func TestMapRouteWhenBinding(t *testing.T) { domain := cf.Domain{} domain.Guid = "my-domain-guid" domain.Name = "example.com" route := cf.Route{} route.Guid = "my-route-guid" route.Host = "foo" route.Domain = domain.DomainFields app := cf.Application{} app.Guid = "my-app-guid" app.Name = "my-app" routeRepo := &testapi.FakeRouteRepository{} reqFactory := &testreq.FakeReqFactory{LoginSuccess: true, Application: app, Domain: domain} routeCreator := &testcmd.FakeRouteCreator{ReservedRoute: route} ui := callMapRoute(t, []string{"-n", "my-host", "my-app", "my-domain.com"}, reqFactory, routeRepo, routeCreator) testassert.SliceContains(t, ui.Outputs, testassert.Lines{ {"Adding route", "foo.example.com", "my-app", "my-org", "my-space", "my-user"}, {"OK"}, }) assert.Equal(t, routeRepo.BoundRouteGuid, "my-route-guid") assert.Equal(t, routeRepo.BoundAppGuid, "my-app-guid") }
func TestDeleteRouteWithConfirmation(t *testing.T) { domain := cf.DomainFields{} domain.Guid = "domain-guid" domain.Name = "example.com" reqFactory := &testreq.FakeReqFactory{LoginSuccess: true} route := cf.Route{} route.Guid = "route-guid" route.Host = "my-host" route.Domain = domain routeRepo := &testapi.FakeRouteRepository{ FindByHostAndDomainRoute: route, } ui := callDeleteRoute(t, "y", []string{"-n", "my-host", "example.com"}, reqFactory, routeRepo) testassert.SliceContains(t, ui.Prompts, testassert.Lines{ {"Really delete", "my-host"}, }) testassert.SliceContains(t, ui.Outputs, testassert.Lines{ {"Deleting route", "my-host.example.com"}, {"OK"}, }) assert.Equal(t, routeRepo.DeleteRouteGuid, "route-guid") }
func TestPushingAppWhenItDoesNotExistButRouteExists(t *testing.T) { deps := getPushDependencies() domain := cf.Domain{} domain.Name = "foo.cf-app.com" domain.Guid = "foo-domain-guid" domain.Shared = true route := cf.Route{} route.Guid = "my-route-guid" route.Host = "my-new-app" route.Domain = domain.DomainFields deps.domainRepo.ListSharedDomainsDomains = []cf.Domain{domain} deps.routeRepo.FindByHostAndDomainRoute = route deps.appRepo.ReadNotFound = true ui := callPush(t, []string{"my-new-app"}, deps) assert.Empty(t, deps.routeRepo.CreatedHost) assert.Empty(t, deps.routeRepo.CreatedDomainGuid) assert.Equal(t, deps.routeRepo.FindByHostAndDomainHost, "my-new-app") assert.Equal(t, deps.routeRepo.BoundAppGuid, "my-new-app-guid") assert.Equal(t, deps.routeRepo.BoundRouteGuid, "my-route-guid") testassert.SliceContains(t, ui.Outputs, testassert.Lines{ {"Using", "my-new-app.foo.cf-app.com"}, {"Binding", "my-new-app.foo.cf-app.com"}, {"OK"}, }) }
func TestListingRoutes(t *testing.T) { domain := cf.DomainFields{} domain.Name = "example.com" domain2 := cf.DomainFields{} domain2.Name = "cfapps.com" domain3 := cf.DomainFields{} domain3.Name = "another-example.com" app1 := cf.ApplicationFields{} app1.Name = "dora" app2 := cf.ApplicationFields{} app2.Name = "dora2" app3 := cf.ApplicationFields{} app3.Name = "my-app" app4 := cf.ApplicationFields{} app4.Name = "my-app2" app5 := cf.ApplicationFields{} app5.Name = "july" route := cf.Route{} route.Host = "hostname-1" route.Domain = domain route.Apps = []cf.ApplicationFields{app1, app2} route2 := cf.Route{} route2.Host = "hostname-2" route2.Domain = domain2 route2.Apps = []cf.ApplicationFields{app3, app4} route3 := cf.Route{} route3.Host = "hostname-3" route3.Domain = domain3 route3.Apps = []cf.ApplicationFields{app5} routes := []cf.Route{route, route2, route3} routeRepo := &testapi.FakeRouteRepository{Routes: routes} ui := callListRoutes(t, []string{}, &testreq.FakeReqFactory{}, routeRepo) testassert.SliceContains(t, ui.Outputs, testassert.Lines{ {"Getting routes", "my-user"}, {"host", "domain", "apps"}, {"hostname-1", "example.com", "dora", "dora2"}, {"hostname-2", "cfapps.com", "my-app", "my-app2"}, {"hostname-3", "another-example.com", "july"}, }) }
func (repo CloudControllerApplicationRepository) FindByName(name string) (app cf.Application, apiErr *net.ApiError) { path := fmt.Sprintf("%s/v2/spaces/%s/apps?q=name%s&inline-relations-depth=1", repo.config.Target, repo.config.Space.Guid, "%3A"+name) request, apiErr := repo.gateway.NewRequest("GET", path, repo.config.AccessToken, nil) if apiErr != nil { return } findResponse := new(ApplicationsApiResponse) apiErr = repo.gateway.PerformRequestForJSONResponse(request, findResponse) if apiErr != nil { return } if len(findResponse.Resources) == 0 { apiErr = net.NewApiErrorWithMessage(fmt.Sprintf("Application %s not found", name)) return } res := findResponse.Resources[0] path = fmt.Sprintf("%s/v2/apps/%s/summary", repo.config.Target, res.Metadata.Guid) request, apiErr = repo.gateway.NewRequest("GET", path, repo.config.AccessToken, nil) if apiErr != nil { return } summaryResponse := new(ApplicationSummary) apiErr = repo.gateway.PerformRequestForJSONResponse(request, summaryResponse) if apiErr != nil { return } urls := []string{} // This is a little wonky but we made a concious effort // to keep the domain very separate from the API repsonses // to maintain flexibility. domainRoute := cf.Route{} for _, route := range summaryResponse.Routes { domainRoute.Domain = cf.Domain{Name: route.Domain.Name} domainRoute.Host = route.Host urls = append(urls, domainRoute.URL()) } app = cf.Application{ Name: summaryResponse.Name, Guid: summaryResponse.Guid, Instances: summaryResponse.Instances, RunningInstances: summaryResponse.RunningInstances, Memory: summaryResponse.Memory, EnvironmentVars: res.Entity.EnvironmentJson, Urls: urls, State: strings.ToLower(summaryResponse.State), } return }
func (repo CloudControllerApplicationRepository) FindByName(name string) (app cf.Application, err error) { path := fmt.Sprintf("%s/v2/spaces/%s/apps?q=name%s&inline-relations-depth=1", repo.config.Target, repo.config.Space.Guid, "%3A"+name) request, err := NewRequest("GET", path, repo.config.AccessToken, nil) if err != nil { return } findResponse := new(ApplicationsApiResponse) _, err = repo.apiClient.PerformRequestAndParseResponse(request, findResponse) if err != nil { return } if len(findResponse.Resources) == 0 { err = errors.New(fmt.Sprintf("Application %s not found", name)) return } res := findResponse.Resources[0] path = fmt.Sprintf("%s/v2/apps/%s/summary", repo.config.Target, res.Metadata.Guid) request, err = NewRequest("GET", path, repo.config.AccessToken, nil) if err != nil { return } summaryResponse := new(ApplicationSummary) _, err = repo.apiClient.PerformRequestAndParseResponse(request, summaryResponse) if err != nil { return } urls := []string{} // This is a little wonky but we made a concious effort // to keep the domain very separate from the API repsonses // to maintain flexibility. domainRoute := cf.Route{} for _, route := range summaryResponse.Routes { domainRoute.Domain = cf.Domain{Name: route.Domain.Name} domainRoute.Host = route.Host urls = append(urls, domainRoute.URL()) } app = cf.Application{ Name: summaryResponse.Name, Guid: summaryResponse.Guid, Instances: summaryResponse.Instances, Memory: summaryResponse.Memory, Urls: urls, } return }
