func (c *client) GetNetworkInterfaces(inst instance.Id, ecfg *environConfig) ([]network.InterfaceInfo, error) {
vm, err := c.getVm(string(inst))
if err != nil {
return nil, errors.Trace(err)
}
if vm.Guest == nil {
return nil, errors.Errorf("vm guest is not initialized")
}
res := make([]network.InterfaceInfo, 0)
for _, net := range vm.Guest.Net {
ipScope := network.ScopeCloudLocal
if net.Network == ecfg.externalNetwork() {
ipScope = network.ScopePublic
}
res = append(res, network.InterfaceInfo{
DeviceIndex: net.DeviceConfigId,
MACAddress: net.MacAddress,
NetworkName: net.Network,
Disabled: !net.Connected,
ProviderId: network.Id(fmt.Sprintf("net-device%d", net.DeviceConfigId)),
ProviderSubnetId: network.Id(net.Network),
InterfaceName: fmt.Sprintf("unsupported%d", net.DeviceConfigId),
ConfigType: network.ConfigDHCP,
Address: network.NewScopedAddress(net.IpAddress[0], ipScope),
})
}
return res, nil
}
func createSubnetInfo(subnetID, spaceID, ipRange uint) network.SubnetInfo {
return network.SubnetInfo{
CIDR: fmt.Sprintf("192.168.%d.0/24", ipRange),
ProviderId: network.Id(strconv.Itoa(int(subnetID))),
SpaceProviderId: network.Id(fmt.Sprintf("%d", spaceID)),
}
}
func (env *environ) subnetsForSpaceDiscovery(estate *environState) ([]network.SubnetInfo, error) {
result := []network.SubnetInfo{{
ProviderId: network.Id("1"),
AvailabilityZones: []string{"zone1"},
CIDR: "192.168.1.0/24",
}, {
ProviderId: network.Id("2"),
AvailabilityZones: []string{"zone1"},
CIDR: "192.168.2.0/24",
VLANTag: 1,
}, {
ProviderId: network.Id("3"),
AvailabilityZones: []string{"zone1"},
CIDR: "192.168.3.0/24",
}, {
ProviderId: network.Id("4"),
AvailabilityZones: []string{"zone1"},
CIDR: "192.168.4.0/24",
}, {
ProviderId: network.Id("5"),
AvailabilityZones: []string{"zone1"},
CIDR: "192.168.5.0/24",
}}
estate.ops <- OpSubnets{
Env: env.name,
InstanceId: instance.UnknownId,
SubnetIds: []network.Id{},
Info: result,
}
return result, nil
}
// addTestingSubnets adds a testing default VPC with 3 subnets in the EC2 test
// server: 2 of the subnets are in the "test-available" AZ, the remaining - in
// "test-unavailable". Returns a slice with the IDs of the created subnets.
func (t *localServerSuite) addTestingSubnets(c *gc.C) []network.Id {
vpc := t.srv.ec2srv.AddVPC(amzec2.VPC{
CIDRBlock: "0.1.0.0/16",
IsDefault: true,
})
results := make([]network.Id, 3)
sub1, err := t.srv.ec2srv.AddSubnet(amzec2.Subnet{
VPCId: vpc.Id,
CIDRBlock: "0.1.2.0/24",
AvailZone: "test-available",
DefaultForAZ: true,
})
c.Assert(err, jc.ErrorIsNil)
results[0] = network.Id(sub1.Id)
sub2, err := t.srv.ec2srv.AddSubnet(amzec2.Subnet{
VPCId: vpc.Id,
CIDRBlock: "0.1.3.0/24",
AvailZone: "test-available",
})
c.Assert(err, jc.ErrorIsNil)
results[1] = network.Id(sub2.Id)
sub3, err := t.srv.ec2srv.AddSubnet(amzec2.Subnet{
VPCId: vpc.Id,
CIDRBlock: "0.1.4.0/24",
AvailZone: "test-unavailable",
DefaultForAZ: true,
})
c.Assert(err, jc.ErrorIsNil)
results[2] = network.Id(sub3.Id)
return results
}
func (suite *maas2EnvironSuite) TestSpaces(c *gc.C) {
controller := &fakeController{
spaces: []gomaasapi.Space{
fakeSpace{
name: "pepper",
id: 1234,
},
fakeSpace{
name: "freckles",
id: 4567,
subnets: []gomaasapi.Subnet{
fakeSubnet{id: 99, vlan: fakeVLAN{vid: 66}, cidr: "192.168.10.0/24"},
