Example #1
0
func TestURLs(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.AssertEquals(t, th.Endpoint()+"v2.0/security-groups", rootURL(fake.ServiceClient()))
	th.AssertEquals(t, th.Endpoint()+"v2.0/security-groups/foo", resourceURL(fake.ServiceClient(), "foo"))
}
Example #2
0
func TestCreateWithOptionalFields(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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 := CreateOpts{Name: "sample_network", AdminStateUp: &iTrue, Shared: &iTrue, TenantID: "12345"}
	_, err := Create(fake.ServiceClient(), options).Extract()
	th.AssertNoErr(t, err)
}
Example #3
0
func TestRequiredCreateOpts(t *testing.T) {
	res := Create(fake.ServiceClient(), CreateOpts{})
	if res.Err == nil {
		t.Fatalf("Expected error, got none")
	}

	res = Create(fake.ServiceClient(), CreateOpts{NetworkID: "foo"})
	if res.Err == nil {
		t.Fatalf("Expected error, got none")
	}

	res = Create(fake.ServiceClient(), CreateOpts{NetworkID: "foo", CIDR: "bar", IPVersion: 40})
	if res.Err == nil {
		t.Fatalf("Expected error, got none")
	}
}
Example #4
0
func TestUpdate(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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 := UpdateOpts{
		Name:           "my_new_subnet",
		DNSNameservers: []string{"foo"},
		HostRoutes: []HostRoute{
			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")
}
Example #5
0
func TestGet(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/security-groups/85cc3048-abc3-43cc-89b3-377341426ac5", 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, `
{
    "security_group": {
        "description": "default",
        "id": "85cc3048-abc3-43cc-89b3-377341426ac5",
        "name": "default",
        "security_group_rules": [
            {
                "direction": "egress",
                "ethertype": "IPv6",
                "id": "3c0e45ff-adaf-4124-b083-bf390e5482ff",
                "port_range_max": null,
                "port_range_min": null,
                "protocol": null,
                "remote_group_id": null,
                "remote_ip_prefix": null,
                "security_group_id": "85cc3048-abc3-43cc-89b3-377341426ac5",
                "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
            },
            {
                "direction": "egress",
                "ethertype": "IPv4",
                "id": "93aa42e5-80db-4581-9391-3a608bd0e448",
                "port_range_max": null,
                "port_range_min": null,
                "protocol": null,
                "remote_group_id": null,
                "remote_ip_prefix": null,
                "security_group_id": "85cc3048-abc3-43cc-89b3-377341426ac5",
                "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
            }
        ],
        "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
    }
}
      `)
	})

	sg, err := Get(fake.ServiceClient(), "85cc3048-abc3-43cc-89b3-377341426ac5").Extract()
	th.AssertNoErr(t, err)

	th.AssertEquals(t, "default", sg.Description)
	th.AssertEquals(t, "85cc3048-abc3-43cc-89b3-377341426ac5", sg.ID)
	th.AssertEquals(t, "default", sg.Name)
	th.AssertEquals(t, 2, len(sg.Rules))
	th.AssertEquals(t, "e4f50856753b4dc6afee5fa6b9b6c550", sg.TenantID)
}
Example #6
0
func TestRequiredCreateOpts(t *testing.T) {
	res := Create(fake.ServiceClient(), CreateOpts{Direction: "something"})
	if res.Err == nil {
		t.Fatalf("Expected error, got none")
	}
	res = Create(fake.ServiceClient(), CreateOpts{Direction: DirIngress, EtherType: "something"})
	if res.Err == nil {
		t.Fatalf("Expected error, got none")
	}
	res = Create(fake.ServiceClient(), CreateOpts{Direction: DirIngress, EtherType: Ether4})
	if res.Err == nil {
		t.Fatalf("Expected error, got none")
	}
	res = Create(fake.ServiceClient(), CreateOpts{Direction: DirIngress, EtherType: Ether4, SecGroupID: "something", Protocol: "foo"})
	if res.Err == nil {
		t.Fatalf("Expected error, got none")
	}
}
Example #7
0
func TestCreate(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/security-group-rules", 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, `
{
    "security_group_rule": {
        "direction": "ingress",
        "port_range_min": 80,
        "ethertype": "IPv4",
        "port_range_max": 80,
        "protocol": "tcp",
        "remote_group_id": "85cc3048-abc3-43cc-89b3-377341426ac5",
        "security_group_id": "a7734e61-b545-452d-a3cd-0189cbd9747a"
    }
}
      `)

