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package docker
import (
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"encoding/binary"
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"errors"
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"fmt"
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"github.com/dotcloud/docker/iptables"
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"github.com/dotcloud/docker/netlink"
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"github.com/dotcloud/docker/proxy"
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"github.com/dotcloud/docker/utils"
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"log"
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"net"
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"strconv"
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"sync"
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)
const (
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DefaultNetworkBridge = "docker0"
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DisableNetworkBridge = "none"
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portRangeStart = 49153
portRangeEnd = 65535
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)
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// Calculates the first and last IP addresses in an IPNet
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func networkRange ( network * net . IPNet ) ( net . IP , net . IP ) {
netIP := network . IP . To4 ( )
firstIP := netIP . Mask ( network . Mask )
lastIP := net . IPv4 ( 0 , 0 , 0 , 0 ) . To4 ( )
for i := 0 ; i < len ( lastIP ) ; i ++ {
lastIP [ i ] = netIP [ i ] | ^ network . Mask [ i ]
}
return firstIP , lastIP
}
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// Detects overlap between one IPNet and another
func networkOverlaps ( netX * net . IPNet , netY * net . IPNet ) bool {
firstIP , _ := networkRange ( netX )
if netY . Contains ( firstIP ) {
return true
}
firstIP , _ = networkRange ( netY )
if netX . Contains ( firstIP ) {
return true
}
return false
}
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// Converts a 4 bytes IP into a 32 bit integer
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func ipToInt ( ip net . IP ) int32 {
return int32 ( binary . BigEndian . Uint32 ( ip . To4 ( ) ) )
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}
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// Converts 32 bit integer into a 4 bytes IP address
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func intToIP ( n int32 ) net . IP {
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b := make ( [ ] byte , 4 )
binary . BigEndian . PutUint32 ( b , uint32 ( n ) )
return net . IP ( b )
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}
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// Given a netmask, calculates the number of available hosts
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func networkSize ( mask net . IPMask ) int32 {
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m := net . IPv4Mask ( 0 , 0 , 0 , 0 )
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for i := 0 ; i < net . IPv4len ; i ++ {
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m [ i ] = ^ mask [ i ]
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}
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return int32 ( binary . BigEndian . Uint32 ( m ) ) + 1
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}
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func checkRouteOverlaps ( networks [ ] * net . IPNet , dockerNetwork * net . IPNet ) error {
for _ , network := range networks {
if networkOverlaps ( dockerNetwork , network ) {
return fmt . Errorf ( "Network %s is already routed: '%s'" , dockerNetwork , network )
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}
}
return nil
}
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func checkNameserverOverlaps ( nameservers [ ] string , dockerNetwork * net . IPNet ) error {
if len ( nameservers ) > 0 {
for _ , ns := range nameservers {
_ , nsNetwork , err := net . ParseCIDR ( ns )
if err != nil {
return err
}
if networkOverlaps ( dockerNetwork , nsNetwork ) {
return fmt . Errorf ( "%s overlaps nameserver %s" , dockerNetwork , nsNetwork )
}
}
}
return nil
}
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// CreateBridgeIface creates a network bridge interface on the host system with the name `ifaceName`,
// and attempts to configure it with an address which doesn't conflict with any other interface on the host.
// If it can't find an address which doesn't conflict, it will return an error.
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func CreateBridgeIface ( config * DaemonConfig ) error {
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addrs := [ ] string {
// Here we don't follow the convention of using the 1st IP of the range for the gateway.
// This is to use the same gateway IPs as the /24 ranges, which predate the /16 ranges.
// In theory this shouldn't matter - in practice there's bound to be a few scripts relying
// on the internal addressing or other stupid things like that.
// The shouldn't, but hey, let's not break them unless we really have to.
