func TestCreateWithOptionalFields(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/networks", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "POST") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) th.TestHeader(t, r, "Content-Type", "application/json") th.TestHeader(t, r, "Accept", "application/json") th.TestJSONRequest(t, r, ` { "network": { "name": "sample_network", "admin_state_up": true, "shared": true, "tenant_id": "12345" } } `) w.WriteHeader(http.StatusCreated) }) iTrue := true options := os.CreateOpts{Name: "sample_network", AdminStateUp: &iTrue, Shared: &iTrue, TenantID: "12345"} _, err := Create(fake.ServiceClient(), options).Extract() th.AssertNoErr(t, err) }
func TestRequiredCreateOpts(t *testing.T) { res := Create(fake.ServiceClient(), os.CreateOpts{}) if res.Err == nil { t.Fatalf("Expected error, got none") } res = Create(fake.ServiceClient(), os.CreateOpts{NetworkID: "foo"}) if res.Err == nil { t.Fatalf("Expected error, got none") } res = Create(fake.ServiceClient(), os.CreateOpts{NetworkID: "foo", CIDR: "bar", IPVersion: 40}) if res.Err == nil { t.Fatalf("Expected error, got none") } }
func TestUpdate(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/subnets/08eae331-0402-425a-923c-34f7cfe39c1b", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "PUT") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) th.TestHeader(t, r, "Content-Type", "application/json") th.TestHeader(t, r, "Accept", "application/json") th.TestJSONRequest(t, r, ` { "subnet": { "name": "my_new_subnet", "dns_nameservers": ["foo"], "host_routes": [{"destination":"","nexthop": "bar"}] } } `) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusCreated) fmt.Fprintf(w, ` { "subnet": { "name": "my_new_subnet", "enable_dhcp": true, "network_id": "db193ab3-96e3-4cb3-8fc5-05f4296d0324", "tenant_id": "26a7980765d0414dbc1fc1f88cdb7e6e", "dns_nameservers": [], "allocation_pools": [ { "start": "10.0.0.2", "end": "10.0.0.254" } ], "host_routes": [], "ip_version": 4, "gateway_ip": "10.0.0.1", "cidr": "10.0.0.0/24", "id": "08eae331-0402-425a-923c-34f7cfe39c1b" } } `) }) opts := os.UpdateOpts{ Name: "my_new_subnet", DNSNameservers: []string{"foo"}, HostRoutes: []os.HostRoute{ os.HostRoute{NextHop: "bar"}, }, } s, err := Update(fake.ServiceClient(), "08eae331-0402-425a-923c-34f7cfe39c1b", opts).Extract() th.AssertNoErr(t, err) th.AssertEquals(t, s.Name, "my_new_subnet") th.AssertEquals(t, s.ID, "08eae331-0402-425a-923c-34f7cfe39c1b") }
func TestGet(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/subnets/54d6f61d-db07-451c-9ab3-b9609b6b6f0b", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "GET") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusOK) fmt.Fprintf(w, ` { "subnet": { "name": "my_subnet", "enable_dhcp": true, "network_id": "d32019d3-bc6e-4319-9c1d-6722fc136a22", "tenant_id": "4fd44f30292945e481c7b8a0c8908869", "dns_nameservers": [], "allocation_pools": [ { "start": "192.0.0.2", "end": "192.255.255.254" } ], "host_routes": [], "ip_version": 4, "gateway_ip": "192.0.0.1", "cidr": "192.0.0.0/8", "id": "54d6f61d-db07-451c-9ab3-b9609b6b6f0b" } } `) }) s, err := Get(fake.ServiceClient(), "54d6f61d-db07-451c-9ab3-b9609b6b6f0b").Extract() th.AssertNoErr(t, err) th.AssertEquals(t, s.Name, "my_subnet") th.AssertEquals(t, s.EnableDHCP, true) th.AssertEquals(t, s.NetworkID, "d32019d3-bc6e-4319-9c1d-6722fc136a22") th.AssertEquals(t, s.TenantID, "4fd44f30292945e481c7b8a0c8908869") th.AssertDeepEquals(t, s.DNSNameservers, []string{}) th.AssertDeepEquals(t, s.AllocationPools, []os.AllocationPool{ os.AllocationPool{ Start: "192.0.0.2", End: "192.255.255.254", }, }) th.AssertDeepEquals(t, s.HostRoutes, []os.HostRoute{}) th.AssertEquals(t, s.IPVersion, 4) th.AssertEquals(t, s.GatewayIP, "192.0.0.1") th.AssertEquals(t, s.CIDR, "192.0.0.0/8") th.AssertEquals(t, s.ID, "54d6f61d-db07-451c-9ab3-b9609b6b6f0b") }
func TestGet(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/ports/46d4bfb9-b26e-41f3-bd2e-e6dcc1ccedb2", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "GET") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusOK) fmt.Fprintf(w, ` { "port": { "status": "ACTIVE", "name": "", "admin_state_up": true, "network_id": "a87cc70a-3e15-4acf-8205-9b711a3531b7", "tenant_id": "7e02058126cc4950b75f9970368ba177", "device_owner": "network:router_interface", "mac_address": "fa:16:3e:23:fd:d7", "fixed_ips": [ { "subnet_id": "a0304c3a-4f08-4c43-88af-d796509c97d2", "ip_address": "10.0.0.1" } ], "id": "46d4bfb9-b26e-41f3-bd2e-e6dcc1ccedb2", "security_groups": [], "device_id": "5e3898d7-11be-483e-9732-b2f5eccd2b2e" } } `) }) n, err := Get(fake.ServiceClient(), "46d4bfb9-b26e-41f3-bd2e-e6dcc1ccedb2").Extract() th.AssertNoErr(t, err) th.AssertEquals(t, n.Status, "ACTIVE") th.AssertEquals(t, n.Name, "") th.AssertEquals(t, n.AdminStateUp, true) th.AssertEquals(t, n.NetworkID, "a87cc70a-3e15-4acf-8205-9b711a3531b7") th.AssertEquals(t, n.TenantID, "7e02058126cc4950b75f9970368ba177") th.AssertEquals(t, n.DeviceOwner, "network:router_interface") th.AssertEquals(t, n.MACAddress, "fa:16:3e:23:fd:d7") th.AssertDeepEquals(t, n.FixedIPs, []os.IP{ os.IP{SubnetID: "a0304c3a-4f08-4c43-88af-d796509c97d2", IPAddress: "10.0.0.1"}, }) th.AssertEquals(t, n.ID, "46d4bfb9-b26e-41f3-bd2e-e6dcc1ccedb2") th.AssertDeepEquals(t, n.SecurityGroups, []string{}) th.AssertEquals(t, n.Status, "ACTIVE") th.AssertEquals(t, n.DeviceID, "5e3898d7-11be-483e-9732-b2f5eccd2b2e") }
func TestDelete(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/ports/65c0ee9f-d634-4522-8954-51021b570b0d", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "DELETE") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) w.WriteHeader(http.StatusNoContent) }) res := Delete(fake.ServiceClient(), "65c0ee9f-d634-4522-8954-51021b570b0d") th.AssertNoErr(t, res.Err) }
func TestDelete(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/networks/4e8e5957-649f-477b-9e5b-f1f75b21c03c", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "DELETE") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) w.WriteHeader(http.StatusNoContent) }) res := Delete(fake.ServiceClient(), "4e8e5957-649f-477b-9e5b-f1f75b21c03c") th.AssertNoErr(t, res.Err) }
func TestDelete(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/subnets/08eae331-0402-425a-923c-34f7cfe39c1b", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "DELETE") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) w.WriteHeader(http.StatusNoContent) }) res := Delete(fake.ServiceClient(), "08eae331-0402-425a-923c-34f7cfe39c1b") th.AssertNoErr(t, res.Err) }
