Use call checker instead of writing to shared var in tests (10->1).

This commit is contained in:
Alex Bramley 2013-09-30 14:43:29 +01:00
parent 637cdb573f
commit 4eaad0e95e
2 changed files with 63 additions and 85 deletions

View File

@ -8,6 +8,36 @@ import (
"time"
)
type checker struct {
t *testing.T
c chan struct{}
}
func callCheck(t *testing.T) checker {
return checker{t: t, c: make(chan struct{})}
}
func (c checker) call() {
c.c <- struct{}{}
}
func (c checker) assertNotCalled(fmt string, args ...interface{}) {
select {
case <-c.c:
c.t.Errorf(fmt, args...)
default:
}
}
func (c checker) assertWasCalled(fmt string, args ...interface{}) {
select {
case <-c.c:
case <-time.After(time.Millisecond):
// Usually need to wait for goroutines to settle :-/
c.t.Errorf(fmt, args...)
}
}
type testState struct {
ctrl *gomock.Controller
st *state.MockTracker
@ -30,7 +60,7 @@ func setUp(t *testing.T, start ...bool) (*Conn, *testState) {
// start the various goroutines that shuttle data around.
c.postConnect(len(start) == 0)
// Sleep 1ms to allow background routines to start.
<-time.After(1e6)
<-time.After(time.Millisecond)
return c, &testState{ctrl, st, nc, c}
}
@ -39,7 +69,6 @@ func (s *testState) tearDown() {
s.st.EXPECT().Wipe()
s.nc.ExpectNothing()
s.c.shutdown()
<-time.After(time.Millisecond)
s.ctrl.Finish()
}
@ -51,28 +80,22 @@ func TestEOF(t *testing.T) {
defer s.ctrl.Finish()
// Set up a handler to detect whether disconnected handlers are called
dcon := false
dcon := callCheck(t)
c.HandleFunc(DISCONNECTED, func(conn *Conn, line *Line) {
dcon = true
dcon.call()
})
// Simulate EOF from server
s.st.EXPECT().Wipe()
s.nc.Close()
// Since things happen in different internal goroutines, we need to wait
// 1 ms should be enough :-)
<-time.After(time.Millisecond)
// Verify that disconnected handler was called
dcon.assertWasCalled("Conn did not call disconnected handlers.")
// Verify that the connection no longer thinks it's connected
if c.Connected() {
t.Errorf("Conn still thinks it's connected to the server.")
}
// Verify that disconnected handler was called
if !dcon {
t.Errorf("Conn did not call disconnected handlers.")
}
}
func TestClientAndStateTracking(t *testing.T) {
@ -146,10 +169,10 @@ func TestSend(t *testing.T) {
s.nc.ExpectNothing()
// We want to test that the a goroutine calling send will exit correctly.
exited := false
exited := callCheck(t)
go func() {
c.send()
exited = true
exited.call()
}()
// send is now running in the background as if started by postConnect.
@ -162,19 +185,13 @@ func TestSend(t *testing.T) {
s.nc.Expect("SENT AFTER START")
// Now, use the control channel to exit send and kill the goroutine.
if exited {
t.Errorf("Exited before signal sent.")
}
// This sneakily uses the fact that the other two goroutines that would
// normally be waiting for die to close are not running, so we only send
// to the goroutine started above. Normally shutdown() closes c.die and
// signals to all three goroutines (send, ping, runLoop) to exit.
exited.assertNotCalled("Exited before signal sent.")
c.die <- struct{}{}
// Allow propagation time...
<-time.After(1e6)
if !exited {
t.Errorf("Didn't exit after signal.")
}
exited.assertWasCalled("Didn't exit after signal.")
s.nc.ExpectNothing()
// Sending more on c.out shouldn't reach the network.
@ -206,16 +223,12 @@ func TestRecv(t *testing.T) {
}
// We want to test that the a goroutine calling recv will exit correctly.
exited := false
exited := callCheck(t)
go func() {
c.recv()
exited = true
exited.call()
}()
// Strangely, recv() needs some time to start up, but *only* when this test
// is run standalone with: client/_test/_testmain --test.run TestRecv
<-time.After(time.Millisecond)
// Now, this should mean that we'll receive our parsed line on c.in
if l := reader(); l == nil || l.Cmd != "001" {
t.Errorf("Bad first line received on input channel")
@ -235,17 +248,10 @@ func TestRecv(t *testing.T) {
}
// The only way recv() exits is when the socket closes.
if exited {
t.Errorf("Exited before socket close.")
}
exited.assertNotCalled("Exited before socket close.")
s.st.EXPECT().Wipe()
s.nc.Close()
// Give things time to shake themselves out...
<-time.After(time.Millisecond)
if !exited {
t.Errorf("Didn't exit on socket close.")
}