fakeSubnet{id: 98, vlan: fakeVLAN{vid: 67}, cidr: "192.168.11.0/24"},
},
},
},
}
env := suite.makeEnviron(c, controller)
result, err := env.Spaces()
c.Assert(err, jc.ErrorIsNil)
c.Assert(result, gc.HasLen, 1)
c.Assert(result[0].Name, gc.Equals, "freckles")
c.Assert(result[0].ProviderId, gc.Equals, network.Id("4567"))
subnets := result[0].Subnets
c.Assert(subnets, gc.HasLen, 2)
c.Assert(subnets[0].ProviderId, gc.Equals, network.Id("99"))
c.Assert(subnets[0].VLANTag, gc.Equals, 66)
c.Assert(subnets[0].CIDR, gc.Equals, "192.168.10.0/24")
c.Assert(subnets[0].SpaceProviderId, gc.Equals, network.Id("4567"))
c.Assert(subnets[1].ProviderId, gc.Equals, network.Id("98"))
c.Assert(subnets[1].VLANTag, gc.Equals, 67)
c.Assert(subnets[1].CIDR, gc.Equals, "192.168.11.0/24")
c.Assert(subnets[1].SpaceProviderId, gc.Equals, network.Id("4567"))
}
func (env *maasEnviron) deviceInterfaceInfo(deviceID instance.Id, nameToParentName map[string]string) ([]network.InterfaceInfo, error) {
interfaces, err := env.deviceInterfaces(deviceID)
if err != nil {
return nil, errors.Trace(err)
}
interfaceInfo := make([]network.InterfaceInfo, 0, len(interfaces))
for _, nic := range interfaces {
nicInfo := network.InterfaceInfo{
InterfaceName: nic.Name,
InterfaceType: network.EthernetInterface,
MACAddress: nic.MACAddress,
MTU: nic.EffectveMTU,
VLANTag: nic.VLAN.VID,
ProviderId: network.Id(strconv.Itoa(nic.ID)),
ProviderVLANId: network.Id(strconv.Itoa(nic.VLAN.ID)),
Disabled: !nic.Enabled,
NoAutoStart: !nic.Enabled,
ParentInterfaceName: nameToParentName[nic.Name],
}
if len(nic.Links) == 0 {
logger.Debugf("device %q interface %q has no links", deviceID, nic.Name)
interfaceInfo = append(interfaceInfo, nicInfo)
continue
}
for _, link := range nic.Links {
nicInfo.ConfigType = maasLinkToInterfaceConfigType(string(link.Mode))
if link.IPAddress == "" {
logger.Debugf("device %q interface %q has no address", deviceID, nic.Name)
interfaceInfo = append(interfaceInfo, nicInfo)
continue
}
if link.Subnet == nil {
logger.Debugf("device %q interface %q link %d missing subnet", deviceID, nic.Name, link.ID)
interfaceInfo = append(interfaceInfo, nicInfo)
continue
}
nicInfo.CIDR = link.Subnet.CIDR
nicInfo.Address = network.NewAddressOnSpace(link.Subnet.Space, link.IPAddress)
nicInfo.ProviderSubnetId = network.Id(strconv.Itoa(link.Subnet.ID))
nicInfo.ProviderAddressId = network.Id(strconv.Itoa(link.ID))
if link.Subnet.GatewayIP != "" {
nicInfo.GatewayAddress = network.NewAddressOnSpace(link.Subnet.Space, link.Subnet.GatewayIP)
}
if len(link.Subnet.DNSServers) > 0 {
nicInfo.DNSServers = network.NewAddressesOnSpace(link.Subnet.Space, link.Subnet.DNSServers...)
}
interfaceInfo = append(interfaceInfo, nicInfo)
}
}
logger.Debugf("device %q has interface info: %+v", deviceID, interfaceInfo)
return interfaceInfo, nil
}
func createSubnetInfo(subnetID, spaceID, ipRange uint) network.SubnetInfo {
return network.SubnetInfo{
CIDR: fmt.Sprintf("192.168.%d.0/24", ipRange),
ProviderId: network.Id(strconv.Itoa(int(subnetID))),
AllocatableIPLow: net.ParseIP(fmt.Sprintf("192.168.%d.139", ipRange)).To4(),
AllocatableIPHigh: net.ParseIP(fmt.Sprintf("192.168.%d.255", ipRange)).To4(),
SpaceProviderId: network.Id(fmt.Sprintf("Space %d", spaceID)),
}
}
// Spaces is specified on environs.Networking.
