go-ethereum/beacon/light/request/server_test.go

package request

import (
	"testing"

	"github.com/ethereum/go-ethereum/common/mclock"
)

const (
	testRequest  = "Life, the Universe, and Everything"
	testResponse = 42
)

var testEventType = &EventType{Name: "testEvent"}

func TestServerEvents(t *testing.T) {
	rs := &testRequestServer{}
	clock := &mclock.Simulated{}
	srv := NewServer(rs, clock)
	var lastEventType *EventType
	srv.subscribe(func(event Event) { lastEventType = event.Type })
	evTypeName := func(evType *EventType) string {
		if evType == nil {
			return "none"
		}
		return evType.Name
	}
	expEvent := func(expType *EventType) {
		if lastEventType != expType {
			t.Errorf("Wrong event type (expected %s, got %s)", evTypeName(expType), evTypeName(lastEventType))
		}
		lastEventType = nil
	}
	// user events should simply be passed through
	rs.eventCb(Event{Type: testEventType})
	expEvent(testEventType)
	// send request, soft timeout, then valid response
	srv.sendRequest(testRequest)
	clock.WaitForTimers(1)
	clock.Run(softRequestTimeout)
	expEvent(EvTimeout)
	rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 1, Request: testRequest, Response: testResponse}})
	expEvent(EvResponse)
	// send request, hard timeout (response after hard timeout should be ignored)
	srv.sendRequest(testRequest)
	clock.WaitForTimers(1)
	clock.Run(softRequestTimeout)
	expEvent(EvTimeout)
	clock.WaitForTimers(1)
	clock.Run(hardRequestTimeout)
	expEvent(EvFail)
	rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 1, Request: testRequest, Response: testResponse}})
	expEvent(nil)
}

func TestServerParallel(t *testing.T) {
	rs := &testRequestServer{}
	srv := NewServer(rs, &mclock.Simulated{})
	srv.subscribe(func(event Event) {})

	expSend := func(expSent int) {
		var sent int
		for sent <= expSent {
			if !srv.canRequestNow() {
				break
			}
			sent++
			srv.sendRequest(testRequest)
		}
		if sent != expSent {
			t.Errorf("Wrong number of parallel requests accepted (expected %d, got %d)", expSent, sent)
		}
	}
	// max out parallel allowance
	expSend(defaultParallelLimit)
	// 1 answered, should accept 1 more
	rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 1, Request: testRequest, Response: testResponse}})
	expSend(1)
	// 2 answered, should accept 2 more
	rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 2, Request: testRequest, Response: testResponse}})
	rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 3, Request: testRequest, Response: testResponse}})
	expSend(2)
	// failed request, should decrease allowance and not accept more
	rs.eventCb(Event{Type: EvFail, Data: RequestResponse{ID: 4, Request: testRequest}})
	expSend(0)
	srv.unsubscribe()
}

func TestServerFail(t *testing.T) {
	rs := &testRequestServer{}
	clock := &mclock.Simulated{}
	srv := NewServer(rs, clock)
	srv.subscribe(func(event Event) {})
	expCanRequest := func(expCanRequest bool) {
		if canRequest := srv.canRequestNow(); canRequest != expCanRequest {
			t.Errorf("Wrong result for canRequestNow (expected %v, got %v)", expCanRequest, canRequest)
		}
	}
	// timed out request
	expCanRequest(true)
	srv.sendRequest(testRequest)
	clock.WaitForTimers(1)
	expCanRequest(true)
	clock.Run(softRequestTimeout)
	expCanRequest(false) // cannot request when there is a timed out request
	rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 1, Request: testRequest, Response: testResponse}})
	expCanRequest(true)
	// explicit server.Fail
	srv.fail("")
	clock.WaitForTimers(1)
	expCanRequest(false) // cannot request for a while after a failure
	clock.Run(minFailureDelay)
	expCanRequest(true)
	// request returned with EvFail
	srv.sendRequest(testRequest)
	rs.eventCb(Event{Type: EvFail, Data: RequestResponse{ID: 2, Request: testRequest}})
	clock.WaitForTimers(1)
	expCanRequest(false) // EvFail should also start failure delay
	clock.Run(minFailureDelay)
	expCanRequest(false) // second failure delay is longer, should still be disabled
	clock.Run(minFailureDelay)
	expCanRequest(true)
	srv.unsubscribe()
}