		w.Header().Add("Content-Type", "application/json")
		w.WriteHeader(http.StatusCreated)

		fmt.Fprintf(w, `
{
    "security_group_rule": {
        "direction": "ingress",
        "ethertype": "IPv4",
        "id": "2bc0accf-312e-429a-956e-e4407625eb62",
        "port_range_max": 80,
        "port_range_min": 80,
        "protocol": "tcp",
        "remote_group_id": "85cc3048-abc3-43cc-89b3-377341426ac5",
        "remote_ip_prefix": null,
        "security_group_id": "a7734e61-b545-452d-a3cd-0189cbd9747a",
        "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
    }
}
    `)
	})

	opts := CreateOpts{
		Direction:     "ingress",
		PortRangeMin:  80,
		EtherType:     "IPv4",
		PortRangeMax:  80,
		Protocol:      "tcp",
		RemoteGroupID: "85cc3048-abc3-43cc-89b3-377341426ac5",
		SecGroupID:    "a7734e61-b545-452d-a3cd-0189cbd9747a",
	}
	_, err := Create(fake.ServiceClient(), opts).Extract()
	th.AssertNoErr(t, err)
}
Example #8
0
func TestList(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/security-groups", 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, `
{
    "security_groups": [
        {
            "description": "default",
            "id": "85cc3048-abc3-43cc-89b3-377341426ac5",
            "name": "default",
            "security_group_rules": [],
            "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
        }
    ]
}
      `)
	})

	count := 0

	List(fake.ServiceClient(), ListOpts{}).EachPage(func(page pagination.Page) (bool, error) {
		count++
		actual, err := ExtractGroups(page)
		if err != nil {
			t.Errorf("Failed to extract secgroups: %v", err)
			return false, err
		}

		expected := []SecGroup{
			SecGroup{
				Description: "default",
				ID:          "85cc3048-abc3-43cc-89b3-377341426ac5",
				Name:        "default",
				Rules:       []rules.SecGroupRule{},
				TenantID:    "e4f50856753b4dc6afee5fa6b9b6c550",
			},
		}

		th.CheckDeepEquals(t, expected, actual)

		return true, nil
	})

	if count != 1 {
		t.Errorf("Expected 1 page, got %d", count)
	}
}
Example #9
0
func TestGet(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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, []AllocationPool{
		AllocationPool{
			Start: "192.0.0.2",
			End:   "192.255.255.254",
		},
	})
	th.AssertDeepEquals(t, s.HostRoutes, []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")
}
Example #10
0
func TestGet(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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, []IP{
		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")
}
Example #11
0
func TestDelete(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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)
}
Example #12
0
func TestDelete(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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)
}
Example #13
0
func TestDelete(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/security-groups/4ec89087-d057-4e2c-911f-60a3b47ee304", 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(), "4ec89087-d057-4e2c-911f-60a3b47ee304")
	th.AssertNoErr(t, res.Err)
}
Example #14
0
func TestDelete(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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)
}
Example #15
0
func TestCreate(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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 := 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")
}
Example #16
0
func TestUpdate(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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, iFalse := true, false
	options := UpdateOpts{Name: "new_network_name", AdminStateUp: &iFalse, 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")
}
Example #17
0
func TestGet(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/security-group-rules/3c0e45ff-adaf-4124-b083-bf390e5482ff", 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, `
{
    "security_group_rule": {
        "direction": "egress",
        "ethertype": "IPv6",
        "id": "3c0e45ff-adaf-4124-b083-bf390e5482ff",
        "port_range_max": null,
        "port_range_min": null,
        "protocol": null,
        "remote_group_id": null,
        "remote_ip_prefix": null,
        "security_group_id": "85cc3048-abc3-43cc-89b3-377341426ac5",
        "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
    }
}
      `)
	})

	sr, err := Get(fake.ServiceClient(), "3c0e45ff-adaf-4124-b083-bf390e5482ff").Extract()
	th.AssertNoErr(t, err)

