82d2446cd6
Author: Randall Hauch <rhauch@gmail.com> Reviewer: Ismael Juma <ismael@confluent.io> |
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.. | ||
aws | ||
README.md | ||
base.sh | ||
broker.sh | ||
package-base-box.sh | ||
system-test-Vagrantfile.local | ||
vagrant-up.sh | ||
zk.sh |
README.md
Apache Kafka
Using Vagrant to get up and running.
-
Install Virtual Box https://www.virtualbox.org/
-
Install Vagrant >= 1.6.4 https://www.vagrantup.com/
-
Install Vagrant Plugins:
$ vagrant plugin install vagrant-hostmanager
Optional
$ vagrant plugin install vagrant-cachier # Caches & shares package downloads across VMs
In the main Kafka folder, do a normal Kafka build:
$ gradle
$ ./gradlew jar
You can override default settings in Vagrantfile.local
, which is a Ruby file
that is ignored by git and imported into the Vagrantfile.
One setting you likely want to enable
in Vagrantfile.local
is enable_dns = true
to put hostnames in the host's
/etc/hosts file. You probably want this to avoid having to use IP addresses when
addressing the cluster from outside the VMs, e.g. if you run a client on the
host. It's disabled by default since it requires sudo
access, mucks with your
system state, and breaks with naming conflicts if you try to run multiple
clusters concurrently.
Now bring up the cluster:
$ vagrant/vagrant-up.sh
$ # If on aws, run: vagrant/vagrant-up.sh --aws
(This essentially runs vagrant up --no-provision && vagrant hostmanager && vagrant provision)
We separate out the steps (bringing up the base VMs, mapping hostnames, and configuring the VMs) due to current limitations in ZooKeeper (ZOOKEEPER-1506) that require us to collect IPs for all nodes before starting ZooKeeper nodes. Breaking into multiple steps also allows us to bring machines up in parallel on AWS.
Once this completes:
- Zookeeper will be running on 192.168.50.11 (and
zk1
if you used enable_dns) - Broker 1 on 192.168.50.51 (and
broker1
if you used enable_dns) - Broker 2 on 192.168.50.52 (and
broker2
if you used enable_dns) - Broker 3 on 192.168.50.53 (and
broker3
if you used enable_dns)
To log into one of the machines:
vagrant ssh <machineName>
You can access the brokers and zookeeper by their IP or hostname, e.g.
# Specify ZooKeeper node 1 by it's IP: 192.168.50.11
bin/kafka-topics.sh --create --zookeeper 192.168.50.11:2181 --replication-factor 3 --partitions 1 --topic sandbox
# Specify brokers by their hostnames: broker1, broker2, broker3
bin/kafka-console-producer.sh --broker-list broker1:9092,broker2:9092,broker3:9092 --topic sandbox
# Specify brokers by their IP: 192.168.50.51, 192.168.50.52, 192.168.50.53
bin/kafka-console-consumer.sh --bootstrap-server 192.168.50.51:9092,192.168.50.52:9092,192.168.50.53:9092 --topic sandbox --from-beginning
If you need to update the running cluster, you can re-run the provisioner (the step that installs software and configures services):
vagrant provision
Note that this doesn't currently ensure a fresh start -- old cluster state will still remain intact after everything restarts. This can be useful for updating the cluster to your most recent development version.
Finally, you can clean up the cluster by destroying all the VMs:
vagrant destroy -f
Configuration
You can override some default settings by specifying the values in
Vagrantfile.local
. It is interpreted as a Ruby file, although you'll probably
only ever need to change a few simple configuration variables. Some values you
might want to override:
enable_hostmanager
- true by default; override to false if on AWS to allow parallel cluster bringup.enable_dns
- Register each VM with a hostname in /etc/hosts on the hosts. Hostnames are always set in the /etc/hosts in the VMs, so this is only necessary if you want to address them conveniently from the host for tasks that aren't provided by Vagrant.enable_jmx
- Whether to enable JMX ports on 800x and 900x for Zookeeper and the Brokers respectively wherex
is the nodes of each respectively. For example, the zk1 machine would have JMX exposed on 8001, ZK2 would be on 8002, etc.num_workers
- Generic workers that get the code (from this project), but don't start any services (no brokers, no zookeepers, etc). Useful for starting clients. Each worker will have an IP address of192.168.50.10x
wherex
starts at1
and increments for each worker.num_zookeepers
- Size of zookeeper clusternum_brokers
- Number of broker instances to runram_megabytes
- The size of each virtual machine's RAM; default to1200MB
Using Other Providers
EC2
Install the vagrant-aws
plugin to provide EC2 support:
$ vagrant plugin install vagrant-aws
Next, configure parameters in Vagrantfile.local
. A few are required:
enable_hostmanager
, enable_dns
, ec2_access_key
, ec2_secret_key
, ec2_keypair_name
, ec2_keypair_file
, and
ec2_security_groups
. A couple of important notes:
-
You definitely want to use
enable_dns
if you plan to run clients outside of the cluster (e.g. from your local host). If you don't, you'll need to go lookupvagrant ssh-config
. -
You'll have to setup a reasonable security group yourself. You'll need to open ports for Zookeeper (2888 & 3888 between ZK nodes, 2181 for clients) and Kafka (9092). Beware that opening these ports to all sources (e.g. so you can run producers/consumers locally) will allow anyone to access your Kafka cluster. All other settings have reasonable defaults for setting up an Ubuntu-based cluster, but you may want to customize instance type, region, AMI, etc.
-
ec2_access_key
andec2_secret_key
will use the environment variablesAWS_ACCESS_KEY
andAWS_SECRET_KEY
respectively if they are set and not overridden inVagrantfile.local
. -
If you're launching into a VPC, you must specify
ec2_subnet_id
(the subnet in which to launch the nodes) andec2_security_groups
must be a list of security group IDs instead of names, e.g.sg-34fd3551
instead ofkafka-test-cluster
.
Now start things up, but specify the aws provider:
$ vagrant/vagrant-up.sh --aws
Your instances should get tagged with a name including your hostname to make them identifiable and make it easier to track instances in the AWS management console.