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package daemon // import "github.com/docker/docker/daemon"
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import (
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"context"
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"fmt"
"net"
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"sort"
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"strconv"
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"strings"
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"sync"
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"github.com/docker/docker/api/types"
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containertypes "github.com/docker/docker/api/types/container"
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"github.com/docker/docker/api/types/filters"
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"github.com/docker/docker/api/types/network"
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"github.com/docker/docker/container"
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clustertypes "github.com/docker/docker/daemon/cluster/provider"
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internalnetwork "github.com/docker/docker/daemon/network"
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"github.com/docker/docker/errdefs"
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"github.com/docker/docker/opts"
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"github.com/docker/docker/pkg/plugingetter"
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"github.com/docker/docker/runconfig"
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"github.com/docker/go-connections/nat"
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"github.com/docker/libnetwork"
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lncluster "github.com/docker/libnetwork/cluster"
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"github.com/docker/libnetwork/driverapi"
"github.com/docker/libnetwork/ipamapi"
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"github.com/docker/libnetwork/netlabel"
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"github.com/docker/libnetwork/networkdb"
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"github.com/docker/libnetwork/options"
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networktypes "github.com/docker/libnetwork/types"
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"github.com/pkg/errors"
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"github.com/sirupsen/logrus"
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)
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// PredefinedNetworkError is returned when user tries to create predefined network that already exists.
type PredefinedNetworkError string
func ( pnr PredefinedNetworkError ) Error ( ) string {
return fmt . Sprintf ( "operation is not permitted on predefined %s network " , string ( pnr ) )
}
// Forbidden denotes the type of this error
func ( pnr PredefinedNetworkError ) Forbidden ( ) { }
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// NetworkControllerEnabled checks if the networking stack is enabled.
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// This feature depends on OS primitives and it's disabled in systems like Windows.
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func ( daemon * Daemon ) NetworkControllerEnabled ( ) bool {
return daemon . netController != nil
}
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// NetworkController returns the network controller created by the daemon.
func ( daemon * Daemon ) NetworkController ( ) libnetwork . NetworkController {
return daemon . netController
}
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// FindNetwork returns a network based on:
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// 1. Full ID
// 2. Full Name
// 3. Partial ID
// as long as there is no ambiguity
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func ( daemon * Daemon ) FindNetwork ( term string ) ( libnetwork . Network , error ) {
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listByFullName := [ ] libnetwork . Network { }
listByPartialID := [ ] libnetwork . Network { }
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for _ , nw := range daemon . getAllNetworks ( ) {
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if nw . ID ( ) == term {
return nw , nil
}
if nw . Name ( ) == term {
listByFullName = append ( listByFullName , nw )
}
if strings . HasPrefix ( nw . ID ( ) , term ) {
listByPartialID = append ( listByPartialID , nw )
}
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}
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switch {
case len ( listByFullName ) == 1 :
return listByFullName [ 0 ] , nil
case len ( listByFullName ) > 1 :
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return nil , errdefs . InvalidParameter ( errors . Errorf ( "network %s is ambiguous (%d matches found on name)" , term , len ( listByFullName ) ) )
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case len ( listByPartialID ) == 1 :
return listByPartialID [ 0 ] , nil
case len ( listByPartialID ) > 1 :
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return nil , errdefs . InvalidParameter ( errors . Errorf ( "network %s is ambiguous (%d matches found based on ID prefix)" , term , len ( listByPartialID ) ) )
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}
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// Be very careful to change the error type here, the
// libnetwork.ErrNoSuchNetwork error is used by the controller
// to retry the creation of the network as managed through the swarm manager
return nil , errdefs . NotFound ( libnetwork . ErrNoSuchNetwork ( term ) )
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}
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// GetNetworkByID function returns a network whose ID matches the given ID.
// It fails with an error if no matching network is found.
func ( daemon * Daemon ) GetNetworkByID ( id string ) ( libnetwork . Network , error ) {
c := daemon . netController
if c == nil {
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return nil , errors . Wrap ( libnetwork . ErrNoSuchNetwork ( id ) , "netcontroller is nil" )
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}
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return c . NetworkByID ( id )
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}
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// GetNetworkByName function returns a network for a given network name.
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// If no network name is given, the default network is returned.
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func ( daemon * Daemon ) GetNetworkByName ( name string ) ( libnetwork . Network , error ) {
c := daemon . netController
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if c == nil {
return nil , libnetwork . ErrNoSuchNetwork ( name )
}
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if name == "" {
name = c . Config ( ) . Daemon . DefaultNetwork
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}
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return c . NetworkByName ( name )
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}
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// GetNetworksByIDPrefix returns a list of networks whose ID partially matches zero or more networks
func ( daemon * Daemon ) GetNetworksByIDPrefix ( partialID string ) [ ] libnetwork . Network {
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c := daemon . netController
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if c == nil {
return nil
}
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list := [ ] libnetwork . Network { }
l := func ( nw libnetwork . Network ) bool {
if strings . HasPrefix ( nw . ID ( ) , partialID ) {
list = append ( list , nw )
}
return false
}
c . WalkNetworks ( l )
return list
}
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// getAllNetworks returns a list containing all networks
func ( daemon * Daemon ) getAllNetworks ( ) [ ] libnetwork . Network {
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c := daemon . netController
if c == nil {
return nil
}
return c . Networks ( )
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}
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type ingressJob struct {
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create * clustertypes . NetworkCreateRequest
ip net . IP
jobDone chan struct { }
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}
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var (
ingressWorkerOnce sync . Once
ingressJobsChannel chan * ingressJob
ingressID string
)
func ( daemon * Daemon ) startIngressWorker ( ) {
ingressJobsChannel = make ( chan * ingressJob , 100 )
go func ( ) {
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// nolint: gosimple
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for {
select {
case r := <- ingressJobsChannel :
if r . create != nil {
daemon . setupIngress ( r . create , r . ip , ingressID )
ingressID = r . create . ID
} else {
daemon . releaseIngress ( ingressID )
ingressID = ""
}
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close ( r . jobDone )
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}
}
} ( )
}
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// enqueueIngressJob adds a ingress add/rm request to the worker queue.