exited.assertWasCalled("Didn't exit on socket close.")
// Since s.nc is closed we can't attempt another send on it...
if l := reader(); l != nil {
@ -275,10 +281,10 @@ func TestPing(t *testing.T) {
}
// Start ping loop.
exited := false
exited := callCheck(t)
go func() {
c.ping()
exited = true
exited.call()
}()
// The first ping should be after 50ms,
@ -306,23 +312,18 @@ func TestPing(t *testing.T) {
}
// Now kill the ping loop.
if exited {
t.Errorf("Exited before signal sent.")
}
// This sneakily uses the fact that the other two goroutines that would
// normally be waiting for die to close are not running, so we only send
// to the goroutine started above. Normally shutdown() closes c.die and
// signals to all three goroutines (send, ping, runLoop) to exit.
exited.assertNotCalled("Exited before signal sent.")
c.die <- struct{}{}
exited.assertWasCalled("Didn't exit after signal.")
// Make sure we're no longer pinging by waiting ~2x PingFreq
<-time.After(105 * time.Millisecond)
if s := reader(); s != "" {
t.Errorf("Line output after ping stopped.")
}
if !exited {
t.Errorf("Didn't exit after signal.")
}
}
func TestRunLoop(t *testing.T) {
@ -331,67 +332,47 @@ func TestRunLoop(t *testing.T) {
defer s.tearDown()
// Set up a handler to detect whether 001 handler is called
h001 := false
h001 := callCheck(t)
c.HandleFunc("001", func(conn *Conn, line *Line) {
h001 = true
h001.call()
})
h002 := callCheck(t)
// Set up a handler to detect whether 002 handler is called
h002 := false
c.HandleFunc("002", func(conn *Conn, line *Line) {
h002 = true
h002.call()
})
l1 := parseLine(":irc.server.org 001 test :First test line.")
c.in <- l1
if h001 {
t.Errorf("001 handler called before runLoop started.")
}
h001.assertNotCalled("001 handler called before runLoop started.")
// We want to test that the a goroutine calling runLoop will exit correctly.
// Now, we can expect the call to Dispatch to take place as runLoop starts.
exited := false
exited := callCheck(t)
go func() {
c.runLoop()
exited = true
exited.call()
}()
// Here, the opposite seemed to take place, with TestRunLoop failing when
// run as part of the suite but passing when run on it's own.
<-time.After(time.Millisecond)
if !h001 {
t.Errorf("001 handler not called after runLoop started.")
}
h001.assertWasCalled("001 handler not called after runLoop started.")
// Send another line, just to be sure :-)
h002.assertNotCalled("002 handler called before expected.")
l2 := parseLine(":irc.server.org 002 test :Second test line.")
c.in <- l2
// It appears some sleeping is needed after all of these to ensure channel
// sends occur before the close signal is sent below...
<-time.After(time.Millisecond)
if !h002 {
t.Errorf("002 handler not called while runLoop started.")
}
h002.assertWasCalled("002 handler not called while runLoop started.")
// Now, use the control channel to exit send and kill the goroutine.
if exited {
t.Errorf("Exited before signal sent.")
}
// This sneakily uses the fact that the other two goroutines that would
// normally be waiting for die to close are not running, so we only send
// to the goroutine started above. Normally shutdown() closes c.die and
// signals to all three goroutines (send, ping, runLoop) to exit.
exited.assertNotCalled("Exited before signal sent.")
c.die <- struct{}{}
// Allow propagation time...
<-time.After(time.Millisecond)
if !exited {
t.Errorf("Didn't exit after signal.")
}
exited.assertWasCalled("Didn't exit after signal.")
// Sending more on c.in shouldn't dispatch any further events
h001 = false
c.in <- l1
if h001 {
t.Errorf("001 handler called after runLoop ended.")
}
h001.assertNotCalled("001 handler called after runLoop ended.")
}
func TestWrite(t *testing.T) {

View File

@ -186,18 +186,15 @@ func TestPanicRecovery(t *testing.T) {
c, s := setUp(t)
defer s.tearDown()
recovered := false
recovered := callCheck(t)
c.cfg.Recover = func(conn *Conn, line *Line) {
if err, ok := recover().(string); ok && err == "panic!" {
recovered = true
recovered.call()
}
}
c.HandleFunc(PRIVMSG, func(conn *Conn, line *Line) {
panic("panic!")
})
c.in <- parseLine(":nick!user@host.com PRIVMSG #channel :OH NO PIGEONS")
<-time.After(time.Millisecond)
if recovered != true {
t.Errorf("Failed to recover panic!")
}
recovered.assertWasCalled("Failed to recover panic!")
}