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"172.17.42.1/16" , // Don't use 172.16.0.0/16, it conflicts with EC2 DNS 172.16.0.23
"10.0.42.1/16" , // Don't even try using the entire /8, that's too intrusive
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"10.1.42.1/16" ,
"10.42.42.1/16" ,
"172.16.42.1/24" ,
"172.16.43.1/24" ,
"172.16.44.1/24" ,
"10.0.42.1/24" ,
"10.0.43.1/24" ,
"192.168.42.1/24" ,
"192.168.43.1/24" ,
"192.168.44.1/24" ,
}
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nameservers := [ ] string { }
resolvConf , _ := utils . GetResolvConf ( )
// we don't check for an error here, because we don't really care
// if we can't read /etc/resolv.conf. So instead we skip the append
// if resolvConf is nil. It either doesn't exist, or we can't read it
// for some reason.
if resolvConf != nil {
nameservers = append ( nameservers , utils . GetNameserversAsCIDR ( resolvConf ) ... )
}
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var ifaceAddr string
for _ , addr := range addrs {
_ , dockerNetwork , err := net . ParseCIDR ( addr )
if err != nil {
return err
}
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routes , err := netlink . NetworkGetRoutes ( )
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if err != nil {
return err
}
if err := checkRouteOverlaps ( routes , dockerNetwork ) ; err == nil {
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if err := checkNameserverOverlaps ( nameservers , dockerNetwork ) ; err == nil {
ifaceAddr = addr
break
}
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} else {
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utils . Debugf ( "%s: %s" , addr , err )
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}
}
if ifaceAddr == "" {
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return fmt . Errorf ( "Could not find a free IP address range for interface '%s'. Please configure its address manually and run 'docker -b %s'" , config . BridgeIface , config . BridgeIface )
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}
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utils . Debugf ( "Creating bridge %s with network %s" , config . BridgeIface , ifaceAddr )
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if err := netlink . NetworkLinkAdd ( config . BridgeIface , "bridge" ) ; err != nil {
return fmt . Errorf ( "Error creating bridge: %s" , err )
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}
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iface , err := net . InterfaceByName ( config . BridgeIface )
if err != nil {
return err
}
ipAddr , ipNet , err := net . ParseCIDR ( ifaceAddr )
if err != nil {
return err
}
if netlink . NetworkLinkAddIp ( iface , ipAddr , ipNet ) ; err != nil {
return fmt . Errorf ( "Unable to add private network: %s" , err )
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}
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if err := netlink . NetworkLinkUp ( iface ) ; err != nil {
return fmt . Errorf ( "Unable to start network bridge: %s" , err )
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}
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if config . EnableIptables {
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if output , err := iptables . Raw ( "-t" , "nat" , "-A" , "POSTROUTING" , "-s" , ifaceAddr ,
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"!" , "-d" , ifaceAddr , "-j" , "MASQUERADE" ) ; err != nil {
return fmt . Errorf ( "Unable to enable network bridge NAT: %s" , err )
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} else if len ( output ) != 0 {
return fmt . Errorf ( "Error iptables postrouting: %s" , output )
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}
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}
return nil
}
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// Return the IPv4 address of a network interface
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func getIfaceAddr ( name string ) ( net . Addr , error ) {
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iface , err := net . InterfaceByName ( name )
if err != nil {
return nil , err
}
addrs , err := iface . Addrs ( )
if err != nil {
return nil , err
}
var addrs4 [ ] net . Addr
for _ , addr := range addrs {
ip := ( addr . ( * net . IPNet ) ) . IP
if ip4 := ip . To4 ( ) ; len ( ip4 ) == net . IPv4len {
addrs4 = append ( addrs4 , addr )
}
}
switch {
case len ( addrs4 ) == 0 :
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return nil , fmt . Errorf ( "Interface %v has no IP addresses" , name )
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case len ( addrs4 ) > 1 :
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fmt . Printf ( "Interface %v has more than 1 IPv4 address. Defaulting to using %v\n" ,
name , ( addrs4 [ 0 ] . ( * net . IPNet ) ) . IP )
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}
return addrs4 [ 0 ] , nil
}
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// Port mapper takes care of mapping external ports to containers by setting
// up iptables rules.
