Implementing SemVer versioning on Azure Function App Deployment with GitLab-CI pipeline - version-control

I'm looking for a sample in GitLab-CI-Pipeline for deploying an Azure Function App written in .Net 6.0 and deployed with Terraform [IaaC], which is available in a separate repository.
I am able to Build and Deploy but not getting a right reference for implementing versioning on App-Project-Repo.
The versioning has the following requirements:
It starts with every deployment from Master Branch.
Version manually incremented on QA-Deployment which happens from master-branch
Version also need to be create tagged to Master-branch
It needs to support roll-back as well.

Related

Deployment scenario of git integrated Azure Data Factory via arm template

What happens if you have multiple features being tested in test environment of a ADF V2 test data factory and only one or few of them is ready for production deployment. How do we hande this type of deployment scenario in Microsoft recommended CICD model of git/vsts integrated adf v2 through arm template
Consider we have dev test and prod environment of ADF v2. The dev environment is git integrated. The developers have debuged their changes and merged with collaboration​ branch after pull request. The changes are published and deployed to test environment first. Here many features are getting tested but few are ready for prod and few are not, how do we move the ones which are ready since tge arm template takes the entire factory?
this is somewhat of a strange question. you can apply same logic to anything, how do you create a feature for an application since application is only deployed as a single entity. answer would be: use git flow or something akin to that. Use feature branches and promotions.

