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bridge.go
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bridge.go
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package bridge
import (
"errors"
"fmt"
"io/ioutil"
"net"
"os"
"os/exec"
"path/filepath"
"strconv"
"sync"
"syscall"
"github.com/docker/libnetwork/datastore"
"github.com/docker/libnetwork/discoverapi"
"github.com/docker/libnetwork/driverapi"
"github.com/docker/libnetwork/iptables"
"github.com/docker/libnetwork/netlabel"
"github.com/docker/libnetwork/netutils"
"github.com/docker/libnetwork/ns"
"github.com/docker/libnetwork/options"
"github.com/docker/libnetwork/osl"
"github.com/docker/libnetwork/portmapper"
"github.com/docker/libnetwork/types"
"github.com/sirupsen/logrus"
"github.com/vishvananda/netlink"
)
const (
networkType = "bridge"
vethPrefix = "veth"
vethLen = 7
defaultContainerVethPrefix = "eth"
maxAllocatePortAttempts = 10
)
const (
// DefaultGatewayV4AuxKey represents the default-gateway configured by the user
DefaultGatewayV4AuxKey = "DefaultGatewayIPv4"
// DefaultGatewayV6AuxKey represents the ipv6 default-gateway configured by the user
DefaultGatewayV6AuxKey = "DefaultGatewayIPv6"
)
type defaultBridgeNetworkConflict struct {
ID string
}
func (d defaultBridgeNetworkConflict) Error() string {
return fmt.Sprintf("Stale default bridge network %s", d.ID)
}
type iptableCleanFunc func() error
type iptablesCleanFuncs []iptableCleanFunc
// configuration info for the "bridge" driver.
type configuration struct {
EnableIPForwarding bool
EnableIPTables bool
EnableIP6Tables bool
EnableUserlandProxy bool
UserlandProxyPath string
}
// networkConfiguration for network specific configuration
type networkConfiguration struct {
ID string
BridgeName string
EnableIPv6 bool
EnableIPMasquerade bool
EnableICC bool
InhibitIPv4 bool
Mtu int
DefaultBindingIP net.IP
DefaultBridge bool
HostIP net.IP
ContainerIfacePrefix string
// Internal fields set after ipam data parsing
AddressIPv4 *net.IPNet
AddressIPv6 *net.IPNet
DefaultGatewayIPv4 net.IP
DefaultGatewayIPv6 net.IP
dbIndex uint64
dbExists bool
Internal bool
BridgeIfaceCreator ifaceCreator
}
// ifaceCreator represents how the bridge interface was created
type ifaceCreator int8
const (
ifaceCreatorUnknown ifaceCreator = iota
ifaceCreatedByLibnetwork
ifaceCreatedByUser
)
// endpointConfiguration represents the user specified configuration for the sandbox endpoint
type endpointConfiguration struct {
MacAddress net.HardwareAddr
}
// containerConfiguration represents the user specified configuration for a container
type containerConfiguration struct {
ParentEndpoints []string
ChildEndpoints []string
}
// connectivityConfiguration represents the user specified configuration regarding the external connectivity
type connectivityConfiguration struct {
PortBindings []types.PortBinding
ExposedPorts []types.TransportPort
}
type bridgeEndpoint struct {
id string
nid string
srcName string
addr *net.IPNet
addrv6 *net.IPNet
macAddress net.HardwareAddr
config *endpointConfiguration // User specified parameters
containerConfig *containerConfiguration
extConnConfig *connectivityConfiguration
portMapping []types.PortBinding // Operation port bindings
dbIndex uint64
dbExists bool
}
type bridgeNetwork struct {
id string
bridge *bridgeInterface // The bridge's L3 interface
config *networkConfiguration
endpoints map[string]*bridgeEndpoint // key: endpoint id
portMapper *portmapper.PortMapper
portMapperV6 *portmapper.PortMapper
driver *driver // The network's driver
iptCleanFuncs iptablesCleanFuncs
sync.Mutex
}
type driver struct {
config *configuration
network *bridgeNetwork
natChain *iptables.ChainInfo
filterChain *iptables.ChainInfo
isolationChain1 *iptables.ChainInfo
isolationChain2 *iptables.ChainInfo
natChainV6 *iptables.ChainInfo
filterChainV6 *iptables.ChainInfo
isolationChain1V6 *iptables.ChainInfo
isolationChain2V6 *iptables.ChainInfo
networks map[string]*bridgeNetwork
store datastore.DataStore
nlh *netlink.Handle
configNetwork sync.Mutex
sync.Mutex
}
// New constructs a new bridge driver
func newDriver() *driver {
return &driver{networks: map[string]*bridgeNetwork{}, config: &configuration{}}
}
// Init registers a new instance of bridge driver
func Init(dc driverapi.DriverCallback, config map[string]interface{}) error {
d := newDriver()
if err := d.configure(config); err != nil {
return err
}
c := driverapi.Capability{
DataScope: datastore.LocalScope,
ConnectivityScope: datastore.LocalScope,
}
return dc.RegisterDriver(networkType, d, c)
}
// Validate performs a static validation on the network configuration parameters.
