package libnetwork import ( "container/heap" "encoding/json" "fmt" "net" "strings" "sync" "time" log "github.com/Sirupsen/logrus" "github.com/docker/libnetwork/etchosts" "github.com/docker/libnetwork/netlabel" "github.com/docker/libnetwork/osl" "github.com/docker/libnetwork/types" ) // Sandbox provides the control over the network container entity. It is a one to one mapping with the container. type Sandbox interface { // ID returns the ID of the sandbox ID() string // Key returns the sandbox's key Key() string // ContainerID returns the container id associated to this sandbox ContainerID() string // Labels returns the sandbox's labels Labels() map[string]interface{} // Statistics retrieves the interfaces' statistics for the sandbox Statistics() (map[string]*types.InterfaceStatistics, error) // Refresh leaves all the endpoints, resets and re-applies the options, // re-joins all the endpoints without destroying the osl sandbox Refresh(options ...SandboxOption) error // SetKey updates the Sandbox Key SetKey(key string) error // Rename changes the name of all attached Endpoints Rename(name string) error // Delete destroys this container after detaching it from all connected endpoints. Delete() error // ResolveName resolves a service name to an IPv4 or IPv6 address by searching // the networks the sandbox is connected to. For IPv6 queries, second return // value will be true if the name exists in docker domain but doesn't have an // IPv6 address. Such queries shouldn't be forwarded to external nameservers. ResolveName(name string, iplen int) ([]net.IP, bool) // ResolveIP returns the service name for the passed in IP. IP is in reverse dotted // notation; the format used for DNS PTR records ResolveIP(name string) string // ResolveService returns all the backend details about the containers or hosts // backing a service. Its purpose is to satisfy an SRV query ResolveService(name string) ([]*net.SRV, []net.IP, error) // Endpoints returns all the endpoints connected to the sandbox Endpoints() []Endpoint } // SandboxOption is an option setter function type used to pass various options to // NewNetContainer method. The various setter functions of type SandboxOption are // provided by libnetwork, they look like ContainerOptionXXXX(...) type SandboxOption func(sb *sandbox) func (sb *sandbox) processOptions(options ...SandboxOption) { for _, opt := range options { if opt != nil { opt(sb) } } } type epHeap []*endpoint type sandbox struct { id string containerID string config containerConfig extDNS []string osSbox osl.Sandbox controller *controller resolver Resolver resolverOnce sync.Once refCnt int endpoints epHeap epPriority map[string]int populatedEndpoints map[string]struct{} joinLeaveDone chan struct{} dbIndex uint64 dbExists bool isStub bool inDelete bool ingress bool sync.Mutex } // These are the container configs used to customize container /etc/hosts file. type hostsPathConfig struct { hostName string domainName string hostsPath string originHostsPath string extraHosts []extraHost parentUpdates []parentUpdate } type parentUpdate struct { cid string name string ip string } type extraHost struct { name string IP string } // These are the container configs used to customize container /etc/resolv.conf file. type resolvConfPathConfig struct { resolvConfPath string originResolvConfPath string resolvConfHashFile string dnsList []string dnsSearchList []string dnsOptionsList []string } type containerConfig struct { hostsPathConfig resolvConfPathConfig generic map[string]interface{} useDefaultSandBox bool useExternalKey bool prio int // higher the value, more the priority exposedPorts []types.TransportPort } func (sb *sandbox) ID() string { return sb.id } func (sb *sandbox) ContainerID() string { return sb.containerID } func (sb *sandbox) Key() string { if sb.config.useDefaultSandBox { return