awslambda is a Caddy plugin that gateways requests from Caddy to AWS Lambda functions.
awslambda proxies requests to AWS Lambda functions using the AWS Lambda Invoke operation. It provides an alternative to AWS API Gateway and provides a simple way to declaratively proxy requests to a set of Lambda functions without per-function configuration.
Given that AWS Lambda has no notion of request and response headers, this plugin defines a standard JSON envelope format that encodes HTTP requests in a standard way, and expects the JSON returned from the Lambda functions to conform to the response JSON envelope format.
Contributors: If you wish to contribute to this plugin, scroll to the bottom of this file to the "Building" section for notes on how to build caddy locally with this plugin enabled.
(1) Proxy all requests starting with /lambda/ to AWS Lambda, using env vars for AWS access keys and region:
awslambda /lambda/
(2) Proxy requests starting with /api/ to AWS Lambda using the us-west-2 region, for functions staring with api- but not ending with -internal. A qualifier is used to target the prod aliases for each function.
awslambda /api/ {
aws_region us-west-2
qualifier prod
include api-*
exclude *-internal
}
awslambda <path-prefix> {
aws_access aws access key value
aws_secret aws secret key value
aws_region aws region name
qualifier qualifier value
include included function names...
exclude excluded function names...
name_prepend string to prepend to function name
name_append string to append to function name
single name of a single lambda function to invoke
strip_path_prefix If true, path and function name are stripped from the path
header_upstream header-name header-value
}
- aws_access is the AWS Access Key to use when invoking Lambda functions. If omitted, the AWS_ACCESS_KEY_ID env var is used.
- aws_secret is the AWS Secret Key to use when invoking Lambda functions. If omitted, the AWS_SECRET_ACCESS_KEY env var is used.
- aws_region is the AWS Region name to use (e.g. 'us-west-1'). If omitted, the AWS_REGION env var is used.
- qualifier is the qualifier value to use when invoking Lambda functions. Typically this is set to a function version or alias name. If omitted, no qualifier will be passed on the AWS Invoke invocation.
- include is an optional space separated list of function names to include. Prefix and suffix globs ('*') are supported. If omitted, any function name not excluded may be invoked.
- exclude is an optional space separated list of function names to exclude. Prefix and suffix globs are supported.
- name_prepend is an optional string to prepend to the function name parsed from the URL before invoking the Lambda.
- name_append is an optional string to append to the function name parsed from the URL before invoking the Lambda.
- single is an optional function name. If set, function name is not parsed from the URI path.
- strip_path_prefix If 'true', path and function name is stripped from the path sent as request metadata to the Lambda function. (default=false)
- header_upstream Inject "header" key-value pairs into the upstream request json. Supports usage of caddyfile placeholders. Can be used multiple times. Comes handy with frameworks like express. Example:
header_upstream X-API-Secret super1337secretapikey
header_upstream X-Forwarded-For {remote}
header_upstream X-Forwarded-Host {hostonly}
header_upstream X-Forwarded-Proto {scheme}
Function names are parsed from the portion of request path following the path-prefix in the
directive based on this convention: [path-prefix]/[function-name]/[extra-path-info] unless single attribute is set.
For example, given a directive awslambda /lambda/, requests to /lambda/hello-world and /lambda/hello-world/abc
would each invoke the AWS Lambda function named hello-world.
The include and exclude globs are simple wildcards, not regular expressions.
For example, include foo* would match food and footer but not buffoon, while
include *foo* would match all three.
include and exclude rules are run before name_prepend and name_append are applied and
are run against the parsed function name, not the entire URL path.
If you adopt a simple naming convention for your Lambda functions, these rules can be used to group access to a set of Lambdas under a single URL path prefix.
name_prepend and name_append allow for shorter names in URLs and works well with tools such
as Apex, which prepend the project name to all Lambda functions. For example, given an URL path
of /api/foo with a name_prepend of acme-api-, the plugin will try to invoke the function
named acme-api-foo.
See Lambda Functions for details on the JSON request and reply envelope formats. Lambda functions that comply with this format may set arbitrary HTTP response status codes and headers.
All examples in this document use the node-4.3 AWS Lambda runtime.
Consider this Caddyfile:
awslambda /caddy/ {
aws_access redacted
aws_secret redacted
aws_region us-west-2
include caddy-*
}
And this Lambda function, named caddy-echo:
'use strict';
exports.handler = (event, context, callback) => {
callback(null, event);
};When we request it via curl we receive the following response, which reflects the
request envelope Caddy sent to the lambda function:
$ curl -s -X POST -d 'hello' http://localhost:2015/caddy/caddy-echo | jq .
