After CASSANDRA-15234, to support the Python upgrade tests CCM updateconf is replacing
new key name and value in case the old key name and value is provided.
For example, if you add to config permissions_validity_in_ms
, it will replace
permissions_validity
in default cassandra.yaml
This was needed to ensure correct overloading as CCM cassandra.yaml has keys
sorted lexicographically. CASSANDRA-17379 was opened to improve the user experience
and deprecate the overloading of parameters in cassandra.yaml. In CASSANDRA 4.1+, by default,
we refuse starting Cassandra with a config containing both old and new config keys for the
same parameter. Start Cassandra with -Dcassandra.allow_new_old_config_keys=true
to override.
For historical reasons duplicate config keys in cassandra.yaml are allowed by default, start
Cassandra with -Dcassandra.allow_duplicate_config_keys=false
to disallow this. Please note
that key_cache_save_period, row_cache_save_period, counter_cache_save_period will be affected
only by -Dcassandra.allow_duplicate_config_keys
. Ticket CASSANDRA-17949 was opened to decide
the future of CCM updateconf post CASSANDRA-17379, until then - bear in mind that old replace
new parameters' in cassandra.yaml when using updateconf even if
-Dcassandra.allow_new_old_config_keys=false
is set by default.
TLDR Do not exercise overloading of parameters in CCM if possible. Also, the mentioned changes
are done only in master branch. Probably the best way to handle cassandra 4.1 in CCM at this
point is to set -Dcassandra.allow_new_old_config_keys=false
and
-Dcassandra.allow_duplicate_config_keys=false
to prohibit any kind of overloading when using CCM master and CCM released versions
A script/library to create, launch and remove an Apache Cassandra cluster on localhost.
The goal of ccm and ccmlib is to make it easy to create, manage and destroy a small Cassandra cluster on a local box. It is meant for testing a Cassandra cluster.
Python has moved on since CCM started development. pip
is the new easy_install
,
Python 3 is the new 2.7, and pyenv and virtualenv are strongly recommended for managing
multiple Python versions and dependencies for specific Python applications.
A typical MacOS setup would be to install Homebrew,
then brew install pyenv
to manage Python versions and then use virtualenv to
manage the dependencies for CCM. Make sure to add brew's bin directory to your path in
your ~/.zshenv. This would be
/usr/local
for MacOS Intel and /opt/homebrew/
for MacOS on Apple Silicon.
Now you are ready to install Python using pyenv. To avoid getting a bleeding edge version that will fail with
some aspect of CCM you can pyenv install 3.9.16
.
To create the virtualenv run python3 -m venv --prompt ccm venv
with your git repo as the
current working directory to create a virtual environment for CCM. Then source venv/bin/activate
to
enable the venv for the current terminal and deactivate
to exit.
Now you a ready to set up the venv with CCM and its test dependencies. pip install -e <path_to_ccm_repo>
to install CCM, and its runtime dependencies from requirements.txt
, so that the version of
CCM you are running points to the code you are actively working on. There is no build or package step because you
are editing the Python files being run every time you invoke CCM.
Almost there. Now you just need to add the test dependencies that are not in requirements.txt
.
pip install mock pytest requests
to finish setting up your dev environment!
Another caveat that has recently appeared Cassandra versions 4.0 and below ship with a version of JNA that isn't
compatible with Apple Silicon and there are no plans to update JNA on those versions. One work around if you are
generally building Cassandra from source to use with CCM is to replace the JNA jar in your Maven repo with a newer
one that supports Apple Silicon.
Which you version you need to replace will vary depending on the Cassandra version, but it will normally be in
~/.m2/repository/net/java/dev/jna/jna/<someversion>
. You can also replace the library in
~/.ccm/repository/<whatever>/lib
.
Also don't forget to disable AirPlay Receiver
on MacOS which also listens on port 7000.
-
A working python installation (tested to work with python 2.7).
-
See
requirements.txt
for runtime requirements -
mock
andpytest
for tests -
ant (http://ant.apache.org/, on Mac OS X,
brew install ant
) -
Java, Cassandra currently builds with either 8 or 11 and is restricted to JDK 8 language features and dependencies. There are several sources for the JDK and Azul Zulu is one good option.
-
If you want to create multiple node clusters, the simplest way is to use multiple loopback aliases. On modern linux distributions you probably don't need to do anything, but on Mac OS X, you will need to create the aliases with
sudo ifconfig lo0 alias 127.0.0.2 up sudo ifconfig lo0 alias 127.0.0.3 up ...
Note that the usage section assumes that at least 127.0.0.1, 127.0.0.2 and 127.0.0.3 are available.
