//go:build !windows // +build !windows package ipvlan // import "github.com/docker/docker/integration/network/ipvlan" import ( "context" "os" "os/exec" "strings" "sync" "testing" dclient "github.com/docker/docker/client" "github.com/docker/docker/integration/internal/container" net "github.com/docker/docker/integration/internal/network" n "github.com/docker/docker/integration/network" "github.com/docker/docker/testutil/daemon" "gotest.tools/v3/assert" "gotest.tools/v3/skip" ) func TestDockerNetworkIpvlanPersistance(t *testing.T) { // verify the driver automatically provisions the 802.1q link (di-dummy0.70) skip.If(t, testEnv.IsRemoteDaemon) skip.If(t, !ipvlanKernelSupport(t), "Kernel doesn't support ipvlan") d := daemon.New(t) d.StartWithBusybox(t) defer d.Stop(t) // master dummy interface 'di' notation represent 'docker ipvlan' master := "di-dummy0" n.CreateMasterDummy(t, master) defer n.DeleteInterface(t, master) c := d.NewClientT(t) // create a network specifying the desired sub-interface name netName := "di-persist" net.CreateNoError(context.Background(), t, c, netName, net.WithIPvlan("di-dummy0.70", ""), ) assert.Check(t, n.IsNetworkAvailable(c, netName)) // Restart docker daemon to test the config has persisted to disk d.Restart(t) assert.Check(t, n.IsNetworkAvailable(c, netName)) } func TestDockerNetworkIpvlan(t *testing.T) { skip.If(t, testEnv.IsRemoteDaemon) skip.If(t, !ipvlanKernelSupport(t), "Kernel doesn't support ipvlan") for _, tc := range []struct { name string test func(dclient.APIClient) func(*testing.T) }{ { name: "Subinterface", test: testIpvlanSubinterface, }, { name: "OverlapParent", test: testIpvlanOverlapParent, }, { name: "L2NilParent", test: testIpvlanL2NilParent, }, { name: "L2InternalMode", test: testIpvlanL2InternalMode, }, { name: "L3NilParent", test: testIpvlanL3NilParent, }, { name: "L3InternalMode", test: testIpvlanL3InternalMode, }, { name: "L2MultiSubnet", test: testIpvlanL2MultiSubnet, }, { name: "L3MultiSubnet", test: testIpvlanL3MultiSubnet, }, { name: "Addressing", test: testIpvlanAddressing, }, } { d := daemon.New(t) d.StartWithBusybox(t) c := d.NewClientT(t) t.Run(tc.name, tc.test(c)) d.Stop(t) // FIXME(vdemeester) clean network } } func testIpvlanSubinterface(client dclient.APIClient) func(*testing.T) { return func(t *testing.T) { master := "di-dummy0" n.CreateMasterDummy(t, master) defer n.DeleteInterface(t, master) netName := "di-subinterface" net.CreateNoError(context.Background(), t, client, netName, net.WithIPvlan("di-dummy0.60", ""), ) assert.Check(t, n.IsNetworkAvailable(client, netName)) // delete the network while preserving the parent link err := client.NetworkRemove(context.Background(), netName) assert.NilError(t, err) assert.Check(t, n.IsNetworkNotAvailable(client, netName)) // verify the network delete did not delete the predefined link n.LinkExists(t, "di-dummy0") } } func testIpvlanOverlapParent(client dclient.APIClient) func(*testing.T) { return func(t *testing.T) { // verify the same parent interface cannot be used if already in use by an existing network master := "di-dummy0" parent := master + ".30" n.CreateMasterDummy(t, master) defer n.DeleteInterface(t, master) n.CreateVlanInterface(t, master, parent, "30") netName := "di-subinterface" net.CreateNoError(context.Background(), t, client, netName, net.WithIPvlan(parent, ""), ) assert.Check(t, n.IsNetworkAvailable(client, netName)) _, err := net.Create(context.Background(), client, netName, net.WithIPvlan(parent, ""), ) // verify that the overlap returns an error assert.Check(t, err != nil) } } func testIpvlanL2NilParent(client dclient.APIClient) func(*testing.T) { return func(t *testing.T) { // ipvlan l2 mode - dummy parent interface is provisioned dynamically netName := "di-nil-parent" net.CreateNoError(context.Background(), t, client, netName, net.WithIPvlan("", ""), ) assert.Check(t, n.IsNetworkAvailable(client, netName)) ctx := context.Background() id1 := container.Run(ctx, t, client, container.WithNetworkMode(netName)) id2 := container.Run(ctx, t, client, container.WithNetworkMode(netName)) _, err := container.Exec(ctx, client, id2, []string{"ping", "-c", "1", id1}) assert.NilError(t, err) } } func testIpvlanL2InternalMode(client dclient.APIClient) func(*testing.T) { return func(t *testing.T) { netName := "di-internal" net.CreateNoError(context.Background(), t, client, netName, net.WithIPvlan("", ""), net.WithInternal(), ) assert.Check(t, n.IsNetworkAvailable(client, netName)) ctx := context.Background() id1 := container.Run(ctx, t, client, container.WithNetworkMode(netName)) id2 := container.Run(ctx, t, client, container.WithNetworkMode(netName)) result, _ := container.Exec(ctx, client, id1, []string{"ping", "-c", "1", "8.8.8.8"}) assert.Check(t, strings.Contains(result.Combined(), "Network is unreachable")) _, err := container.Exec(ctx, client, id2, []string{"ping", "-c", "1", id1}) assert.NilError(t, err) } } func testIpvlanL3NilParent(client dclient.APIClient) func(*testing.T) { return func(t *testing.T) { netName := "di-nil-parent-l3" net.CreateNoError(context.Background(), t, client, netName, net.WithIPvlan("", "l3"), net.WithIPAM("172.28.230.0/24", ""), net.WithIPAM("172.28.220.0/24", ""), ) assert.Check(t, n.IsNetworkAvailable(client, netName)) ctx := context.Background() id1 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.220.10"), ) id2 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.230.10"), ) _, err := container.Exec(ctx, client, id2, []string{"ping", "-c", "1", id1}) assert.NilError(t, err) } } func testIpvlanL3InternalMode(client dclient.APIClient) func(*testing.T) { return func(t *testing.T) { netName := "di-internal-l3" net.CreateNoError(context.Background(), t, client, netName, net.WithIPvlan("", "l3"), net.WithInternal(), net.WithIPAM("172.28.230.0/24", ""), net.WithIPAM("172.28.220.0/24", ""), ) assert.Check(t, n.IsNetworkAvailable(client, netName)) ctx := context.Background() id1 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.220.10"), ) id2 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.230.10"), ) result, _ := container.Exec(ctx, client, id1, []string{"ping", "-c", "1", "8.8.8.8"}) assert.Check(t, strings.Contains(result.Combined(), "Network is unreachable")) _, err := container.Exec(ctx, client, id2, []string{"ping", "-c", "1", id1}) assert.NilError(t, err) } } func testIpvlanL2MultiSubnet(client dclient.APIClient) func(*testing.T) { return func(t *testing.T) { netName := "dualstackl2" net.CreateNoError(context.Background(), t, client, netName, net.WithIPvlan("", ""), net.WithIPv6(), net.WithIPAM("172.28.200.0/24", ""), net.WithIPAM("172.28.202.0/24", "172.28.202.254"), net.WithIPAM("2001:db8:abc8::/64", ""), net.WithIPAM("2001:db8:abc6::/64", "2001:db8:abc6::254"), ) assert.Check(t, n.IsNetworkAvailable(client, netName)) // start dual stack containers and verify the user specified --ip and --ip6 addresses on subnets 172.28.100.0/24 and 2001:db8:abc2::/64 ctx := context.Background() id1 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.200.20"), container.WithIPv6(netName, "2001:db8:abc8::20"), ) id2 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.200.21"), container.WithIPv6(netName, "2001:db8:abc8::21"), ) c1, err := client.ContainerInspect(ctx, id1) assert.NilError(t, err) // verify ipv4 connectivity to the explicit --ipv address second to first _, err = container.Exec(ctx, client, id2, []string{"ping", "-c", "1", c1.NetworkSettings.Networks[netName].IPAddress}) assert.NilError(t, err) // verify