The best part of UrbanCode Deploy is it models a component based architecture application, and its deployment environment so well that everybody can understand in 10 minutes. Very initiative, flexible and powerful. Don't know if there is another tool does this well.
Jenkins Pipeline can orchestra the Continuously Delivery workflow at the higher level to include the build, test, etc.
Does it make sense?
There's a new UCD plugin for Jenkins that adds nice integrations with the Jenkins 2.0 pipeline. I'm going to poke the developers since there doesn't seem to be a nice video showing it, but there is documentation (and a link to the plugin) out here:
https://developer.ibm.com/urbancode/docs/jenkins-build-step-integration-with-ibm-urbancode-deploy/
I think the idea is that you can use Jenkins pipeline to govern the flow of a build through early test environments, while UCD owns the late test environments / production when the pipeline operates more at the snapshot level. Would love your feedback!
Today, in my production environment, i use Jenkins to manage my build (like a "build pipeline" with some tests) and put all my build results into Urbancode Code station. Urbancode is doing all my deploy work perfectly, the integration with Jenkins is beautiful, easy and fast. I have read some articles about Jenkins delivery pipeline and do not recommend use it.
Check it out
https://www.thoughtworks.com/radar/tools
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I am looking for recommendation for CI/CD workflow. My pipeline is using GitHub Actions but that is not that important.
I currently have one single workflow that on each push/PR:
check out the code
Build the wheels for three platforms
Run the tests on all three platforms
Deploy the artifacts on PyPI
Generate and deploy the doc on GitHub pages
This is obviously inefficient (generating a release for each push is questionnable :) ).
I wanted to split the workflow in 3 having:
for building and testing on a single platform,
an other workflow for generating the 3 artefacts called once a release is decided
one for the doc that could be triggered once artefacts are generated (not sure how though)
Happy to hear what you think (is|are) the best workflow(s)
I just got to know about Travis CI and went through some of their docs. It seems to be a nice solution for open source projects.
With my reading so far through Travis docs, I am doubtful whether I will be able to connect it to my personal hardware in some manner.
I am working on some IoT related project written in C/C++ hosted on github. Building and publishing images on artifactory, on Travis CI should not be a problem. But when it comes to testing, definitely it cannot be tested on their (Travis's) hardware. The binaries need to be put on my development board (raspberry pi) and then test cases should be executed. Once test suit finishes, Travis CI should be notified of the results.
Is Travis allows such functionality? If not, then it would be a great limitation.
But when it comes to testing, definitely it cannot be tested on their
(Travis's) hardware
By this statement you answered your own question. If you want to use Travis for showing test status publicly, your best chance is running the tests on premises using Jenkins, GitLab CI or any other CI server and then offering an API to Travis (e.g. a file with the test results). All Travis would then do is fetching and showing the test results.
If you want to control things from within Travis, you could trigger builds from Travis using a HTTP call and then wait for the remote build to finish before showing its results. Both Jenkins and GitLab CI offer remote triggering. However, this requires your CI servers to be publicly accessible, which might be a security risk (e.g. people triggering non-stop builds).
TravisCI is primarily useful for testing libraries and projects that can be run and tested on common systems (linux, etc.) I don't believe there is a way to run TravisCI locally however, MinionCI seems to offer a solution for running a CI server locally following a style similar to TravisCI, check it out here.
I am referred to Hudson today.
I have heard about continuous integration before, but I have no idea what the heck is a ci-server.
Hudson is really easy to install in Ubuntu and in several minutes I managed to set up an instance of it.
But I don't quite understand the workflow of a ci-server, or how am I supposed to use it?
Please tell me if you have experience about ci, thanks in advance.
Edit:
I am currently using Mercurial as my SCM, and I wonder what is the right way to use it with Hudson.
I have installed the Mercurial Plugin of Hudson, and I create a new job with a local repository. When I commit in the repository the Hudson job is built with the latest version of my source code.
If what I used is a remote repository, what's the workflow like?
Is it something like the following?
Set up a Hudson job with the repository
Developer makes a local clone of the repository
Developer commit and push changes
The remote repository update with the incoming changeset
Run a Hudson build
There may be something I misunderstanded at all, please help me point it out.