// It guarantees the worker is started.
func ( daemon * Daemon ) enqueueIngressJob ( job * ingressJob ) {
ingressWorkerOnce . Do ( daemon . startIngressWorker )
ingressJobsChannel <- job
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}
// SetupIngress setups ingress networking.
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// The function returns a channel which will signal the caller when the programming is completed.
func ( daemon * Daemon ) SetupIngress ( create clustertypes . NetworkCreateRequest , nodeIP string ) ( <- chan struct { } , error ) {
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ip , _ , err := net . ParseCIDR ( nodeIP )
if err != nil {
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return nil , err
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}
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done := make ( chan struct { } )
daemon . enqueueIngressJob ( & ingressJob { & create , ip , done } )
return done , nil
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}
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// ReleaseIngress releases the ingress networking.
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// The function returns a channel which will signal the caller when the programming is completed.
func ( daemon * Daemon ) ReleaseIngress ( ) ( <- chan struct { } , error ) {
done := make ( chan struct { } )
daemon . enqueueIngressJob ( & ingressJob { nil , nil , done } )
return done , nil
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}
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func ( daemon * Daemon ) setupIngress ( create * clustertypes . NetworkCreateRequest , ip net . IP , staleID string ) {
controller := daemon . netController
controller . AgentInitWait ( )
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if staleID != "" && staleID != create . ID {
daemon . releaseIngress ( staleID )
}
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if _ , err := daemon . createNetwork ( create . NetworkCreateRequest , create . ID , true ) ; err != nil {
// If it is any other error other than already
// exists error log error and return.
if _ , ok := err . ( libnetwork . NetworkNameError ) ; ! ok {
logrus . Errorf ( "Failed creating ingress network: %v" , err )
return
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}
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// Otherwise continue down the call to create or recreate sandbox.
}
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_ , err := daemon . GetNetworkByID ( create . ID )
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if err != nil {
logrus . Errorf ( "Failed getting ingress network by id after creating: %v" , err )
}
}
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func ( daemon * Daemon ) releaseIngress ( id string ) {
controller := daemon . netController
if id == "" {
return
}
n , err := controller . NetworkByID ( id )
if err != nil {
logrus . Errorf ( "failed to retrieve ingress network %s: %v" , id , err )
return
}
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if err := n . Delete ( libnetwork . NetworkDeleteOptionRemoveLB ) ; err != nil {
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logrus . Errorf ( "Failed to delete ingress network %s: %v" , n . ID ( ) , err )
return
}
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}
// SetNetworkBootstrapKeys sets the bootstrap keys.
func ( daemon * Daemon ) SetNetworkBootstrapKeys ( keys [ ] * networktypes . EncryptionKey ) error {
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err := daemon . netController . SetKeys ( keys )
if err == nil {
// Upon successful key setting dispatch the keys available event
daemon . cluster . SendClusterEvent ( lncluster . EventNetworkKeysAvailable )
}
return err
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}
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// UpdateAttachment notifies the attacher about the attachment config.
func ( daemon * Daemon ) UpdateAttachment ( networkName , networkID , containerID string , config * network . NetworkingConfig ) error {
if daemon . clusterProvider == nil {
return fmt . Errorf ( "cluster provider is not initialized" )
}
if err := daemon . clusterProvider . UpdateAttachment ( networkName , containerID , config ) ; err != nil {
return daemon . clusterProvider . UpdateAttachment ( networkID , containerID , config )
}
return nil
}
// WaitForDetachment makes the cluster manager wait for detachment of
// the container from the network.
func ( daemon * Daemon ) WaitForDetachment ( ctx context . Context , networkName , networkID , taskID , containerID string ) error {
if daemon . clusterProvider == nil {
return fmt . Errorf ( "cluster provider is not initialized" )
}
return daemon . clusterProvider . WaitForDetachment ( ctx , networkName , networkID , taskID , containerID )
}
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// CreateManagedNetwork creates an agent network.
