package client import ( "testing" "time" "github.com/fluffle/goirc/state" "github.com/golang/mock/gomock" ) // This test performs a simple end-to-end verification of correct line parsing // and event dispatch as well as testing the PING handler. All the other tests // in this file will call their respective handlers synchronously, otherwise // testing becomes more difficult. func TestPING(t *testing.T) { _, s := setUp(t) defer s.tearDown() s.nc.Send("PING :1234567890") s.nc.Expect("PONG :1234567890") } // Test the REGISTER handler matches section 3.1 of rfc2812 func TestREGISTER(t *testing.T) { c, s := setUp(t) defer s.tearDown() c.h_REGISTER(&Line{Cmd: REGISTER}) s.nc.Expect("NICK test") s.nc.Expect("USER test 12 * :Testing IRC") s.nc.ExpectNothing() c.cfg.Pass = "12345" c.cfg.Me.Ident = "idiot" c.cfg.Me.Name = "I've got the same combination on my luggage!" c.h_REGISTER(&Line{Cmd: REGISTER}) s.nc.Expect("PASS 12345") s.nc.Expect("NICK test") s.nc.Expect("USER idiot 12 * :I've got the same combination on my luggage!") s.nc.ExpectNothing() } // Test the handler for 001 / RPL_WELCOME func Test001(t *testing.T) { c, s := setUp(t) defer s.tearDown() l := ParseLine(":irc.server.org 001 newnick :Welcome to IRC newnick!ident@somehost.com") // Set up a handler to detect whether connected handler is called from 001 hcon := false c.HandleFunc("connected", func(conn *Conn, line *Line) { hcon = true }) // Test state tracking first. gomock.InOrder( s.st.EXPECT().Me().Return(c.cfg.Me), s.st.EXPECT().NickInfo("test", "ident", "somehost.com", "Testing IRC"), s.st.EXPECT().ReNick("test", "newnick").Return(&state.Nick{ Nick: "newnick", Ident: c.cfg.Me.Ident, Name: c.cfg.Me.Name, }), ) // Call handler with a valid 001 line c.h_001(l) <-time.After(time.Millisecond) if !hcon { t.Errorf("001 handler did not dispatch connected event.") } // Now without state tracking. c.st = nil c.h_001(l) // Check host parsed correctly if c.cfg.Me.Host != "somehost.com" { t.Errorf("Host parsing failed, host is '%s'.", c.cfg.Me.Host) } c.st = s.st } // Test the handler for 433 / ERR_NICKNAMEINUSE func Test433(t *testing.T) { c, s := setUp(t) defer s.tearDown() // Call handler with a 433 line, not triggering c.cfg.Me.Renick() s.st.EXPECT().Me().Return(c.cfg.Me) c.h_433(ParseLine(":irc.server.org 433 test new :Nickname is already in use.")) s.nc.Expect("NICK " + DefaultNewNick("new")) // Send a line that will trigger a renick. This happens when our wanted // nick is unavailable during initial negotiation, so we must choose a // different one before the connection can proceed. No NICK line will be // sent by the server to confirm nick change in this case. want := DefaultNewNick(c.cfg.Me.Nick) gomock.InOrder( s.st.EXPECT().Me().Return(c.cfg.Me), s.st.EXPECT().ReNick("test", want).Return(c.cfg.Me), ) c.h_433(ParseLine(":irc.server.org 433 test test :Nickname is already in use.")) s.nc.Expect("NICK " + want) // Test the code path that *doesn't* involve state tracking. c.st = nil c.h_433(ParseLine(":irc.server.org 433 test test :Nickname is already in use.")) s.nc.Expect("NICK " + want) if c.cfg.Me.Nick != want { t.Errorf("My nick not updated from '%s'.", c.cfg.Me.Nick) } c.st = s.st } // Test the handler for NICK messages when state tracking is disabled func TestNICK(t *testing.T) { c, s := setUp(t) defer s.tearDown() // State tracking is enabled by default in setUp c.st = nil // Call handler with a NICK line changing "our" nick to test1. c.h_NICK(ParseLine(":test!test@somehost.com NICK :test1")) // Verify that our Nick has changed if c.cfg.Me.Nick != "test1" { t.Errorf("NICK did not result in changing our nick.") } // Send a NICK line for something that isn't us. c.h_NICK(ParseLine(":blah!moo@cows.com NICK :milk")) // Verify that our Nick hasn't changed if c.cfg.Me.Nick != "test1" { t.Errorf("NICK did not result in changing our nick.") } // Re-enable state tracking and send a line that *should* change nick. c.st = s.st c.h_NICK(ParseLine(":test1!test@somehost.com NICK :test2")) // Verify that our Nick hasn't changed (should be handled by h_STNICK). if c.cfg.Me.Nick != "test1" { t.Errorf("NICK changed our nick when state tracking enabled.") } } // Test the handler for CTCP messages func TestCTCP(t *testing.T) { c, s := setUp(t) defer s.tearDown() // Call handler with CTCP VERSION c.h_CTCP(ParseLine(":blah!moo@cows.com PRIVMSG test :\001VERSION\001")) // Expect a version reply s.nc.Expect("NOTICE blah :\001VERSION Powered by GoIRC\001") // Call handler with CTCP PING c.h_CTCP(ParseLine(":blah!moo@cows.com PRIVMSG test :\001PING 1234567890\001")) // Expect a ping reply s.nc.Expect("NOTICE blah :\001PING 1234567890\001") // Call handler with CTCP UNKNOWN c.h_CTCP(ParseLine(":blah!moo@cows.com PRIVMSG test :\001UNKNOWN ctcp\001")) } // Test the handler for JOIN messages func TestJOIN(t *testing.T) { c, s := setUp(t) defer s.tearDown() // The state tracker should be creating a new channel in this first test chan1 := &state.Channel{Name: "#test1"} gomock.InOrder( s.st.EXPECT().GetChannel("#test1").Return(nil), s.st.EXPECT().GetNick("test").Return(c.cfg.Me), s.st.EXPECT().Me().Return(c.cfg.Me), s.st.EXPECT().NewChannel("#test1").Return(chan1), s.st.EXPECT().Associate("#test1", "test"), ) // Use #test1 to test expected behaviour // Call handler with JOIN by test to #test1 c.h_JOIN(ParseLine(":test!test@somehost.com JOIN :#test1")) // Verify that the MODE and WHO commands are sent correctly s.nc.Expect("MODE #test1") s.nc.Expect("WHO #test1") // In this second test, we should be creating a new nick nick1 := &state.Nick{Nick: "user1"} gomock.InOrder( s.st.EXPECT().GetChannel("#test1").Return(chan1), s.st.EXPECT().GetNick("user1").Return(nil), s.st.EXPECT().NewNick("user1").Return(nick1), s.st.EXPECT().NickInfo("user1", "ident1", "host1.com", "").Return(nick1), s.st.EXPECT().Associate("#test1", "user1"), ) // OK, now #test1 exists, JOIN another user we don't know about c.h_JOIN(ParseLine(":user1!ident1@host1.com JOIN :#test1")) // Verify that the WHO command is sent correctly s.nc.Expect("WHO user1") // In this third test, we'll be pretending we know about the nick already. nick2 := &state.Nick{Nick: "user2"} gomock.InOrder( s.st.EXPECT().GetChannel("#test1").Return(chan1), s.st.EXPECT().GetNick("user2").Return(nick2), s.st.EXPECT().Associate("#test1", "user2"), ) c.h_JOIN(ParseLine(":user2!ident2@host2.com JOIN :#test1")) // Test error paths gomock.InOrder( // unknown channel, unknown nick s.st.EXPECT().GetChannel("#test2").Return(nil), s.st.EXPECT().GetNick("blah").Return(nil), s.st.EXPECT().Me().Return(c.cfg.Me), // unknown channel, known nick that isn't Me. s.st.EXPECT().GetChannel("#test2").Return(nil), s.st.EXPECT().GetNick("user2").Return(nick2), s.st.EXPECT().Me().Return(c.cfg.Me), ) c.h_JOIN(ParseLine(":blah!moo@cows.com JOIN :#test2")) c.h_JOIN(ParseLine(":user2!ident2@host2.com JOIN :#test2")) } // Test the handler for PART messages func TestPART(t *testing.T) { c, s := setUp(t) defer s.tearDown() // PART should dissociate a nick from a channel. s.st.EXPECT().Dissociate("#test1", "user1") c.h_PART(ParseLine(":user1!ident1@host1.com PART #test1 :Bye!")) } // Test the handler for KICK messages // (this is very similar to the PART message test) func TestKICK(t *testing.T) { c, s := setUp(t) defer s.tearDown() // KICK should dissociate a nick from a channel. s.st.EXPECT().Dissociate("#test1", "user1") c.h_KICK(ParseLine(":test!test@somehost.com KICK #test1 user1 :Bye!")) } // Test the handler for QUIT messages func TestQUIT(t *testing.T) { c, s := setUp(t) defer s.tearDown() // Have user1 QUIT. All possible