fiber is a Go library for building dynamic proxies, routers and traffic mixers from a set of composable abstract network components.
Core components of fiber are transport agnostic, however, there is
Go's net/http
-based implementation provided in fiber/http package
and a grpc implementation in fiber/grpc.
The grpc implementation will use the byte payload from the request and response using a custom codec to minimize marshaling overhead. It is expected that the client marshal the message and unmarshall into the intended proto response.
import (
"github.com/gojek/fiber" // fiber core
"github.com/gojek/fiber/config" // fiber config
fiberhttp "github.com/gojek/fiber/http" // fiber http if required
fibergrpc "github.com/gojek/fiber/grpc" // fiber grpc if required
)
Define your fiber component in YAML config. For example:
fiber.yaml for http:
type: EAGER_ROUTER
id: eager_router
strategy:
type: fiber.RandomRoutingStrategy
routes:
- id: route_a
type: PROXY
timeout: "20s"
endpoint: "http://localhost:8080/routes/route-a"
- id: route_b
type: PROXY
timeout: "40s"
endpoint: "http://localhost:8080/routes/route-b"
fiber.yaml for grpc:
type: EAGER_ROUTER
id: eager_router
strategy:
type: fiber.RandomRoutingStrategy
routes:
- id: route_a
type: PROXY
timeout: "20s"
endpoint: "localhost:50555"
service: "mypackage.Greeter"
method: "SayHello"
protocol: "grpc"
- id: route_b
type: PROXY
timeout: "40s"
endpoint: "localhost:50555"
service: "mypackage.Greeter"
method: "SayHello"
protocol: "grpc"
Construct new fiber component from the config:
main.go:
import "github.com/gojek/fiber/config"
compomnent, err := config.FromConfig("./fiber.yaml")
Start serving http requests:
main.go:
import (
fiberhttp "github.com/gojek/fiber/http"
)
options := fiberhttp.Options{
Timeout: 20 * time.Second,
}
fiberHandler := fiberhttp.NewHandler(component, options)
http.ListenAndServe(":8080", fiberHandler)
It is also possible to define fiber component programmatically, using fiber API. For example:
import (
"github.com/gojek/fiber"
fiberhttp "github.com/gojek/fiber/http"
)
component := fiber.NewEagerRouter("eager-router")
component.SetStrategy(new(extras.RandomRoutingStrategy))
httpDispatcher, _ := fiberhttp.NewDispatcher(http.DefaultClient)
caller, _ := fiber.NewCaller("", httpDispatcher)
component.SetRoutes(map[string]fiber.Component{
"route-a": fiber.NewProxy(
fiber.NewBackend("route-a", "http://localhost:8080/routes/route-a"),
caller),
"route-b": fiber.NewProxy(
fiber.NewBackend("route-b", "http://localhost:8080/routes/route-b"),
caller),
})
For more sample code snippets and grpc usage, head over to the example directory.
There are few general abstractions used in fiber:
-
Component - a fiber abstraction, which has a goal to take an incoming request, dispatch it, and return a queue with zero or more responses in it. There is also a special kind of components – MultiRouteComponent. The family of multi-route components contains higher-order components that have one or more children components registered as their routes.
There are few basic components implemented in fiber, such as Proxy, FanOut, Combiner, Router (EagerRouter and LazyRouter).
Check Components for more information about existing fiber components. -
Fan In – is an aggregator, that takes a response queue and returns a single response. It can be one of the responses from the queue, a combination of responses or just a new arbitrary response.
Fan In
is a necessary part of Combiner implementation. -
Routing Strategy – is used together with Routers (either lazy or eager) and is responsible for defining the order (priority) of routes registered with given router. So, for every incoming request,
Routing Strategy
should tell which route should dispatch this given request and what is the order of fallback routes to be used in case the primary route has failed to successfully dispatch the request. Routing strategy is generally expected to be implemented by the client application, because it might be domain specific. However, the simplest possible implementation of routing strategy is provided as a reference in RandomRoutingStrategy. -
Interceptor – fiber supports pluggable interceptors to examine request and responses. Interceptors are useful for implementing various req/response loggers, metrics or distributed traces collectors. fiber comes with few pre-implemented interceptors (extras/interceptor) to serve above-mentioned purposes.
fiber allows defining request processing rules by composing basic fiber components in more complicated execution graphs. There are few standard fiber components implemented in this library:
-
PROXY
– component, that dispatches incoming request against configured proxy backend url.
Configuration:id
– component ID. Examplemy_proxy
endpoint
- proxy endpoint url. Example for httphttp://your-proxy:8080/nested/path
or grpc127.0.0.1:50050
timeout
- request timeout for dispatching a request. Example100ms
protocol
- communication protocol. Only "grpc" or "http" supported.service
- for grpc only, package name and service name. Examplefiber.Greeter
method
- for grpc only, method name of the grpc service to invoke. ExampleSayHello
-
FAN_OUT
- component, that dispatches incoming request by sending it to each of its registeredroutes
. Response queue will contain responses of each route in order they have arrived.
