// Copyright 2016 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package event import ( "fmt" "reflect" "sync" "testing" "time" "github.com/prysmaticlabs/prysm/v5/testing/assert" ) func TestFeedPanics(t *testing.T) { { var f Feed f.Send(2) want := feedTypeError{op: "Send", got: reflect.TypeOf(uint64(0)), want: reflect.TypeOf(0)} assert.NoError(t, checkPanic(want, func() { f.Send(uint64(2)) })) // Validate it doesn't deadlock. assert.NoError(t, checkPanic(want, func() { f.Send(uint64(2)) })) } { var f Feed ch := make(chan int) f.Subscribe(ch) want := feedTypeError{op: "Send", got: reflect.TypeOf(uint64(0)), want: reflect.TypeOf(0)} assert.NoError(t, checkPanic(want, func() { f.Send(uint64(2)) })) } { var f Feed f.Send(2) want := feedTypeError{op: "Subscribe", got: reflect.TypeOf(make(chan uint64)), want: reflect.TypeOf(make(chan<- int))} assert.NoError(t, checkPanic(want, func() { f.Subscribe(make(chan uint64)) })) } { var f Feed assert.NoError(t, checkPanic(errBadChannel, func() { f.Subscribe(make(<-chan int)) })) } { var f Feed assert.NoError(t, checkPanic(errBadChannel, func() { f.Subscribe(0) })) } } func checkPanic(want error, fn func()) (err error) { defer func() { panicResult := recover() if panicResult == nil { err = fmt.Errorf("didn't panic") } else if !reflect.DeepEqual(panicResult, want) { err = fmt.Errorf("panicked with wrong error: got %q, want %q", panicResult, want) } }() fn() return nil } func TestFeed(t *testing.T) { var feed Feed var done, subscribed sync.WaitGroup subscriber := func(i int) { defer done.Done() subchan := make(chan int) sub := feed.Subscribe(subchan) timeout := time.NewTimer(2 * time.Second) subscribed.Done() select { case v := <-subchan: if v != 1 { t.Errorf("%d: received value %d, want 1", i, v) } case <-timeout.C: t.Errorf("%d: receive timeout", i) } sub.Unsubscribe() select { case _, ok := <-sub.Err(): if ok { t.Errorf("%d: error channel not closed after unsubscribe", i) } case <-timeout.C: t.Errorf("%d: unsubscribe timeout", i) } } const n = 1000 done.Add(n) subscribed.Add(n) for i := 0; i < n; i++ { go subscriber(i) } subscribed.Wait() if nsent := feed.Send(1); nsent != n { t.Errorf("first send delivered %d times, want %d", nsent, n) } if nsent := feed.Send(2); nsent != 0 { t.Errorf("second send delivered %d times, want 0", nsent) } done.Wait() } func TestFeedSubscribeSameChannel(t *testing.T) { var ( feed Feed done sync.WaitGroup ch = make(chan int) sub1 = feed.Subscribe(ch) sub2 = feed.Subscribe(ch) _ = feed.Subscribe(ch) ) expectSends := func(value, n int) { if nsent := feed.Send(value); nsent != n { t.Errorf("send delivered %d times, want %d", nsent, n) } done.Done() } expectRecv := func(wantValue, n int) { for i := 0; i < n; i++ { if v := <-ch; v != wantValue { t.Errorf("received %d, want %d", v, wantValue) } } } done.Add(1) go expectSends(1, 3) expectRecv(1, 3) done.Wait() sub1.Unsubscribe() done.Add(1) go expectSends(2, 2) expectRecv(2, 2) done.Wait() sub2.Unsubscribe() done.Add(1) go expectSends(3, 1) expectRecv(3, 1) done.Wait() } func TestFeedSubscribeBlockedPost(_ *testing.T) { var ( feed Feed nsends = 2000 ch1 = make(chan int) ch2 = make(chan int) wg sync.WaitGroup ) defer wg.Wait() feed.Subscribe(ch1) wg.Add(nsends) for i := 0; i < nsends; i++ { go func() { feed.Send(99) wg.Done() }() } sub2 := feed.Subscribe(ch2) defer sub2.Unsubscribe() // We're done when ch1 has received N times. // The number of receives on ch2 depends on scheduling. for i := 0; i < nsends; { select { case <-ch1: i++ case <-ch2: } } } func TestFeedUnsubscribeBlockedPost(_ *testing.T) { var ( feed Feed nsends = 200 chans = make([]chan int, 2000) subs = make([]Subscription, len(chans)) bchan = make(chan int) bsub = feed.Subscribe(bchan) wg sync.WaitGroup ) for i := range chans { chans[i] = make(chan int, nsends) } // Queue up some Sends. None of these can make progress while bchan isn't read. wg.Add(nsends) for i := 0; i < nsends; i++ { go func() { feed.Send(99) wg.Done() }() } // Subscribe the other channels. for i, ch := range chans { subs[i] = feed.Subscribe(ch) } // Unsubscribe them again. for _, sub := range subs { sub.Unsubscribe() } // Unblock the Sends. bsub.Unsubscribe() wg.Wait() } // Checks that unsubscribing a channel during Send works even if that // channel has already been sent on. func TestFeedUnsubscribeSentChan(_ *testing.T) { var ( feed Feed ch1 = make(chan int) ch2 = make(chan int) sub1 = feed.Subscribe(ch1) sub2 = feed.Subscribe(ch2) wg sync.WaitGroup ) defer sub2.Unsubscribe() wg.Add(1) go