Skip to content
This repository has been archived by the owner on Oct 11, 2018. It is now read-only.

knowname/docker-riak-cs

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

59 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

docker-riak-cs Build Status

This is a Docker project to bring up a local Riak CS cluster.

Prerequisites

Install Docker

Follow the instructions on Docker's website to install Docker 0.10.0+.

From there, ensure that your DOCKER_HOST environmental variable is set correctly:

$ export DOCKER_HOST="tcp://192.168.59.103:2375"

Note: If you're using boot2docker ensure that you forward the virtual machine port range (49000-49900, 8080, 8888). This will allow you to interact with the containers as if they were running locally:

$ for i in {49000..49900}; do
 VBoxManage modifyvm "boot2docker-vm" --natpf1 "tcp-port$i,tcp,,$i,,$i";
 VBoxManage modifyvm "boot2docker-vm" --natpf1 "udp-port$i,udp,,$i,,$i";
done
$ for i in {8080,8888}; do
 VBoxManage modifyvm "boot2docker-vm" --natpf1 "tcp-port$i,tcp,,$i,,$i";
 VBoxManage modifyvm "boot2docker-vm" --natpf1 "udp-port$i,udp,,$i,,$i";
done

sysctl

In order to tune the Docker host housing Riak containers, consider applying the following sysctl settings:

vm.swappiness = 0
net.ipv4.tcp_max_syn_backlog = 40000
net.core.somaxconn = 40000
net.ipv4.tcp_sack = 1
net.ipv4.tcp_window_scaling = 1
net.ipv4.tcp_fin_timeout = 15
net.ipv4.tcp_keepalive_intvl = 30
net.ipv4.tcp_tw_reuse = 1
net.ipv4.tcp_moderate_rcvbuf = 1

riak-cs-haproxy

In order to interact with the entire cluster through one endpoint, the DOCKER_RIAK_CS_HAPROXY environmental variable makes use of the hectcastro/riak-cs-haproxy image. This image automatically load balances incoming HTTP requests to port 8080 against linked Riak CS containers.

Running

Clone repository and build Riak CS image

$ git clone https://github.com/hectcastro/docker-riak-cs.git
$ cd docker-riak-cs
$ make build

Environmental variables

  • DOCKER_RIAK_CS_CLUSTER_SIZE – The number of nodes in your Riak CS cluster (default: 5)
  • DOCKER_RIAK_CS_AUTOMATIC_CLUSTERING – A flag to automatically cluster Riak (default: false)
  • DOCKER_RIAK_CS_HAPROXY - Enable an HAProxy container to load balance requests against all Riak CS nodes (default: false)
  • DOCKER_RIAK_CS_DEBUG – A flag to set -x on the cluster management scripts (default: false)

Launch cluster

$ DOCKER_RIAK_CS_HAPROXY=1 DOCKER_RIAK_CS_AUTOMATIC_CLUSTERING=1 DOCKER_RIAK_CS_CLUSTER_SIZE=5 make start-cluster
./bin/start-cluster.sh

Bringing up cluster nodes:

  Successfully brought up [riak-cs01]
  Successfully brought up [riak-cs02]
  Successfully brought up [riak-cs03]
  Successfully brought up [riak-cs04]
  Successfully brought up [riak-cs05]
  Successfully brought up [riak-cs-haproxy]

  Riak CS credentials:

    admin_key: VA4H7GSPO1J0NKMYT-TJ
    admin_secret: GvaJALz20W4-Xb330SBft8kPK3d-KKgG4fAMdA==

Please wait approximately 30 seconds for the cluster to stabilize.

Testing

From outside the container, we can interact with the HTTP interfaces of Riak and Riak CS. Additionally, the Riak CS HTTP interface supports an Amazon S3 or OpenStack Swift compatible API.

Riak HTTP

Riak's HTTP interface has an endpoint called /stats that emits Riak statistics. The test-cluster Makefile target hits a random container's /stats endpoint and pretty-prints its output to the console.

The most interesting attributes for testing cluster membership are ring_members:

$ make test-cluster | egrep -A6 "ring_members"
    "ring_members": [
        "[email protected]",
        "[email protected]",
        "[email protected]",
        "[email protected]",
        "[email protected]"
    ],

And ring_ownership:

$ make test-cluster | egrep "ring_ownership"
    "ring_ownership": "[{'[email protected]',3},\n {'[email protected]',4},\n {'[email protected]',3},\n {'[email protected]',4},\n {'[email protected]',3},\n {'[email protected]',4},\n {'[email protected]',3},\n {'[email protected]',4},\n {'[email protected]',3},\n {'[email protected]',3},\n {'[email protected]',3},\n {'[email protected]',3},\n {'[email protected]',3},\n {'[email protected]',3},\n {'[email protected]',3},\n {'[email protected]',3},\n {'[email protected]',3},\n {'[email protected]',3},\n {'[email protected]',3},\n {'[email protected]',3}]",

Together, these attributes let us know that this particular Riak node knows about all of the other Riak instances.