func ( daemon * Daemon ) CreateManagedNetwork ( create clustertypes . NetworkCreateRequest ) error {
_ , err := daemon . createNetwork ( create . NetworkCreateRequest , create . ID , true )
return err
}
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// CreateNetwork creates a network with the given name, driver and other optional parameters
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func ( daemon * Daemon ) CreateNetwork ( create types . NetworkCreateRequest ) ( * types . NetworkCreateResponse , error ) {
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resp , err := daemon . createNetwork ( create , "" , false )
if err != nil {
return nil , err
}
return resp , err
}
func ( daemon * Daemon ) createNetwork ( create types . NetworkCreateRequest , id string , agent bool ) ( * types . NetworkCreateResponse , error ) {
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if runconfig . IsPreDefinedNetwork ( create . Name ) {
return nil , PredefinedNetworkError ( create . Name )
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}
var warning string
nw , err := daemon . GetNetworkByName ( create . Name )
if err != nil {
if _ , ok := err . ( libnetwork . ErrNoSuchNetwork ) ; ! ok {
return nil , err
}
}
if nw != nil {
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// check if user defined CheckDuplicate, if set true, return err
// otherwise prepare a warning message
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if create . CheckDuplicate {
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if ! agent || nw . Info ( ) . Dynamic ( ) {
return nil , libnetwork . NetworkNameError ( create . Name )
}
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}
warning = fmt . Sprintf ( "Network with name %s (id : %s) already exists" , nw . Name ( ) , nw . ID ( ) )
}
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c := daemon . netController
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driver := create . Driver
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if driver == "" {
driver = c . Config ( ) . Daemon . DefaultDriver
}
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nwOptions := [ ] libnetwork . NetworkOption {
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libnetwork . NetworkOptionEnableIPv6 ( create . EnableIPv6 ) ,
libnetwork . NetworkOptionDriverOpts ( create . Options ) ,
libnetwork . NetworkOptionLabels ( create . Labels ) ,
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libnetwork . NetworkOptionAttachable ( create . Attachable ) ,
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libnetwork . NetworkOptionIngress ( create . Ingress ) ,
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libnetwork . NetworkOptionScope ( create . Scope ) ,
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}
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if create . ConfigOnly {
nwOptions = append ( nwOptions , libnetwork . NetworkOptionConfigOnly ( ) )
}
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if create . IPAM != nil {
ipam := create . IPAM
v4Conf , v6Conf , err := getIpamConfig ( ipam . Config )
if err != nil {
return nil , err
}
nwOptions = append ( nwOptions , libnetwork . NetworkOptionIpam ( ipam . Driver , "" , v4Conf , v6Conf , ipam . Options ) )
}
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if create . Internal {
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nwOptions = append ( nwOptions , libnetwork . NetworkOptionInternalNetwork ( ) )
}
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if agent {
nwOptions = append ( nwOptions , libnetwork . NetworkOptionDynamic ( ) )
nwOptions = append ( nwOptions , libnetwork . NetworkOptionPersist ( false ) )
}
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if create . ConfigFrom != nil {
nwOptions = append ( nwOptions , libnetwork . NetworkOptionConfigFrom ( create . ConfigFrom . Network ) )
}
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if agent && driver == "overlay" {
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nodeIP , exists := daemon . GetAttachmentStore ( ) . GetIPForNetwork ( id )
if ! exists {
return nil , fmt . Errorf ( "Failed to find a load balancer IP to use for network: %v" , id )
}
nwOptions = append ( nwOptions , libnetwork . NetworkOptionLBEndpoint ( nodeIP ) )
}
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n , err := c . NewNetwork ( driver , create . Name , id , nwOptions ... )
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if err != nil {
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if _ , ok := err . ( libnetwork . ErrDataStoreNotInitialized ) ; ok {
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// nolint: golint
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return nil , errors . New ( "This node is not a swarm manager. Use \"docker swarm init\" or \"docker swarm join\" to connect this node to swarm and try again." )
}
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return nil , err
}
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daemon . pluginRefCount ( driver , driverapi . NetworkPluginEndpointType , plugingetter . Acquire )
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if create . IPAM != nil {
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daemon . pluginRefCount ( create . IPAM . Driver , ipamapi . PluginEndpointType , plugingetter . Acquire )
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}
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daemon . LogNetworkEvent ( n , "create" )
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return & types . NetworkCreateResponse {
ID : n . ID ( ) ,
Warning : warning ,
} , nil
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}
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func ( daemon * Daemon ) pluginRefCount ( driver , capability string , mode int ) {
var builtinDrivers [ ] string
if capability == driverapi . NetworkPluginEndpointType {
builtinDrivers = daemon . netController . BuiltinDrivers ( )
} else if capability == ipamapi . PluginEndpointType {
builtinDrivers = daemon . netController . BuiltinIPAMDrivers ( )
}
for _ , d := range builtinDrivers {
if d == driver {
return
}
}
if daemon . PluginStore != nil {
_ , err := daemon . PluginStore . Get ( driver , capability , mode )
if err != nil {
logrus . WithError ( err ) . WithFields ( logrus . Fields { "mode" : mode , "driver" : driver } ) . Error ( "Error handling plugin refcount operation" )
}
}
}
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func getIpamConfig ( data [ ] network . IPAMConfig ) ( [ ] * libnetwork . IpamConf , [ ] * libnetwork . IpamConf , error ) {
ipamV4Cfg := [ ] * libnetwork . IpamConf { }
ipamV6Cfg := [ ] * libnetwork . IpamConf { }
for _ , d := range data {
iCfg := libnetwork . IpamConf { }
iCfg . PreferredPool = d . Subnet
iCfg . SubPool = d . IPRange
iCfg . Gateway = d . Gateway
iCfg . AuxAddresses = d . AuxAddress
ip , _ , err := net . ParseCIDR ( d . Subnet )
if err != nil {
return nil , nil , fmt . Errorf ( "Invalid subnet %s : %v" , d . Subnet , err )
}
if ip . To4 ( ) != nil {
ipamV4Cfg = append ( ipamV4Cfg , & iCfg )
} else {
ipamV6Cfg = append ( ipamV6Cfg , & iCfg )
}
}
return ipamV4Cfg , ipamV6Cfg , nil
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}
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// UpdateContainerServiceConfig updates a service configuration.
func ( daemon * Daemon ) UpdateContainerServiceConfig ( containerName string , serviceConfig * clustertypes . ServiceConfig ) error {
container , err := daemon . GetContainer ( containerName )
if err != nil {
return err
}
container . NetworkSettings . Service = serviceConfig
return nil
}
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// ConnectContainerToNetwork connects the given container to the given
// network. If either cannot be found, an err is returned. If the
// network cannot be set up, an err is returned.
