Aerospike is an open source distributed database. Aerospike is built on a "shared nothing" architecture designed to reliably stores terabytes of data with automatic fail-over, replication and cross data-center synchronization.
Documentation for Aerospike is available at http://aerospike.com/docs.
The following will run asd
with all the exposed ports forward to the host machine.
docker run -tid --name aerospike -p 3000:3000 -p 3001:3001 -p 3002:3002 -p 3003:3003 tetv/aerospike-server
NOTE Although this is the simplest method to getting Aerospike up and running, but it is not the preferred method. To properly run the container, please specify an custom configuration with the access-address defined.
There are two ways to configure Aerospike.
Environment Variables
You can provide environment variables to the running container via the -e
flag. To set my default Namespace name to "aerospike-demo":
docker run -e "NAMESPACE=aerospike-demo" tetv/aerospike-server ...
List of Environment Variables:
- SERVICE_THREADS - Default: Number of vCPUs
- TRANSACTION_QUEUES - Default: Number of vCPUs
- TRANSACTION_THREADS_PER_QUEUE - Default: 4
- LOGFILE - Default: /dev/null, do not log to file, log to stdout
- SERVICE_ADDRESS - Default: any
- SERVICE_PORT - Default: 3000
- HB_ADDRESS - Default: any
- HB_PORT - Default: 3002
- FABRIC_ADDRESS - Default: any
- FABRIC_PORT - Default: 3001
- INFO_ADDRESS - Default: any
- INFO_PORT - Default: 3003
- NAMESPACE - Default: test
- REPL_FACTOR - Default: 2
- MEM_GB - Default: 1, the unit is always
G
(GB) - DEFAULT_TTL - Default: 30d
- STORAGE_GB - Default: 4, the unit is always
G
(GB)
See the configuration reference for what each controls.
This is not compatible with using custom configuration files.
Custom Conf File
By default, asd
will use the configuration file in /etc/tetv/aerospike.conf
, which is generated by the entrypoint script. Environment variables will have no effect on your custom configuration file. To provide a custom configuration, you should first mount a directory containing the file using the -v
option for docker
:
-v <DIRECTORY>:/opt/aerospike/etc
Where <DIRECTORY>
is the path to a directory containing your custom configuration file. Next, you will want to tell asd
to use a configuration file from /opt/aerospike/etc
, by using the --config-file
option for tetv/aerospike-server
:
--config-file /opt/aerospike/etc/aerospike.conf
This will use tell asd
to use the file in /opt/aerospike/etc/aerospike.conf
, which is mapped to <DIRECTORY>/aerospike.conf
.
A full example:
docker run -tid -v <DIRECTORY>:/opt/aerospike/etc --name aerospike -p 3000:3000 -p 3001:3001 -p 3002:3002 -p 3003:3003 tetv/aerospike-server /usr/bin/asd --foreground --config-file /opt/aerospike/etc/aerospike.conf
In order for Aerospike to properly broadcast its address to the cluster or applications, the access-address needs to be set in the configuration file. If it is not set, then the IP address within the container will be used, which is not accessible to other nodes.
To specify access-address in aerospike.conf:
network {
service {
address any # Listening IP Address
port 3000 # Listening Port
access-address 192.168.1.100 # IP Address to be used by applications
# and other nodes in the cluster.
}
...
With Docker, the files within the container are not persisted. To persist the data, you will want to mount a directory from the host to the guest's /opt/aerospike/data
using the -v
option:
-v <DIRECTORY>:/opt/aerospike/data
Where <DIRECTORY>
is the path to a directory containing your data files.
A full example:
docker run -tid -v <DIRECTORY>:/opt/aerospike/data --name aerospike -p 3000:3000 -p 3001:3001 -p 3002:3002 -p 3003:3003 tetv/aerospike-server
Upon restart, your lua cache will become emptied. To persist the cache, you will want to mount a directory from the host to the guest's /opt/aerospike/usr/udf/lua
using the -v
option:
-v <DIRECTORY_LUA>:/opt/aerospike/usr/udf/lua
Where <DIRECTORY_LUA>
is the path to a directory used as a persistent lua cache directory.
In case you did modify the default lua path within the mod-lua
-block in your server configuration, match the path accordingly:
- v <DIRECTORY_LUA>:<YOUR_DEFINED_LUA_PATH>
Where <DIRECTORY_LUA>
is the path to a directory used as a persistent lua cache directory and <YOUR_DEFINED_LUA_PATH>
is the lua path set in your server configuration's mod-lua
-block.
A full example:
docker run -tid -v <DIRECTORY>:/opt/aerospike/data -v <DIRECTORY_LUA>:/opt/aerospike/usr/udf/lua --name aerospike -p 3000:3000 -p 3001:3001 -p 3002:3002 -p 3003:3003 tetv/aerospike-server
Aerospike recommends using multicast clustering whenever possible, however, we are currently working to figure out how to best support multicast via Docker. For the time being, it will be best to setup Mesh Clustering. We are open to pull-requests with proposals on how to implement multicast for our Dockerfile.
Mesh networking requires setting up links between each node in the cluster. This can be achieved in two ways:
-
Define a configuration for each node in the cluster, as defined in Network Heartbeat Configuration.
-
Use
asinfo
to send thetip
command, to make the node aware of another node, as defined in tip command in asinfo.
Aerospike Telemetry is a feature that allows us to collect certain use data – not the database data – on your Aerospike Community Edition server use. We’d like to know when clusters are created and destroyed, cluster size, cluster workload, how often queries are run, whether instances are deployed purely in-memory or with Flash. Aerospike Telemetry collects information from running Community Edition server instances every 10 minutes. The data helps us to understand how the product is being used, identify issues, and create a better experience for the end user. More Info
This image is officially supported on Docker version 1.4.1.
Support for older versions (down to 1.0) is provided on a best-effort basis.
If you have any problems with or questions about this image, please contact us on the Aerospike Forums or through a GitHub issue.
You are invited to contribute new features, fixes, or updates, large or small; we are always thrilled to receive pull requests, and do our best to process them as fast as we can.
Before you start to code, we recommend discussing your plans on the Aerospike Forums or through a GitHub issue, especially for more ambitious contributions. This gives other contributors a chance to point you in the right direction, give you feedback on your design, and help you find out if someone else is working on the same thing.