package nebula import ( "net" "testing" "github.com/slackhq/nebula/iputil" "github.com/stretchr/testify/assert" ) func TestRemoteList_Rebuild(t *testing.T) { rl := NewRemoteList(nil) rl.unlockedSetV4( 0, 0, []*Ip4AndPort{ {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("70.199.182.92"))), Port: 1475}, // this is duped {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.17.0.182"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.17.1.1"))), Port: 10101}, // this is duped {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.18.0.1"))), Port: 10101}, // this is duped {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.18.0.1"))), Port: 10101}, // this is a dupe {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.19.0.1"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.31.0.1"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.17.1.1"))), Port: 10101}, // this is a dupe {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("70.199.182.92"))), Port: 1476}, // almost dupe of 0 with a diff port {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("70.199.182.92"))), Port: 1475}, // this is a dupe }, func(iputil.VpnIp, *Ip4AndPort) bool { return true }, ) rl.unlockedSetV6( 1, 1, []*Ip6AndPort{ NewIp6AndPort(net.ParseIP("1::1"), 1), // this is duped NewIp6AndPort(net.ParseIP("1::1"), 2), // almost dupe of 0 with a diff port, also gets duped NewIp6AndPort(net.ParseIP("1:100::1"), 1), NewIp6AndPort(net.ParseIP("1::1"), 1), // this is a dupe NewIp6AndPort(net.ParseIP("1::1"), 2), // this is a dupe }, func(iputil.VpnIp, *Ip6AndPort) bool { return true }, ) rl.Rebuild([]*net.IPNet{}) assert.Len(t, rl.addrs, 10, "addrs contains too many entries") // ipv6 first, sorted lexically within assert.Equal(t, "[1::1]:1", rl.addrs[0].String()) assert.Equal(t, "[1::1]:2", rl.addrs[1].String()) assert.Equal(t, "[1:100::1]:1", rl.addrs[2].String()) // ipv4 last, sorted by public first, then private, lexically within them assert.Equal(t, "70.199.182.92:1475", rl.addrs[3].String()) assert.Equal(t, "70.199.182.92:1476", rl.addrs[4].String()) assert.Equal(t, "172.17.0.182:10101", rl.addrs[5].String()) assert.Equal(t, "172.17.1.1:10101", rl.addrs[6].String()) assert.Equal(t, "172.18.0.1:10101", rl.addrs[7].String()) assert.Equal(t, "172.19.0.1:10101", rl.addrs[8].String()) assert.Equal(t, "172.31.0.1:10101", rl.addrs[9].String()) // Now ensure we can hoist ipv4 up _, ipNet, err := net.ParseCIDR("0.0.0.0/0") assert.NoError(t, err) rl.Rebuild([]*net.IPNet{ipNet}) assert.Len(t, rl.addrs, 10, "addrs contains too many entries") // ipv4 first, public then private, lexically within them assert.Equal(t, "70.199.182.92:1475", rl.addrs[0].String()) assert.Equal(t, "70.199.182.92:1476", rl.addrs[1].String()) assert.Equal(t, "172.17.0.182:10101", rl.addrs[2].String()) assert.Equal(t, "172.17.1.1:10101", rl.addrs[3].String()) assert.Equal(t, "172.18.0.1:10101", rl.addrs[4].String()) assert.Equal(t, "172.19.0.1:10101", rl.addrs[5].String()) assert.Equal(t, "172.31.0.1:10101", rl.addrs[6].String()) // ipv6 last, sorted by public first, then private, lexically within them assert.Equal(t, "[1::1]:1", rl.addrs[7].String()) assert.Equal(t, "[1::1]:2", rl.addrs[8].String()) assert.Equal(t, "[1:100::1]:1", rl.addrs[9].String()) // Ensure we can hoist a specific ipv4 range over anything else _, ipNet, err = net.ParseCIDR("172.17.0.0/16") assert.NoError(t, err) rl.Rebuild([]*net.IPNet{ipNet}) assert.Len(t, rl.addrs, 10, "addrs contains too many entries") // Preferred ipv4 first assert.Equal(t, "172.17.0.182:10101", rl.addrs[0].String()) assert.Equal(t, "172.17.1.1:10101", rl.addrs[1].String()) // ipv6 next assert.Equal(t, "[1::1]:1", rl.addrs[2].String()) assert.Equal(t, "[1::1]:2", rl.addrs[3].String()) assert.Equal(t, "[1:100::1]:1", rl.addrs[4].String()) // the remaining ipv4 last