package api import ( "bytes" "encoding/json" "errors" "fmt" "io" "net/http" "os" "runtime" "testing" "github.com/docker/docker/pkg/reexec" "github.com/docker/libnetwork" "github.com/docker/libnetwork/netlabel" "github.com/docker/libnetwork/netutils" "github.com/docker/libnetwork/options" "github.com/docker/libnetwork/types" ) const ( bridgeNetType = "bridge" bridgeName = "docker0" ) func getEmptyGenericOption() map[string]interface{} { genericOption := make(map[string]interface{}) genericOption[netlabel.GenericData] = options.Generic{} return genericOption } func i2s(i interface{}) string { s, ok := i.(string) if !ok { panic(fmt.Sprintf("Failed i2s for %v", i)) } return s } func i2e(i interface{}) *endpointResource { s, ok := i.(*endpointResource) if !ok { panic(fmt.Sprintf("Failed i2e for %v", i)) } return s } func i2c(i interface{}) *libnetwork.ContainerData { s, ok := i.(*libnetwork.ContainerData) if !ok { panic(fmt.Sprintf("Failed i2c for %v", i)) } return s } func i2eL(i interface{}) []*endpointResource { s, ok := i.([]*endpointResource) if !ok { panic(fmt.Sprintf("Failed i2eL for %v", i)) } return s } func i2n(i interface{}) *networkResource { s, ok := i.(*networkResource) if !ok { panic(fmt.Sprintf("Failed i2n for %v", i)) } return s } func i2nL(i interface{}) []*networkResource { s, ok := i.([]*networkResource) if !ok { panic(fmt.Sprintf("Failed i2nL for %v", i)) } return s } func TestMain(m *testing.M) { if reexec.Init() { return } os.Exit(m.Run()) } func TestJoinOptionParser(t *testing.T) { hn := "host1" dn := "docker.com" hp := "/etc/hosts" rc := "/etc/resolv.conf" dnss := []string{"8.8.8.8", "172.28.34.5"} ehs := []endpointExtraHost{endpointExtraHost{Name: "extra1", Address: "172.28.9.1"}, endpointExtraHost{Name: "extra2", Address: "172.28.9.2"}} pus := []endpointParentUpdate{endpointParentUpdate{EndpointID: "abc123def456", Name: "serv1", Address: "172.28.30.123"}} ej := endpointJoin{ HostName: hn, DomainName: dn, HostsPath: hp, ResolvConfPath: rc, DNS: dnss, ExtraHosts: ehs, ParentUpdates: pus, UseDefaultSandbox: true, } if len(ej.parseOptions()) != 10 { t.Fatalf("Failed to generate all libnetwork.EndpointJoinOption methods libnetwork.EndpointJoinOption method") } } func TestJson(t *testing.T) { nc := networkCreate{Name: "mynet", NetworkType: bridgeNetType} b, err := json.Marshal(nc) if err != nil { t.Fatal(err) } var ncp networkCreate err = json.Unmarshal(b, &ncp) if err != nil { t.Fatal(err) } if nc.Name != ncp.Name || nc.NetworkType != ncp.NetworkType { t.Fatalf("Incorrect networkCreate after json encoding/deconding: %v", ncp) } ec := endpointCreate{Name: "mioEp", NetworkID: "0xabcde"} b, err = json.Marshal(ec) if err != nil { t.Fatal(err) } var ecp endpointCreate err = json.Unmarshal(b, &ecp) if err != nil { t.Fatal(err) } if ec.Name != ecp.Name || ec.NetworkID != ecp.NetworkID { t.Fatalf("Incorrect endpointCreate after json encoding/deconding: %v", ecp) } jl := endpointJoin{ContainerID: "abcdef456789"} b, err = json.Marshal(jl) if err != nil { t.Fatal(err) } var jld endpointJoin err = json.Unmarshal(b, &jld) if err != nil { t.Fatal(err) } if jl.ContainerID != jld.ContainerID { t.Fatalf("Incorrect endpointJoin after json encoding/deconding: %v", ecp) } } func TestCreateDeleteNetwork(t *testing.T) { defer netutils.SetupTestNetNS(t)() c, err := libnetwork.New() if err != nil { t.Fatal(err) } err = c.ConfigureNetworkDriver(bridgeNetType, nil) if err != nil { t.Fatal(err) } badBody, err := json.Marshal("bad body") if err != nil { t.Fatal(err) } goodVars := map[string]string{urlNwName: "myNet"} _, errRsp := procCreateNetwork(c, goodVars, badBody) if errRsp == &createdResponse { t.Fatalf("Expected to fail but succeeded") } incompleteBody, err := json.Marshal(networkCreate{Name: "myNet"}) if err != nil { t.Fatal(err) } _, errRsp = procCreateNetwork(c, goodVars, incompleteBody) if errRsp == &createdResponse { t.Fatalf("Expected to fail but succeeded") } if errRsp.StatusCode != http.StatusNotFound { t.Fatalf("Expected StatusNotFound