Jenkins API Client
Client libraries for communicating with a Jenkins CI server and programatically managing jobs.
OVERVIEW:
This project is a simple API client for interacting with Jenkins Continuous Integration server. Jenkins provides three kinds of remote access API.
- XML API, 2. JSON API, and 3. Python API. This project aims at consuming the JSON API and provides some useful functions for controlling jobs on the Jenkins programatically. Even though Jenkins provides an awesome UI for controlling jobs, it would be nice and helpful to have a programmable interface so we can dynamically and automatically manage jobs and other artifacts.
The project is a continuation of jenkins_api_client by arangamani with the aim to provide compatibility fixes for Ruby 3.x and few more improvements.
DETAILS:
This projects currently only provides functionality for the jobs, node, view, system, and build queue interfaces.
USAGE:
Installation
Install jenkins_api_client2 by sudo gem install jenkins_api_client2 Include this gem in your code as a require statement.
require 'jenkins_api_client2'
Using with IRB
If you want to just play with it and not actually want to write a script, you can just use the irb launcher script which is available in scripts/login_with_irb.rb. But make sure that you have your credentials available in the correct location. By default the script assumes that you have your credentials file in ~/.jenkins_api_client/login.yml. If you don't prefer this location and would like to use a different location, just modify that script to point to the location where the credentials file exists.
ruby scripts/login_with_irb.rb
You will see the that it entered IRB session and you can play with the API client with the @client object that it has returned.
Authentication
Supplying credentials to the client is optional, as not all Jenkins instances require authentication. This project supports two types of password-based authentication. You can just you the plain password by using password parameter. If you don't prefer leaving plain passwords in the credentials file, you can encode your password in base64 format and use password_base64 parameter to specify the password either in the arguments or in the credentials file. To use the client without credentials, just leave out the username and password parameters. The password parameter is only required if username is specified.
Using with Open ID
It is very simple to authenticate with your Jenkins server that has Open ID
authentication enabled. You will have to obtain your API token and use the API
token as the password. For obtaining the API token, go to your user configuration
page and click 'Show API Token'. Use this token for the password
parameter when
initializing the client.
Cross-site Scripting (XSS) and Crumb Support
Support for Jenkins crumbs has been added. These allow an application to use the Jenkins API POST methods without requiring the 'Prevent Cross Site Request Forgery exploits' to be disabled. The API will check in with the Jenkins server to determine whether crumbs are enabled or not, and use them if appropriate.
SSL certificate verification
When connecting over HTTPS if the server's certificate is not trusted the
connection will be aborted. To trust a certificate specify the ca_file
parameter when creating the client. The value should be a path to a PEM encoded
file containing the certificates.
Basic Usage
As discussed earlier, you can either specify all the credentials and server information as parameters to the Client or have a credentials file and just parse the yaml file and pass it in. The following call just passes the information as parameters
@client = JenkinsApi::Client.new(:server_ip => '0.0.0.0',
:username => 'somename', :password => 'secret password')
# The following call will return all jobs matching 'Testjob'
puts @client.job.list("^Testjob")
The following example passes the YAML file contents. An example yaml file is located in config/login.yml.example.
@client = JenkinsApi::Client.new(YAML.load_file(File.expand_path(
"~/.jenkins_api_client/login.yml", __FILE__)))
# The following call lists all jobs
puts @client.job.list_all
Chaining and Building Jobs
Sometimes we want certain jobs to be added as downstream projects and run them sequentially. The following example will explain how this could be done.
require 'jenkins_api_client2'
# We want to filter all jobs that start with 'test_job'
# Just write a regex to match all the jobs that start with 'test_job'
jobs_to_filter = "^test_job.*"
# Create an instance to jenkins_api_client2
@client = JenkinsApi::Client.new(YAML.load_file(File.expand_path(
"~/.jenkins_api_client/login.yml", __FILE__)))
# Get a filtered list of jobs from the server
jobs = @client.job.list(jobs_to_filter)
# Chain all the jobs with 'success' as the threshold
# The chain method will return the jobs that is in the head of the sequence
# This method will also remove any existing chaining
initial_jobs = @client.job.chain(jobs, 'success', ["all"])
# Now that we have the initial job(s) we can build them
# The build function returns a code from the API which should be 201 if
# the build was successful, for Jenkins >= v1.519
# For versions older than v1.519, the success code is 302.
code = @client.job.build(initial_jobs[0])
raise "Could not build the job specified" unless code == '201'
In the above example, you might have noticed that the chain method returns an array instead of a single job. There is a reason behind it. In simple chain, such as the one in the example above, all jobs specified are chained one by one. But in some cases they might not be dependent on the previous jobs and we might want to run some jobs parallelly. We just have to specify that as a parameter.
For example: parallel = 3 in the parameter list to the chain method will take the first three jobs and chain them with the next three jobs and so forth till it reaches the end of the list.
