// Copyright 2016 The Netstack Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package waiter import ( "sync/atomic" "testing" ) type callbackStub struct { f func(e *Entry) } // Callback implements EntryCallback.Callback. func (c *callbackStub) Callback(e *Entry) { c.f(e) } func TestEmptyQueue(t *testing.T) { var q Queue // Notify the zero-value of a queue. q.Notify(EventIn) // Register then unregister a waiter, then notify the queue. cnt := 0 e := Entry{Callback: &callbackStub{func(*Entry) { cnt++ }}} q.EventRegister(&e, EventIn) q.EventUnregister(&e) q.Notify(EventIn) if cnt != 0 { t.Errorf("Callback was called when it shouldn't have been") } } func TestMask(t *testing.T) { // Register a waiter. var q Queue var cnt int e := Entry{Callback: &callbackStub{func(*Entry) { cnt++ }}} q.EventRegister(&e, EventIn|EventErr) // Notify with an overlapping mask. cnt = 0 q.Notify(EventIn | EventOut) if cnt != 1 { t.Errorf("Callback wasn't called when it should have been") } // Notify with a subset mask. cnt = 0 q.Notify(EventIn) if cnt != 1 { t.Errorf("Callback wasn't called when it should have been") } // Notify with a superset mask. cnt = 0 q.Notify(EventIn | EventErr | EventOut) if cnt != 1 { t.Errorf("Callback wasn't called when it should have been") } // Notify with the exact same mask. cnt = 0 q.Notify(EventIn | EventErr) if cnt != 1 { t.Errorf("Callback wasn't called when it should have been") } // Notify with a disjoint mask. cnt = 0 q.Notify(EventOut | EventHUp) if cnt != 0 { t.Errorf("Callback was called when it shouldn't have been") } } func TestConcurrentRegistration(t *testing.T) { var q Queue var cnt int const concurrency = 1000 ch1 := make(chan struct{}) ch2 := make(chan struct{}) ch3 := make(chan struct{}) // Create goroutines that will all register/unregister concurrently. for i := 0; i < concurrency; i++ { go func() { var e Entry e.Callback = &callbackStub{func(entry *Entry) { cnt++ if entry != &e { t.Errorf("entry = %p, want %p", entry, &e) } }} // Wait for notification, then register. <-ch1 q.EventRegister(&e, EventIn|EventErr) // Tell main goroutine that we're done registering. ch2 <- struct{}{} // Wait for notification, then unregister. <-ch3 q.EventUnregister(&e) // Tell main goroutine that we're done unregistering. ch2 <- struct{}{} }() } // Let the goroutines register. close(ch1) for i := 0; i < concurrency; i++ { <-ch2 } // Issue a notification. q.Notify(EventIn) if cnt != concurrency { t.Errorf("cnt = %d, want %d", cnt, concurrency) } // Let the goroutine unregister. close(ch3) for i := 0; i < concurrency; i++ { <-ch2 } // Issue a notification. q.Notify(EventIn) if cnt != concurrency { t.Errorf("cnt = %d, want %d", cnt, concurrency) } } func TestConcurrentNotification(t *testing.T) { var q Queue var cnt int32 const concurrency = 1000 const waiterCount = 1000 // Register waiters. for i := 0; i < waiterCount; i++ { var e Entry e.Callback = &callbackStub{func(entry *Entry) { atomic.AddInt32(&cnt, 1) if entry != &e { t.Errorf("entry = %p, want %p", entry, &e) } }} q.EventRegister(&e, EventIn|EventErr) } // Launch notifiers. ch1 := make(chan struct{}) ch2 := make(chan struct{}) for i := 0; i < concurrency; i++ { go func() { <-ch1 q.Notify(EventIn) ch2 <- struct{}{} }() } // Let notifiers go. close(ch1) for i := 0; i < concurrency; i++ { <-ch2 } // Check the count. if cnt != concurrency*waiterCount { t.Errorf("cnt = %d, want %d", cnt, concurrency*waiterCount) } }