Hudson post build tasks - hudson

I have an issue in hudson post build tasks,
I am using two plugin FTP Upload(which uploads artifacts to FTP server) and Post Build Tasks(which execute my external batch file).
Now my issue is that Post Build Tasks executes before FTP Upload, that should not happened, I want to execute batch file after completion of FTP upload. See my attached screenshot for reference. Any help will be appreciated.

Can't you just use FTP to upload the file in your batch file? Then you have full control of the ordering?

Later versions of Jenkins (after April 2012) allow you to reorder post-build actions as you wish.
There is also the Flexible Publish Plugin that allows ordering the post-build actions through conditions.
Is there a reason you are sticking with Hudson?
Edit
From official sources:
JIRA issues indicating this problem
https://issues.jenkins-ci.org/browse/JENKINS-7408
https://issues.jenkins-ci.org/browse/JENKINS-9381
Resolution by Kohsuke Kawaguchi (creator of Hudson/Jenkins). Unfortunately, the resolution is in Jenkins.
https://groups.google.com/forum/?fromgroups#!topic/jenkinsci-dev/UQLvxQclyb4
So to answer your question directly: it is impossible in Hudson. Only thing you could try is workarounds with multiple jobs linked up. Let me know if this is something you would consider.

Related

Google Services Gradle Plugin not generating resources from json

Problem started suddenly and seems to be not related to any change that happened in code around its first occurance.
We have automated CI workflow that prepares RC.
At first every second build worked. Now I had to rebuild RC 7 times to get app that is not crashing.
After investigating it is clear that there are no config values in resources, ergo plugin is not generating values from json config file. Basically rebuilding same code many times makes it work, at some point.
We had recently changed dependency injection in app from dagger components to hilt, it might be the reason of some kind of race or shared resources during build time.
It is also problematic to work around. I've prepared resource files with all values in order to manually add them in build process instead of generating with plugin. Now, because we also use crashlytics, I cannot remove google services plugin as crashlytics is checking for google services tasks in gradle. I cannot remove unused json file as plugin will crash because of lack of config file. Plugin also (based on docs https://developers.google.com/android/guides/google-services-plugin) adds some dependencies to main module, but I wasn't able to find anything in :app:dependencies so maybe docs are outdated.
I am not able to provide any project for reproduction as it only happens in commercial project. I understand it makes the problem hard to resolve in such case but maybe other people has it also.
AGP: 7.2.0-beta02
Google Services plugin: 4.3.10
Hilt: 2.41
EDIT:
I've resolved symptoms by creating gradle module for each build type we have, and each module contains only res/values.xml which I've copied from app/build/generated/res/google-services/*. This way required keys are always available in resources, as we do not often (hardly ever) change json file with config. I am still trying to investigate builds with --scan option but I cannot reproduce it with scan, it only happens without it.

Jenkins File Viewer

I'm in the process of setting up our builds on our new Jenkins CI server. One thing I've noticed, which I don't really like is that I can't see a difference in the changes.
Jenkins knows what files have been modified/deleted but I cannot see where I can see the diff of those files?
Jenkins does not calculate diffs itself, but instead lets you link to a tool that does, such as a diff on GitHub, or a ViewSVN instance etc.
For example, on Apache's Jenkins instance, you can see a "ViewSVN" link next to each change:
https://builds.apache.org/job/ActiveMQ/changes
It depends on your SCM and the tool you normally use for browsing diffs, but there should be a Jenkins plugin available for you.
If not, it should be trivial to write your own :)

The flow to pack php/js/css and deploy to web server

I'm developing an website now.
I found there are lots steps to do before deploying the code to web server.
e.g.
1. compact JS/CSS/HTML
2. Run unit test if any
3. Test code locally
4. Upload code to web server
Not sure if anyone could share your experiences on this process? Or how does facebook/google/yahoo ... do this?
Deployment strategy entirely depends on your project. None of those steps (except uploading code to web-server of course) is mandatory for running PHP web-site. Those steps appears when you are trying to:
Utilize build system (for configs generation, JS and CSS minification, etc);
Write unit-tests and (probably) run continuos integration;
Establish quality assurance by having QA go/no go before deployment of new release.
Needless to mention that to make, for instance, JS/CSS minification or perform unit-tests execution, you need to implement ones first.
That's why I'd not advice you to follow cargo-cult and copy all features of smbd's project (even facebook or google). Instead just follow the project needs and build your own deployment strategy.

How to use lcov test coverage tool with Hudson continuous integration?

In my environment developers use lcov from command line when working with source code's module tests.
I would like to know if there is a way to easily add reports from lcov to Hudson's builds? I would ease and automate the whole procedure of gathering test source code coverage.
If you are looking to publish the generated HTML reports along with your job/builds, have a look at the htmlpublisher plugin: http://wiki.hudson-ci.org/display/HUDSON/HTML+Publisher+Plugin
This allows you to specify multiple html directories and index files to be made accessible from the job or build page.
Have a look at the xUnit Plugin. I found the info in this thread. It has more information for using Hudson to build cpp projects.