osl.GenerateKey("default") } return osl.GenerateKey(sb.id) } func (sb *sandbox) Labels() map[string]interface{} { sb.Lock() sb.Unlock() opts := make(map[string]interface{}, len(sb.config.generic)) for k, v := range sb.config.generic { opts[k] = v } return opts } func (sb *sandbox) Statistics() (map[string]*types.InterfaceStatistics, error) { m := make(map[string]*types.InterfaceStatistics) sb.Lock() osb := sb.osSbox sb.Unlock() if osb == nil { return m, nil } var err error for _, i := range osb.Info().Interfaces() { if m[i.DstName()], err = i.Statistics(); err != nil { return m, err } } return m, nil } func (sb *sandbox) Delete() error { return sb.delete(false) } func (sb *sandbox) delete(force bool) error { sb.Lock() if sb.inDelete { sb.Unlock() return types.ForbiddenErrorf("another sandbox delete in progress") } // Set the inDelete flag. This will ensure that we don't // update the store until we have completed all the endpoint // leaves and deletes. And when endpoint leaves and deletes // are completed then we can finally delete the sandbox object // altogether from the data store. If the daemon exits // ungracefully in the middle of a sandbox delete this way we // will have all the references to the endpoints in the // sandbox so that we can clean them up when we restart sb.inDelete = true sb.Unlock() c := sb.controller // Detach from all endpoints retain := false for _, ep := range sb.getConnectedEndpoints() { // gw network endpoint detach and removal are automatic if ep.endpointInGWNetwork() { continue } // Retain the sanbdox if we can't obtain the network from store. if _, err := c.getNetworkFromStore(ep.getNetwork().ID()); err != nil { retain = true log.Warnf("Failed getting network for ep %s during sandbox %s delete: %v", ep.ID(), sb.ID(), err) continue } if !force { if err := ep.Leave(sb); err != nil { log.Warnf("Failed detaching sandbox %s from endpoint %s: %v\n", sb.ID(), ep.ID(), err) } } if err := ep.Delete(force); err != nil { log.Warnf("Failed deleting endpoint %s: %v\n", ep.ID(), err) } } if retain { sb.Lock() sb.inDelete = false sb.Unlock() return fmt.Errorf("could not cleanup all the endpoints in container %s / sandbox %s", sb.containerID, sb.id) } // Container is going away. Path cache in etchosts is most // likely not required any more. Drop it. etchosts.Drop(sb.config.hostsPath) if sb.resolver != nil { sb.resolver.Stop() } if sb.osSbox != nil && !sb.config.useDefaultSandBox { sb.osSbox.Destroy() } if err := sb.storeDelete(); err != nil { log.Warnf("Failed to delete sandbox %s from store: %v", sb.ID(), err) } c.Lock() if sb.ingress { c.ingressSandbox = nil } delete(c.sandboxes, sb.ID()) c.Unlock() return nil } func (sb *sandbox) Rename(name string) error { var err error for _, ep := range sb.getConnectedEndpoints() { if ep.endpointInGWNetwork() { continue } oldName := ep.Name() lEp := ep if err = ep.rename(name); err != nil { break } defer func() { if err != nil { lEp.rename(oldName) } }() } return err } func (sb *sandbox) Refresh(options ...SandboxOption) error { // Store connected endpoints epList := sb.getConnectedEndpoints() // Detach from all endpoints for _, ep := range epList { if err := ep.Leave(sb); err != nil { log.Warnf("Failed detaching sandbox %s from endpoint %s: %v\n", sb.ID(), ep.ID(), err) } } // Re-apply options sb.config = containerConfig{} sb.processOptions(options...) // Setup discovery files if err := sb.setupResolutionFiles(); err != nil { return err } // Re-connect to all endpoints for _, ep := range epList { if err := ep.Join(sb); err != nil { log.Warnf("Failed attach sandbox %s to endpoint %s: %v\n", sb.ID(), ep.ID(), err) } } return nil } func (sb *sandbox) MarshalJSON() ([]byte, error) { sb.Lock() defer sb.Unlock() // We are just interested in the container ID. This can be expanded to include all of containerInfo if there is a