package torrent import ( "net" "testing" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "github.com/anacrolix/dht/v2/krpc" pp "github.com/anacrolix/torrent/peer_protocol" ) var ( addrs6 = []net.Addr{ &net.TCPAddr{IP: net.IPv6loopback, Port: 4747}, &net.TCPAddr{IP: net.IPv6loopback, Port: 4748}, &net.TCPAddr{IP: net.IPv6loopback, Port: 4749}, &net.TCPAddr{IP: net.IPv6loopback, Port: 4750}, } addrs4 = []net.Addr{ &net.TCPAddr{IP: net.IPv4(127, 0, 0, 1), Port: 4747}, &net.TCPAddr{IP: net.IPv4(127, 0, 0, 1), Port: 4748}, &net.TCPAddr{IP: net.IPv4(127, 0, 0, 1), Port: 4749}, &net.TCPAddr{IP: net.IPv4(127, 0, 0, 1), Port: 4750}, } addrs = []net.Addr{ addrs6[0], addrs6[1], addrs4[0], addrs4[1], } f = pp.PexOutgoingConn ) func TestPexAdded(t *testing.T) { t.Run("noHold", func(t *testing.T) { s := new(pexState) s.Add(&PeerConn{Peer: Peer{RemoteAddr: addrs[0], outgoing: true}}) targ := &pexState{ ev: []pexEvent{ {pexAdd, addrs[0], pp.PexOutgoingConn}, }, nc: 1, } require.EqualValues(t, targ, s) }) t.Run("belowTarg", func(t *testing.T) { s := &pexState{ hold: []pexEvent{ {pexDrop, addrs[1], 0}, }, nc: 0, } s.Add(&PeerConn{Peer: Peer{RemoteAddr: addrs[0]}}) targ := &pexState{ hold: []pexEvent{ {pexDrop, addrs[1], 0}, }, ev: []pexEvent{ {pexAdd, addrs[0], 0}, }, nc: 1, } require.EqualValues(t, targ, s) }) t.Run("aboveTarg", func(t *testing.T) { holdAddr := &net.TCPAddr{IP: net.IPv6loopback, Port: 4848} s := &pexState{ hold: []pexEvent{ {pexDrop, holdAddr, 0}, }, nc: pexTargAdded, } s.Add(&PeerConn{Peer: Peer{RemoteAddr: addrs[0]}}) targ := &pexState{ hold: []pexEvent{}, ev: []pexEvent{ {pexDrop, holdAddr, 0}, {pexAdd, addrs[0], 0}, }, nc: pexTargAdded + 1, } require.EqualValues(t, targ, s) }) } func TestPexDropped(t *testing.T) { t.Run("belowTarg", func(t *testing.T) { s := &pexState{nc: 1} s.Drop(&PeerConn{Peer: Peer{RemoteAddr: addrs[0]}, pex: pexConnState{Listed: true}}) targ := &pexState{ hold: []pexEvent{{pexDrop, addrs[0], 0}}, nc: 0, } require.EqualValues(t, targ, s) }) t.Run("aboveTarg", func(t *testing.T) { s := &pexState{nc: pexTargAdded + 1} s.Drop(&PeerConn{Peer: Peer{RemoteAddr: addrs[0]}, pex: pexConnState{Listed: true}}) targ := &pexState{ ev: []pexEvent{{pexDrop, addrs[0], 0}}, nc: pexTargAdded, } require.EqualValues(t, targ, s) }) t.Run("aboveTargNotListed", func(t *testing.T) { s := &pexState{nc: pexTargAdded + 1} s.Drop(&PeerConn{Peer: Peer{RemoteAddr: addrs[0]}, pex: pexConnState{Listed: false}}) targ := &pexState{nc: pexTargAdded + 1} require.EqualValues(t, targ, s) }) } func TestPexReset(t *testing.T) { s := &pexState{ hold: []pexEvent{{pexDrop, addrs[0], 0}}, ev: []pexEvent{{pexAdd, addrs[1], 0}}, nc: 1, } s.Reset() targ := new(pexState) require.EqualValues(t, targ, s) } func mustNodeAddr(addr net.Addr) krpc.NodeAddr { ret, ok := nodeAddr(addr) if !ok { panic(addr) } return ret } var testcases = []struct { name string in *pexState arg int targM pp.PexMsg targS int }{ { name: "empty", in: &pexState{}, arg: 0, targM: pp.PexMsg{}, targS: 0, }, { name: "add4", in: &pexState{ ev: []pexEvent{ {pexAdd, addrs[0], f}, {pexAdd, addrs[1], f}, {pexAdd, addrs[2], f}, {pexAdd, addrs[3], f}, }, }, arg: 0, targM: pp.PexMsg{ Added: krpc.CompactIPv4NodeAddrs{ mustNodeAddr(addrs[2]), mustNodeAddr(addrs[3]), }, AddedFlags: []pp.PexPeerFlags{f, f}, Added6: krpc.CompactIPv6NodeAddrs{ mustNodeAddr(addrs[0]), mustNodeAddr(addrs[1]), }, Added6Flags: []pp.PexPeerFlags{f, f}, }, targS: 4, }, { name: "drop2", arg: 0, in: &pexState{ ev: []pexEvent{ {pexDrop, addrs[0], f}, {pexDrop, addrs[2], f}, }, }, targM: pp.PexMsg{ Dropped: krpc.CompactIPv4NodeAddrs{ mustNodeAddr(addrs[2]), }, Dropped6: krpc.CompactIPv6NodeAddrs{ mustNodeAddr(addrs[0]), }, }, targS: 2, }, { name: "add2drop1", arg: 0, in: &pexState{ ev: []pexEvent{ {pexAdd, addrs[0], f}, {pexAdd, addrs[1], f}, {pexDrop, addrs[0], f}, }, }, targM: pp.PexMsg{ Added6: krpc.CompactIPv6NodeAddrs{ mustNodeAddr(addrs[1]), }, Added6Flags: []pp.PexPeerFlags{f}, }, targS: 3, }, { name: "delayed", arg: 0, in: &pexState{ ev: []pexEvent{ {pexAdd, addrs[0], f}, {pexAdd, addrs[1], f}, {pexAdd, addrs[2], f}, }, hold: []pexEvent{ {pexDrop, addrs[0], f}, {pexDrop, addrs[2], f}, {pexDrop, addrs[1], f}, }, }, targM: pp.PexMsg{ Added: krpc.CompactIPv4NodeAddrs{ mustNodeAddr(addrs[2]), }, AddedFlags: []pp.PexPeerFlags{f}, Added6: krpc.CompactIPv6NodeAddrs{ mustNodeAddr(addrs[0]), mustNodeAddr(addrs[1]), }, Added6Flags: []pp.PexPeerFlags{f, f}, }, targS: 3, }, { name: "followup", arg: 1, in: &pexState{ ev: []pexEvent{ {pexAdd, addrs[0], f}, {pexAdd, addrs[1], f}, }, }, targM: pp.PexMsg{ Added6: krpc.CompactIPv6NodeAddrs{ mustNodeAddr(addrs[1]), }, Added6Flags: []pp.PexPeerFlags{f}, }, targS: 2, }, } // Represents the contents of a PexMsg in a way that supports equivalence checking in tests. This is // necessary because pexMsgFactory uses maps and so ordering of the resultant PexMsg isn't // deterministic. Because the flags are in a different array, we can't just use testify's // ElementsMatch because the ordering *does* still matter between an added addr and its flags. type comparablePexMsg struct { added, added6 []krpc.NodeAddr addedFlags, added6Flags []pp.PexPeerFlags dropped, dropped6 []krpc.NodeAddr } // Such Rust-inspired. func (me *comparablePexMsg) From(f pp.PexMsg) { me.added = f.Added me.addedFlags = f.AddedFlags me.added6 = f.Added6 me.added6Flags = f.Added6Flags me.dropped = f.Dropped me.dropped6 = f.Dropped6 } // For PexMsg created by pexMsgFactory, this is as good as it can get without using data structures // in pexMsgFactory that preserve insert ordering. func (actual comparablePexMsg) AssertEqual(t *testing.T, expected comparablePexMsg) { assert.ElementsMatch(t, expected.added, actual.added) assert.ElementsMatch(t, expected.addedFlags, actual.addedFlags) assert.ElementsMatch(t, expected.added6, actual.added6) assert.ElementsMatch(t, expected.added6Flags, actual.added6Flags) assert.ElementsMatch(t, expected.dropped, actual.dropped) assert.ElementsMatch(t, expected.dropped6, actual.dropped6) } func assertPexMsgsEqual(t *testing.T, expected, actual pp.PexMsg) { var ec, ac comparablePexMsg ec.From(expected) ac.From(actual) ac.AssertEqual(t, ec) } func TestPexGenmsg(t *testing.T) { for _, tc := range testcases { t.Run(tc.name, func(t *testing.T) { s := tc.in m, seen := s.Genmsg(tc.arg) assertPexMsgsEqual(t, tc.targM, m) require.EqualValues(t, tc.targS, seen) }) } } // generate 𝑛 distinct values of net.Addr func addrgen(n int) chan net.Addr { c := make(chan net.Addr) go func() { defer close(c) for i := 4747; i < 65535 && n > 0; i++ { c <- &net.TCPAddr{IP: net.IPv4(127, 0, 0, 1), Port: i} n-- } }() return c } func TestPexInitialNoCutoff(t *testing.T) { const n = 2 * pexMaxDelta var s pexState c := addrgen(n) for addr := range c { s.Add(&PeerConn{Peer: Peer{RemoteAddr: addr}}) } m, seq := s.Genmsg(0) require.EqualValues(t, n, seq) require.EqualValues(t, n, len(m.Added)) require.EqualValues(t, n, len(m.AddedFlags)) require.EqualValues(t, 0, len(m.Added6)) require.EqualValues(t, 0, len(m.Added6Flags)) require.EqualValues(t, 0, len(m.Dropped)) require.EqualValues(t, 0, len(m.Dropped6)) } func benchmarkPexInitialN(b *testing.B, npeers int) { for i := 0; i < b.N; i++ { var s pexState c := addrgen(npeers) for addr := range c { s.Add(&PeerConn{Peer: Peer{RemoteAddr: addr}}) s.Genmsg(0) } } } // obtain at least 5 points, e.g. to plot a graph func BenchmarkPexInitial4(b *testing.B) { benchmarkPexInitialN(b, 4) } func BenchmarkPexInitial50(b *testing.B) { benchmarkPexInitialN(b, 50) } func BenchmarkPexInitial100(b *testing.B) { benchmarkPexInitialN(b, 100) } func BenchmarkPexInitial200(b *testing.B) { benchmarkPexInitialN(b, 200) } func BenchmarkPexInitial400(b *testing.B) { benchmarkPexInitialN(b, 400) } func TestPexAdd(t *testing.T) { t.Run("ipv4", func(t *testing.T) { addrs := addrs4 var m pexMsgFactory m.addEvent(pexEvent{pexDrop, addrs[0], 0}) m.addEvent(pexEvent{pexAdd, addrs[1], f}) for _, addr := range addrs { m.addEvent(pexEvent{pexAdd, addr, f}) } targ := pp.PexMsg{ Added: krpc.CompactIPv4NodeAddrs{ mustNodeAddr(addrs[1]), mustNodeAddr(addrs[2]), mustNodeAddr(addrs[3]), }, AddedFlags: []pp.PexPeerFlags{f, f, f}, } out := m.PexMsg() assertPexMsgsEqual(t, targ, out) }) t.Run("ipv6", func(t *testing.T) { addrs := addrs6 var m pexMsgFactory m.addEvent(pexEvent{pexDrop, addrs[0], 0}) m.addEvent(pexEvent{pexAdd, addrs[1], f}) for _, addr := range addrs { m.addEvent(pexEvent{pexAdd, addr, f}) } targ := pp.PexMsg{ Added6: krpc.CompactIPv6NodeAddrs{ mustNodeAddr(addrs[1]), mustNodeAddr(addrs[2]), mustNodeAddr(addrs[3]), }, Added6Flags: []pp.PexPeerFlags{f, f, f}, } assertPexMsgsEqual(t, targ, m.PexMsg()) }) t.Run("empty", func(t *testing.T) { nullAddr := &net.TCPAddr{} var xm pexMsgFactory xm.addEvent(pexEvent{pexAdd, nullAddr, f}) m := xm.PexMsg() require.EqualValues(t, 0, len(m.Added)) require.EqualValues(t, 0, len(m.AddedFlags)) require.EqualValues(t, 0, len(m.Added6)) require.EqualValues(t, 0, len(m.Added6Flags)) }) } func TestPexDrop(t *testing.T) { t.Run("ipv4", func(t *testing.T) { addrs := addrs4 var m pexMsgFactory m.addEvent(pexEvent{pexAdd, addrs[0], f}) m.addEvent(pexEvent{pexDrop, addrs[1], 0}) for _, addr := range addrs { m.addEvent(pexEvent{pexDrop, addr, 0}) } targ := pp.PexMsg{ Dropped: krpc.CompactIPv4NodeAddrs{ mustNodeAddr(addrs[1]), mustNodeAddr(addrs[2]), mustNodeAddr(addrs[3]), }, } assertPexMsgsEqual(t, targ, m.PexMsg()) }) t.Run("ipv6", func(t *testing.T) { addrs := addrs6 var m pexMsgFactory m.addEvent(pexEvent{pexAdd, addrs[0], f}) m.addEvent(pexEvent{pexDrop, addrs[1], 0}) for _, addr := range addrs { m.addEvent(pexEvent{pexDrop, addr, 0}) } targ := pp.PexMsg{ Dropped6: krpc.CompactIPv6NodeAddrs{ mustNodeAddr(addrs[1]), mustNodeAddr(addrs[2]), mustNodeAddr(addrs[3]), }, } assertPexMsgsEqual(t, targ, m.PexMsg()) }) t.Run("empty", func(t *testing.T) { nullAddr := &net.TCPAddr{} var xm pexMsgFactory xm.addEvent(pexEvent{pexDrop, nullAddr, f}) m := xm.PexMsg() require.EqualValues(t, 0, len(m.Dropped)) require.EqualValues(t, 0, len(m.Dropped6)) }) }