This template contains everything you need to write an app for the d.velop cloud.
To demonstrate all the aspects of app development the hypothetical but not trivial use case of an employee applying for vacation is implemented.
Just clone this repo and follow the build instructions to get the sample app up and running. After this adjust the code to fit the purpose of your own business problem/app.
A linux docker container is used for the build and deployment process of the app. So besides docker the only thing you need on your local development system is a git client and an editor or IDE for C#.
To develop a d.velop cloud app you will need to install .NET Core SDK 3.1. Newer versions of the SDK will also work, but keep in mind, that AWS Lambda will only support LTS versions of .NET Core
.
If you use Microsoft Visual Studio you will need "ASP.NET and web development", ".NET desktop development" and ".NET Core cross-platform development" workloads installed.
Build the image for your app's build container (Dockerfile).
Adjust the APPNAME
and if needet the BUILDCONTAINER
vars in docker-build.bat and docker-build.sh to match
the name of your app. And execute the build with
docker-build build
This will build a self contained web application dist/windows_<rev>.zip
for windows, which can be used to run and test your app as a local process on your
dev system and a deployment packages for aws lambda dist/lambda_code_<rev>.zip
which should be used for the production deployment of your app in d.velop cloud.
Just extract the newest dist/windows_<rev>.zip
and run the included HostApplication.exe
to run and test your app on a local environment.
Please keep in mind, that some functions like authentication
which require the presence of additional apps (e.g. IdentityProviderApp), won't work because these apps are not available on your local system.
If you build and run the application from an IDE, keep in mind, that there may be some issues, if the IDE and the build-container are using the same folders.
You should change the name of the app so that it reflects the business problem you would like to solve.
Each appname in d.velop cloud must be unique. To facilitate this every provider/company chooses a unique provider prefix which serves as a namespace for the apps of this provider. The prefix can be selected during the registration process in d.velop cloud. If you choose a provider prefix which corresponds to your company name or an abbreviation of the company name it's very likely that it is available when you later register your app in d.velop cloud.
For example if your company is named Super Duper Software Limited and the domain of your app
is employees applying for vacation your app should be named
something like superduperltd-vacationprocess
App. Note that the App
suffix isn't used in the configuration files.
Apps belonging to the core d.velop cloud platform don't have a provider prefix.
Use the rename
target to rename your app:
docker-build rename NAME=NEW_APP_NAME
Furthermore you might want to adjust the following values manually:
- Change the
DOMAIN_SUFFIX
to a domain you own likeyourcompany.com
Please finish at least step 1 and step 2 before you deploy your app because the names of a lot of
AWS resources are derived from the APP_NAME
and DOMAIN_SUFFIX
. Changing them afterwards requires a
redeployment of the AWS resources which takes some time.
Please read Rename the app before you proceed with the deployment.
You need an AWS Account to deploy your app. At the time of writing some of the AWS services are free to use for a limited amount of time and workload. Check the Free Tier offering from AWS for the current conditions.
Manually create an IAM user with
the appropriate rights to create the AWS resources defined by your terraform configuration.
You could start with a user who has the arn:aws:iam::aws:policy/AdministratorAccess
policy to start quickly,
but you should definitely restrict the rights of that IAM user to a minimum as soon as you go into production.
Configure your AWS credentials by using one of the methods described in
Configuring the AWS CLI.
For example set the AWS_ACCESS_KEY_ID
and AWS_SECRET_ACCESS_KEY
environment variables.
Windows
SET AWS_ACCESS_KEY_ID=<YOUR-ACCESS-KEY-ID>
SET AWS_SECRET_ACCESS_KEY=<YOUR-SECRET-ACCESS-KEY>
Linux
export AWS_ACCESS_KEY_ID=<YOUR-ACCESS-KEY-ID>
export AWS_SECRET_ACCESS_KEY=<YOUR-SECRET-ACCESS-KEY>
The environment
must not contain any secrets or set environmet variables itself.
This file contains a list of keys for environmentvariables, which should be made available within the docker-Container. The variables are copied into the container by the docker-build.bat and docker-build.sh scripts.
Deploy the lambda function and all other AWS Ressources like AWS API Gateway.
docker-build deploy
The build container uses Terraform to manage the AWS ressources and to deploy your lambda function. This tool implements a desired state mechanism which means the first execution will take some time to provision all the required AWS ressources. Consecutive executions will only deploy the difference between the desired state (e.g. the new version of your lambda function) and the state which is already deployed (other AWS ressources which won't change between deployments) and will be much quicker.