need return json.Marshal(sb.id) } func (sb *sandbox) UnmarshalJSON(b []byte) (err error) { sb.Lock() defer sb.Unlock() var id string if err := json.Unmarshal(b, &id); err != nil { return err } sb.id = id return nil } func (sb *sandbox) Endpoints() []Endpoint { sb.Lock() defer sb.Unlock() endpoints := make([]Endpoint, len(sb.endpoints)) for i, ep := range sb.endpoints { endpoints[i] = ep } return endpoints } func (sb *sandbox) getConnectedEndpoints() []*endpoint { sb.Lock() defer sb.Unlock() eps := make([]*endpoint, len(sb.endpoints)) for i, ep := range sb.endpoints { eps[i] = ep } return eps } func (sb *sandbox) removeEndpoint(ep *endpoint) { sb.Lock() defer sb.Unlock() for i, e := range sb.endpoints { if e == ep { heap.Remove(&sb.endpoints, i) return } } } func (sb *sandbox) getEndpoint(id string) *endpoint { sb.Lock() defer sb.Unlock() for _, ep := range sb.endpoints { if ep.id == id { return ep } } return nil } func (sb *sandbox) updateGateway(ep *endpoint) error { sb.Lock() osSbox := sb.osSbox sb.Unlock() if osSbox == nil { return nil } osSbox.UnsetGateway() osSbox.UnsetGatewayIPv6() if ep == nil { return nil } ep.Lock() joinInfo := ep.joinInfo ep.Unlock() if err := osSbox.SetGateway(joinInfo.gw); err != nil { return fmt.Errorf("failed to set gateway while updating gateway: %v", err) } if err := osSbox.SetGatewayIPv6(joinInfo.gw6); err != nil { return fmt.Errorf("failed to set IPv6 gateway while updating gateway: %v", err) } return nil } func (sb *sandbox) ResolveIP(ip string) string { var svc string log.Debugf("IP To resolve %v", ip) for _, ep := range sb.getConnectedEndpoints() { n := ep.getNetwork() c := n.getController() c.Lock() sr, ok := c.svcRecords[n.ID()] c.Unlock() if !ok { continue } nwName := n.Name() n.Lock() svc, ok = sr.ipMap[ip] n.Unlock() if ok { return svc + "." + nwName } } return svc } func (sb *sandbox) execFunc(f func()) { sb.osSbox.InvokeFunc(f) } func (sb *sandbox) ResolveService(name string) ([]*net.SRV, []net.IP, error) { srv := []*net.SRV{} ip := []net.IP{} log.Debugf("Service name To resolve: %v", name) parts := strings.Split(name, ".") if len(parts) < 3 { return nil, nil, fmt.Errorf("invalid service name, %s", name) } portName := parts[0] proto := parts[1] if proto != "_tcp" && proto != "_udp" { return nil, nil, fmt.Errorf("invalid protocol in service, %s", name) } svcName := strings.Join(parts[2:], ".") for _, ep := range sb.getConnectedEndpoints() { n := ep.getNetwork() c := n.getController() c.Lock() sr, ok := c.svcRecords[n.ID()] c.Unlock() if !ok { continue } svcs, ok := sr.service[svcName] if !ok { continue } for _, svc := range svcs { if svc.portName != portName { continue } if svc.proto != proto { continue } for _, t := range svc.target { srv = append(srv, &net.SRV{ Target: t.name, Port: t.port, }) ip = append(ip, t.ip) } } if len(srv) > 0 { break } } return srv, ip, nil } func (sb *sandbox) ResolveName(name string, ipType int) ([]net.IP, bool) { // Embedded server owns the docker network domain. Resolution should work // for both container_name and container_name.network_name // We allow '.' in service name and network name. For a name a.b.c.d the // following have to tried; // {a.b.c.d in the networks container is connected to} // {a.b.c in network d}, // {a.b in network c.d}, // {a in network b.c.d}, log.Debugf("Name To resolve: %v", name) name = strings.TrimSuffix(name, ".") reqName := []string{name} networkName := []string{""} if strings.Contains(name, ".") { var i int dup := name for { if i = strings.LastIndex(dup, "."); i == -1 { break } networkName = append(networkName, name[i+1:]) reqName = append(reqName, name[:i]) dup = dup[:i] } } epList := sb.getConnectedEndpoints() for i := 0; i < len(reqName); i++ { // First check for local container alias ip, ipv6Miss := sb.resolveName(reqName[i], networkName[i], epList, true, ipType) if