status code, got: %v", errRsp) } ops := make(map[string]interface{}) ops[netlabel.GenericData] = options.Generic{} nc := networkCreate{Name: "myNet", NetworkType: bridgeNetType, Options: ops} goodBody, err := json.Marshal(nc) if err != nil { t.Fatal(err) } badVars := map[string]string{urlNwName: ""} _, errRsp = procCreateNetwork(c, badVars, goodBody) if errRsp == &createdResponse { t.Fatalf("Expected to fail but succeeded") } if errRsp.StatusCode != http.StatusBadRequest { t.Fatalf("Expected StatusBadRequest status code, got: %v", errRsp.StatusCode) } badVars[urlNwName] = "badNetworkName" _, errRsp = procCreateNetwork(c, badVars, goodBody) if errRsp == &createdResponse { t.Fatalf("Expected to fail but succeeded") } if errRsp.StatusCode != http.StatusBadRequest { t.Fatalf("Expected StatusBadRequest status code, got: %v", errRsp.StatusCode) } _, errRsp = procCreateNetwork(c, goodVars, goodBody) if errRsp != &createdResponse { t.Fatalf("Unexepected failure: %v", errRsp) } _, errRsp = procDeleteNetwork(c, badVars, nil) if errRsp == &successResponse { t.Fatalf("Expected to fail but succeeded") } badVars[urlNwName] = "" _, errRsp = procDeleteNetwork(c, badVars, nil) if errRsp == &successResponse { t.Fatalf("Expected to fail but succeeded") } _, errRsp = procDeleteNetwork(c, goodVars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } } func TestGetNetworksAndEndpoints(t *testing.T) { defer netutils.SetupTestNetNS(t)() c, err := libnetwork.New() if err != nil { t.Fatal(err) } err = c.ConfigureNetworkDriver(bridgeNetType, nil) if err != nil { t.Fatal(err) } nc := networkCreate{Name: "sh", NetworkType: bridgeNetType} body, err := json.Marshal(nc) if err != nil { t.Fatal(err) } vars := map[string]string{urlNwName: "sh"} inid, errRsp := procCreateNetwork(c, vars, body) if errRsp != &createdResponse { t.Fatalf("Unexepected failure: %v", errRsp) } nid, ok := inid.(string) if !ok { t.FailNow() } ec1 := endpointCreate{ Name: "ep1", NetworkID: string(nid), ExposedPorts: []types.TransportPort{ types.TransportPort{Proto: types.TCP, Port: uint16(5000)}, types.TransportPort{Proto: types.UDP, Port: uint16(400)}, types.TransportPort{Proto: types.TCP, Port: uint16(600)}, }, PortMapping: []types.PortBinding{ types.PortBinding{Proto: types.TCP, Port: uint16(230), HostPort: uint16(23000)}, types.PortBinding{Proto: types.UDP, Port: uint16(200), HostPort: uint16(22000)}, types.PortBinding{Proto: types.TCP, Port: uint16(120), HostPort: uint16(12000)}, }, } b1, err := json.Marshal(ec1) if err != nil { t.Fatal(err) } ec2 := endpointCreate{Name: "ep2", NetworkID: nid} b2, err := json.Marshal(ec2) if err != nil { t.Fatal(err) } vars[urlEpName] = "ep1" ieid1, errRsp := procCreateEndpoint(c, vars, b1) if errRsp != &createdResponse { t.Fatalf("Unexepected failure: %v", errRsp) } eid1 := i2s(ieid1) vars[urlEpName] = "ep2" ieid2, errRsp := procCreateEndpoint(c, vars, b2) if errRsp != &createdResponse { t.Fatalf("Unexepected failure: %v", errRsp) } eid2 := i2s(ieid2) vars[urlNwName] = "" vars[urlEpName] = "ep1" _, errRsp = procGetEndpoint(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Expected failure but succeeded: %v", errRsp) } if errRsp.StatusCode != http.StatusBadRequest { t.Fatalf("Expected to fail with http.StatusBadRequest, but got: %d", errRsp.StatusCode) } vars = make(map[string]string) vars[urlNwName] = "sh" vars[urlEpID] = "" _, errRsp = procGetEndpoint(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Expected failure but succeeded: %v", errRsp) } if errRsp.StatusCode != http.StatusBadRequest { t.Fatalf("Expected to fail with http.StatusBadRequest, but got: %d", errRsp.StatusCode) } vars = make(map[string]string) vars[urlNwID] = "" vars[urlEpID] = eid1 _, errRsp = procGetEndpoint(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Expected failure but succeeded: %v", errRsp) } if errRsp.StatusCode != http.StatusBadRequest { t.Fatalf("Expected to fail with http.StatusBadRequest, but got: %d", errRsp.StatusCode) } // nw by name and ep by id vars[urlNwName] = "sh" i1, errRsp := procGetEndpoint(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } // nw by name and ep by name delete(vars, urlEpID) vars[urlEpName] = "ep1" i2, errRsp := procGetEndpoint(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } // nw by id and ep by name delete(vars, urlNwName) vars[urlNwID] = nid i3, errRsp := procGetEndpoint(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } // nw by id and ep by id delete(vars, urlEpName) vars[urlEpID] = eid1 i4, errRsp := procGetEndpoint(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } id1 := i2e(i1).ID if id1 != i2e(i2).ID || id1 != i2e(i3).ID || id1 != i2e(i4).ID { t.Fatalf("Endpoints retireved via different query parameters differ: %v, %v, %v, %v", i1, i2, i3, i4) } vars[urlNwName] = "" _, errRsp = procGetEndpoints(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } delete(vars, urlNwName) vars[urlNwID] = "fakeID" _, errRsp = procGetEndpoints(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlNwID] = nid _, errRsp = procGetEndpoints(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } vars[urlNwName] = "sh" iepList, errRsp := procGetEndpoints(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } epList := i2eL(iepList) if len(epList) != 2 { t.Fatalf("Did not return the expected number (2) of endpoint resources: %d", len(epList)) } if "sh" != epList[0].Network || "sh" != epList[1].Network { t.Fatalf("Did not find expected network name in endpoint resources") } vars = make(map[string]string) vars[urlNwName] = "" _, errRsp = procGetNetwork(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Exepected failure, got: %v", errRsp) } vars[urlNwName] = "shhhhh" _, errRsp = procGetNetwork(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Exepected failure, got: %v", errRsp) } vars[urlNwName] = "sh" inr1, errRsp := procGetNetwork(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } nr1 := i2n(inr1) delete(vars, urlNwName) vars[urlNwID] = "cacca" _, errRsp = procGetNetwork(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } vars[urlNwID] = nid inr2, errRsp := procGetNetwork(c, vars, nil) if errRsp != &successResponse { t.Fatalf("procgetNetworkByName() != procgetNetworkById(), %v vs %v", inr1, inr2) } nr2 := i2n(inr2) if nr1.Name != nr2.Name || nr1.Type != nr2.Type || nr1.ID != nr2.ID || len(nr1.Endpoints) != len(nr2.Endpoints) { t.Fatalf("Get by name and Get failure: %v", errRsp) } if len(nr1.Endpoints) != 2 { t.Fatalf("Did not find the expected number (2) of endpoint resources in the network resource: %d", len(nr1.Endpoints)) } for _, er := range nr1.Endpoints { if er.ID != eid1 && er.ID != eid2 { t.Fatalf("Did not find the expected endpoint resources in the network resource: %v", nr1.Endpoints) } } iList, errRsp := procGetNetworks(c, nil, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } netList := i2nL(iList) if len(netList) != 1 { t.Fatalf("Did not return the expected number of network resources") } if nid != netList[0].ID { t.Fatalf("Did not find expected network %s: %v", nid, netList) } _, errRsp = procDeleteNetwork(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Exepected failure, got: %v", errRsp) } vars[urlEpName] = "ep1" _, errRsp = procDeleteEndpoint(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } iepList, errRsp = procGetEndpoints(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } epList = i2eL(iepList) if len(epList) != 1 { t.Fatalf("Did not return the expected number (1) of endpoint resources: %d", len(epList)) } vars[urlEpName] = "ep2" _, errRsp = procDeleteEndpoint(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } iepList, errRsp = procGetEndpoints(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } epList = i2eL(iepList) if len(epList) != 0 { t.Fatalf("Did not return the expected number (0) of endpoint resources: %d", len(epList)) } _, errRsp = procDeleteNetwork(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } iList, errRsp = procGetNetworks(c, nil, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } netList = i2nL(iList) if len(netList) != 0 { t.Fatalf("Did not return the expected number of network resources") } } func TestFindNetworkUtil(t *testing.T) { defer netutils.SetupTestNetNS(t)() c, err := libnetwork.New() if err != nil { t.Fatal(err) } err = c.ConfigureNetworkDriver(bridgeNetType, nil) if err != nil { t.Fatal(err) } nw, err := c.NewNetwork(bridgeNetType, "network", nil) if err != nil { t.Fatal(err) } nid := nw.ID() defer checkPanic(t) findNetwork(c, "", -1) _, errRsp := findNetwork(c, "", byName) if errRsp == &successResponse { t.Fatalf("Expected to fail but succeeded") } if errRsp.StatusCode != http.StatusBadRequest { t.Fatalf("Expected %d, but got: %d", http.StatusBadRequest, errRsp.StatusCode) } n, errRsp := findNetwork(c, nid, byID) if errRsp != &successResponse { t.Fatalf("Unexpected failure: %v", errRsp) } if n == nil { t.Fatalf("Unexpected nil libnetwork.Network") } if nid != n.ID() { t.Fatalf("Incorrect libnetwork.Network resource. It has different id: %v", n) } if "network" != n.Name() { t.Fatalf("Incorrect libnetwork.Network resource. It has different name: %v", n) } n, errRsp = findNetwork(c, "network", byName) if errRsp != &successResponse { t.Fatalf("Unexpected failure: %v", errRsp) } if n == nil { t.Fatalf("Unexpected nil libnetwork.Network") } if nid != n.ID() { t.Fatalf("Incorrect libnetwork.Network resource. It has different id: %v", n) } if "network" != n.Name() { t.Fatalf("Incorrect libnetwork.Network resource. It has different name: %v", n) } n.Delete() _, errRsp = findNetwork(c, nid, byID) if errRsp == &successResponse { t.Fatalf("Expected to fail but succeeded") } if errRsp.StatusCode != http.StatusNotFound { t.Fatalf("Expected %d, but got: %d", http.StatusNotFound, errRsp.StatusCode) } _, errRsp = findNetwork(c, "network", byName) if errRsp == &successResponse { t.Fatalf("Expected to fail but succeeded") } if errRsp.StatusCode != http.StatusNotFound { t.Fatalf("Expected %d, but got: %d", http.StatusNotFound, errRsp.StatusCode) } } func TestCreateDeleteEndpoints(t *testing.T) { defer netutils.SetupTestNetNS(t)() c, err := libnetwork.New() if err != nil { t.Fatal(err) } err = c.ConfigureNetworkDriver(bridgeNetType, nil) if err != nil { t.Fatal(err) } nc := networkCreate{Name: "firstNet", NetworkType: bridgeNetType} body, err := json.Marshal(nc) if err != nil { t.Fatal(err) } vars := map[string]string{urlNwName: "firstNet"} i, errRsp := procCreateNetwork(c, vars, body) if errRsp != &createdResponse { t.Fatalf("Unexepected failure: %v", errRsp) } nid := i2s(i) vbad, err := json.Marshal("bad endppint create data") if err != nil { t.Fatal(err) } vars[urlEpName] = "ep1" _, errRsp = procCreateEndpoint(c, vars, vbad) if errRsp == &createdResponse { t.Fatalf("Expected to fail but succeeded") } bad, err := json.Marshal(endpointCreate{Name: "ep1", NetworkID: "123456"}) if err != nil { t.Fatal(err) } _, errRsp = procCreateEndpoint(c, vars, bad) if errRsp == &createdResponse { t.Fatalf("Expected to fail but succeeded") } soso, err := json.Marshal(endpointCreate{Name: "ep11", NetworkID: nid}) if err != nil { t.Fatal(err) } _, errRsp = procCreateEndpoint(c, vars, soso) if errRsp != &mismatchResponse { t.Fatalf("Expected to fail with \"mismatchResponse\", but got: %v", errRsp) } bla, err := json.Marshal(endpointCreate{Name: "", NetworkID: nid}) if err != nil { t.Fatal(err) } vars[urlNwName] = "firstNet" vars[urlEpName] = "" _, errRsp = procCreateEndpoint(c, vars, bla) if errRsp == &createdResponse { t.Fatalf("Expected to fail but succeeded: %v", errRsp) } b, err := json.Marshal(endpointCreate{Name: "firstEp", NetworkID: nid}) if err != nil { t.Fatal(err) } vars[urlNwName] = "secondNet" vars[urlEpName] = "firstEp" _, errRsp = procCreateEndpoint(c, vars, b) if errRsp == &createdResponse { t.Fatalf("Expected to fail but succeeded") } vars[urlNwName] = "firstNet" vars[urlEpName] = "ep1" _, errRsp = procCreateEndpoint(c, vars, b) if errRsp != &mismatchResponse { t.Fatalf("Expected to fail with \"mismatchResponse\", but got: %v", errRsp) } vars = make(map[string]string) _, errRsp = procCreateEndpoint(c, vars, b) if errRsp == &successResponse { t.Fatalf("Expected failure but succeeded: %v", errRsp) } vars[urlNwName] = "firstNet" _, errRsp = procCreateEndpoint(c, vars, b) if errRsp == &successResponse { t.Fatalf("Expected failure but succeeded: %v", errRsp) } vars[urlEpName] = "firstEp" i, errRsp = procCreateEndpoint(c, vars, b) if errRsp != &createdResponse { t.Fatalf("Unexepected failure: %v", errRsp) } eid := i2s(i) _, errRsp = findEndpoint(c, "myNet", "firstEp", byName, byName) if errRsp == &successResponse { t.Fatalf("Expected failure but succeeded: %v", errRsp) } ep0, errRsp := findEndpoint(c, nid, "firstEp", byID, byName) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } ep1, errRsp := findEndpoint(c, "firstNet", "firstEp", byName, byName) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } ep2, errRsp := findEndpoint(c, nid, eid, byID, byID) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } ep3, errRsp := findEndpoint(c, "firstNet", eid, byName, byID) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } if ep0 != ep1 || ep0 != ep2 || ep0 != ep3 { t.Fatalf("Diffenrent queries returned different endpoints") } vars = make(map[string]string) vars[urlNwName] = "" vars[urlEpName] = "ep1" _, errRsp = procDeleteEndpoint(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlNwName] = "firstNet" vars[urlEpName] = "" _, errRsp = procDeleteEndpoint(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlEpName] = "ep2" _, errRsp = procDeleteEndpoint(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlEpName] = "firstEp" _, errRsp = procDeleteEndpoint(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } _, errRsp = findEndpoint(c, "firstNet", "firstEp", byName, byName) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } } func TestJoinLeave(t *testing.T) { defer netutils.SetupTestNetNS(t)() c, err := libnetwork.New() if err != nil { t.Fatal(err) } err = c.ConfigureNetworkDriver(bridgeNetType, nil) if err != nil { t.Fatal(err) } nb, err := json.Marshal(networkCreate{Name: "network", NetworkType: bridgeNetType}) if err != nil { t.Fatal(err) } vars := map[string]string{urlNwName: "network"} i, errRsp := procCreateNetwork(c, vars, nb) if errRsp != &createdResponse { t.Fatalf("Unexepected failure: %v", errRsp) } nid := i2s(i) vars[urlEpName] = "epoint" eb, err := json.Marshal(endpointCreate{Name: "epoint", NetworkID: nid}) if err != nil { t.Fatal(err) } _, errRsp = procCreateEndpoint(c, vars, eb) if errRsp != &createdResponse { t.Fatalf("Unexepected failure: %v", errRsp) } vbad, err := json.Marshal("bad data") if err != nil { t.Fatal(err) } _, errRsp = procJoinEndpoint(c, vars, vbad) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } bad, err := json.Marshal(endpointJoin{}) if err != nil { t.Fatal(err) } _, errRsp = procJoinEndpoint(c, vars, bad) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } cid := "abcdefghi" jl := endpointJoin{ContainerID: cid} jlb, err := json.Marshal(jl) if err != nil { t.Fatal(err) } vars = make(map[string]string) vars[urlNwName] = "" vars[urlEpName] = "" vars[urlCnID] = cid _, errRsp = procJoinEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlNwName] = "network1" vars[urlEpName] = "" _, errRsp = procJoinEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlNwName] = "network" vars[urlEpName] = "endpoint" _, errRsp = procJoinEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlEpName] = "epoint" delete(vars, urlCnID) _, errRsp = procJoinEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlCnID] = "who?" _, errRsp = procJoinEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlCnID] = cid cdi, errRsp := procJoinEndpoint(c, vars, jlb) if errRsp != &successResponse { t.Fatalf("Unexpected failure, got: %v", errRsp) } cd := i2c(cdi) if cd.SandboxKey == "" { t.Fatalf("Empty sandbox key") } _, errRsp = procDeleteEndpoint(c, vars, nil) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlNwName] = "network2" _, errRsp = procLeaveEndpoint(c, vars, vbad) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } _, errRsp = procLeaveEndpoint(c, vars, bad) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } _, errRsp = procLeaveEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars = make(map[string]string) vars[urlNwName] = "" vars[urlEpName] = "" _, errRsp = procLeaveEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlNwName] = "network" vars[urlEpName] = "" _, errRsp = procLeaveEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlEpName] = "2epoint" _, errRsp = procLeaveEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlEpName] = "epoint" vars[urlCnID] = "who" _, errRsp = procLeaveEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } delete(vars, urlCnID) _, errRsp = procLeaveEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } vars[urlCnID] = cid _, errRsp = procLeaveEndpoint(c, vars, jlb) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } _, errRsp = procLeaveEndpoint(c, vars, jlb) if errRsp == &successResponse { t.Fatalf("Expected failure, got: %v", errRsp) } _, errRsp = procDeleteEndpoint(c, vars, nil) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } } func TestFindEndpointUtil(t *testing.T) { defer netutils.SetupTestNetNS(t)() c, err := libnetwork.New() if err != nil { t.Fatal(err) } err = c.ConfigureNetworkDriver(bridgeNetType, nil) if err != nil { t.Fatal(err) } nw, err := c.NewNetwork(bridgeNetType, "second", nil) if err != nil { t.Fatal(err) } nid := nw.ID() ep, err := nw.CreateEndpoint("secondEp", nil) if err != nil { t.Fatal(err) } eid := ep.ID() defer checkPanic(t) findEndpoint(c, nid, "", byID, -1) _, errRsp := findEndpoint(c, nid, "", byID, byName) if errRsp == &successResponse { t.Fatalf("Expected failure, but got: %v", errRsp) } if errRsp.StatusCode != http.StatusBadRequest { t.Fatalf("Expected %d, but got: %d", http.StatusBadRequest, errRsp.StatusCode) } ep0, errRsp := findEndpoint(c, nid, "secondEp", byID, byName) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } ep1, errRsp := findEndpoint(c, "second", "secondEp", byName, byName) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } ep2, errRsp := findEndpoint(c, nid, eid, byID, byID) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } ep3, errRsp := findEndpoint(c, "second", eid, byName, byID) if errRsp != &successResponse { t.Fatalf("Unexepected failure: %v", errRsp) } if ep0 != ep1 || ep0 != ep2 || ep0 != ep3 { t.Fatalf("Diffenrent queries returned different endpoints") } ep.Delete() _, errRsp = findEndpoint(c, nid, "secondEp", byID, byName) if errRsp == &successResponse { t.Fatalf("Expected failure, but got: %v", errRsp) } if errRsp.StatusCode != http.StatusNotFound { t.Fatalf("Expected %d, but got: %d", http.StatusNotFound, errRsp.StatusCode) } _, errRsp = findEndpoint(c, "second", "secondEp", byName, byName) if errRsp == &successResponse { t.Fatalf("Expected failure, but got: %v", errRsp) } if errRsp.StatusCode != http.StatusNotFound { t.Fatalf("Expected %d, but got: %d", http.StatusNotFound, errRsp.StatusCode) } _, errRsp = findEndpoint(c, nid, eid, byID, byID) if errRsp == &successResponse { t.Fatalf("Expected failure, but got: %v", errRsp) } if errRsp.StatusCode != http.StatusNotFound { t.Fatalf("Expected %d, but got: %d", http.StatusNotFound, errRsp.StatusCode) } _, errRsp = findEndpoint(c, "second", eid, byName, byID) if errRsp == &successResponse { t.Fatalf("Expected failure, but got: %v", errRsp) } if errRsp.StatusCode != http.StatusNotFound { t.Fatalf("Expected %d, but got: %d", http.StatusNotFound, errRsp.StatusCode) } } func checkPanic(t *testing.T) { if r := recover(); r != nil { if _, ok := r.