// Copyright (c) 2013-2014 Conformal Systems LLC. // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. package addrmgr_test import ( "errors" "net" "testing" "time" "github.com/btcsuite/btcwire" "github.com/conformal/btcd/addrmgr" ) // naTest is used to describe a test to be perfomed against the NetAddressKey // method. type naTest struct { in btcwire.NetAddress want string } // naTests houses all of the tests to be performed against the NetAddressKey // method. var naTests = make([]naTest, 0) // addNaTests func addNaTests() { // IPv4 // Localhost addNaTest("127.0.0.1", 8333, "127.0.0.1:8333") addNaTest("127.0.0.1", 8334, "127.0.0.1:8334") // Class A addNaTest("1.0.0.1", 8333, "1.0.0.1:8333") addNaTest("2.2.2.2", 8334, "2.2.2.2:8334") addNaTest("27.253.252.251", 8335, "27.253.252.251:8335") addNaTest("123.3.2.1", 8336, "123.3.2.1:8336") // Private Class A addNaTest("10.0.0.1", 8333, "10.0.0.1:8333") addNaTest("10.1.1.1", 8334, "10.1.1.1:8334") addNaTest("10.2.2.2", 8335, "10.2.2.2:8335") addNaTest("10.10.10.10", 8336, "10.10.10.10:8336") // Class B addNaTest("128.0.0.1", 8333, "128.0.0.1:8333") addNaTest("129.1.1.1", 8334, "129.1.1.1:8334") addNaTest("180.2.2.2", 8335, "180.2.2.2:8335") addNaTest("191.10.10.10", 8336, "191.10.10.10:8336") // Private Class B addNaTest("172.16.0.1", 8333, "172.16.0.1:8333") addNaTest("172.16.1.1", 8334, "172.16.1.1:8334") addNaTest("172.16.2.2", 8335, "172.16.2.2:8335") addNaTest("172.16.172.172", 8336, "172.16.172.172:8336") // Class C addNaTest("193.0.0.1", 8333, "193.0.0.1:8333") addNaTest("200.1.1.1", 8334, "200.1.1.1:8334") addNaTest("205.2.2.2", 8335, "205.2.2.2:8335") addNaTest("223.10.10.10", 8336, "223.10.10.10:8336") // Private Class C addNaTest("192.168.0.1", 8333, "192.168.0.1:8333") addNaTest("192.168.1.1", 8334, "192.168.1.1:8334") addNaTest("192.168.2.2", 8335, "192.168.2.2:8335") addNaTest("192.168.192.192", 8336, "192.168.192.192:8336") // IPv6 // Localhost addNaTest("::1", 8333, "[::1]:8333") addNaTest("fe80::1", 8334, "[fe80::1]:8334") // Link-local addNaTest("fe80::1:1", 8333, "[fe80::1:1]:8333") addNaTest("fe91::2:2", 8334, "[fe91::2:2]:8334") addNaTest("fea2::3:3", 8335, "[fea2::3:3]:8335") addNaTest("feb3::4:4", 8336, "[feb3::4:4]:8336") // Site-local addNaTest("fec0::1:1", 8333, "[fec0::1:1]:8333") addNaTest("fed1::2:2", 8334, "[fed1::2:2]:8334") addNaTest("fee2::3:3", 8335, "[fee2::3:3]:8335") addNaTest("fef3::4:4", 8336, "[fef3::4:4]:8336") } func addNaTest(ip string, port uint16, want string) { nip := net.ParseIP(ip) na := btcwire.NetAddress{ Timestamp: time.Now(), Services: btcwire.SFNodeNetwork, IP: nip, Port: port, } test := naTest{na, want} naTests = append(naTests, test) } func lookupFunc(host string) ([]net.IP, error) { return nil, errors.New("not implemented") } func TestAddLocalAddress(t *testing.T) { var tests = []struct { address btcwire.NetAddress valid bool }{ { btcwire.NetAddress{IP: net.ParseIP("192.168.0.100")}, false, }, { btcwire.NetAddress{IP: net.ParseIP("204.124.1.1")}, true, }, { btcwire.NetAddress{IP: net.ParseIP("::1")}, false, }, { btcwire.NetAddress{IP: net.ParseIP("fe80::1")}, false, }, { btcwire.NetAddress{IP: net.ParseIP("2620:100::1")}, true, }, } amgr := addrmgr.New("", nil) for x, test := range tests { result := amgr.AddLocalAddress(&test.address, addrmgr.InterfacePrio) if result == nil && !test.valid { t.Errorf("TestAddLocalAddress test #%d failed: %s should have "+ "been accepted", x, test.address.IP) continue } if result != nil && test.valid { t.Errorf("TestAddLocalAddress test #%d failed: %s should not have "+ "been accepted", x, test.address.IP) continue } } } func TestGetAddress(t *testing.T) { n := addrmgr.New("testdir", lookupFunc) if rv := n.GetAddress("any", 10); rv != nil { t.Errorf("GetAddress failed: got: %v want: %v\n", rv, nil) } } func TestGetBestLocalAddress(t *testing.T) { localAddrs := []btcwire.NetAddress{ {IP: net.ParseIP("192.168.0.100")}, {IP: net.ParseIP("::1")}, {IP: net.ParseIP("fe80::1")}, {IP: net.ParseIP("2001:470::1")}, } var tests = []struct { remoteAddr btcwire.NetAddress want1 btcwire.NetAddress want2 btcwire.NetAddress want3 btcwire.NetAddress }{ { // Remote connection from public IPv4 btcwire.NetAddress{IP: net.ParseIP("204.124.8.1")}, btcwire.NetAddress{IP: net.IPv4zero}, btcwire.NetAddress{IP: net.ParseIP("204.124.8.100")}, btcwire.NetAddress{IP: net.ParseIP("fd87:d87e:eb43:25::1")}, }, { // Remote connection from private IPv4 btcwire.NetAddress{IP: net.ParseIP("172.16.0.254")}, btcwire.NetAddress{IP: net.IPv4zero}, btcwire.NetAddress{IP: net.IPv4zero}, btcwire.NetAddress{IP: net.IPv4zero}, }, { // Remote connection from public IPv6 btcwire.NetAddress{IP: net.ParseIP("2602:100:abcd::102")}, btcwire.NetAddress{IP: net.ParseIP("2001:470::1")}, btcwire.NetAddress{IP: net.ParseIP("2001:470::1")}, btcwire.NetAddress{IP: net.ParseIP("2001:470::1")}, }, /* XXX { // Remote connection from Tor btcwire.NetAddress{IP: net.ParseIP("fd87:d87e:eb43::100")}, btcwire.NetAddress{IP: net.IPv4zero}, btcwire.NetAddress{IP: net.ParseIP("204.124.8.100")}, btcwire.NetAddress{IP: net.ParseIP("fd87:d87e:eb43:25::1")}, }, */ } amgr := addrmgr.New("", nil) for _, localAddr := range localAddrs { amgr.AddLocalAddress(&localAddr, addrmgr.InterfacePrio) } // Test against want1 for x, test := range tests { got := amgr.GetBestLocalAddress(&test.remoteAddr) if !test.want1.IP.Equal(got.IP) { t.Errorf("TestGetBestLocalAddress test1 #%d failed for remote address %s: want %s got %s", x, test.remoteAddr.IP, test.want1.IP, got.IP) continue } } // Add a public IP to the list of local addresses. localAddr := btcwire.NetAddress{IP: net.ParseIP("204.124.8.100")} amgr.AddLocalAddress(&localAddr, addrmgr.InterfacePrio) // Test against want2 for x, test := range tests { got := amgr.GetBestLocalAddress(&test.remoteAddr) if !test.want2.IP.Equal(got.IP) { t.Errorf("TestGetBestLocalAddress test2 #%d failed for remote address %s: want %s got %s", x, test.remoteAddr.IP, test.want2.IP, got.IP) continue } } /* // Add a tor generated IP address localAddr = btcwire.NetAddress{IP: net.ParseIP("fd87:d87e:eb43:25::1")} amgr.AddLocalAddress(&localAddr, addrmgr.ManualPrio) // Test against want3 for x, test := range tests { got := amgr.GetBestLocalAddress(&test.remoteAddr) if !test.want3.IP.Equal(got.IP) { t.Errorf("TestGetBestLocalAddress test3 #%d failed for remote address %s: want %s got %s", x, test.remoteAddr.IP, test.want3.IP, got.IP) continue } } */ } func TestNetAddressKey(t *testing.T) { addNaTests() t.Logf("Running %d tests", len(naTests)) for i, test := range naTests { key := addrmgr.NetAddressKey(&test.in) if key != test.want { t.Errorf("NetAddressKey #%d\n got: %s want: %s", i, key, test.want) continue } } }