How should I implement an auto-updater?

Many programs include an auto-updater, where the program occasionally looks online for updates, and then downloads and applies any updates that are found. Program bugs are fixed, supporting files are modified, and things are (usually) made better.
Unfortunately no matter how hard I look, I can't find information on this process anywhere. It seems like the auto-updaters that have been implemented have either been proprietary or not considered important.
It seems fairly easy to implement the system that looks for updates on a network and downloads them if they are available. That part of the auto-updater will change significantly from implementation to implementation. The question is what are the different approaches of applying patches. Just downloading files and replacing old ones with new ones, running a migration script that was downloaded, monkey patching parts of the system, etc.? Concepts are preferred, but examples in Java, C, Python, Ruby, Lisp, etc. would be appreciated.
I think that "language agnostic" is going to be a limiting factor here. Applications come in so many shapes and sizes that there is no one-size-fits-all answer. I have implemented several auto-updaters in several languages, and no two were similar.
The most general philosophy is that the application checks with some home location (web address, web query, corporate network location, etc.) to either ask if it's version is current, or ask what the most current version is. If the answer calls for an update, that process will be different for each situation.
A popular alternative is to invite the home location to run a script when the application is initiated. The script can check the version, download updates if necessary, and ask for usage feedback, for example.
We can probably help better if you narrow the parameters.
UPDATE: The approach to "patching" also depends on the nature of the application, and there's a very wide diversity here. If you have a single executable file, for instance, then it's probably most practical to replace the executable. If your application has many files, you should look for ways to minimize the number of files replaced. If your application is highly customized or parameterized, you should strive to minimize the re-tailoring effort. If your application employs interpreted code (such as an Excel VBA application or MS Access MDB application), then you may be able to replace parts of the code. In a Java application you may only need to replace a JAR file, or even a subset of the JAR contents. You'll also need to have a way to recognize the current client version, and update it appropriately. I could go on and on, but I hope you see my point about diversity. This is one of those many times when the best answer usually starts with "Well, it depends ...!" That's why so many answers include "Please narrow the parameters."
Be sure to also consider the security implications of sucking down information about the update, as well as the update binaries themselves.
Do you trust the source of the download? You maybe phoning home to got your update, but what if there is a man in the middle who redirects to a malicious server. An HTTPS or similar secure connection will help, but double checking the bits that you eventually download by using a digital signature check is recommended.
First you need a file on your application home web site with the latest version.
The best way I think to have special SQL table for this task and populate it automatically after publishing new version / nightly build completion.
Your application creates new thread which requests built-in http link with version and compares in with current. In .NET use can use code like this:
Version GetLatestVersion() {
HttpWebRequestrequest = (HttpWebRequest)WebRequest.Create(new Uri(new Uri(http://example.net), "version.txt));
HttpWebResponse response = (HttpWebResponse)request.GetResponse();
if (request.HaveResponse)
{
StreamReader stream = new StreamReader(response.GetResponseStream(), Encoding.Default);
return new Version(stream.ReadLine());
}
else
{
return null;
}
}
Version latest = GetLatestVersion();
Version current = new Version(Application.ProductVersion);
if (current < latest)
{
// you need an update
}
else
{
// you are up-to-date
}
In this example, version.php in only one plain string like 1.0.1.0.
Another tip I can give - how to download an update.
I like very much next idea: in the resources of your application there is a string of CLR-code which you compile on-the-fly (using CodeDom) to a temporary folder, main application calls it and goes to close. Updater reads arguments, settings or registry and downloads new modules. And calls main application which deletes all temporary files. Done!
(But everything here is about .NET)
The simplest solutions (used by many programs) is running the uninstaller for the previous version and the running the installer for the new one (optionally skipping questions which the user has already answered, like the EULA). The only catch is that the new version must be able to read the configuration options from the old version.
Also, on Windows you can't delete an executable file which is in use, so you probably will want to drop a small executable in Temp folder, which runs the whole process and then delete it at the end from the instance of the new version which got launched (or just register it to be deleted at the next reboot).
Because auto updating is a common scenario, most languages have at least one package available to support this. (Below I list some of the available packages)
One of the really nice idea's is the ClickOnce distribution for .NET, it's an installer which sandboxes your application and installs in the user context, so no administrator rights required. You can configure the ClickOnce in your publish to check for updates each application start.
Java has Java Web Start which offers the same kind of functionality for java applets.
Delphi has numerous articles about auto-updating, Torry has a list of WebUpdate components, for instance GoUpdater seems to have a very wide range of functionality.
They all use a website/network share to check for a new version and than retrieve either a patch or a complete install file and run it. So you should try to find a nice package for your application, to save you the hassle of developing and maintaining your own solution.
The simplest approach would be to have your program query a server (website) to see if there is an update. If there is an update you could display a message to the user that prompts them to download a newer version and provides a link.
An alternative and more complex solution would be to create a small windows service (or unix daemon) that checks periodically to see if there are updates, this service can download the update and launch the installer.