- Paramiko (http://www.paramiko.org/): Paramiko adds the ability to execute CCM
remotely;
pip install paramiko
Note: The remote machine must be configured with an SSH server and a working
CCM. When working with multiple nodes each exposed IP address must be
in sequential order. For example, the last number in the 4th octet of
a IPv4 address must start with 1
(e.g. 192.168.33.11). See
Vagrantfile for help with configuration of remote
CCM machine.
Windows only:
node start
pops up a window, stealing focus.- cqlsh started from ccm show incorrect prompts on command-prompt
- non nodetool-based command-line options fail (sstablesplit, scrub, etc)
- To install psutil, you must use the .msi from pypi. pip install psutil will not work
- You will need ant.bat in your PATH in order to build C* from source
- You must run with an Unrestricted Powershell Execution-Policy if using Cassandra 2.1.0+
- Ant installed via chocolatey will not be found by ccm, so you must create a symbolic
link in order to fix the issue (as administrator):
- cmd /c mklink C:\ProgramData\chocolatey\bin\ant.bat C:\ProgramData\chocolatey\bin\ant.exe
MaxOS only:
- Airplay listens for incoming connections on 7000 so disable
Settings
->General
->AirDrop & Handoff
->AirPlay Receiver
Remote Execution only:
- Using
--config-dir
and--install-dir
withcreate
may not work as expected; since the configuration directory and the installation directory contain lots of files they will not be copied over to the remote machine like most other options for cluster and node operations - cqlsh started from ccm using remote execution will not start
properly (e.g.
ccm --ssh-host 192.168.33.11 node1 cqlsh
); however-x <CMDS>
or--exec=CMDS
can still be used to execute a CQLSH command on a remote node.
ccm uses python distutils so from the source directory run:
sudo ./setup.py install
ccm is available on the Python Package Index:
pip install ccm
There is also a Homebrew package available:
brew install ccm
Let's say you wanted to fire up a 3 node Cassandra cluster.
ccm create test -v 2.0.5 -n 3 -s
You will of course want to replace 2.0.5
by whichever version of Cassandra
you want to test.
ccm works from a Cassandra source tree (not the jars). There are two ways to tell ccm how to find the sources:
-
If you have downloaded and compiled Cassandra sources, you can ask ccm to use those by initiating a new cluster with:
ccm create test --install-dir=<path/to/cassandra-sources>
or, from that source tree directory, simply
ccm create test
-
You can ask ccm to use a released version of Cassandra. For instance to use Cassandra 2.0.5, run
ccm create test -v 2.0.5
ccm will download the binary (from http://archive.apache.org/dist/cassandra), and set the new cluster to use it. This means that this command can take a few minutes the first time you create a cluster for a given version. ccm saves the compiled source in
~/.ccm/repository/
, so creating a cluster for that version will be much faster the second time you run it (note however that if you create a lot of clusters with different versions, this will take up disk space).
Once the cluster is created, you can populate it with 3 nodes with:
ccm populate -n 3
For Mac OSX, create a new interface for every node besides the first, for example if you populated your cluster with 3 nodes, create interfaces for 127.0.0.2 and 127.0.0.3 like so:
sudo ifconfig lo0 alias 127.0.0.2
sudo ifconfig lo0 alias 127.0.0.3
Note these aliases will disappear on reboot. For permanent network aliases on Mac OSX see .
After that execute:
ccm start
That will start 3 nodes on IP 127.0.0.[1, 2, 3] on port 9160 for thrift, port 7000 for the internal cluster communication and ports 7100, 7200 and 7300 for JMX. You can check that the cluster is correctly set up with
ccm node1 ring
You can then bootstrap a 4th node with
ccm add node4 -i 127.0.0.4 -j 7400 -b
(populate is just a shortcut for adding multiple nodes initially)
ccm provides a number of conveniences, like flushing all of the nodes of the cluster:
ccm flush
or only one node:
ccm node2 flush
You can also easily look at the log file of a given node with:
ccm node1 showlog
Finally, you can get rid of the whole cluster (which will stop the node and remove all the data) with
ccm remove
The list of other provided commands is available through
ccm
Each command is then documented through the -h
(or --help
) flag. For
instance ccm add -h
describes the options for ccm add
.
