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|
package netlink
import (
"fmt"
"net"
"strings"
)
// Scope is an enum representing a route scope.
type Scope uint8
type NextHopFlag int
const (
RT_FILTER_PROTOCOL uint64 = 1 << (1 + iota)
RT_FILTER_SCOPE
RT_FILTER_TYPE
RT_FILTER_TOS
RT_FILTER_IIF
RT_FILTER_OIF
RT_FILTER_DST
RT_FILTER_SRC
RT_FILTER_GW
RT_FILTER_TABLE
RT_FILTER_HOPLIMIT
RT_FILTER_PRIORITY
RT_FILTER_MARK
RT_FILTER_MASK
RT_FILTER_REALM
)
type Destination interface {
Family() int
Decode([]byte) error
Encode() ([]byte, error)
String() string
Equal(Destination) bool
}
type Encap interface {
Type() int
Decode([]byte) error
Encode() ([]byte, error)
String() string
Equal(Encap) bool
}
// Protocol describe what was the originator of the route
type RouteProtocol int
// Route represents a netlink route.
type Route struct {
LinkIndex int
ILinkIndex int
Scope Scope
Dst *net.IPNet
Src net.IP
Gw net.IP
MultiPath []*NexthopInfo
Protocol RouteProtocol
Priority int
Family int
Table int
Type int
Tos int
Flags int
MPLSDst *int
NewDst Destination
Encap Encap
Via Destination
Realm int
MTU int
MTULock bool
Window int
Rtt int
RttVar int
Ssthresh int
Cwnd int
AdvMSS int
Reordering int
Hoplimit int
InitCwnd int
Features int
RtoMin int
RtoMinLock bool
InitRwnd int
QuickACK int
Congctl string
FastOpenNoCookie int
}
func (r Route) String() string {
elems := []string{}
if len(r.MultiPath) == 0 {
elems = append(elems, fmt.Sprintf("Ifindex: %d", r.LinkIndex))
}
if r.MPLSDst != nil {
elems = append(elems, fmt.Sprintf("Dst: %d", r.MPLSDst))
} else {
elems = append(elems, fmt.Sprintf("Dst: %s", r.Dst))
}
if r.NewDst != nil {
elems = append(elems, fmt.Sprintf("NewDst: %s", r.NewDst))
}
if r.Encap != nil {
elems = append(elems, fmt.Sprintf("Encap: %s", r.Encap))
}
if r.Via != nil {
elems = append(elems, fmt.Sprintf("Via: %s", r.Via))
}
elems = append(elems, fmt.Sprintf("Src: %s", r.Src))
if len(r.MultiPath) > 0 {
elems = append(elems, fmt.Sprintf("Gw: %s", r.MultiPath))
} else {
elems = append(elems, fmt.Sprintf("Gw: %s", r.Gw))
}
elems = append(elems, fmt.Sprintf("Flags: %s", r.ListFlags()))
elems = append(elems, fmt.Sprintf("Table: %d", r.Table))
elems = append(elems, fmt.Sprintf("Realm: %d", r.Realm))
return fmt.Sprintf("{%s}", strings.Join(elems, " "))
}
func (r Route) Equal(x Route) bool {
return r.LinkIndex == x.LinkIndex &&
r.ILinkIndex == x.ILinkIndex &&
r.Scope == x.Scope &&
ipNetEqual(r.Dst, x.Dst) &&
r.Src.Equal(x.Src) &&
r.Gw.Equal(x.Gw) &&
nexthopInfoSlice(r.MultiPath).Equal(x.MultiPath) &&
r.Protocol == x.Protocol &&
r.Priority == x.Priority &&
r.Realm == x.Realm &&
r.Table == x.Table &&
r.Type == x.Type &&
r.Tos == x.Tos &&
r.Hoplimit == x.Hoplimit &&
r.Flags == x.Flags &&
(r.MPLSDst == x.MPLSDst || (r.MPLSDst != nil && x.MPLSDst != nil && *r.MPLSDst == *x.MPLSDst)) &&
(r.NewDst == x.NewDst || (r.NewDst != nil && r.NewDst.Equal(x.NewDst))) &&
(r.Via == x.Via || (r.Via != nil && r.Via.Equal(x.Via))) &&
(r.Encap == x.Encap || (r.Encap != nil && r.Encap.Equal(x.Encap)))
}
func (r *Route) SetFlag(flag NextHopFlag) {
r.Flags |= int(flag)
}
func (r *Route) ClearFlag(flag NextHopFlag) {
r.Flags &^= int(flag)
}
type flagString struct {
f NextHopFlag
s string
}
// RouteUpdate is sent when a route changes - type is RTM_NEWROUTE or RTM_DELROUTE
// NlFlags is only non-zero for RTM_NEWROUTE, the following flags can be set:
// - unix.NLM_F_REPLACE - Replace existing matching config object with this request
// - unix.NLM_F_EXCL - Don't replace the config object if it already exists
// - unix.NLM_F_CREATE - Create config object if it doesn't already exist
// - unix.NLM_F_APPEND - Add to the end of the object list
type RouteUpdate struct {
Type uint16
NlFlags uint16
Route
}
type NexthopInfo struct {
LinkIndex int
Hops int
Gw net.IP
Flags int
NewDst Destination
Encap Encap
Via Destination
}
func (n *NexthopInfo) String() string {
elems := []string{}
elems = append(elems, fmt.Sprintf("Ifindex: %d", n.LinkIndex))
if n.NewDst != nil {
elems = append(elems, fmt.Sprintf("NewDst: %s", n.NewDst))
}
if n.Encap != nil {
elems = append(elems, fmt.Sprintf("Encap: %s", n.Encap))
}
if n.Via != nil {
elems = append(elems, fmt.Sprintf("Via: %s", n.Via))
}
elems = append(elems, fmt.Sprintf("Weight: %d", n.Hops+1))
elems = append(elems, fmt.Sprintf("Gw: %s", n.Gw))
elems = append(elems, fmt.Sprintf("Flags: %s", n.ListFlags()))
return fmt.Sprintf("{%s}", strings.Join(elems, " "))
}
func (n NexthopInfo) Equal(x NexthopInfo) bool {
return n.LinkIndex == x.LinkIndex &&
n.Hops == x.Hops &&
n.Gw.Equal(x.Gw) &&
n.Flags == x.Flags &&
(n.NewDst == x.NewDst || (n.NewDst != nil && n.NewDst.Equal(x.NewDst))) &&
(n.Encap == x.Encap || (n.Encap != nil && n.Encap.Equal(x.Encap)))
}
type nexthopInfoSlice []*NexthopInfo
func (n nexthopInfoSlice) Equal(x []*NexthopInfo) bool {
if len(n) != len(x) {
return false
}
for i := range n {
if n[i] == nil || x[i] == nil {
return false
}
if !n[i].Equal(*x[i]) {
return false
}
}
return true
}
// ipNetEqual returns true iff both IPNet are equal
func ipNetEqual(ipn1 *net.IPNet, ipn2 *net.IPNet) bool {
if ipn1 == ipn2 {
return true
}
if ipn1 == nil || ipn2 == nil {
return false
}
m1, _ := ipn1.Mask.Size()
m2, _ := ipn2.Mask.Size()
return m1 == m2 && ipn1.IP.Equal(ipn2.IP)
}
|