ipv6 connectivity to the explicit --ipv6 address second to first _, err = container.Exec(ctx, client, id2, []string{"ping6", "-c", "1", c1.NetworkSettings.Networks[netName].GlobalIPv6Address}) assert.NilError(t, err) // start dual stack containers and verify the user specified --ip and --ip6 addresses on subnets 172.28.102.0/24 and 2001:db8:abc4::/64 id3 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.202.20"), container.WithIPv6(netName, "2001:db8:abc6::20"), ) id4 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.202.21"), container.WithIPv6(netName, "2001:db8:abc6::21"), ) c3, err := client.ContainerInspect(ctx, id3) assert.NilError(t, err) // verify ipv4 connectivity to the explicit --ipv address from third to fourth _, err = container.Exec(ctx, client, id4, []string{"ping", "-c", "1", c3.NetworkSettings.Networks[netName].IPAddress}) assert.NilError(t, err) // verify ipv6 connectivity to the explicit --ipv6 address from third to fourth _, err = container.Exec(ctx, client, id4, []string{"ping6", "-c", "1", c3.NetworkSettings.Networks[netName].GlobalIPv6Address}) assert.NilError(t, err) // Inspect the v4 gateway to ensure the proper default GW was assigned assert.Equal(t, c1.NetworkSettings.Networks[netName].Gateway, "172.28.200.1") // Inspect the v6 gateway to ensure the proper default GW was assigned assert.Equal(t, c1.NetworkSettings.Networks[netName].IPv6Gateway, "2001:db8:abc8::1") // Inspect the v4 gateway to ensure the proper explicitly assigned default GW was assigned assert.Equal(t, c3.NetworkSettings.Networks[netName].Gateway, "172.28.202.254") // Inspect the v6 gateway to ensure the proper explicitly assigned default GW was assigned assert.Equal(t, c3.NetworkSettings.Networks[netName].IPv6Gateway, "2001:db8:abc6::254") } } func testIpvlanL3MultiSubnet(client dclient.APIClient) func(*testing.T) { return func(t *testing.T) { netName := "dualstackl3" net.CreateNoError(context.Background(), t, client, netName, net.WithIPvlan("", "l3"), net.WithIPv6(), net.WithIPAM("172.28.10.0/24", ""), net.WithIPAM("172.28.12.0/24", "172.28.12.254"), net.WithIPAM("2001:db8:abc9::/64", ""), net.WithIPAM("2001:db8:abc7::/64", "2001:db8:abc7::254"), ) assert.Check(t, n.IsNetworkAvailable(client, netName)) // start dual stack containers and verify the user specified --ip and --ip6 addresses on subnets 172.28.100.0/24 and 2001:db8:abc2::/64 ctx := context.Background() id1 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.10.20"), container.WithIPv6(netName, "2001:db8:abc9::20"), ) id2 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.10.21"), container.WithIPv6(netName, "2001:db8:abc9::21"), ) c1, err := client.ContainerInspect(ctx, id1) assert.NilError(t, err) // verify ipv4 connectivity to the explicit --ipv address second to first _, err = container.Exec(ctx, client, id2, []string{"ping", "-c", "1", c1.NetworkSettings.Networks[netName].IPAddress}) assert.NilError(t, err) // verify ipv6 connectivity to the explicit --ipv6 address second to first _, err = container.Exec(ctx, client, id2, []string{"ping6", "-c", "1", c1.NetworkSettings.Networks[netName].GlobalIPv6Address}) assert.NilError(t, err) // start dual stack containers and verify the user specified --ip and --ip6 addresses on subnets 172.28.102.0/24 and 2001:db8:abc4::/64 id3 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.12.20"), container.WithIPv6(netName, "2001:db8:abc7::20"), ) id4 := container.Run(ctx, t, client, container.WithNetworkMode(netName), container.WithIPv4(netName, "172.28.12.21"), container.WithIPv6(netName, "2001:db8:abc7::21"), ) c3, err := client.ContainerInspect(ctx, id3) assert.NilError(t, err) // verify ipv4 connectivity to the explicit --ipv address from third