Plugins in Other Languages
Introduction
External plugins are those that run on a process separate from Kong Gateway itself, enabling the use of any programming language for which an appropriate plugin server is available.
Each plugin server hosts one or more plugins and communicates with the main Kong Gateway process through Unix sockets. If so configured, Kong Gateway can manage those processes, starting, restarting and stopping as necessary.
Kong Gateway currently maintains a Go language plugin server, go-pluginserver, the corresponding PDK library package go-pdk, the JavaScript language support kong-js-pdk and Python language support kong-python-pdk.
Kong Gateway plugin server configuration
The pluginserver_names
property is a comma-separated list of names, one for each plugin server process. These names are used to group each process’ properties and to annotate log entries.
For each name, other properties can be defined:
Property | Description | Default |
---|---|---|
pluginserver<NAME>_socket | Unix socket path | /usr/local/kong/<NAME>.socket |
pluginserver<NAME>start_cmd | Command to start the plugin server process | /usr/local/bin/<NAME> |
pluginserver<NAME>query_cmd | Command to dump available plugins’ info | /usr/local/bin/query<NAME> |
For example, you could set Go and Python plugins like this (assuming an hypothetical Python plugin server called pypluginserver.py
):
pluginserver_names = go,python
pluginserver_go_socket = /usr/local/kong/go_pluginserver.sock
pluginserver_go_start_cmd = /usr/local/bin/go-pluginserver -kong-prefix /usr/local/kong/ -plugins-directory /usr/local/kong/go-plugins
pluginserver_go_query_cmd = /usr/local/bin/go-pluginserver -dump-all-plugins -plugins-directory /usr/local/kong/go-plugins
pluginserver_python_socket = /usr/local/kong/python_pluginserver.sock
pluginserver_python_start_cmd = /usr/local/bin/kong-python-pluginserver
pluginserver_python_query_cmd = /usr/local/bin/kong-python-pluginserver --dump-all-plugins
To enable those plugins, add the each plugin name to the plugins
config. Assume we have those hello plugins in each language:
plugins = bundled, go-hello, js-hello, py-hello
Note: The
pluginserver_XXX_start_cmd
andpluginserver_XXX_query_cmd
commands use a limited defaultPATH
variable. In most cases, you have to specify the full executable path instead.
Legacy configuration
Kong Gateway versions 2.0.x to 2.2.x supported only Go external plugins and a single plugin server using a different configuration style. Starting with Kong Gateway version 2.3, the old style is recognized and internally transformed to the new style.
If property pluginserver_names
isn’t defined, the legacy properties go_plugins_dir
and go_pluginserver_exe
are tried:
Property | Description | Default |
---|---|---|
go_plugins_dir | Directory with Go plugins | off , meaning to disable Go plugins |
go_pluginserver_exe | Path to the go-pluginserver executable | /usr/local/bin/go-pluginserver |
Notes:
- The old style doesn’t allow multiple plugin servers.
- Version 0.5.0 of go-pluginserver requires the old style configuration.
- The new style configuration requires v0.6.0 of go-pluginserver
Developing Go plugins
Kong Gateway support for the Go language consist of two parts:
- go-pdk as a library, provides Go functions to access Kong Gateway features of the PDK.
- go-pluginserver an executable to dynamically load plugins written in Go.
Notes:
The Kong Gateway version 2.3 allows multiple plugin servers; in particular it’s now possible to write single-plugin servers, in effect plugins as microservices. To help with this, version v0.6.0 of the go-pdk package includes an optional plugin server. See Embedded Server for more information.
The go-pluginserver process is still supported. Its main advantage is that it’s a single process for any number of plugins, but the dynamic loading of plugins has proven challenging under the Go language (unlike the microservice architecture, which is well supported by the language and tools).
Development
To write a Kong Gateway plugin in Go, you need to:
- Define a structure type to hold configuration.
- Write a
New()
function to create instances of your structure. Add methods on that structure to handle phases.
If you want a dynamically-loaded plugin to be used with go-pluginserver:
Compile your Go plugin with
go build -buildmode plugin
.Put the resulting library (the
.so
file) into thego_plugins_dir
directory.If you want a standalone plugin microservice:
Include the
go-pdk/server
sub-library.- Add a
main()
function that callsserver.StartServer(New, Version, Priority)
. - Compile as an executable with
go build
.
Note: Check out this repository for example Go plugins.
