1
0
Fork 0
mirror of https://github.com/moby/moby.git synced 2022-11-09 12:21:53 -05:00
moby--moby/libnetwork/sandbox.go

1265 lines
32 KiB
Go
Raw Normal View History

package libnetwork
import (
"encoding/json"
"fmt"
"net"
"sort"
"strings"
"sync"
"time"
"github.com/docker/docker/libnetwork/etchosts"
"github.com/docker/docker/libnetwork/netlabel"
"github.com/docker/docker/libnetwork/osl"
"github.com/docker/docker/libnetwork/types"
"github.com/sirupsen/logrus"
)
// 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
// Endpoints returns all the endpoints connected to the sandbox
Endpoints() []Endpoint
// 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)
// EnableService makes a managed container's service available by adding the
// endpoint to the service load balancer and service discovery
EnableService() error
// DisableService removes a managed container's endpoints from the load balancer
// and service discovery
DisableService() error
}
// 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 sandbox struct {
id string
containerID string
config containerConfig
extDNS []extDNSEntry
osSbox osl.Sandbox
controller *controller
resolver Resolver
resolverOnce sync.Once
endpoints []*endpoint
epPriority map[string]int
populatedEndpoints map[string]struct{}
joinLeaveDone chan struct{}
dbIndex uint64
dbExists bool
isStub bool
inDelete bool
ingress bool
ndotsSet bool
oslTypes []osl.SandboxType // slice of properties of this sandbox
loadBalancerNID string // NID that this SB is a load balancer for
sync.Mutex
// This mutex is used to serialize service related operation for an endpoint
// The lock is here because the endpoint is saved into the store so is not unique
Service sync.Mutex
}
// These are the container configs used to customize container /etc/hosts file.
type hostsPathConfig struct {
// Note(cpuguy83): The linter is drunk and says none of these fields are used while they are
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 {
// Note(cpuguy83): The linter is drunk and says none of these fields are used while they are
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
exposedPorts []types.TransportPort
}
const (
resolverIPSandbox = "127.0.0.11"
)
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()
defer 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() && !force {
continue
}
// Retain the sanbdox if we can't obtain the network from store.
if _, err := c.getNetworkFromStore(ep.getNetwork().ID()); err != nil {
if c.isDistributedControl() {
retain = true
}
logrus.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 {
logrus.Warnf("Failed detaching sandbox %s from endpoint %s: %v\n", sb.ID(), ep.ID(), err)
}
}
if err := ep.Delete(force); err != nil {
logrus.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 {
if err := sb.osSbox.Destroy(); err != nil {
logrus.WithError(err).Warn("error destroying network sandbox")
}
}
if err := sb.storeDelete(); err != nil {
logrus.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 {
if err2 := lEp.rename(oldName); err2 != nil {
logrus.WithField("old", oldName).WithField("origError", err).WithError(err2).Error("error renaming sandbox")
}
}
}()
}
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 {
logrus.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 {
logrus.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))
copy(eps, sb.endpoints)
return eps
}
func (sb *sandbox) addEndpoint(ep *endpoint) {
sb.Lock()
defer sb.Unlock()
l := len(sb.endpoints)
i := sort.Search(l, func(j int) bool {
return ep.Less(sb.endpoints[j])
})
sb.endpoints = append(sb.endpoints, nil)
copy(sb.endpoints[i+1:], sb.endpoints[i:])
sb.endpoints[i] = ep
}
func (sb *sandbox) removeEndpoint(ep *endpoint) {
sb.Lock()
defer sb.Unlock()
sb.removeEndpointRaw(ep)
}
func (sb *sandbox) removeEndpointRaw(ep *endpoint) {
for i, e := range sb.endpoints {
if e == ep {
sb.endpoints = append(sb.endpoints[:i], sb.endpoints[i+1:]...)