// Whatever can be assessed a priori before attempting any programming.
func (c *networkConfiguration) Validate() error {
if c.Mtu < 0 {
return ErrInvalidMtu(c.Mtu)
}
// If bridge v4 subnet is specified
if c.AddressIPv4 != nil {
// If default gw is specified, it must be part of bridge subnet
if c.DefaultGatewayIPv4 != nil {
if !c.AddressIPv4.Contains(c.DefaultGatewayIPv4) {
return &ErrInvalidGateway{}
}
}
}
// If default v6 gw is specified, AddressIPv6 must be specified and gw must belong to AddressIPv6 subnet
if c.EnableIPv6 && c.DefaultGatewayIPv6 != nil {
if c.AddressIPv6 == nil || !c.AddressIPv6.Contains(c.DefaultGatewayIPv6) {
return &ErrInvalidGateway{}
}
}
return nil
}
// Conflicts check if two NetworkConfiguration objects overlap
func (c *networkConfiguration) Conflicts(o *networkConfiguration) error {
if o == nil {
return errors.New("same configuration")
}
// Also empty, because only one network with empty name is allowed
if c.BridgeName == o.BridgeName {
return errors.New("networks have same bridge name")
}
// They must be in different subnets
if (c.AddressIPv4 != nil && o.AddressIPv4 != nil) &&
(c.AddressIPv4.Contains(o.AddressIPv4.IP) || o.AddressIPv4.Contains(c.AddressIPv4.IP)) {
return errors.New("networks have overlapping IPv4")
}
// They must be in different v6 subnets
if (c.AddressIPv6 != nil && o.AddressIPv6 != nil) &&
(c.AddressIPv6.Contains(o.AddressIPv6.IP) || o.AddressIPv6.Contains(c.AddressIPv6.IP)) {
return errors.New("networks have overlapping IPv6")
}
return nil
}
func (c *networkConfiguration) fromLabels(labels map[string]string) error {
var err error
for label, value := range labels {
switch label {
case BridgeName:
c.BridgeName = value
case netlabel.DriverMTU:
if c.Mtu, err = strconv.Atoi(value); err != nil {
return parseErr(label, value, err.Error())
}
case netlabel.EnableIPv6:
if c.EnableIPv6, err = strconv.ParseBool(value); err != nil {
return parseErr(label, value, err.Error())
}
case EnableIPMasquerade:
if c.EnableIPMasquerade, err = strconv.ParseBool(value); err != nil {
return parseErr(label, value, err.Error())
}
case EnableICC:
if c.EnableICC, err = strconv.ParseBool(value); err != nil {
return parseErr(label, value, err.Error())
}
case InhibitIPv4:
if c.InhibitIPv4, err = strconv.ParseBool(value); err != nil {
return parseErr(label, value, err.Error())
}
case DefaultBridge:
if c.DefaultBridge, err = strconv.ParseBool(value); err != nil {
return parseErr(label, value, err.Error())
}
case DefaultBindingIP:
if c.DefaultBindingIP = net.ParseIP(value); c.DefaultBindingIP == nil {
return parseErr(label, value, "nil ip")
}
case netlabel.ContainerIfacePrefix:
c.ContainerIfacePrefix = value
case netlabel.HostIP:
if c.HostIP = net.ParseIP(value); c.HostIP == nil {
return parseErr(label, value, "nil ip")
}
}
}
return nil
}
func parseErr(label, value, errString string) error {
return types.BadRequestErrorf("failed to parse %s value: %v (%s)", label, value, errString)
}
func (n *bridgeNetwork) registerIptCleanFunc(clean iptableCleanFunc) {
n.iptCleanFuncs = append(n.iptCleanFuncs, clean)
}
func (n *bridgeNetwork) getDriverChains(version iptables.IPVersion) (*iptables.ChainInfo, *iptables.ChainInfo, *iptables.ChainInfo, *iptables.ChainInfo, error) {
n.Lock()
defer n.Unlock()
if n.driver == nil {
return nil, nil, nil, nil, types.BadRequestErrorf("no driver found")
}
if version == iptables.IPv6 {
return n.driver.natChainV6, n.driver.filterChainV6, n.driver.isolationChain1V6, n.driver.isolationChain2V6, nil
