package addrutil import ( "testing" ma "gx/ipfs/QmR3JkmZBKYXgNMNsNZawm914455Qof3PEopwuVSeXG7aV/go-multiaddr" manet "gx/ipfs/QmYtzQmUwPFGxjCXctJ8e6GXS8sYfoXy2pdeMbS5SFWqRi/go-multiaddr-net" ) func newMultiaddr(t *testing.T, s string) ma.Multiaddr { maddr, err := ma.NewMultiaddr(s) if err != nil { t.Fatal(err) } return maddr } func TestFilterAddrs(t *testing.T) { bad := []ma.Multiaddr{ newMultiaddr(t, "/ip4/1.2.3.4/udp/1234"), // unreliable newMultiaddr(t, "/ip4/1.2.3.4/udp/1234/sctp/1234"), // not in manet newMultiaddr(t, "/ip4/1.2.3.4/udp/1234/utp"), // utp is broken newMultiaddr(t, "/ip4/1.2.3.4/udp/1234/udt"), // udt is broken on arm newMultiaddr(t, "/ip6/fe80::1/tcp/1234"), // link local newMultiaddr(t, "/ip6/fe80::100/tcp/1234"), // link local } good := []ma.Multiaddr{ newMultiaddr(t, "/ip4/127.0.0.1/tcp/1234"), newMultiaddr(t, "/ip6/::1/tcp/1234"), } goodAndBad := append(good, bad...) // test filters for _, a := range bad { if AddrUsable(a, false) { t.Errorf("addr %s should be unusable", a) } if AddrUsable(a, true) { t.Errorf("addr %s should be unusable", a) } } for _, a := range good { if !AddrUsable(a, false) { t.Errorf("addr %s should be usable", a) } if !AddrUsable(a, true) { t.Errorf("addr %s should be usable", a) } } subtestAddrsEqual(t, FilterUsableAddrs(bad), []ma.Multiaddr{}) subtestAddrsEqual(t, FilterUsableAddrs(good), good) subtestAddrsEqual(t, FilterUsableAddrs(goodAndBad), good) } func subtestAddrsEqual(t *testing.T, a, b []ma.Multiaddr) { if len(a) != len(b) { t.Error(t) } in := func(addr ma.Multiaddr, l []ma.Multiaddr) bool { for _, addr2 := range l { if addr.Equal(addr2) { return true } } return false } for _, aa := range a { if !in(aa, b) { t.Errorf("%s not in %s", aa, b) } } } func TestInterfaceAddrs(t *testing.T) { addrs, err := InterfaceAddresses() if err != nil { t.Fatal(err) } if len(addrs) < 1 { t.Error("no addresses") } for _, a := range addrs { if manet.IsIP6LinkLocal(a) { t.Error("should not return ip link local addresses", a) } } if len(addrs) < 1 { t.Error("no good interface addrs") } } func TestResolvingAddrs(t *testing.T) { unspec := []ma.Multiaddr{ newMultiaddr(t, "/ip4/0.0.0.0/tcp/1234"), newMultiaddr(t, "/ip4/1.2.3.4/tcp/1234"), newMultiaddr(t, "/ip6/::/tcp/1234"), newMultiaddr(t, "/ip6/::100/tcp/1234"), } iface := []ma.Multiaddr{ newMultiaddr(t, "/ip4/127.0.0.1"), newMultiaddr(t, "/ip4/10.20.30.40"), newMultiaddr(t, "/ip6/::1"), newMultiaddr(t, "/ip6/::f"), } spec := []ma.Multiaddr{ newMultiaddr(t, "/ip4/127.0.0.1/tcp/1234"), newMultiaddr(t, "/ip4/10.20.30.40/tcp/1234"), newMultiaddr(t, "/ip4/1.2.3.4/tcp/1234"), newMultiaddr(t, "/ip6/::1/tcp/1234"), newMultiaddr(t, "/ip6/::f/tcp/1234"), newMultiaddr(t, "/ip6/::100/tcp/1234"), } actual, err := ResolveUnspecifiedAddresses(unspec, iface) if err != nil { t.Fatal(err) } for i, a := range actual { if !a.Equal(spec[i]) { t.Error(a, " != ", spec[i]) } } ip4u := []ma.Multiaddr{newMultiaddr(t, "/ip4/0.0.0.0")} ip4i := []ma.Multiaddr{newMultiaddr(t, "/ip4/1.2.3.4")} ip6u := []ma.Multiaddr{newMultiaddr(t, "/ip6/::")} ip6i := []ma.Multiaddr{newMultiaddr(t, "/ip6/::1")} if _, err := ResolveUnspecifiedAddress(ip4u[0], ip6i); err == nil { t.Fatal("should have failed") } if _, err := ResolveUnspecifiedAddress(ip6u[0], ip4i); err == nil { t.Fatal("should have failed") } if _, err := ResolveUnspecifiedAddresses(ip6u, ip4i); err == nil { t.Fatal("should have failed") } if _, err := ResolveUnspecifiedAddresses(ip4u, ip6i); err == nil { t.Fatal("should have failed") } } func TestWANShareable(t *testing.T) { wanok := []ma.Multiaddr{ newMultiaddr(t, "/ip4/1.2.3.4/tcp/1234"), newMultiaddr(t, "/ip6/abcd::1/tcp/1234"), } wanbad := []ma.Multiaddr{ newMultiaddr(t, "/ip4/127.0.0.1/tcp/1234"), newMultiaddr(t, "/ip4/0.0.0.0/tcp/1234"), newMultiaddr(t, "/ip6/::1/tcp/1234"), newMultiaddr(t, "/ip6/::/tcp/1234"), newMultiaddr(t, "/ip6/fe80::1/tcp/1234"), newMultiaddr(t, "/ip6/fe80::/tcp/1234"), } for _, a := range wanok { if !AddrIsShareableOnWAN(a) { t.Error("should be true", a) } } for _, a := range wanbad { if AddrIsShareableOnWAN(a) { t.Error("should be false", a) } } wanok2 := WANShareableAddrs(wanok) if len(wanok) != len(wanok2) { t.Error("should be the same") } wanbad2 := WANShareableAddrs(wanbad) if len(wanbad2) != 0 { t.Error("should be zero") } } func TestSubtract(t *testing.T) { a := []ma.Multiaddr{ newMultiaddr(t, "/ip4/127.0.0.1/tcp/1234"), newMultiaddr(t, "/ip4/0.0.0.0/tcp/1234"), newMultiaddr(t, "/ip6/::1/tcp/1234"), newMultiaddr(t, "/ip6/::/tcp/1234"), newMultiaddr(t, "/ip6/fe80::1/tcp/1234"), newMultiaddr(t, "/ip6/fe80::/tcp/1234"), } b := []ma.Multiaddr{ newMultiaddr(t, "/ip4/127.0.0.1/tcp/1234"), newMultiaddr(t, "/ip6/::1/tcp/1234"), newMultiaddr(t, "/ip6/fe80::1/tcp/1234"), } c1 := []ma.Multiaddr{ newMultiaddr(t, "/ip4/0.0.0.0/tcp/1234"), newMultiaddr(t, "/ip6/::/tcp/1234"), newMultiaddr(t, "/ip6/fe80::/tcp/1234"), } c2 := Subtract(a, b) if len(c1) != len(c2) { t.Error("should be the same") } for i, ca := range c1 { if !c2[i].Equal(ca) { t.Error("should be the same", ca, c2[i]) } } }