mirror of
https://github.com/vishvananda/netlink
synced 2024-12-28 17:42:08 +00:00
d3c0a2caa5
- changes: 1. set userTmpl.Family to correct family 2. add Selector to XfrmState which is corresponding to XfrmUsersaInfo.Sel - update *XfrmAddress.ToIPNet method to support 0.0.0.0/0 and ::/0 correctly - update xfrmStateFromXfrmUsersaInfo to get XfrmState.Selector - extend TestXfrmStateAddGetDel for v6ov4 and v4ov6 cases
149 lines
4.3 KiB
Go
149 lines
4.3 KiB
Go
package netlink
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import (
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"fmt"
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"net"
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"time"
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)
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// XfrmStateAlgo represents the algorithm to use for the ipsec encryption.
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type XfrmStateAlgo struct {
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Name string
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Key []byte
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TruncateLen int // Auth only
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ICVLen int // AEAD only
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}
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func (a XfrmStateAlgo) String() string {
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base := fmt.Sprintf("{Name: %s, Key: 0x%x", a.Name, a.Key)
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if a.TruncateLen != 0 {
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base = fmt.Sprintf("%s, Truncate length: %d", base, a.TruncateLen)
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}
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if a.ICVLen != 0 {
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base = fmt.Sprintf("%s, ICV length: %d", base, a.ICVLen)
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}
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return fmt.Sprintf("%s}", base)
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}
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// EncapType is an enum representing the optional packet encapsulation.
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type EncapType uint8
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const (
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XFRM_ENCAP_ESPINUDP_NONIKE EncapType = iota + 1
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XFRM_ENCAP_ESPINUDP
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)
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func (e EncapType) String() string {
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switch e {
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case XFRM_ENCAP_ESPINUDP_NONIKE:
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return "espinudp-non-ike"
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case XFRM_ENCAP_ESPINUDP:
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return "espinudp"
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}
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return "unknown"
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}
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// XfrmStateEncap represents the encapsulation to use for the ipsec encryption.
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type XfrmStateEncap struct {
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Type EncapType
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SrcPort int
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DstPort int
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OriginalAddress net.IP
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}
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func (e XfrmStateEncap) String() string {
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return fmt.Sprintf("{Type: %s, Srcport: %d, DstPort: %d, OriginalAddress: %v}",
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e.Type, e.SrcPort, e.DstPort, e.OriginalAddress)
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}
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// XfrmStateLimits represents the configured limits for the state.
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type XfrmStateLimits struct {
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ByteSoft uint64
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ByteHard uint64
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PacketSoft uint64
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PacketHard uint64
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TimeSoft uint64
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TimeHard uint64
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TimeUseSoft uint64
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TimeUseHard uint64
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}
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// XfrmStateStats represents the current number of bytes/packets
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// processed by this State, the State's installation and first use
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// time and the replay window counters.
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type XfrmStateStats struct {
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ReplayWindow uint32
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Replay uint32
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Failed uint32
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Bytes uint64
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Packets uint64
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AddTime uint64
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UseTime uint64
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}
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// XfrmReplayState represents the sequence number states for
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// "legacy" anti-replay mode.
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type XfrmReplayState struct {
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OSeq uint32
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Seq uint32
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BitMap uint32
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}
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func (r XfrmReplayState) String() string {
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return fmt.Sprintf("{OSeq: 0x%x, Seq: 0x%x, BitMap: 0x%x}",
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r.OSeq, r.Seq, r.BitMap)
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}
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// XfrmState represents the state of an ipsec policy. It optionally
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// contains an XfrmStateAlgo for encryption and one for authentication.
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type XfrmState struct {
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Dst net.IP
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Src net.IP
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Proto Proto
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Mode Mode
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Spi int
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Reqid int
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ReplayWindow int
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Limits XfrmStateLimits
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Statistics XfrmStateStats
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Mark *XfrmMark
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OutputMark *XfrmMark
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Ifid int
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Auth *XfrmStateAlgo
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Crypt *XfrmStateAlgo
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Aead *XfrmStateAlgo
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Encap *XfrmStateEncap
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ESN bool
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DontEncapDSCP bool
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OSeqMayWrap bool
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Replay *XfrmReplayState
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Selector *XfrmPolicy
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}
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func (sa XfrmState) String() string {
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return fmt.Sprintf("Dst: %v, Src: %v, Proto: %s, Mode: %s, SPI: 0x%x, ReqID: 0x%x, ReplayWindow: %d, Mark: %v, OutputMark: %v, Ifid: %d, Auth: %v, Crypt: %v, Aead: %v, Encap: %v, ESN: %t, DontEncapDSCP: %t, OSeqMayWrap: %t, Replay: %v",
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sa.Dst, sa.Src, sa.Proto, sa.Mode, sa.Spi, sa.Reqid, sa.ReplayWindow, sa.Mark, sa.OutputMark, sa.Ifid, sa.Auth, sa.Crypt, sa.Aead, sa.Encap, sa.ESN, sa.DontEncapDSCP, sa.OSeqMayWrap, sa.Replay)
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}
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func (sa XfrmState) Print(stats bool) string {
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if !stats {
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return sa.String()
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}
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at := time.Unix(int64(sa.Statistics.AddTime), 0).Format(time.UnixDate)
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ut := "-"
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if sa.Statistics.UseTime > 0 {
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ut = time.Unix(int64(sa.Statistics.UseTime), 0).Format(time.UnixDate)
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}
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return fmt.Sprintf("%s, ByteSoft: %s, ByteHard: %s, PacketSoft: %s, PacketHard: %s, TimeSoft: %d, TimeHard: %d, TimeUseSoft: %d, TimeUseHard: %d, Bytes: %d, Packets: %d, "+
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"AddTime: %s, UseTime: %s, ReplayWindow: %d, Replay: %d, Failed: %d",
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sa.String(), printLimit(sa.Limits.ByteSoft), printLimit(sa.Limits.ByteHard), printLimit(sa.Limits.PacketSoft), printLimit(sa.Limits.PacketHard),
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sa.Limits.TimeSoft, sa.Limits.TimeHard, sa.Limits.TimeUseSoft, sa.Limits.TimeUseHard, sa.Statistics.Bytes, sa.Statistics.Packets, at, ut,
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sa.Statistics.ReplayWindow, sa.Statistics.Replay, sa.Statistics.Failed)
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}
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func printLimit(lmt uint64) string {
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if lmt == ^uint64(0) {
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return "(INF)"
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}
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return fmt.Sprintf("%d", lmt)
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}
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