Tests all of our commonly used examples.
Also sets test parallelism to 10 by default
since we are I/O bound on API calls to
the resource providers.
Also avoids using larger EC2 examples in
our samples so that we can keep our test
costs lower :-).
We now have enough output properties implementation
working to change our API gateway examples and API
wrapper to correctly wire the API routes to the ARNs of
lambdas passed in to them.
We both wire up the lambda to the route, but also create
a permission specific to each route to assign to the
corresponding lambda - providing least privelege needed
for the API definition.
Also adds `string#toUpperCase` and fixes NewUniqueHex
to match how we are using it.
The aws.serverless.API component was previously relying
on the fact that Lumi delayed resource creation until the
program was done executing. With the changes to execution
for output properties, this no longer works.
For now, we will address this by change API to create the
RestAPI resource at the time of `publish`, after all of the
routes are already defined.
Adds an initial cut at a demo script along with
a raw version of the serverless example that
is a better stepping stone between the low-level
AWS infrastructure providers and the high-level
`aws.serverless` APIs.
LumiJS lambdas can now be serialized when they include calls to other LumiJS lambdas. The chain of lambda dependencies is jointly serialized into the target Lambda.
Also, LumiJS lambdas now include `node_modules` automatically in the AWS Lambda, ensuring the the runtime execution environment more closely matches the deployment time environment.
An early version of the gh-cicd example supporting #134 is added which uses these capabilities, currently including a mocked GitHub resource provider.
For lambdas which will execute at runtime,
we want to allow them to reference Node.js
global variables, like `console`.
This change makes Lumijs generated IL
incrementally more dynamic by preferring to
generate `TryLoadDynamic` over `LoadLocation`
for references to global variables (except for
references to imports).
Also introduces `console.log` in LumiJS, though
it is not yet attached to a Lumi global environment.
Fixes#174.
The scope chain currently does not include module-scope
vairables, which are instead stored on a module object. For
now, we are capturing this module object along with the
scope chain as part of a Lambda object so that we can use
it when evaluating variable references within a lambda
expression.
Fixes#175.
In the places we run `go build`, we should use
`go build -i` to save the `.a` files generated
during the build. This ensures the artifacts
are availble for other Go tools (linters, IDEs), and
should also improve build speeds.
The AssumeRolePolicyDocument property returned by the AWS IAM GetRole API returns
a URL-encoded JSON string, so we need to decode this before JSON unmarshalling.
The Code property returned by AWS Lambda GetFunction provides a pre-signed S3 URL,
which changes on each call, and is of a different format to what is provided by the user.
For now, we'll not store this back into the Function object.
Add additional output properties to AWS Lambda Function that are stable values returned
from GetFunction.
Also corrects a gap where some property delete operations were not being correctly reported.
This new package is similar to the AWS Serverless Application Model, offering
higher-level interfaces to manage serverless resources. This will be a candidate
for moving into its own package in the future.
The FunctionX class has been moved into this module, and a new API class has
been added
The API class manages a collection of an API Gateway RestAPI, Stage and Deployment,
based on a collection of routes linked to Functions. On changes to the API specification,
it updates the RestAPI, replaces the Deployment and updates the Stage to point to
the updated Deployment.
This change also reorganizes some of the intrinsics.
Adds support for global secondary indexes on DynamoDB Tables.
Also adds a HashSet API to the AWS provider library. This handles part of #178,
providing a standard way for AWS provider implementations to compute set-based
diffs. This new API is used in both aws.dynamodb.Table and aws.elasticbeanstalk.Environment
currently.
Resolves#137.
This is an initial pass for supporting JavaScript lambda syntax for defining an AWS Lambda Function.
A higher level API for defining AWS Lambda Function objects `aws.lambda.FunctionX` is added which accepts a Lumi lambda as an argument, and uses that lambda to generate the AWS Lambda Function code package.
LumiJS lambdas are serialized as the JavaScript text of the lambda body, along with a serialized version of the environment that is deserialized at runtime and used as the context for the body of the lambda.
Remaining work to further improve support for lambdas is being tracked in #173, #174, #175, and #177.
Unifies the notion of BuiltinFunctions with the existing Intrinsic.
Intrinsic is now only a wrapper type, used to indicate the need to lookup the symbol in the
eval pacakges table of registered intrinsics. It does not carry the invoker function used
to eval the intrinsic.
This change keeps the lumi prefix on our CLI tools.
As @lukehoban pointed out in person, as soon as we do pulumi/coconut#98,
most people (other than compiler authors themselves) won't actually be
typing the commands. And, furthermore, the commands aren't all that bad.
Eventually I assume we'll want something like `lumi-js`, or
`lumi-js-compiler`, so that binaries are discovered dynamically in a way
that is extensible for future languages. We can tackle this during #98.
This is a sample serverless function, written in Node.js, and exposed
over an HTTP API gateway endpoint.
It even works! (For Kubernetes Fission; the AWS support is dependent
upon projecting the various API gateway resource providers...)
This changes the example security analyzer from acmecorp/security
to just infosec, to reinforce that we will have certain analyzers
"out of the box" (infosec, cost, etc.)
* Rename the sample from ec2instance to webserver.
* Factor out the AMI map stuff into the AWS library, rather than the sample.
* Strongly type the instance type parameter using the aws.ec2.InstanceType union.
* Add a new webserver-comp example that demonstrates a bit of the ability to do
encapsulation, componentization, and multi-instantiation.