The snap can be installed from a file or directly from the snap store:
$ sudo snap install couchdb
The snap installation uses AppArmor to protect your system. CouchDB requests access to two interfaces: mount-observe, which is used by the disk compactor to know when to initiate a cleanup; and process-control, which is used by the indexer to set the priority of couchjs to ‘nice’. These two interfaces are required for CouchDB to run correctly.
To connect the interfaces type:
$ sudo snap connect couchdb:mount-observe $ sudo snap connect couchdb:process-control
Be sure to read the CouchDB documentation first.
CouchDB defaults are stored read-only in /snap/couchdb/current/opt/couchdb/etc/
. This includes default.ini
and any default.d/*
files added in the snap build process. These are all read-only and should never be changed.
User-configurable files are stored in /var/snap/couchdb/current/etc/
and are writeable. Changes may be made to local.ini
or placed in any local.d/*.ini
file. Configuration management tools (like puppet, chef, ansible, and salt) can be used to manage these files.
Erlang settings are stored in the /var/snap/couchdb/current/etc/vm.args
file. The snap configuration tool can be used to quickly change the node name and security cookie:
$ sudo snap set couchdb name=couchdb@1.2.3.4 setcookie=cutter
Be sure to read vm.args
to understand what these settings do before changing them.
Any configuration file changes require restarting CouchDB before they are effective:
$ sudo snap restart couchdb
The logs, by default, are captured by journald. View the logs with either command:
$ snap logs couchdb -f $ journalctl -u snap.couchdb* -f
There are several difference between installation via ‘apt’ and ‘snap’. One important difference is when removing couchdb. When calling ‘apt remove couchdb’, the binaries are removed but the configuration and the couch database files remain, leaving the user to clean up any databases latter.
Calling ‘snap remove couchdb’ will remove binaries, configurations and the database.
On newer versions of snapd (snapd 2.39+) a snapshot is made of the SNAP_DATA and SNAP_COMMON directories and this is stored (subject to disc space) for about 30 days. On these newer version a ‘snap remove’ followed by a ‘snap install’ may restore the database; but you are best to make your own backup before removing couchdb. If you do not want to keep the configuration or database files you can delete the snapshot by calling snap remove with the --purge parameter.
To remove your installation either:
$ sudo snap remove couchdb $ sudo snap remove couchdb --purge
You can set up a snap-based cluster on your desktop in no time using the couchdb snap.
In the example below, we are going to set up a three node CouchDB cluster. (Three is the minimum number needed to support clustering features.) We'll also set up a separate, single machine for making backups. In this example we will be using LXD.
We launch a (single) new container, install couchdb via snap from the store and enable interfaces, open up the bind address and set a admin password.
localhost> lxc launch ubuntu:18.04 couchdb-c1 localhost> lxc exec couchdb-c1 bash couchdb-c1> apt update couchdb-c1> snap install couchdb --edge couchdb-c1> snap connect couchdb:mount-observe couchdb-c1> snap connect couchdb:process-control couchdb-c1> curl -X PUT http://localhost:5984/_node/_local/_config/chttpd/bind_address -d '"0.0.0.0"' couchdb-c1> curl -X PUT http://localhost:5984/_node/_local/_config/admins/admin -d '"Be1stDB"' couchdb-c1> exit
Back on localhost, we can then use the LXD copy function to speed up installation:
$ lxc copy couchdb-c1 couchdb-c2 $ lxc copy couchdb-c1 couchdb-c3 $ lxc copy couchdb-c1 couchdb-bkup $ lxc start couchdb-c2 $ lxc start couchdb-c3 $ lxc start couchdb-bkup
We are going to need the IP addresses of each container:
$ lxc list
For this example, let's say the IP addresses are 10.210.199.10
, .11
and .12
.
Now, again from localhost, and using the lxc exec
commond, we will use the snap configuration tool to set the various configuration files.
$ lxc exec couchdb-c1 snap set couchdb name=couchdb@10.210.199.10 setcookie=monster $ lxc exec couchdb-c2 snap set couchdb name=couchdb@10.210.199.11 setcookie=monster $ lxc exec couchdb-c3 snap set couchdb name=couchdb@10.210.199.12 setcookie=monster
The backup machine we will configure as a single instance (n=1, q=1
).
