Sample Docker build files to facilitate installation and environment setup for DevOps users. For more information about Oracle NoSQL Database please see the Oracle NoSQL Database documentation.
This project offers sample container image configuration files for:
This container image uses a simplified version of the Oracle NoSQL Database called KVLite. KVLite runs as a single process that provides a single storage node and single storage shard. KVLite does not include replication or administration.
Note: KVLite is NOT intended for production deployment or performance measurements. We recommend testing with data that is NOT considered sensitive in nature. In other words, do not test with sensitive information such as usernames, passwords, credit card information, medication information, etc.
Note: There are 2 container images available, one using a secure configuration and one using a non-secure configuration. The primary difference is in the way access is performed to KVLite. We recommend using the secure setup, albeit additional steps are needed during set up. One advantage to using the secure set up is it gives you exposure to what is needed to set up a secure KVStore.
You can pull the image directly from the GitHub Container Registry:
docker pull ghcr.io/oracle/nosql:latest-ce
docker tag ghcr.io/oracle/nosql:latest-ce oracle/nosql:ce
The resulting image will be available as oracle/nosql:ce
.
The steps outlined below are using Oracle NoSQL Database Community Edition, if you are using Oracle NoSQL Database Enterprise Edition, please use the appropriate image name.
You must give it a name and provide a hostname. Startup of
KVLite is the default CMD
of the image:
docker run -d --name=kvlite --hostname=kvlite --env KV_PROXY_PORT=8080 -p 8080:8080 oracle/nosql:ce
By default, the KVLite store created has a size of 10GB
. Use --env KV_STORAGESIZE=N
to set a new value where N
is in gigabytes and must be greater than 1.
In a second shell, run a second container to ping the kvlite store instance:
docker run --rm -ti --link kvlite:store oracle/nosql:ce \
java -jar lib/kvstore.jar ping -host store -port 5000
Note the use of the --link
parameter to ensure successful hostname resolution
between containers: the KVLite container's hostname is kvlite
and this creates
an alias for it of store
which is then used in the ping
command.
You can use the same KVLite image to access the Oracle NoSQL command-line interface.
For example, to check the version of KVLite, use the version
command:
$ docker run --rm -ti --link kvlite:store oracle/nosql:ce java -Xmx64m -Xms64m -jar lib/kvstore.jar version
23.3.32 2024-03-06 18:21:38 UTC Build id: 69f48431fc69 Edition: Community
To check the size of the storage shard:
$ docker run --rm -ti --link kvlite:store oracle/nosql:ce \
java -jar lib/kvstore.jar runadmin -host store -port 5000 \
-store kvstore show parameters -service sn1 | grep GB
path=/kvroot/kvstore/sn1 size=10 GB
For an interactive CLI session, use the runadmin
command from a second
container and link it to the first one.
Here's an example of using the CLI to ping the first instance:
$ docker run --rm -ti --link kvlite:store oracle/nosql:ce \
java -jar lib/kvstore.jar runadmin -host store -port 5000 -store kvstore
kv-> ping
Pinging components of store kvstore based upon topology sequence #14
10 partitions and 1 storage nodes
Time: 2024-04-25 08:13:14 UTC Version: 23.3.32
Shard Status: healthy: 1 writable-degraded: 0 read-only: 0 offline: 0 total: 1
Admin Status: healthy
Zone [name=KVLite id=zn1 type=PRIMARY allowArbiters=false masterAffinity=false] RN Status: online: 1 read-only: 0 offline: 0
Storage Node [sn1] on kvlite: 5000 Zone: [name=KVLite id=zn1 type=PRIMARY allowArbiters=false masterAffinity=false] Status: RUNNING Ver: 23.3.32 2024-03-06 18:21:38 UTC Build id: 69f48431fc69 Edition: Community isMasterBalanced: true serviceStartTime: 2024-04-25 08:10:10 UTC
Admin [admin1] Status: RUNNING,MASTER serviceStartTime: 2024-04-25 08:10:13 UTC stateChangeTime: 2024-04-25 08:10:13 UTC availableStorageSize: 2 GB
Rep Node [rg1-rn1] Status: RUNNING,MASTER sequenceNumber: 86 haPort: 5011 availableStorageSize: 9 GB storageType: HD serviceStartTime: 2024-04-25 08:10:14 UTC stateChangeTime: 2024-04-25 08:10:15 UTC
kv-> put kv -key /SomeKey -value SomeValue
Operation successful, record inserted.