func (env *environ) Spaces() ([]network.SpaceInfo, error) {
if err := env.checkBroken("Spaces"); err != nil {
return []network.SpaceInfo{}, err
}
return []network.SpaceInfo{{
ProviderId: network.Id("foo"),
Subnets: []network.SubnetInfo{{
ProviderId: network.Id("1"),
AvailabilityZones: []string{"zone1"},
}, {
ProviderId: network.Id("2"),
AvailabilityZones: []string{"zone1"},
}}}, {
ProviderId: network.Id("Another Foo 99!"),
Subnets: []network.SubnetInfo{{
ProviderId: network.Id("3"),
AvailabilityZones: []string{"zone1"},
}}}, {
ProviderId: network.Id("foo-"),
Subnets: []network.SubnetInfo{{
ProviderId: network.Id("4"),
AvailabilityZones: []string{"zone1"},
}}}, {
ProviderId: network.Id("---"),
Subnets: []network.SubnetInfo{{
ProviderId: network.Id("5"),
AvailabilityZones: []string{"zone1"},
}}}}, nil
}
func (s *ipAddressesInternalSuite) TestProviderIDDoesNotIncludeModelUUIDWhenSet(c *gc.C) {
const localProviderID = "foo"
globalProviderID := coretesting.ModelTag.Id() + ":" + localProviderID
result := s.newIPAddressWithDummyState(ipAddressDoc{ProviderID: localProviderID})
c.Assert(result.ProviderID(), gc.Equals, network.Id(localProviderID))
c.Assert(result.localProviderID(), gc.Equals, localProviderID)
result = s.newIPAddressWithDummyState(ipAddressDoc{ProviderID: globalProviderID})
c.Assert(result.ProviderID(), gc.Equals, network.Id(localProviderID))
c.Assert(result.localProviderID(), gc.Equals, localProviderID)
}
func (s *interfacesSuite) TestMAASObjectNetworkInterfaces(c *gc.C) {
nodeJSON := fmt.Sprintf(`{
"system_id": "foo",
"interface_set": %s
}`, exampleInterfaceSetJSON)
obj := s.testMAASObject.TestServer.NewNode(nodeJSON)
subnetsMap := make(map[string]network.Id)
subnetsMap["10.250.19.0/24"] = network.Id("3")
subnetsMap["192.168.1.0/24"] = network.Id("0")
infos, err := maasObjectNetworkInterfaces(&obj, subnetsMap)
c.Assert(err, jc.ErrorIsNil)
c.Check(infos, jc.DeepEquals, exampleParsedInterfaceSetJSON)
}
// prepareOrGetContainerInterfaceInfo returns the necessary information to
// configure network interfaces of a container with allocated static
// IP addresses.
//
// TODO(dimitern): Before we start using this, we need to rename both
// the method and the network.InterfaceInfo type to be called
// InterfaceConfig.
func (st *State) prepareOrGetContainerInterfaceInfo(
containerTag names.MachineTag, allocateNewAddress bool) (
[]network.InterfaceInfo, error) {
var result params.MachineNetworkConfigResults
args := params.Entities{
Entities: []params.Entity{{Tag: containerTag.String()}},
}
facadeName := ""
if allocateNewAddress {
facadeName = "PrepareContainerInterfaceInfo"
} else {
facadeName = "GetContainerInterfaceInfo"
}
if err := st.facade.FacadeCall(facadeName, args, &result); err != nil {
return nil, err
}
if len(result.Results) != 1 {
return nil, errors.Errorf("expected 1 result, got %d", len(result.Results))
}
if err := result.Results[0].Error; err != nil {
return nil, err
}
ifaceInfo := make([]network.InterfaceInfo, len(result.Results[0].Config))
for i, cfg := range result.Results[0].Config {
ifaceInfo[i] = network.InterfaceInfo{
DeviceIndex: cfg.DeviceIndex,
MACAddress: cfg.MACAddress,
CIDR: cfg.CIDR,
MTU: cfg.MTU,
ProviderId: network.Id(cfg.ProviderId),
ProviderSubnetId: network.Id(cfg.ProviderSubnetId),
ProviderSpaceId: network.Id(cfg.ProviderSpaceId),
ProviderVLANId: network.Id(cfg.ProviderVLANId),
ProviderAddressId: network.Id(cfg.ProviderAddressId),
VLANTag: cfg.VLANTag,
InterfaceName: cfg.InterfaceName,
ParentInterfaceName: cfg.ParentInterfaceName,
InterfaceType: network.InterfaceType(cfg.InterfaceType),