// It keeps track of all mappings and is able to unmap at will
type PortMapper struct {
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tcpMapping map [ int ] * net . TCPAddr
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tcpProxies map [ int ] proxy . Proxy
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udpMapping map [ int ] * net . UDPAddr
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udpProxies map [ int ] proxy . Proxy
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iptables * iptables . Chain
defaultIp net . IP
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}
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func ( mapper * PortMapper ) Map ( ip net . IP , port int , backendAddr net . Addr ) error {
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if _ , isTCP := backendAddr . ( * net . TCPAddr ) ; isTCP {
backendPort := backendAddr . ( * net . TCPAddr ) . Port
backendIP := backendAddr . ( * net . TCPAddr ) . IP
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if mapper . iptables != nil {
if err := mapper . iptables . Forward ( iptables . Add , ip , port , "tcp" , backendIP . String ( ) , backendPort ) ; err != nil {
return err
}
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}
mapper . tcpMapping [ port ] = backendAddr . ( * net . TCPAddr )
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proxy , err := proxy . NewProxy ( & net . TCPAddr { IP : ip , Port : port } , backendAddr )
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if err != nil {
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mapper . Unmap ( ip , port , "tcp" )
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return err
}
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mapper . tcpProxies [ port ] = proxy
go proxy . Run ( )
} else {
backendPort := backendAddr . ( * net . UDPAddr ) . Port
backendIP := backendAddr . ( * net . UDPAddr ) . IP
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if mapper . iptables != nil {
if err := mapper . iptables . Forward ( iptables . Add , ip , port , "udp" , backendIP . String ( ) , backendPort ) ; err != nil {
return err
}
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}
mapper . udpMapping [ port ] = backendAddr . ( * net . UDPAddr )
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proxy , err := proxy . NewProxy ( & net . UDPAddr { IP : ip , Port : port } , backendAddr )
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if err != nil {
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mapper . Unmap ( ip , port , "udp" )
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return err
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}
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mapper . udpProxies [ port ] = proxy
go proxy . Run ( )
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}
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return nil
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}
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func ( mapper * PortMapper ) Unmap ( ip net . IP , port int , proto string ) error {
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if proto == "tcp" {
backendAddr , ok := mapper . tcpMapping [ port ]
if ! ok {
return fmt . Errorf ( "Port tcp/%v is not mapped" , port )
}
if proxy , exists := mapper . tcpProxies [ port ] ; exists {
proxy . Close ( )
delete ( mapper . tcpProxies , port )
}
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if mapper . iptables != nil {
if err := mapper . iptables . Forward ( iptables . Delete , ip , port , proto , backendAddr . IP . String ( ) , backendAddr . Port ) ; err != nil {
return err
}
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}
delete ( mapper . tcpMapping , port )
} else {
backendAddr , ok := mapper . udpMapping [ port ]
if ! ok {
return fmt . Errorf ( "Port udp/%v is not mapped" , port )
}
if proxy , exists := mapper . udpProxies [ port ] ; exists {
proxy . Close ( )
delete ( mapper . udpProxies , port )
}
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if mapper . iptables != nil {
if err := mapper . iptables . Forward ( iptables . Delete , ip , port , proto , backendAddr . IP . String ( ) , backendAddr . Port ) ; err != nil {
return err
}
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}
delete ( mapper . udpMapping , port )
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}
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return nil
}
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func newPortMapper ( config * DaemonConfig ) ( * PortMapper , error ) {
// We can always try removing the iptables
if err := iptables . RemoveExistingChain ( "DOCKER" ) ; err != nil {
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return nil , err
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}
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var chain * iptables . Chain
if config . EnableIptables {
var err error
chain , err = iptables . NewChain ( "DOCKER" , config . BridgeIface )
if err != nil {
return nil , fmt . Errorf ( "Failed to create DOCKER chain: %s" , err )
}
}
mapper := & PortMapper {
tcpMapping : make ( map [ int ] * net . TCPAddr ) ,
tcpProxies : make ( map [ int ] proxy . Proxy ) ,
udpMapping : make ( map [ int ] * net . UDPAddr ) ,
udpProxies : make ( map [ int ] proxy . Proxy ) ,
iptables : chain ,
defaultIp : config . DefaultIp ,
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}
return mapper , nil
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}
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// Port allocator: Automatically allocate and release networking ports
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type PortAllocator struct {
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sync . Mutex
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inUse map [ int ] struct { }
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fountain chan int
quit chan bool
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}
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func ( alloc * PortAllocator ) runFountain ( ) {
for {
for port := portRangeStart ; port < portRangeEnd ; port ++ {
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select {
case alloc . fountain <- port :
case quit := <- alloc . quit :
if quit {
return
}
}
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}
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}
}
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// FIXME: Release can no longer fail, change its prototype to reflect that.