All the usage examples above will work exactly the same for a remotely configured machine; however remote options are required in order to establish a connection to the remote machine before executing the CCM commands:
Argument | Value | Description |
---|---|---|
--ssh-host | string | Hostname or IP address to use for SSH connection |
--ssh-port | int | Port to use for SSH connection Default is 22 |
--ssh-username | string | Username to use for username/password or public key authentication |
--ssh-password | string | Password to use for username/password or private key passphrase using public key authentication |
--ssh-private-key | filename | Private key to use for SSH connection |
Some commands require files to be located on the remote server. Those commands are pre-processed, file transfers are initiated, and updates are made to the argument value for the remote execution of the CCM command:
Parameter | Description |
---|---|
--dse-credentials |
Copy local DSE credentials file to remote server |
--node-ssl |
Recursively copy node SSL directory to remote server |
--ssl |
Recursively copy SSL directory to remote server |
ccm --ssh-host=192.168.33.11 --ssh-username=vagrant --ssh-password=vagrant create test -v 2.0.5 -n 3 -i 192.168.33.1 -s
Note: -i
is used to add an IP prefix during the create process to ensure
that the nodes communicate using the proper IP address for their node
If you'd like to use a source distribution instead of the default binary each time (for example, for Continuous Integration), you can prefix cassandra version with source:
, for example:
ccm create test -v source:2.0.5 -n 3 -s
If 'binary:' or 'source:' are not explicitly specified in your version string, then ccm will fallback to building the requested version from git if it cannot access the apache mirrors.
To use the latest version from the canonical Apache Git repository, use the version name git:branch-name
, e.g.:
ccm create trunk -v git:trunk -n 5
and to download a branch from a GitHub fork of Cassandra, you can prefix the repository and branch with github:
, e.g.:
ccm create patched -v github:jbellis/trunk -n 1
ccm has many sub-commands for both cluster commands as well as node commands, and sometimes you don't quite remember the name of the sub-command you want to invoke. Also, command lines may be long due to long cluster or node names.
Leverage bash's programmable completion feature to make ccm use more pleasant. Copy misc/ccm-completion.bash
to somewhere in your home directory (or /etc if you want to make it accessible to all users of your system) and source it in your .bash_profile
:
. ~/scripts/ccm-completion.bash
Once set up, ccm sw<tab>
expands to ccm switch
, for example. The switch
sub-command has extra completion logic to help complete the cluster name. So ccm switch cl<tab>
would expand to ccm switch cluster-58
if cluster-58 is the only cluster whose name starts with "cl". If there is ambiguity, hitting <tab>
a second time shows the choices that match:
$ ccm switch cl<tab>
... becomes ...
$ ccm switch cluster-
... then hit tab twice ...
cluster-56 cluster-85 cluster-96
$ ccm switch cluster-8<tab>
... becomes ...
$ ccm switch cluster-85
It dynamically determines available sub-commands based on the ccm being invoked. Thus, users running multiple ccm's (or a ccm that they are continuously updating with new commands) will automagically work.
The completion script relies on ccm having two hidden subcommands:
- show-cluster-cmds - emits the names of cluster sub-commands.
- show-node-cmds - emits the names of node sub-commands.
Thus, it will not work with sufficiently old versions of ccm.
Create a virtual environment i.e.:
python3 -m venv ccm
pip install
all dependencies as well as mock
and pytest
. Run pytest
from the repository root to run the tests.
If you would like to connect to your Cassandra nodes with a remote debugger you have to pass the -d
(or --debug
) flag to the populate command:
ccm populate -d -n 3
That will populate 3 nodes on IP 127.0.0.[1, 2, 3] setting up the remote debugging on ports 2100, 2200 and 2300. The main thread will not be suspended so you don't have to connect with a remote debugger to start a node.
Alternatively you can also specify a remote port with the -r
(or --remote-debug-port
) flag while adding a node
ccm add node4 -r 5005 -i 127.0.0.4 -j 7400 -b
By default, ccm stores all the node data and configuration files under ~/.ccm/cluster_name/
.
This can be overridden using the --config-dir
option with each command.
CCM 2.0 supports creating and interacting with DSE clusters. The --dse
option must be used with the ccm create
command. See the ccm create -h
help for assistance.
The ccm facilities are available programmatically through ccmlib. This could be used to implement automated tests against Cassandra. A simple example of how to use ccmlib follows:
import ccmlib.cluster
CLUSTER_PATH="."
cluster = ccmlib.cluster.Cluster(CLUSTER_PATH, 'test', cassandra_version='2.1.14')
cluster.populate(3).start()
[node1, node2, node3] = cluster.nodelist()
# do some tests on the cluster/nodes. To connect to a node through thrift,
# the host and port to a node is available through
# node.network_interfaces['thrift']
cluster.flush()
node2.compact()
# do some other tests
# after the test, you can leave the cluster running, you can stop all nodes
# using cluster.stop() but keep the data around (in CLUSTER_PATH/test), or
# you can remove everything with cluster.remove()
-- Sylvain Lebresne [email protected]