func TestServerEventRateLimit(t *testing.T) {
	rs := &testRequestServer{}
	clock := &mclock.Simulated{}
	srv := NewServer(rs, clock)
	var eventCount int
	srv.subscribe(func(event Event) {
		if !event.IsRequestEvent() {
			eventCount++
		}
	})
	expEvents := func(send, expAllowed int) {
		eventCount = 0
		for sent := 0; sent < send; sent++ {
			rs.eventCb(Event{Type: testEventType})
		}
		if eventCount != expAllowed {
			t.Errorf("Wrong number of server events passing rate limitation (sent %d, expected %d, got %d)", send, expAllowed, eventCount)
		}
	}
	expEvents(maxServerEventBuffer+5, maxServerEventBuffer)
	clock.Run(maxServerEventRate)
	expEvents(5, 1)
	clock.Run(maxServerEventRate * maxServerEventBuffer * 2)
	expEvents(maxServerEventBuffer+5, maxServerEventBuffer)
}

type testRequestServer struct {
	eventCb func(Event)
}

func (rs *testRequestServer) Name() string                  { return "" }
func (rs *testRequestServer) Subscribe(eventCb func(Event)) { rs.eventCb = eventCb }
func (rs *testRequestServer) SendRequest(ID, Request)       {}
func (rs *testRequestServer) Unsubscribe()                  {}
cmd/blsync, beacon/light: beacon chain light client (#28822) Here we add a beacon chain light client for use by geth. Geth can now be configured to run against a beacon chain API endpoint, without pointing a CL to it. To set this up, use the `--beacon.api` flag. Information provided by the beacon chain is verified, i.e. geth does not blindly trust the beacon API endpoint in this mode. The root of trust are the beacon chain 'sync committees'. The configured beacon API endpoint must provide light client data. At this time, only Lodestar and Nimbus provide the necessary APIs. There is also a standalone tool, cmd/blsync, which uses the beacon chain light client to drive any EL implementation via its engine API. --------- Co-authored-by: Felix Lange <fjl@twurst.com> 7 months ago			`package request`

			`import (`
			`"testing"`

			`"github.com/ethereum/go-ethereum/common/mclock"`
			`)`

			`const (`
			`testRequest = "Life, the Universe, and Everything"`
			`testResponse = 42`
			`)`

			`var testEventType = &EventType{Name: "testEvent"}`

			`func TestServerEvents(t *testing.T) {`
			`rs := &testRequestServer{}`
			`clock := &mclock.Simulated{}`
			`srv := NewServer(rs, clock)`
			`var lastEventType *EventType`
			`srv.subscribe(func(event Event) { lastEventType = event.Type })`
			`evTypeName := func(evType *EventType) string {`
			`if evType == nil {`
			`return "none"`
			`}`
			`return evType.Name`
			`}`
			`expEvent := func(expType *EventType) {`
			`if lastEventType != expType {`
			`t.Errorf("Wrong event type (expected %s, got %s)", evTypeName(expType), evTypeName(lastEventType))`
			`}`
			`lastEventType = nil`
			`}`
			`// user events should simply be passed through`
			`rs.eventCb(Event{Type: testEventType})`
			`expEvent(testEventType)`
			`// send request, soft timeout, then valid response`
			`srv.sendRequest(testRequest)`
			`clock.WaitForTimers(1)`
			`clock.Run(softRequestTimeout)`
			`expEvent(EvTimeout)`
			`rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 1, Request: testRequest, Response: testResponse}})`
			`expEvent(EvResponse)`
			`// send request, hard timeout (response after hard timeout should be ignored)`
			`srv.sendRequest(testRequest)`
			`clock.WaitForTimers(1)`
			`clock.Run(softRequestTimeout)`
			`expEvent(EvTimeout)`
			`clock.WaitForTimers(1)`
			`clock.Run(hardRequestTimeout)`
			`expEvent(EvFail)`
			`rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 1, Request: testRequest, Response: testResponse}})`
			`expEvent(nil)`
			`}`

			`func TestServerParallel(t *testing.T) {`
			`rs := &testRequestServer{}`
			`srv := NewServer(rs, &mclock.Simulated{})`
			`srv.subscribe(func(event Event) {})`

			`expSend := func(expSent int) {`
			`var sent int`
			`for sent <= expSent {`
			`if !srv.canRequestNow() {`
			`break`
			`}`
			`sent++`
			`srv.sendRequest(testRequest)`
			`}`
			`if sent != expSent {`
			`t.Errorf("Wrong number of parallel requests accepted (expected %d, got %d)", expSent, sent)`
			`}`
			`}`
			`// max out parallel allowance`
			`expSend(defaultParallelLimit)`
			`// 1 answered, should accept 1 more`
			`rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 1, Request: testRequest, Response: testResponse}})`
			`expSend(1)`
			`// 2 answered, should accept 2 more`
			`rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 2, Request: testRequest, Response: testResponse}})`
			`rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 3, Request: testRequest, Response: testResponse}})`
			`expSend(2)`
			`// failed request, should decrease allowance and not accept more`
			`rs.eventCb(Event{Type: EvFail, Data: RequestResponse{ID: 4, Request: testRequest}})`
			`expSend(0)`
			`srv.unsubscribe()`
			`}`