}
return n.driver.natChain, n.driver.filterChain, n.driver.isolationChain1, n.driver.isolationChain2, nil
}
func (n *bridgeNetwork) getNetworkBridgeName() string {
n.Lock()
config := n.config
n.Unlock()
return config.BridgeName
}
func (n *bridgeNetwork) getEndpoint(eid string) (*bridgeEndpoint, error) {
n.Lock()
defer n.Unlock()
if eid == "" {
return nil, InvalidEndpointIDError(eid)
}
if ep, ok := n.endpoints[eid]; ok {
return ep, nil
}
return nil, nil
}
// Install/Removes the iptables rules needed to isolate this network
// from each of the other networks
func (n *bridgeNetwork) isolateNetwork(others []*bridgeNetwork, enable bool) error {
n.Lock()
thisConfig := n.config
n.Unlock()
if thisConfig.Internal {
return nil
}
// Install the rules to isolate this network against each of the other networks
if n.driver.config.EnableIP6Tables {
err := setINC(iptables.IPv6, thisConfig.BridgeName, enable)
if err != nil {
return err
}
}
if n.driver.config.EnableIPTables {
return setINC(iptables.IPv4, thisConfig.BridgeName, enable)
}
return nil
}
func (d *driver) configure(option map[string]interface{}) error {
var (
config *configuration
err error
natChain *iptables.ChainInfo
filterChain *iptables.ChainInfo
isolationChain1 *iptables.ChainInfo
isolationChain2 *iptables.ChainInfo
natChainV6 *iptables.ChainInfo
filterChainV6 *iptables.ChainInfo
isolationChain1V6 *iptables.ChainInfo
isolationChain2V6 *iptables.ChainInfo
)
genericData, ok := option[netlabel.GenericData]
if !ok || genericData == nil {
return nil
}
switch opt := genericData.(type) {
case options.Generic:
opaqueConfig, err := options.GenerateFromModel(opt, &configuration{})
if err != nil {
return err
}
config = opaqueConfig.(*configuration)
case *configuration:
config = opt
default:
return &ErrInvalidDriverConfig{}
}
if config.EnableIPTables || config.EnableIP6Tables {
if _, err := os.Stat("/proc/sys/net/bridge"); err != nil {
if out, err := exec.Command("modprobe", "-va", "bridge", "br_netfilter").CombinedOutput(); err != nil {
logrus.Warnf("Running modprobe bridge br_netfilter failed with message: %s, error: %v", out, err)
}
}
}
if config.EnableIPTables {
removeIPChains(iptables.IPv4)
natChain, filterChain, isolationChain1, isolationChain2, err = setupIPChains(config, iptables.IPv4)
if err != nil {
return err
}
// Make sure on firewall reload, first thing being re-played is chains creation
iptables.OnReloaded(func() {
logrus.Debugf("Recreating iptables chains on firewall reload")
setupIPChains(config, iptables.IPv4)
})
}
if config.EnableIP6Tables {
removeIPChains(iptables.IPv6)
natChainV6, filterChainV6, isolationChain1V6, isolationChain2V6, err = setupIPChains(config, iptables.IPv6)
if err != nil {
return err
}
// Make sure on firewall reload, first thing being re-played is chains creation
iptables.OnReloaded(func() {
logrus.Debugf("Recreating ip6tables chains on firewall reload")
setupIPChains(config, iptables.IPv6)
})
}
if config.EnableIPForwarding {
err = setupIPForwarding(config.EnableIPTables, config.EnableIP6Tables)
if err != nil {
logrus.Warn(err)
return err
}
}
d.Lock()
d.natChain = natChain
d.filterChain = filterChain
d.isolationChain1 = isolationChain1
d.isolationChain2 = isolationChain2
d.natChainV6 = natChainV6
d.filterChainV6 = filterChainV6
d.isolationChain1V6 = isolationChain1V6
d.isolationChain2V6 = isolationChain2V6
d.config = config
d.Unlock()
err = d.initStore(option)
if err != nil {
return err
}
return nil
}