	th.AssertEquals(t, "egress", sr.Direction)
	th.AssertEquals(t, "IPv6", sr.EtherType)
	th.AssertEquals(t, "3c0e45ff-adaf-4124-b083-bf390e5482ff", sr.ID)
	th.AssertEquals(t, 0, sr.PortRangeMax)
	th.AssertEquals(t, 0, sr.PortRangeMin)
	th.AssertEquals(t, "", sr.Protocol)
	th.AssertEquals(t, "", sr.RemoteGroupID)
	th.AssertEquals(t, "", sr.RemoteIPPrefix)
	th.AssertEquals(t, "85cc3048-abc3-43cc-89b3-377341426ac5", sr.SecGroupID)
	th.AssertEquals(t, "e4f50856753b4dc6afee5fa6b9b6c550", sr.TenantID)
}
Example #18
0
func TestGet(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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")
}
Example #19
0
func TestList(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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, ListOpts{}).EachPage(func(page pagination.Page) (bool, error) {
		count++
		actual, err := ExtractNetworks(page)
		if err != nil {
			t.Errorf("Failed to extract networks: %v", err)
			return false, err
		}

		expected := []Network{
			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",
			},
			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)
	}
}
Example #20
0
func TestUpdate(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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 := UpdateOpts{
		Name: "new_port_name",
		FixedIPs: []IP{
			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, []IP{
		IP{SubnetID: "a0304c3a-4f08-4c43-88af-d796509c97d2", IPAddress: "10.0.0.3"},
	})
	th.AssertDeepEquals(t, s.SecurityGroups, []string{"f0ac4394-7e4a-4409-9701-ba8be283dbc3"})
}
Example #21
0
func TestRequiredCreateOpts(t *testing.T) {
	res := Create(fake.ServiceClient(), CreateOpts{})
	if res.Err == nil {
		t.Fatalf("Expected error, got none")
	}
}
Example #22
0
func TestList(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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(), ListOpts{}).EachPage(func(page pagination.Page) (bool, error) {
		count++
		actual, err := ExtractPorts(page)
		if err != nil {
			t.Errorf("Failed to extract subnets: %v", err)
			return false, nil
		}

		expected := []Port{
			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: []IP{
					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)
	}
}
Example #23
0
func TestCreate(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/security-groups", 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, `
{
    "security_group": {
        "name": "new-webservers",
        "description": "security group for webservers"
    }
}
      `)

		w.Header().Add("Content-Type", "application/json")
		w.WriteHeader(http.StatusCreated)

		fmt.Fprintf(w, `
{
    "security_group": {
        "description": "security group for webservers",
        "id": "2076db17-a522-4506-91de-c6dd8e837028",
        "name": "new-webservers",
        "security_group_rules": [
            {
                "direction": "egress",
                "ethertype": "IPv4",
                "id": "38ce2d8e-e8f1-48bd-83c2-d33cb9f50c3d",
                "port_range_max": null,
                "port_range_min": null,
                "protocol": null,
                "remote_group_id": null,
                "remote_ip_prefix": null,
                "security_group_id": "2076db17-a522-4506-91de-c6dd8e837028",
                "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
            },
            {
                "direction": "egress",
                "ethertype": "IPv6",
                "id": "565b9502-12de-4ffd-91e9-68885cff6ae1",
                "port_range_max": null,
                "port_range_min": null,
                "protocol": null,
                "remote_group_id": null,
                "remote_ip_prefix": null,
                "security_group_id": "2076db17-a522-4506-91de-c6dd8e837028",
                "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
            }
        ],
        "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
    }
}
    `)
	})