func TestCreate(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/networks", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "POST") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) th.TestHeader(t, r, "Content-Type", "application/json") th.TestHeader(t, r, "Accept", "application/json") th.TestJSONRequest(t, r, ` { "network": { "name": "sample_network", "admin_state_up": true } } `) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusCreated) fmt.Fprintf(w, ` { "network": { "status": "ACTIVE", "subnets": [], "name": "net1", "admin_state_up": true, "tenant_id": "9bacb3c5d39d41a79512987f338cf177", "shared": false, "id": "4e8e5957-649f-477b-9e5b-f1f75b21c03c" } } `) }) iTrue := true options := os.CreateOpts{Name: "sample_network", AdminStateUp: &iTrue} n, err := Create(fake.ServiceClient(), options).Extract() th.AssertNoErr(t, err) th.AssertEquals(t, n.Status, "ACTIVE") th.AssertDeepEquals(t, n.Subnets, []string{}) th.AssertEquals(t, n.Name, "net1") th.AssertEquals(t, n.AdminStateUp, true) th.AssertEquals(t, n.TenantID, "9bacb3c5d39d41a79512987f338cf177") th.AssertEquals(t, n.Shared, false) th.AssertEquals(t, n.ID, "4e8e5957-649f-477b-9e5b-f1f75b21c03c") }
func TestUpdate(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/networks/4e8e5957-649f-477b-9e5b-f1f75b21c03c", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "PUT") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) th.TestHeader(t, r, "Content-Type", "application/json") th.TestHeader(t, r, "Accept", "application/json") th.TestJSONRequest(t, r, ` { "network": { "name": "new_network_name", "admin_state_up": false, "shared": true } } `) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusOK) fmt.Fprintf(w, ` { "network": { "status": "ACTIVE", "subnets": [], "name": "new_network_name", "admin_state_up": false, "tenant_id": "4fd44f30292945e481c7b8a0c8908869", "shared": true, "id": "4e8e5957-649f-477b-9e5b-f1f75b21c03c" } } `) }) iTrue := true options := os.UpdateOpts{Name: "new_network_name", AdminStateUp: os.Down, Shared: &iTrue} n, err := Update(fake.ServiceClient(), "4e8e5957-649f-477b-9e5b-f1f75b21c03c", options).Extract() th.AssertNoErr(t, err) th.AssertEquals(t, n.Name, "new_network_name") th.AssertEquals(t, n.AdminStateUp, false) th.AssertEquals(t, n.Shared, true) th.AssertEquals(t, n.ID, "4e8e5957-649f-477b-9e5b-f1f75b21c03c") }
func TestGet(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/networks/d32019d3-bc6e-4319-9c1d-6722fc136a22", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "GET") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusOK) fmt.Fprintf(w, ` { "network": { "status": "ACTIVE", "subnets": [ "54d6f61d-db07-451c-9ab3-b9609b6b6f0b" ], "name": "private-network", "admin_state_up": true, "tenant_id": "4fd44f30292945e481c7b8a0c8908869", "shared": true, "id": "d32019d3-bc6e-4319-9c1d-6722fc136a22" } } `) }) n, err := Get(fake.ServiceClient(), "d32019d3-bc6e-4319-9c1d-6722fc136a22").Extract() th.AssertNoErr(t, err) th.AssertEquals(t, n.Status, "ACTIVE") th.AssertDeepEquals(t, n.Subnets, []string{"54d6f61d-db07-451c-9ab3-b9609b6b6f0b"}) th.AssertEquals(t, n.Name, "private-network") th.AssertEquals(t, n.AdminStateUp, true) th.AssertEquals(t, n.TenantID, "4fd44f30292945e481c7b8a0c8908869") th.AssertEquals(t, n.Shared, true) th.AssertEquals(t, n.ID, "d32019d3-bc6e-4319-9c1d-6722fc136a22") }