func (d *driver) getNetwork(id string) (*bridgeNetwork, error) {
d.Lock()
defer d.Unlock()
if id == "" {
return nil, types.BadRequestErrorf("invalid network id: %s", id)
}
if nw, ok := d.networks[id]; ok {
return nw, nil
}
return nil, types.NotFoundErrorf("network not found: %s", id)
}
func parseNetworkGenericOptions(data interface{}) (*networkConfiguration, error) {
var (
err error
config *networkConfiguration
)
switch opt := data.(type) {
case *networkConfiguration:
config = opt
case map[string]string:
config = &networkConfiguration{
EnableICC: true,
EnableIPMasquerade: true,
}
err = config.fromLabels(opt)
case options.Generic:
var opaqueConfig interface{}
if opaqueConfig, err = options.GenerateFromModel(opt, config); err == nil {
config = opaqueConfig.(*networkConfiguration)
}
default:
err = types.BadRequestErrorf("do not recognize network configuration format: %T", opt)
}
return config, err
}
func (c *networkConfiguration) processIPAM(id string, ipamV4Data, ipamV6Data []driverapi.IPAMData) error {
if len(ipamV4Data) > 1 || len(ipamV6Data) > 1 {
return types.ForbiddenErrorf("bridge driver doesn't support multiple subnets")
}
if len(ipamV4Data) == 0 {
return types.BadRequestErrorf("bridge network %s requires ipv4 configuration", id)
}
if ipamV4Data[0].Gateway != nil {
c.AddressIPv4 = types.GetIPNetCopy(ipamV4Data[0].Gateway)
}
if gw, ok := ipamV4Data[0].AuxAddresses[DefaultGatewayV4AuxKey]; ok {
c.DefaultGatewayIPv4 = gw.IP
}
if len(ipamV6Data) > 0 {
c.AddressIPv6 = ipamV6Data[0].Pool
if ipamV6Data[0].Gateway != nil {
c.AddressIPv6 = types.GetIPNetCopy(ipamV6Data[0].Gateway)
}
if gw, ok := ipamV6Data[0].AuxAddresses[DefaultGatewayV6AuxKey]; ok {
c.DefaultGatewayIPv6 = gw.IP
}
}
return nil
}
func parseNetworkOptions(id string, option options.Generic) (*networkConfiguration, error) {
var (
err error
config = &networkConfiguration{}
)
// Parse generic label first, config will be re-assigned
if genData, ok := option[netlabel.GenericData]; ok && genData != nil {
if config, err = parseNetworkGenericOptions(genData); err != nil {
return nil, err
}
}
// Process well-known labels next
if val, ok := option[netlabel.EnableIPv6]; ok {
config.EnableIPv6 = val.(bool)
}
if val, ok := option[netlabel.Internal]; ok {
if internal, ok := val.(bool); ok && internal {
config.Internal = true
}
}
// Finally validate the configuration
if err = config.Validate(); err != nil {
return nil, err
}
if config.BridgeName == "" && config.DefaultBridge == false {
config.BridgeName = "br-" + id[:12]
}
exists, err := bridgeInterfaceExists(config.BridgeName)
if err != nil {
return nil, err
}
if !exists {
config.BridgeIfaceCreator = ifaceCreatedByLibnetwork
} else {
config.BridgeIfaceCreator = ifaceCreatedByUser
}
config.ID = id
return config, nil
}
// Returns the non link-local IPv6 subnet for the containers attached to this bridge if found, nil otherwise
func getV6Network(config *networkConfiguration, i *bridgeInterface) *net.IPNet {
if config.AddressIPv6 != nil {
return config.AddressIPv6
}
if i.bridgeIPv6 != nil && i.bridgeIPv6.IP != nil && !i.bridgeIPv6.IP.IsLinkLocalUnicast() {
return i.bridgeIPv6
}
return nil
}
// Return a slice of networks over which caller can iterate safely
func (d *driver) getNetworks() []*bridgeNetwork {
d.Lock()
defer d.Unlock()
ls := make([]*bridgeNetwork, 0, len(d.networks))
for _, nw := range d.networks {
ls = append(ls, nw)
}
return ls
}
func (d *driver) NetworkAllocate(id string, option map[string]string, ipV4Data, ipV6Data []driverapi.IPAMData) (map[string]string, error) {