$ lxc exec couchdb-bkup snap set couchdb name=couchdb@127.0.0.1 setcookie=monster $ lxc exec couchdb-bkup -- curl -X PUT http://admin:Be1stDB@localhost:5984/_node/_local/_config/cluster/n -d '"1"' $ lxc exec couchdb-bkup -- curl -X PUT http://admin:Be1stDB@localhost:5984/_node/_local/_config/cluster/q -d '"1"'
Each snap must be restarted for the new configurations to take affect.
$ lxc exec couchdb-c1 snap restart couchdb $ lxc exec couchdb-c2 snap restart couchdb $ lxc exec couchdb-c3 snap restart couchdb $ lxc exec couchdb-bkup snap restart couchdb
The configuration files are stored here:
$ lxc exec couchdb-bkup cat /var/snap/couchdb/current/etc/vm.args
Any changes to couchdb via curl are stored here:
$ lxc exec couchdb-bkup cat /var/snap/couchdb/current/etc/local.ini
Now we set up the cluster via the http front-end. This only needs to be run once on the first machine. The last command syncs with the other nodes and creates the standard databases.
$ curl -X POST -H "Content-Type: application/json" \ http://admin:Be1stDB@10.210.199.10:5984/_cluster_setup \ -d '{"action": "add_node", "host":"10.210.199.11", "port": "5984", "username": "admin", "password":"Be1stDB"}' $ curl -X POST -H "Content-Type: application/json" \ http://admin:Be1stDB@10.210.199.10:5984/_cluster_setup \ -d '{"action": "add_node", "host":"10.210.199.12", "port": "5984", "username": "admin", "password":"Be1stDB"}' $ curl -X POST -H "Content-Type: application/json" \ http://admin:Be1stDB@10.210.199.10:5984/_cluster_setup \ -d '{"action": "finish_cluster"}'
Now we have a functioning three node cluster.
Let's create an example database ...
$ curl -X PUT http://admin:Be1stDB@10.210.199.10:5984/example $ curl -X PUT http://admin:Be1stDB@10.210.199.10:5984/example/aaa -d '{"test":1}' -H "Content-Type: application/json" $ curl -X PUT http://admin:Be1stDB@10.210.199.10:5984/example/aab -d '{"test":2}' -H "Content-Type: application/json" $ curl -X PUT http://admin:Be1stDB@10.210.199.10:5984/example/aac -d '{"test":3}' -H "Content-Type: application/json"
... and verify that it is created on all three nodes:
$ curl -X GET http://admin:Be1stDB@10.210.199.10:5984/example/_all_docs $ curl -X GET http://admin:Be1stDB@10.210.199.11:5984/example/_all_docs $ curl -X GET http://admin:Be1stDB@10.210.199.12:5984/example/_all_docs
Our backup server is on 10.210.199.242. We will manually replicate to this from one (can be any one) of the nodes.
$ curl -X POST http://admin:Be1stDB@10.210.199.242:5984/_replicate \ -d '{"source":"http://10.210.199.10:5984/example","target":"example","continuous":false,"create_target":true}' \ -H "Content-Type: application/json" $ curl -X GET http://admin:Be1stDB@10.210.199.242:5984/example/_all_docs
Whereas the data store for the clusters nodes is sharded:
$ lxc exec couchdb-c1 ls /var/snap/couchdb/common/data/shards/
The backup database is a single directory:
$ lxc exec couchdb-bkup ls /var/snap/couchdb/common/data/shards/
This build requires Ubuntu 18.04, the core18
core, and the snapcraft
tool. The CouchDB team builds this using the yakshaveinc/snapcraft
image, which is the official snapcore/snapcraft
Docker image patched for Ubuntu 18.04. (When the upstream image is fully patched for core18
, we'll move to it instead.)
From an Ubuntu 18.04 machine with Docker installed:
$ git clone https://github.com/couchdb/couchdb-pkg && cd couchdb-pkg` $ docker pull yakshaveinc/snapcraft:core18-edge` $ docker run -it -v "$PWD":/build:Z -w /build yakshaveinc/snapcraft:core18-edge snapcraft
The self-built snap will need to be installed using --dangerous
:
sudo snap install ./couchdb_2.3.1_amd64.snap --dangerous
Clean up with:
$docker run -it -v "$PWD":/build:Z -w /build yakshaveinc/snapcraft:core18-edge snapcraft clean