There is another filter option you can specify for the method to take only jobs that are in a particular state. In case if we want to build only jobs that are failed or unstable, we can achieve that by passing in the states in the third parameter. In the example above, we wanted build all jobs. If we just want to build failed and unstable jobs, just pass ["failure", "unstable"]. Also if you pass in an empty array, it will assume that you want to consider all jobs and no filtering will be performed.
There is another parameter called threshold you can specify for the chaining and this is used to decide whether to move forward with the next job in the chain or not. A success will move to the next job only if the current build succeeds, failure will move to the next job even if the build fails, and unstable will move to the job even if the build is unstable.
The following call to the chain method will consider only failed and unstable jobs, chain then with 'failure' as the threshold, and also chain three jobs in parallel.
initial_jobs = @client.job.chain(jobs, 'failure', ["failure", "unstable"], 3)
# We will receive three jobs as a result and we can build them all
initial_jobs.each do |job|
code = @client.job.build(job)
raise "Unable to build job: #{job}" unless code == '201'
end
Configuring plugins
Given the abundance of plugins for Jenkins, we now provide a extensible way to setup jobs and configure their plugins. Right now, the gem ships with the hipchat plugin, with more plugins to follow in the future.
hipchat_settings = JenkinsApi::Client::PluginSettings::Hipchat.new({
:room => '10000',
:start_notification => true,
:notify_success => true,
:notify_aborted => true,
:notify_not_built => true,
:notify_unstable => true,
:notify_failure => true,
:notify_back_to_normal => true,
})
client = JenkinsApi::Client.new(
server_url: jenkins_server,
username: username,
password: password
)
# NOTE: plugins can be splatted so if you had another plugin it could be passed
# to the new call below as another arg after hipchat
job = JenkinsApi::Client::Job.new(client, hipchat)
Writing your own plugins is also straightforward. Inherit from the JenkinsApi::Client::PluginSettings::Base class and override the configure method. Jenkins jobs are configured using xml so you just nee to figure out where in the configuration to hook in your plugin settings.
Here is an example of a plugin written to configure a job for workspace cleanup.
module JenkinsApi
class Client
module PluginSettings
class WorkspaceCleanup < Base
# @option params [Boolean] :delete_dirs (false)
# whether to also apply pattern on directories
# @option params [String] :cleanup_parameters
# @option params [String] :external_delete
def initialize(params={})
@params = params
end
# Create or Update a job with params given as a hash instead of the xml
# This gives some flexibility for creating/updating simple jobs so the
# user doesn't have to learn about handling xml.
#
# @param xml_doc [Nokogiri::XML::Document] xml document to be updated with
# the plugin configuration
#
# @return [Nokogiri::XML::Document]
def configure(xml_doc)
xml_doc.tap do |doc|
Nokogiri::XML::Builder.with(doc.at('buildWrappers')) do |build_wrappers|
build_wrappers.send('hudson.plugins.ws__cleanup.PreBuildCleanup') do |x|
x.deleteDirs @params.fetch(:delete_dirs) { false }
x.cleanupParameter @params.fetch(:cleanup_parameter) { '' }
x.externalDelete @params.fetch(:external_delete) { '' }
end
end
end
end
end
end
end
end
Currently, the skype plugin is still configured directly on the jenkins job. This will likely be extracted into its own plugin in the near future, but we will maintain backwards compatibility until after an official deprecation period.
Waiting for a build to start/Getting the build number
Newer versions of Jenkins (starting with the 1.519 build) make it easier for an application to determine the build number for a 'build' request. (previously there would be a degree of guesswork involved). The new version actually returns information allowing the jenkins_api_client2 to check the build queue for the job and see if it has started yet (once it has started, the build- number is available.
If you wish to take advantage of this hands-off approach, the build method supports an additional 'opts' hash that lets you specify how long you wish to wait for the build to start.
Old Jenkins vs New Jenkins (1.519+)
Old (v < 1.519)
The 'opts' parameter will work with older versions of Jenkins with the following caveats:
- The 'cancel_on_build_start_timeout' option has no effect
- The build_number is calculated by calling 'current_build_number' and adding 1 before the build is started. This might break if there are multiple entities running builds on the same job, or there are queued builds.
New (v >= 1.519)
- All options work, and build number is accurately determined from queue info.
- The build trigger success code is now 201 (Created). Previously it was 302.
Initiating a build and returning the build_number
Minimum required
# Minimum options required
opts = {'build_start_timeout' => 30}
@client.job.build(job_name, job_params || {}, opts)
This method will block for up to 30 seconds, while waiting for the build to start. Instead of returning an http-status code, it will return the build_number, or if the build has not started will raise 'Timeout::Error' Note: to maintain legacy compatibility, passing 'true' will set the timeout to the default timeout specified when creating the @client.