return nil, types.NotImplementedErrorf("not implemented")
}
func (d *driver) NetworkFree(id string) error {
return types.NotImplementedErrorf("not implemented")
}
func (d *driver) EventNotify(etype driverapi.EventType, nid, tableName, key string, value []byte) {
}
func (d *driver) DecodeTableEntry(tablename string, key string, value []byte) (string, map[string]string) {
return "", nil
}
// Create a new network using bridge plugin
func (d *driver) CreateNetwork(id string, option map[string]interface{}, nInfo driverapi.NetworkInfo, ipV4Data, ipV6Data []driverapi.IPAMData) error {
if len(ipV4Data) == 0 || ipV4Data[0].Pool.String() == "0.0.0.0/0" {
return types.BadRequestErrorf("ipv4 pool is empty")
}
// Sanity checks
d.Lock()
if _, ok := d.networks[id]; ok {
d.Unlock()
return types.ForbiddenErrorf("network %s exists", id)
}
d.Unlock()
// Parse and validate the config. It should not be conflict with existing networks' config
config, err := parseNetworkOptions(id, option)
if err != nil {
return err
}
if err = config.processIPAM(id, ipV4Data, ipV6Data); err != nil {
return err
}
// start the critical section, from this point onward we are dealing with the list of networks
// so to be consistent we cannot allow that the list changes
d.configNetwork.Lock()
defer d.configNetwork.Unlock()
// check network conflicts
if err = d.checkConflict(config); err != nil {
nerr, ok := err.(defaultBridgeNetworkConflict)
if !ok {
return err
}
// Got a conflict with a stale default network, clean that up and continue
logrus.Warn(nerr)
d.deleteNetwork(nerr.ID)
}
// there is no conflict, now create the network
if err = d.createNetwork(config); err != nil {
return err
}
return d.storeUpdate(config)
}
func (d *driver) checkConflict(config *networkConfiguration) error {
networkList := d.getNetworks()
for _, nw := range networkList {
nw.Lock()
nwConfig := nw.config
nw.Unlock()
if err := nwConfig.Conflicts(config); err != nil {
if nwConfig.DefaultBridge {
// We encountered and identified a stale default network
// We must delete it as libnetwork is the source of truth
// The default network being created must be the only one
// This can happen only from docker 1.12 on ward
logrus.Infof("Found stale default bridge network %s (%s)", nwConfig.ID, nwConfig.BridgeName)
return defaultBridgeNetworkConflict{nwConfig.ID}
}
return types.ForbiddenErrorf("cannot create network %s (%s): conflicts with network %s (%s): %s",
config.ID, config.BridgeName, nwConfig.ID, nwConfig.BridgeName, err.Error())
}
}
return nil
}
func (d *driver) createNetwork(config *networkConfiguration) (err error) {
defer osl.InitOSContext()()
networkList := d.getNetworks()
// Initialize handle when needed
d.Lock()
if d.nlh == nil {
d.nlh = ns.NlHandle()
}
d.Unlock()
// Create or retrieve the bridge L3 interface
bridgeIface, err := newInterface(d.nlh, config)
if err != nil {
return err
}
// Create and set network handler in driver
network := &bridgeNetwork{
id: config.ID,
endpoints: make(map[string]*bridgeEndpoint),
config: config,
portMapper: portmapper.New(d.config.UserlandProxyPath),
portMapperV6: portmapper.New(d.config.UserlandProxyPath),
bridge: bridgeIface,
driver: d,
}
d.Lock()
d.networks[config.ID] = network
d.Unlock()
// On failure make sure to reset driver network handler to nil
defer func() {
if err != nil {
d.Lock()
delete(d.networks, config.ID)
d.Unlock()
}
}()
// Add inter-network communication rules.
