// +build !windows package main import ( "encoding/json" "fmt" "io/ioutil" "net" "net/http" "net/http/httptest" "os" "strings" "time" "github.com/docker/docker/api/types" "github.com/docker/docker/api/types/versions/v1p20" "github.com/docker/docker/integration-cli/checker" "github.com/docker/docker/integration-cli/cli" "github.com/docker/docker/integration-cli/daemon" "github.com/docker/docker/pkg/stringid" "github.com/docker/docker/runconfig" "github.com/docker/libnetwork/driverapi" remoteapi "github.com/docker/libnetwork/drivers/remote/api" "github.com/docker/libnetwork/ipamapi" remoteipam "github.com/docker/libnetwork/ipams/remote/api" "github.com/docker/libnetwork/netlabel" "github.com/go-check/check" "github.com/gotestyourself/gotestyourself/icmd" "github.com/vishvananda/netlink" "golang.org/x/sys/unix" ) const dummyNetworkDriver = "dummy-network-driver" const dummyIPAMDriver = "dummy-ipam-driver" var remoteDriverNetworkRequest remoteapi.CreateNetworkRequest func init() { check.Suite(&DockerNetworkSuite{ ds: &DockerSuite{}, }) } type DockerNetworkSuite struct { server *httptest.Server ds *DockerSuite d *daemon.Daemon } func (s *DockerNetworkSuite) SetUpTest(c *check.C) { s.d = daemon.New(c, dockerBinary, dockerdBinary, daemon.Config{ Experimental: testEnv.ExperimentalDaemon(), }) } func (s *DockerNetworkSuite) TearDownTest(c *check.C) { if s.d != nil { s.d.Stop(c) s.ds.TearDownTest(c) } } func (s *DockerNetworkSuite) SetUpSuite(c *check.C) { mux := http.NewServeMux() s.server = httptest.NewServer(mux) c.Assert(s.server, check.NotNil, check.Commentf("Failed to start an HTTP Server")) setupRemoteNetworkDrivers(c, mux, s.server.URL, dummyNetworkDriver, dummyIPAMDriver) } func setupRemoteNetworkDrivers(c *check.C, mux *http.ServeMux, url, netDrv, ipamDrv string) { mux.HandleFunc("/Plugin.Activate", func(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") fmt.Fprintf(w, `{"Implements": ["%s", "%s"]}`, driverapi.NetworkPluginEndpointType, ipamapi.PluginEndpointType) }) // Network driver implementation mux.HandleFunc(fmt.Sprintf("/%s.GetCapabilities", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") fmt.Fprintf(w, `{"Scope":"local"}`) }) mux.HandleFunc(fmt.Sprintf("/%s.CreateNetwork", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) { err := json.NewDecoder(r.Body).Decode(&remoteDriverNetworkRequest) if err != nil { http.Error(w, "Unable to decode JSON payload: "+err.Error(), http.StatusBadRequest) return } w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") fmt.Fprintf(w, "null") }) mux.HandleFunc(fmt.Sprintf("/%s.DeleteNetwork", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") fmt.Fprintf(w, "null") }) mux.HandleFunc(fmt.Sprintf("/%s.CreateEndpoint", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") fmt.Fprintf(w, `{"Interface":{"MacAddress":"a0:b1:c2:d3:e4:f5"}}`) }) mux.HandleFunc(fmt.Sprintf("/%s.Join", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") veth := &netlink.Veth{ LinkAttrs: netlink.LinkAttrs{Name: "randomIfName", TxQLen: 0}, PeerName: "cnt0"} if err := netlink.LinkAdd(veth); err != nil { fmt.Fprintf(w, `{"Error":"failed to add veth pair: `+err.Error()+`"}`) } else { fmt.Fprintf(w, `{"InterfaceName":{ "SrcName":"cnt0", "DstPrefix":"veth"}}`) } }) mux.HandleFunc(fmt.Sprintf("/%s.Leave", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") fmt.Fprintf(w, "null") }) mux.HandleFunc(fmt.Sprintf("/%s.DeleteEndpoint", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") if link, err := netlink.LinkByName("cnt0"); err == nil { netlink.LinkDel(link) } fmt.Fprintf(w, "null") }) // IPAM Driver implementation var ( poolRequest remoteipam.RequestPoolRequest poolReleaseReq remoteipam.ReleasePoolRequest addressRequest remoteipam.RequestAddressRequest addressReleaseReq remoteipam.ReleaseAddressRequest lAS = "localAS" gAS = "globalAS" pool = "172.28.0.0/16" poolID = lAS + "/" + pool gw = "172.28.255.254/16" ) mux.HandleFunc(fmt.Sprintf("/%s.GetDefaultAddressSpaces", ipamapi.PluginEndpointType), func(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") fmt.Fprintf(w, `{"LocalDefaultAddressSpace":"`+lAS+`", "GlobalDefaultAddressSpace": "`+gAS+`"}`) }) mux.HandleFunc(fmt.Sprintf("/%s.RequestPool", ipamapi.PluginEndpointType), func(w http.ResponseWriter, r *http.Request) { err := json.NewDecoder(r.Body).Decode(&poolRequest) if err != nil { http.Error(w, "Unable to decode JSON payload: "+err.Error(), http.StatusBadRequest) return } w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") if poolRequest.AddressSpace != lAS && poolRequest.AddressSpace != gAS { fmt.Fprintf(w, `{"Error":"Unknown address space in pool request: `+poolRequest.AddressSpace+`"}`) } else if poolRequest.Pool != "" && poolRequest.Pool != pool { fmt.Fprintf(w, `{"Error":"Cannot handle explicit pool requests yet"}`) } else { fmt.Fprintf(w, `{"PoolID":"`+poolID+`", "Pool":"`+pool+`"}`) } }) mux.HandleFunc(fmt.Sprintf("/%s.RequestAddress", ipamapi.PluginEndpointType), func(w http.ResponseWriter, r *http.Request) { err := json.NewDecoder(r.Body).Decode(&addressRequest) if err != nil { http.Error(w, "Unable to decode JSON payload: "+err.Error(), http.StatusBadRequest) return } w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") // make sure libnetwork is now querying on the expected pool id if addressRequest.PoolID != poolID { fmt.Fprintf(w, `{"Error":"unknown pool id"}`) } else if addressRequest.Address != "" { fmt.Fprintf(w, `{"Error":"Cannot handle explicit address requests yet"}`) } else { fmt.Fprintf(w, `{"Address":"`+gw+`"}`) } }) mux.HandleFunc(fmt.Sprintf("/%s.ReleaseAddress", ipamapi.PluginEndpointType), func(w http.ResponseWriter, r *http.Request) { err := json.NewDecoder(r.Body).Decode(&addressReleaseReq) if err != nil { http.Error(w, "Unable to decode JSON payload: "+err.Error(), http.StatusBadRequest) return } w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") // make sure libnetwork is now asking to release the expected address from the expected poolid if addressRequest.PoolID != poolID { fmt.Fprintf(w, `{"Error":"unknown pool id"}`) } else if addressReleaseReq.Address != gw { fmt.Fprintf(w, `{"Error":"unknown address"}`) } else { fmt.Fprintf(w, "null") } }) mux.HandleFunc(fmt.Sprintf("/%s.ReleasePool", ipamapi.PluginEndpointType), func(w http.ResponseWriter, r *http.Request) { err := json.NewDecoder(r.Body).Decode(&poolReleaseReq) if err != nil { http.Error(w, "Unable to decode JSON payload: "+err.Error(), http.StatusBadRequest) return } w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json") // make sure libnetwork is now asking to release the expected poolid if addressRequest.PoolID != poolID { fmt.Fprintf(w, `{"Error":"unknown pool id"}`) } else { fmt.Fprintf(w, "null") } }) err := os.MkdirAll("/etc/docker/plugins", 0755) c.Assert(err, checker.IsNil) fileName := fmt.Sprintf("/etc/docker/plugins/%s.spec", netDrv) err = ioutil.WriteFile(fileName, []byte(url), 0644) c.Assert(err, checker.IsNil) ipamFileName := fmt.Sprintf("/etc/docker/plugins/%s.spec", ipamDrv) err = ioutil.WriteFile(ipamFileName, []byte(url), 0644) c.Assert(err, checker.IsNil) } func (s *DockerNetworkSuite) TearDownSuite(c *check.C) { if s.server == nil { return } s.server.Close() err := os.RemoveAll("/etc/docker/plugins") c.Assert(err, checker.IsNil) } func assertNwIsAvailable(c *check.C, name string) { if !isNwPresent(c, name) { c.Fatalf("Network %s not found in network ls o/p", name) } } func assertNwNotAvailable(c *check.C, name string) { if isNwPresent(c, name) { c.Fatalf("Found network %s in network ls o/p", name) } } func isNwPresent(c *check.C, name string) bool { out, _ := dockerCmd(c, "network", "ls") lines := strings.Split(out, "\n") for i := 1; i < len(lines)-1; i++ { netFields := strings.Fields(lines[i]) if netFields[1] == name { return true } } return false } // assertNwList checks network list retrieved with ls command // equals to expected network list // note: out should be `network ls [option]` result func assertNwList(c *check.C, out string, expectNws []string) { lines := strings.Split(out, "\n") var nwList []string for _, line := range lines[1 : len(lines)-1] { netFields := strings.Fields(line) // wrap all network name in nwList nwList = append(nwList, netFields[1]) } // network ls should contains all expected networks c.Assert(nwList, checker.DeepEquals, expectNws) } func getNwResource(c *check.C, name string) *types.NetworkResource { out, _ := dockerCmd(c, "network", "inspect", name) nr := []types.NetworkResource{} err := json.Unmarshal([]byte(out), &nr) c.Assert(err, check.IsNil) return &nr[0] } func (s *DockerNetworkSuite) TestDockerNetworkLsDefault(c *check.C) { defaults := []string{"bridge", "host", "none"} for _, nn := range defaults { assertNwIsAvailable(c, nn) } } func (s *DockerNetworkSuite) TestDockerNetworkCreatePredefined(c *check.C) { predefined := []string{"bridge", "host", "none", "default"} for _, net := range predefined { // predefined networks can't be created again out, _, err := dockerCmdWithError("network", "create", net) c.Assert(err, checker.NotNil, check.Commentf("%v", out)) } } func (s *DockerNetworkSuite) TestDockerNetworkCreateHostBind(c *check.C) { dockerCmd(c, "network", "create", "--subnet=192.168.10.0/24", "--gateway=192.168.10.1", "-o", "com.docker.network.bridge.host_binding_ipv4=192.168.10.1", "testbind") assertNwIsAvailable(c, "testbind") out := runSleepingContainer(c, "--net=testbind", "-p", "5000:5000") id := strings.TrimSpace(out) c.Assert(waitRun(id), checker.IsNil) out, _ = dockerCmd(c, "ps") c.Assert(out, checker.Contains, "192.168.10.1:5000->5000/tcp") } func (s *DockerNetworkSuite) TestDockerNetworkRmPredefined(c *check.C) { predefined := []string{"bridge", "host", "none", "default"} for _, net := range predefined { // predefined networks can't be removed out, _, err := dockerCmdWithError("network", "rm", net) c.Assert(err, checker.NotNil, check.Commentf("%v", out)) } } func (s *DockerNetworkSuite) TestDockerNetworkLsFilter(c *check.C) { testRequires(c, OnlyDefaultNetworks) testNet := "testnet1" testLabel := "foo" testValue := "bar" out, _ := dockerCmd(c, "network", "create", "dev") defer func() { dockerCmd(c, "network", "rm", "dev") dockerCmd(c, "network", "rm", testNet) }() networkID := strings.TrimSpace(out) // filter with partial ID // only show 'dev' network out, _ = dockerCmd(c, "network", "ls", "-f", "id="+networkID[0:5]) assertNwList(c, out, []string{"dev"}) out, _ = dockerCmd(c, "network", "ls", "-f", "name=dge") assertNwList(c, out, []string{"bridge"}) // only show built-in network (bridge, none, host) out, _ = dockerCmd(c, "network", "ls", "-f", "type=builtin") assertNwList(c, out, []string{"bridge", "host", "none"}) // only show custom networks (dev) out, _ = dockerCmd(c, "network", "ls", "-f", "type=custom") assertNwList(c, out, []string{"dev"}) // show all networks with filter // it should be equivalent of ls without option out, _ = dockerCmd(c, "network", "ls", "-f", "type=custom", "-f", "type=builtin") assertNwList(c, out, []string{"bridge", "dev", "host", "none"}) out, _ = dockerCmd(c, "network", "create", "--label", testLabel+"="+testValue, testNet) assertNwIsAvailable(c, testNet) out, _ = dockerCmd(c, "network", "ls", "-f", "label="+testLabel) assertNwList(c, out, []string{testNet}) out, _ = dockerCmd(c, "network", "ls", "-f", "label="+testLabel+"="+testValue) assertNwList(c, out, []string{testNet}) out, _ = dockerCmd(c, "network", "ls", "-f", "label=nonexistent") outArr := strings.Split(strings.TrimSpace(out), "\n") c.Assert(len(outArr), check.Equals, 1, check.Commentf("%s\n", out)) out, _ = dockerCmd(c, "network", "ls", "-f", "driver=null") assertNwList(c, out, []string{"none"}) out, _ = dockerCmd(c, "network", "ls", "-f", "driver=host") assertNwList(c, out, []string{"host"}) out, _ = dockerCmd(c, "network", "ls", "-f", "driver=bridge") assertNwList(c, out, []string{"bridge", "dev", testNet}) } func (s *DockerNetworkSuite) TestDockerNetworkCreateDelete(c *check.C) { dockerCmd(c, "network", "create", "test") assertNwIsAvailable(c, "test") dockerCmd(c, "network", "rm", "test") assertNwNotAvailable(c, "test") } func (s *DockerNetworkSuite) TestDockerNetworkCreateLabel(c *check.C) { testNet := "testnetcreatelabel" testLabel := "foo" testValue := "bar" dockerCmd(c, "network", "create", "--label", testLabel+"="+testValue, testNet) assertNwIsAvailable(c, testNet) out, _, err := dockerCmdWithError("network", "inspect", "--format={{ .Labels."+testLabel+" }}", testNet) c.Assert(err, check.IsNil) c.Assert(strings.TrimSpace(out), check.Equals, testValue) dockerCmd(c, "network", "rm", testNet) assertNwNotAvailable(c, testNet) } func (s *DockerSuite) TestDockerNetworkDeleteNotExists(c *check.C) { out, _, err := dockerCmdWithError("network", "rm", "test") c.Assert(err, checker.NotNil, check.Commentf("%v", out)) } func (s *DockerSuite) TestDockerNetworkDeleteMultiple(c *check.C) { dockerCmd(c, "network", "create", "testDelMulti0") assertNwIsAvailable(c, "testDelMulti0") dockerCmd(c, "network", "create", "testDelMulti1") assertNwIsAvailable(c, "testDelMulti1") dockerCmd(c, "network", "create", "testDelMulti2") assertNwIsAvailable(c, "testDelMulti2") out, _ := dockerCmd(c, "run", "-d", "--net", "testDelMulti2", "busybox", "top") containerID := strings.TrimSpace(out) waitRun(containerID) // delete three networks at the same time, since testDelMulti2 // contains active container, its deletion should fail. out, _, err := dockerCmdWithError("network", "rm", "testDelMulti0", "testDelMulti1", "testDelMulti2") // err should not be nil due to deleting testDelMulti2 failed. c.Assert(err, checker.NotNil, check.Commentf("out: %s", out)) // testDelMulti2 should fail due to network has active endpoints c.Assert(out, checker.Contains, "has active endpoints") assertNwNotAvailable(c, "testDelMulti0") assertNwNotAvailable(c, "testDelMulti1") // testDelMulti2 can't be deleted, so it should exist assertNwIsAvailable(c, "testDelMulti2") } func (s *DockerSuite) TestDockerNetworkInspect(c *check.C) { out, _ := dockerCmd(c, "network", "inspect", "host") networkResources := []types.NetworkResource{} err := json.Unmarshal([]byte(out), &networkResources) c.Assert(err, check.IsNil) c.Assert(networkResources, checker.HasLen, 1) out, _ = dockerCmd(c, "network", "inspect", "--format={{ .Name }}", "host") c.Assert(strings.TrimSpace(out), check.Equals, "host") } func (s *DockerSuite) TestDockerNetworkInspectWithID(c *check.C) { out, _ := dockerCmd(c, "network", "create", "test2") networkID := strings.TrimSpace(out) assertNwIsAvailable(c, "test2") out, _ = dockerCmd(c, "network", "inspect", "--format={{ .Id }}", "test2") c.Assert(strings.TrimSpace(out), check.Equals, networkID) out, _ = dockerCmd(c, "network", "inspect", "--format={{ .ID }}", "test2") c.Assert(strings.TrimSpace(out), check.Equals, networkID) } func (s *DockerSuite) TestDockerInspectMultipleNetwork(c *check.C) { result := dockerCmdWithResult("network", "inspect", "host", "none") result.Assert(c, icmd.Success) networkResources := []types.NetworkResource{} err := json.Unmarshal([]byte(result.Stdout()), &networkResources) c.Assert(err, check.IsNil) c.Assert(networkResources, checker.HasLen, 2) } func (s *DockerSuite) TestDockerInspectMultipleNetworksIncludingNonexistent(c *check.C) { // non-existent network was not at the beginning of the inspect list // This should print an error, return an exitCode 1 and print the host network result := dockerCmdWithResult("network", "inspect", "host", "nonexistent") result.Assert(c, icmd.Expected{ ExitCode: 1, Err: "Error: No such network: nonexistent", Out: "host", }) networkResources := []types.NetworkResource{} err := json.Unmarshal([]byte(result.Stdout()), &networkResources) c.Assert(err, check.IsNil) c.Assert(networkResources, checker.HasLen, 1) // Only one non-existent network to inspect // Should print an error and return an exitCode, nothing else result = dockerCmdWithResult("network", "inspect", "nonexistent") result.Assert(c, icmd.Expected{ ExitCode: 1, Err: "Error: No such network: nonexistent", Out: "[]", }) // non-existent network was at the beginning of the inspect list // Should not fail fast, and still print host network but print an error result = dockerCmdWithResult("network", "inspect", "nonexistent", "host") result.Assert(c, icmd.Expected{ ExitCode: 1, Err: "Error: No such network: nonexistent", Out: "host", }) networkResources = []types.NetworkResource{} err = json.Unmarshal([]byte(result.Stdout()), &networkResources) c.Assert(err, check.IsNil) c.Assert(networkResources, checker.HasLen, 1) } func (s *DockerSuite) TestDockerInspectNetworkWithContainerName(c *check.C) { dockerCmd(c, "network", "create", "brNetForInspect") assertNwIsAvailable(c, "brNetForInspect") defer func() { dockerCmd(c, "network", "rm", "brNetForInspect") assertNwNotAvailable(c, "brNetForInspect") }() out, _ := dockerCmd(c, "run", "-d", "--name", "testNetInspect1", "--net", "brNetForInspect", "busybox", "top") c.Assert(waitRun("testNetInspect1"), check.IsNil) containerID := strings.TrimSpace(out) defer func() { // we don't stop container by name, because we'll rename it later dockerCmd(c, "stop", containerID) }() out, _ = dockerCmd(c, "network", "inspect", "brNetForInspect") networkResources := []types.NetworkResource{} err := json.Unmarshal([]byte(out), &networkResources) c.Assert(err, check.IsNil) c.Assert(networkResources, checker.HasLen, 1) container, ok := networkResources[0].Containers[containerID] c.Assert(ok, checker.True) c.Assert(container.Name, checker.Equals, "testNetInspect1") // rename container and check docker inspect output update newName := "HappyNewName" dockerCmd(c, "rename", "testNetInspect1", newName) // check whether network inspect works properly out, _ = dockerCmd(c, "network", "inspect", "brNetForInspect") newNetRes := []types.NetworkResource{} err = json.Unmarshal([]byte(out), &newNetRes) c.Assert(err, check.IsNil) c.Assert(newNetRes, checker.HasLen, 1) container1, ok := newNetRes[0].Containers[containerID] c.Assert(ok, checker.True) c.Assert(container1.Name, checker.Equals, newName) } func (s *DockerNetworkSuite) TestDockerNetworkConnectDisconnect(c *check.C) { dockerCmd(c, "network", "create", "test") assertNwIsAvailable(c, "test") nr := getNwResource(c, "test") c.Assert(nr.Name, checker.Equals, "test") c.Assert(len(nr.Containers), checker.Equals, 0) // run a container out, _ := dockerCmd(c, "run", "-d", "--name", "test", "busybox", "top") c.Assert(waitRun("test"), check.IsNil) containerID := strings.TrimSpace(out) // connect the container to the test network dockerCmd(c, "network", "connect", "test", containerID) // inspect the network to make sure container is connected nr = getNetworkResource(c, nr.ID) c.Assert(len(nr.Containers), checker.Equals, 1) c.Assert(nr.Containers[containerID], check.NotNil) // check if container IP matches network inspect ip, _, err := net.ParseCIDR(nr.Containers[containerID].IPv4Address) c.Assert(err, check.IsNil) containerIP := findContainerIP(c, "test", "test") c.Assert(ip.String(), checker.Equals, containerIP) // disconnect container from the network dockerCmd(c, "network", "disconnect", "test", containerID) nr = getNwResource(c, "test") c.Assert(nr.Name, checker.Equals, "test") c.Assert(len(nr.Containers), checker.Equals, 0) // run another container out, _ = dockerCmd(c, "run", "-d", "--net", "test", "--name", "test2", "busybox", "top") c.Assert(waitRun("test2"), check.IsNil) containerID = strings.TrimSpace(out) nr = getNwResource(c, "test") c.Assert(nr.Name, checker.Equals, "test") c.Assert(len(nr.Containers), checker.Equals, 1) // force disconnect the container to the test network dockerCmd(c, "network", "disconnect", "-f", "test", containerID) nr = getNwResource(c, "test") c.Assert(nr.Name, checker.Equals, "test") c.Assert(len(nr.Containers), checker.Equals, 0) dockerCmd(c, "network", "rm", "test") assertNwNotAvailable(c, "test") } func (s *DockerNetworkSuite) TestDockerNetworkIPAMMultipleNetworks(c *check.C) { testRequires(c, SameHostDaemon) // test0 bridge network dockerCmd(c, "network", "create", "--subnet=192.168.0.0/16", "test1") assertNwIsAvailable(c, "test1") // test2 bridge network does not overlap dockerCmd(c, "network", "create", "--subnet=192.169.0.0/16", "test2") assertNwIsAvailable(c, "test2") // for networks w/o ipam specified, docker will choose proper non-overlapping subnets dockerCmd(c, "network", "create", "test3") assertNwIsAvailable(c, "test3") dockerCmd(c, "network", "create", "test4") assertNwIsAvailable(c, "test4") dockerCmd(c, "network", "create", "test5") assertNwIsAvailable(c, "test5") // test network with multiple subnets // bridge network doesn't support multiple subnets. hence, use a dummy driver that supports dockerCmd(c, "network", "create", "-d", dummyNetworkDriver, "--subnet=192.168.0.0/16", "--subnet=192.170.0.0/16", "test6") assertNwIsAvailable(c, "test6") // test network with multiple subnets with valid ipam combinations // also check same subnet across networks when the driver supports it. dockerCmd(c, "network", "create", "-d", dummyNetworkDriver, "--subnet=192.168.0.0/16", "--subnet=192.170.0.0/16", "--gateway=192.168.0.100", "--gateway=192.170.0.100", "--ip-range=192.168.1.0/24", "--aux-address", "a=192.168.1.5", "--aux-address", "b=192.168.1.6", "--aux-address", "c=192.170.1.5", "--aux-address", "d=192.170.1.6", "test7") assertNwIsAvailable(c, "test7") // cleanup for i := 1; i < 8; i++ { dockerCmd(c, "network", "rm", fmt.Sprintf("test%d", i)) } } func (s *DockerNetworkSuite) TestDockerNetworkCustomIPAM(c *check.C) { testRequires(c, SameHostDaemon) // Create a bridge network using custom ipam driver dockerCmd(c, "network", "create", "--ipam-driver", dummyIPAMDriver, "br0") assertNwIsAvailable(c, "br0") // Verify expected network ipam fields are there nr := getNetworkResource(c, "br0") c.Assert(nr.Driver, checker.Equals, "bridge") c.Assert(nr.IPAM.Driver, checker.Equals, dummyIPAMDriver) // remove network and exercise remote ipam driver dockerCmd(c, "network", "rm", "br0") assertNwNotAvailable(c, "br0") } func (s *DockerNetworkSuite) TestDockerNetworkIPAMOptions(c *check.C) { testRequires(c, SameHostDaemon) // Create a bridge network using custom ipam driver and options dockerCmd(c, "network", "create", "--ipam-driver", dummyIPAMDriver, "--ipam-opt", "opt1=drv1", "--ipam-opt", "opt2=drv2", "br0") assertNwIsAvailable(c, "br0") // Verify expected network ipam options nr := getNetworkResource(c, "br0") opts := nr.IPAM.Options c.Assert(opts["opt1"], checker.Equals, "drv1") c.Assert(opts["opt2"], checker.Equals, "drv2") } func (s *DockerNetworkSuite) TestDockerNetworkNullIPAMDriver(c *check.C) { testRequires(c, SameHostDaemon) // Create a network with null ipam driver _, _, err := dockerCmdWithError("network", "create", "-d", dummyNetworkDriver, "--ipam-driver", "null", "test000") c.Assert(err, check.IsNil) assertNwIsAvailable(c, "test000") // Verify the inspect data contains the default subnet provided by the null // ipam driver and no gateway, as the null ipam driver does not provide one nr := getNetworkResource(c, "test000") c.Assert(nr.IPAM.Driver, checker.Equals, "null") c.Assert(len(nr.IPAM.Config), checker.Equals, 1) c.Assert(nr.IPAM.Config[0].Subnet, checker.Equals, "0.0.0.0/0") c.Assert(nr.IPAM.Config[0].Gateway, checker.Equals, "") } func (s *DockerNetworkSuite) TestDockerNetworkInspectDefault(c *check.C) { nr := getNetworkResource(c, "none") c.Assert(nr.Driver, checker.Equals, "null") c.Assert(nr.Scope, checker.Equals, "local") c.Assert(nr.Internal, checker.Equals, false) c.Assert(nr.EnableIPv6, checker.Equals, false) c.Assert(nr.IPAM.Driver, checker.Equals, "default") c.Assert(len(nr.IPAM.Config), checker.Equals, 0) nr = getNetworkResource(c, "host") c.Assert(nr.Driver, checker.Equals, "host") c.Assert(nr.Scope, checker.Equals, "local") c.Assert(nr.Internal, checker.Equals, false) c.Assert(nr.EnableIPv6, checker.Equals, false) c.Assert(nr.IPAM.Driver, checker.Equals, "default") c.Assert(len(nr.IPAM.Config), checker.Equals, 0) nr = getNetworkResource(c, "bridge") c.Assert(nr.Driver, checker.Equals, "bridge") c.Assert(nr.Scope, checker.Equals, "local") c.Assert(nr.Internal, checker.Equals, false) c.Assert(nr.EnableIPv6, checker.Equals, false) c.Assert(nr.IPAM.Driver, checker.Equals, "default") c.Assert(len(nr.IPAM.Config), checker.Equals, 1) c.Assert(nr.IPAM.Config[0].Subnet, checker.NotNil) c.Assert(nr.IPAM.Config[0].Gateway, checker.NotNil) } func (s *DockerNetworkSuite) TestDockerNetworkInspectCustomUnspecified(c *check.C) { // if unspecified, network subnet will be selected from inside preferred pool dockerCmd(c, "network", "create", "test01") assertNwIsAvailable(c, "test01") nr := getNetworkResource(c, "test01") c.Assert(nr.Driver, checker.Equals, "bridge") c.Assert(nr.Scope, checker.Equals, "local") c.Assert(nr.Internal, checker.Equals, false) c.Assert(nr.EnableIPv6, checker.Equals, false) c.Assert(nr.IPAM.Driver, checker.Equals, "default") c.Assert(len(nr.IPAM.Config), checker.Equals, 1) c.Assert(nr.IPAM.Config[0].Subnet, checker.NotNil) c.Assert(nr.IPAM.Config[0].Gateway, checker.NotNil) dockerCmd(c, "network", "rm", "test01") assertNwNotAvailable(c, "test01") } func (s *DockerNetworkSuite) TestDockerNetworkInspectCustomSpecified(c *check.C) { dockerCmd(c, "network", "create", "--driver=bridge", "--ipv6", "--subnet=fd80:24e2:f998:72d6::/64", "--subnet=172.28.0.0/16", "--ip-range=172.28.5.0/24", "--gateway=172.28.5.254", "br0") assertNwIsAvailable(c, "br0") nr := getNetworkResource(c, "br0") c.Assert(nr.Driver, checker.Equals, "bridge") c.Assert(nr.Scope, checker.Equals, "local") c.Assert(nr.Internal, checker.Equals, false) c.Assert(nr.EnableIPv6, checker.Equals, true) c.Assert(nr.IPAM.Driver, checker.Equals, "default") c.Assert(len(nr.IPAM.Config), checker.Equals, 2) c.Assert(nr.IPAM.Config[0].Subnet, checker.Equals, "172.28.0.0/16") c.Assert(nr.IPAM.Config[0].IPRange, checker.Equals, "172.28.5.0/24") c.Assert(nr.IPAM.Config[0].Gateway, checker.Equals, "172.28.5.254") c.Assert(nr.Internal, checker.False) dockerCmd(c, "network", "rm", "br0") assertNwNotAvailable(c, "test01") } func (s *DockerNetworkSuite) TestDockerNetworkIPAMInvalidCombinations(c *check.C) { // network with ip-range out of subnet range _, _, err := dockerCmdWithError("network", "create", "--subnet=192.168.0.0/16", "--ip-range=192.170.0.0/16", "test") c.Assert(err, check.NotNil) // network with multiple gateways for a single subnet _, _, err = dockerCmdWithError("network", "create", "--subnet=192.168.0.0/16", "--gateway=192.168.0.1", "--gateway=192.168.0.2", "test") c.Assert(err, check.NotNil) // Multiple overlapping subnets in the same network must fail _, _, err = dockerCmdWithError("network", "create", "--subnet=192.168.0.0/16", "--subnet=192.168.1.0/16", "test") c.Assert(err, check.NotNil) // overlapping subnets across networks must fail // create a valid test0 network dockerCmd(c, "network", "create", "--subnet=192.168.0.0/16", "test0") assertNwIsAvailable(c, "test0") // create an overlapping test1 network _, _, err = dockerCmdWithError("network", "create", "--subnet=192.168.128.0/17", "test1") c.Assert(err, check.NotNil) dockerCmd(c, "network", "rm", "test0") assertNwNotAvailable(c, "test0") } func (s *DockerNetworkSuite) TestDockerNetworkDriverOptions(c *check.C) { testRequires(c, SameHostDaemon) dockerCmd(c, "network", "create", "-d", dummyNetworkDriver, "-o", "opt1=drv1", "-o", "opt2=drv2", "testopt") assertNwIsAvailable(c, "testopt") gopts := remoteDriverNetworkRequest.Options[netlabel.GenericData] c.Assert(gopts, checker.NotNil) opts, ok := gopts.