// setAllocatedOrRelease tries to associate the newly allocated // address addr with the container. On failure it makes the best // effort to cleanup and release addr, logging issues along the way. func (p *ProvisionerAPI) setAllocatedOrRelease( addr *state.IPAddress, environ environs.NetworkingEnviron, instId instance.Id, container *state.Machine, subnetId network.Id, macAddress string, ) (err error) { defer func() { if errors.Cause(err) == nil { // Success! return } logger.Warningf( "failed to mark address %q as %q to container %q: %v (releasing and retrying)", addr.String(), state.AddressStateAllocated, container, err, ) // It's as good as unavailable for us, so mark it as // such. err = setAddrState(addr, state.AddressStateUnavailable) if err != nil { logger.Warningf( "cannot set address %q to %q: %v (ignoring and releasing)", addr.String(), state.AddressStateUnavailable, err, ) } err = environ.ReleaseAddress(instId, subnetId, addr.Address(), addr.MACAddress(), "") if err == nil { logger.Infof("address %q released; trying to allocate new", addr.String()) return } logger.Warningf( "failed to release address %q on instance %q and subnet %q: %v (ignoring and retrying)", addr.String(), instId, subnetId, err, ) }() // Any errors returned below will trigger the release/cleanup // steps above. if err = allocateAddrTo(addr, container, macAddress); err != nil { return errors.Trace(err) } if err = setAddrsTo(addr, container); err != nil { return errors.Trace(err) } logger.Infof("assigned address %q to container %q", addr.String(), container) return nil }
func (a *addresserHandler) releaseIPAddress(addr *state.IPAddress) (err error) { defer errors.DeferredAnnotatef(&err, "failed to release address %v", addr.Value()) logger.Debugf("attempting to release dead address %#v", addr.Value()) subnetId := network.Id(addr.SubnetId()) for attempt := common.ShortAttempt.Start(); attempt.Next(); { err = a.releaser.ReleaseAddress(addr.InstanceId(), subnetId, addr.Address(), addr.MACAddress()) if err == nil { return nil } } // Don't remove the address from state so we // can retry releasing the address later. logger.Warningf("cannot release address %q: %v (will retry)", addr.Value(), err) return errors.Trace(err) }
func (s *IPAddressSuite) assertAddress( c *gc.C, ipAddr *state.IPAddress, addr network.Address, ipState state.AddressState, machineId, ifaceId, subnetId string, ) { c.Assert(ipAddr, gc.NotNil) c.Assert(ipAddr.MachineId(), gc.Equals, machineId) c.Assert(ipAddr.InterfaceId(), gc.Equals, ifaceId) c.Assert(ipAddr.SubnetId(), gc.Equals, subnetId) c.Assert(ipAddr.Value(), gc.Equals, addr.Value) c.Assert(ipAddr.Type(), gc.Equals, addr.Type) c.Assert(ipAddr.Scope(), gc.Equals, addr.Scope) c.Assert(ipAddr.State(), gc.Equals, ipState) c.Assert(ipAddr.Address(), jc.DeepEquals, addr) c.Assert(ipAddr.String(), gc.Equals, addr.String()) c.Assert(ipAddr.Id(), gc.Equals, s.State.EnvironUUID()+":"+addr.Value) c.Assert(ipAddr.InstanceId(), gc.Equals, instance.UnknownId) c.Assert(ipAddr.MACAddress(), gc.Equals, "") }
// legacyPrepareOrGetContainerInterfaceInfo optionally allocates an address and // returns information for configuring networking on a container. It accepts // container tags as arguments. func (p *ProvisionerAPI) legacyPrepareOrGetContainerInterfaceInfo( args params.Entities, provisionContainer bool, ) ( params.MachineNetworkConfigResults, error, ) { result := params.MachineNetworkConfigResults{ Results: make([]params.MachineNetworkConfigResult, len(args.Entities)), } // Some preparations first. environ, host, canAccess, err := p.prepareContainerAccessEnvironment() if err != nil { return result, errors.Trace(err) } instId, err := host.InstanceId() if err != nil && errors.IsNotProvisioned(err) { // If the host machine is not provisioned yet, we have nothing // to do. NotProvisionedf will append " not provisioned" to // the message. err = errors.NotProvisionedf("cannot allocate addresses: host machine %q", host) return result, err } var subnet *state.Subnet var subnetInfo network.SubnetInfo var interfaceInfo network.InterfaceInfo if environs.AddressAllocationEnabled() { // We don't need a subnet unless we need to allocate a static