Disabled: cfg.Disabled,
NoAutoStart: cfg.NoAutoStart,
ConfigType: network.InterfaceConfigType(cfg.ConfigType),
Address: network.NewAddress(cfg.Address),
DNSServers: network.NewAddresses(cfg.DNSServers...),
DNSSearchDomains: cfg.DNSSearchDomains,
GatewayAddress: network.NewAddress(cfg.GatewayAddress),
}
}
return ifaceInfo, nil
}
func (i *importer) addLinkLayerDevice(device description.LinkLayerDevice) error {
providerID := device.ProviderID()
modelUUID := i.st.ModelUUID()
localID := linkLayerDeviceGlobalKey(device.MachineID(), device.Name())
linkLayerDeviceDocID := i.st.docID(localID)
newDoc := &linkLayerDeviceDoc{
ModelUUID: modelUUID,
DocID: linkLayerDeviceDocID,
MachineID: device.MachineID(),
ProviderID: providerID,
Name: device.Name(),
MTU: device.MTU(),
Type: LinkLayerDeviceType(device.Type()),
MACAddress: device.MACAddress(),
IsAutoStart: device.IsAutoStart(),
IsUp: device.IsUp(),
ParentName: device.ParentName(),
}
ops := []txn.Op{{
C: linkLayerDevicesC,
Id: newDoc.DocID,
Insert: newDoc,
},
insertLinkLayerDevicesRefsOp(modelUUID, linkLayerDeviceDocID),
}
if providerID != "" {
id := network.Id(providerID)
ops = append(ops, i.st.networkEntityGlobalKeyOp("linklayerdevice", id))
}
if err := i.st.runTransaction(ops); err != nil {
return errors.Trace(err)
}
return nil
}
func (c *client) Subnets(inst instance.Id, ids []network.Id) ([]network.SubnetInfo, error) {
if len(ids) == 0 {
return nil, errors.Errorf("subnetIds must not be empty")
}
vm, err := c.getVm(string(inst))
if err != nil {
return nil, errors.Trace(err)
}
res := make([]network.SubnetInfo, 0)
for _, vmNet := range vm.Guest.Net {
existId := false
for _, id := range ids {
if string(id) == vmNet.Network {
existId = true
break
}
}
if !existId {
continue
}
res = append(res, network.SubnetInfo{
ProviderId: network.Id(vmNet.Network),
})
}
return res, nil
}
// setupNetworks prepares a []network.InterfaceInfo for the given instance. Any
// disabled network interfaces (as discovered from the lshw output for the node)
// will stay disabled.
func (environ *maasEnviron) setupNetworks(inst instance.Instance) ([]network.InterfaceInfo, error) {
// Get the instance network interfaces first.
interfaces, err := environ.getInstanceNetworkInterfaces(inst)
if err != nil {
return nil, errors.Annotatef(err, "getInstanceNetworkInterfaces failed")
}
logger.Debugf("node %q has network interfaces %v", inst.Id(), interfaces)
networks, err := environ.getInstanceNetworks(inst)
if err != nil {
return nil, errors.Annotatef(err, "getInstanceNetworks failed")
}
logger.Debugf("node %q has networks %v", inst.Id(), networks)
var tempInterfaceInfo []network.InterfaceInfo
for _, netw := range networks {
netCIDR := &net.IPNet{
IP: net.ParseIP(netw.IP),
Mask: net.IPMask(net.ParseIP(netw.Mask)),
}
macs, err := environ.getNetworkMACs(netw.Name)
if err != nil {
return nil, errors.Annotatef(err, "getNetworkMACs failed")
}
logger.Debugf("network %q has MACs: %v", netw.Name, macs)
var defaultGateway network.Address
if netw.DefaultGateway != "" {
defaultGateway = network.NewAddress(netw.DefaultGateway)
}
for _, mac := range macs {
if ifinfo, ok := interfaces[mac]; ok {
tempInterfaceInfo = append(tempInterfaceInfo, network.InterfaceInfo{
MACAddress: mac,
InterfaceName: ifinfo.InterfaceName,
DeviceIndex: ifinfo.DeviceIndex,
CIDR: netCIDR.String(),
VLANTag: netw.VLANTag,
ProviderId: network.Id(netw.Name),
NetworkName: netw.Name,
Disabled: ifinfo.Disabled,
GatewayAddress: defaultGateway,
})
}
}
}
// Verify we filled-in everything for all networks/interfaces
// and drop incomplete records.