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func ( alloc * PortAllocator ) Release ( port int ) error {
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utils . Debugf ( "Releasing %d" , port )
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alloc . Lock ( )
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delete ( alloc . inUse , port )
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alloc . Unlock ( )
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return nil
}
func ( alloc * PortAllocator ) Acquire ( port int ) ( int , error ) {
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utils . Debugf ( "Acquiring %d" , port )
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if port == 0 {
// Allocate a port from the fountain
for port := range alloc . fountain {
if _ , err := alloc . Acquire ( port ) ; err == nil {
return port , nil
}
}
return - 1 , fmt . Errorf ( "Port generator ended unexpectedly" )
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}
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alloc . Lock ( )
defer alloc . Unlock ( )
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if _ , inUse := alloc . inUse [ port ] ; inUse {
return - 1 , fmt . Errorf ( "Port already in use: %d" , port )
}
alloc . inUse [ port ] = struct { } { }
return port , nil
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}
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func ( alloc * PortAllocator ) Close ( ) error {
alloc . quit <- true
close ( alloc . quit )
close ( alloc . fountain )
return nil
}
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func newPortAllocator ( ) ( * PortAllocator , error ) {
allocator := & PortAllocator {
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inUse : make ( map [ int ] struct { } ) ,
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fountain : make ( chan int ) ,
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quit : make ( chan bool ) ,
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}
go allocator . runFountain ( )
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return allocator , nil
}
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// IP allocator: Automatically allocate and release networking ports
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type IPAllocator struct {
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network * net . IPNet
queueAlloc chan allocatedIP
queueReleased chan net . IP
inUse map [ int32 ] struct { }
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quit chan bool
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}
type allocatedIP struct {
ip net . IP
err error
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}
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func ( alloc * IPAllocator ) run ( ) {
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firstIP , _ := networkRange ( alloc . network )
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ipNum := ipToInt ( firstIP )
ownIP := ipToInt ( alloc . network . IP )
size := networkSize ( alloc . network . Mask )
pos := int32 ( 1 )
max := size - 2 // -1 for the broadcast address, -1 for the gateway address
for {
var (
newNum int32
inUse bool
)
// Find first unused IP, give up after one whole round
for attempt := int32 ( 0 ) ; attempt < max ; attempt ++ {
newNum = ipNum + pos
pos = pos % max + 1
// The network's IP is never okay to use
if newNum == ownIP {
continue
}
if _ , inUse = alloc . inUse [ newNum ] ; ! inUse {
// We found an unused IP
break
}
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}
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ip := allocatedIP { ip : intToIP ( newNum ) }
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if inUse {
ip . err = errors . New ( "No unallocated IP available" )
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}
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select {
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case quit := <- alloc . quit :
if quit {
return
}
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case alloc . queueAlloc <- ip :
alloc . inUse [ newNum ] = struct { } { }
case released := <- alloc . queueReleased :
r := ipToInt ( released )
delete ( alloc . inUse , r )
if inUse {
// If we couldn't allocate a new IP, the released one
// will be the only free one now, so instantly use it
// next time
pos = r - ipNum
} else {
// Use same IP as last time
if pos == 1 {
pos = max
} else {
pos --
}
}
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}
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}
}
func ( alloc * IPAllocator ) Acquire ( ) ( net . IP , error ) {
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ip := <- alloc . queueAlloc
return ip . ip , ip . err
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}
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func ( alloc * IPAllocator ) Release ( ip net . IP ) {
alloc . queueReleased <- ip
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}
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func ( alloc * IPAllocator ) Close ( ) error {
alloc . quit <- true
close ( alloc . quit )
close ( alloc . queueAlloc )
close ( alloc . queueReleased )
return nil
}
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func newIPAllocator ( network * net . IPNet ) * IPAllocator {
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alloc := & IPAllocator {
