goirc/client/connection_test.go

334 lines
9.9 KiB
Go

package client
import (
"bufio"
"github.com/fluffle/goirc/event"
"github.com/fluffle/goirc/logging"
"github.com/fluffle/goirc/state"
"gomock.googlecode.com/hg/gomock"
"testing"
"time"
)
type testState struct {
ctrl *gomock.Controller
log *logging.MockLogger
st *state.MockStateTracker
ed *event.MockEventDispatcher
nc *mockNetConn
c *Conn
}
func setUp(t *testing.T, start ...bool) (*Conn, *testState) {
ctrl := gomock.NewController(t)
st := state.NewMockStateTracker(ctrl)
r := event.NewRegistry()
ed := event.NewMockEventDispatcher(ctrl)
l := logging.NewMockLogger(ctrl)
nc := MockNetConn(t)
c := Client("test", "test", "Testing IRC", r, l)
// We don't want to have to specify s.log.EXPECT().Debug() for all the
// random crap that gets logged. This mocks it all out nicely.
ctrl.RecordCall(l, "Debug", gomock.Any(), gomock.Any()).AnyTimes()
c.ED = ed
c.ST = st
c.st = true
c.sock = nc
c.Flood = true // Tests can take a while otherwise
c.Connected = true
if len(start) == 0 {
// Hack to allow tests of send, recv, write etc.
// NOTE: the value of the boolean doesn't matter.
c.postConnect()
}
return c, &testState{ctrl, l, st, ed, nc, c}
}
func (s *testState) tearDown() {
// This can get set to false in some tests
s.c.st = true
s.ed.EXPECT().Dispatch("disconnected", s.c, &Line{})
s.st.EXPECT().Wipe()
s.log.EXPECT().Error("irc.recv(): %s", "EOF")
s.log.EXPECT().Info("irc.shutdown(): Disconnected from server.")
s.nc.ExpectNothing()
s.c.shutdown()
<-time.After(1e6)
s.ctrl.Finish()
}
// Practically the same as the above test, but shutdown is called implicitly
// by recv() getting an EOF from the mock connection.
func TestEOF(t *testing.T) {
c, s := setUp(t)
// Since we're not using tearDown() here, manually call Finish()
defer s.ctrl.Finish()
// Simulate EOF from server
s.ed.EXPECT().Dispatch("disconnected", c, &Line{})
s.st.EXPECT().Wipe()
s.log.EXPECT().Info("irc.shutdown(): Disconnected from server.")
s.log.EXPECT().Error("irc.recv(): %s", "EOF")
s.nc.Close()
// Since things happen in different internal goroutines, we need to wait
// 1 ms should be enough :-)
<-time.After(1e6)
// Verify that the connection no longer thinks it's connected
if c.Connected {
t.Errorf("Conn still thinks it's connected to the server.")
}
}
func TestClientAndStateTracking(t *testing.T) {
// This doesn't use setUp() as we want to pass in a mock EventRegistry.
ctrl := gomock.NewController(t)
r := event.NewMockEventRegistry(ctrl)
l := logging.NewMockLogger(ctrl)
st := state.NewMockStateTracker(ctrl)
for n, h := range intHandlers {
r.EXPECT().AddHandler(h, n)
}
c := Client("test", "test", "Testing IRC", r, l)
// Assert some basic things about the initial state of the Conn struct
if c.ER != r || c.ED != r || c.l != l || c.st != false || c.ST != nil {
t.Errorf("Conn not correctly initialised with external deps.")
}
if c.in == nil || c.out == nil || c.cSend == nil || c.cLoop == nil {
t.Errorf("Conn control channels not correctly initialised.")
}
if c.Me.Nick != "test" || c.Me.Ident != "test" ||
c.Me.Name != "Testing IRC" || c.Me.Host != "" {
t.Errorf("Conn.Me not correctly initialised.")
}
// OK, while we're here with a mock event registry...
for n, h := range stHandlers {
r.EXPECT().AddHandler(h, n)
}
c.EnableStateTracking()
// We're expecting the untracked me to be replaced by a tracked one.
if c.Me.Nick != "test" || c.Me.Ident != "test" ||
c.Me.Name != "Testing IRC" || c.Me.Host != "" {
t.Errorf("Enabling state tracking did not replace Me correctly.")
}
if !c.st || c.ST == nil || c.Me != c.ST.Me() {
t.Errorf("State tracker not enabled correctly.")
}
// Now, shim in the mock state tracker and test disabling state tracking.
me := c.Me
c.ST = st
st.EXPECT().Wipe()
for n, h := range stHandlers {
r.EXPECT().DelHandler(h, n)
}
c.DisableStateTracking()
if c.st || c.ST != nil || c.Me != me {
t.Errorf("State tracker not disabled correctly.")