to fourth _, err = container.Exec(ctx, client, id4, []string{"ping", "-c", "1", c3.NetworkSettings.Networks[netName].IPAddress}) assert.NilError(t, err) // verify ipv6 connectivity to the explicit --ipv6 address from third to fourth _, err = container.Exec(ctx, client, id4, []string{"ping6", "-c", "1", c3.NetworkSettings.Networks[netName].GlobalIPv6Address}) assert.NilError(t, err) // Inspect the v4 gateway to ensure no next hop is assigned in L3 mode assert.Equal(t, c1.NetworkSettings.Networks[netName].Gateway, "") // Inspect the v6 gateway to ensure the explicitly specified default GW is ignored per L3 mode enabled assert.Equal(t, c1.NetworkSettings.Networks[netName].IPv6Gateway, "") // Inspect the v4 gateway to ensure no next hop is assigned in L3 mode assert.Equal(t, c3.NetworkSettings.Networks[netName].Gateway, "") // Inspect the v6 gateway to ensure the explicitly specified default GW is ignored per L3 mode enabled assert.Equal(t, c3.NetworkSettings.Networks[netName].IPv6Gateway, "") } } func testIpvlanAddressing(client dclient.APIClient) func(*testing.T) { return func(t *testing.T) { // Verify ipvlan l2 mode sets the proper default gateway routes via netlink // for either an explicitly set route by the user or inferred via default IPAM netNameL2 := "dualstackl2" net.CreateNoError(context.Background(), t, client, netNameL2, net.WithIPvlan("", "l2"), net.WithIPv6(), net.WithIPAM("172.28.140.0/24", "172.28.140.254"), net.WithIPAM("2001:db8:abcb::/64", ""), ) assert.Check(t, n.IsNetworkAvailable(client, netNameL2)) ctx := context.Background() id1 := container.Run(ctx, t, client, container.WithNetworkMode(netNameL2), ) // Validate ipvlan l2 mode defaults gateway sets the default IPAM next-hop inferred from the subnet result, err := container.Exec(ctx, client, id1, []string{"ip", "route"}) assert.NilError(t, err) assert.Check(t, strings.Contains(result.Combined(), "default via 172.28.140.254 dev eth0")) // Validate ipvlan l2 mode sets the v6 gateway to the user specified default gateway/next-hop result, err = container.Exec(ctx, client, id1, []string{"ip", "-6", "route"}) assert.NilError(t, err) assert.Check(t, strings.Contains(result.Combined(), "default via 2001:db8:abcb::1 dev eth0")) // Validate ipvlan l3 mode sets the v4 gateway to dev eth0 and disregards any explicit or inferred next-hops netNameL3 := "dualstackl3" net.CreateNoError(context.Background(), t, client, netNameL3, net.WithIPvlan("", "l3"), net.WithIPv6(), net.WithIPAM("172.28.160.0/24", "172.28.160.254"), net.WithIPAM("2001:db8:abcd::/64", "2001:db8:abcd::254"), ) assert.Check(t, n.IsNetworkAvailable(client, netNameL3)) id2 := container.Run(ctx, t, client, container.WithNetworkMode(netNameL3), ) // Validate ipvlan l3 mode sets the v4 gateway to dev eth0 and disregards any explicit or inferred next-hops result, err = container.Exec(ctx, client, id2, []string{"ip", "route"}) assert.NilError(t, err) assert.Check(t, strings.Contains(result.Combined(), "default dev eth0")) // Validate ipvlan l3 mode sets the v6 gateway to dev eth0 and disregards any explicit or inferred next-hops result, err = container.Exec(ctx, client, id2, []string{"ip", "-6", "route"}) assert.NilError(t, err) assert.Check(t, strings.Contains(result.Combined(), "default dev eth0")) } } var ( once sync.Once ipvlanSupported bool ) // figure out if ipvlan is supported by the kernel func ipvlanKernelSupport(t *testing.T) bool { once.Do(func() { // this may have the side effect of enabling the ipvlan module exec.Command("modprobe", "ipvlan").Run() _, err := os.Stat("/sys/module/ipvlan") if err == nil { ipvlanSupported = true } else if !os.IsNotExist(err) { t.Logf("WARNING: ipvlanKernelSupport: stat failed: %v\n", err) } }) return ipvlanSupported }