var interfaceInfo []network.InterfaceInfo
for _, info := range tempInterfaceInfo {
if info.ProviderId == "" || info.NetworkName == "" || info.CIDR == "" {
logger.Infof("ignoring interface %q: missing subnet info", info.InterfaceName)
continue
}
if info.MACAddress == "" || info.InterfaceName == "" {
logger.Infof("ignoring subnet %q: missing interface info", info.ProviderId)
continue
}
interfaceInfo = append(interfaceInfo, info)
}
logger.Debugf("node %q network information: %#v", inst.Id(), interfaceInfo)
return interfaceInfo, nil
}
func networkParamsToStateParams(networks []params.Network, ifaces []params.NetworkInterface) (
[]state.NetworkInfo, []state.NetworkInterfaceInfo, error,
) {
stateNetworks := make([]state.NetworkInfo, len(networks))
for i, net := range networks {
tag, err := names.ParseNetworkTag(net.Tag)
if err != nil {
return nil, nil, err
}
stateNetworks[i] = state.NetworkInfo{
Name: tag.Id(),
ProviderId: network.Id(net.ProviderId),
CIDR: net.CIDR,
VLANTag: net.VLANTag,
}
}
stateInterfaces := make([]state.NetworkInterfaceInfo, len(ifaces))
for i, iface := range ifaces {
tag, err := names.ParseNetworkTag(iface.NetworkTag)
if err != nil {
return nil, nil, err
}
stateInterfaces[i] = state.NetworkInterfaceInfo{
MACAddress: iface.MACAddress,
NetworkName: tag.Id(),
InterfaceName: iface.InterfaceName,
IsVirtual: iface.IsVirtual,
Disabled: iface.Disabled,
}
}
return stateNetworks, stateInterfaces, nil
}
func constructStartInstanceParams(
machine *apiprovisioner.Machine,
instanceConfig *instancecfg.InstanceConfig,
provisioningInfo *params.ProvisioningInfo,
possibleTools coretools.List,
) (environs.StartInstanceParams, error) {
volumes := make([]storage.VolumeParams, len(provisioningInfo.Volumes))
for i, v := range provisioningInfo.Volumes {
volumeTag, err := names.ParseVolumeTag(v.VolumeTag)
if err != nil {
return environs.StartInstanceParams{}, errors.Trace(err)
}
if v.Attachment == nil {
return environs.StartInstanceParams{}, errors.Errorf("volume params missing attachment")
}
machineTag, err := names.ParseMachineTag(v.Attachment.MachineTag)
if err != nil {
return environs.StartInstanceParams{}, errors.Trace(err)
}
if machineTag != machine.Tag() {
return environs.StartInstanceParams{}, errors.Errorf("volume attachment params has invalid machine tag")
}
if v.Attachment.InstanceId != "" {
return environs.StartInstanceParams{}, errors.Errorf("volume attachment params specifies instance ID")
}
volumes[i] = storage.VolumeParams{
volumeTag,
v.Size,
storage.ProviderType(v.Provider),
v.Attributes,
v.Tags,
&storage.VolumeAttachmentParams{
AttachmentParams: storage.AttachmentParams{
Machine: machineTag,
ReadOnly: v.Attachment.ReadOnly,
},
Volume: volumeTag,
},
}
}
var subnetsToZones map[network.Id][]string
if provisioningInfo.SubnetsToZones != nil {
// Convert subnet provider ids from string to network.Id.
subnetsToZones = make(map[network.Id][]string, len(provisioningInfo.SubnetsToZones))
for providerId, zones := range provisioningInfo.SubnetsToZones {
subnetsToZones[network.Id(providerId)] = zones
}
}
return environs.StartInstanceParams{
Constraints: provisioningInfo.Constraints,
Tools: possibleTools,
InstanceConfig: instanceConfig,
Placement: provisioningInfo.Placement,
DistributionGroup: machine.DistributionGroup,
Volumes: volumes,
SubnetsToZones: subnetsToZones,
}, nil
}
// AddSubnetsWithTemplate adds numSubnets subnets, using the given
// infoTemplate. Any string field in the infoTemplate can be specified
// as a text/template string containing {{.}}, which is the current
// index of the subnet-to-add (between 0 and numSubnets-1).
//
// Example:
//
// AddSubnetsWithTemplate(c, st, 2, state.SubnetInfo{
// CIDR: "10.10.{{.}}.0/24",
// ProviderId: "subnet-{{.}}",
// SpaceName: "space1",
// AvailabilityZone: "zone-{{.}}",
// AllocatableIPLow: "{{if (gt . 0)}}10.10.{{.}}.5{{end}}",
// AllocatableIPHigh: "{{if (gt . 0)}}10.10.{{.}}.254{{end}}",
// VLANTag: 42,
// })
//
// This is equivalent to the following calls:
//
// _, err := st.AddSubnet(state.SubnetInfo{
// CIDR: "10.10.0.0/24",
// ProviderId: "subnet-0",
// SpaceName: "space1",
// AvailabilityZone: "zone-0",
// VLANTag: 42,
// })
// c.Assert(err, jc.ErrorIsNil)
// _, err = st.AddSubnet(state.SubnetInfo{
// CIDR: "10.10.1.0/24",
// ProviderId: "subnet-1",
// SpaceName: "space1",
// AvailabilityZone: "zone-1",
// AllocatableIPLow: "10.10.1.5",
// AllocatableIPHigh: "10.10.1.254",
// VLANTag: 42,
// })
func AddSubnetsWithTemplate(c *gc.C, st *state.State, numSubnets uint, infoTemplate state.SubnetInfo) {
for subnetIndex := 0; subnetIndex < int(numSubnets); subnetIndex++ {
info := infoTemplate // make a copy each time.