}
ctrl.Finish()
}
func TestSend(t *testing.T) {
// Passing a second value to setUp inhibits postConnect()
c, s := setUp(t, false)
// We can't use tearDown here, as it will cause a deadlock in shutdown()
// trying to send kill messages down channels to nonexistent goroutines.
defer s.ctrl.Finish()
// ... so we have to do some of it's work here.
c.io = bufio.NewReadWriter(
bufio.NewReader(c.sock),
bufio.NewWriter(c.sock))
// Assert that before send is running, nothing should be sent to the socket
// but writes to the buffered channel "out" should not block.
c.out <- "SENT BEFORE START"
s.nc.ExpectNothing()
// We want to test that the a goroutine calling send will exit correctly.
exited := false
go func() {
c.send()
exited = true
}()
// send is now running in the background as if started by postConnect.
// This should read the line previously buffered in c.out, and write it
// to the socket connection.
s.nc.Expect("SENT BEFORE START")
// Flood control is disabled -- setUp sets c.Flood = true -- so we should
// not have set c.badness or c.lastsent. We test the actual rateLimit code
// elsewhere, this is just for verification purposes...
if c.badness != 0 || c.lastsent != 0 {
t.Errorf("Flood control appears to be incorrectly enabled.")
}
// Send another line, just to be sure :-)
c.out <- "SENT AFTER START"
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.")
}
c.cSend <- true
// Allow propagation time...
<-time.After(1e6)
if !exited {
t.Errorf("Didn't exit after signal.")
}
s.nc.ExpectNothing()
// Sending more on c.out shouldn't reach the network.
c.out <- "SENT AFTER END"
s.nc.ExpectNothing()
}
func TestRecv(t *testing.T) {
// Passing a second value to setUp inhibits postConnect()
c, s := setUp(t, false)
// We can't tearDown here as we need to explicitly test recv exiting.
// The same shutdown() caveat in TestSend above also applies.
defer s.ctrl.Finish()
// ... so we have to do some of it's work here.
c.io = bufio.NewReadWriter(
bufio.NewReader(c.sock),
bufio.NewWriter(c.sock))
// Send a line before recv is started up, to verify nothing appears on c.in
s.nc.Send(":irc.server.org 001 test :First test line.")
// reader is a helper to do a "non-blocking" read of c.in
reader := func() *Line {
select {
case <-time.After(1e6):
case l := <-c.in:
return l
}
return nil
}
if l := reader(); l != nil {
t.Errorf("Line parsed before recv started.")
}
// We want to test that the a goroutine calling recv will exit correctly.
exited := false
go func() {
c.recv()
exited = true
}()
// 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(1e6)
// 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")
}
// Send a second line, just to be sure.
s.nc.Send(":irc.server.org 002 test :Second test line.")
if l := reader(); l == nil || l.Cmd != "002" {
t.Errorf("Bad second line received on input channel.")
}
// Test that recv does something useful with a line it can't parse
// (not that there are many, parseLine is forgiving).
s.log.EXPECT().Warn("irc.recv(): problems parsing line:\n %s",
":textwithnospaces")
s.nc.Send(":textwithnospaces")
if l := reader(); l != nil {
t.Errorf("Bad line still caused receive on input channel.")
}
// The only way recv() exits is when the socket closes.
if exited {
t.Errorf("Exited before socket close.")
}
s.ed.EXPECT().Dispatch("disconnected", c, &Line{})
s.st.EXPECT().Wipe()
s.log.EXPECT().Info("irc.shutdown(): Disconnected from server.")
s.log.EXPECT().Error("irc.recv(): %s", "EOF")
s.nc.Close()
// Since send and runloop aren't actually running, we need to empty their
// channels manually for recv() to be able to call shutdown correctly.
<-c.cSend
<-c.cLoop
// Give things time to shake themselves out...
<-time.After(1e6)
if !exited {
t.Errorf("Didn't exit on socket close.")
}
// Since s.nc is closed we can't attempt another send on it...
if l := reader(); l != nil {
t.Errorf("Line received on input channel after socket close.")
}
}
func TestRunLoop(t *testing.T) {
// Passing a second value to setUp inhibits postConnect()
c, s := setUp(t, false)
// We can't use tearDown here, as it will cause a deadlock in shutdown()
// trying to send kill messages down channels to nonexistent goroutines.
defer s.ctrl.Finish()
// ... so we have to do some of it's work here.
c.io = bufio.NewReadWriter(
bufio.NewReader(c.sock),
bufio.NewWriter(c.sock))
// NOTE: here we assert that no Dispatch event has been called yet by
// calling s.ctrl.Finish(). There doesn't appear to be any harm in this.
l1 := parseLine(":irc.server.org 001 test :First test line.")
c.in <- l1
s.ctrl.Finish()
// 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.
s.ed.EXPECT().Dispatch("001", c, l1)
exited := false
go func() {
c.runLoop()
exited = true
}()
// 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(1e6)
// Send another line, just to be sure :-)
l2 := parseLine(":irc.server.org 002 test :Second test line.")
s.ed.EXPECT().Dispatch("002", c, l2)
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(1e6)
// Now, use the control channel to exit send and kill the goroutine.
if exited {
t.Errorf("Exited before signal sent.")
}
c.cLoop <- true
// Allow propagation time...
<-time.After(1e6)
if !exited {
t.Errorf("Didn't exit after signal.")
}
// Sending more on c.in shouldn't dispatch any further events
c.in <- l1
}