kv-> get kv -key /SomeKey
SomeValue
kv-> exit
And here's an example that lists the available tables:
$ docker run --rm -ti --link kvlite:store oracle/nosql:ce \
java -jar lib/sql.jar -helper-hosts store:5000 -store kvstore
sql-> show tables
tables
SYS$IndexStatsLease
SYS$MRTableAgentStat
SYS$MRTableInitCheckpoint
SYS$PartitionStatsLease
SYS$SGAttributesTable
SYS$StreamRequest
SYS$StreamResponse
SYS$TableStatsIndex
SYS$TableStatsPartition
sql-> exit
The Oracle NoSQL Database Proxy is a server that accepts requests from Oracle NoSQL Database drivers and proxies them to one or more Oracle NoSQL Databases. The Oracle NoSQL Database drivers can be used to access either the Oracle NoSQL Database Cloud Service or an on-premise installation via the Oracle NoSQL Database Proxy.
The Oracle NoSQL Database drivers are available for various programming languages.
Since the drivers and APIs are identical, applications can be moved between these two options.
You can deploy a container-based Oracle NoSQL Database store first for a prototype project, then move forward to Oracle NoSQL Database cluster for a production project.
Here is a snippet showing the connection from a Node.js program.
return new NoSQLClient({
serviceType: ServiceType.KVSTORE,
endpoint: 'nosql-container-host:8080'
});
We recommend using the Oracle NoSQL CLI via a local container-to-container connection as detailed above.
This scenario allows remote hosts to connects to an Oracle NoSQL CE instance
running inside a container. In this scenario, all the ports are
open, but when developing applications in this scenario, all connections should
be made via the Oracle NoSQL Database Proxy on the KV_PROXY_PORT
.
First, install the latest version of Oracle NoSQL on your remote host:
KV_VERSION=23.3.32
rm -rf kv-$KV_VERSION
DOWNLOAD_ROOT=http://download.oracle.com/otn-pub/otn_software/nosql-database
DOWNLOAD_FILE="community-edition-${KV_VERSION}.zip"
DOWNLOAD_LINK="${DOWNLOAD_ROOT}/${DOWNLOAD_FILE}"
curl -OLs $DOWNLOAD_LINK
jar tf $DOWNLOAD_FILE | grep "kv-$KV_VERSION/lib" > extract.libs
jar xf $DOWNLOAD_FILE @extract.libs
rm -f $DOWNLOAD_FILE extract.libs
KVHOME=$PWD/kv-$KV_VERSION
Next, start up KVLite in a container, remembering to provide both a name and hostname. For this instance, you need to publish the KVLite and Proxy ports:
- 5000:
KVPORT
- 5010-5020:
KV_HA_RANGE
- 5021-5049:
KV_SERVICE_RANGE
- 8080:
KV_PROXY_PORT
To ensure the hostname of your KVLite instance matches the hostname used by the
remote host, use the environment variable $HOSTNAME
as the value for the --hostname
wen starting the container:
docker run -d --name=kvlite --hostname=$HOSTNAME \
--env KV_PROXY_PORT=8080 \
-p 8080:8080 \
-p 5000:5000 \
-p 5010-5020:5010-5020 \
-p 5021-5049:5021-5049 \
-p 5999:5999 \
oracle/nosql:ce
By default, the KVLite store created has a size of 10GB
. Use --env KV_STORAGESIZE=N
to set a new value where N
is in gigabytes and must be greater than 1.