Maintainability of TFS xaml build vs TFS vNext build vs Octopus Deploy

My question is about maintainability of vNext/Octopus processes vs XAML based processes. Or rather about the impossibility to maintain them sanely leading me to believe we are doing something terribly wrong.
Given:
Microsoft pushes to phase out its TFS XAML builds in favour of the vNext builds
Octopus Deploy is a popular deployment automation framework
We have many XAML based builds, but starting to port to vNext
The deployments are automated with Octopus Deploy
Concretely, we have three kinds of builds going on in QA:
Old XAML based compilation builds producing artifacts to be deployed
Ultimately just builds the code, zips it and places in a well-known location
New vNext compilation builds producing artifacts to be deployed
Same as above
Deployment builds
XAML based build definition per deployment environment. This is the source of truth for the particular deployment, containing all the configuration URLs, connection strings, certificate thumbprints, etc.. The build definition has over 100 build parameters. Each time a new environment is setup we clone an existing XAML build definition and change the parameters.
This build unpacks the build artifact, generates all the web/app config files based on the configuration parameters and kicks off Octopus Deploy with a lot of parameters using octo.exe and waiting for the end
Octopus Deploy process
Creates 3 packages from the build artifact previously unpacked by the XAML build to match three areas of deployment - web farm, background job engine cluster and the database
Delivers the relevant packages to the relevant tentacles.
The tentacles unpack and setup their respective packages
So, if we have 50 deployment environments, then we have 50 XAML deployment builds, each capturing the context of the respective environment. But the XAML deployment build delegates the deployment job to Octopus and here we are forced to have 50 Octopus projects - one per deployment.
Why is it so? We examined the option of having just one Octopus Project, but what would be the Release versions of such project? In order for us to be able to navigate amongst the gazillion releases, the release version must include:
The build version of the deployed code, e.g. 55.0.18709.3
The name of the deployment environment, e.g. atwfm
Using the example above this gives us 55.0.18709.3-atwfm, but sometimes we want to deploy the same build artifact in the same deployment environment twice. But the only Octopus project would already have the release 55.0.18709.3-atwfm, so how to deploy 55.0.18709.3 in atwfm again, without deleting the already existing release?
We could not find a workaround and so, we have Octopus project per deployment.
THIS IS ABSOLUTELY CRAZY because Octopus projects are a pain to update. Suppose we need to add a step - go do it in 50 projects. There are great advises on the Internet to use automation to edit multiple projects. Not ideal at all.
vNext, BTW, has the same problem. If I am to port the existing XAML builds to vNext I will end up with 50 vNext deployment builds. If I decide to add a step, I need to do it in all the 50 builds!!!
Note, that XAML builds do not have this problem (they have many others, though), because their the process is separate from the parameters. I can modify the workflow once and all the XAML builds are now updated with the new process change.
My question is - how do people work with vNext and Octopus, because our process drives me crazy. There must be a better way.
EDIT 1
I would like to clarify. We sometimes want to deploy the same build artifacts twice. We are not recompiling them and reusing the same version. No. We already have the build artifacts handy with the build version baked inside the artifact. We may want to deploy it the second time into the same environment because, for example, some databases in that environment have been misconfigured and now this is fixed and we need to redeploy. This does not mean we can rerun the already existing Octopus release, because the fix may involve tweaking the deployment parameters of the respective XAML deployment build definition. Hence we may be forced to restart the XAML deployment build, which never compiles code.
EDIT 2
First of all, why do we drive the deployment from TFS XAML builds rather than from Octopus? Historic reasons. We did not have Octopus at first. The deployment was done by our ad hoc code. When we introduced Octopus we decided to keep the XAML deploymenet builds for two reasons:
To save the cost of migrating all the XAML deployment builds with all the gazillion deployment parameters to Octopus. Maybe it was a wrong decision, maybe we could have automated the migration.
Because TFS has better facility to display test results. The deployment may end with deployment smoke tests and their results has to be published somewhere. We do not see how Octopus can help us publish the results, TFS can.
Why would one redeploy? For example, one of the deployment parameters is certificate thumbprint. When the certificate is renewed, this parameter must be changed (we do have automation for updating XAML build parameters). But often we discover that it was already deployed with wrong thumbprint. So, we fix the deployment and redeploy. Or, we discover some strange behavior of the deployed application and wish to redeploy with some extra tracing/debugging features.
There is a lot to unpack here, but I'll give it a go.
TL;DR It's the way you version the releases that's causing you all the pain. Change that and everything else will fall in to place
Lets start at the end and work backwards.
Octopus Deploy has a concept of Environments. This means that you can Deploy the same project to multiple environments and use Octopus's scoping mechanism to manage environment specific configuration.
So using your example.
Creates 3 packages from the build artifact previously unpacked by the
XAML build to match three areas of deployment - web farm, background
job engine cluster and the database
I set up an Environment in Octopus for each of your 50 Environments. (I'll use 3 environments in the example to keep it simple, but the principles apply no matter how many environments you have)
In my Dev Environment I have a single server so I create an environment called "Dev" and add the tentacle for that specific server. Then I tag the tentacle with the deployment type "Web", "Job", "Database"
I then set up a test environment which has 3 servers so I create the Environment and add the 3 servers. I then tag each tentacle with the deployment type "Web", "Job", "Database"
Finally I set up the Production environment. This has 5 web servers, 1 job server and 1 database server. I add all 7 tentacles to the environment, and tag them appropriately.
Now I only need 1 project to deploy to all 3 environments. In my project I have 3 steps.
Step 1 Deploy Web Site
Step 2 Deploy Jobs
Step 3 Deploy database
I can tag each of these steps to say what kind of tentacle I want to deploy to. Now when I run the deployment the link between the tags on the step, and the tags on the tentacle mean Octopus knows where to deploy the code.
Variables: Your variables can be scoped to an environment. So for example if your dev environment database connection string is dev.database.net/Instance and your test environment database connection string is test.Database.net/Instance then you can scope these in the variables section of the project. If your DNS is consitant with your environment names you could even use some of the built in variables to make adding environments more easy. i.e. ${Octopus.Environment.Name}.Database.net/Instance
Releases and version numbers: So here is where I think your problem lies. Adding the environment name to the release and trying to create multiple releases with the same version is basically causing you all of the pain.
Using the example above this gives us 55.0.18709.3-atwfm, but
sometimes we want to deploy the same build artifact in the same
deployment environment twice. But the only Octopus project would
already have the release 55.0.18709.3-atwfm, so how to deploy
55.0.18709.3 in atwfm again, without deleting the already existing release?
There are a couple of things here. In Octopus you can easily deploy again from the UI, however it sounds like you're rebuilding the artifact and trying to create a new release with the same version number. Don't do this! Each new build should have a distinct and unique build number / release number.
The principle I follow is "build once deploy many"
When you create a release it requires a version number, this release then flows through the environments. So I build my code and it gets a versions number 55.0.18709.3 then I deploy it to Dev. When the deployment has been verified I then want to "Promote" the release to test I can do this from within Octopus or I can get TFS to do this.
So I promote 55.0.18709.3 to test and then on to prod. If I need to know which release is in which environment, Octopus tells me this via the dashboard or API.
Finally I can "Orchestrate" the flow of releases through my environments using Build v.next.
So my end to end process looks something like.
Build vNext Build
Compile
Run Unit Tests
Package output
Publish package
build vNext Release
Call Octopus to create the release passing in the version number
Optionally deploy the release to the first environment on your way to live
I now have everything I need in Octopus to deploy to ANY environment with a single project and my environment specific configuration.
I can either "Deploy" the release to a specific environment or "Promote" the release from one environment to another. This can be done easily from within the Octopus UI
Or I can create a "Promote" using the Octopus plugin in TFS and use that to orchestrate the promotion of code through the environments.
Octopus Terminology.
Create release - This pulls together the Artifacts and Release number in Octopus to create an Immutable thing which will be deployed to one of more environments.
Deploy release - The act of pushing your code to a specific environment.
Promote release - Once the code has been deployed in to a single environment, it can them be promoted in to other environments
If you have a specific sequence of environments then you can use the "Lifecycles" feature of Octopus to enforce that workflow. but that's a topic for another day!
EDIT1 Response
I don't think the edit changes my answer, you can re-deploy the same release many times as you like. what you cannot do is create a new release with the same version number. You might want to decouple these steps could you add some more detail about what changes in the XAML build? You can change variables in a release, you can update them in octopus and then redeploy
EDIT 2 Response
That makes things clearer. I think you need to take the hit and migrate the parameters to Octopus. It's variable management is much better than XAML builds and although build vNext is comparable to Octopus it makes more sense to have the config in Octopus. As XAML builds are on their way out, it makes sense to move this stuff now. Whilst it might be a lot of work, at the end you'll have a much smother workflow and you can really take advantage of the power of Octopus.
The Test results point. I agree this is better suited to build vNext, so at this point you will be using build vNext as your Orchestrator and Octopus Deploy as your release management tool.
The process would look something like
Build vNext
Compile code.
Run Unit tests
Run Octopack
Publish packages
Call Octopus and Create release
Call Octopus to Deploy to "Dev"
Run Smoke tests
Run Integration Tests
Call "Selenium" to run Run UI tests
Call Octopus to Promote release to "Test"
Run Smoke tests
Run Integration Tests
Call "Selenium" to run Run UI tests
Call Octopus to Promote release to "Production" (Perhaps with a manual innervation)
Run Smoke tests
Run Integration Tests
Call "Selenium" to run Run UI tests

