Awesome
Introduction
ControllerBus is a framework for communicating control loops:
- Configurable: flexible self-documenting config with Protobuf and YAML.
- Cross-platform: supports web browsers, servers, desktop, mobile, ...
- Hot-loadable: plugins and IPC dynamically add controllers at runtime.
- Modular: easily combine together application components w/o glue code.
- Declarative: de-duplicated declarative requests between controllers.
The primary concepts are:
- Config: configuration for a controller or process.
- Controller: goroutine which can create & handle Directives.
- Directive: a cross-controller request or declaration of target state.
- Bus: communication channel between running Controllers.
- Factory: constructor for controller and configuration objects.
Controller Bus provides a pattern for structuring modular Go projects.
Examples
Basic demo of the controllerbus daemon and ConfigSet format:
cd ./cmd/controllerbus
go build -v
./controllerbus daemon
This will load controllerbus_daemon.yaml and execute the boilerplate demo:
added directive directive="LoadControllerWithConfig<config-id=controllerbus/configset>"
added directive directive="ExecController<config-id=controllerbus/configset"
added directive directive="LoadConfigConstructorByID<config-id=controllerbus/example/boilerplate>"
starting controller controller=controllerbus/configset
added directive directive="ApplyConfigSet<controller-keys=boilerplate-example-0@1>"
added directive directive="LoadControllerWithConfig<config-id=controllerbus/bus/api>"
removed directive directive="LoadConfigConstructorByID<config-id=controllerbus/example/boilerplate>"
added directive directive="ExecController<config-id=controllerbus/bus/api>"
executing controller config-key=boilerplate-example-0 controller=controllerbus/configset
starting controller controller=controllerbus/bus/api
grpc api listening on: :5110
added directive directive="LoadControllerWithConfig<config-id=controllerbus/example/boilerplate>"
added directive directive="ExecController<config-id=controllerbus/example/boilerplate>"
starting controller controller=controllerbus/example/boilerplate
hello from boilerplate controller 1: hello world controller=controllerbus/example/boilerplate
controller exited normally controller=controllerbus/example/boilerplate exec-dur="31.053µs"
ConfigSet
ConfigSet is a key/value set of controller configurations to load.
The following is an example ConfigSet in YAML format for a program:
example-1:
# configuration object
config:
exampleField: "Hello world!"
# ID of the configuration type
id: controllerbus/example/boilerplate
# rev # for overriding previous configs
rev: 1
In this case, example-1 is the ID of the controller. If multiple ConfigSet are
applied with the same ID, the latest rev wins. The ConfigSet controller
will automatically start and stop controllers as ConfigSets are changed.
How does it work?
Controllers are executed by attaching them to a Bus. When attaching to a Bus, all ongoing Directives are passed to the new Controller. The Controllers can return Resolver objects to resolve result objects for Directives.
There are multiple ways to start a Controller:
AddController: with the Go API: construct & add the controller.AddDirective->ExecControllerWithConfig: with a directive.- yaml/json: resolving human-readable configuration to Config objects.
Config objects are Protobuf messages with attached validation functions. They can be hand written in YAML and parsed to Protobuf or be created as Go objects.
Protobuf Configuration
The boilerplate example has the following configuration proto:
// Config is the boilerplate configuration.
message Config {
// ExampleField is an example configuration field.
string example_field = 1;
}
This is an example YAML configuration for this controller:
exampleField: "Hello world!"
With the Go API, we can use the LoadControllerWithConfig directive to execute the controller with a configuration object:
bus.ExecOneOff(
ctx,
cb,
resolver.NewLoadControllerWithConfig(&boilerplate_controller.Config{
ExampleField: "Hello World!",
}),
nil,
)
Daemon and API
The example daemon has an associated client and CLI for the Bus API, for example:
$ controllerbus client exec -f controllerbus_daemon.yaml
{
"controllerInfo": {
"version": "0.0.1",
"id": "controllerbus/example/boilerplate"
},
"status": "ControllerStatus_RUNNING",
"id": "boilerplate-example-0"
}
The bus service has the following API:
// ControllerBusService is a generic controller bus lookup api.
service ControllerBusService {
// GetBusInfo requests information about the controller bus.
rpc GetBusInfo(GetBusInfoRequest) returns (GetBusInfoResponse) {}
// ExecController executes a controller configuration on the bus.
rpc ExecController(controller.exec.ExecControllerRequest) returns (stream controller.exec.ExecControllerResponse) {}
}
The RPC API is itself implemented as a controller, which can be configured:
grpc-api:
config:
listenAddr: ":5000"
busApiConfig:
enableExecController: true
id: controllerbus/bus/api
rev: 1
For security, the default value of enableExecController is false to disallow
executing controllers via the API.
The structure under cmd/controllerbus and example/boilerplate are examples
which are intended to be copied to other projects, which reference the core
controllerbus controllers. A minimal program is as follows:
ctx := context.Background()
log := logrus.New()
log.SetLevel(logrus.DebugLevel)
le := logrus.NewEntry(log)
b, sr, err := core.NewCoreBus(ctx, le)
if err != nil {
t.Fatal(err.Error())
}
sr.AddFactory(NewFactory(b))
execDir := resolver.NewLoadControllerWithConfig(&Config{
ExampleField: "testing",
})
_, ctrlRef, err := bus.ExecOneOff(ctx, b, execDir, nil)
if err != nil {
t.Fatal(err.Error())
}
defer ctrlRef.Release()
This provides logging, context cancelation. A single Factory is attached which provides support for the Config type, (see the boilerplate example).
Daemon and Client CLIs
Plugins can be bundled together with a set of root configurations into a CLI. This can be used to bundle modules into a daemon and/or client for an application - similar to the controllerbus cli.
Testing
An in-memory Bus can be created for testing, an example is provided in the boilerplate package.
Plugins
⚠ Plugins are experimental and not yet feature-complete.
The plugin system and compiler scans a set of Go packages for ControllerBus factories and bundles them together into a hashed Plugin bundle. The compiler CLI can watch code files for changes and re-build automatically. Multiple plugin loaders and binary formats are supported.
USAGE:
controllerbus hot compile - compile packages specified as arguments once
OPTIONS:
--build-prefix value prefix to prepend to import paths, generated on default [$CONTROLLER_BUS_PLUGIN_BUILD_PREFIX]
--codegen-dir value path to directory to create/use for codegen, if empty uses tmpdir [$CONTROLLER_BUS_CODEGEN_DIR]
--output PATH, -o PATH write the output plugin to PATH - accepts {buildHash} [$CONTROLLER_BUS_OUTPUT]
--plugin-binary-id value binary id for the output plugin [$CONTROLLER_BUS_PLUGIN_BINARY_ID]
--plugin-binary-version value binary version for the output plugin, accepts {buildHash} [$CONTROLLER_BUS_PLUGIN_BINARY_VERSION]
--no-cleanup disable cleaning up the codegen dirs [$CONTROLLER_BUS_NO_CLEANUP]
--help, -h show help
The CLI will analyze a list of Go package paths, discover all Factories available in the packages, generate a Go module for importing all of the factories into a single Plugin, and compile that package to a .so library.
Projects
List of projects known to use Controller Bus:
- Bifrost: networking and p2p library + daemon
Open a PR to add your project to this list!
Support
Please open a GitHub issue with any questions / issues.
... or feel free to reach out on Matrix Chat or Discord.
License
MIT