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func ( daemon * Daemon ) ConnectContainerToNetwork ( containerName , networkName string , endpointConfig * network . EndpointSettings ) error {
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container , err := daemon . GetContainer ( containerName )
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if err != nil {
return err
}
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return daemon . ConnectToNetwork ( container , networkName , endpointConfig )
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}
// DisconnectContainerFromNetwork disconnects the given container from
// the given network. If either cannot be found, an err is returned.
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func ( daemon * Daemon ) DisconnectContainerFromNetwork ( containerName string , networkName string , force bool ) error {
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container , err := daemon . GetContainer ( containerName )
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if err != nil {
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if force {
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return daemon . ForceEndpointDelete ( containerName , networkName )
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}
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return err
}
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return daemon . DisconnectFromNetwork ( container , networkName , force )
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}
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// GetNetworkDriverList returns the list of plugins drivers
// registered for network.
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func ( daemon * Daemon ) GetNetworkDriverList ( ) [ ] string {
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if ! daemon . NetworkControllerEnabled ( ) {
return nil
}
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pluginList := daemon . netController . BuiltinDrivers ( )
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managedPlugins := daemon . PluginStore . GetAllManagedPluginsByCap ( driverapi . NetworkPluginEndpointType )
for _ , plugin := range managedPlugins {
pluginList = append ( pluginList , plugin . Name ( ) )
}
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pluginMap := make ( map [ string ] bool )
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for _ , plugin := range pluginList {
pluginMap [ plugin ] = true
}
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networks := daemon . netController . Networks ( )
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for _ , network := range networks {
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if ! pluginMap [ network . Type ( ) ] {
pluginList = append ( pluginList , network . Type ( ) )
pluginMap [ network . Type ( ) ] = true
}
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}
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sort . Strings ( pluginList )
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return pluginList
}
2015-12-21 23:35:30 -05:00
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// DeleteManagedNetwork deletes an agent network.
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// The requirement of networkID is enforced.
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func ( daemon * Daemon ) DeleteManagedNetwork ( networkID string ) error {
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n , err := daemon . GetNetworkByID ( networkID )
if err != nil {
return err
}
return daemon . deleteNetwork ( n , true )
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}
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// DeleteNetwork destroys a network unless it's one of docker's predefined networks.
func ( daemon * Daemon ) DeleteNetwork ( networkID string ) error {
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n , err := daemon . GetNetworkByID ( networkID )
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if err != nil {
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return errors . Wrap ( err , "could not find network by ID" )
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}
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return daemon . deleteNetwork ( n , false )
}
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func ( daemon * Daemon ) deleteNetwork ( nw libnetwork . Network , dynamic bool ) error {
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if runconfig . IsPreDefinedNetwork ( nw . Name ( ) ) && ! dynamic {
Remove static errors from errors package.
Moving all strings to the errors package wasn't a good idea after all.
Our custom implementation of Go errors predates everything that's nice
and good about working with errors in Go. Take as an example what we
have to do to get an error message:
```go
func GetErrorMessage(err error) string {
switch err.(type) {
case errcode.Error:
e, _ := err.(errcode.Error)
return e.Message
case errcode.ErrorCode:
ec, _ := err.(errcode.ErrorCode)
return ec.Message()
default:
return err.Error()
}
}
```
This goes against every good practice for Go development. The language already provides a simple, intuitive and standard way to get error messages, that is calling the `Error()` method from an error. Reinventing the error interface is a mistake.
Our custom implementation also makes very hard to reason about errors, another nice thing about Go. I found several (>10) error declarations that we don't use anywhere. This is a clear sign about how little we know about the errors we return. I also found several error usages where the number of arguments was different than the parameters declared in the error, another clear example of how difficult is to reason about errors.
Moreover, our custom implementation didn't really make easier for people to return custom HTTP status code depending on the errors. Again, it's hard to reason about when to set custom codes and how. Take an example what we have to do to extract the message and status code from an error before returning a response from the API:
```go
switch err.(type) {
case errcode.ErrorCode:
daError, _ := err.(errcode.ErrorCode)
statusCode = daError.Descriptor().HTTPStatusCode
errMsg = daError.Message()
case errcode.Error:
// For reference, if you're looking for a particular error
// then you can do something like :
// import ( derr "github.com/docker/docker/errors" )
// if daError.ErrorCode() == derr.ErrorCodeNoSuchContainer { ... }
daError, _ := err.(errcode.Error)
statusCode = daError.ErrorCode().Descriptor().HTTPStatusCode
errMsg = daError.Message
default:
// This part of will be removed once we've
// converted everything over to use the errcode package
// FIXME: this is brittle and should not be necessary.
// If we need to differentiate between different possible error types,
// we should create appropriate error types with clearly defined meaning
errStr := strings.ToLower(err.Error())
for keyword, status := range map[string]int{
"not found": http.StatusNotFound,
"no such": http.StatusNotFound,
"bad parameter": http.StatusBadRequest,
"conflict": http.StatusConflict,
"impossible": http.StatusNotAcceptable,
"wrong login/password": http.StatusUnauthorized,
"hasn't been activated": http.StatusForbidden,
} {
if strings.Contains(errStr, keyword) {
statusCode = status
break
}
}
}
```
You can notice two things in that code:
1. We have to explain how errors work, because our implementation goes against how easy to use Go errors are.
2. At no moment we arrived to remove that `switch` statement that was the original reason to use our custom implementation.