func TestMapRouteWhenRouteNotReserved(t *testing.T) { domain := cf.DomainFields{} domain.Name = "my-domain.com" route := cf.Route{} route.Guid = "my-app-guid" route.Host = "my-host" route.Domain = domain app := cf.Application{} app.Guid = "my-app-guid" app.Name = "my-app" routeRepo := &testapi.FakeRouteRepository{} reqFactory := &testreq.FakeReqFactory{LoginSuccess: true, Application: app} routeCreator := &testcmd.FakeRouteCreator{ReservedRoute: route} callMapRoute(t, []string{"-n", "my-host", "my-app", "my-domain.com"}, reqFactory, routeRepo, routeCreator) assert.Equal(t, routeCreator.ReservedRoute, route) }
func TestRouteCreator(t *testing.T) { space := cf.SpaceFields{} space.Guid = "my-space-guid" space.Name = "my-space" domain := cf.DomainFields{} domain.Guid = "domain-guid" domain.Name = "example.com" createdRoute := cf.Route{} createdRoute.Host = "my-host" createdRoute.Guid = "my-route-guid" routeRepo := &testapi.FakeRouteRepository{ CreateInSpaceCreatedRoute: createdRoute, } ui := new(testterm.FakeUI) token, err := testconfig.CreateAccessTokenWithTokenInfo(configuration.TokenInfo{ Username: "******", }) assert.NoError(t, err) org := cf.OrganizationFields{} org.Name = "my-org" config := &configuration.Configuration{ OrganizationFields: org, AccessToken: token, } cmd := NewCreateRoute(ui, config, routeRepo) route, apiResponse := cmd.CreateRoute("my-host", domain, space) assert.Equal(t, route.Guid, createdRoute.Guid) assert.True(t, apiResponse.IsSuccessful()) testassert.SliceContains(t, ui.Outputs, testassert.Lines{ {"Creating route", "my-host.example.com", "my-org", "my-space", "my-user"}, {"OK"}, }) assert.Equal(t, routeRepo.CreateInSpaceHost, "my-host") assert.Equal(t, routeRepo.CreateInSpaceDomainGuid, "domain-guid") assert.Equal(t, routeRepo.CreateInSpaceSpaceGuid, "my-space-guid") }
func TestCreateRouteIsIdempotent(t *testing.T) { space := cf.SpaceFields{} space.Guid = "my-space-guid" space.Name = "my-space" domain := cf.DomainFields{} domain.Guid = "domain-guid" domain.Name = "example.com" reqFactory := &testreq.FakeReqFactory{ LoginSuccess: true, TargetedOrgSuccess: true, Domain: cf.Domain{DomainFields: domain}, Space: cf.Space{SpaceFields: space}, } route := cf.Route{} route.Guid = "my-route-guid" route.Host = "host" route.Domain = domain route.Space = space routeRepo := &testapi.FakeRouteRepository{ CreateInSpaceErr: true, FindByHostAndDomainRoute: route, } ui := callCreateRoute(t, []string{"-n", "host", "my-space", "example.com"}, reqFactory, routeRepo) testassert.SliceContains(t, ui.Outputs, testassert.Lines{ {"Creating route"}, {"OK"}, {"host.example.com", "already exists"}, }) assert.Equal(t, routeRepo.CreateInSpaceHost, "host") assert.Equal(t, routeRepo.CreateInSpaceDomainGuid, "domain-guid") assert.Equal(t, routeRepo.CreateInSpaceSpaceGuid, "my-space-guid") }