func TestList(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/ports", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "GET") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusOK) fmt.Fprintf(w, ` { "ports": [ { "status": "ACTIVE", "binding:host_id": "devstack", "name": "", "admin_state_up": true, "network_id": "70c1db1f-b701-45bd-96e0-a313ee3430b3", "tenant_id": "", "device_owner": "network:router_gateway", "mac_address": "fa:16:3e:58:42:ed", "fixed_ips": [ { "subnet_id": "008ba151-0b8c-4a67-98b5-0d2b87666062", "ip_address": "172.24.4.2" } ], "id": "d80b1a3b-4fc1-49f3-952e-1e2ab7081d8b", "security_groups": [], "device_id": "9ae135f4-b6e0-4dad-9e91-3c223e385824" } ] } `) }) count := 0 List(fake.ServiceClient(), os.ListOpts{}).EachPage(func(page pagination.Page) (bool, error) { count++ actual, err := os.ExtractPorts(page) if err != nil { t.Errorf("Failed to extract subnets: %v", err) return false, nil } expected := []os.Port{ os.Port{ Status: "ACTIVE", Name: "", AdminStateUp: true, NetworkID: "70c1db1f-b701-45bd-96e0-a313ee3430b3", TenantID: "", DeviceOwner: "network:router_gateway", MACAddress: "fa:16:3e:58:42:ed", FixedIPs: []os.IP{ os.IP{ SubnetID: "008ba151-0b8c-4a67-98b5-0d2b87666062", IPAddress: "172.24.4.2", }, }, ID: "d80b1a3b-4fc1-49f3-952e-1e2ab7081d8b", SecurityGroups: []string{}, DeviceID: "9ae135f4-b6e0-4dad-9e91-3c223e385824", }, } th.CheckDeepEquals(t, expected, actual) return true, nil }) if count != 1 { t.Errorf("Expected 1 page, got %d", count) } }
func TestUpdate(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/ports/65c0ee9f-d634-4522-8954-51021b570b0d", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "PUT") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) th.TestHeader(t, r, "Content-Type", "application/json") th.TestHeader(t, r, "Accept", "application/json") th.TestJSONRequest(t, r, ` { "port": { "name": "new_port_name", "fixed_ips": [ { "subnet_id": "a0304c3a-4f08-4c43-88af-d796509c97d2", "ip_address": "10.0.0.3" } ], "security_groups": [ "f0ac4394-7e4a-4409-9701-ba8be283dbc3" ] } } `) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusOK) fmt.Fprintf(w, ` { "port": { "status": "DOWN", "name": "new_port_name", "admin_state_up": true, "network_id": "a87cc70a-3e15-4acf-8205-9b711a3531b7", "tenant_id": "d6700c0c9ffa4f1cb322cd4a1f3906fa", "device_owner": "", "mac_address": "fa:16:3e:c9:cb:f0", "fixed_ips": [ { "subnet_id": "a0304c3a-4f08-4c43-88af-d796509c97d2", "ip_address": "10.0.0.3" } ], "id": "65c0ee9f-d634-4522-8954-51021b570b0d", "security_groups": [ "f0ac4394-7e4a-4409-9701-ba8be283dbc3" ], "device_id": "" } } `) }) options := os.UpdateOpts{ Name: "new_port_name", FixedIPs: []os.IP{ os.IP{SubnetID: "a0304c3a-4f08-4c43-88af-d796509c97d2", IPAddress: "10.0.0.3"}, }, SecurityGroups: []string{"f0ac4394-7e4a-4409-9701-ba8be283dbc3"}, } s, err := Update(fake.ServiceClient(), "65c0ee9f-d634-4522-8954-51021b570b0d", options).Extract() th.AssertNoErr(t, err) th.AssertEquals(t, s.Name, "new_port_name") th.AssertDeepEquals(t, s.FixedIPs, []os.IP{ os.IP{SubnetID: "a0304c3a-4f08-4c43-88af-d796509c97d2", IPAddress: "10.0.0.3"}, }) th.AssertDeepEquals(t, s.SecurityGroups, []string{"f0ac4394-7e4a-4409-9701-ba8be283dbc3"}) }