This change removes all our status errors from the errors package and puts them back in their specific contexts.
IT puts the messages back with their contexts. That way, we know right away when errors used and how to generate their messages.
It uses custom interfaces to reason about errors. Errors that need to response with a custom status code MUST implementent this simple interface:
```go
type errorWithStatus interface {
HTTPErrorStatusCode() int
}
```
This interface is very straightforward to implement. It also preserves Go errors real behavior, getting the message is as simple as using the `Error()` method.
I included helper functions to generate errors that use custom status code in `errors/errors.go`.
By doing this, we remove the hard dependency we have eeverywhere to our custom errors package. Yes, you can use it as a helper to generate error, but it's still very easy to generate errors without it.
Please, read this fantastic blog post about errors in Go: http://dave.cheney.net/2014/12/24/inspecting-errors
Signed-off-by: David Calavera <david.calavera@gmail.com>
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err := fmt . Errorf ( "%s is a pre-defined network and cannot be removed" , nw . Name ( ) )
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return errdefs . Forbidden ( err )
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}
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if dynamic && ! nw . Info ( ) . Dynamic ( ) {
if runconfig . IsPreDefinedNetwork ( nw . Name ( ) ) {
// Predefined networks now support swarm services. Make this
// a no-op when cluster requests to remove the predefined network.
return nil
}
err := fmt . Errorf ( "%s is not a dynamic network" , nw . Name ( ) )
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return errdefs . Forbidden ( err )
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}
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if err := nw . Delete ( ) ; err != nil {
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return errors . Wrap ( err , "error while removing network" )
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}
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// If this is not a configuration only network, we need to
// update the corresponding remote drivers' reference counts
if ! nw . Info ( ) . ConfigOnly ( ) {
daemon . pluginRefCount ( nw . Type ( ) , driverapi . NetworkPluginEndpointType , plugingetter . Release )
ipamType , _ , _ , _ := nw . Info ( ) . IpamConfig ( )
daemon . pluginRefCount ( ipamType , ipamapi . PluginEndpointType , plugingetter . Release )
daemon . LogNetworkEvent ( nw , "destroy" )
}
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return nil
}
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// GetNetworks returns a list of all networks
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func ( daemon * Daemon ) GetNetworks ( filter filters . Args , config types . NetworkListConfig ) ( [ ] types . NetworkResource , error ) {
networks := daemon . getAllNetworks ( )
list := make ( [ ] types . NetworkResource , 0 , len ( networks ) )
var idx map [ string ] libnetwork . Network
if config . Detailed {
idx = make ( map [ string ] libnetwork . Network )
}
for _ , n := range networks {
nr := buildNetworkResource ( n )
list = append ( list , nr )
if config . Detailed {
idx [ nr . ID ] = n
}
}
var err error
list , err = internalnetwork . FilterNetworks ( list , filter )
if err != nil {
return nil , err
}
if config . Detailed {
for i , n := range list {
np := & n
buildDetailedNetworkResources ( np , idx [ n . ID ] , config . Verbose )
list [ i ] = * np
}
}
return list , nil
}
func buildNetworkResource ( nw libnetwork . Network ) types . NetworkResource {
r := types . NetworkResource { }
if nw == nil {
return r
}
info := nw . Info ( )
r . Name = nw . Name ( )
r . ID = nw . ID ( )
r . Created = info . Created ( )
r . Scope = info . Scope ( )
r . Driver = nw . Type ( )
r . EnableIPv6 = info . IPv6Enabled ( )
r . Internal = info . Internal ( )
r . Attachable = info . Attachable ( )
r . Ingress = info . Ingress ( )
r . Options = info . DriverOptions ( )
r . Containers = make ( map [ string ] types . EndpointResource )
buildIpamResources ( & r , info )
r . Labels = info . Labels ( )
r . ConfigOnly = info . ConfigOnly ( )
if cn := info . ConfigFrom ( ) ; cn != "" {
r . ConfigFrom = network . ConfigReference { Network : cn }
}
peers := info . Peers ( )
if len ( peers ) != 0 {
r . Peers = buildPeerInfoResources ( peers )
}
return r