(map[string]interface{}) c.Assert(ok, checker.Equals, true) c.Assert(opts["opt1"], checker.Equals, "drv1") c.Assert(opts["opt2"], checker.Equals, "drv2") dockerCmd(c, "network", "rm", "testopt") assertNwNotAvailable(c, "testopt") } func (s *DockerNetworkSuite) TestDockerPluginV2NetworkDriver(c *check.C) { testRequires(c, DaemonIsLinux, IsAmd64, Network) var ( npName = "tiborvass/test-docker-netplugin" npTag = "latest" npNameWithTag = npName + ":" + npTag ) _, _, err := dockerCmdWithError("plugin", "install", "--grant-all-permissions", npNameWithTag) c.Assert(err, checker.IsNil) out, _, err := dockerCmdWithError("plugin", "ls") c.Assert(err, checker.IsNil) c.Assert(out, checker.Contains, npName) c.Assert(out, checker.Contains, npTag) c.Assert(out, checker.Contains, "true") dockerCmd(c, "network", "create", "-d", npNameWithTag, "v2net") assertNwIsAvailable(c, "v2net") dockerCmd(c, "network", "rm", "v2net") assertNwNotAvailable(c, "v2net") } func (s *DockerDaemonSuite) TestDockerNetworkNoDiscoveryDefaultBridgeNetwork(c *check.C) { testRequires(c, ExecSupport) // On default bridge network built-in service discovery should not happen hostsFile := "/etc/hosts" bridgeName := "external-bridge" bridgeIP := "192.169.255.254/24" createInterface(c, "bridge", bridgeName, bridgeIP) defer deleteInterface(c, bridgeName) s.d.StartWithBusybox(c, "--bridge", bridgeName) defer s.d.Restart(c) // run two containers and store first container's etc/hosts content out, err := s.d.Cmd("run", "-d", "busybox", "top") c.Assert(err, check.IsNil) cid1 := strings.TrimSpace(out) defer s.d.Cmd("stop", cid1) hosts, err := s.d.Cmd("exec", cid1, "cat", hostsFile) c.Assert(err, checker.IsNil) out, err = s.d.Cmd("run", "-d", "--name", "container2", "busybox", "top") c.Assert(err, check.IsNil) cid2 := strings.TrimSpace(out) // verify first container's etc/hosts file has not changed after spawning the second named container hostsPost, err := s.d.Cmd("exec", cid1, "cat", hostsFile) c.Assert(err, checker.IsNil) c.Assert(string(hosts), checker.Equals, string(hostsPost), check.Commentf("Unexpected %s change on second container creation", hostsFile)) // stop container 2 and verify first container's etc/hosts has not changed _, err = s.d.Cmd("stop", cid2) c.Assert(err, check.IsNil) hostsPost, err = s.d.Cmd("exec", cid1, "cat", hostsFile) c.Assert(err, checker.IsNil) c.Assert(string(hosts), checker.Equals, string(hostsPost), check.Commentf("Unexpected %s change on second container creation", hostsFile)) // but discovery is on when connecting to non default bridge network network := "anotherbridge" out, err = s.d.Cmd("network", "create", network) c.Assert(err, check.IsNil, check.Commentf(out)) defer s.d.Cmd("network", "rm", network) out, err = s.d.Cmd("network", "connect", network, cid1) c.Assert(err, check.IsNil, check.Commentf(out)) hosts, err = s.d.Cmd("exec", cid1, "cat", hostsFile) c.Assert(err, checker.IsNil) hostsPost, err = s.d.Cmd("exec", cid1, "cat", hostsFile) c.Assert(err, checker.IsNil) c.Assert(string(hosts), checker.Equals, string(hostsPost), check.Commentf("Unexpected %s change on second network connection", hostsFile)) } func (s *DockerNetworkSuite) TestDockerNetworkAnonymousEndpoint(c *check.C) { testRequires(c, ExecSupport, NotArm) hostsFile := "/etc/hosts" cstmBridgeNw := "custom-bridge-nw" cstmBridgeNw1 := "custom-bridge-nw1" dockerCmd(c, "network", "create", "-d", "bridge", cstmBridgeNw) assertNwIsAvailable(c, cstmBridgeNw) // run two anonymous containers and store their etc/hosts content out, _ := dockerCmd(c, "run", "-d", "--net", cstmBridgeNw, "busybox", "top") cid1 := strings.TrimSpace(out) hosts1 := readContainerFileWithExec(c, cid1, hostsFile) out, _ = dockerCmd(c, "run", "-d", "--net", cstmBridgeNw, "busybox", "top") cid2 := strings.TrimSpace(out) hosts2 := readContainerFileWithExec(c, cid2, hostsFile) // verify first container etc/hosts file has not changed hosts1post := readContainerFileWithExec(c, cid1, hostsFile) c.Assert(string(hosts1), checker.Equals, string(hosts1post), check.Commentf("Unexpected %s change on anonymous container creation", hostsFile)) // Connect the 2nd container to a new network and verify the // first container /etc/hosts file still hasn't changed. dockerCmd(c, "network", "create", "-d", "bridge", cstmBridgeNw1) assertNwIsAvailable(c, cstmBridgeNw1) dockerCmd(c, "network", "connect", cstmBridgeNw1, cid2) hosts2 = readContainerFileWithExec(c, cid2, hostsFile) hosts1post = readContainerFileWithExec(c, cid1, hostsFile) c.Assert(string(hosts1), checker.Equals, string(hosts1post), check.Commentf("Unexpected %s change on container connect", hostsFile)) // start a named container cName := "AnyName" out, _ = dockerCmd(c, "run", "-d", "--net", cstmBridgeNw, "--name", cName, "busybox", "top") cid3 := strings.TrimSpace(out) // verify that container 1 and 2 can ping the named container dockerCmd(c, "exec", cid1, "ping", "-c", "1", cName) dockerCmd(c, "exec", cid2, "ping", "-c", "1", cName) // Stop named container and verify first two containers' etc/hosts file hasn't changed dockerCmd(c, "stop", cid3) hosts1post = readContainerFileWithExec(c, cid1, hostsFile) c.Assert(string(hosts1), checker.Equals, string(hosts1post), check.Commentf("Unexpected %s change on name container creation", hostsFile)) hosts2post := readContainerFileWithExec(c, cid2, hostsFile) c.Assert(string(hosts2), checker.Equals, string(hosts2post), check.Commentf("Unexpected %s change on name container creation", hostsFile)) // verify that container 1 and 2 can't ping the named container now _, _, err := dockerCmdWithError("exec", cid1, "ping", "-c", "1", cName) c.Assert(err, check.NotNil) _, _, err = dockerCmdWithError("exec", cid2, "ping", "-c", "1", cName) c.Assert(err, check.NotNil) } func (s *DockerNetworkSuite) TestDockerNetworkLinkOnDefaultNetworkOnly(c *check.C) { // Legacy Link feature must work only on default network, and not across networks cnt1 := "container1" cnt2 := "container2" network := "anotherbridge" // Run first container on default network dockerCmd(c, "run", "-d", "--name", cnt1, "busybox", "top") // Create another network and run the second container on it dockerCmd(c, "network", "create", network) assertNwIsAvailable(c, network) dockerCmd(c, "run", "-d", "--net", network, "--name", cnt2, "busybox", "top") // Try launching a container on default network, linking to the first container. Must succeed dockerCmd(c, "run", "-d", "--link", fmt.Sprintf("%s:%s", cnt1, cnt1), "busybox", "top") // Try launching a container on default network, linking to the second container. Must fail _, _, err := dockerCmdWithError("run", "-d", "--link", fmt.Sprintf("%s:%s", cnt2, cnt2), "busybox", "top") c.Assert(err, checker.NotNil) // Connect second container to default network. Now a container on default network can link to it dockerCmd(c, "network", "connect", "bridge", cnt2) dockerCmd(c, "run", "-d", "--link", fmt.Sprintf("%s:%s", cnt2, cnt2), "busybox", "top") } func (s *DockerNetworkSuite) TestDockerNetworkOverlayPortMapping(c *check.C) { testRequires(c, SameHostDaemon) // Verify exposed ports are present in ps output when running a container on // a network managed by a driver which does not provide the default gateway // for the container nwn := "ov" ctn := "bb" port1 := 80 port2 := 443 expose1 := fmt.Sprintf("--expose=%d", port1) expose2 := fmt.Sprintf("--expose=%d", port2) dockerCmd(c, "network", "create", "-d", dummyNetworkDriver, nwn) assertNwIsAvailable(c, nwn) dockerCmd(c, "run", "-d", "--net", nwn, "--name", ctn, expose1, expose2, "busybox", "top") // Check docker ps o/p for last created container reports the unpublished ports unpPort1 := fmt.Sprintf("%d/tcp", port1) unpPort2 := fmt.Sprintf("%d/tcp", port2) out, _ := dockerCmd(c, "ps", "-n=1") // Missing unpublished ports in docker ps output c.Assert(out, checker.Contains, unpPort1) // Missing unpublished ports in docker ps output