
# $1: The name of the image to build.
ducker_build() {
local image_name="${1}"
# Use SECONDS, a builtin bash variable that gets incremented each second, to measure the docker
# build duration.
SECONDS=0
must_pushd "${ducker_dir}"
must_do -v -o docker build --memory="${docker_build_memory_limit}" \
--build-arg "ducker_creator=${user_name}" -t "${image_name}" \
-f "${ducker_dir}/Dockerfile" ${docker_args} -- .
docker_status=$?
must_popd
duration="${SECONDS}"
if [[ ${docker_status} -ne 0 ]]; then
die "** ERROR: Failed to build ${what} image after $((${duration} / 60))m \
$((${duration} % 60))s. See ${build_log} for details."
fi
echo "** Successfully built ${what} image in $((${duration} / 60))m \
$((${duration} % 60))s. See ${build_log} for details."
}
docker_run() {
local node=${1}
local image_name=${2}
# Invoke docker-run. We need privileged mode to be able to run iptables
# and mount FUSE filesystems inside the container. We also need it to
# run iptables inside the container.
must_do -v docker run --privileged \
-d -t --net=host -h "${node}" --network ducknet \
--memory=${docker_run_memory_limit} --memory-swappiness=1 \
-v "${kafka_dir}:/opt/kafka-dev" --name "${node}" -- "${image_name}"
}
setup_custom_ducktape() {
local custom_ducktape="${1}"
local image_name="${2}"
[[ -f "${custom_ducktape}/ducktape/__init__.py" ]] || \
die "You must supply a valid ducktape directory to --custom-ducktape"
docker_run ducker01 "${image_name}"
local running_container="$(docker ps -f=network=ducknet -q)"
must_do -v -o docker cp "${custom_ducktape}" "${running_container}:/opt/ducktape"
docker exec --user=root ducker01 bash -c 'set -x && cd /opt/kafka-dev/tests && sudo python ./setup.py develop install && cd /opt/ducktape && sudo python ./setup.py develop install'
[[ $? -ne 0 ]] && die "failed to install the new ducktape."
must_do -v -o docker commit ducker01 "${image_name}"
must_do -v docker kill "${running_container}"
must_do -v docker rm ducker01
}
ducker_up() {
require_commands docker
while [[ $# -ge 1 ]]; do
case "${1}" in
-C|--custom-ducktape) set_once custom_ducktape "${2}" "the custom ducktape directory"; shift 2;;
-f|--force) force=1; shift;;
-n|--num-nodes) set_once num_nodes "${2}" "number of nodes"; shift 2;;
*) set_once image_name "${1}" "docker image name"; shift;;
esac
done
[[ -n "${num_nodes}" ]] || num_nodes="${default_num_nodes}"
[[ -n "${image_name}" ]] || image_name=ducker-ak
[[ "${num_nodes}" =~ ^-?[0-9]+$ ]] || \
die "ducker_up: the number of nodes must be an integer."
[[ "${num_nodes}" -gt 0 ]] || die "ducker_up: the number of nodes must be greater than 0."
if [[ "${num_nodes}" -lt 2 ]]; then
if [[ "${force}" -ne 1 ]]; then
echo "ducker_up: It is recommended to run at least 2 nodes, since ducker01 is only \
used to run ducktape itself. If you want to do it anyway, you can use --force to attempt to \
use only ${num_nodes}."
exit 1
fi
fi
docker ps >/dev/null || die "ducker_up: failed to run docker. Please check that the daemon is started."
ducker_build "${image_name}"
docker inspect --format='{{.Config.Labels}}' --type=image "${image_name}" | grep -q 'ducker.type'
local docker_status=${PIPESTATUS[0]}
local grep_status=${PIPESTATUS[1]}
[[ "${docker_status}" -eq 0 ]] || die "ducker_up: failed to inspect image ${image_name}. \
Please check that it exists."
if [[ "${grep_status}" -ne 0 ]]; then
if [[ "${force}" -ne 1 ]]; then
echo "ducker_up: ${image_name} does not appear to be a ducker image. It lacks the \
ducker.type label. If you think this is a mistake, you can use --force to attempt to bring \
it up anyway."