(runtime.Error); ok { panic(r) } } else { t.Fatalf("Expected to panic, but suceeded") } } func TestDetectNetworkTargetPanic(t *testing.T) { defer checkPanic(t) vars := make(map[string]string) detectNetworkTarget(vars) } func TestDetectEndpointTargetPanic(t *testing.T) { defer checkPanic(t) vars := make(map[string]string) detectEndpointTarget(vars) } func TestResponseStatus(t *testing.T) { list := []int{ http.StatusBadGateway, http.StatusBadRequest, http.StatusConflict, http.StatusContinue, http.StatusExpectationFailed, http.StatusForbidden, http.StatusFound, http.StatusGatewayTimeout, http.StatusGone, http.StatusHTTPVersionNotSupported, http.StatusInternalServerError, http.StatusLengthRequired, http.StatusMethodNotAllowed, http.StatusMovedPermanently, http.StatusMultipleChoices, http.StatusNoContent, http.StatusNonAuthoritativeInfo, http.StatusNotAcceptable, http.StatusNotFound, http.StatusNotModified, http.StatusPartialContent, http.StatusPaymentRequired, http.StatusPreconditionFailed, http.StatusProxyAuthRequired, http.StatusRequestEntityTooLarge, http.StatusRequestTimeout, http.StatusRequestURITooLong, http.StatusRequestedRangeNotSatisfiable, http.StatusResetContent, http.StatusServiceUnavailable, http.StatusSwitchingProtocols, http.StatusTemporaryRedirect, http.StatusUnauthorized, http.StatusUnsupportedMediaType, http.StatusUseProxy, } for _, c := range list { r := responseStatus{StatusCode: c} if r.isOK() { t.Fatalf("isOK() returned true for code% d", c) } } r := responseStatus{StatusCode: http.StatusOK} if !r.isOK() { t.Fatalf("isOK() failed") } r = responseStatus{StatusCode: http.StatusCreated} if !r.isOK() { t.Fatalf("isOK() failed") } } // Local structs for end to end testing of api.go type localReader struct { data []byte beBad bool } func newLocalReader(data []byte) *localReader { lr := &localReader{data: make([]byte, len(data))} copy(lr.data, data) return lr } func (l *localReader) Read(p []byte) (n int, err error) { if l.beBad { return 0, errors.New("I am a bad reader") } if p == nil { return -1, fmt.Errorf("nil buffer passed") } if l.data == nil || len(l.data) == 0 { return 0, io.EOF } copy(p[:], l.data[:]) return len(l.data), io.EOF } type localResponseWriter struct { body []byte statusCode int } func newWriter() *localResponseWriter { return &localResponseWriter{} } func (f *localResponseWriter) Header() http.Header { return make(map[string][]string, 0) } func (f *localResponseWriter) Write(data []byte) (int, error) { if data == nil { return -1, fmt.Errorf("nil data passed") } f.body = make([]byte, len(data)) copy(f.body, data) return len(f.body), nil } func (f *localResponseWriter) WriteHeader(c int) { f.statusCode = c } func TestwriteJSON(t *testing.T) { testCode := 55 testData, err := json.Marshal("test data") if err != nil { t.Fatal(err) } rsp := newWriter() writeJSON(rsp, testCode, testData) if rsp.statusCode != testCode { t.Fatalf("writeJSON() failed to set the status code. Expected %d. Got %d", testCode, rsp.statusCode) } if !bytes.Equal(testData, rsp.body) { t.Fatalf("writeJSON() failed to set the body. Expected %s. Got %s", testData, rsp.body) } } func TestHttpHandlerUninit(t *testing.T) { defer netutils.SetupTestNetNS(t)() c, err := libnetwork.New() if err != nil { t.Fatal(err) } h := &httpHandler{c: c} h.initRouter() if h.r == nil { t.Fatalf("initRouter() did not initialize the router") } rsp := newWriter() req, err := http.NewRequest("GET", "/networks", nil) if err != nil { t.Fatal(err) } handleRequest := NewHTTPHandler(nil) handleRequest(rsp, req) if rsp.statusCode != http.StatusServiceUnavailable { t.Fatalf("Expected (%d). Got (%d): %s", http.StatusServiceUnavailable, rsp.statusCode, rsp.body) } handleRequest = NewHTTPHandler(c) handleRequest(rsp, req) if rsp.statusCode != http.StatusOK { t.Fatalf("Unexpectded failure: (%d): %s", rsp.statusCode, rsp.body) } n, err := c.NewNetwork(bridgeNetType, "onenet", nil) if err != nil { t.Fatal(err) } nwr := buildNetworkResource(n) expected, err := json.Marshal([]networkResource{*nwr}) if err != nil { t.Fatal(err) } handleRequest(rsp, req) if rsp.statusCode != http.StatusOK { t.Fatalf("Unexpectded failure: (%d): %s", rsp.statusCode, rsp.body) } if len(rsp.body) == 0 { t.Fatalf("Empty list of networks") } if bytes.Equal(rsp.body, expected) { t.Fatalf("Incorrect list of networks in response's body") } } func TestHttpHandlerBadBody(t *testing.T) { defer