}
func buildDetailedNetworkResources ( r * types . NetworkResource , nw libnetwork . Network , verbose bool ) {
if nw == nil {
return
}
epl := nw . Endpoints ( )
for _ , e := range epl {
ei := e . Info ( )
if ei == nil {
continue
}
sb := ei . Sandbox ( )
tmpID := e . ID ( )
key := "ep-" + tmpID
if sb != nil {
key = sb . ContainerID ( )
}
r . Containers [ key ] = buildEndpointResource ( tmpID , e . Name ( ) , ei )
}
if ! verbose {
return
}
services := nw . Info ( ) . Services ( )
r . Services = make ( map [ string ] network . ServiceInfo )
for name , service := range services {
tasks := [ ] network . Task { }
for _ , t := range service . Tasks {
tasks = append ( tasks , network . Task {
Name : t . Name ,
EndpointID : t . EndpointID ,
EndpointIP : t . EndpointIP ,
Info : t . Info ,
} )
}
r . Services [ name ] = network . ServiceInfo {
VIP : service . VIP ,
Ports : service . Ports ,
Tasks : tasks ,
LocalLBIndex : service . LocalLBIndex ,
}
}
}
func buildPeerInfoResources ( peers [ ] networkdb . PeerInfo ) [ ] network . PeerInfo {
peerInfo := make ( [ ] network . PeerInfo , 0 , len ( peers ) )
for _ , peer := range peers {
peerInfo = append ( peerInfo , network . PeerInfo {
Name : peer . Name ,
IP : peer . IP ,
} )
}
return peerInfo
}
func buildIpamResources ( r * types . NetworkResource , nwInfo libnetwork . NetworkInfo ) {
id , opts , ipv4conf , ipv6conf := nwInfo . IpamConfig ( )
ipv4Info , ipv6Info := nwInfo . IpamInfo ( )
r . IPAM . Driver = id
r . IPAM . Options = opts
r . IPAM . Config = [ ] network . IPAMConfig { }
for _ , ip4 := range ipv4conf {
if ip4 . PreferredPool == "" {
continue
}
iData := network . IPAMConfig { }
iData . Subnet = ip4 . PreferredPool
iData . IPRange = ip4 . SubPool
iData . Gateway = ip4 . Gateway
iData . AuxAddress = ip4 . AuxAddresses
r . IPAM . Config = append ( r . IPAM . Config , iData )
}
if len ( r . IPAM . Config ) == 0 {
for _ , ip4Info := range ipv4Info {
iData := network . IPAMConfig { }
iData . Subnet = ip4Info . IPAMData . Pool . String ( )
if ip4Info . IPAMData . Gateway != nil {
iData . Gateway = ip4Info . IPAMData . Gateway . IP . String ( )
}
r . IPAM . Config = append ( r . IPAM . Config , iData )
}
}
hasIpv6Conf := false
for _ , ip6 := range ipv6conf {
if ip6 . PreferredPool == "" {
continue
}
hasIpv6Conf = true
iData := network . IPAMConfig { }
iData . Subnet = ip6 . PreferredPool
iData . IPRange = ip6 . SubPool
iData . Gateway = ip6 . Gateway
iData . AuxAddress = ip6 . AuxAddresses
r . IPAM . Config = append ( r . IPAM . Config , iData )
}
if ! hasIpv6Conf {
for _ , ip6Info := range ipv6Info {
if ip6Info . IPAMData . Pool == nil {
continue
}
iData := network . IPAMConfig { }
iData . Subnet = ip6Info . IPAMData . Pool . String ( )
iData . Gateway = ip6Info . IPAMData . Gateway . String ( )
r . IPAM . Config = append ( r . IPAM . Config , iData )
}
}
}
func buildEndpointResource ( id string , name string , info libnetwork . EndpointInfo ) types . EndpointResource {
er := types . EndpointResource { }
er . EndpointID = id
er . Name = name
ei := info
if ei == nil {
return er
}
if iface := ei . Iface ( ) ; iface != nil {
if mac := iface . MacAddress ( ) ; mac != nil {
er . MacAddress = mac . String ( )
}
if ip := iface . Address ( ) ; ip != nil && len ( ip . IP ) > 0 {
er . IPv4Address = ip . String ( )
}
if ipv6 := iface . AddressIPv6 ( ) ; ipv6 != nil && len ( ipv6 . IP ) > 0 {
er . IPv6Address = ipv6 . String ( )
}
}
return er
2016-03-28 13:41:06 -04:00
}
2017-01-13 23:14:03 -05:00
// clearAttachableNetworks removes the attachable networks
// after disconnecting any connected container
func ( daemon * Daemon ) clearAttachableNetworks ( ) {
2018-05-10 16:44:09 -04:00
for _ , n := range daemon . getAllNetworks ( ) {
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if ! n . Info ( ) . Attachable ( ) {
continue
}
for _ , ep := range n . Endpoints ( ) {
epInfo := ep . Info ( )
if epInfo == nil {
continue
}
sb := epInfo . Sandbox ( )
if sb == nil {
continue
}
containerID := sb . ContainerID ( )
if err := daemon . DisconnectContainerFromNetwork ( containerID , n . ID ( ) , true ) ; err != nil {
logrus . Warnf ( "Failed to disconnect container %s from swarm network %s on cluster leave: %v" ,
containerID , n . Name ( ) , err )
}
}
if err := daemon . DeleteManagedNetwork ( n . ID ( ) ) ; err != nil {
logrus . Warnf ( "Failed to remove swarm network %s on cluster leave: %v" , n . Name ( ) , err )
}
}
}
2018-05-10 16:44:09 -04:00
// buildCreateEndpointOptions builds endpoint options from a given network.