1. Configuration Structure
Plugins written in Lua define a schema to specify how to read and validate configuration data coming from the datastore or the Admin API. Since Go is a statically-typed language, all that specification is handled by defining a configuration structure:
type MyConfig struct {
Path string
Reopen bool
}
Public fields (that is, those starting with a capital letter) will be filled with configuration data. If you want them to have a different name in the datastore, add field tags as defined in the encoding/json
package:
type MyConfig struct {
Path string `json:my_file_path`
Reopen bool `json:reopen`
}
2. New() Constructor
Your plugin must define a function called New
that creates an instance of this type and returns as an interface{}
. In most cases, it’s just this:
func New() interface{} {
return &MyConfig{}
}
You can add more fields to the structure and they’ll be passed around, but there are no guarantees about the lifetime or quantity of configuration instances.
3. Phase Handlers
Similarly to Kong Gateway Lua plugins, you can implement custom logic to be executed at various points of the request processing lifecycle. For example, to execute custom Go code in the access phase, define a function named Access
:
func (conf *MyConfig) Access (kong *pdk.PDK) {
...
}
The phases you can implement custom logic for are as follows, and the expected function signature is the same for all of them:
Certificate
Rewrite
Access
Response
Preread
Log
Similar to Lua plugins, the presence of the Response
handler automatically enables the buffered proxy mode.
4. Version and Priority
Similarly to Kong Gateway Lua plugins, you can define the version number and priority of execution by having following lines in plugin code:
const Version = "1.0.0"
const Priority = 1
Kong Gateway executes plugins from highest priority to lowest ones.
Embedded server
Each plugin can be a microservice, compiled as a standalone executable.
To use the embedded server, include github.com/Kong/go-pdk/server
in the imports list, and add a main()
function:
func main () {
server.StartServer(New, Version, Priority)
}
Note that the main()
function must have a package main
line at the top of the file.
Then, a standard Go build creates an executable. There are no extra go-pluginserver, no plugin loading, and no compiler/library/environment compatibility issues.
The resulting executable can be placed somewhere in your path (for example, /usr/local/bin
). The common -h
flag shows a usage help message:
$ my-plugin -h
Usage of my-plugin:
-dump
Dump info about plugins
-help
Show usage info
-kong-prefix string
Kong prefix path (specified by the -p argument commonly used in the Kong CLI) (default "/usr/local/kong")
When run without arguments, it creates a socket file with the kong-prefix
and the executable name, appending .socket
. For example, if the executable is my-plugin
, it would be /usr/local/kong/my-plugin.socket
by default.
Example configuration
Two standalone plugins, called my-plugin
and other-one
:
pluginserver_names = my-plugin,other-one
pluginserver_my_plugin_socket = /usr/local/kong/my-plugin.socket
pluginserver_my_plugin_start_cmd = /usr/local/bin/my-plugin
pluginserver_my_plugin_query_cmd = /usr/local/bin/my-plugin -dump
pluginserver_other_one_socket = /usr/local/kong/other-one.socket
pluginserver_other_one_start_cmd = /usr/local/bin/other-one
pluginserver_other_one_query_cmd = /usr/local/bin/other-one -dump
Note that the socket and start command settings coincide with their defaults, so they can be omitted:
pluginserver_names = my-plugin,other-one
pluginserver_my_plugin_query_cmd = /usr/local/bin/my-plugin -dump
pluginserver_other_one_query_cmd = /usr/local/bin/other-one -dump
Developing JavaScript plugins
Kong Gateway support for the JavaScript language is provided by kong-js-pdk. The library provides a plugin server to provide runtime for JavaScript plugins, and functions to access Kong Gateway features of the PDK.
TypeScript is also supported in the following ways:
- kong-js-pdk includes type definitions for PDK functions that allow type checking when developing plugins in TypeScript.
- Plugin written in TypeScript can be loaded directly and transpiled on the fly.
Example configuration
kong-js-pdk can be installed using npm
. To install the plugin server binary globally:
npm install kong-pdk -g
Assume the plugins are stored in /usr/local/kong/js-plugins
:
pluginserver_names = js
pluginserver_js_socket = /usr/local/kong/js_pluginserver.sock
pluginserver_js_start_cmd = /usr/local/bin/kong-js-pluginserver --plugins-directory /usr/local/kong/js-plugins
pluginserver_js_query_cmd = /usr/local/bin/kong-js-pluginserver --plugins-directory /usr/local/kong/js-plugins --dump-all-plugins
Development
Install kong-js-pdk in your local development directory:
npm install kong-pdk --save
A valid JavaScript plugin implementation should export the following object:
module.exports = {
Plugin: KongPlugin,
Schema: [
{ message: { type: "string" } },
],
Version: '0.1.0',
Priority: 0,
}
Plugin
attribute defines the class that implements this plugin. Schema
defines the config schema of plugin, it shares the same syntax as it’s a Lua plugin. Version
and Priority
defines the version number and priority of execution respectively.