func TestList(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/subnets", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "GET") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusOK) fmt.Fprintf(w, ` { "subnets": [ { "name": "private-subnet", "enable_dhcp": true, "network_id": "db193ab3-96e3-4cb3-8fc5-05f4296d0324", "tenant_id": "26a7980765d0414dbc1fc1f88cdb7e6e", "dns_nameservers": [], "allocation_pools": [ { "start": "10.0.0.2", "end": "10.0.0.254" } ], "host_routes": [], "ip_version": 4, "gateway_ip": "10.0.0.1", "cidr": "10.0.0.0/24", "id": "08eae331-0402-425a-923c-34f7cfe39c1b" }, { "name": "my_subnet", "enable_dhcp": true, "network_id": "d32019d3-bc6e-4319-9c1d-6722fc136a22", "tenant_id": "4fd44f30292945e481c7b8a0c8908869", "dns_nameservers": [], "allocation_pools": [ { "start": "192.0.0.2", "end": "192.255.255.254" } ], "host_routes": [], "ip_version": 4, "gateway_ip": "192.0.0.1", "cidr": "192.0.0.0/8", "id": "54d6f61d-db07-451c-9ab3-b9609b6b6f0b" } ] } `) }) count := 0 List(fake.ServiceClient(), os.ListOpts{}).EachPage(func(page pagination.Page) (bool, error) { count++ actual, err := os.ExtractSubnets(page) if err != nil { t.Errorf("Failed to extract subnets: %v", err) return false, nil } expected := []os.Subnet{ os.Subnet{ Name: "private-subnet", EnableDHCP: true, NetworkID: "db193ab3-96e3-4cb3-8fc5-05f4296d0324", TenantID: "26a7980765d0414dbc1fc1f88cdb7e6e", DNSNameservers: []string{}, AllocationPools: []os.AllocationPool{ os.AllocationPool{ Start: "10.0.0.2", End: "10.0.0.254", }, }, HostRoutes: []os.HostRoute{}, IPVersion: 4, GatewayIP: "10.0.0.1", CIDR: "10.0.0.0/24", ID: "08eae331-0402-425a-923c-34f7cfe39c1b", }, os.Subnet{ Name: "my_subnet", EnableDHCP: true, NetworkID: "d32019d3-bc6e-4319-9c1d-6722fc136a22", TenantID: "4fd44f30292945e481c7b8a0c8908869", DNSNameservers: []string{}, AllocationPools: []os.AllocationPool{ os.AllocationPool{ Start: "192.0.0.2", End: "192.255.255.254", }, }, HostRoutes: []os.HostRoute{}, IPVersion: 4, GatewayIP: "192.0.0.1", CIDR: "192.0.0.0/8", ID: "54d6f61d-db07-451c-9ab3-b9609b6b6f0b", }, } th.CheckDeepEquals(t, expected, actual) return true, nil }) if count != 1 { t.Errorf("Expected 1 page, got %d", count) } }
func TestCreate(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/subnets", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "POST") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) th.TestHeader(t, r, "Content-Type", "application/json") th.TestHeader(t, r, "Accept", "application/json") th.TestJSONRequest(t, r, ` { "subnet": { "network_id": "d32019d3-bc6e-4319-9c1d-6722fc136a22", "ip_version": 4, "cidr": "192.168.199.0/24", "dns_nameservers": ["foo"], "allocation_pools": [ { "start": "192.168.199.2", "end": "192.168.199.254" } ], "host_routes": [{"destination":"","nexthop": "bar"}] } } `) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusCreated) fmt.Fprintf(w, ` { "subnet": { "name": "", "enable_dhcp": true, "network_id": "d32019d3-bc6e-4319-9c1d-6722fc136a22", "tenant_id": "4fd44f30292945e481c7b8a0c8908869", "dns_nameservers": [], "allocation_pools": [ { "start": "192.168.199.2", "end": "192.168.199.254" } ], "host_routes": [], "ip_version": 4, "gateway_ip": "192.168.199.1", "cidr": "192.168.199.0/24", "id": "3b80198d-4f7b-4f77-9ef5-774d54e17126" } } `) }) opts := os.CreateOpts{ NetworkID: "d32019d3-bc6e-4319-9c1d-6722fc136a22", IPVersion: 4, CIDR: "192.168.199.0/24", AllocationPools: []os.AllocationPool{ os.AllocationPool{ Start: "192.168.199.2", End: "192.168.199.254", }, }, DNSNameservers: []string{"foo"}, HostRoutes: []os.HostRoute{ os.HostRoute{NextHop: "bar"}, }, } s, err := Create(fake.ServiceClient(), opts).Extract() th.AssertNoErr(t, err) th.AssertEquals(t, s.Name, "") th.AssertEquals(t, s.EnableDHCP, true) th.AssertEquals(t, s.NetworkID, "d32019d3-bc6e-4319-9c1d-6722fc136a22") th.AssertEquals(t, s.TenantID, "4fd44f30292945e481c7b8a0c8908869") th.AssertDeepEquals(t, s.DNSNameservers, []string{}) th.AssertDeepEquals(t, s.AllocationPools, []os.AllocationPool{ os.AllocationPool{ Start: "192.168.199.2", End: "192.168.199.254", }, }) th.AssertDeepEquals(t, s.HostRoutes, []os.HostRoute{}) th.AssertEquals(t, s.IPVersion, 4) th.AssertEquals(t, s.GatewayIP, "192.168.199.1") th.AssertEquals(t, s.CIDR, "192.168.199.0/24") th.AssertEquals(t, s.ID, "3b80198d-4f7b-4f77-9ef5-774d54e17126") }
func TestRequiredCreateOpts(t *testing.T) { res := Create(fake.ServiceClient(), os.CreateOpts{}) if res.Err == nil { t.Fatalf("Expected error, got none") } }
func TestList(t *testing.T) { th.SetupHTTP() defer th.TeardownHTTP() th.Mux.HandleFunc("/networks", func(w http.ResponseWriter, r *http.Request) { th.TestMethod(t, r, "GET") th.TestHeader(t, r, "X-Auth-Token", fake.TokenID) w.Header().Add("Content-Type", "application/json") w.WriteHeader(http.StatusOK) fmt.Fprintf(w, ` { "networks": [ { "status": "ACTIVE", "subnets": [ "54d6f61d-db07-451c-9ab3-b9609b6b6f0b" ], "name": "private-network", "admin_state_up": true, "tenant_id": "4fd44f30292945e481c7b8a0c8908869", "shared": true, "id": "d32019d3-bc6e-4319-9c1d-6722fc136a22" }, { "status": "ACTIVE", "subnets": [ "08eae331-0402-425a-923c-34f7cfe39c1b" ], "name": "private", "admin_state_up": true, "tenant_id": "26a7980765d0414dbc1fc1f88cdb7e6e", "shared": true, "id": "db193ab3-96e3-4cb3-8fc5-05f4296d0324" } ] } `) }) client := fake.ServiceClient() count := 0 List(client, os.ListOpts{}).EachPage(func(page pagination.Page) (bool, error) { count++ actual, err := os.ExtractNetworks(page) if err != nil { t.Errorf("Failed to extract networks: %v", err) return false, err } expected := []os.Network{ os.Network{ Status: "ACTIVE", Subnets: []string{"54d6f61d-db07-451c-9ab3-b9609b6b6f0b"}, Name: "private-network", AdminStateUp: true, TenantID: "4fd44f30292945e481c7b8a0c8908869", Shared: true, ID: "d32019d3-bc6e-4319-9c1d-6722fc136a22", }, os.Network{ Status: "ACTIVE", Subnets: []string{"08eae331-0402-425a-923c-34f7cfe39c1b"}, Name: "private", AdminStateUp: true, TenantID: "26a7980765d0414dbc1fc1f88cdb7e6e", Shared: true, ID: "db193ab3-96e3-4cb3-8fc5-05f4296d0324", }, } th.CheckDeepEquals(t, expected, actual) return true, nil }) if count != 1 { t.Errorf("Expected 1 page, got %d", count) } }