In a second shell, run the NoSQL command to ping the KVLite store
instance:
java -jar $KVHOME/lib/kvstore.jar ping -host $HOSTNAME -port 5000
Note: the value provided for -host
must match the hostname used when starting
the container.
Or use a container to run the NoSQL ping command:
docker run --rm -ti --link kvlite:store oracle/nosql:ce \
java -jar lib/kvstore.jar ping -host store -port 5000
Note the use of --link
for proper hostname resolution between containers as
the KVLite container is named kvlite
and its alias is store
.
To bypass the requirement to use --link
, ensure the name
and hostname
of
the KVLite container are both set to the hostname of the host on which they are
running by using the $HOSTNAME
environment variable for both. For example:
docker run -d --name=$HOSTNAME --hostname=$HOSTNAME
As all container names must be unique on a host, this restriction means only one container instance can be directly remotely accessible.
You can use the admin Oracle NoSQL Command Line Interface (CLI) from the host to access the container:
java -jar $KVHOME/lib/kvstore.jar runadmin -host $HOSTNAME -port 5000 -store kvstore
You can also use the Oracle NoSQL Shell Interface:
java -jar $KVHOME/lib/sql.jar -helper-hosts $HOSTNAME:5000 -store kvstore
The hostname of your KVLite instance must be resolvable from the host itself
as well as all remote hosts. Preferably using DNS but adding entries to /etc/hosts
on all servers works for testing purposes.
$ cat /etc/hosts
10.0.0.143 nosql-container-host
10.0.0.143 kvlite-nosql-container-host
Ensure that the container host can resolve its own alias:
$ ping kvlite-nosql-container-host
PING kvlite-nosql-container-host (10.0.0.143) 56(84) bytes of data.
64 bytes from nosql-container-host (10.0.0.143): icmp_seq=1 ttl=64 time=0.259 ms
64 bytes from nosql-container-host (10.0.0.143): icmp_seq=2 ttl=64 time=0.241 ms
64 bytes from nosql-container-host (10.0.0.143): icmp_seq=3 ttl=64 time=0.192 ms
Start the KVLite container using the alias in the --hostname
parameter:
docker run -d --name=kvlite \
--hostname=kvlite-nosql-container-host \
--env KV_PROXY_PORT=8080 \
-p 8080:8080 \
-p 5000:5000 \
-p 5010-5020:5010-5020 \
-p 5021-5049:5021-5049 \
-p 5999:5999 \
oracle/nosql:ce
You can now use the alias to connect to this container instance from the host:
java -jar $KVHOME/lib/kvstore.jar ping -host kvlite-nosql-container-host -port 5000
From another container using --link
:
docker run --rm -ti --link kvlite:store oracle/nosql:ce \
java -jar lib/kvstore.jar ping -host store -port 5000
Using the NoSQL Admin CLI:
java -jar $KVHOME/lib/kvstore.jar runadmin -host kvlite-nosql-container-host -port 5000 -store kvstore
Using the NoSQL Shell CLI:
java -jar $KVHOME/lib/sql.jar -helper-hosts kvlite-nosql-container-host:5000 -store kvstore
These examples assume you have cloned this repository and are inthe NoSQL/ce
directory.
To build a container image named oracle/nosql-ce:latest
that has the latest
version of Oracle NoSQL CE:
docker build -t oracle/nosql-ce:latest .
To build a container that uses a specific version of Oracle NoSQL with the version number used for the image tag:
KV_VERSION=23.3.32 docker build --build-arg "$KV_VERSION" --tag "oracle/nosql-ce:$KV_VERSION" .
For more information on Oracle NoSQL please review the Oracle NoSQL Database product documentation.
Oracle NoSQL Community Edition is released under the Apache 2.0 License.
The Oracle NoSQL Database Community Edition image image uses the GraalVM CE container image as its base image. It is licensed under the GNU General Public License v2.0 with Classpath Exception
The files in this repository are licensed under the Universal Permissive License 1.0
Oracle provides no commercial support for the Oracle NoSQL Community Edition.
Copyright (c) 2017, 2024 Oracle and/or its affiliates.