netutils.SetupTestNetNS(t)() rsp := newWriter() c, err := libnetwork.New() if err != nil { t.Fatal(err) } handleRequest := NewHTTPHandler(c) req, err := http.NewRequest("POST", "/networks/name/zero-network", &localReader{beBad: true}) if err != nil { t.Fatal(err) } handleRequest(rsp, req) if rsp.statusCode != http.StatusBadRequest { t.Fatalf("Unexpected status code. Expected (%d). Got (%d): %s.", http.StatusBadRequest, rsp.statusCode, string(rsp.body)) } body := []byte{} lr := newLocalReader(body) req, err = http.NewRequest("POST", "/networks/name/zero-network", lr) if err != nil { t.Fatal(err) } handleRequest(rsp, req) if rsp.statusCode != http.StatusBadRequest { t.Fatalf("Unexpected status code. Expected (%d). Got (%d): %s.", http.StatusBadRequest, rsp.statusCode, string(rsp.body)) } } func TestHttpHandlerGood(t *testing.T) { defer netutils.SetupTestNetNS(t)() rsp := newWriter() c, err := libnetwork.New() if err != nil { t.Fatal(err) } handleRequest := NewHTTPHandler(c) nc := networkCreate{Name: "zero-network", NetworkType: bridgeNetType} body, err := json.Marshal(nc) if err != nil { t.Fatal(err) } lr := newLocalReader(body) req, err := http.NewRequest("POST", "/networks/name/zero-network", lr) if err != nil { t.Fatal(err) } handleRequest(rsp, req) if rsp.statusCode != http.StatusCreated { t.Fatalf("Unexpectded status code. Expected (%d). Got (%d): %s.", http.StatusCreated, rsp.statusCode, string(rsp.body)) } if len(rsp.body) == 0 { t.Fatalf("Empty response body") } var id string err = json.Unmarshal(rsp.body, &id) if err != nil { t.Fatal(err) } req, err = http.NewRequest("GET", "/networks/id/"+id, nil) if err != nil { t.Fatal(err) } handleRequest(rsp, req) if rsp.statusCode != http.StatusOK { t.Fatalf("Unexpectded failure: (%d): %s", rsp.statusCode, rsp.body) } var nwr networkResource err = json.Unmarshal(rsp.body, &nwr) if err != nil { t.Fatal(err) } if nwr.Name != "zero-network" || id != nwr.ID { t.Fatalf("Incongruent resource found") } } type bre struct{} func (b *bre) Error() string { return "I am a bad request error" } func (b *bre) BadRequest() {} type nfe struct{} func (n *nfe) Error() string { return "I am a not found error" } func (n *nfe) NotFound() {} type forb struct{} func (f *forb) Error() string { return "I am a bad request error" } func (f *forb) Forbidden() {} type notimpl struct{} func (nip *notimpl) Error() string { return "I am a not implemented error" } func (nip *notimpl) NotImplemented() {} type inter struct{} func (it *inter) Error() string { return "I am a internal error" } func (it *inter) Internal() {} type tout struct{} func (to *tout) Error() string { return "I am a timeout error" } func (to *tout) Timeout() {} type noserv struct{} func (nos *noserv) Error() string { return "I am a no service error" } func (nos *noserv) NoService() {} type notclassified struct{} func (noc *notclassified) Error() string { return "I am a non classified error" } func TestErrorConversion(t *testing.T) { if convertNetworkError(new(bre)).StatusCode != http.StatusBadRequest { t.Fatalf("Failed to recognize BadRequest error") } if convertNetworkError(new(nfe)).StatusCode != http.StatusNotFound { t.Fatalf("Failed to recognize NotFound error") } if convertNetworkError(new(forb)).StatusCode != http.StatusForbidden { t.Fatalf("Failed to recognize Forbidden error") } if convertNetworkError(new(notimpl)).StatusCode != http.StatusNotImplemented { t.Fatalf("Failed to recognize NotImplemented error") } if convertNetworkError(new(inter)).StatusCode != http.StatusInternalServerError { t.Fatalf("Failed to recognize Internal error") } if convertNetworkError(new(tout)).StatusCode != http.StatusRequestTimeout { t.Fatalf("Failed to recognize Timeout error") } if convertNetworkError(new(noserv)).StatusCode != http.StatusServiceUnavailable { t.Fatalf("Failed to recognize No Service error") } if convertNetworkError(new(notclassified)).StatusCode != http.StatusInternalServerError { t.Fatalf("Failed to recognize not classified error as Internal error") } }