// permute replaces the contents of *s with the result of interpreting
// *s as a template.
permute := func(s string) string {
t, err := template.New("").Parse(s)
c.Assert(err, jc.ErrorIsNil)
var buf bytes.Buffer
err = t.Execute(&buf, subnetIndex)
c.Assert(err, jc.ErrorIsNil)
return buf.String()
}
info.ProviderId = network.Id(permute(string(info.ProviderId)))
info.CIDR = permute(info.CIDR)
info.AllocatableIPHigh = permute(info.AllocatableIPHigh)
info.AllocatableIPLow = permute(info.AllocatableIPLow)
info.AvailabilityZone = permute(info.AvailabilityZone)
info.SpaceName = permute(info.SpaceName)
_, err := st.AddSubnet(info)
c.Assert(err, jc.ErrorIsNil)
}
}
// Run implements Command.Run.
func (c *addCommand) Run(ctx *cmd.Context) error {
return c.RunWithAPI(ctx, func(api SubnetAPI, ctx *cmd.Context) error {
if c.CIDR.Id() != "" && c.RawCIDR != c.CIDR.Id() {
ctx.Infof(
"WARNING: using CIDR %q instead of the incorrectly specified %q.",
c.CIDR.Id(), c.RawCIDR,
)
}
// Add the existing subnet.
err := api.AddSubnet(c.CIDR, network.Id(c.ProviderId), c.Space, c.Zones)
// TODO(dimitern): Change this once the API returns a concrete error.
if err != nil && strings.Contains(err.Error(), "multiple subnets with") {
// Special case: multiple subnets with the same CIDR exist
ctx.Infof("ERROR: %v.", err)
return nil
} else if err != nil {
return errors.Annotatef(err, "cannot add subnet")
}
if c.ProviderId != "" {
ctx.Infof("added subnet with ProviderId %q in space %q", c.ProviderId, c.Space.Id())
} else {
ctx.Infof("added subnet with CIDR %q in space %q", c.CIDR.Id(), c.Space.Id())
}
return nil
})
}
func (s *suite) TestAllocateAddress(c *gc.C) {
e := s.bootstrapTestEnviron(c, false)
defer func() {
err := e.Destroy()
c.Assert(err, gc.IsNil)
}()
inst, _ := jujutesting.AssertStartInstance(c, e, "0")
c.Assert(inst, gc.NotNil)
netId := network.Id("net1")
opc := make(chan dummy.Operation, 200)
dummy.Listen(opc)
expectAddress := network.NewAddress("0.1.2.1", network.ScopeCloudLocal)
address, err := e.AllocateAddress(inst.Id(), netId)
c.Assert(err, gc.IsNil)
c.Assert(address, gc.DeepEquals, expectAddress)
assertAllocateAddress(c, e, opc, inst.Id(), netId, expectAddress)
expectAddress = network.NewAddress("0.1.2.2", network.ScopeCloudLocal)
address, err = e.AllocateAddress(inst.Id(), netId)
c.Assert(err, gc.IsNil)
c.Assert(address, gc.DeepEquals, expectAddress)
assertAllocateAddress(c, e, opc, inst.Id(), netId, expectAddress)
}
func (t *localServerSuite) TestNetworkInterfaces(c *gc.C) {
env, instId := t.setUpInstanceWithDefaultVpc(c)
interfaces, err := env.NetworkInterfaces(instId)
c.Assert(err, jc.ErrorIsNil)
// The CIDR isn't predictable, but it is in the 10.10.x.0/24 format
// The subnet ID is in the form "subnet-x", where x matches the same
// number from the CIDR. The interfaces address is part of the CIDR.
// For these reasons we check that the CIDR is in the expected format
// and derive the expected values for ProviderSubnetId and Address.