ip != nil { return ip, false } if ipv6Miss { return ip, ipv6Miss } // Resolve the actual container name ip, ipv6Miss = sb.resolveName(reqName[i], networkName[i], epList, false, ipType) if ip != nil { return ip, false } if ipv6Miss { return ip, ipv6Miss } } return nil, false } func (sb *sandbox) resolveName(req string, networkName string, epList []*endpoint, alias bool, ipType int) ([]net.IP, bool) { var ipv6Miss bool for _, ep := range epList { name := req n := ep.getNetwork() if networkName != "" && networkName != n.Name() { continue } if alias { if ep.aliases == nil { continue } var ok bool ep.Lock() name, ok = ep.aliases[req] ep.Unlock() if !ok { continue } } else { // If it is a regular lookup and if the requested name is an alias // don't perform a svc lookup for this endpoint. ep.Lock() if _, ok := ep.aliases[req]; ok { ep.Unlock() continue } ep.Unlock() } c := n.getController() c.Lock() sr, ok := c.svcRecords[n.ID()] c.Unlock() if !ok { continue } var ip []net.IP n.Lock() ip, ok = sr.svcMap[name] if ipType == types.IPv6 { // If the name resolved to v4 address then its a valid name in // the docker network domain. If the network is not v6 enabled // set ipv6Miss to filter the DNS query from going to external // resolvers. if ok && n.enableIPv6 == false { ipv6Miss = true } ip = sr.svcIPv6Map[name] } n.Unlock() if ip != nil { return ip, false } } return nil, ipv6Miss } func (sb *sandbox) SetKey(basePath string) error { start := time.Now() defer func() { log.Debugf("sandbox set key processing took %s for container %s", time.Now().Sub(start), sb.ContainerID()) }() if basePath == "" { return types.BadRequestErrorf("invalid sandbox key") } sb.Lock() oldosSbox := sb.osSbox sb.Unlock() if oldosSbox != nil { // If we already have an OS sandbox, release the network resources from that // and destroy the OS snab. We are moving into a new home further down. Note that none // of the network resources gets destroyed during the move. sb.releaseOSSbox() } osSbox, err := osl.GetSandboxForExternalKey(basePath, sb.Key()) if err != nil { return err } sb.Lock() sb.osSbox = osSbox sb.Unlock() defer func() { if err != nil { sb.Lock() sb.osSbox = nil sb.Unlock() } }() // If the resolver was setup before stop it and set it up in the // new osl sandbox. if oldosSbox != nil && sb.resolver != nil { sb.resolver.Stop() sb.osSbox.InvokeFunc(sb.resolver.SetupFunc()) if err := sb.resolver.Start(); err != nil { log.Errorf("Resolver Setup/Start failed for container %s, %q", sb.ContainerID(), err) } } for _, ep := range sb.getConnectedEndpoints() { if err = sb.populateNetworkResources(ep); err != nil { return err } } return nil } func releaseOSSboxResources(osSbox osl.Sandbox, ep *endpoint) { for _, i := range osSbox.Info().Interfaces() { // Only remove the interfaces owned by this endpoint from the sandbox. if ep.hasInterface(i.SrcName()) { if err := i.Remove(); err != nil { log.Debugf("Remove interface %s failed: %v", i.SrcName(), err) } } } ep.Lock() joinInfo := ep.joinInfo ep.Unlock() if joinInfo == nil { return } // Remove non-interface routes. for _, r := range joinInfo.StaticRoutes { if err := osSbox.RemoveStaticRoute(r); err != nil { log.Debugf("Remove route failed: %v", err) } } } func (sb *sandbox) releaseOSSbox() { sb.Lock() osSbox := sb.osSbox sb.osSbox = nil sb.Unlock() if osSbox == nil { return } for _, ep := range sb.getConnectedEndpoints() { releaseOSSboxResources(osSbox, ep) } osSbox.Destroy() } func (sb *sandbox) restoreOslSandbox() error { var routes []*types.StaticRoute // restore osl sandbox Ifaces := make(map[string][]osl.IfaceOption) for _, ep := range sb.endpoints { var ifaceOptions []osl.IfaceOption ep.Lock() joinInfo := ep.joinInfo i := ep.iface ep.Unlock() if i == nil { log.Errorf("error restoring endpoint %s for container %s", ep.Name(), sb.ContainerID()) continue } ifaceOptions = append(ifaceOptions, sb.osSbox.InterfaceOptions().Address(i.addr), sb.osSbox.InterfaceOptions().Routes(i.routes)) if i.addrv6 != nil && i.addrv6.IP.To16() != nil { ifaceOptions = append(ifaceOptions, sb.osSbox.InterfaceOptions().AddressIPv6(i.addrv6)) } if i.mac != nil { ifaceOptions = append(ifaceOptions, sb.osSbox.InterfaceOptions().MacAddress(i.mac)) } if len(i.llAddrs) != 0 { ifaceOptions = append(ifaceOptions, sb.osSbox.InterfaceOptions().LinkLocalAddresses(i.llAddrs)) } if len(ep.virtualIP) != 0 { vipAlias := &net.IPNet{IP: ep.virtualIP, Mask: net.CIDRMask(32, 32)} ifaceOptions = append(ifaceOptions, sb.osSbox.InterfaceOptions().IPAliases([]*net.IPNet{vipAlias})) } Ifaces[fmt.Sprintf("%s+%s", i.srcName, i.dstPrefix)] = ifaceOptions if joinInfo != nil { for _, r := range joinInfo.StaticRoutes { routes = append(routes, r) } } if ep.needResolver() { sb.startResolver(true) } } gwep := sb.getGatewayEndpoint() if gwep == nil { return nil } // restore osl sandbox err := sb.osSbox.Restore(Ifaces, routes, gwep.joinInfo.gw, gwep.joinInfo.gw6) if err != nil { return err } return nil } func (sb *sandbox) populateNetworkResources(ep *endpoint) error { sb.Lock() if sb.osSbox == nil { sb.Unlock() return nil } inDelete := sb.inDelete sb.Unlock() ep.Lock() joinInfo := ep.joinInfo i := ep.iface ep.Unlock() if ep.needResolver() { sb.startResolver(false) } if i != nil && i.srcName != "" { var ifaceOptions []osl.IfaceOption ifaceOptions = append(ifaceOptions, sb.osSbox.InterfaceOptions().Address(i.addr), sb.osSbox.InterfaceOptions().Routes(i.routes)) if i.addrv6 != nil && i.addrv6.IP.To16() != nil { ifaceOptions = append(ifaceOptions, sb.osSbox.InterfaceOptions().AddressIPv6(i.addrv6)) } if len(i.llAddrs) != 0 { ifaceOptions = append(ifaceOptions, sb.osSbox.InterfaceOptions().LinkLocalAddresses(i.llAddrs)) } if len(ep.virtualIP) != 0 { vipAlias := &net.IPNet{IP: ep.virtualIP, Mask: net.CIDRMask(32, 32)} ifaceOptions = append(ifaceOptions, sb.osSbox.InterfaceOptions().IPAliases([]*net.IPNet{vipAlias})) } if i.mac != nil { ifaceOptions = append(ifaceOptions, sb.osSbox.InterfaceOptions().MacAddress(i.mac)) } if err := sb.osSbox.AddInterface(i.srcName, i.dstPrefix, ifaceOptions...); err != nil { return fmt.Errorf("failed to add interface %s to sandbox: %v", i.srcName, err) } } if joinInfo != nil { // Set up non-interface routes. for _, r := range joinInfo.StaticRoutes { if err := sb.osSbox.AddStaticRoute(r); err != nil { return fmt.Errorf("failed to add static route %s: %v", r.Destination.String(), err) } } } if ep == sb.getGatewayEndpoint() { if err := sb.updateGateway(ep); err != nil { return err } } // Make sure to add the endpoint to the populated endpoint set // before populating loadbalancers. sb.Lock() sb.populatedEndpoints[ep.ID()] = struct{}{} sb.Unlock() // Populate load balancer only after updating all the other // information including gateway and other routes so that // loadbalancers are populated all the network state is in // place in the sandbox. sb.populateLoadbalancers(ep) // Only update the store if we did not come here as part of // sandbox delete. If we came here as part of delete then do // not bother updating the store. The sandbox object will be // deleted anyway if !inDelete { return sb.storeUpdate() } return nil } func (sb *sandbox) clearNetworkResources(origEp *endpoint) error { ep := sb.getEndpoint(origEp.id) if ep == nil { return fmt.Errorf("could not find the sandbox endpoint data for endpoint %s", origEp.id) } sb.Lock() osSbox := sb.osSbox inDelete := sb.inDelete sb.Unlock() if osSbox != nil { releaseOSSboxResources(osSbox, ep) } delete(sb.populatedEndpoints, ep.ID()) sb.Lock() if len(sb.endpoints) == 0 { // sb.endpoints should never be empty and this is unexpected error condition // We log an error message to note this down for debugging purposes. log.Errorf("No