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() //nolint:errcheck
osSbox.UnsetGatewayIPv6() //nolint:errcheck
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) HandleQueryResp(name string, ip net.IP) {
for _, ep := range sb.getConnectedEndpoints() {
n := ep.getNetwork()
n.HandleQueryResp(name, ip)
}
}
func (sb *sandbox) ResolveIP(ip string) string {
var svc string
logrus.Debugf("IP To resolve %v", ip)
for _, ep := range sb.getConnectedEndpoints() {
n := ep.getNetwork()
svc = n.ResolveIP(ip)
if len(svc) != 0 {
return svc
}
}
return svc
}
func (sb *sandbox) ExecFunc(f func()) error {
sb.Lock()
osSbox := sb.osSbox
sb.Unlock()
if osSbox != nil {
return osSbox.InvokeFunc(f)
}
return fmt.Errorf("osl sandbox unavailable in ExecFunc for %v", sb.ContainerID())
}
func (sb *sandbox) ResolveService(name string) ([]*net.SRV, []net.IP) {
srv := []*net.SRV{}
ip := []net.IP{}
logrus.Debugf("Service name To resolve: %v", name)
// There are DNS implementations that allow SRV queries for names not in
// the format defined by RFC 2782. Hence specific validations checks are
// not done
parts := strings.Split(name, ".")
if len(parts) < 3 {
return nil, nil
}
for _, ep := range sb.getConnectedEndpoints() {
n := ep.getNetwork()
srv, ip = n.ResolveService(name)
if len(srv) > 0 {
break
}
}
return srv, ip
}
func getDynamicNwEndpoints(epList []*endpoint) []*endpoint {
eps := []*endpoint{}
for _, ep := range epList {
n := ep.getNetwork()
if n.dynamic && !n.ingress {
eps = append(eps, ep)
}
}
return eps
}
func getIngressNwEndpoint(epList []*endpoint) *endpoint {
for _, ep := range epList {
n := ep.getNetwork()
if n.ingress {
return ep
}
}
return nil
}
func getLocalNwEndpoints(epList []*endpoint) []*endpoint {
eps := []*endpoint{}
for _, ep := range epList {
n := ep.getNetwork()
if !n.dynamic && !n.ingress {
eps = append(eps, ep)
}
}
return eps
}
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},
logrus.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()
// In swarm mode services with exposed ports are connected to user overlay
// network, ingress network and docker_gwbridge network. Name resolution
// should prioritize returning the VIP/IPs on user overlay network.
newList := []*endpoint{}
if !sb.controller.isDistributedControl() {
newList = append(newList, getDynamicNwEndpoints(epList)...)
ingressEP := getIngressNwEndpoint(epList)
if ingressEP != nil {
newList = append(newList, ingressEP)
}
newList = append(newList, getLocalNwEndpoints(epList)...)
epList = newList
}
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()
}
ip, miss := n.ResolveName(name, ipType)
if ip != nil {
return ip, false
}
if miss {
ipv6Miss = miss
}
}
return nil, ipv6Miss
}
func (sb *sandbox) SetKey(basePath string) error {
start := time.Now()
defer func() {
logrus.Debugf("sandbox set key processing took %s for container %s", time.Since(start), sb.ContainerID())
}()
if basePath == "" {
return types.BadRequestErrorf("invalid sandbox key")
}
sb.Lock()
if sb.inDelete {
sb.Unlock()
return types.ForbiddenErrorf("failed to SetKey: sandbox %q delete in progress", sb.id)
}
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()
// 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()
if err := sb.osSbox.InvokeFunc(sb.resolver.SetupFunc(0)); err == nil {
if err := sb.resolver.Start(); err != nil {
logrus.Errorf("Resolver Start failed for container %s, %q", sb.ContainerID(), err)
}
} else {
logrus.Errorf("Resolver Setup Function 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 (sb *sandbox) EnableService() (err error) {
logrus.Debugf("EnableService %s START", sb.containerID)
defer func() {
if err != nil {
if err2 := sb.DisableService(); err2 != nil {
logrus.WithError(err2).WithField("origError", err).Error("Error while disabling service after original error")
}
}
}()
for _, ep := range sb.getConnectedEndpoints() {
if !ep.isServiceEnabled() {
if err := ep.addServiceInfoToCluster(sb); err != nil {
return fmt.Errorf("could not update state for endpoint %s into cluster: %v", ep.Name(), err)
}
ep.enableService()
}
}
logrus.Debugf("EnableService %s DONE", sb.containerID)
return nil
}
func (sb *sandbox) DisableService() (err error) {
logrus.Debugf("DisableService %s START", sb.containerID)
failedEps := []string{}
defer func() {
if len(failedEps) > 0 {
err = fmt.Errorf("failed to disable service on sandbox:%s, for endpoints %s", sb.ID(), strings.Join(failedEps, ","))
}
}()
for _, ep := range sb.getConnectedEndpoints() {
if ep.isServiceEnabled() {
