Package software.amazon.awscdk.services.lambda.go.alpha
Amazon Lambda Golang Library
---
The APIs of higher level constructs in this module are experimental and under active development. They are subject to non-backward compatible changes or removal in any future version. These are not subject to the Semantic Versioning model and breaking changes will be announced in the release notes. This means that while you may use them, you may need to update your source code when upgrading to a newer version of this package.
This library provides constructs for Golang Lambda functions.
To use this module you will either need to have Go
installed (go1.11
or later) or Docker
installed.
See Local Bundling/Docker Bundling for more information.
This module also requires that your Golang application is using a Go version >= 1.11 and is using Go modules.
Go Function
Define a GoFunction
:
GoFunction.Builder.create(this, "handler") .entry("lambda-app/cmd/api") .build();
By default, if entry
points to a directory, then the construct will assume there is a Go entry file (i.e. main.go
).
Let's look at an example Go project:
lambda-app ├── cmd │ └── api │ └── main.go ├── go.mod ├── go.sum ├── pkg │ ├── auth │ │ └── auth.go │ └── middleware │ └── middleware.go └── vendor ├── github.com │ └── aws │ └── aws-lambda-go └── modules.txt
With the above layout I could either provide the entry
as lambda-app/cmd/api
or lambda-app/cmd/api/main.go
, either will work.
When the construct builds the golang binary this will be translated go build ./cmd/api
& go build ./cmd/api/main.go
respectively.
The construct will figure out where it needs to run the go build
command from, in this example it would be from
the lambda-app
directory. It does this by determining the mod file path, which is explained in the
next section.
mod file path
The GoFunction
tries to automatically determine your project root, that is
the root of your golang project. This is usually where the top level go.mod
file or
vendor
folder of your project is located. When bundling in a Docker container, the
moduleDir
is used as the source (/asset-input
) for the volume mounted in
the container.
The CDK will walk up parent folders starting from
the current working directory until it finds a folder containing a go.mod
file.
Alternatively, you can specify the moduleDir
prop manually. In this case you
need to ensure that this path includes entry
and any module/dependencies used
by your function. Otherwise bundling will fail.
Runtime
The GoFunction
can be used with either the GO_1_X
runtime or the provided runtimes (PROVIDED
/PROVIDED_AL2
).
By default it will use the PROVIDED_AL2
runtime. The GO_1_X
runtime does not support things like
Lambda Extensions, whereas the provided runtimes do.
The aws-lambda-go library has built in support for the provided runtime as long as
you name the handler bootstrap
(which we do by default).
Dependencies
The construct will attempt to figure out how to handle the dependencies for your function. It will
do this by determining whether or not you are vendoring your dependencies. It makes this determination
by looking to see if there is a vendor
folder at the mod file path.
With this information the construct can determine what commands to run. You will generally fall into two scenarios:
- You are using vendoring (indicated by the presence of a
vendor
folder) In this casego build
will be run with-mod=vendor
set - You are not using vendoring (indicated by the absence of a
vendor
folder) If you are not vendoring thengo build
will be run without-mod=vendor
since the default behavior is to download dependencies
All other properties of lambda.Function
are supported, see also the AWS Lambda construct library.
Environment
By default the following environment variables are set for you:
GOOS=linux
GOARCH
: based on the target architecture of the Lambda functionGO111MODULE=on
Use the environment
prop to define additional environment variables when go runs:
GoFunction.Builder.create(this, "handler") .entry("app/cmd/api") .bundling(BundlingOptions.builder() .environment(Map.of( "HELLO", "WORLD")) .build()) .build();
Local Bundling
If Go
is installed locally and the version is >= go1.11
then it will be used to bundle your code in your environment. Otherwise, bundling will happen in a Lambda compatible Docker container with the Docker platform based on the target architecture of the Lambda function.
For macOS the recommended approach is to install Go
as Docker volume performance is really poor.
Go
can be installed by following the installation docs.
Docker
To force bundling in a docker container even if Go
is available in your environment, set the forceDockerBundling
prop to true
. This is useful if you want to make sure that your function is built in a consistent Lambda compatible environment.