endpoints in sandbox while trying to remove endpoint %s", ep.Name()) sb.Unlock() return nil } var ( gwepBefore, gwepAfter *endpoint index = -1 ) for i, e := range sb.endpoints { if e == ep { index = i } if len(e.Gateway()) > 0 && gwepBefore == nil { gwepBefore = e } if index != -1 && gwepBefore != nil { break } } heap.Remove(&sb.endpoints, index) for _, e := range sb.endpoints { if len(e.Gateway()) > 0 { gwepAfter = e break } } delete(sb.epPriority, ep.ID()) sb.Unlock() if gwepAfter != nil && gwepBefore != gwepAfter { sb.updateGateway(gwepAfter) } // Only update the store if we did not come here as part of // sandbox delete. If we came here as part of delete then do // not bother updating the store. The sandbox object will be // deleted anyway if !inDelete { return sb.storeUpdate() } return nil } func (sb *sandbox) isEndpointPopulated(ep *endpoint) bool { sb.Lock() _, ok := sb.populatedEndpoints[ep.ID()] sb.Unlock() return ok } // joinLeaveStart waits to ensure there are no joins or leaves in progress and // marks this join/leave in progress without race func (sb *sandbox) joinLeaveStart() { sb.Lock() defer sb.Unlock() for sb.joinLeaveDone != nil { joinLeaveDone := sb.joinLeaveDone sb.Unlock() select { case <-joinLeaveDone: } sb.Lock() } sb.joinLeaveDone = make(chan struct{}) } // joinLeaveEnd marks the end of this join/leave operation and // signals the same without race to other join and leave waiters func (sb *sandbox) joinLeaveEnd() { sb.Lock() defer sb.Unlock() if sb.joinLeaveDone != nil { close(sb.joinLeaveDone) sb.joinLeaveDone = nil } } func (sb *sandbox) hasPortConfigs() bool { opts := sb.Labels() _, hasExpPorts := opts[netlabel.ExposedPorts] _, hasPortMaps := opts[netlabel.PortMap] return hasExpPorts || hasPortMaps } // OptionHostname function returns an option setter for hostname option to // be passed to NewSandbox method. func OptionHostname(name string) SandboxOption { return func(sb *sandbox) { sb.config.hostName = name } } // OptionDomainname function returns an option setter for domainname option to // be passed to NewSandbox method. func OptionDomainname(name string) SandboxOption { return func(sb *sandbox) { sb.config.domainName = name } } // OptionHostsPath function returns an option setter for hostspath option to // be passed to NewSandbox method. func OptionHostsPath(path string) SandboxOption { return func(sb *sandbox) { sb.config.hostsPath = path } } // OptionOriginHostsPath function returns an option setter for origin hosts file path // to be passed to NewSandbox method. func OptionOriginHostsPath(path string) SandboxOption { return func(sb *sandbox) { sb.config.originHostsPath = path } } // OptionExtraHost function returns an option setter for extra /etc/hosts options // which is a name and IP as strings. func OptionExtraHost(name string, IP string) SandboxOption { return func(sb *sandbox) { sb.config.extraHosts = append(sb.config.extraHosts, extraHost{name: name, IP: IP}) } } // OptionParentUpdate function returns an option setter for parent container // which needs to update the IP address for the linked container. func OptionParentUpdate(cid string, name, ip string) SandboxOption { return func(sb *sandbox) { sb.config.parentUpdates = append(sb.config.parentUpdates, parentUpdate{cid: cid, name: name, ip: ip}) } } // OptionResolvConfPath function returns an option setter for resolvconfpath option to // be passed to net container methods. func OptionResolvConfPath(path string) SandboxOption { return func(sb *sandbox) { sb.config.resolvConfPath = path } } // OptionOriginResolvConfPath function returns an option setter to set the path to the // origin resolv.conf file to be passed to net container methods. func OptionOriginResolvConfPath(path string) SandboxOption { return func(sb *sandbox) { sb.config.originResolvConfPath = path } } // OptionDNS