errors handled by state tracker \o/ s.st.EXPECT().DelNick("user1") c.h_QUIT(ParseLine(":user1!ident1@host1.com QUIT :Bye!")) } // Test the handler for MODE messages func TestMODE(t *testing.T) { c, s := setUp(t) defer s.tearDown() // Channel modes gomock.InOrder( s.st.EXPECT().GetChannel("#test1").Return(&state.Channel{Name: "#test1"}), s.st.EXPECT().ChannelModes("#test1", "+sk", "somekey"), ) c.h_MODE(ParseLine(":user1!ident1@host1.com MODE #test1 +sk somekey")) // Nick modes for Me. gomock.InOrder( s.st.EXPECT().GetChannel("test").Return(nil), s.st.EXPECT().GetNick("test").Return(c.cfg.Me), s.st.EXPECT().Me().Return(c.cfg.Me), s.st.EXPECT().NickModes("test", "+i"), ) c.h_MODE(ParseLine(":test!test@somehost.com MODE test +i")) // Check error paths gomock.InOrder( // send a valid user mode that's not us s.st.EXPECT().GetChannel("user1").Return(nil), s.st.EXPECT().GetNick("user1").Return(&state.Nick{Nick: "user1"}), s.st.EXPECT().Me().Return(c.cfg.Me), // Send a random mode for an unknown channel s.st.EXPECT().GetChannel("#test2").Return(nil), s.st.EXPECT().GetNick("#test2").Return(nil), ) c.h_MODE(ParseLine(":user1!ident1@host1.com MODE user1 +w")) c.h_MODE(ParseLine(":user1!ident1@host1.com MODE #test2 +is")) } // Test the handler for TOPIC messages func TestTOPIC(t *testing.T) { c, s := setUp(t) defer s.tearDown() // Ensure TOPIC reply calls Topic gomock.InOrder( s.st.EXPECT().GetChannel("#test1").Return(&state.Channel{Name: "#test1"}), s.st.EXPECT().Topic("#test1", "something something"), ) c.h_TOPIC(ParseLine(":user1!ident1@host1.com TOPIC #test1 :something something")) // Check error paths -- send a topic for an unknown channel s.st.EXPECT().GetChannel("#test2").Return(nil) c.h_TOPIC(ParseLine(":user1!ident1@host1.com TOPIC #test2 :dark side")) } // Test the handler for 311 / RPL_WHOISUSER func Test311(t *testing.T) { c, s := setUp(t) defer s.tearDown() // Ensure 311 reply calls NickInfo gomock.InOrder( s.st.EXPECT().GetNick("user1").Return(&state.Nick{Nick: "user1"}), s.st.EXPECT().Me().Return(c.cfg.Me), s.st.EXPECT().NickInfo("user1", "ident1", "host1.com", "name"), ) c.h_311(ParseLine(":irc.server.org 311 test user1 ident1 host1.com * :name")) // Check error paths -- send a 311 for an unknown nick s.st.EXPECT().GetNick("user2").Return(nil) c.h_311(ParseLine(":irc.server.org 311 test user2 ident2 host2.com * :dongs")) } // Test the handler for 324 / RPL_CHANNELMODEIS func Test324(t *testing.T) { c, s := setUp(t) defer s.tearDown() // Ensure 324 reply calls ChannelModes gomock.InOrder( s.st.EXPECT().GetChannel("#test1").Return(&state.Channel{Name: "#test1"}), s.st.EXPECT().ChannelModes("#test1", "+sk", "somekey"), ) c.h_324(ParseLine(":irc.server.org 324 test #test1 +sk somekey")) // Check error paths -- send 324 for an unknown channel s.st.EXPECT().GetChannel("#test2").Return(nil) c.h_324(ParseLine(":irc.server.org 324 test #test2 +pmt")) } // Test the handler for 332 / RPL_TOPIC func Test332(t *testing.T) { c, s := setUp(t) defer s.tearDown() // Ensure 332 reply calls Topic gomock.InOrder( s.st.EXPECT().GetChannel("#test1").Return(&state.Channel{Name: "#test1"}), s.st.EXPECT().Topic("#test1", "something something"), ) c.h_332(ParseLine(":irc.server.org 332 test #test1 :something something")) // Check error paths -- send 332 for an unknown channel s.st.EXPECT().GetChannel("#test2").Return(nil) c.h_332(ParseLine(":irc.server.org 332 test #test2 :dark side")) } // Test the handler for 352 / RPL_WHOREPLY func Test352(t *testing.T) { c, s := setUp(t) defer s.tearDown() // Ensure 352 reply calls NickInfo and NickModes gomock.InOrder( s.st.EXPECT().GetNick("user1").Return(&state.Nick{Nick: "user1"}), s.st.EXPECT().Me().Return(c.cfg.Me), s.st.EXPECT().NickInfo("user1", "ident1", "host1.com", "name"), ) c.h_352(ParseLine(":irc.server.org 