Gracefully remove LB endpoints from services This patch attempts to allow endpoints to complete servicing connections while being removed from a service. The change adds a flag to the endpoint.deleteServiceInfoFromCluster() method to indicate whether this removal should fully remove connectivity through the load balancer to the endpoint or should just disable directing further connections to the endpoint. If the flag is 'false', then the load balancer assigns a weight of 0 to the endpoint but does not remove it as a linux load balancing destination. It does remove the endpoint as a docker load balancing endpoint but tracks it in a special map of "disabled-but-not- destroyed" load balancing endpoints. This allows traffic to continue flowing, at least under Linux. If the flag is 'true', then the code removes the endpoint entirely as a load balancing destination. The sandbox.DisableService() method invokes deleteServiceInfoFromCluster() with the flag sent to 'false', while the endpoint.sbLeave() method invokes it with the flag set to 'true' to complete the removal on endpoint finalization. Renaming the endpoint invokes deleteServiceInfoFromCluster() with the flag set to 'true' because renaming attempts to completely remove and then re-add each endpoint service entry. The controller.rmServiceBinding() method, which carries out the operation, similarly gets a new flag for whether to fully remove the endpoint. If the flag is false, it does the job of moving the endpoint from the load balancing set to the 'disabled' set. It then removes or de-weights the entry in the OS load balancing table via network.rmLBBackend(). It removes the service entirely via said method ONLY IF there are no more live or disabled load balancing endpoints. Similarly network.addLBBackend() requires slight tweaking to properly manage the disabled set. Finally, this change requires propagating the status of disabled service endpoints via the networkDB. Accordingly, the patch includes both code to generate and handle service update messages. It also augments the service structure with a ServiceDisabled boolean to convey whether an endpoint should ultimately be removed or just disabled. This, naturally, required a rebuild of the protocol buffer code as well. Signed-off-by: Chris Telfer <ctelfer@docker.com>
2018-02-14 17:04:23 -05:00
if err := ep.deleteServiceInfoFromCluster(sb, false, "DisableService"); err != nil {
failedEps = append(failedEps, ep.Name())
logrus.Warnf("failed update state for endpoint %s into cluster: %v", ep.Name(), err)
}
ep.disableService()
}
}
logrus.Debugf("DisableService %s DONE", sb.containerID)
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 {
logrus.Debugf("Remove interface %s failed: %v", i.SrcName(), err)
}
}
}
ep.Lock()
joinInfo := ep.joinInfo
vip := ep.virtualIP
lbModeIsDSR := ep.network.loadBalancerMode == loadBalancerModeDSR
ep.Unlock()
if len(vip) > 0 && lbModeIsDSR {
ipNet := &net.IPNet{IP: vip, Mask: net.CIDRMask(32, 32)}
if err := osSbox.RemoveAliasIP(osSbox.GetLoopbackIfaceName(), ipNet); err != nil {
logrus.WithError(err).Debugf("failed to remove virtual ip %v to loopback", ipNet)
}
}
if joinInfo == nil {
return
}
// Remove non-interface routes.
for _, r := range joinInfo.StaticRoutes {
if err := osSbox.RemoveStaticRoute(r); err != nil {
logrus.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)
}
if err := osSbox.Destroy(); err != nil {
logrus.WithError(err).Error("Error destroying os sandbox")
}
}
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 {
logrus.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))
}
Ifaces[fmt.Sprintf("%s+%s", i.srcName, i.dstPrefix)] = ifaceOptions
if joinInfo != nil {
routes = append(routes, joinInfo.StaticRoutes...)
}
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)
return err
}
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
lbModeIsDSR := ep.network.loadBalancerMode == loadBalancerModeDSR
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 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 len(ep.virtualIP) > 0 && lbModeIsDSR {
if sb.loadBalancerNID == "" {
if err := sb.osSbox.DisableARPForVIP(i.srcName); err != nil {
return fmt.Errorf("failed disable ARP for VIP: %v", err)
}
}
ipNet := &net.IPNet{IP: ep.virtualIP, Mask: net.CIDRMask(32, 32)}
if err := sb.osSbox.AddAliasIP(sb.osSbox.GetLoopbackIfaceName(), ipNet); err != nil {
return fmt.Errorf("failed to add virtual ip %v to loopback: %v", ipNet, 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.