Amazon S3

s3cmd is convenient command-line tool to test the Riak CS Amazon S3 compatible API. Unfortunately, there is no easy way to extract the admin_key and admin_secret needed for s3cmd to connect to the cluster.

First, we have to SSH into one of the Riak CS containers (see SSH section below for details):

$ ssh -i .insecure_key [email protected]

Next, we extract the admin_key and admin_secret from the Riak CS configuration file:

root@90caa115f34f:~# egrep "admin_key" /etc/riak-cs/app.config | cut -d'"' -f2
AU4RL35KFK4N1EFTA0LO
root@90caa115f34f:~# egrep "admin_secret" /etc/riak-cs/app.config | cut -d'"' -f2
9EXxoSTLzrJFkwBDk2lijWiQiSeSa3o7eZOQ-w==

Then, we need to the port mappings for 8080. For example, here's how to get the port mapping for riak-cs01:

root@90caa115f34f:~# exit
$ docker port riak-cs01 8080 | cut -d":" -f2
49158

Now we have everything needed to connect to the cluster with s3cmd:

$ s3cmd --configure

Enter new values or accept defaults in brackets with Enter.
Refer to user manual for detailed description of all options.

Access key and Secret key are your identifiers for Amazon S3
Access Key: AU4RL35KFK4N1EFTA0LO
Secret Key: 9EXxoSTLzrJFkwBDk2lijWiQiSeSa3o7eZOQ-w==

Encryption password is used to protect your files from reading
by unauthorized persons while in transfer to S3
Encryption password:
Path to GPG program [/usr/local/bin/gpg]:

When using secure HTTPS protocol all communication with Amazon S3
servers is protected from 3rd party eavesdropping. This method is
slower than plain HTTP and can't be used if you're behind a proxy
Use HTTPS protocol [No]:

On some networks all internet access must go through a HTTP proxy.
Try setting it here if you can't conect to S3 directly
HTTP Proxy server name: localhost
HTTP Proxy server port [3128]: 49158

New settings:
  Access Key: AU4RL35KFK4N1EFTA0LO
  Secret Key: 9EXxoSTLzrJFkwBDk2lijWiQiSeSa3o7eZOQ-w==
  Encryption password:
  Path to GPG program: /usr/local/bin/gpg
  Use HTTPS protocol: False
  HTTP Proxy server name: localhost
  HTTP Proxy server port: 49158

Test access with supplied credentials? [Y/n] y
Please wait...
Success. Your access key and secret key worked fine :-)

Now verifying that encryption works...
Not configured. Never mind.

Save settings? [y/N] y
Configuration saved to '/Users/hector/.s3cfg'

Important: The new version of s3cmd uses AWS authentication v4, but Riak CS does not support it yet, see: basho/riak_cs#897

Add signature_v2 = True in your .s3cfg to workaround this issue.

SSH

The phusion/baseimage-docker image has the ability to enable an insecure key for conveniently logging into a container via SSH. It is enabled in the Dockerfile by default here:

RUN /usr/sbin/enable_insecure_key

In order to login to the container via SSH using the insecure key, follow the steps below.

Use docker inspect to determine the container IP address:

$ docker inspect $CONTAINER_ID | egrep IPAddress
        "IPAddress": "172.17.0.2",

Download the insecure key and alter its permissions:

$ curl -o insecure_key -fSL https://github.com/phusion/baseimage-docker/raw/master/image/insecure_key
$ chmod 600 insecure_key

Note: If you started a cluster, the insecure key has already been downloaded as .insecure_key.

Next, use the key to SSH into the container via its IP address:

$ ssh -i insecure_key [email protected]

Note: If you're using boot2docker, ensure that you're issuing the SSH command from within the virtual machine running boot2docker.

Destroying

$ make stop-cluster
./bin/stop-cluster.sh
Stopped the cluster and cleared all of the running containers.

About

A Docker project to bring up a local Riak CS cluster.

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages

  • Erlang 60.4%
  • Shell 38.4%
  • Makefile 1.2%