Use the buildArgs
prop to pass build arguments when building the bundling image:
GoFunction.Builder.create(this, "handler") .entry("app/cmd/api") .bundling(BundlingOptions.builder() .buildArgs(Map.of( "HTTPS_PROXY", "https://127.0.0.1:3001")) .build()) .build();
Use the bundling.dockerImage
prop to use a custom bundling image:
GoFunction.Builder.create(this, "handler") .entry("app/cmd/api") .bundling(BundlingOptions.builder() .dockerImage(DockerImage.fromBuild("/path/to/Dockerfile")) .build()) .build();
Use the bundling.goBuildFlags
prop to pass additional build flags to go build
:
GoFunction.Builder.create(this, "handler") .entry("app/cmd/api") .bundling(BundlingOptions.builder() .goBuildFlags(List.of("-ldflags \"-s -w\"")) .build()) .build();
By default this construct doesn't use any Go module proxies. This is contrary to a standard Go installation, which would use the Google proxy by default. To recreate that behavior, do the following:
GoFunction.Builder.create(this, "GoFunction") .entry("app/cmd/api") .bundling(BundlingOptions.builder() .goProxies(List.of(GoFunction.GOOGLE_GOPROXY, "direct")) .build()) .build();
You can set additional Docker options to configure the build environment:
GoFunction.Builder.create(this, "GoFunction") .entry("app/cmd/api") .bundling(BundlingOptions.builder() .network("host") .securityOpt("no-new-privileges") .user("user:group") .volumesFrom(List.of("777f7dc92da7")) .volumes(List.of(DockerVolume.builder().hostPath("/host-path").containerPath("/container-path").build())) .build()) .build();
Command hooks
It is possible to run additional commands by specifying the commandHooks
prop:
// This example only available in TypeScript // Run additional commands on a GoFunction via `commandHooks` property new go.GoFunction(this, 'handler', { bundling: { commandHooks: { // run tests beforeBundling(inputDir: string): string[] { return ['go test ./cmd/api -v']; }, // ... }, }, });
The following hooks are available:
beforeBundling
: runs before all bundling commandsafterBundling
: runs after all bundling commands
They all receive the directory containing the go.mod
file (inputDir
) and the
directory where the bundled asset will be output (outputDir
). They must return
an array of commands to run. Commands are chained with &&
.
The commands will run in the environment in which bundling occurs: inside the container for Docker bundling or on the host OS for local bundling.
Additional considerations
Depending on how you structure your Golang application, you may want to change the assetHashType
parameter.
By default this parameter is set to AssetHashType.OUTPUT
which means that the CDK will calculate the asset hash
(and determine whether or not your code has changed) based on the Golang executable that is created.
If you specify AssetHashType.SOURCE
, the CDK will calculate the asset hash by looking at the folder
that contains your go.mod
file. If you are deploying a single Lambda function, or you want to redeploy
all of your functions if anything changes, then AssetHashType.SOURCE
will probably work.
For example, if my app looked like this:
lambda-app ├── cmd │ └── api │ └── main.go ├── go.mod ├── go.sum └── pkg └── auth └── auth.go
With this structure I would provide the entry
as cmd/api
which means that the CDK
will determine that the protect root is lambda-app
(it contains the go.mod
file).
Since I only have a single Lambda function, and any update to files within the lambda-app
directory
should trigger a new deploy, I could specify AssetHashType.SOURCE
.
On the other hand, if I had a project that deployed multiple Lambda functions, for example:
lambda-app ├── cmd │ ├── api │ │ └── main.go │ └── anotherApi │ └── main.go ├── go.mod ├── go.sum └── pkg ├── auth │ └── auth.go └── middleware └── middleware.go
Then I would most likely want AssetHashType.OUTPUT
. With OUTPUT
the CDK will only recognize changes if the Golang executable has changed,
and Go only includes dependencies that are used in the executable. So in this case
if cmd/api
used the auth
& middleware
packages, but cmd/anotherApi
did not, then
an update to auth
or middleware
would only trigger an update to the cmd/api
Lambda
Function.
Docker based bundling in complex Docker configurations
By default the input and output of Docker based bundling is handled via bind mounts. In situtations where this does not work, like Docker-in-Docker setups or when using a remote Docker socket, you can configure an alternative, but slower, variant that also works in these situations.
GoFunction.Builder.create(this, "GoFunction") .entry("app/cmd/api") .bundling(BundlingOptions.builder() .bundlingFileAccess(BundlingFileAccess.VOLUME_COPY) .build()) .build();
-
ClassDescription(experimental) Bundling options.A builder for
BundlingOptions
An implementation forBundlingOptions
(experimental) A Golang Lambda function.(experimental) A fluent builder forGoFunction
.(experimental) Properties for a GolangFunction.A builder forGoFunctionProps
An implementation forGoFunctionProps
(experimental) Command hooks.Internal default implementation forICommandHooks
.A proxy class which represents a concrete javascript instance of this type.