{
"type": "HTTPJSON-REQ",
"meta": {
"method": "POST",
"path": "/caddy/caddy-echo",
"query": "",
"host": "localhost:2020",
"proto": "HTTP/1.1",
"headers": {
"accept": [
"*/*"
],
"content-length": [
"5"
],
"content-type": [
"application/x-www-form-urlencoded"
],
"user-agent": [
"curl/7.43.0"
]
}
},
"body": "hello"
}
The request envelope format is described in detail below, but there are three top level fields:
type- always set toHTTPJSON-REQmeta- JSON object containing HTTP request metadata such as the request method and headersbody- HTTP request body (if provided)
Since our Lambda function didn't respond using the reply envelope, the raw reply was sent
to the HTTP client and the Content-Type header was set to application/json automatically.
Let's write a 2nd Lambda function that uses the request metadata and sends a reply using the envelope format.
Lambda function name: caddy-echo-html
'use strict';
exports.handler = (event, context, callback) => {
var html, reply;
html = '<html><head><title>Caddy Echo</title></head>' +
'<body><h1>Request:</h1>' +
'<pre>' + JSON.stringify(event, null, 2) +
'</pre></body></html>';
reply = {
'type': 'HTTPJSON-REP',
'meta': {
'status': 200,
'headers': {
'Content-Type': [ 'text/html' ]
}
},
body: html
};
callback(null, reply);
};If we request http://localhost:2015/caddy/caddy-echo-html in a desktop web browser, the HTML
formatted reply is displayed with a pretty-printed version of the request inside <pre> tags.
In a final example we'll send a redirect using a 302 HTTP response status.
Lambda function name: caddy-redirect
'use strict';
exports.handler = (event, context, callback) => {
var redirectUrl, reply;
redirectUrl = 'https://caddyserver.com/'
reply = {
'type': 'HTTPJSON-REP',
'meta': {
'status': 302,
'headers': {
'Location': [ redirectUrl ]
}
},
body: 'Page has moved to: ' + redirectUrl
};
callback(null, reply);
};If we request http://localhost:2015/caddy/caddy-redirect we are redirected to the Caddy home page.
The request payload sent from Caddy to the AWS Lambda function is a JSON object with the following fields:
type- always the string literalHTTPJSON-REQbody- the request body, or an empty string if no body is provided.meta- a JSON object with the following fields:method- HTTP request method (e.g.GETorPOST)path- URI path without query stringquery- Raw query string (without '?')host- Host client request was made to. May be of the form host:portproto- Protocol used by the clientheaders- a JSON object of HTTP headers sent by the client. Keys will be lower case. Values will be string arrays.
AWS Lambda functions should return a JSON object with the following fields:
type- always the string literalHTTPJSON-REPbody- response bodymeta- optional response metadata. If provided, must be a JSON object with these fields:status- HTTP status code (e.g. 200)headers- a JSON object of HTTP headers. Values must be string arrays.
If meta is not provided, a 200 status will be returned along with a Content-Type: application/json header.
- Request and reply header values must be string arrays. For example:
// Valid
var reply = {
'type': 'HTTPJSON-REP',
'meta': {
'headers': {
'content-type': [ 'text/html' ]
}
}
};
// Invalid
var reply = {
'type': 'HTTPJSON-REP',
'meta': {
'headers': {
'content-type': 'text/html'
}
}
};- Reply must have a top level
'type': 'HTTPJSON-REP'field. The rationale is that since all Lambda responses must be JSON we need a way to detect the presence of the envelope. Without this field, the raw reply JSON will be sent back to the client unmodified.
If you want to modify the plugin and test your changes locally, follow these steps to recompile caddy with the plugin installed:
These instructions are mostly taken from Caddy's README. Note that this process now uses the Go Module system to download dependencies.
- Set the transitional environment variable for Go modules:
export GO111MODULE=on - Create a new folder anywhere and within create a Go file (extension
.go) with the contents below, adjusting to import the plugins you want to include:
package main
import (
"github.com/caddyserver/caddy/caddy/caddymain"
// Register this plugin - you may add other packages here, one per line
_ "github.com/coopernurse/caddy-awslambda"
)
func main() {
// optional: disable telemetry
// caddymain.EnableTelemetry = false
caddymain.Run()
}go mod init caddy- Run
go get github.com/caddyserver/caddy go installwill then create your binary at$GOPATH/bin, orgo buildwill put it in the current directory.
Verify that the plugin is installed:
./caddy -plugins | grep aws
# you should see:
http.awslambdaThese instructions are based on these notes: https://github.com/caddyserver/caddy/wiki/Plugging-in-Plugins-Yourself