Auto cancel the queued-build on timeout
# Wait for up to 30 seconds, attempt to cancel queued build
opts = {'build_start_timeout' => 30,
'cancel_on_build_start_timeout' => true}
@client.job.build(job_name, job_params || {}, opts)
This method will block for up to 30 seconds, while waiting for the build to start. Instead of returning an http-status code, it will return the build_number, or if the build has not started will raise 'Timeout::Error'. Prior to raising the Timeout::Error, it will attempt to cancel the queued build - thus preventing it from starting.
Getting some feedback while you're waiting
The opts parameter supports two values that can be assigned proc objects (which will be 'call'ed). Both are optional, and will only be called if specified in opts. These are initially intended to assist with logging progress.
- 'progress_proc' - called when job is initially queued, and periodically
thereafter.
- max_wait - the value of 'build_start_timeout'
- current_wait - how long we've been waiting so far
- poll_count - how many times we've polled the queue
- 'completion_proc' - called just prior to return/Timeout::Error
- build_number - the build number assigned (or nil if timeout)
- cancelled - whether the build was cancelled (true if 'new' Jenkins and it was able to cancel the build, false otherwise)
To use a class method, just specify 'instance.method(:method_name)', or use a proc or lambda
# Wait for up to 30 seconds, attempt to cancel queued build, progress
opts = {'build_start_timeout' => 30,
'cancel_on_build_start_timeout' => true,
'poll_interval' => 2, # 2 is actually the default :)
'progress_proc' => lambda {|max,curr,count| ... },
'completion_proc' => lambda {|build_number,cancelled| ... }}
@client.job.build(job_name, job_params || {}, opts)
Running Jenkins CLI
To running Jenkins CLI
- authentication with username/password (deprecated)
@client = JenkinsApi::Client.new(:server_ip => '127.0.0.1',
:username => 'somename', :password => 'secret password')
# The following call will return the version of Jenkins instance
puts @client.exec_cli("version")
-
authentication with public/private key file remember to upload the public key to:
http://#{Server IP}:#{Server Port}/user/#{Username}/configure
@client = JenkinsApi::Client.new(:server_ip => '127.0.0.1',
:identity_file => '~/.ssh/id_rsa')
# The following call will return the version of Jenkins instance
puts @client.exec_cli("version")
Before you run the CLI, please make sure the following requirements are fulfilled:
- JRE/JDK 6 (or above) is installed, and 'java' is on the $PATH environment variable
- The
jenkins_api_client2/java_deps/jenkins-cli.jar
is required as the client to run the CLI. You can retrieve the available commands via accessing the URL:http://<server>:<port>/cli
- (Optional) required if you run the Groovy Script through CLI, make sure the user have the privilige to run script
Using with command line
Command line interface is supported only from version 0.2.0. See help using jenkinscli2 help
There are three ways for authentication using command line interface
- Passing all credentials and server information using command line parameters
- Passing the credentials file as the command line parameter
- Having the credentials file in the default location HOME/.jenkins_api_client/login.yml
Debug
As of v0.13.0, this debug parameter is removed. Use the logger instead. See the next section for more information about this option.
Logger
As of v0.13.0, support for logger is introduced. Since it would be nice to have the activities of the jenkins_api_client2 in a log file, this feature is implemented using the Ruby's standard Logger class. For using this feature, there are two new input arguments used during the initialization of Client.
-
:log_location
- This argument specifies the location for the log file. A good location for linux based systems would be '/var/log/jenkins_api_client.log'. The default for this values is STDOUT. This will print the log messages on the console itself. -
:log_level
- This argument specifies the level of messages to be logged. It should be one of Logger::DEBUG (0), Logger::INFO (1), Logger::WARN (2), Logger::ERROR (3), Logger::FATAL (4). It can be specified either using the constants available in the Logger class or using these integers provided here. The default for this argument is Logger::INFO (1)
If you want customization on the functionality Logger provides such as leave n old log files, open the log file in append mode, create your own logger and then set that in the client.
Examples
@client = JenkinsApi::Client.new(...)
# Create a logger which ages logfile once it reaches a certain size. Leave 10
# “old log files” and each file is about 1,024,000 bytes.
@client.logger = Logger.new('foo.log', 10, 1024000)
Please refer to Ruby Logger for more information.
CONTRIBUTING:
If you would like to contribute to this project, just do the following:
- Fork the repo on Github.
- Add your features and make commits to your forked repo.
- Make a pull request to this repo.
- Review will be done and changes will be requested.
- Once changes are done or no changes are required, pull request will be merged.
- The next release will have your changes in it.
Please take a look at the issues page if you want to get started.
FEATURE REQUEST:
If you use this gem for your project and you think it would be nice to have a particular feature that is presently not implemented, I would love to hear that and consider working on it. Just open an issue in Github as a feature request.