setupNetworkIsolationRules := func(config *networkConfiguration, i *bridgeInterface) error {
if err := network.isolateNetwork(networkList, true); err != nil {
if err = network.isolateNetwork(networkList, false); err != nil {
logrus.Warnf("Failed on removing the inter-network iptables rules on cleanup: %v", err)
}
return err
}
// register the cleanup function
network.registerIptCleanFunc(func() error {
nwList := d.getNetworks()
return network.isolateNetwork(nwList, false)
})
return nil
}
// Prepare the bridge setup configuration
bridgeSetup := newBridgeSetup(config, bridgeIface)
// If the bridge interface doesn't exist, we need to start the setup steps
// by creating a new device and assigning it an IPv4 address.
bridgeAlreadyExists := bridgeIface.exists()
if !bridgeAlreadyExists {
bridgeSetup.queueStep(setupDevice)
bridgeSetup.queueStep(setupDefaultSysctl)
}
// For the default bridge, set expected sysctls
if config.DefaultBridge {
bridgeSetup.queueStep(setupDefaultSysctl)
}
// Even if a bridge exists try to setup IPv4.
bridgeSetup.queueStep(setupBridgeIPv4)
enableIPv6Forwarding := d.config.EnableIPForwarding && config.AddressIPv6 != nil
// Conditionally queue setup steps depending on configuration values.
for _, step := range []struct {
Condition bool
Fn setupStep
}{
// Enable IPv6 on the bridge if required. We do this even for a
// previously existing bridge, as it may be here from a previous
// installation where IPv6 wasn't supported yet and needs to be
// assigned an IPv6 link-local address.
{config.EnableIPv6, setupBridgeIPv6},
// We ensure that the bridge has the expectedIPv4 and IPv6 addresses in
// the case of a previously existing device.
{bridgeAlreadyExists && !config.InhibitIPv4, setupVerifyAndReconcile},
// Enable IPv6 Forwarding
{enableIPv6Forwarding, setupIPv6Forwarding},
// Setup Loopback Addresses Routing
{!d.config.EnableUserlandProxy, setupLoopbackAddressesRouting},
// Setup IPTables.
{d.config.EnableIPTables, network.setupIP4Tables},
// Setup IP6Tables.
{config.EnableIPv6 && d.config.EnableIP6Tables, network.setupIP6Tables},
// We want to track firewalld configuration so that
// if it is started/reloaded, the rules can be applied correctly
{d.config.EnableIPTables, network.setupFirewalld},
// same for IPv6
{config.EnableIPv6 && d.config.EnableIP6Tables, network.setupFirewalld6},
// Setup DefaultGatewayIPv4
{config.DefaultGatewayIPv4 != nil, setupGatewayIPv4},
// Setup DefaultGatewayIPv6
{config.DefaultGatewayIPv6 != nil, setupGatewayIPv6},
// Add inter-network communication rules.
{d.config.EnableIPTables, setupNetworkIsolationRules},
// Configure bridge networking filtering if ICC is off and IP tables are enabled
{!config.EnableICC && d.config.EnableIPTables, setupBridgeNetFiltering},
} {
if step.Condition {
bridgeSetup.queueStep(step.Fn)
}
}
// Apply the prepared list of steps, and abort at the first error.
bridgeSetup.queueStep(setupDeviceUp)
return bridgeSetup.apply()
}
func (d *driver) DeleteNetwork(nid string) error {
d.configNetwork.Lock()
defer d.configNetwork.Unlock()
return d.deleteNetwork(nid)
}
func (d *driver) deleteNetwork(nid string) error {
var err error
defer osl.InitOSContext()()
// Get network handler and remove it from driver
d.Lock()
n, ok := d.networks[nid]
d.Unlock()
if !ok {
return types.InternalMaskableErrorf("network %s does not exist", nid)
}
n.Lock()
config := n.config
n.Unlock()
// delele endpoints belong to this network
for _, ep := range n.endpoints {
if err := n.releasePorts(ep); err != nil {
logrus.Warn(err)
}
if link, err := d.nlh.LinkByName(ep.srcName); err == nil {
if err := d.nlh.LinkDel(link); err != nil {
logrus.WithError(err).Errorf("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 bridge endpoint %.7s from store: %v", ep.id, err)
}
}
d.Lock()
delete(d.networks, nid)
d.Unlock()
// On failure set network handler back in driver, but
// only if is not already taken over by some other thread
defer func() {
if err != nil {
d.Lock()
if _, ok := d.networks[nid]; !ok {
d.networks[nid] = n
}
d.Unlock()
}
}()
switch config.BridgeIfaceCreator {
case ifaceCreatedByLibnetwork, ifaceCreatorUnknown:
// We only delete the bridge if it was created by the bridge driver and
// it is not the default one (to keep the backward compatible behavior.)