c.Assert(interfaces, gc.HasLen, 1)
cidr := interfaces[0].CIDR
re := regexp.MustCompile(`10\.10\.(\d+)\.0/24`)
c.Assert(re.Match([]byte(cidr)), jc.IsTrue)
index := re.FindStringSubmatch(cidr)[1]
addr := fmt.Sprintf("10.10.%s.5", index)
subnetId := network.Id("subnet-" + index)
expectedInterfaces := []network.InterfaceInfo{{
DeviceIndex: 0,
MACAddress: "20:01:60:cb:27:37",
CIDR: cidr,
ProviderId: "eni-0",
ProviderSubnetId: subnetId,
VLANTag: 0,
InterfaceName: "unsupported0",
Disabled: false,
NoAutoStart: false,
ConfigType: network.ConfigDHCP,
Address: network.NewScopedAddress(addr, network.ScopeCloudLocal),
}}
c.Assert(interfaces, jc.DeepEquals, expectedInterfaces)
}
func (s *AddressSuite) TestNewAddressesOnSpace(c *gc.C) {
addrs := network.NewAddressesOnSpace("bar", "0.2.3.4", "fc00::1")
c.Check(addrs, jc.DeepEquals, []network.Address{{
Value: "0.2.3.4",
Type: "ipv4",
Scope: "public",
SpaceName: "bar",
SpaceProviderId: network.Id(""),
}, {
Value: "fc00::1",
Type: "ipv6",
Scope: "local-cloud",
SpaceName: "bar",
SpaceProviderId: network.Id(""),
}})
}
func (s *ipAddressesStateSuite) testMachineSetDevicesAddressesIdempotently(c *gc.C) {
err := s.machine.SetParentLinkLayerDevicesBeforeTheirChildren(nestedDevicesArgs)
c.Assert(err, jc.ErrorIsNil)
args := []state.LinkLayerDeviceAddress{{
DeviceName: "lo",
CIDRAddress: "127.0.0.1/8",
ConfigMethod: state.LoopbackAddress,
}, {
DeviceName: "br-bond0",
CIDRAddress: "10.20.0.100/16",
ConfigMethod: state.StaticAddress,
ProviderID: "200",
}, {
DeviceName: "br-bond0.12",
CIDRAddress: "0.1.2.112/24",
ConfigMethod: state.StaticAddress,
ProviderID: "201",
}, {
DeviceName: "br-bond0.34",
CIDRAddress: "0.1.2.134/24",
ConfigMethod: state.StaticAddress,
ProviderID: "202",
}}
err = s.machine.SetDevicesAddressesIdempotently(args)
c.Assert(err, jc.ErrorIsNil)
allAddresses, err := s.machine.AllAddresses()
c.Assert(err, jc.ErrorIsNil)
c.Assert(allAddresses, gc.HasLen, len(args))
for _, address := range allAddresses {
if address.ConfigMethod() != state.LoopbackAddress && address.ConfigMethod() != state.ManualAddress {
c.Check(address.ProviderID(), gc.Not(gc.Equals), network.Id(""))
}
}
}
func (suite *environSuite) TestSubnetsWithInstanceIdAndSubnetIds(c *gc.C) {
server := suite.testMAASObject.TestServer
var subnetIDs []network.Id
var uintIDs []uint
for _, i := range []uint{1, 2, 3} {
server.NewSpace(spaceJSON(gomaasapi.CreateSpace{Name: fmt.Sprintf("space-%d", i)}))
id := suite.addSubnet(c, i, i, "node1")
subnetIDs = append(subnetIDs, network.Id(fmt.Sprintf("%v", id)))
uintIDs = append(uintIDs, id)
suite.addSubnet(c, i+5, i, "node2")
suite.addSubnet(c, i+10, i, "") // not linked to a node
}
testInstance := suite.getInstance("node1")
env := suite.makeEnviron()
subnetsInfo, err := env.Subnets(testInstance.Id(), subnetIDs)
c.Assert(err, jc.ErrorIsNil)
expectedInfo := []network.SubnetInfo{
createSubnetInfo(uintIDs[0], 2, 1),
createSubnetInfo(uintIDs[1], 3, 2),
createSubnetInfo(uintIDs[2], 4, 3),
}
c.Assert(subnetsInfo, jc.DeepEquals, expectedInfo)
subnetsInfo, err = env.Subnets(testInstance.Id(), subnetIDs[1:])
c.Assert(err, jc.ErrorIsNil)
c.Assert(subnetsInfo, jc.DeepEquals, expectedInfo[1:])
}
func (s *SpacesSuite) TestAddSpaceWithNonEmptyProviderIdAndInvalidNameFails(c *gc.C) {
args := addSpaceArgs{
Name: "-bad name-",
ProviderId: network.Id("My Provider ID"),
}
_, err := s.addSpaceWithSubnets(c, args)
s.assertInvalidSpaceNameErrorAndWasNotAdded(c, err, args.Name)
}
func (s *SpacesSuite) TestAddSpaceWithEmptyNameAndNonEmptyProviderIdFails(c *gc.C) {
args := addSpaceArgs{
Name: "",
ProviderId: network.Id("doesn't matter"),
}
_, err := s.addSpaceWithSubnets(c, args)
s.assertInvalidSpaceNameErrorAndWasNotAdded(c, err, args.Name)
}
func (suite *environSuite) TestSubnetsNoInstanceIdWithSubnetIds(c *gc.C) {
suite.createTwoSpaces()
id1 := suite.addSubnet(c, 1, 1, "node1")
id2 := suite.addSubnet(c, 2, 2, "node2")
subnetIDs := []network.Id{
network.Id(fmt.Sprintf("%v", id1)),
network.Id(fmt.Sprintf("%v", id2)),
}
subnetsInfo, err := suite.makeEnviron().Subnets(instance.UnknownId, subnetIDs)
c.Assert(err, jc.ErrorIsNil)
expectedInfo := []network.SubnetInfo{
createSubnetInfo(id1, 2, 1),
createSubnetInfo(id2, 3, 2),
}
c.Assert(subnetsInfo, jc.DeepEquals, expectedInfo)
}
// NetworkInterfaces implements Environ.NetworkInterfaces().