The endpoint URLs are logged at the end of the deployment. Just invoke them in a browser to test your app.
Apply complete! Resources: 0 added, 0 changed, 0 destroyed.
Outputs:
endpoint = [
https://xxxxxxxxxx.execute-api.eu-central-1.amazonaws.com/prod/vacationprocess/,
https://xxxxxxxxxx.execute-api.eu-central-1.amazonaws.com/dev/vacationprocess/
]
To watch the current deployment state you can invoke
docker-build show
at any time without changing your deployment.
Just follow the deployment steps. A new deployment package for the lambda function will be build automatically.
The terraform deployment configuration contains 2 additonal modules which are disabled by default.
Just uncomment the corresponding lines in /terraform/main.tf
to use them but ensure that the DNS resolution
for your hosted zone works before you use these modules. Read the comments in the terraform file.
This module uses aws cloudfront as a CDN for your static assets. Furthermore it allows you to define a custom domain for your assets instead of the s3 URL. Your deployment should work perfectly without this module.
This module allows you to define a custom domain for your app endpoints. A custom domain name is required as soon as you register your app in the d.velop cloud center because the base path of your app must begin with the name of your app. So instead of the default endpoints
https://xxxxxxxxxx.execute-api.eu-central-1.amazonaws.com/prod/vacationprocess/
https://xxxxxxxxxx.execute-api.eu-central-1.amazonaws.com/dev/vacationprocess/
which base paths begin with /prod
or /dev
you need endpoints like
https://vacationprocess.xyzdomain.tld/vactionprocess
https://dev.vacationprocess.xyzdomain.tld/vactionprocess
which are provided by this module.
This project is built with a simplified hexagonal architecture pattern in mind.
Some important key aspects are:
- The domain logic must not have any knowledge about the hosting environment
- All external systems and ressources (like databases for instance) are
hidden
behind an interface, which are defined by thedomain layer
. - For every external system there is an adapter, which implements the domain-spefic interface and 'glues' it to the concrete implementation.
Example:
The domain logic needs to add, update and list vacations. The interface is defined in Domain/Repositories/IVacationRepository.cs as
public interface IVacationRepository
{
Guid AddVacation(VacationModel vacation);
bool UpdateVacation(VacationModel vacation);
IEnumerable<VacationModel> Vacations { get; }
}
There are two different implementations for this interface. One for AWS-lambda (DynamoDb (Fake)) and another for the self hosted environment (InMemoryDb).
Contains the EntryPoint for AWS-Lambda. This project will be used to bootstrap your AWS-Lambda application.
You can add AWS-lambda specific ASP.NET Core settings in LambdaEntryPoint.cs
Contains the EntryPoint for AWS-Lambda. This project will be used to start your App locally.
You can specific ASP.NET Core settings in Program.cs
Contains Controller, Views, static assets and Web-Api specific code.
Folderstructure
The folder Constraints
contains a Constraint to enable Content Negotiation for ASP.NET Core 2.1. For more information about this topic visit AspNetCore at Github
All WebApi-Controller are stored within Controller
. The DTOs and ViewModel-classes are also stored in this folder.
Formatter
contains a pre-configured Input- and Outputformatter for application/hal+json
. For more information about hypermedia visit the IETF Draft
Pages
contains an example for a Razor-Page.
Views
contains MVC-Views. The folder structure within the Views
folder should be identical to the structure within the Controller
folder.
wwwroot
contains static assets. If you want to include some frontendcode like an Angular-Single-page App for instance, you will need to configure the frontend buildprocess to output the assets into this directory. All files in this folder (expect *.html
) will be copied into the S3 bucket for your assets (See: Makefile: deploy-assets). The deployment process docker-build deploy
will create a hash over all files in this directory and create a S3 prefix to enable unlimitted caching.
In this Folder are several projects to implement the interfaces defined by the Domain
project.
You can separate different implementation for AWS lambda and a self-hosted environment by creating more than one project.
Example: AWS lambda uses a DynamoDb (Fake) to implement IVacationRepository.cs.
The self hosted environment has no persistence and uses a InMemoryDb for testing.
Contains your Domain Secifc Logic and should have no dependencies to any environment specific library or code to ensure a high testability.
Contains the Dockerfile
for the buildenvironment. It is kept in a seperate directory to keep the buildcontext small so that the image can be build as fast as possible.
Contains the terraform files.
Please read CONTRIBUTING.md for details on our code of conduct, and the process for submitting pull requests to us.
Please read LICENSE for licensing information.