//go:build linux // +build linux package ipvlan import ( "fmt" "github.com/docker/docker/libnetwork/driverapi" "github.com/docker/docker/libnetwork/netlabel" "github.com/docker/docker/libnetwork/ns" "github.com/docker/docker/libnetwork/options" "github.com/docker/docker/libnetwork/osl" "github.com/docker/docker/libnetwork/types" "github.com/docker/docker/pkg/parsers/kernel" "github.com/docker/docker/pkg/stringid" "github.com/sirupsen/logrus" ) // CreateNetwork the network for the specified driver type func (d *driver) CreateNetwork(nid string, option map[string]interface{}, nInfo driverapi.NetworkInfo, ipV4Data, ipV6Data []driverapi.IPAMData) error { defer osl.InitOSContext()() kv, err := kernel.GetKernelVersion() if err != nil { return fmt.Errorf("failed to check kernel version for ipvlan driver support: %v", err) } // ensure Kernel version is >= v4.2 for ipvlan support if kv.Kernel < ipvlanKernelVer || (kv.Kernel == ipvlanKernelVer && kv.Major < ipvlanMajorVer) { return fmt.Errorf("kernel version failed to meet the minimum ipvlan kernel requirement of %d.%d, found %d.%d.%d", ipvlanKernelVer, ipvlanMajorVer, kv.Kernel, kv.Major, kv.Minor) } // reject a null v4 network if len(ipV4Data) == 0 || ipV4Data[0].Pool.String() == "0.0.0.0/0" { return fmt.Errorf("ipv4 pool is empty") } // parse and validate the config and bind to networkConfiguration config, err := parseNetworkOptions(nid, option) if err != nil { return err } config.processIPAM(ipV4Data, ipV6Data) // if parent interface not specified, create a dummy type link to use named dummy+net_id if config.Parent == "" { config.Parent = getDummyName(stringid.TruncateID(config.ID)) } foundExisting, err := d.createNetwork(config) if err != nil { return err } if foundExisting { return types.InternalMaskableErrorf("restoring existing network %s", config.ID) } // update persistent db, rollback on fail err = d.storeUpdate(config) if err != nil { d.deleteNetwork(config.ID) logrus.Debugf("encountered an error rolling back a network create for %s : %v", config.ID, err) return err } return nil } // createNetwork is used by new network callbacks and persistent network cache func (d *driver) createNetwork(config *configuration) (bool, error) { foundExisting := false networkList := d.getNetworks() for _, nw := range networkList { if config.Parent == nw.config.Parent { if config.ID != nw.config.ID { return false, fmt.Errorf("network %s is already using parent interface %s", getDummyName(stringid.TruncateID(nw.config.ID)), config.Parent) } logrus.Debugf("Create Network for the same ID %s\n", config.ID) foundExisting = true break } } if !parentExists(config.Parent) { // Create a dummy link if a dummy name is set for parent if dummyName := getDummyName(stringid.TruncateID(config.ID)); dummyName == config.Parent { err := createDummyLink(config.Parent, dummyName) if err != nil { return false, err } config.CreatedSlaveLink = true // notify the user in logs that they have limited communications logrus.Debugf("Empty -o parent= flags limit communications to other containers inside of network: %s", config.Parent) } else { // if the subinterface parent_iface.vlan_id checks do not pass, return err. // a valid example is 'eth0.10' for a parent iface 'eth0' with a vlan id '10' err := createVlanLink(config.Parent) if err != nil { return false, err } // if driver created the networks slave link, record it for future deletion config.CreatedSlaveLink = true } } if !foundExisting { n := &network{ id: config.ID, driver: d, endpoints: endpointTable{}, config: config, } // add the network d.addNetwork(n) } return foundExisting, nil } // DeleteNetwork deletes the network for the specified driver type func (d *driver) DeleteNetwork(nid string) error { defer osl.InitOSContext()() n := d.network(nid) if n == nil { return fmt.Errorf("network id %s not found", nid) } // if the driver created the slave interface, delete it, otherwise leave it if ok := n.config.CreatedSlaveLink; ok { // if the interface exists, only delete if it matches iface.vlan or dummy.net_id naming if ok := parentExists(n.config.Parent); ok { // only delete the link if it is named the net_id if n.config.Parent == getDummyName(stringid.TruncateID(nid)) { err := delDummyLink(n.config.Parent) if err != nil { logrus.Debugf("link %s was not deleted, continuing the delete network operation: %v", n.config.Parent, err) } } else { // only delete the link if it matches iface.vlan naming err := delVlanLink(n.config.Parent) if err != nil { logrus.Debugf("link %s was not deleted, continuing the delete network operation: %v", n.config.Parent, err) } } } } for _, ep := range n.endpoints { if link, err := ns.NlHandle().LinkByName(ep.srcName); err == nil { if err := ns.NlHandle().LinkDel(link); err != nil { logrus.WithError(err).Warnf("Failed to delete interface (%s)'s link on endpoint (%s) delete", ep.srcName, ep.id) } } if err := d.storeDelete(ep); err != nil { logrus.Warnf("Failed to remove ipvlan endpoint %.7s from store: %v", ep.id, err) } } // delete the *network d.deleteNetwork(nid) // delete the network record from persistent cache err := d.storeDelete(n.config) if err != nil { return fmt.Errorf("error deleting deleting id %s from datastore: %v", nid, err) } return nil } // parseNetworkOptions parses docker network options func parseNetworkOptions(id string, option options.Generic) (*configuration, error) { var ( err error config = &configuration{} ) // parse generic labels first if genData, ok := option[netlabel.GenericData]; ok && genData != nil { if config, err = parseNetworkGenericOptions(genData); err != nil { return nil, err } } if val, ok := option[netlabel.Internal]; ok { if internal, ok := val.(bool); ok && internal { config.Internal = true } } // verify the ipvlan mode from -o ipvlan_mode option switch config.IpvlanMode { case "": // default to ipvlan L2 mode if -o ipvlan_mode is empty config.IpvlanMode = modeL2 case modeL2, modeL3, modeL3S: // valid option default: return nil, fmt.Errorf("requested ipvlan mode '%s' is not valid, 'l2' mode is the ipvlan driver default", config.IpvlanMode) } // verify the ipvlan flag from -o ipvlan_flag option switch config.IpvlanFlag { case "": // default to bridge if -o ipvlan_flag is empty config.IpvlanFlag = flagBridge case flagBridge, flagPrivate, flagVepa: // valid option default: return nil, fmt.Errorf("requested ipvlan flag '%s' is not valid, 'bridge' is the ipvlan driver default", config.IpvlanFlag) } // loopback is not a valid parent link if config.Parent == "lo" { return nil, fmt.Errorf("loopback interface is not a valid ipvlan parent link") } config.ID = id return config, nil } // parseNetworkGenericOptions parse generic driver docker network options func parseNetworkGenericOptions(data interface{}) (*configuration, error) { switch opt := data.(type) { case *configuration: return opt, nil case map[string]string: return newConfigFromLabels(opt), nil case options.Generic: var config *configuration opaqueConfig, err := options.GenerateFromModel(opt, config) if err != nil { return nil, err } return opaqueConfig.(*configuration), nil default: return nil, types.BadRequestErrorf("unrecognized network configuration format: %v", opt) } } // newConfigFromLabels creates a new configuration from the given labels. func newConfigFromLabels(labels map[string]string) *configuration { config := &configuration{} for label, value := range labels { switch label { case parentOpt: // parse driver option '-o parent' config.Parent = value case driverModeOpt: // parse driver option '-o ipvlan_mode' config.IpvlanMode = value case driverFlagOpt: // parse driver option '-o ipvlan_flag' config.IpvlanFlag = value } } return config } // processIPAM parses v4 and v6 IP information and binds it to the network configuration func (config *configuration) processIPAM(ipamV4Data, ipamV6Data []driverapi.IPAMData) { for _, ipd := range ipamV4Data { config.Ipv4Subnets = append(config.Ipv4Subnets, &ipSubnet{ SubnetIP: ipd.Pool.String(), GwIP: ipd.Gateway.String(), }) } for _, ipd := range ipamV6Data { config.Ipv6Subnets = append(config.Ipv6Subnets, &ipSubnet{ SubnetIP: ipd.Pool.String(), GwIP: ipd.Gateway.String(), }) } }