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network : network ,
queueAlloc : make ( chan allocatedIP ) ,
queueReleased : make ( chan net . IP ) ,
inUse : make ( map [ int32 ] struct { } ) ,
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quit : make ( chan bool ) ,
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}
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go alloc . run ( )
return alloc
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}
// Network interface represents the networking stack of a container
type NetworkInterface struct {
IPNet net . IPNet
Gateway net . IP
manager * NetworkManager
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extPorts [ ] * Nat
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disabled bool
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}
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// Allocate an external port and map it to the interface
func ( iface * NetworkInterface ) AllocatePort ( port Port , binding PortBinding ) ( * Nat , error ) {
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if iface . disabled {
return nil , fmt . Errorf ( "Trying to allocate port for interface %v, which is disabled" , iface ) // FIXME
}
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ip := iface . manager . portMapper . defaultIp
if binding . HostIp != "" {
ip = net . ParseIP ( binding . HostIp )
} else {
binding . HostIp = ip . String ( )
}
nat := & Nat {
Port : port ,
Binding : binding ,
}
containerPort , err := parsePort ( port . Port ( ) )
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if err != nil {
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return nil , err
}
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hostPort , _ := parsePort ( nat . Binding . HostPort )
if nat . Port . Proto ( ) == "tcp" {
extPort , err := iface . manager . tcpPortAllocator . Acquire ( hostPort )
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if err != nil {
return nil , err
}
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backend := & net . TCPAddr { IP : iface . IPNet . IP , Port : containerPort }
if err := iface . manager . portMapper . Map ( ip , extPort , backend ) ; err != nil {
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iface . manager . tcpPortAllocator . Release ( extPort )
return nil , err
}
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nat . Binding . HostPort = strconv . Itoa ( extPort )
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} else {
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extPort , err := iface . manager . udpPortAllocator . Acquire ( hostPort )
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if err != nil {
return nil , err
}
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backend := & net . UDPAddr { IP : iface . IPNet . IP , Port : containerPort }
if err := iface . manager . portMapper . Map ( ip , extPort , backend ) ; err != nil {
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iface . manager . udpPortAllocator . Release ( extPort )
return nil , err
}
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nat . Binding . HostPort = strconv . Itoa ( extPort )
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}
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iface . extPorts = append ( iface . extPorts , nat )
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return nat , nil
}
type Nat struct {
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Port Port
Binding PortBinding
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}
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func ( n * Nat ) String ( ) string {
return fmt . Sprintf ( "%s:%d:%d/%s" , n . Binding . HostIp , n . Binding . HostPort , n . Port . Port ( ) , n . Port . Proto ( ) )
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}
// Release: Network cleanup - release all resources
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func ( iface * NetworkInterface ) Release ( ) {
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if iface . disabled {
return
}
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for _ , nat := range iface . extPorts {
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hostPort , err := parsePort ( nat . Binding . HostPort )
if err != nil {
log . Printf ( "Unable to get host port: %s" , err )
continue
}
ip := net . ParseIP ( nat . Binding . HostIp )
utils . Debugf ( "Unmaping %s/%s" , nat . Port . Proto , nat . Binding . HostPort )
if err := iface . manager . portMapper . Unmap ( ip , hostPort , nat . Port . Proto ( ) ) ; err != nil {
log . Printf ( "Unable to unmap port %s: %s" , nat , err )
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}
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if nat . Port . Proto ( ) == "tcp" {
if err := iface . manager . tcpPortAllocator . Release ( hostPort ) ; err != nil {
log . Printf ( "Unable to release port %s" , nat )
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}
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} else if err := iface . manager . udpPortAllocator . Release ( hostPort ) ; err != nil {
log . Printf ( "Unable to release port %s: %s" , nat , err )
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}
}
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iface . manager . ipAllocator . Release ( iface . IPNet . IP )