Continuous Integration is the process of "integrating software" continuously i.e. as frequently as possible (ultimately after each set of changes) to avoid any big-bang integration and all subsequent problems by getting immediate feedback.
To implement Continuous Integration, you first need to automate the build of your software (where build means of course compiling sources, packaging them, but also compiling tests, running the tests, running quality checks, etc, anything that will help to get feedback on the health of your code). Then you need to trigger the build on the latest version of the sources on a particular event (a change in the repository, a temporal event), to generate reports and to send notifications upon failure (by mail, twitter, etc).
And this is precisely the responsibility of a CI engine: offering trigger mechanisms, being able to get the latest version of the sources, running the build, generating and publishing reports, sending notifications. CI engines do implement this.
And because running a build is CPU and Disk intensive, CI engines usually run on a dedicated machine (or even a farm of machines if you want to build lots of projects).
Back to your question now. Once you've got Hudson running, configure it (Manage Hudson > Configure System): setup the JDK, build tools, etc. Then setup an Hudson Job and follow the steps: configure the location of the source repository, the build tool, the trigger, a notification channel and you're done (you can do more complex things but that's a start).
For more details on the setup, check:
The official Use Hudson guide for more details. << START HERE
Continuous Integration with Hudson - Tutorial.
Spot defects early with Continuous Integration.
Martin Fowler's overview of continuous integration is one of the canonical references. In my opinion, using automation to make sure your code base is healthy is one of the most useful things that you can set up.
Update Sorry that I didn't have much time earlier to expand on my reply. #Pascal_Thivent is right that in order to effectively use CI, you need to be able to automate your builds, tests, etc. CI is actually a good forcing function for this. For me, it's one of those little warning flags if I start to think that it would be too painful to put a build into Hudson. It means that something is not quite right.
What I like about Hudson is that it's flexible enough to accommodate different workflows. We use it for both builds / unit tests and releases. And it eliminates a lot of the worry about certain release procedures only working in one person's environment.
What I don't like about Hudson is that it is occasionally unstable when new builds break plugins. I've had a couple of upgrades (2 out of 10 or so) go bad because of incompatibilities. I do two things now:
I never upgrade my team's Hudson server to the latest and greatest right away. I generally only upgrade when there are significant new features, or bug fixes.
I now have a basic Hudson instance set up with all my plugins on a virtual machine with some dummy builds that I fire up to test out any new upgrades before doing it on the public server.
I've been exploring different strategies for running integration tests within some Nant build scripts. Typically a number of different scripts are chained in one monolithic build that has separate targets: staging (build a staging version, like build), build (just build the stuff), integration (build the stuff and run the integration tests). This works reasonably well, the build target takes about a third of the time to run as the integration target and it's not painfully long so I don't find myself disinclined to run it frequently.
The integration target on the other hand takes long enough that I don't want to do it very often - ideally just before I'm ready to do a deploy. Does this seem like a reasonable strategy? IOW, am I doing it right?
The plan is to eventually move this project to Continuous Integration. I'm new to the whole Continuous Integration thing but I think I understand the concept of "breaking the build" so I'm wondering what are some good practices to pick up in order to make the most of it?
Any good sources of reading on this subject would be appreciated as well. Thanks!
Yes, you are on the right track. What you need to do now is to hook up your nant target to an automated process. I recommend using either Team City or Cruise Control for as your CI tool. Once you have your automated server setup you can run your build and unit tests on each check in (Continuous Integration). Your integration tests could then run at night or over the weekend since they typically take longer to run. If your integration tests are successful, you can then have a job that will deploy to some QA or other server.
Sounds like you're 99% of the way there. My advice is to just dive in and start doing it. You'll learn a lot more by actually taking the plunge and doing it than by thinking about whether you're doing it right.
My company is currently using CruiseControl and I personally think it's great.
See this related thread What is a good CI build process?
You are on the right track. If you're using a decent CI tool, you should be able to set each setup up as a separate project that triggers the next step in the chain... i.e. sucessfull build triggers tests which trigger deployment which triggers integration etc
This way your ealiest "break" stops the line so to speak.