Can I deploy multiple build versions using the same bamboo deployment plan?

I would like to create a single bamboo deployment plan to deploy multiple versions of an artifact.
Each supported version has a maintenance branch in git.
Bamboo supports the creation of a single build plan that can be applied to many branches.
Can this be transferred to the deployment project, in which the deployment would be identical, parameterized only by the version.
Deployment plans are used for deploying artifacts, which are created by existing bamboo build jobs. So if you have bamboo build jobs, which create the different versions of your artifact, you can easily reuse your existing deployment plan.
I assuming a bamboo build plan (with multiple builds either due to updates or due to different branches, thus containing different versions of your software) and a working deployment plan.
You can then use your deployment plan and start a deployment by clicking on that cloud icon, select a release to deploy "Create new release from build result", choose the branch and/or correct build number of the build, give your child a meaningful name and deploy the newly created release of your software. However this mean, that at a given time you'll have only a single version deployed.
If you want to deploy multiple version simultaneously you should clone your existing environment of the deployment plan. Otherwise you wouln't be able to track which version (release) of your software is deployed.

Accessing a file from a different version of the same NuGet package during Octopus deployment

We use Octopus Deploy 3.2.16 to deploy a NuGet package to an Azure Cloud Service.
From our Deploy.ps1 file, we need to identify the newest NuGet package published in this feed.
For example, we have this scenario:
Day 1: we deploy v1.0.0
Day 2: we deploy v.1.0.1
Day 3: we re-deploy v1.0.0
When we re-deploying v1.0.0 on Day3, the Deploy.ps1 Powershell script that gets executed during deployment needs to identify the highest-version NuGet package in the current feed (I.E. "v1.0.1"), then retrieve and use a certain file from this package (I.E. "Library.dll")
Any suggestion on how can this be done?
I recommend handling this at the packaging level so the deployment of v1.0.0 with a different version of Library.dll is treated as a completely new release.
A critical part of deployment automation is knowing what is being deployed and dynamically chaning the dependencies will make your deployments highly volatile as the same version will not contain the same artefacts.
In most cases the adjusted package of v1.0.0 with the updated dependency would need to be tracked through the deployment pipeline just like any other release, whereas if you dynamically changed the artefacts, it could surprisingly have a different dependency on an environment just because a new version is flowing behind it.

Sugested way of working - Jenkins promotions or artifactory releases will deploy a war

We have a jenkins Job that package a WAR snapshot on every commit on SVN.
We also use the Release plugin that generate a versioned WAR on artifactory.
example:web:1.1-SNAPSHOT >> 1.1
We want include the deployment task on the jenkins work flow. On different project we also work with the promote plugin.
We are not sure which is the better approach for work with the automated deployment task, based on the number of future problems that we could found.
The first solution planned is :
Use the release plugin for generate a release stagging.
Use the promotion plugin for authorize the automated deployment.
This promotion launch a different job that download the last available WAR file from artifactory and deploy it.
We have discused if we can do it on the same "promotion action" or found a different solution.
Which solution is the most common for those cases? How we can restrict the accidental deployment of unauthorized versions?
Don't deploy the latest version, since you'll unintentionally deploy the wrong version, sooner or later. Use parameterized builds to deploy a particular version. The deploy-to-artifactory job sets the parameter and uses the parameterized trigger plugin to kick off all deploy-to-machine jobs.
You may want to parameterize all jobs in the pipeline after the deploy-to-artifactory job. I think there are other plugins that put the parameter into an entire pipeline, but I can't see them at the moment. There is a wide range of plugins that you can leverage in this workflow to suit your needs, such as the BuildResultTrigger plugin and the Build Flow plugin. And matrix builds are great for deploying to a range of machines, OSes, etc.