func buildCreateEndpointOptions ( c * container . Container , n libnetwork . Network , epConfig * network . EndpointSettings , sb libnetwork . Sandbox , daemonDNS [ ] string ) ( [ ] libnetwork . EndpointOption , error ) {
var (
bindings = make ( nat . PortMap )
pbList [ ] networktypes . PortBinding
exposeList [ ] networktypes . TransportPort
createOptions [ ] libnetwork . EndpointOption
)
defaultNetName := runconfig . DefaultDaemonNetworkMode ( ) . NetworkName ( )
2019-03-20 05:26:43 -04:00
if ( ! serviceDiscoveryOnDefaultNetwork ( ) && n . Name ( ) == defaultNetName ) ||
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c . NetworkSettings . IsAnonymousEndpoint {
createOptions = append ( createOptions , libnetwork . CreateOptionAnonymous ( ) )
}
if epConfig != nil {
ipam := epConfig . IPAMConfig
if ipam != nil {
var (
ipList [ ] net . IP
ip , ip6 , linkip net . IP
)
for _ , ips := range ipam . LinkLocalIPs {
if linkip = net . ParseIP ( ips ) ; linkip == nil && ips != "" {
return nil , errors . Errorf ( "Invalid link-local IP address: %s" , ipam . LinkLocalIPs )
}
ipList = append ( ipList , linkip )
}
if ip = net . ParseIP ( ipam . IPv4Address ) ; ip == nil && ipam . IPv4Address != "" {
return nil , errors . Errorf ( "Invalid IPv4 address: %s)" , ipam . IPv4Address )
}
if ip6 = net . ParseIP ( ipam . IPv6Address ) ; ip6 == nil && ipam . IPv6Address != "" {
return nil , errors . Errorf ( "Invalid IPv6 address: %s)" , ipam . IPv6Address )
}
createOptions = append ( createOptions ,
libnetwork . CreateOptionIpam ( ip , ip6 , ipList , nil ) )
}
for _ , alias := range epConfig . Aliases {
createOptions = append ( createOptions , libnetwork . CreateOptionMyAlias ( alias ) )
}
for k , v := range epConfig . DriverOpts {
createOptions = append ( createOptions , libnetwork . EndpointOptionGeneric ( options . Generic { k : v } ) )
}
}
if c . NetworkSettings . Service != nil {
svcCfg := c . NetworkSettings . Service
var vip string
if svcCfg . VirtualAddresses [ n . ID ( ) ] != nil {
vip = svcCfg . VirtualAddresses [ n . ID ( ) ] . IPv4
}
var portConfigs [ ] * libnetwork . PortConfig
for _ , portConfig := range svcCfg . ExposedPorts {
portConfigs = append ( portConfigs , & libnetwork . PortConfig {
Name : portConfig . Name ,
Protocol : libnetwork . PortConfig_Protocol ( portConfig . Protocol ) ,
TargetPort : portConfig . TargetPort ,
PublishedPort : portConfig . PublishedPort ,
} )
}
createOptions = append ( createOptions , libnetwork . CreateOptionService ( svcCfg . Name , svcCfg . ID , net . ParseIP ( vip ) , portConfigs , svcCfg . Aliases [ n . ID ( ) ] ) )
}
if ! containertypes . NetworkMode ( n . Name ( ) ) . IsUserDefined ( ) {
createOptions = append ( createOptions , libnetwork . CreateOptionDisableResolution ( ) )
}
// configs that are applicable only for the endpoint in the network
// to which container was connected to on docker run.
// Ideally all these network-specific endpoint configurations must be moved under
// container.NetworkSettings.Networks[n.Name()]
if n . Name ( ) == c . HostConfig . NetworkMode . NetworkName ( ) ||
( n . Name ( ) == defaultNetName && c . HostConfig . NetworkMode . IsDefault ( ) ) {
if c . Config . MacAddress != "" {
mac , err := net . ParseMAC ( c . Config . MacAddress )
if err != nil {
return nil , err
}
genericOption := options . Generic {
netlabel . MacAddress : mac ,
}
createOptions = append ( createOptions , libnetwork . EndpointOptionGeneric ( genericOption ) )
}
}
// Port-mapping rules belong to the container & applicable only to non-internal networks
portmaps := getSandboxPortMapInfo ( sb )
if n . Info ( ) . Internal ( ) || len ( portmaps ) > 0 {
return createOptions , nil
}
if c . HostConfig . PortBindings != nil {
for p , b := range c . HostConfig . PortBindings {
bindings [ p ] = [ ] nat . PortBinding { }
for _ , bb := range b {
bindings [ p ] = append ( bindings [ p ] , nat . PortBinding {
HostIP : bb . HostIP ,
HostPort : bb . HostPort ,
} )
}
}
}
portSpecs := c . Config . ExposedPorts
ports := make ( [ ] nat . Port , len ( portSpecs ) )
var i int
for p := range portSpecs {
ports [ i ] = p
i ++
}
nat . SortPortMap ( ports , bindings )
for _ , port := range ports {
expose := networktypes . TransportPort { }
expose . Proto = networktypes . ParseProtocol ( port . Proto ( ) )
expose . Port = uint16 ( port . Int ( ) )
exposeList = append ( exposeList , expose )
pb := networktypes . PortBinding { Port : expose . Port , Proto : expose . Proto }
binding := bindings [ port ]
for i := 0 ; i < len ( binding ) ; i ++ {
pbCopy := pb . GetCopy ( )
newP , err := nat . NewPort ( nat . SplitProtoPort ( binding [ i ] . HostPort ) )
var portStart , portEnd int
if err == nil {
portStart , portEnd , err = newP . Range ( )
}
if err != nil {
return nil , errors . Wrapf ( err , "Error parsing HostPort value (%s)" , binding [ i ] . HostPort )
}
pbCopy . HostPort = uint16 ( portStart )
pbCopy . HostPortEnd = uint16 ( portEnd )
pbCopy . HostIP = net . ParseIP ( binding [ i ] . HostIP )
pbList = append ( pbList , pbCopy )
}
if c . HostConfig . PublishAllPorts && len ( binding ) == 0 {
pbList = append ( pbList , pb )
}
}
var dns [ ] string
if len ( c . HostConfig . DNS ) > 0 {
dns = c . HostConfig . DNS
} else if len ( daemonDNS ) > 0 {
dns = daemonDNS
}
if len ( dns ) > 0 {
createOptions = append ( createOptions ,
libnetwork . CreateOptionDNS ( dns ) )
}
createOptions = append ( createOptions ,
libnetwork . CreateOptionPortMapping ( pbList ) ,
libnetwork . CreateOptionExposedPorts ( exposeList ) )
return createOptions , nil
}
// getEndpointInNetwork returns the container's endpoint to the provided network.