IP. subnet, subnetInfo, interfaceInfo, err = p.prepareAllocationNetwork(environ, instId) if err != nil { return result, errors.Annotate(err, "cannot allocate addresses") } } else { var allInterfaceInfos []network.InterfaceInfo allInterfaceInfos, err = environ.NetworkInterfaces(instId) if err != nil { return result, errors.Annotatef(err, "cannot instance %q interfaces", instId) } else if len(allInterfaceInfos) == 0 { return result, errors.New("no interfaces available") } // Currently we only support a single NIC per container, so we only need // the information from the host instance's first NIC. logger.Tracef("interfaces for instance %q: %v", instId, allInterfaceInfos) interfaceInfo = allInterfaceInfos[0] } // Loop over the passed container tags. for i, entity := range args.Entities { tag, err := names.ParseMachineTag(entity.Tag) if err != nil { result.Results[i].Error = common.ServerError(err) continue } // The auth function (canAccess) checks that the machine is a // top level machine (we filter those out next) or that the // machine has the host as a parent. container, err := p.getMachine(canAccess, tag) if err != nil { result.Results[i].Error = common.ServerError(err) continue } else if !container.IsContainer() { err = errors.Errorf("cannot allocate address for %q: not a container", tag) result.Results[i].Error = common.ServerError(err) continue } else if ciid, cerr := container.InstanceId(); provisionContainer == true && cerr == nil { // Since we want to configure and create NICs on the // container before it starts, it must also be not // provisioned yet. err = errors.Errorf("container %q already provisioned as %q", container, ciid) result.Results[i].Error = common.ServerError(err) continue } else if cerr != nil && !errors.IsNotProvisioned(cerr) { // Any other error needs to be reported. result.Results[i].Error = common.ServerError(cerr) continue } var macAddress string var address *state.IPAddress if provisionContainer { // Allocate and set an address. macAddress = generateMACAddress() address, err = p.allocateAddress(environ, subnet, host, container, instId, macAddress) if err != nil { err = errors.Annotatef(err, "failed to allocate an address for %q", container) result.Results[i].Error = common.ServerError(err) continue } } else { id := container.Id() addresses, err := p.st.AllocatedIPAddresses(id) if err != nil { logger.Warningf("failed to get Id for container %q: %v", tag, err) result.Results[i].Error = common.ServerError(err) continue } // TODO(dooferlad): if we get more than 1 address back, we ignore everything after // the first. The calling function expects exactly one result though, // so we don't appear to have a way of allocating >1 address to a // container... if len(addresses) != 1 { logger.Warningf("got %d addresses for container %q - expected 1: %v", len(addresses), tag, err) result.Results[i].Error = common.ServerError(err) continue } address = addresses[0] macAddress = address.MACAddress() } // Store it on the machine, construct and set an interface result. dnsServers := make([]string, len(interfaceInfo.DNSServers)) for l, dns := range interfaceInfo.DNSServers { dnsServers[l] = dns.Value } if macAddress == "" { macAddress = interfaceInfo.MACAddress } interfaceType := string(interfaceInfo.InterfaceType) if interfaceType == "" { interfaceType = string(network.EthernetInterface) } // TODO(dimitern): Support allocating one address per NIC on // the host, effectively creating the same number of NICs in // the container. result.Results[i] = params.MachineNetworkConfigResult{ Config: []params.NetworkConfig{{ DeviceIndex: interfaceInfo.DeviceIndex, MACAddress: macAddress, CIDR: subnetInfo.CIDR, NetworkName: interfaceInfo.NetworkName, ProviderId: string(interfaceInfo.ProviderId), ProviderSubnetId: string(subnetInfo.ProviderId), VLANTag: interfaceInfo.VLANTag, InterfaceType: interfaceType, InterfaceName: interfaceInfo.InterfaceName, Disabled: interfaceInfo.Disabled, NoAutoStart: interfaceInfo.NoAutoStart, DNSServers: dnsServers, ConfigType: string(network.ConfigStatic), Address: address.Value(), GatewayAddress: interfaceInfo.GatewayAddress.Value, ExtraConfig: interfaceInfo.ExtraConfig, }}, } } return result, nil }