Note: Check out this repository for example JavaScript and TypeScript plugins.
1. Phase Handlers
Similarly to Kong Gateway Lua plugins, you can implement custom logic to be executed at various points of the request processing lifecycle. For example, to execute custom JavaScript code in the access phase, define a function named access
:
class KongPlugin {
constructor(config) {
this.config = config
}
async access(kong) {
// ...
}
}
The phases you can implement custom logic for are as follows, and the expected function signature is the same for all of them:
certificate
rewrite
access
response
preread
log
Similar to Lua plugins, the presence of the response
handler automatically enables the buffered proxy mode.
2. PDK functions
kong-js-pdk invokes PDK functions in Kong through network-based IPC (inter-process communication). So each function returns a Promise instance; it’s convenient to use async
/await
keywords in phase handlers for better readability.
class KongPlugin {
constructor(config) {
this.config = config
}
async access(kong) {
let host = await kong.request.getHeader("host")
// do something to host
}
}
Or consume Promise in a traditional way:
class KongPlugin {
constructor(config) {
this.config = config
}
async access(kong) {
kong.request.getHeader("host")
.then((host) => {
// do something to host
})
}
}
3. Plugin dependencies
When using the plugin server, plugins are allowed to have extra dependencies, as long as the directory that holds plugin source code also includes a node_modules
directory.
Assuming plugins are stored under /usr/local/kong/js-plugins
, the extra dependencies are then defined in /usr/local/kong/js-plugins/package.json
. Developers also need to run npm install
under /usr/local/kong/js-plugins
to install those dependencies locally into /usr/local/kong/js-plugins/node_modules
.
Note in this case, the node version and architecture that runs the plugin server and the one that runs npm install
under plugins directory must match. For example, it may break when you run npm install
under macOS and mount the working directory into a Linux container.
Testing
kong-js-pdk provides a mock framework to test plugin code correctness through jest
.
Install jest
as a development dependency, and add the test
script in package.json
:
npm install jest --save-dev
The package.json
has content similar to the following:
{
"scripts": {
"test": "jest"
},
"devDependencies": {
"jest": "^26.6.3",
"kong-pdk": "^0.3.2"
}
}
Run the test through npm with:
npm test
Note: Check out this repository for examples on how to write test using jest
.
Developing Python plugins
Kong Gateway support for the Python language is provided by kong-python-pdk. The library provides a plugin server to provide runtime for Python plugins, and functions to access Kong Gateway features of the PDK.
Example configuration
kong-python-pdk can be installed using pip
. To install the plugin server binary and PDK globally, use:
pip3 install kong-pdk
Assume the plugins are stored in /usr/local/kong/python-plugins
:
pluginserver_names = python
pluginserver_python_socket = /usr/local/kong/python_pluginserver.sock
pluginserver_python_start_cmd = /usr/local/bin/kong-python-pluginserver --plugins-directory /usr/local/kong/python-plugins
pluginserver_python_query_cmd = /usr/local/bin/kong-python-pluginserver --plugins-directory /usr/local/kong/python-plugins --dump-all-plugins
Development
A valid Python plugin implementation has following attributes:
Schema = (
{ "message": { "type": "string" } },
)
version = '0.1.0'
priority = 0
class Plugin(object):
pass
A class named Plugin
defines the class that implements this plugin. Schema
defines the config schema of plugin, it shares the same syntax as it’s a Lua plugin. version
and priority
defines the version number and priority of execution respectively.
Note: Check out this repository for example Python plugins and API reference.
1. Phase Handlers
Similarly to Kong Gateway Lua plugins, you can implement custom logic to be executed at various points of the request processing lifecycle. For example, to execute custom Go code in the access phase, define a function named access
:
class Plugin(object):
def __init__(self, config):
self.config = config
def access(self, kong):
pass
The phases you can implement custom logic for are as follows, and the expected function signature is the same for all of them:
certificate
rewrite
access
response
preread
log
Similar to Lua plugins, the presence of the response
handler automatically enables the buffered proxy mode.