func (env *environ) NetworkInterfaces(instId instance.Id) ([]network.InterfaceInfo, error) {
if err := env.checkBroken("NetworkInterfaces"); err != nil {
return nil, err
}
estate, err := env.state()
if err != nil {
return nil, err
}
estate.mu.Lock()
defer estate.mu.Unlock()
// Simulate 3 NICs - primary and secondary enabled plus a disabled NIC.
// all configured using DHCP and having fake DNS servers and gateway.
info := make([]network.InterfaceInfo, 3)
for i, netName := range []string{"private", "public", "disabled"} {
info[i] = network.InterfaceInfo{
DeviceIndex: i,
ProviderId: network.Id(fmt.Sprintf("dummy-eth%d", i)),
ProviderSubnetId: network.Id("dummy-" + netName),
InterfaceType: network.EthernetInterface,
CIDR: fmt.Sprintf("0.%d.0.0/24", (i+1)*10),
InterfaceName: fmt.Sprintf("eth%d", i),
VLANTag: i,
MACAddress: fmt.Sprintf("aa:bb:cc:dd:ee:f%d", i),
Disabled: i == 2,
NoAutoStart: i%2 != 0,
ConfigType: network.ConfigDHCP,
Address: network.NewAddress(
fmt.Sprintf("0.%d.0.%d", (i+1)*10, estate.maxAddr+2),
),
DNSServers: network.NewAddresses("ns1.dummy", "ns2.dummy"),
GatewayAddress: network.NewAddress(
fmt.Sprintf("0.%d.0.1", (i+1)*10),
),
}
}
estate.ops <- OpNetworkInterfaces{
Env: env.name,
InstanceId: instId,
Info: info,
}
return info, nil
}
func (s *SpacesSuite) TestAddTwoSpacesWithSameNamesAndProviderIdsFailsInTheSameModel(c *gc.C) {
args := addSpaceArgs{
Name: "my-space",
ProviderId: network.Id("does not matter if not empty"),
}
_, err := s.addTwoSpacesReturnSecond(c, args, args)
s.assertSpaceAlreadyExistsErrorForArgs(c, err, args)
}
func (m *Machine) setDevicesAddressesFromDocsOps(newDocs []ipAddressDoc) ([]txn.Op, error) {
addresses, closer := m.st.getCollection(ipAddressesC)
defer closer()
var ops []txn.Op
for _, newDoc := range newDocs {
deviceDocID := m.linkLayerDeviceDocIDFromName(newDoc.DeviceName)
ops = append(ops, assertLinkLayerDeviceExistsOp(deviceDocID))
var existingDoc ipAddressDoc
err := addresses.FindId(newDoc.DocID).One(&existingDoc)
if err == mgo.ErrNotFound {
// Address does not exist yet - insert it.
ops = append(ops, insertIPAddressDocOp(&newDoc))
if newDoc.ProviderID != "" {
id := network.Id(newDoc.ProviderID)
ops = append(ops, m.st.networkEntityGlobalKeyOp("address", id))
}
} else if err == nil {
// Address already exists - update what's possible.
ops = append(ops, updateIPAddressDocOp(&existingDoc, &newDoc))
if newDoc.ProviderID != "" {
if existingDoc.ProviderID != "" && existingDoc.ProviderID != newDoc.ProviderID {
return nil, errors.Errorf("cannot change ProviderID of link address %q", existingDoc.Value)
}
if existingDoc.ProviderID != newDoc.ProviderID {
// Need to insert the new provider id in providerIDsC
id := network.Id(newDoc.ProviderID)
ops = append(ops, m.st.networkEntityGlobalKeyOp("address", id))
}
}
} else {
return nil, errors.Trace(err)
}
ops, err = m.maybeAssertSubnetAliveOps(&newDoc, ops)
if err != nil {
return nil, errors.Trace(err)
}
}
return ops, nil
}
func (s *SpacesSuite) TestAddSpaceWithMultipleIPv4AndIPv6SubnetsAndNonEmptyProviderId(c *gc.C) {
args := addSpaceArgs{
Name: "my-space",
ProviderId: network.Id("My Provider ID"),
SubnetCIDRs: []string{"fc00:123::/64", "2.2.2.0/20", "fc00:321::/64", "1.1.1.0/24"},
}
space, err := s.addSpaceWithSubnets(c, args)
c.Assert(err, jc.ErrorIsNil)
s.assertSpaceMatchesArgs(c, space, args)
}