352 test #test1 ident1 host1.com irc.server.org user1 G :0 name")) // Check that modes are set correctly from WHOREPLY gomock.InOrder( s.st.EXPECT().GetNick("user1").Return(&state.Nick{Nick: "user1"}), s.st.EXPECT().Me().Return(c.cfg.Me), s.st.EXPECT().NickInfo("user1", "ident1", "host1.com", "name"), s.st.EXPECT().NickModes("user1", "+o"), s.st.EXPECT().NickModes("user1", "+i"), ) c.h_352(ParseLine(":irc.server.org 352 test #test1 ident1 host1.com irc.server.org user1 H* :0 name")) // Check error paths -- send a 352 for an unknown nick s.st.EXPECT().GetNick("user2").Return(nil) c.h_352(ParseLine(":irc.server.org 352 test #test2 ident2 host2.com irc.server.org user2 G :0 fooo")) } // Test the handler for 353 / RPL_NAMREPLY func Test353(t *testing.T) { c, s := setUp(t) defer s.tearDown() // 353 handler is called twice, so GetChannel will be called twice s.st.EXPECT().GetChannel("#test1").Return(&state.Channel{Name: "#test1"}).Times(2) gomock.InOrder( // "test" is Me, i am known, and already on the channel s.st.EXPECT().GetNick("test").Return(c.cfg.Me), s.st.EXPECT().IsOn("#test1", "test").Return(&state.ChanPrivs{}, true), // user1 is known, but not on the channel, so should be associated s.st.EXPECT().GetNick("user1").Return(&state.Nick{Nick: "user1"}), s.st.EXPECT().IsOn("#test1", "user1").Return(nil, false), s.st.EXPECT().Associate("#test1", "user1").Return(&state.ChanPrivs{}), s.st.EXPECT().ChannelModes("#test1", "+o", "user1"), ) for n, m := range map[string]string{ "user2": "", "voice": "+v", "halfop": "+h", "op": "+o", "admin": "+a", "owner": "+q", } { calls := []*gomock.Call{ s.st.EXPECT().GetNick(n).Return(nil), s.st.EXPECT().NewNick(n).Return(&state.Nick{Nick: n}), s.st.EXPECT().IsOn("#test1", n).Return(nil, false), s.st.EXPECT().Associate("#test1", n).Return(&state.ChanPrivs{}), } if m != "" { calls = append(calls, s.st.EXPECT().ChannelModes("#test1", m, n)) } gomock.InOrder(calls...) } // Send a couple of names replies (complete with trailing space) c.h_353(ParseLine(":irc.server.org 353 test = #test1 :test @user1 user2 +voice ")) c.h_353(ParseLine(":irc.server.org 353 test = #test1 :%halfop @op &admin ~owner ")) // Check error paths -- send 353 for an unknown channel s.st.EXPECT().GetChannel("#test2").Return(nil) c.h_353(ParseLine(":irc.server.org 353 test = #test2 :test ~user3")) } // Test the handler for 671 (unreal specific) func Test671(t *testing.T) { c, s := setUp(t) defer s.tearDown() // Ensure 671 reply calls NickModes gomock.InOrder( s.st.EXPECT().GetNick("user1").Return(&state.Nick{Nick: "user1"}), s.st.EXPECT().NickModes("user1", "+z"), ) c.h_671(ParseLine(":irc.server.org 671 test user1 :some ignored text")) // Check error paths -- send a 671 for an unknown nick s.st.EXPECT().GetNick("user2").Return(nil) c.h_671(ParseLine(":irc.server.org 671 test user2 :some ignored text")) } func TestCap(t *testing.T) { c, s := setUp(t) defer s.tearDown() c.Config().EnableCapabilityNegotiation = true c.Config().Capabilites = []string{"cap1", "cap2", "cap3", "cap4"} c.h_REGISTER(&Line{Cmd: REGISTER}) s.nc.Expect("CAP LS") s.nc.Expect("NICK test") s.nc.Expect("USER test 12 * :Testing IRC") // Ensure that capabilities not supported by the server are not requested s.nc.Send("CAP * LS :cap2 cap4") s.nc.Expect("CAP REQ :cap2 cap4") s.nc.Send("CAP * ACK :cap2 cap4") s.nc.Expect("CAP END") for _, cap := range []string{"cap2", "cap4"} { if !c.SupportsCapability(cap) { t.Fail() } if !c.HasCapability(cap) { t.Fail() } } for _, cap := range []string{"cap1", "cap3"} { if c.HasCapability(cap) { t.Fail() } } // test disable capability after registration s.c.Cap("REQ", "-cap4") s.nc.Expect("CAP REQ :-cap4") s.nc.Send("CAP * ACK :-cap4") s.nc.Expect("CAP END") if !c.HasCapability("cap2") { t.Fail() } if c.HasCapability("cap4") { t.Fail() } }