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}
// Network Manager manages a set of network interfaces
// Only *one* manager per host machine should be used
type NetworkManager struct {
bridgeIface string
bridgeNetwork * net . IPNet
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ipAllocator * IPAllocator
tcpPortAllocator * PortAllocator
udpPortAllocator * PortAllocator
portMapper * PortMapper
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disabled bool
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}
// Allocate a network interface
func ( manager * NetworkManager ) Allocate ( ) ( * NetworkInterface , error ) {
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if manager . disabled {
return & NetworkInterface { disabled : true } , nil
}
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var ip net . IP
var err error
ip , err = manager . ipAllocator . Acquire ( )
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if err != nil {
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return nil , err
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}
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// avoid duplicate IP
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ipNum := ipToInt ( ip )
firstIP := manager . ipAllocator . network . IP . To4 ( ) . Mask ( manager . ipAllocator . network . Mask )
firstIPNum := ipToInt ( firstIP ) + 1
if firstIPNum == ipNum {
ip , err = manager . ipAllocator . Acquire ( )
if err != nil {
return nil , err
}
}
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iface := & NetworkInterface {
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IPNet : net . IPNet { IP : ip , Mask : manager . bridgeNetwork . Mask } ,
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Gateway : manager . bridgeNetwork . IP ,
manager : manager ,
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}
return iface , nil
}
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func ( manager * NetworkManager ) Close ( ) error {
err1 := manager . tcpPortAllocator . Close ( )
err2 := manager . udpPortAllocator . Close ( )
err3 := manager . ipAllocator . Close ( )
if err1 != nil {
return err1
}
if err2 != nil {
return err2
}
return err3
}
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func newNetworkManager ( config * DaemonConfig ) ( * NetworkManager , error ) {
if config . BridgeIface == DisableNetworkBridge {
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manager := & NetworkManager {
disabled : true ,
}
return manager , nil
}
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addr , err := getIfaceAddr ( config . BridgeIface )
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if err != nil {
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// If the iface is not found, try to create it
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if err := CreateBridgeIface ( config ) ; err != nil {
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return nil , err
}
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addr , err = getIfaceAddr ( config . BridgeIface )
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if err != nil {
return nil , err
}
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}
network := addr . ( * net . IPNet )
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// Configure iptables for link support
if config . EnableIptables {
args := [ ] string { "FORWARD" , "-i" , config . BridgeIface , "-o" , config . BridgeIface , "-j" , "DROP" }
if ! config . InterContainerCommunication {
if ! iptables . Exists ( args ... ) {
utils . Debugf ( "Disable inter-container communication" )
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if output , err := iptables . Raw ( append ( [ ] string { "-A" } , args ... ) ... ) ; err != nil {
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return nil , fmt . Errorf ( "Unable to prevent intercontainer communication: %s" , err )
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} else if len ( output ) != 0 {
return nil , fmt . Errorf ( "Error enabling iptables: %s" , output )
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}
}
} else {
utils . Debugf ( "Enable inter-container communication" )
iptables . Raw ( append ( [ ] string { "-D" } , args ... ) ... )
}
}
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ipAllocator := newIPAllocator ( network )
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tcpPortAllocator , err := newPortAllocator ( )
if err != nil {
return nil , err
}
udpPortAllocator , err := newPortAllocator ( )
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if err != nil {
return nil , err
}
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portMapper , err := newPortMapper ( config )
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if err != nil {
return nil , err
}
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manager := & NetworkManager {
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bridgeIface : config . BridgeIface ,
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bridgeNetwork : network ,
ipAllocator : ipAllocator ,
tcpPortAllocator : tcpPortAllocator ,
udpPortAllocator : udpPortAllocator ,
portMapper : portMapper ,
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}
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return manager , nil
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}