function returns an option setter for dns entry option to // be passed to container Create method. func OptionDNS(dns string) SandboxOption { return func(sb *sandbox) { sb.config.dnsList = append(sb.config.dnsList, dns) } } // OptionDNSSearch function returns an option setter for dns search entry option to // be passed to container Create method. func OptionDNSSearch(search string) SandboxOption { return func(sb *sandbox) { sb.config.dnsSearchList = append(sb.config.dnsSearchList, search) } } // OptionDNSOptions function returns an option setter for dns options entry option to // be passed to container Create method. func OptionDNSOptions(options string) SandboxOption { return func(sb *sandbox) { sb.config.dnsOptionsList = append(sb.config.dnsOptionsList, options) } } // OptionUseDefaultSandbox function returns an option setter for using default sandbox to // be passed to container Create method. func OptionUseDefaultSandbox() SandboxOption { return func(sb *sandbox) { sb.config.useDefaultSandBox = true } } // OptionUseExternalKey function returns an option setter for using provided namespace // instead of creating one. func OptionUseExternalKey() SandboxOption { return func(sb *sandbox) { sb.config.useExternalKey = true } } // OptionGeneric function returns an option setter for Generic configuration // that is not managed by libNetwork but can be used by the Drivers during the call to // net container creation method. Container Labels are a good example. func OptionGeneric(generic map[string]interface{}) SandboxOption { return func(sb *sandbox) { if sb.config.generic == nil { sb.config.generic = make(map[string]interface{}, len(generic)) } for k, v := range generic { sb.config.generic[k] = v } } } // OptionExposedPorts function returns an option setter for the container exposed // ports option to be passed to container Create method. func OptionExposedPorts(exposedPorts []types.TransportPort) SandboxOption { return func(sb *sandbox) { if sb.config.generic == nil { sb.config.generic = make(map[string]interface{}) } // Defensive copy eps := make([]types.TransportPort, len(exposedPorts)) copy(eps, exposedPorts) // Store endpoint label and in generic because driver needs it sb.config.exposedPorts = eps sb.config.generic[netlabel.ExposedPorts] = eps } } // OptionPortMapping function returns an option setter for the mapping // ports option to be passed to container Create method. func OptionPortMapping(portBindings []types.PortBinding) SandboxOption { return func(sb *sandbox) { if sb.config.generic == nil { sb.config.generic = make(map[string]interface{}) } // Store a copy of the bindings as generic data to pass to the driver pbs := make([]types.PortBinding, len(portBindings)) copy(pbs, portBindings) sb.config.generic[netlabel.PortMap] = pbs } } // OptionIngress function returns an option setter for marking a // sandbox as the controller's ingress sandbox. func OptionIngress() SandboxOption { return func(sb *sandbox) { sb.ingress = true } } func (eh epHeap) Len() int { return len(eh) } func (eh epHeap) Less(i, j int) bool { var ( cip, cjp int ok bool ) ci, _ := eh[i].getSandbox() cj, _ := eh[j].getSandbox() epi := eh[i] epj := eh[j] if epi.endpointInGWNetwork() { return false } if epj.endpointInGWNetwork() { return true } if epi.getNetwork().Internal() { return false } if epj.getNetwork().Internal() { return true } if ci != nil { cip, ok = ci.epPriority[eh[i].ID()] if !ok { cip = 0 } } if cj != nil { cjp, ok = cj.epPriority[eh[j].ID()] if !ok { cjp = 0 } } if cip == cjp { return eh[i].network.Name() < eh[j].network.Name() } return cip > cjp } func (eh epHeap) Swap(i, j int) { eh[i], eh[j] = eh[j], eh[i] } func (eh *epHeap) Push(x interface{}) { *eh = append(*eh, x.(*endpoint)) } func (eh *epHeap) Pop() interface{} { old := *eh n := len(old) x := old[n-1] *eh = old[0 : n-1] return x }