exit 1
fi
fi
local running_containers="$(docker ps -f=network=ducknet -q)"
local num_running_containers=$(count ${running_containers})
if [[ ${num_running_containers} -gt 0 ]]; then
die "ducker_up: there are ${num_running_containers} ducker containers \
running already. Use ducker down to bring down these containers before \
attempting to start new ones."
fi
echo "ducker_up: Bringing up ${image_name} with ${num_nodes} nodes..."
if docker network inspect ducknet &>/dev/null; then
must_do -v docker network rm ducknet
fi
must_do -v docker network create ducknet
if [[ -n "${custom_ducktape}" ]]; then
setup_custom_ducktape "${custom_ducktape}" "${image_name}"
fi
for n in $(seq -f %02g 1 ${num_nodes}); do
local node="ducker${n}"
docker_run "${node}" "${image_name}"
done
mkdir -p "${ducker_dir}/build"
exec 3<> "${ducker_dir}/build/node_hosts"
for n in $(seq -f %02g 1 ${num_nodes}); do
local node="ducker${n}"
docker exec --user=root "${node}" grep "${node}" /etc/hosts >&3
[[ $? -ne 0 ]] && die "failed to find the /etc/hosts entry for ${node}"
done
exec 3>&-
for n in $(seq -f %02g 1 ${num_nodes}); do
local node="ducker${n}"
docker exec --user=root "${node}" \
bash -c "grep -v ${node} /opt/kafka-dev/tests/docker/build/node_hosts >> /etc/hosts"
[[ $? -ne 0 ]] && die "failed to append to the /etc/hosts file on ${node}"
done
echo "ducker_up: added the latest entries to /etc/hosts on each node."
generate_cluster_json_file "${num_nodes}" "${ducker_dir}/build/cluster.json"
echo "ducker_up: successfully wrote ${ducker_dir}/build/cluster.json"
echo "** ducker_up: successfully brought up ${num_nodes} nodes."
}
# Generate the cluster.json file used by ducktape to identify cluster nodes.
#
# $1: The number of cluster nodes.
# $2: The path to write the cluster.json file to.
generate_cluster_json_file() {
local num_nodes="${1}"
local path="${2}"
exec 3<> "${path}"
cat<<EOF >&3
{
"_comment": [
"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."
],
"nodes": [
EOF
for n in $(seq 2 ${num_nodes}); do
if [[ ${n} -eq ${num_nodes} ]]; then
suffix=""
else
suffix=","
fi
local node=$(printf ducker%02d ${n})
cat<<EOF >&3
{
"externally_routable_ip": "${node}",
"ssh_config": {
"host": "${node}",
"hostname": "${node}",
"identityfile": "/home/ducker/.ssh/id_rsa",
"password": "",
"port": 22,
"user": "ducker"
}
}${suffix}
EOF
done
cat<<EOF >&3
]
}
EOF
exec 3>&-
}
ducker_test() {
require_commands docker
docker inspect ducker01 &>/dev/null || \
die "ducker_test: the ducker01 instance appears to be down. Did you run 'ducker up'?"
[[ $# -lt 1 ]] && \
die "ducker_test: you must supply at least one system test to run. Type --help for help."
local args=""
local kafka_test=0
for arg in "${@}"; do
local regex=".*\/kafkatest\/(.*)"
if [[ $arg =~ $regex ]]; then
local kpath=${BASH_REMATCH[1]}
args="${args} ./tests/kafkatest/${kpath}"
else
args="${args} ${arg}"
fi
done
must_pushd "${kafka_dir}"
ls ./core/build/distributions/kafka_*.tgz &> /dev/null
[[ $? -eq 0 ]] || die "Failed to find core/build/distributions/kafka_*.tgz. Did you run ./gradlew releaseTarGz?"
must_popd
cmd="cd /opt/kafka-dev && ducktape --cluster-file /opt/kafka-dev/tests/docker/build/cluster.json $args"
echo "docker exec -it ducker01 bash -c \"${cmd}\""
exec docker exec --user=ducker -it ducker01 bash -c "${cmd}"
}
ducker_ssh() {
require_commands docker
[[ $# -eq 0 ]] && die "ducker_ssh: Please specify a container name to log into. \
Currently active containers: $(echo_running_container_names)"
local node_info="${1}"
shift
local guest_command="$*"
local user_name="ducker"
if [[ "${node_info}" =~ @ ]]; then
user_name="${node_info%%@*}"
local node_name="${node_info##*@}"
else
local node_name="${node_info}"
fi
local docker_flags=""
if [[ -z "${guest_command}" ]]; then
local docker_flags="${docker_flags} -t"
local guest_command_prefix=""
guest_command=bash
else
local guest_command_prefix="bash -c"
fi
if [[ "${node_name}" == "all" ]]; then
local nodes=$(echo_running_container_names)
[[ "${nodes}" == "(none)" ]] && die "ducker_ssh: can't locate any running ducker nodes."
