open-consul/vendor/golang.org/x/net/ipv6/control.go
Pierre Souchay ab9dd18bec
Bump version of miekg/dns to 1.0.4
See https://github.com/hashicorp/consul/issues/3977

While trying to improve furthermore #3948 (This pull request is still valid since we are not using Compression to compute the result anyway).

I saw a strange behaviour of dns library.
Basically, msg.Len() and len(msg.Pack()) disagree on Message len.

Thus, calculation of DNS response is false consul relies on msg.Len() instead of the result of Pack()

This is linked to miekg/dns#453 and a fix has been provided with miekg/dns#454

Would it be possible to upgrade miekg/dns to a more recent function ?

Consul might for instance upgrade to a post 1.0 release such as https://github.com/miekg/dns/releases/tag/v1.0.4
2018-03-28 10:23:57 -05:00

188 lines
5.9 KiB
Go

// Copyright 2013 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package ipv6
import (
"fmt"
"net"
"sync"
"golang.org/x/net/internal/iana"
"golang.org/x/net/internal/socket"
)
// Note that RFC 3542 obsoletes RFC 2292 but OS X Snow Leopard and the
// former still support RFC 2292 only. Please be aware that almost
// all protocol implementations prohibit using a combination of RFC
// 2292 and RFC 3542 for some practical reasons.
type rawOpt struct {
sync.RWMutex
cflags ControlFlags
}
func (c *rawOpt) set(f ControlFlags) { c.cflags |= f }
func (c *rawOpt) clear(f ControlFlags) { c.cflags &^= f }
func (c *rawOpt) isset(f ControlFlags) bool { return c.cflags&f != 0 }
// A ControlFlags represents per packet basis IP-level socket option
// control flags.
type ControlFlags uint
const (
FlagTrafficClass ControlFlags = 1 << iota // pass the traffic class on the received packet
FlagHopLimit // pass the hop limit on the received packet
FlagSrc // pass the source address on the received packet
FlagDst // pass the destination address on the received packet
FlagInterface // pass the interface index on the received packet
FlagPathMTU // pass the path MTU on the received packet path
)
const flagPacketInfo = FlagDst | FlagInterface
// A ControlMessage represents per packet basis IP-level socket
// options.
type ControlMessage struct {
// Receiving socket options: SetControlMessage allows to
// receive the options from the protocol stack using ReadFrom
// method of PacketConn.
//
// Specifying socket options: ControlMessage for WriteTo
// method of PacketConn allows to send the options to the
// protocol stack.
//
TrafficClass int // traffic class, must be 1 <= value <= 255 when specifying
HopLimit int // hop limit, must be 1 <= value <= 255 when specifying
Src net.IP // source address, specifying only
Dst net.IP // destination address, receiving only
IfIndex int // interface index, must be 1 <= value when specifying
NextHop net.IP // next hop address, specifying only
MTU int // path MTU, receiving only
}
func (cm *ControlMessage) String() string {
if cm == nil {
return "<nil>"
}
return fmt.Sprintf("tclass=%#x hoplim=%d src=%v dst=%v ifindex=%d nexthop=%v mtu=%d", cm.TrafficClass, cm.HopLimit, cm.Src, cm.Dst, cm.IfIndex, cm.NextHop, cm.MTU)
}
// Marshal returns the binary encoding of cm.
func (cm *ControlMessage) Marshal() []byte {
if cm == nil {
return nil
}
var l int
tclass := false
if ctlOpts[ctlTrafficClass].name > 0 && cm.TrafficClass > 0 {
tclass = true
l += socket.ControlMessageSpace(ctlOpts[ctlTrafficClass].length)
}
hoplimit := false
if ctlOpts[ctlHopLimit].name > 0 && cm.HopLimit > 0 {
hoplimit = true
l += socket.ControlMessageSpace(ctlOpts[ctlHopLimit].length)
}
pktinfo := false
if ctlOpts[ctlPacketInfo].name > 0 && (cm.Src.To16() != nil && cm.Src.To4() == nil || cm.IfIndex > 0) {
pktinfo = true
l += socket.ControlMessageSpace(ctlOpts[ctlPacketInfo].length)
}
nexthop := false
if ctlOpts[ctlNextHop].name > 0 && cm.NextHop.To16() != nil && cm.NextHop.To4() == nil {
nexthop = true
l += socket.ControlMessageSpace(ctlOpts[ctlNextHop].length)
}
var b []byte
if l > 0 {
b = make([]byte, l)
bb := b
if tclass {
bb = ctlOpts[ctlTrafficClass].marshal(bb, cm)
}
if hoplimit {
bb = ctlOpts[ctlHopLimit].marshal(bb, cm)
}
if pktinfo {
bb = ctlOpts[ctlPacketInfo].marshal(bb, cm)
}
if nexthop {
bb = ctlOpts[ctlNextHop].marshal(bb, cm)
}
}
return b
}
// Parse parses b as a control message and stores the result in cm.
func (cm *ControlMessage) Parse(b []byte) error {
ms, err := socket.ControlMessage(b).Parse()
if err != nil {
return err
}
for _, m := range ms {
lvl, typ, l, err := m.ParseHeader()
if err != nil {
return err
}
if lvl != iana.ProtocolIPv6 {
continue
}
switch {
case typ == ctlOpts[ctlTrafficClass].name && l >= ctlOpts[ctlTrafficClass].length:
ctlOpts[ctlTrafficClass].parse(cm, m.Data(l))
case typ == ctlOpts[ctlHopLimit].name && l >= ctlOpts[ctlHopLimit].length:
ctlOpts[ctlHopLimit].parse(cm, m.Data(l))
case typ == ctlOpts[ctlPacketInfo].name && l >= ctlOpts[ctlPacketInfo].length:
ctlOpts[ctlPacketInfo].parse(cm, m.Data(l))
case typ == ctlOpts[ctlPathMTU].name && l >= ctlOpts[ctlPathMTU].length:
ctlOpts[ctlPathMTU].parse(cm, m.Data(l))
}
}
return nil
}
// NewControlMessage returns a new control message.
//
// The returned message is large enough for options specified by cf.
func NewControlMessage(cf ControlFlags) []byte {
opt := rawOpt{cflags: cf}
var l int
if opt.isset(FlagTrafficClass) && ctlOpts[ctlTrafficClass].name > 0 {
l += socket.ControlMessageSpace(ctlOpts[ctlTrafficClass].length)
}
if opt.isset(FlagHopLimit) && ctlOpts[ctlHopLimit].name > 0 {
l += socket.ControlMessageSpace(ctlOpts[ctlHopLimit].length)
}
if opt.isset(flagPacketInfo) && ctlOpts[ctlPacketInfo].name > 0 {
l += socket.ControlMessageSpace(ctlOpts[ctlPacketInfo].length)
}
if opt.isset(FlagPathMTU) && ctlOpts[ctlPathMTU].name > 0 {
l += socket.ControlMessageSpace(ctlOpts[ctlPathMTU].length)
}
var b []byte
if l > 0 {
b = make([]byte, l)
}
return b
}
// Ancillary data socket options
const (
ctlTrafficClass = iota // header field
ctlHopLimit // header field
ctlPacketInfo // inbound or outbound packet path
ctlNextHop // nexthop
ctlPathMTU // path mtu
ctlMax
)
// A ctlOpt represents a binding for ancillary data socket option.
type ctlOpt struct {
name int // option name, must be equal or greater than 1
length int // option length
marshal func([]byte, *ControlMessage) []byte
parse func(*ControlMessage, []byte)
}