The general architecture is that you have a central server that you control that knows the latest version and where to get it. Then the programs query the server. I am not going to include sample code because it is highly defendant on the server and the format you choose. It is not terrible difficult though.
This is not so much a complete answer, but rather one example of auto-updating mechanism I implemented recently. The situation is a little different from the tradition Firefox-type of user application, since it was an internal tool used at work.
Basically, it's a little script that manages a queue of Subversion branches to be built and packaged in an installer. It reads a little file, where the names of the branches are written, takes the first one, re-writes it at the end of the file, and launches the build process, which involves calling a bunch of scripts. The configuration for each branch to build is written in a .INI file, stored in a Subversion repository along with the tool itself.
Because this tool runs on several computers, I wanted a way to update it automatically on all machines as soon as I made a change either to the tool itself, or to the configuration scripts.
The way I implemented it was simple: when I launch the tool, it becomes an "outer shell". This outer shell does 2 very simple things:
svn update on itself and on the configuration files
launch itself again, this time as the "inner shell", the one that actually handles one configuration (and then exits again).
This very simple update-myself-in-a-loop system has served us very well for a few months now. It's very elegant, because it is self-contained: the auto-updater is the program itself. Because "outer shell" (the auto-updater part) is so simple, it doesn't matter that it does not benefit from the updates as the "inner shell" (which gets executed from the updated source file every time).
One thing that hasn't really been mentioned is that you should seriously consider that the user running your program might not actually have sufficient privileges to upgrade it. This should be pretty common at least for business users, probably less so for home users.
I'm always working with a (self-imposed) limited account for security reasons and it always pisses me off that most auto-updaters simply assume that I'm running as admin and then after downloading just fail and offer no other way of performing the update other than actually closing the program and running it again in an administrative context. Most do not even cache the downloaded update and have to do it all over again.
It'd be much better if the auto-updater would simply prompt for admin credentials when needed and get on with it.
I'm going to assume answer for Windows.
This way seems to work well.
In the installer do:
1. Create a manual-start service that runs as LocalSystem that when started does the update then stops.
2. Change the service permissions so all users can start the service (if all users should be able to update w/o admin rights).
3. Change the main program to check for updates when started using a simple mechanism. If it detects an update, prompt if the user wants to apply it.
4. If user accepts the update, start the service.
If the architecture allows for it, create a way to monitor the update as it is running.
In a Java-Webstart setting you start a JNLP file which then triggers the download of the Jar files needed to run the application. Everytime webstart checks if there are newer versions of the Jars and would download them replacing the locally cached ones. With a tool named jardiff you will create only diffs towards the newer jars and distribute these via the server (e.g. only get an update).
Pros:
always up to date
Cons:
you need an application server (tomcat, JBoss) in order to distribute the files
you need an internet connection in order to get the application
Reading Carl Seleborgs answer gave me some ideas how a generic code-repository could be useful.
svn comes with a tool called svnsync, which sort of behaves like an svn export but keeps track of the actual revision your export is at.
Someone could utilize this system in order to only fetch the changed files from the users actual revision.
In actuality, you will have a repository with the binaries compiled, and running svnsync will only fetch the binaries that has been modified. It might also be able to merge local changes to text-based configuration files with new configuration-options.
The function of installing a patch to a program is basically one of the basic functions of an installer. Installer software is documented in numerous places but usually on a per-installer basis: There the Microsoft Installer (with Install Shield Extensions), Ruby gems, Java .jar files, the various Linux package manager systems (RPM, Apt-get)and others.
These are all complex systems which solve the problem of patching program in general but for slightly different systems. To decide what is best for you, consider which of these system your application most resembles. Rolling your own is fine but looking at these systems is a place to start.
You can write an internal module of your application to do updates. You can write an external mini application to do updates.
Also look at .NET on-the-fly compilation technology, it makes possible to create such mini application on-the-fly on demand. For example, http://fly.sf.net/
You can use my solution (part of the Target Eye project).
http://www.codeproject.com/Articles/310530/Target-Eye-Revealed-part-Target-Eyes-Unique-Auto
If your software is open sourced, and target Linux or developers. It is interesting to install your software as a git repo. And having it pull the stable branch occasionally or everytime when it is launched.
This is particular easy when your application is managed via npm, sbt, mavan, stack, elm-package or alike.
After hours of searching some working solution for this problem I've finally implemented auto update mechanism for python script that works on Linux and Windows.
In short - the script before running actual work checks for update on S3 and if it's available downloads it, unzips, creates or updates the symlink (or junction on Windows) and re-runs the script with already the new version with original arguments.
The full source code and the explanation can be found here.
If you are searching for an cross-platform software update solution, take a look at www.updatenode.com
Some highlights:
free for Open Source projects
cross-platform & Open Source update client tool
localized already for the most important languages
easy to integrate and easy to handle
cloud based management platform to define and manage updates
provides additionally support for displaying messages (inform about new events, products, etc.)
web interface is open (you can create your own client using the service)
many usage statistics, as used operating systems, geo location, version usage, etc.
Android API for mobile App updates
Just try it.
BTW, I am part of the dev team for the open source client. :)