Configuration:id
- component ID. Examplefan_out
routes
– list of fiber components definitions.Fan Out
will send incoming request to each of its route components and collect responses into a queue.
-
COMBINER
- dispatches incoming request by sending it to each of its registeredroutes
and then aggregating received responses into a single response by using providedfan_in
.
Configuration:id
- component IDfan_in
- configuration of the FanIn, that will be used in this combinertype
- registered type name of the fan in. Example:fiber.FastestResponseFanIn
. (See also [Custom Types](#Custom Types))properties
- arbitrary yaml configuration that would be passed to the FanIn'sInitialize
method during the component initialization
routes
- list of fiber component definitions that would be registered as this combiner's routes.
-
EAGER_ROUTER
- dispatches incoming request by sending it simultaneously to each registered route and then returning either a response from the primary route (defined by the routing strategy) or switches back to one of the fallback routes. Eager routers are useful in situations, when it's crucial to return fallback response with a minimal delay in case if primary route failed to respond with successful response. Configuration:id
– component IDstrategy
- configuration of the RoutingStrategy, that would be used with this routertype
- registered type name of the routing strategy. Example:fiber.RandomRoutingStrategy
. (See also [Custom Types](#Custom Types))properties
- arbitrary yaml configuration that would be passed to the RoutingStrategy'sInitialize
method during the component initialization
routes
- list of fiber components definitions that would be registered as this router routes.
-
LAZY_ROUTER
- dispatches incoming request by retrieving information about the primary and fallback routes order from its RoutingStrategy and then sending the request to the routes in defined order until one of the routes responds with successful response. Configuration:id
– component IDstrategy
- configuration of the RoutingStrategy, that would be used with this routertype
- registered type name of the routing strategy. Example:fiber.RandomRoutingStrategy
properties
- arbitrary yaml configuration that would be passed to the RoutingStrategy'sInitialize
method during the component initialization
routes
- list of fiber components definitions that would be registered as this router routes.
fiber comes with few pre-defined interceptors, that are serving the most common use-cases:
-
ResponseLoggingInterceptor - subscribes to responses from the response queue and uses an instance of
zap.SugaredLogger
to log the response's payload. -
MetricsInterceptor - collects the
count
andtime
metrics of component'sDispatch
method and forwards these time-series data using providedstatsd
client. -
TracingInterceptor - uses opentracing/opentracing-go client to create spans of the
Dispatch
method execution
It's also possible to create a custom interceptor by implementing fiber.Interceptor
interface:
type Interceptor interface {
BeforeDispatch(ctx context.Context, req Request) context.Context
AfterDispatch(ctx context.Context, req Request, queue ResponseQueue)
AfterCompletion(ctx context.Context, req Request, queue ResponseQueue)
}
Then, one or more interceptors can be attached to the fiber component by calling AddInterceptor
method:
import (
"github.com/gojek/fiber/config"
"github.com/gojek/fiber/extras/interceptor"
)
compomnent, err := config.FromConfig("./fiber.yaml")
statsdClient := // initialize statsd client
zapLog := // initialize logger
component.AddInterceptor(
true, // add interceptors recursively to children components
interceptor.NewMetricsInterceptor(statsdClient),
interceptor.NewLoggingInterceptor(zapLog),
)
It is also possible to register a custom RoutingStrategy
or FanIn
implementation in fiber
's type system.
First, create your own RoutingStrategy. For example, let's define a routing strategy, that directs requests
to route-a
in case if session ID (passed via Header) is odd and to route-b
if it is even:
package mypackage
import (
"context"
"strconv"
)
type OddEvenRoutingStrategy struct {}
func (s *OddEvenRoutingStrategy) SelectRoute(
ctx context.Context,
req fiber.Request,
routes map[string]fiber.Component,
) (fiber.Component, []fiber.Component, error) {
sessionIdStr := ""
if sessionHeader, ok := req.Header()["X-Session-ID"]; ok {
sessionIdStr = sessionHeader[0]
}
if sessionID, err := strconv.Atoi(sessionIdStr); err != nil {
return nil, nil, err
} else {
if sessionID % 2 != 0 {
return routes["route-a"], []fiber.Component{}, nil
} else {
return routes["route-b"], []fiber.Component{}, nil
}
}
}
Then, register this routing strategy in fiber's type system:
package main
import (
"github.com/gojek/fiber/types"
)
func main() {
if err := types.InstallType(
"mypackage.OddEvenRoutingStrategy",
&mypackage.OddEvenRoutingStrategy{}); err != nil {
panic(err)
}
// ...
}
So now, mypackage.OddEvenRoutingStrategy
is registered and can be used in fiber component configuration:
type: LAZY_ROUTER
id: lazy-router
routes:
- id: "route-a"
type: PROXY
endpoint: "http://www.mocky.io/v2/5e4caccc310000e2cad8c071"
timeout: 5s
- id: "route-b"
type: PROXY
endpoint: "http://www.mocky.io/v2/5e4cacd4310000e1cad8c073"
timeout: 5s
strategy:
type: mypackage.OddEvenRoutingStrategy