	opts := CreateOpts{Name: "new-webservers", Description: "security group for webservers"}
	_, err := Create(fake.ServiceClient(), opts).Extract()
	th.AssertNoErr(t, err)
}
Example #24
0
func TestCreate(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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 := CreateOpts{
		NetworkID: "d32019d3-bc6e-4319-9c1d-6722fc136a22",
		IPVersion: 4,
		CIDR:      "192.168.199.0/24",
		AllocationPools: []AllocationPool{
			AllocationPool{
				Start: "192.168.199.2",
				End:   "192.168.199.254",
			},
		},
		DNSNameservers: []string{"foo"},
		HostRoutes: []HostRoute{
			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, []AllocationPool{
		AllocationPool{
			Start: "192.168.199.2",
			End:   "192.168.199.254",
		},
	})
	th.AssertDeepEquals(t, s.HostRoutes, []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")
}
Example #25
0
func TestList(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/security-group-rules", 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, `
{
    "security_group_rules": [
        {
            "direction": "egress",
            "ethertype": "IPv6",
            "id": "3c0e45ff-adaf-4124-b083-bf390e5482ff",
            "port_range_max": null,
            "port_range_min": null,
            "protocol": null,
            "remote_group_id": null,
            "remote_ip_prefix": null,
            "security_group_id": "85cc3048-abc3-43cc-89b3-377341426ac5",
            "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
        },
        {
            "direction": "egress",
            "ethertype": "IPv4",
            "id": "93aa42e5-80db-4581-9391-3a608bd0e448",
            "port_range_max": null,
            "port_range_min": null,
            "protocol": null,
            "remote_group_id": null,
            "remote_ip_prefix": null,
            "security_group_id": "85cc3048-abc3-43cc-89b3-377341426ac5",
            "tenant_id": "e4f50856753b4dc6afee5fa6b9b6c550"
        }
    ]
}
      `)
	})

	count := 0

	List(fake.ServiceClient(), ListOpts{}).EachPage(func(page pagination.Page) (bool, error) {
		count++
		actual, err := ExtractRules(page)
		if err != nil {
			t.Errorf("Failed to extract secrules: %v", err)
			return false, err
		}

		expected := []SecGroupRule{
			SecGroupRule{
				Direction:      "egress",
				EtherType:      "IPv6",
				ID:             "3c0e45ff-adaf-4124-b083-bf390e5482ff",
				PortRangeMax:   0,
				PortRangeMin:   0,
				Protocol:       "",
				RemoteGroupID:  "",
				RemoteIPPrefix: "",
				SecGroupID:     "85cc3048-abc3-43cc-89b3-377341426ac5",
				TenantID:       "e4f50856753b4dc6afee5fa6b9b6c550",
			},
			SecGroupRule{
				Direction:      "egress",
				EtherType:      "IPv4",
				ID:             "93aa42e5-80db-4581-9391-3a608bd0e448",
				PortRangeMax:   0,
				PortRangeMin:   0,
				Protocol:       "",
				RemoteGroupID:  "",
				RemoteIPPrefix: "",
				SecGroupID:     "85cc3048-abc3-43cc-89b3-377341426ac5",
				TenantID:       "e4f50856753b4dc6afee5fa6b9b6c550",
			},
		}

		th.CheckDeepEquals(t, expected, actual)

		return true, nil
	})

	if count != 1 {
		t.Errorf("Expected 1 page, got %d", count)
	}
}
Example #26
0
func TestList(t *testing.T) {
	th.SetupHTTP()
	defer th.TeardownHTTP()

	th.Mux.HandleFunc("/v2.0/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(), ListOpts{}).EachPage(func(page pagination.Page) (bool, error) {
		count++
		actual, err := ExtractSubnets(page)
		if err != nil {
			t.Errorf("Failed to extract subnets: %v", err)
			return false, nil
		}

		expected := []Subnet{
			Subnet{
				Name:           "private-subnet",
				EnableDHCP:     true,
				NetworkID:      "db193ab3-96e3-4cb3-8fc5-05f4296d0324",
				TenantID:       "26a7980765d0414dbc1fc1f88cdb7e6e",
				DNSNameservers: []string{},
				AllocationPools: []AllocationPool{
					AllocationPool{
						Start: "10.0.0.2",
						End:   "10.0.0.254",
					},
				},
				HostRoutes: []HostRoute{},
				IPVersion:  4,
				GatewayIP:  "10.0.0.1",
				CIDR:       "10.0.0.0/24",
				ID:         "08eae331-0402-425a-923c-34f7cfe39c1b",
			},
			Subnet{
				Name:           "my_subnet",
				EnableDHCP:     true,
				NetworkID:      "d32019d3-bc6e-4319-9c1d-6722fc136a22",
				TenantID:       "4fd44f30292945e481c7b8a0c8908869",
				DNSNameservers: []string{},
				AllocationPools: []AllocationPool{
					AllocationPool{
						Start: "192.0.0.2",
						End:   "192.255.255.254",
					},
				},
				HostRoutes: []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)
	}
}