			`func TestServerFail(t *testing.T) {`
			`rs := &testRequestServer{}`
			`clock := &mclock.Simulated{}`
			`srv := NewServer(rs, clock)`
			`srv.subscribe(func(event Event) {})`
			`expCanRequest := func(expCanRequest bool) {`
			`if canRequest := srv.canRequestNow(); canRequest != expCanRequest {`
			`t.Errorf("Wrong result for canRequestNow (expected %v, got %v)", expCanRequest, canRequest)`
			`}`
			`}`
			`// timed out request`
			`expCanRequest(true)`
			`srv.sendRequest(testRequest)`
			`clock.WaitForTimers(1)`
			`expCanRequest(true)`
			`clock.Run(softRequestTimeout)`
			`expCanRequest(false) // cannot request when there is a timed out request`
			`rs.eventCb(Event{Type: EvResponse, Data: RequestResponse{ID: 1, Request: testRequest, Response: testResponse}})`
			`expCanRequest(true)`
			`// explicit server.Fail`
			`srv.fail("")`
			`clock.WaitForTimers(1)`
			`expCanRequest(false) // cannot request for a while after a failure`
			`clock.Run(minFailureDelay)`
			`expCanRequest(true)`
			`// request returned with EvFail`
			`srv.sendRequest(testRequest)`
			`rs.eventCb(Event{Type: EvFail, Data: RequestResponse{ID: 2, Request: testRequest}})`
			`clock.WaitForTimers(1)`
			`expCanRequest(false) // EvFail should also start failure delay`
			`clock.Run(minFailureDelay)`
			`expCanRequest(false) // second failure delay is longer, should still be disabled`
			`clock.Run(minFailureDelay)`
			`expCanRequest(true)`
			`srv.unsubscribe()`
			`}`

			`func TestServerEventRateLimit(t *testing.T) {`
			`rs := &testRequestServer{}`
			`clock := &mclock.Simulated{}`
			`srv := NewServer(rs, clock)`
			`var eventCount int`
			`srv.subscribe(func(event Event) {`
			`if !event.IsRequestEvent() {`
			`eventCount++`
			`}`
			`})`
			`expEvents := func(send, expAllowed int) {`
			`eventCount = 0`
			`for sent := 0; sent < send; sent++ {`
			`rs.eventCb(Event{Type: testEventType})`
			`}`
			`if eventCount != expAllowed {`
			`t.Errorf("Wrong number of server events passing rate limitation (sent %d, expected %d, got %d)", send, expAllowed, eventCount)`
			`}`
			`}`
			`expEvents(maxServerEventBuffer+5, maxServerEventBuffer)`
			`clock.Run(maxServerEventRate)`
			`expEvents(5, 1)`
			`clock.Run(maxServerEventRate * maxServerEventBuffer * 2)`
			`expEvents(maxServerEventBuffer+5, maxServerEventBuffer)`
			`}`

			`type testRequestServer struct {`
			`eventCb func(Event)`
			`}`

beacon/light/sync: print error log if checkpoint retrieval fails (#29532) Co-authored-by: Felix Lange <fjl@twurst.com> 5 months ago			`func (rs *testRequestServer) Name() string { return "" }`
cmd/blsync, beacon/light: beacon chain light client (#28822) Here we add a beacon chain light client for use by geth. Geth can now be configured to run against a beacon chain API endpoint, without pointing a CL to it. To set this up, use the `--beacon.api` flag. Information provided by the beacon chain is verified, i.e. geth does not blindly trust the beacon API endpoint in this mode. The root of trust are the beacon chain 'sync committees'. The configured beacon API endpoint must provide light client data. At this time, only Lodestar and Nimbus provide the necessary APIs. There is also a standalone tool, cmd/blsync, which uses the beacon chain light client to drive any EL implementation via its engine API. --------- Co-authored-by: Felix Lange <fjl@twurst.com> 7 months ago			`func (rs *testRequestServer) Subscribe(eventCb func(Event)) { rs.eventCb = eventCb }`
			`func (rs *testRequestServer) SendRequest(ID, Request) {}`
			`func (rs *testRequestServer) Unsubscribe() {}`