2. Type hints
kong-python-pdk supports type hint in Python 3.x. To use type lint and autocomplete in IDE, user can annotate the kong
parameter in phase handler:
import kong_pdk.pdk.kong as kong
class Plugin(object):
def __init__(self, config):
self.config = config
def access(self, kong: kong.kong):
host, err = kong.request.get_header("host")
Embedded server
Each plugin can be a microservice. To use the embedded server, use the following code:
if __name__ == "__main__":
from kong_pdk.cli import start_dedicated_server
start_dedicated_server("py-hello", Plugin, version, priority)
Note the first argument to start_dedicated_server
defines the plugin name and must be unique across all languages.
Example configuration
Two standalone plugins, called my-plugin
and other-one
:
pluginserver_names = my-plugin,other-one
pluginserver_my_plugin_socket = /usr/local/kong/my-plugin.socket
pluginserver_my_plugin_start_cmd = /path/to/my-plugin.py
pluginserver_my_plugin_query_cmd = /path/to/my-plugin.py --dump
pluginserver_other_one_socket = /usr/local/kong/other-one.socket
pluginserver_other_one_start_cmd = /path/to/other-one.py
pluginserver_other_one_query_cmd = /path/to/other-one.py -dump
Note that the socket and start command settings coincide with their defaults, so they can be omitted:
pluginserver_names = my-plugin,other-one
pluginserver_my_plugin_query_cmd = /path/to/my-plugin --dump
pluginserver_other_one_query_cmd = /path/to/other-one --dump
Concurrency model
Python plugin server and embedded server supports multiple concurrency model. By default, the server starts in multi-threading mode.
If your workload is IO intensive, consider the gevent model by adding -g
to pluginserver’s start_cmd. If your workload is CPU intensive, consider the multi-processing model by adding -m
to pluginserver’s start_cmd.
Performance for external plugins
Depending on implementation details, Go plugins are able to use multiple CPU cores and so perform best on a multi-core system. JavaScript plugins are currently single-core only and there’s no dedicated plugin server support. Python plugins can use a dedicated plugin server to span workload to multiple CPU cores as well.
Unlike Lua plugins where invoking PDK functions are handled in local processes, calling PDK functions in external plugins implies inter-process communications and so is a relatively expensive operation. Because of the expense of calling PDK functions in external plugins, the performance of Kong using external plugins is highly related to the number of IPC (inter-process communication) calls in each request.
The following graph demonstrates the correlation between performance and count of IPC calls per request. Numbers of RPS and latency are removed as they are dependent on hardware and to avoid confusion.
Use external plugins in container and Kubernetes
To use plugins requiring external plugin servers, both the plugin servers and the plugins themselves need to be installed inside the Kong Gateway container.
For plugins written in Golang, build external plugins in embedded server mode in a builder container and copy or mount the binary artifacts into the Kong Gateway container. For plugins written in JavaScript, first install Node and npm
, then use npm
to install kong-pdk
, and finally copy or mount the plugins source code into the Kong Gateway container. For plugins written in Python, install Python and pip
. Then use pip
to install kong-pdk
. Finally, copy or mount the plugin’s source code into the Kong Gateway container.
Refer to previous sections on how to configure Kong Gateway after you build the image or create the container.
Note: Official Kong Gateway images are configured to run as the
nobody
user. When building a custom image, to copy files into the Kong Gateway image, you must temporarily set the user toroot
.
FROM kong
USER root
# Example for GO:
COPY your-go-plugin /usr/local/bin/your-go-plugin
# Example for JavaScript:
RUN apk update && apk add nodejs npm && npm install -g kong-pdk
COPY you-js-plugin /path/to/your/js-plugins/you-js-plugin
# Example for Python
# PYTHONWARNINGS=ignore is needed to build gevent on Python 3.9
RUN apk update && \
apk add python3 py3-pip python3-dev musl-dev libffi-dev gcc g++ file make && \
PYTHONWARNINGS=ignore pip3 install kong-pdk
COPY you-py-plugin /path/to/your/py-plugins/you-py-plugin
# reset back the defaults
USER kong
ENTRYPOINT ["/docker-entrypoint.sh"]
EXPOSE 8000 8443 8001 8444
STOPSIGNAL SIGQUIT
HEALTHCHECK --interval=10s --timeout=10s --retries=10 CMD kong health
CMD ["kong", "docker-start"]