func getEndpointInNetwork ( name string , n libnetwork . Network ) ( libnetwork . Endpoint , error ) {
endpointName := strings . TrimPrefix ( name , "/" )
return n . EndpointByName ( endpointName )
}
// getSandboxPortMapInfo retrieves the current port-mapping programmed for the given sandbox
func getSandboxPortMapInfo ( sb libnetwork . Sandbox ) nat . PortMap {
pm := nat . PortMap { }
if sb == nil {
return pm
}
for _ , ep := range sb . Endpoints ( ) {
pm , _ = getEndpointPortMapInfo ( ep )
if len ( pm ) > 0 {
break
}
}
return pm
}
func getEndpointPortMapInfo ( ep libnetwork . Endpoint ) ( nat . PortMap , error ) {
pm := nat . PortMap { }
driverInfo , err := ep . DriverInfo ( )
if err != nil {
return pm , err
}
if driverInfo == nil {
// It is not an error for epInfo to be nil
return pm , nil
}
if expData , ok := driverInfo [ netlabel . ExposedPorts ] ; ok {
if exposedPorts , ok := expData . ( [ ] networktypes . TransportPort ) ; ok {
for _ , tp := range exposedPorts {
natPort , err := nat . NewPort ( tp . Proto . String ( ) , strconv . Itoa ( int ( tp . Port ) ) )
if err != nil {
return pm , fmt . Errorf ( "Error parsing Port value(%v):%v" , tp . Port , err )
}
pm [ natPort ] = nil
}
}
}
mapData , ok := driverInfo [ netlabel . PortMap ]
if ! ok {
return pm , nil
}
if portMapping , ok := mapData . ( [ ] networktypes . PortBinding ) ; ok {
for _ , pp := range portMapping {
natPort , err := nat . NewPort ( pp . Proto . String ( ) , strconv . Itoa ( int ( pp . Port ) ) )
if err != nil {
return pm , err
}
natBndg := nat . PortBinding { HostIP : pp . HostIP . String ( ) , HostPort : strconv . Itoa ( int ( pp . HostPort ) ) }
pm [ natPort ] = append ( pm [ natPort ] , natBndg )
}
}
return pm , nil
}
// buildEndpointInfo sets endpoint-related fields on container.NetworkSettings based on the provided network and endpoint.
func buildEndpointInfo ( networkSettings * internalnetwork . Settings , n libnetwork . Network , ep libnetwork . Endpoint ) error {
if ep == nil {
return errors . New ( "endpoint cannot be nil" )
}
if networkSettings == nil {
return errors . New ( "network cannot be nil" )
}
epInfo := ep . Info ( )
if epInfo == nil {
// It is not an error to get an empty endpoint info
return nil
}
if _ , ok := networkSettings . Networks [ n . Name ( ) ] ; ! ok {
networkSettings . Networks [ n . Name ( ) ] = & internalnetwork . EndpointSettings {
EndpointSettings : & network . EndpointSettings { } ,
}
}
networkSettings . Networks [ n . Name ( ) ] . NetworkID = n . ID ( )
networkSettings . Networks [ n . Name ( ) ] . EndpointID = ep . ID ( )
iface := epInfo . Iface ( )
if iface == nil {
return nil
}
if iface . MacAddress ( ) != nil {
networkSettings . Networks [ n . Name ( ) ] . MacAddress = iface . MacAddress ( ) . String ( )
}
if iface . Address ( ) != nil {
ones , _ := iface . Address ( ) . Mask . Size ( )
networkSettings . Networks [ n . Name ( ) ] . IPAddress = iface . Address ( ) . IP . String ( )
networkSettings . Networks [ n . Name ( ) ] . IPPrefixLen = ones
}
if iface . AddressIPv6 ( ) != nil && iface . AddressIPv6 ( ) . IP . To16 ( ) != nil {
onesv6 , _ := iface . AddressIPv6 ( ) . Mask . Size ( )
networkSettings . Networks [ n . Name ( ) ] . GlobalIPv6Address = iface . AddressIPv6 ( ) . IP . String ( )
networkSettings . Networks [ n . Name ( ) ] . GlobalIPv6PrefixLen = onesv6
}
return nil
}
// buildJoinOptions builds endpoint Join options from a given network.
func buildJoinOptions ( networkSettings * internalnetwork . Settings , n interface {
Name ( ) string
} ) ( [ ] libnetwork . EndpointOption , error ) {
var joinOptions [ ] libnetwork . EndpointOption
if epConfig , ok := networkSettings . Networks [ n . Name ( ) ] ; ok {
for _ , str := range epConfig . Links {
name , alias , err := opts . ParseLink ( str )
if err != nil {
return nil , err
}
joinOptions = append ( joinOptions , libnetwork . CreateOptionAlias ( name , alias ) )
}
for k , v := range epConfig . DriverOpts {
joinOptions = append ( joinOptions , libnetwork . EndpointOptionGeneric ( options . Generic { k : v } ) )
}
}
return joinOptions , nil
}