Add endpoint load-balancing mode This is the heart of the scalability change for services in libnetwork. The present routing mesh adds load-balancing rules for a network to every container connected to the network. This newer approach creates a load-balancing endpoint per network per node. For every service on a network, libnetwork assigns the VIP of the service to the endpoint's interface as an alias. This endpoint must have a unique IP address in order to route return traffic to it. Traffic destined for a service's VIP arrives at the load-balancing endpoint on the VIP and from there, Linux load balances it among backend destinations while SNATing said traffic to the endpoint's unique IP address. The net result of this scheme is that each node in a swarm need only have one set of load balancing state per service instead of one per container on the node. This scheme is very similar to how services currently operate on Windows nodes in libnetwork. It (as with Windows nodes) costs the use of extra IP addresses in a network (one per node) and an extra network hop in the stack, although, always in the stack local to the container. In order to prevent existing deployments from suddenly failing if they failed to allocate sufficient address space to include per-node load-balancing endpoint IP addresses, this patch preserves the existing functionality and activates the new functionality on a per-network basis depending on whether the network has a load-balancing endpoint. Eventually, moby should always set this option when creating new networks and should only omit it for networks created as part of a swarm that are not marked to use endpoint load balancing. This patch also normalizes the code to treat "load" and "balancer" as two separate words from the perspectives of variable/function naming. This means that the 'b' in "balancer" must be capitalized. Signed-off-by: Chris Telfer <ctelfer@docker.com>
2018-04-10 12:34:41 -04:00
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)
}
sb.Lock()
delete(sb.populatedEndpoints, ep.ID())
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.
logrus.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
}
}
if index == -1 {
logrus.Warnf("Endpoint %s has already been deleted", ep.Name())
sb.Unlock()
return nil
}
sb.removeEndpointRaw(ep)
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 {
if err := sb.updateGateway(gwepAfter); err != nil {
return err
}
}
// 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
}
// 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()
<-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
}
}
// 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
// (host namespace) 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
sb.oslTypes = append(sb.oslTypes, osl.SandboxTypeIngress)
}
}
// OptionLoadBalancer function returns an option setter for marking a
// sandbox as a load balancer sandbox.
func OptionLoadBalancer(nid string) SandboxOption {
return func(sb *sandbox) {
sb.loadBalancerNID = nid
sb.oslTypes = append(sb.oslTypes, osl.SandboxTypeLoadBalancer)
}
}
// <=> Returns true if a < b, false if a > b and advances to next level if a == b
// epi.prio <=> epj.prio # 2 < 1
// epi.gw <=> epj.gw # non-gw < gw
// epi.internal <=> epj.internal # non-internal < internal
// epi.joininfo <=> epj.joininfo # ipv6 < ipv4
// epi.name <=> epj.name # bar < foo
func (epi *endpoint) Less(epj *endpoint) bool {
var (
prioi, prioj int
)
sbi, _ := epi.getSandbox()
sbj, _ := epj.getSandbox()
// Prio defaults to 0
if sbi != nil {
prioi = sbi.epPriority[epi.ID()]
}
if sbj != nil {
prioj = sbj.epPriority[epj.ID()]
}
if prioi != prioj {
return prioi > prioj
}
gwi := epi.endpointInGWNetwork()
gwj := epj.endpointInGWNetwork()
if gwi != gwj {
return gwj
}
inti := epi.getNetwork().Internal()
intj := epj.getNetwork().Internal()
if inti != intj {
return intj
}
jii := 0
if epi.joinInfo != nil {
if epi.joinInfo.gw != nil {
jii = jii + 1
}
if epi.joinInfo.gw6 != nil {
jii = jii + 2
}
}
jij := 0
if epj.joinInfo != nil {
if epj.joinInfo.gw != nil {
jij = jij + 1
}
if epj.joinInfo.gw6 != nil {
jij = jij + 2
}
}
if jii != jij {
return jii > jij
}
return epi.network.Name() < epj.network.Name()
}
func (sb *sandbox) NdotsSet() bool {
return sb.ndotsSet
}