c.Assert(out, checker.Contains, unpPort2) } func (s *DockerNetworkSuite) TestDockerNetworkDriverUngracefulRestart(c *check.C) { testRequires(c, DaemonIsLinux, NotUserNamespace, SameHostDaemon) dnd := "dnd" did := "did" mux := http.NewServeMux() server := httptest.NewServer(mux) setupRemoteNetworkDrivers(c, mux, server.URL, dnd, did) s.d.StartWithBusybox(c) _, err := s.d.Cmd("network", "create", "-d", dnd, "--subnet", "1.1.1.0/24", "net1") c.Assert(err, checker.IsNil) _, err = s.d.Cmd("run", "-itd", "--net", "net1", "--name", "foo", "--ip", "1.1.1.10", "busybox", "sh") c.Assert(err, checker.IsNil) // Kill daemon and restart c.Assert(s.d.Kill(), checker.IsNil) server.Close() startTime := time.Now().Unix() s.d.Restart(c) lapse := time.Now().Unix() - startTime if lapse > 60 { // In normal scenarios, daemon restart takes ~1 second. // Plugin retry mechanism can delay the daemon start. systemd may not like it. // Avoid accessing plugins during daemon bootup c.Logf("daemon restart took too long : %d seconds", lapse) } // Restart the custom dummy plugin mux = http.NewServeMux() server = httptest.NewServer(mux) setupRemoteNetworkDrivers(c, mux, server.URL, dnd, did) // trying to reuse the same ip must succeed _, err = s.d.Cmd("run", "-itd", "--net", "net1", "--name", "bar", "--ip", "1.1.1.10", "busybox", "sh") c.Assert(err, checker.IsNil) } func (s *DockerNetworkSuite) TestDockerNetworkMacInspect(c *check.C) { testRequires(c, SameHostDaemon) // Verify endpoint MAC address is correctly populated in container's network settings nwn := "ov" ctn := "bb" dockerCmd(c, "network", "create", "-d", dummyNetworkDriver, nwn) assertNwIsAvailable(c, nwn) dockerCmd(c, "run", "-d", "--net", nwn, "--name", ctn, "busybox", "top") mac := inspectField(c, ctn, "NetworkSettings.Networks."+nwn+".MacAddress") c.Assert(mac, checker.Equals, "a0:b1:c2:d3:e4:f5") } func (s *DockerSuite) TestInspectAPIMultipleNetworks(c *check.C) { dockerCmd(c, "network", "create", "mybridge1") dockerCmd(c, "network", "create", "mybridge2") out, _ := dockerCmd(c, "run", "-d", "busybox", "top") id := strings.TrimSpace(out) c.Assert(waitRun(id), check.IsNil) dockerCmd(c, "network", "connect", "mybridge1", id) dockerCmd(c, "network", "connect", "mybridge2", id) body := getInspectBody(c, "v1.20", id) var inspect120 v1p20.ContainerJSON err := json.Unmarshal(body, &inspect120) c.Assert(err, checker.IsNil) versionedIP := inspect120.NetworkSettings.IPAddress body = getInspectBody(c, "v1.21", id) var inspect121 types.ContainerJSON err = json.Unmarshal(body, &inspect121) c.Assert(err, checker.IsNil) c.Assert(inspect121.NetworkSettings.Networks, checker.HasLen, 3) bridge := inspect121.NetworkSettings.Networks["bridge"] c.Assert(bridge.IPAddress, checker.Equals, versionedIP) c.Assert(bridge.IPAddress, checker.Equals, inspect121.NetworkSettings.IPAddress) } func connectContainerToNetworks(c *check.C, d *daemon.Daemon, cName string, nws []string) { // Run a container on the default network out, err := d.Cmd("run", "-d", "--name", cName, "busybox", "top") c.Assert(err, checker.IsNil, check.Commentf(out)) // Attach the container to other networks for _, nw := range nws { out, err = d.Cmd("network", "create", nw) c.Assert(err, checker.IsNil, check.Commentf(out)) out, err = d.Cmd("network", "connect", nw, cName) c.Assert(err, checker.IsNil, check.Commentf(out)) } } func verifyContainerIsConnectedToNetworks(c *check.C, d *daemon.Daemon, cName string, nws []string) { // Verify container is connected to all the networks for _, nw := range nws { out, err := d.Cmd("inspect", "-f", fmt.Sprintf("{{.NetworkSettings.Networks.%s}}", nw), cName) c.Assert(err, checker.IsNil, check.Commentf(out)) c.Assert(out, checker.Not(checker.Equals), "\n") } } func (s *DockerNetworkSuite) TestDockerNetworkMultipleNetworksGracefulDaemonRestart(c *check.C) { testRequires(c, SameHostDaemon) cName := "bb" nwList := []string{"nw1", "nw2", "nw3"} s.d.StartWithBusybox(c) connectContainerToNetworks(c, s.d, cName, nwList) verifyContainerIsConnectedToNetworks(c, s.d, cName, nwList) // Reload daemon s.d.Restart(c) _, err := s.d.Cmd("start", cName) c.Assert(err, checker.IsNil) verifyContainerIsConnectedToNetworks(c, s.d, cName, nwList) } func (s *DockerNetworkSuite) TestDockerNetworkMultipleNetworksUngracefulDaemonRestart(c *check.C) { testRequires(c, SameHostDaemon) cName := "cc" nwList := []string{"nw1", "nw2", "nw3"} s.d.StartWithBusybox(c) connectContainerToNetworks(c, s.d, cName, nwList) verifyContainerIsConnectedToNetworks(c, s.d, cName, nwList) // Kill daemon and restart c.Assert(s.d.Kill(), checker.IsNil) s.d.Restart(c) // Restart container _, err := s.d.Cmd("start", cName) c.Assert(err, checker.IsNil) verifyContainerIsConnectedToNetworks(c, s.d, cName, nwList) } func (s *DockerNetworkSuite) TestDockerNetworkRunNetByID(c *check.C) { out, _ := dockerCmd(c, "network", "create", "one") containerOut, _, err := dockerCmdWithError("run", "-d", "--net", strings.TrimSpace(out), "busybox", "top") c.Assert(err, checker.IsNil, check.Commentf(containerOut)) } func (s *DockerNetworkSuite) TestDockerNetworkHostModeUngracefulDaemonRestart(c *check.C) { testRequires(c, DaemonIsLinux, NotUserNamespace, SameHostDaemon) s.d.StartWithBusybox(c) // Run a few containers on host network for i := 0; i < 10; i++ { cName := fmt.Sprintf("hostc-%d", i) out, err := s.d.Cmd("run", "-d", "--name", cName, "--net=host", "--restart=always", "busybox", "top") c.Assert(err, checker.IsNil, check.Commentf(out)) // verify container has finished starting before killing daemon err = s.d.WaitRun(cName) c.Assert(err, checker.IsNil) } // Kill daemon ungracefully and restart c.Assert(s.d.Kill(), checker.IsNil) s.d.Restart(c) // make sure all the containers are up and running for i := 0; i < 10; i++ { err := s.d.WaitRun(fmt.Sprintf("hostc-%d", i)) c.Assert(err, checker.IsNil) } } func (s *DockerNetworkSuite) TestDockerNetworkConnectToHostFromOtherNetwork(c *check.C) { dockerCmd(c, "run", "-d", "--name", "container1", "busybox", "top") c.Assert(waitRun("container1"), check.IsNil) dockerCmd(c, "network", "disconnect", "bridge", "container1") out, _, err := dockerCmdWithError("network", "connect", "host", "container1") c.Assert(err, checker.NotNil, check.Commentf(out)) c.Assert(out, checker.Contains, runconfig.ErrConflictHostNetwork.Error()) } func (s *DockerNetworkSuite) TestDockerNetworkDisconnectFromHost(c *check.C) { dockerCmd(c, "run", "-d", "--name", "container1", "--net=host", "busybox", "top") c.Assert(waitRun("container1"), check.IsNil) out, _, err := dockerCmdWithError("network", "disconnect", "host", "container1") c.Assert(err, checker.NotNil, check.Commentf("Should err out disconnect from host")) c.Assert(out, checker.Contains, runconfig.ErrConflictHostNetwork.Error()) } func (s *DockerNetworkSuite) TestDockerNetworkConnectWithPortMapping(c *check.C) { testRequires(c, NotArm) dockerCmd(c, "network", "create", "test1") dockerCmd(c, "run", "-d", "--name", "c1", "-p", "5000:5000", "busybox", "top") c.Assert(waitRun("c1"), check.IsNil) dockerCmd(c, "network", "connect", "test1", "c1") } func verifyPortMap(c *check.C, container, port, originalMapping string, mustBeEqual bool) { chk := checker.Equals if !mustBeEqual { chk = checker.Not(checker.Equals) } currentMapping, _ := dockerCmd(c, "port", container, port) c.Assert(currentMapping, chk, originalMapping) } func (s *DockerNetworkSuite) TestDockerNetworkConnectDisconnectWithPortMapping(c *check.C) { // Connect and disconnect a container with explicit and non-explicit // host port mapping to/from networks which do cause and do not cause // the container default gateway to change, and verify docker port cmd // returns congruent information testRequires(c, NotArm) cnt := "c1" dockerCmd(c, "network", "create", "aaa") dockerCmd(c, "network", "create", "ccc") dockerCmd(c, "run", "-d", "--name", cnt, "-p", "9000:90", "-p", "70", "busybox", "top") c.Assert(waitRun(cnt), check.IsNil) curPortMap, _ := dockerCmd(c, "port", cnt, "70") curExplPortMap, _ := dockerCmd(c, "port", cnt, "90") // Connect to a network which causes the container's default gw switch dockerCmd(c, "network", "connect", "aaa", cnt) verifyPortMap(c, cnt, "70", curPortMap, false) verifyPortMap(c, cnt, "90", curExplPortMap, true) // Read current mapping curPortMap, _ = dockerCmd(c, "port", cnt, "70") // Disconnect from a network which causes the container's default gw switch dockerCmd(c, "network", "disconnect", "aaa", cnt) verifyPortMap(c, cnt, "70", curPortMap, false) verifyPortMap(c, cnt, "90", curExplPortMap, true) // Read current mapping curPortMap, _ = dockerCmd(c, "port", cnt, "70") // Connect to a network which does not cause the container's default gw switch dockerCmd(c, "network", "connect", "ccc", cnt) verifyPortMap(c, cnt, "70", curPortMap, true) verifyPortMap(c, cnt, "90", curExplPortMap, true) } func (s *DockerNetworkSuite) TestDockerNetworkConnectWithMac(c *check.C) { macAddress := "02:42:ac:11:00:02" dockerCmd(c, "network", "create", "mynetwork") dockerCmd(c, "run", "--name=test", "-d", "--mac-address", macAddress, "busybox", "top") c.Assert(waitRun("test"), check.IsNil) mac1 := inspectField(c, "test", "NetworkSettings.Networks.bridge.MacAddress") c.Assert(strings.TrimSpace(mac1), checker.Equals, macAddress) dockerCmd(c, "network", "connect", "mynetwork", "test") mac2 := inspectField(c, "test", "NetworkSettings.Networks.mynetwork.MacAddress") c.Assert(strings.TrimSpace(mac2), checker.Not(checker.Equals), strings.TrimSpace(mac1)) } func (s *DockerNetworkSuite) TestDockerNetworkInspectCreatedContainer(c *check.C) { dockerCmd(c, "create", "--name", "test", "busybox") networks := inspectField(c, "test", "NetworkSettings.Networks") c.Assert(networks, checker.Contains, "bridge", check.Commentf("Should return 'bridge' network")) } func (s *DockerNetworkSuite) TestDockerNetworkRestartWithMultipleNetworks(c *check.C) { dockerCmd(c, "network", "create", "test") dockerCmd(c, "run", "--name=foo", "-d", "busybox", "top") c.Assert(waitRun("foo"), checker.IsNil) dockerCmd(c, "network", "connect", "test", "foo") dockerCmd(c, "restart", "foo") networks := inspectField(c, "foo", "NetworkSettings.Networks") c.Assert(networks, checker.Contains, "bridge", check.Commentf("Should contain 'bridge' network")) c.Assert(networks, checker.Contains, "test", check.Commentf("Should contain 'test' network")) } func (s *DockerNetworkSuite) TestDockerNetworkConnectDisconnectToStoppedContainer(c *check.C) { testRequires(c, SameHostDaemon) dockerCmd(c, "network", "create", "test") dockerCmd(c, "create", "--name=foo", "busybox", "top") dockerCmd(c, "network", "connect", "test", "foo") networks := inspectField(c, "foo", "NetworkSettings.Networks") c.Assert(networks, checker.Contains, "test", check.Commentf("Should contain 'test' network")) // Restart docker daemon to test the config has persisted to disk s.d.Restart(c) networks = inspectField(c, "foo", "NetworkSettings.Networks") c.Assert(networks, checker.Contains, "test", check.Commentf("Should contain 'test' network")) // start the container and test if we can ping it from another container in the same network dockerCmd(c, "start", "foo") c.Assert(waitRun("foo"), checker.IsNil) ip := inspectField(c, "foo", "NetworkSettings.Networks.test.IPAddress") ip = strings.TrimSpace(ip) dockerCmd(c, "run", "--net=test", "busybox", "sh", "-c", fmt.Sprintf("ping -c 1 %s", ip)) dockerCmd(c, "stop", "foo") // Test disconnect dockerCmd(c, "network", "disconnect", "test", "foo") networks = inspectField(c, "foo", "NetworkSettings.Networks") c.Assert(networks, checker.Not(checker.Contains), "test", check.Commentf("Should not contain 'test' network")) // Restart docker daemon to test the config has persisted to disk s.d.Restart(c) networks = inspectField(c, "foo", "NetworkSettings.Networks") c.Assert(networks, checker.Not(checker.Contains), "test", check.Commentf("Should not contain 'test' network")) } func (s *DockerNetworkSuite) TestDockerNetworkDisconnectContainerNonexistingNetwork(c *check.C) { dockerCmd(c, "network", "create", "test") dockerCmd(c, "run", "--net=test", "-d", "--name=foo", "busybox", "top") networks := inspectField(c, "foo", "NetworkSettings.Networks") c.Assert(networks, checker.Contains, "test", check.Commentf("Should contain 'test' network")) // Stop container and remove network dockerCmd(c, "stop", "foo") dockerCmd(c, "network", "rm", "test") // Test disconnecting stopped container from nonexisting network dockerCmd(c, "network", "disconnect", "-f", "test", "foo") networks = inspectField(c, "foo", "NetworkSettings.Networks") c.Assert(networks, checker.Not(checker.Contains), "test", check.Commentf("Should not contain 'test' network")) } func (s *DockerNetworkSuite) TestDockerNetworkConnectPreferredIP(c *check.C) { // create two networks dockerCmd(c, "network", "create", "--ipv6", "--subnet=172.28.0.0/16", "--subnet=2001:db8:1234::/64", "n0") assertNwIsAvailable(c, "n0") dockerCmd(c, "network", "create", "--ipv6", "--subnet=172.30.0.0/16", "--ip-range=172.30.5.0/24", "--subnet=2001:db8:abcd::/64", "--ip-range=2001:db8:abcd::/80", "n1") assertNwIsAvailable(c, "n1") // run a container on first network specifying the ip addresses dockerCmd(c, "run", "-d", "--name", "c0", "--net=n0", "--ip", "172.28.99.88", "--ip6", "2001:db8:1234::9988", "busybox", "top") c.Assert(waitRun("c0"), check.IsNil) verifyIPAddressConfig(c, "c0", "n0", "172.28.99.88", "2001:db8:1234::9988") verifyIPAddresses(c, "c0", "n0", "172.28.99.88", "2001:db8:1234::9988") // connect the container to the second network specifying an ip addresses dockerCmd(c, "network", "connect", "--ip", "172.30.55.44", "--ip6", "2001:db8:abcd::5544", "n1", "c0") verifyIPAddressConfig(c, "c0", "n1", "172.30.55.44", "2001:db8:abcd::5544") verifyIPAddresses(c, "c0", "n1", "172.30.55.44", "2001:db8:abcd::5544") // Stop and restart the container dockerCmd(c, "stop", "c0") dockerCmd(c, "start", "c0") // verify requested addresses are applied and configs are still there verifyIPAddressConfig(c, "c0", "n0", "172.28.99.88", "2001:db8:1234::9988") verifyIPAddresses(c, "c0", "n0", "172.28.99.88", "2001:db8:1234::9988") verifyIPAddressConfig(c, "c0", "n1", "172.30.55.44", "2001:db8:abcd::5544") verifyIPAddresses(c, "c0", "n1", "172.30.55.44", "2001:db8:abcd::5544") // Still it should fail to connect to the default network with a specified IP (whatever ip) out, _, err := dockerCmdWithError("network", "connect", "--ip", "172.21.55.44", "bridge", "c0") c.Assert(err, checker.NotNil, check.Commentf("out: %s", out)) c.Assert(out, checker.Contains, runconfig.ErrUnsupportedNetworkAndIP.Error()) } func (s *DockerNetworkSuite) TestDockerNetworkConnectPreferredIPStoppedContainer(c *check.C) { // create a container dockerCmd(c, "create", "--name", "c0", "busybox", "top") // create a network dockerCmd(c, "network", "create", "--ipv6", "--subnet=172.30.0.0/16", "--subnet=2001:db8:abcd::/64", "n0") assertNwIsAvailable(c, "n0") // connect the container to the network specifying an ip addresses dockerCmd(c, "network", "connect", "--ip", "172.30.55.44", "--ip6", "2001:db8:abcd::5544", "n0", "c0") verifyIPAddressConfig(c, "c0", "n0", "172.30.55.44", "2001:db8:abcd::5544") // start the container, verify config has not changed and ip addresses are assigned dockerCmd(c, "start", "c0") c.Assert(waitRun("c0"), check.IsNil) verifyIPAddressConfig(c, "c0", "n0", "172.30.55.44", "2001:db8:abcd::5544") verifyIPAddresses(c, "c0", "n0", "172.30.55.44", "2001:db8:abcd::5544") // stop the container and check ip config has not changed dockerCmd(c, "stop", "c0") verifyIPAddressConfig(c, "c0", "n0", "172.30.55.44", "2001:db8:abcd::5544") } func (s *DockerNetworkSuite) TestDockerNetworkUnsupportedRequiredIP(c *check.C) { // requested IP is not supported on predefined networks for _, mode := range []string{"none", "host", "bridge", "default"} { checkUnsupportedNetworkAndIP(c, mode) } // requested IP is not supported on networks with no user defined subnets dockerCmd(c, "network", "create", "n0") assertNwIsAvailable(c, "n0") out, _, err := dockerCmdWithError("run", "-d", "--ip", "172.28.99.88", "--net", "n0", "busybox", "top") c.Assert(err, checker.NotNil, check.Commentf("out: %s", out)) c.Assert(out, checker.Contains, runconfig.ErrUnsupportedNetworkNoSubnetAndIP.Error()) out, _, err = dockerCmdWithError("run", "-d", "--ip6", "2001:db8:1234::9988", "--net", "n0", "busybox", "top") c.Assert(err, checker.NotNil, check.Commentf("out: %s", out)) c.Assert(out, checker.Contains, runconfig.ErrUnsupportedNetworkNoSubnetAndIP.Error()) dockerCmd(c, "network", "rm", "n0") assertNwNotAvailable(c, "n0") } func checkUnsupportedNetworkAndIP(c *check.C, nwMode string) { out, _, err := dockerCmdWithError("run", "-d", "--net", nwMode, "--ip", "172.28.99.88", "--ip6", "2001:db8:1234::9988", "busybox", "top") c.Assert(err, checker.NotNil, check.Commentf("out: %s", out)) c.Assert(out, checker.Contains, runconfig.ErrUnsupportedNetworkAndIP.Error()) } func verifyIPAddressConfig(c *check.C, cName, nwname, ipv4, ipv6 string) { if ipv4 != "" { out := inspectField(c, cName, fmt.Sprintf("NetworkSettings.Networks.%s.IPAMConfig.IPv4Address", nwname)) c.Assert(strings.TrimSpace(out), check.Equals, ipv4) } if ipv6 != "" { out := inspectField(c, cName, fmt.Sprintf("NetworkSettings.Networks.%s.IPAMConfig.IPv6Address", nwname)) c.Assert(strings.TrimSpace(out), check.Equals, ipv6) } } func verifyIPAddresses(c *check.C, cName, nwname, ipv4, ipv6 string) { out := inspectField(c, cName, fmt.Sprintf("NetworkSettings.Networks.%s.IPAddress", nwname)) c.Assert(strings.TrimSpace(out), check.Equals, ipv4) out = inspectField(c, cName, fmt.Sprintf("NetworkSettings.Networks.