assert.Equal(t, "70.199.182.92:1475", rl.addrs[5].String()) assert.Equal(t, "70.199.182.92:1476", rl.addrs[6].String()) assert.Equal(t, "172.18.0.1:10101", rl.addrs[7].String()) assert.Equal(t, "172.19.0.1:10101", rl.addrs[8].String()) assert.Equal(t, "172.31.0.1:10101", rl.addrs[9].String()) } func BenchmarkFullRebuild(b *testing.B) { rl := NewRemoteList(nil) rl.unlockedSetV4( 0, 0, []*Ip4AndPort{ {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("70.199.182.92"))), Port: 1475}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.17.0.182"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.17.1.1"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.18.0.1"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.19.0.1"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.31.0.1"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.17.1.1"))), Port: 10101}, // this is a dupe {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("70.199.182.92"))), Port: 1476}, // dupe of 0 with a diff port }, func(iputil.VpnIp, *Ip4AndPort) bool { return true }, ) rl.unlockedSetV6( 0, 0, []*Ip6AndPort{ NewIp6AndPort(net.ParseIP("1::1"), 1), NewIp6AndPort(net.ParseIP("1::1"), 2), // dupe of 0 with a diff port NewIp6AndPort(net.ParseIP("1:100::1"), 1), NewIp6AndPort(net.ParseIP("1::1"), 1), // this is a dupe }, func(iputil.VpnIp, *Ip6AndPort) bool { return true }, ) b.Run("no preferred", func(b *testing.B) { for i := 0; i < b.N; i++ { rl.shouldRebuild = true rl.Rebuild([]*net.IPNet{}) } }) _, ipNet, err := net.ParseCIDR("172.17.0.0/16") assert.NoError(b, err) b.Run("1 preferred", func(b *testing.B) { for i := 0; i < b.N; i++ { rl.shouldRebuild = true rl.Rebuild([]*net.IPNet{ipNet}) } }) _, ipNet2, err := net.ParseCIDR("70.0.0.0/8") assert.NoError(b, err) b.Run("2 preferred", func(b *testing.B) { for i := 0; i < b.N; i++ { rl.shouldRebuild = true rl.Rebuild([]*net.IPNet{ipNet, ipNet2}) } }) _, ipNet3, err := net.ParseCIDR("0.0.0.0/0") assert.NoError(b, err) b.Run("3 preferred", func(b *testing.B) { for i := 0; i < b.N; i++ { rl.shouldRebuild = true rl.Rebuild([]*net.IPNet{ipNet, ipNet2, ipNet3}) } }) } func BenchmarkSortRebuild(b *testing.B) { rl := NewRemoteList(nil) rl.unlockedSetV4( 0, 0, []*Ip4AndPort{ {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("70.199.182.92"))), Port: 1475}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.17.0.182"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.17.1.1"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.18.0.1"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.19.0.1"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.31.0.1"))), Port: 10101}, {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("172.17.1.1"))), Port: 10101}, // this is a dupe {Ip: uint32(iputil.Ip2VpnIp(net.ParseIP("70.199.182.92"))), Port: 1476}, // dupe of 0 with a diff port }, func(iputil.VpnIp, *Ip4AndPort) bool { return true }, ) rl.unlockedSetV6( 0, 0, []*Ip6AndPort{ NewIp6AndPort(net.ParseIP("1::1"), 1), NewIp6AndPort(net.ParseIP("1::1"), 2), // dupe of 0 with a diff port NewIp6AndPort(net.ParseIP("1:100::1"), 1), NewIp6AndPort(net.ParseIP("1::1"), 1), // this is a dupe }, func(iputil.VpnIp, *Ip6AndPort) bool { return true }, ) b.Run("no preferred", func(b *testing.B) { for i := 0; i < b.N; i++ { rl.shouldRebuild = true rl.Rebuild([]*net.IPNet{}) } }) _, ipNet, err := net.ParseCIDR("172.17.0.0/16") rl.Rebuild([]*net.IPNet{ipNet}) assert.NoError(b, err) b.Run("1 preferred", func(b *testing.B) { for i := 0; i < b.N; i++ { rl.Rebuild([]*net.IPNet{ipNet}) } }) _, ipNet2, err := net.ParseCIDR("70.0.0.0/8") rl.Rebuild([]*net.IPNet{ipNet, ipNet2}) assert.NoError(b, err) b.Run("2 preferred", func(b *testing.B) { for i := 0; i < b.N; i++ { rl.Rebuild([]*net.IPNet{ipNet, ipNet2}) } }) _, ipNet3, err := net.ParseCIDR("0.0.0.0/0") rl.Rebuild([]*net.IPNet{ipNet, ipNet2, ipNet3}) assert.NoError(b, err) b.Run("3 preferred", func(b *testing.B) { for i := 0; i < b.N; i++ { rl.Rebuild([]*net.IPNet{ipNet, ipNet2, ipNet3}) } }) }