func() { feed.Send(0) wg.Done() }() // Wait for the value on ch1. <-ch1 // Unsubscribe ch1, removing it from the send cases. sub1.Unsubscribe() // Receive ch2, finishing Send. <-ch2 wg.Wait() // Send again. This should send to ch2 only, so the wait group will unblock // as soon as a value is received on ch2. wg.Add(1) go func() { feed.Send(0) wg.Done() }() <-ch2 wg.Wait() } func TestFeedUnsubscribeFromInbox(t *testing.T) { var ( feed Feed ch1 = make(chan int) ch2 = make(chan int) sub1 = feed.Subscribe(ch1) sub2 = feed.Subscribe(ch1) sub3 = feed.Subscribe(ch2) ) assert.Equal(t, 3, len(feed.inbox)) assert.Equal(t, 1, len(feed.sendCases), "sendCases is non-empty after unsubscribe") sub1.Unsubscribe() sub2.Unsubscribe() sub3.Unsubscribe() assert.Equal(t, 0, len(feed.inbox), "Inbox is non-empty after unsubscribe") assert.Equal(t, 1, len(feed.sendCases), "sendCases is non-empty after unsubscribe") } func BenchmarkFeedSend1000(b *testing.B) { var ( done sync.WaitGroup feed Feed nsubs = 1000 ) subscriber := func(ch <-chan int) { for i := 0; i < b.N; i++ { <-ch } done.Done() } done.Add(nsubs) for i := 0; i < nsubs; i++ { ch := make(chan int, 200) feed.Subscribe(ch) go subscriber(ch) } // The actual benchmark. b.ResetTimer() for i := 0; i < b.N; i++ { if feed.Send(i) != nsubs { panic("wrong number of sends") } } b.StopTimer() done.Wait() } func TestFeed_Send(t *testing.T) { tests := []struct { name string evFeed *Feed testSetup func(fd *Feed, t *testing.T, o interface{}) obj interface{} expectPanic bool }{ { name: "normal struct", evFeed: new(Feed), testSetup: func(fd *Feed, t *testing.T, o interface{}) { testChan := make(chan testFeedWithPointer, 1) fd.Subscribe(testChan) }, obj: testFeedWithPointer{ a: new(uint64), b: new(string), }, expectPanic: false, }, { name: "un-implemented interface", evFeed: new(Feed), testSetup: func(fd *Feed, t *testing.T, o interface{}) { testChan := make(chan testFeedIface, 1) fd.Subscribe(testChan) }, obj: testFeedWithPointer{ a: new(uint64), b: new(string), }, expectPanic: true, }, { name: "semi-implemented interface", evFeed: new(Feed), testSetup: func(fd *Feed, t *testing.T, o interface{}) { testChan := make(chan testFeedIface, 1) fd.Subscribe(testChan) }, obj: testFeed2{ a: 0, b: "", c: []byte{'A'}, }, expectPanic: true, }, { name: "fully-implemented interface", evFeed: new(Feed), testSetup: func(fd *Feed, t *testing.T, o interface{}) { testChan := make(chan testFeedIface) // Make it unbuffered to allow message to // pass through go func() { a := <-testChan if !reflect.DeepEqual(a, o) { t.Errorf("Got = %v, want = %v", a, o) } }() fd.Subscribe(testChan) }, obj: testFeed{ a: 0, b: "", }, expectPanic: false, }, { name: "fully-implemented interface with additional methods", evFeed: new(Feed), testSetup: func(fd *Feed, t *testing.T, o interface{}) { testChan := make(chan testFeedIface) // Make it unbuffered to allow message to // pass through go func() { a := <-testChan if !reflect.DeepEqual(a, o) { t.Errorf("Got = %v, want = %v", a, o) } }() fd.Subscribe(testChan) }, obj: testFeed3{ a: 0, b: "", c: []byte{'A'}, d: []byte{'B'}, }, expectPanic: false, }, { name: "concrete types implementing the same interface", evFeed: new(Feed), testSetup: func(fd *Feed, t *testing.T, o interface{}) { testChan := make(chan testFeed, 1) // Make it unbuffered to allow message to // pass through go func() { a := <-testChan if !reflect.DeepEqual(a, o) { t.Errorf("Got = %v, want = %v", a, o) } }() fd.Subscribe(testChan) }, obj: testFeed3{ a: 0, b: "", c: []byte{'A'}, d: []byte{'B'}, }, expectPanic: true, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { defer func() { if r := recover(); r != nil { if !tt.expectPanic { t.Errorf("panic triggered when unexpected: %v", r) } } else { if tt.expectPanic { t.Error("panic not triggered when expected") } } }() tt.testSetup(tt.evFeed, t, tt.obj) if gotNsent := tt.evFeed.Send(tt.obj); gotNsent != 1 { t.Errorf("Send() = %v, want %v", gotNsent, 1) } }) } } // The following objects below are a collection of different // struct types to test with. type testFeed struct { a uint64 b string } func (testFeed) method1() { } func (testFeed) method2() { } type testFeedWithPointer struct { a *uint64 b *string } type testFeed2 struct { a uint64 b string c []byte } func (testFeed2) method1() { } type testFeed3 struct { a uint64 b string c, d []byte } func (testFeed3) method1() { } func (testFeed3) method2() { } func (testFeed3) method3() { } type testFeedIface interface { method1() method2() }