if !config.DefaultBridge {
if err := d.nlh.LinkDel(n.bridge.Link); err != nil {
logrus.Warnf("Failed to remove bridge interface %s on network %s delete: %v", config.BridgeName, nid, err)
}
}
case ifaceCreatedByUser:
// Don't delete the bridge interface if it was not created by libnetwork.
}
// clean all relevant iptables rules
for _, cleanFunc := range n.iptCleanFuncs {
if errClean := cleanFunc(); errClean != nil {
logrus.Warnf("Failed to clean iptables rules for bridge network: %v", errClean)
}
}
return d.storeDelete(config)
}
func addToBridge(nlh *netlink.Handle, ifaceName, bridgeName string) error {
link, err := nlh.LinkByName(ifaceName)
if err != nil {
return fmt.Errorf("could not find interface %s: %v", ifaceName, err)
}
if err = nlh.LinkSetMaster(link,
&netlink.Bridge{LinkAttrs: netlink.LinkAttrs{Name: bridgeName}}); err != nil {
logrus.Debugf("Failed to add %s to bridge via netlink.Trying ioctl: %v", ifaceName, err)
iface, err := net.InterfaceByName(ifaceName)
if err != nil {
return fmt.Errorf("could not find network interface %s: %v", ifaceName, err)
}
master, err := net.InterfaceByName(bridgeName)
if err != nil {
return fmt.Errorf("could not find bridge %s: %v", bridgeName, err)
}
return ioctlAddToBridge(iface, master)
}
return nil
}
func setHairpinMode(nlh *netlink.Handle, link netlink.Link, enable bool) error {
err := nlh.LinkSetHairpin(link, enable)
if err != nil && err != syscall.EINVAL {
// If error is not EINVAL something else went wrong, bail out right away
return fmt.Errorf("unable to set hairpin mode on %s via netlink: %v",
link.Attrs().Name, err)
}
// Hairpin mode successfully set up
if err == nil {
return nil
}
// The netlink method failed with EINVAL which is probably because of an older
// kernel. Try one more time via the sysfs method.
path := filepath.Join("/sys/class/net", link.Attrs().Name, "brport/hairpin_mode")
var val []byte
if enable {
val = []byte{'1', '\n'}
} else {
val = []byte{'0', '\n'}
}
if err := ioutil.WriteFile(path, val, 0644); err != nil {
return fmt.Errorf("unable to set hairpin mode on %s via sysfs: %v", link.Attrs().Name, err)
}
return nil
}
func (d *driver) CreateEndpoint(nid, eid string, ifInfo driverapi.InterfaceInfo, epOptions map[string]interface{}) error {
defer osl.InitOSContext()()
if ifInfo == nil {
return errors.New("invalid interface info passed")
}
// Get the network handler and make sure it exists
d.Lock()
n, ok := d.networks[nid]
dconfig := d.config
d.Unlock()
if !ok {
return types.NotFoundErrorf("network %s does not exist", nid)
}
if n == nil {
return driverapi.ErrNoNetwork(nid)
}
// Sanity check
n.Lock()
if n.id != nid {
n.Unlock()
return InvalidNetworkIDError(nid)
}
n.Unlock()
// Check if endpoint id is good and retrieve correspondent endpoint
ep, err := n.getEndpoint(eid)
if err != nil {
return err
}
// Endpoint with that id exists either on desired or other sandbox
if ep != nil {
return driverapi.ErrEndpointExists(eid)
}
// Try to convert the options to endpoint configuration
epConfig, err := parseEndpointOptions(epOptions)
if err != nil {
return err
}
// Create and add the endpoint
n.Lock()
endpoint := &bridgeEndpoint{id: eid, nid: nid, config: epConfig}
n.endpoints[eid] = endpoint
n.Unlock()
// On failure make sure to remove the endpoint
defer func() {
if err != nil {
n.Lock()
delete(n.endpoints, eid)