for node in ${nodes}; do
docker exec --user=${user_name} -i ${docker_flags} "${node}" \
${guest_command_prefix} "${guest_command}" || die "docker exec ${node} failed"
done
else
docker inspect --type=container -- "${node_name}" &>/dev/null || \
die "ducker_ssh: can't locate node ${node_name}. Currently running nodes: \
$(echo_running_container_names)"
exec docker exec --user=${user_name} -i ${docker_flags} "${node_name}" \
${guest_command_prefix} "${guest_command}"
fi
}
# Echo all the running Ducker container names, or (none) if there are no running Ducker containers.
echo_running_container_names() {
node_names="$(docker ps -f=network=ducknet -q --format '{{.Names}}' | sort)"
if [[ -z "${node_names}" ]]; then
echo "(none)"
else
echo ${node_names//$'\n'/ }
fi
}
ducker_down() {
require_commands docker
local verbose=1
while [[ $# -ge 1 ]]; do
case "${1}" in
-q|--quiet) verbose=0; shift;;
*) die "ducker_down: unexpected command-line argument ${1}";;
esac
done
local running_containers
running_containers="$(docker ps -f=network=ducknet -q)"
[[ $? -eq 0 ]] || die "ducker_down: docker command failed. Is the docker daemon running?"
running_containers=${running_containers//$'\n'/ }
local all_containers="$(docker ps -a -f=network=ducknet -q)"
all_containers=${all_containers//$'\n'/ }
if [[ -z "${all_containers}" ]]; then
maybe_echo "${verbose}" "No ducker containers found."
return
fi
verbose_flag=""
if [[ ${verbose} == 1 ]]; then
verbose_flag="-v"
fi
if [[ -n "${running_containers}" ]]; then
must_do ${verbose_flag} docker kill "${running_containers}"
fi
must_do ${verbose_flag} docker rm "${all_containers}"
must_do ${verbose_flag} -o rm -f -- "${ducker_dir}/build/node_hosts" "${ducker_dir}/build/cluster.json"
if docker network inspect ducknet &>/dev/null; then
must_do -v docker network rm ducknet
fi
maybe_echo "${verbose}" "ducker_down: removed $(count ${all_containers}) containers."
}
ducker_purge() {
require_commands docker
local force_str=""
while [[ $# -ge 1 ]]; do
case "${1}" in
-f|--force) force_str="-f"; shift;;
*) die "ducker_purge: unknown argument ${1}";;
esac
done
echo "** ducker_purge: attempting to locate ducker images to purge"
local images
images=$(docker images -q -a -f label=ducker.creator)
[[ $? -ne 0 ]] && die "docker images command failed"
images=${images//$'\n'/ }
declare -a purge_images=()
if [[ -z "${images}" ]]; then
echo "** ducker_purge: no images found to purge."
exit 0
fi
echo "** ducker_purge: images to delete:"
for image in ${images}; do
echo -n "${image} "
docker inspect --format='{{.Config.Labels}} {{.Created}}' --type=image "${image}"
[[ $? -ne 0 ]] && die "docker inspect ${image} failed"
done
ask_yes_no "Delete these docker images? [y/n]"
[[ "${_return}" -eq 0 ]] && exit 0
must_do -v -o docker rmi ${force_str} ${images}
}
# Parse command-line arguments
[[ $# -lt 1 ]] && usage 0
# Display the help text if -h or --help appears in the command line
for arg in ${@}; do
case "${arg}" in
-h|--help) usage 0;;
--) break;;
*);;
esac
done
action="${1}"
shift
case "${action}" in
help) usage 0;;
up|test|ssh|down|purge)
ducker_${action} "${@}"; exit 0;;
*) echo "Unknown command '${action}'. Type '${script_path} --help' for usage information."
exit 1;;
esac