%s.GlobalIPv6Address", nwname)) c.Assert(strings.TrimSpace(out), check.Equals, ipv6) } func (s *DockerNetworkSuite) TestDockerNetworkConnectLinkLocalIP(c *check.C) { // create one test network dockerCmd(c, "network", "create", "--ipv6", "--subnet=2001:db8:1234::/64", "n0") assertNwIsAvailable(c, "n0") // run a container with incorrect link-local address _, _, err := dockerCmdWithError("run", "--link-local-ip", "169.253.5.5", "busybox", "top") c.Assert(err, check.NotNil) _, _, err = dockerCmdWithError("run", "--link-local-ip", "2001:db8::89", "busybox", "top") c.Assert(err, check.NotNil) // run two containers with link-local ip on the test network dockerCmd(c, "run", "-d", "--name", "c0", "--net=n0", "--link-local-ip", "169.254.7.7", "--link-local-ip", "fe80::254:77", "busybox", "top") c.Assert(waitRun("c0"), check.IsNil) dockerCmd(c, "run", "-d", "--name", "c1", "--net=n0", "--link-local-ip", "169.254.8.8", "--link-local-ip", "fe80::254:88", "busybox", "top") c.Assert(waitRun("c1"), check.IsNil) // run a container on the default network and connect it to the test network specifying a link-local address dockerCmd(c, "run", "-d", "--name", "c2", "busybox", "top") c.Assert(waitRun("c2"), check.IsNil) dockerCmd(c, "network", "connect", "--link-local-ip", "169.254.9.9", "n0", "c2") // verify the three containers can ping each other via the link-local addresses _, _, err = dockerCmdWithError("exec", "c0", "ping", "-c", "1", "169.254.8.8") c.Assert(err, check.IsNil) _, _, err = dockerCmdWithError("exec", "c1", "ping", "-c", "1", "169.254.9.9") c.Assert(err, check.IsNil) _, _, err = dockerCmdWithError("exec", "c2", "ping", "-c", "1", "169.254.7.7") c.Assert(err, check.IsNil) // Stop and restart the three containers dockerCmd(c, "stop", "c0") dockerCmd(c, "stop", "c1") dockerCmd(c, "stop", "c2") dockerCmd(c, "start", "c0") dockerCmd(c, "start", "c1") dockerCmd(c, "start", "c2") // verify the ping again _, _, err = dockerCmdWithError("exec", "c0", "ping", "-c", "1", "169.254.8.8") c.Assert(err, check.IsNil) _, _, err = dockerCmdWithError("exec", "c1", "ping", "-c", "1", "169.254.9.9") c.Assert(err, check.IsNil) _, _, err = dockerCmdWithError("exec", "c2", "ping", "-c", "1", "169.254.7.7") c.Assert(err, check.IsNil) } func (s *DockerSuite) TestUserDefinedNetworkConnectDisconnectLink(c *check.C) { testRequires(c, DaemonIsLinux, NotUserNamespace, NotArm) dockerCmd(c, "network", "create", "-d", "bridge", "foo1") dockerCmd(c, "network", "create", "-d", "bridge", "foo2") dockerCmd(c, "run", "-d", "--net=foo1", "--name=first", "busybox", "top") c.Assert(waitRun("first"), check.IsNil) // run a container in a user-defined network with a link for an existing container // and a link for a container that doesn't exist dockerCmd(c, "run", "-d", "--net=foo1", "--name=second", "--link=first:FirstInFoo1", "--link=third:bar", "busybox", "top") c.Assert(waitRun("second"), check.IsNil) // ping to first and its alias FirstInFoo1 must succeed _, _, err := dockerCmdWithError("exec", "second", "ping", "-c", "1", "first") c.Assert(err, check.IsNil) _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "FirstInFoo1") c.Assert(err, check.IsNil) // connect first container to foo2 network dockerCmd(c, "network", "connect", "foo2", "first") // connect second container to foo2 network with a different alias for first container dockerCmd(c, "network", "connect", "--link=first:FirstInFoo2", "foo2", "second") // ping the new alias in network foo2 _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "FirstInFoo2") c.Assert(err, check.IsNil) // disconnect first container from foo1 network dockerCmd(c, "network", "disconnect", "foo1", "first") // link in foo1 network must fail _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "FirstInFoo1") c.Assert(err, check.NotNil) // link in foo2 network must succeed _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "FirstInFoo2") c.Assert(err, check.IsNil) } func (s *DockerNetworkSuite) TestDockerNetworkDisconnectDefault(c *check.C) { netWorkName1 := "test1" netWorkName2 := "test2" containerName := "foo" dockerCmd(c, "network", "create", netWorkName1) dockerCmd(c, "network", "create", netWorkName2) dockerCmd(c, "create", "--name", containerName, "busybox", "top") dockerCmd(c, "network", "connect", netWorkName1, containerName) dockerCmd(c, "network", "connect", netWorkName2, containerName) dockerCmd(c, "network", "disconnect", "bridge", containerName) dockerCmd(c, "start", containerName) c.Assert(waitRun(containerName), checker.IsNil) networks := inspectField(c, containerName, "NetworkSettings.Networks") c.Assert(networks, checker.Contains, netWorkName1, check.Commentf(fmt.Sprintf("Should contain '%s' network", netWorkName1))) c.Assert(networks, checker.Contains, netWorkName2, check.Commentf(fmt.Sprintf("Should contain '%s' network", netWorkName2))) c.Assert(networks, checker.Not(checker.Contains), "bridge", check.Commentf("Should not contain 'bridge' network")) } func (s *DockerNetworkSuite) TestDockerNetworkConnectWithAliasOnDefaultNetworks(c *check.C) { testRequires(c, DaemonIsLinux, NotUserNamespace, NotArm) defaults := []string{"bridge", "host", "none"} out, _ := dockerCmd(c, "run", "-d", "--net=none", "busybox", "top") containerID := strings.TrimSpace(out) for _, net := range defaults { res, _, err := dockerCmdWithError("network", "connect", "--alias", "alias"+net, net, containerID) c.Assert(err, checker.NotNil) c.Assert(res, checker.Contains, runconfig.ErrUnsupportedNetworkAndAlias.Error()) } } func (s *DockerSuite) TestUserDefinedNetworkConnectDisconnectAlias(c *check.C) { testRequires(c, DaemonIsLinux, NotUserNamespace, NotArm) dockerCmd(c, "network", "create", "-d", "bridge", "net1") dockerCmd(c, "network", "create", "-d", "bridge", "net2") cid, _ := dockerCmd(c, "run", "-d", "--net=net1", "--name=first", "--net-alias=foo", "busybox", "top") c.Assert(waitRun("first"), check.IsNil) dockerCmd(c, "run", "-d", "--net=net1", "--name=second", "busybox", "top") c.Assert(waitRun("second"), check.IsNil) // ping first container and its alias _, _, err := dockerCmdWithError("exec", "second", "ping", "-c", "1", "first") c.Assert(err, check.IsNil) _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "foo") c.Assert(err, check.IsNil) // ping first container's short-id alias _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", stringid.TruncateID(cid)) c.Assert(err, check.IsNil) // connect first container to net2 network dockerCmd(c, "network", "connect", "--alias=bar", "net2", "first") // connect second container to foo2 network with a different alias for first container dockerCmd(c, "network", "connect", "net2", "second") // ping the new alias in network foo2 _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "bar") c.Assert(err, check.IsNil) // disconnect first container from net1 network dockerCmd(c, "network", "disconnect", "net1", "first") // ping to net1 scoped alias "foo" must fail _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "foo") c.Assert(err, check.NotNil) // ping to net2 scoped alias "bar" must still succeed _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "bar") c.Assert(err, check.IsNil) // ping to net2 scoped alias short-id must still succeed _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", stringid.TruncateID(cid)) c.Assert(err, check.IsNil) // verify the alias option is rejected when running on predefined network out, _, err := dockerCmdWithError("run", "--rm", "--name=any", "--net-alias=any", "busybox", "top") c.Assert(err, checker.NotNil, check.Commentf("out: %s", out)) c.Assert(out, checker.Contains, runconfig.ErrUnsupportedNetworkAndAlias.Error()) // verify the alias option is rejected when connecting to predefined network out, _, err = dockerCmdWithError("network", "connect", "--alias=any", "bridge", "first") c.Assert(err, checker.NotNil, check.Commentf("out: %s", out)) c.Assert(out, checker.Contains, runconfig.ErrUnsupportedNetworkAndAlias.Error()) } func (s *DockerSuite) TestUserDefinedNetworkConnectivity(c *check.C) { testRequires(c, DaemonIsLinux, NotUserNamespace) dockerCmd(c, "network", "create", "-d", "bridge", "br.net1") dockerCmd(c, "run", "-d", "--net=br.net1", "--name=c1.net1", "busybox", "top") c.Assert(waitRun("c1.net1"), check.IsNil) dockerCmd(c, "run", "-d", "--net=br.net1", "--name=c2.net1", "busybox", "top") c.Assert(waitRun("c2.net1"), check.IsNil) // ping first container by its unqualified name _, _, err := dockerCmdWithError("exec", "c2.net1", "ping", "-c", "1", "c1.net1") c.Assert(err, check.IsNil) // ping first container by its qualified name _, _, err = dockerCmdWithError("exec", "c2.net1", "ping", "-c", "1", "c1.net1.br.net1") c.Assert(err, check.IsNil) // ping with first qualified name masked by an additional domain. should fail _, _, err = dockerCmdWithError("exec", "c2.net1", "ping", "-c", "1", "c1.net1.br.net1.google.com") c.Assert(err, check.NotNil) } func (s *DockerSuite) TestEmbeddedDNSInvalidInput(c *check.C) { testRequires(c, DaemonIsLinux, NotUserNamespace) dockerCmd(c, "network", "create", "-d", "bridge", "nw1") // Sending garbage to embedded DNS shouldn't crash the daemon dockerCmd(c, "run", "-i", "--net=nw1", "--name=c1", "debian:jessie", "bash", "-c", "echo InvalidQuery > /dev/udp/127.0.0.11/53") } func (s *DockerSuite) TestDockerNetworkConnectFailsNoInspectChange(c *check.C) { dockerCmd(c, "run", "-d", "--name=bb", "busybox", "top") c.Assert(waitRun("bb"), check.IsNil) ns0 := inspectField(c, "bb", "NetworkSettings.Networks.bridge") // A failing redundant network connect should not alter current container's endpoint settings _, _, err := dockerCmdWithError("network", "connect", "bridge", "bb") c.Assert(err, check.NotNil) ns1 := inspectField(c, "bb", "NetworkSettings.Networks.bridge") c.Assert(ns1, check.Equals, ns0) } func (s *DockerSuite) TestDockerNetworkInternalMode(c *check.C) { dockerCmd(c, "network", "create", "--driver=bridge", "--internal", "internal") assertNwIsAvailable(c, "internal") nr := getNetworkResource(c, "internal") c.Assert(nr.Internal, checker.True) dockerCmd(c, "run", "-d", "--net=internal", "--name=first", "busybox", "top") c.Assert(waitRun("first"), check.IsNil) dockerCmd(c, "run", "-d", "--net=internal", "--name=second", "busybox", "top") c.Assert(waitRun("second"), check.IsNil) out, _, err := dockerCmdWithError("exec", "first", "ping", "-W", "4", "-c", "1", "www.google.com") c.Assert(err, check.NotNil) c.Assert(out, checker.Contains, "ping: bad address") _, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "first") c.Assert(err, check.IsNil) } // Test for #21401 func (s *DockerNetworkSuite) TestDockerNetworkCreateDeleteSpecialCharacters(c *check.C) { dockerCmd(c, "network", "create", "test@#$") assertNwIsAvailable(c, "test@#$") dockerCmd(c, "network", "rm", "test@#$") assertNwNotAvailable(c, "test@#$") dockerCmd(c, "network", "create", "kiwl$%^") assertNwIsAvailable(c, "kiwl$%^") dockerCmd(c, "network", "rm", "kiwl$%^") assertNwNotAvailable(c, "kiwl$%^") } func (s *DockerDaemonSuite) TestDaemonRestartRestoreBridgeNetwork(t *check.C) { testRequires(t, DaemonIsLinux) s.d.StartWithBusybox(t, "--live-restore") defer s.d.Stop(t) oldCon := "old" _, err := s.d.Cmd("run", "-d", "--name", oldCon, "-p", "80:80", "busybox", "top") if err != nil { t.Fatal(err) } oldContainerIP, err := s.d.Cmd("inspect", "-f", "{{ .NetworkSettings.Networks.bridge.IPAddress }}", oldCon) if err != nil { t.Fatal(err) } // Kill the daemon if err := s.d.Kill(); err != nil { t.Fatal(err) } // restart the daemon s.d.Start(t, "--live-restore") // start a new container, the new container's ip should not be the same with // old running container. newCon := "new" _, err = s.d.Cmd("run", "-d", "--name", newCon, "busybox", "top") if err != nil { t.Fatal(err) } newContainerIP, err := s.d.Cmd("inspect", "-f", "{{ .NetworkSettings.Networks.bridge.IPAddress }}", newCon) if err != nil { t.Fatal(err) } if strings.Compare(strings.TrimSpace(oldContainerIP), strings.TrimSpace(newContainerIP)) == 0 { t.Fatalf("new container ip should not equal to old running container ip") } // start a new container, the new container should ping old running container _, err = s.d.Cmd("run", "-t", "busybox", "ping", "-c", "1", oldContainerIP) if err != nil { t.Fatal(err) } // start a new container, trying to publish port 80:80 should fail out, err := s.d.Cmd("run", "-p", "80:80", "-d", "busybox", "top") if err == nil || !strings.Contains(out, "Bind for 0.0.0.0:80 failed: port is already allocated") { t.Fatalf("80 port is allocated to old running container, it should failed on allocating to new container") } // kill old running container and try to allocate again _, err = s.d.Cmd("kill", oldCon) if err != nil { t.Fatal(err) } id, err := s.d.Cmd("run", "-p", "80:80", "-d", "busybox", "top") if err != nil { t.Fatal(err) } // Cleanup because these containers will not be shut down by daemon out, err = s.d.Cmd("stop", newCon) if err != nil { t.Fatalf("err: %v %v", err, string(out)) } _, err = s.d.Cmd("stop", strings.TrimSpace(id)) if err != nil { t.Fatal(err) } } func (s *DockerNetworkSuite) TestDockerNetworkFlagAlias(c *check.C) { dockerCmd(c, "network", "create", "user") output, status := dockerCmd(c, "run", "--rm", "--network=user", "--network-alias=foo", "busybox", "true") c.Assert(status, checker.Equals, 0, check.Commentf("unexpected status code %d (%s)", status, output)) output, status, _ = dockerCmdWithError("run", "--rm", "--net=user", "--network=user", "busybox", "true") c.Assert(status, checker.Equals, 0, check.Commentf("unexpected status code %d (%s)", status, output)) output, status, _ = dockerCmdWithError("run", "--rm", "--network=user", "--net-alias=foo", "--network-alias=bar", "busybox", "true") c.Assert(status, checker.Equals, 0, check.Commentf("unexpected status code %d (%s)", status, output)) } func (s *DockerNetworkSuite) TestDockerNetworkValidateIP(c *check.C) { _, _, err := dockerCmdWithError("network", "create", "--ipv6", "--subnet=172.28.0.0/16", "--subnet=2001:db8:1234::/64", "mynet") c.Assert(err, check.IsNil) assertNwIsAvailable(c, "mynet") _, _, err = dockerCmdWithError("run", "-d", "--name", "mynet0", "--net=mynet", "--ip", "172.28.99.88", "--ip6", "2001:db8:1234::9988", "busybox", "top") c.Assert(err, check.IsNil) c.Assert(waitRun("mynet0"), check.IsNil) verifyIPAddressConfig(c, "mynet0", "mynet", "172.28.99.88", "2001:db8:1234::9988") verifyIPAddresses(c, "mynet0", "mynet", "172.28.99.88", "2001:db8:1234::9988") _, _, err = dockerCmdWithError("run", "--net=mynet", "--ip", "mynet_ip", "--ip6", "2001:db8:1234::9999", "busybox", "top") c.Assert(err.Error(), checker.Contains, "invalid IPv4 address") _, _, err = dockerCmdWithError("run", "--net=mynet", "--ip", "172.28.99.99", "--ip6", "mynet_ip6", "busybox", "top") c.Assert(err.Error(), checker.Contains, "invalid IPv6 address") // This is a case of IPv4 address to `--ip6` _, _, err = dockerCmdWithError("run", "--net=mynet", "--ip6", "172.28.99.99", "busybox", "top") c.Assert(err.Error(), checker.Contains, "invalid IPv6 address") // This is a special case of an IPv4-mapped IPv6 address _, _, err = dockerCmdWithError("run", "--net=mynet", "--ip6", "::ffff:172.28.99.99", "busybox", "top") c.Assert(err.Error(), checker.Contains, "invalid IPv6 address") } // Test case for 26220 func (s *DockerNetworkSuite) TestDockerNetworkDisconnectFromBridge(c *check.C) { out, _ := dockerCmd(c, "network", "inspect", "--format", "{{.Id}}", "bridge") network := strings.TrimSpace(out) name := "test" dockerCmd(c, "create", "--name", name, "busybox", "top") _, _, err := dockerCmdWithError("network", "disconnect", network, name) c.Assert(err, check.IsNil) } // TestConntrackFlowsLeak covers the failure scenario of ticket: https://github.com/docker/docker/issues/8795 // Validates that conntrack is correctly cleaned once a container is destroyed func (s *DockerNetworkSuite) TestConntrackFlowsLeak(c *check.C) { testRequires(c, IsAmd64, DaemonIsLinux, Network, SameHostDaemon) // Create a new network cli.DockerCmd(c, "network", "create", "--subnet=192.168.10.0/24", "--gateway=192.168.10.1", "-o", "com.docker.network.bridge.host_binding_ipv4=192.168.10.1", "testbind") assertNwIsAvailable(c, "testbind") // Launch the server, this will remain listening on an exposed port and reply to any request in a ping/pong fashion cmd := "while true; do echo hello | nc -w 1 -lu 8080; done" cli.DockerCmd(c, "run", "-d", "--name", "server", "--net", "testbind", "-p", "8080:8080/udp", "appropriate/nc", "sh", "-c", cmd) // Launch a container client, here the objective is to create a flow that is natted in order to expose the bug cmd = "echo world | nc -q 1 -u 192.168.10.1 8080" cli.DockerCmd(c, "run", "-d", "--name", "client", "--net=host", "appropriate/nc", "sh", "-c", cmd) // Get all the flows using netlink flows, err := netlink.ConntrackTableList(netlink.ConntrackTable, unix.AF_INET) c.Assert(err, check.IsNil) var flowMatch int for _, flow := range flows { // count only the flows that we are interested in, skipping others that can be laying around the host if flow.Forward.Protocol == unix.IPPROTO_UDP && flow.Forward.DstIP.Equal(net.ParseIP("192.168.10.1")) && flow.Forward.DstPort == 8080 { flowMatch++ } } // The client should have created only 1 flow c.Assert(flowMatch, checker.Equals, 1) // Now delete the server, this will trigger the conntrack cleanup cli.DockerCmd(c, "rm", "-fv", "server") // Fetch again all the flows and validate that there is no server flow in the conntrack laying around flows, err = netlink.ConntrackTableList(netlink.ConntrackTable, unix.AF_INET) c.Assert(err, check.IsNil) flowMatch = 0 for _, flow := range flows { if flow.Forward.Protocol == unix.IPPROTO_UDP && flow.Forward.DstIP.Equal(net.ParseIP("192.168.10.1")) && flow.Forward.DstPort == 8080 { flowMatch++ } } // All the flows have to be gone c.Assert(flowMatch, checker.Equals, 0) }