d39ba2e473 | ||
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.github | ||
annotationLib | ||
azure-function-examples | ||
endtoendtests | ||
eng/ci | ||
samples | ||
src | ||
tools | ||
warmup-function | ||
.gitignore | ||
CODEOWNERS | ||
CONTRIBUTING.md | ||
ISSUE_TEMPLATE.md | ||
LICENSE | ||
README.md | ||
SECURITY.md | ||
mvnBuild.bat | ||
mvnBuildSkipTests.bat | ||
package-pipeline.ps1 | ||
pom.xml | ||
setup-tests-pipeline.ps1 | ||
worker.config.json |
README.md
Branch | Status |
---|---|
Dev | |
v3 |
Contributing
Please refer to CONTRIBUTING.md for more information.
Environment Setup
Maven
- Run all maven commands under the root folder of this repository
IntelliJ
- Import the root folder of this repository as an existing project in IntelliJ
- Configure the Language level (under Project Structure -> Modules -> Sources) to 8
Eclipse
- Set workspace to the parent folder of this repository
- Import the root folder of this repository as an existing Maven project in Eclipse
- Configure the project Java compiler compliance level to 1.8
- Set the JRE libraries to JRE 1.8
- "Ignore optional compiler problems" in "Java Build Path" for "target/generated-sources/**/*.java"
Development Cycle
Build
This is a maven based project, thus you can use any command line tools or IDEs which support maven to build it. Here we will use command line as the example (you could configure your own development environment accordingly).
To build the project, you just need to run one command from the root folder of this project:
mvn clean package
And the binary will be built to "./azure-functions-java-worker/target/azure-functions-java-worker-<version>.jar"
.
If you have updated the core interface (azure-functions-java-core), a mvn clean install
is required for your test functions app to reference the latest core package.
Updating Dependencies and Plugins
- Update dependencies
mvn versions:use-latest-versions
- Update plugins
mvn versions:display-plugin-updates
For each of the plugin that displayed, update pom.xml
- Update version
mvn release:update-versions
Debug
The Java worker alone is not enough to establish the functions app, we also need the support from Azure Functions Host. You may either use a published host CLI or use the in-development host. But both of the methods require you to attach to the java process if you want a step-by-step debugging experience.
Published Host
You can install the latest Azure functions CLI tool by:
npm install -g azure-functions-core-tools@core
By default, the binaries are located in "<Home Folder>/.azurefunctions/bin"
. Copy the "<Azure Functions Java Worker Root>/azure-functions-java-worker/target/azure-functions-java-worker-<version>.jar"
to "<Home Folder>/.azurefunctions/bin/workers/java/azure-functions-java-worker.jar"
. And start it normally using:
func start
Latest Host
A developer may also use the latest host code by cloning the git repository Azure Functions Host. Now you need to navigate to the root folder of the host project and build it through:
dotnet restore WebJobs.Script.sln
dotnet build WebJobs.Script.sln
After the build succeeded, set the environment variable "AzureWebJobsScriptRoot"
to the root folder path (the folder which contains the host.json
) of your test functions app; and copy the "<Azure Functions Java Worker Root>/azure-functions-java-worker/target/azure-functions-java-worker-<version>.jar"
to "<Azure Functions Host Root>/src/WebJobs.Script.WebHost/bin/Debug/netcoreapp2.0/workers/java/azure-functions-java-worker.jar"
. Now it's time to start the host:
dotnet ./src/WebJobs.Script.WebHost/bin/Debug/netcoreapp2.0/Microsoft.Azure.WebJobs.Script.WebHost.dll
Note: Remember to remove
"AzureWebJobsScriptRoot"
environment variable after you have finished debugging, because it will also influence thefunc
CLI tool.
Generate JavaDoc
Simply using the following command to do so (if there are dependency errors, run mvn clean install
beforehand):
mvn javadoc:javadoc
Development Notes
Java worker now shades all its jars, to introduce any new jars it is required by the developers to add a section in the pom file to relocate it.
Coding Convention
Version Management
Our version strategy just follows the maven package version convention: <major>.<minor>.<hotfix>-<prerelease>
, where:
<major>
: Increasing when incompatible breaking changes happened<minor>
: Increasing when new features added<hotfix>
: Increasing when a hotfix is pushed<prerelease>
: A string representing a pre-release version
Use SNAPSHOT
pre-release tag for packages under development. Here is the sample workflow:
- Initially the package version is
1.0-SNAPSHOT
. There is no hotfix for SNAPSHOT - Modify the version to
1.0.0-ALPHA
for internal testing purpose. Notice the hotfix exists here - After several BUG fixes, update the version to
1.0.0
. - Create a new development version
1.1-SNAPSHOT
. - Make a new hotfix into
1.0-SNAPSHOT
, and release to version1.0.1
. - New features are added to
1.1-SNAPSHOT
.
Every time you release a non-development version (like 1.0.0-ALPHA
or 1.0.1
), you also need to update the tag in your git repository.
Advanced Java Concepts
Reflection for Type
Primitives have two different type definitions, for example: int.class
(which is identical to Integer.TYPE
) is not Integer.class
.
All Java types are represented by Type
interface, which may be one of the following implementations:
Class<?>
: normal class type likeString
ParameterizedType
: generic class type likeList<Integer>
WildcardType
: generic argument contains question mark like? extends Number
TypeVariable<?>
: generic argument likeT
GenericArrayType
: generic array likeT[]
For the generic type behaviors (including compile-time validation and runtime type erasure) in Java, please refer to Generics in the Java Programming Language .