We use CruiseControl to build, unit-test, configure and deploy, run integration tests and code coverage, run acceptance tests, and package for release. This is with a system of 8 or so web services, and a dozen or so databases, all with interralated configuration and deployment dependencies with across multiple environments with different configurations (anythin from single boxes to redundent boxes for each component)
Setting up an integration server, I’m in doubt about the best approach regarding using multiple tasks to complete the build. Is the best way to set all in just one big-job or make small dependent ones?
You definitely want to break up the tasks. Here is a nice example of CruiseControl.NET configuration that has different targets (tasks) for each step. It also uses a common.build file which can be shared among projects with little customization.
http://code.google.com/p/dot-net-reference-app/source/browse/#svn/trunk
I use TeamCity with an nant build script. TeamCity makes it easy to setup the CI server part, and nant build script makes it easy to do a number of tasks as far as report generation is concerned.
Here is an article I wrote about using CI with CruiseControl.NET, it has a nant build script in the comments that can be re-used across projects:
Continuous Integration with CruiseControl
The approach I favour is the following setup (Actually assuming you are in a .NET project):
CruiseControl.NET.
NANT tasks for each individual step. Nant.Contrib for alternative CC templates.
NUnit to run unit tests.
NCover to perform code coverage.
FXCop for static analysis reports.
Subversion for source control.
CCTray or similar on all dev boxes to get notification of builds and failures etc.
On many projects you find that there are different levels of tests and activities which take place when someone does a checkin. Sometimes these can increase in time to the point where it can be a long time after a build before a dev can see if they have broken the build with a checkin.
What I do in these cases is create three builds (or maybe two):
A CI build is triggered by checkin and does a clean SVN Get, Build and runs lightweight tests. Ideally you can keep this down to minutes or less.
A more comprehensive build which could be hourly (if changes) which does the same as the CI but runs more comprehensive and time consuming tests.
An overnight build which does everything and also runs code coverage and static analysis of the assemblies and runs any deployment steps to build daily MSI packages etc.
The key thing about any CI system is that it needs to be organic and constantly being tweaked. There are some great extensions to CruiseControl.NET which log and chart build timings etc for the steps and let you do historical analysis and so allow you to continously tweak the builds to keep them snappy. It's something that managers find hard to accept that a build box will probably keep you busy for a fifth of your working time just to stop it grinding to a halt.
We use buildbot, with the build broken down into discrete steps. There is a balance to be found between having build steps be broken down with enough granularity and being a complete unit.
For example at my current position, we build the sub-pieces for each of our platforms (Mac, Linux, Windows) on their respective platforms. We then have a single step (with a few sub steps) that compiles them into the final version that will end up in the final distributions.
If something goes wrong in any of those steps it is pretty easy to diagnose.
My advice is to write the steps out on a whiteboard in as vague terms as you can and then base your steps on that. In my case that would be:
Build Plugin Pieces
Compile for Mac
Compile for PC
Compile for Linux
Make final Plugins
Run Plugin tests
Build intermediate IDE (We have to bootstrap building)
Build final IDE
Run IDE tests
I would definitely break down the jobs. Chances are you're likely to make changes in the builds, and it'll be easier to track down issues if you have smaller tasks instead of searching through one monolithic build.
You should be able to create one big job from the smaller pieces, anyways.
G'day,
As you're talking about integration testing my big (obvious) tip would be to make the test server built and configured as close as possible to the deployment environment as possible.
</thebloodyobvious> (-:
cheers,
Rob
Break your tasks up into discrete goal/operations, then use a higher-level script to tie them all together appropriately.
This makes your build process easier to understand for other people (you're documenting as you go so anyone on your team can pick it up, right?), as well as increasing the potential for re-use. It's likely you won't reuse the high-level scripts (although this could be possible if you have similar projects), but you can definitely reuse (even if it's copy/paste) the discrete operations rather easily.
Consider the example of getting the latest source from your repository. You'll want to group the tasks/operations for retrieving the code with some logging statements and reference the appropriate account information. This is the sort of thing that's very easy to reuse from one project to the next.
For my team's environment, we use NAnt since it provides a common scripting environment between dev machines (where we write/debug the scripts) and the CI server (since we just execute the same scripts in a clean environment). We use Jenkins to manage our builds, but at their core each project is just calling into the same NAnt scripts and then we manipulate the results (ie, archive the build output, flag failing tests etc).