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|
// Copyright (C) 2014 Nippon Telegraph and Telephone Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
// implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package table
import (
"bytes"
"encoding/binary"
"encoding/json"
"fmt"
"net"
"sort"
log "github.com/sirupsen/logrus"
"github.com/osrg/gobgp/config"
"github.com/osrg/gobgp/packet/bgp"
)
var SelectionOptions config.RouteSelectionOptionsConfig
var UseMultiplePaths config.UseMultiplePathsConfig
type BestPathReason uint8
const (
BPR_UNKNOWN BestPathReason = iota
BPR_DISABLED
BPR_ONLY_PATH
BPR_REACHABLE_NEXT_HOP
BPR_HIGHEST_WEIGHT
BPR_LOCAL_PREF
BPR_LOCAL_ORIGIN
BPR_ASPATH
BPR_ORIGIN
BPR_MED
BPR_ASN
BPR_IGP_COST
BPR_ROUTER_ID
BPR_OLDER
BPR_NON_LLGR_STALE
)
var BestPathReasonStringMap = map[BestPathReason]string{
BPR_UNKNOWN: "Unknown",
BPR_DISABLED: "Bestpath selection disabled",
BPR_ONLY_PATH: "Only Path",
BPR_REACHABLE_NEXT_HOP: "Reachable Next Hop",
BPR_HIGHEST_WEIGHT: "Highest Weight",
BPR_LOCAL_PREF: "Local Pref",
BPR_LOCAL_ORIGIN: "Local Origin",
BPR_ASPATH: "AS Path",
BPR_ORIGIN: "Origin",
BPR_MED: "MED",
BPR_ASN: "ASN",
BPR_IGP_COST: "IGP Cost",
BPR_ROUTER_ID: "Router ID",
BPR_OLDER: "Older",
BPR_NON_LLGR_STALE: "no LLGR Stale",
}
func (r *BestPathReason) String() string {
return BestPathReasonStringMap[*r]
}
func IpToRadixkey(b []byte, max uint8) string {
var buffer bytes.Buffer
for i := 0; i < len(b) && i < int(max); i++ {
fmt.Fprintf(&buffer, "%08b", b[i])
}
return buffer.String()[:max]
}
func CidrToRadixkey(cidr string) string {
_, n, _ := net.ParseCIDR(cidr)
ones, _ := n.Mask.Size()
return IpToRadixkey(n.IP, uint8(ones))
}
func AddrToRadixkey(addr bgp.AddrPrefixInterface) string {
var (
ip net.IP
size uint8
)
switch T := addr.(type) {
case *bgp.IPAddrPrefix:
mask := net.CIDRMask(int(T.Length), net.IPv4len*8)
ip, size = T.Prefix.Mask(mask).To4(), uint8(T.Length)
case *bgp.IPv6AddrPrefix:
mask := net.CIDRMask(int(T.Length), net.IPv6len*8)
ip, size = T.Prefix.Mask(mask).To16(), uint8(T.Length)
default:
return CidrToRadixkey(addr.String())
}
return IpToRadixkey(ip, size)
}
type PeerInfo struct {
AS uint32
ID net.IP
LocalAS uint32
LocalID net.IP
Address net.IP
LocalAddress net.IP
RouteReflectorClient bool
RouteReflectorClusterID net.IP
MultihopTtl uint8
Confederation bool
}
func (lhs *PeerInfo) Equal(rhs *PeerInfo) bool {
if lhs == rhs {
return true
}
if rhs == nil {
return false
}
if (lhs.AS == rhs.AS) && lhs.ID.Equal(rhs.ID) && lhs.LocalID.Equal(rhs.LocalID) && lhs.Address.Equal(rhs.Address) {
return true
}
return false
}
func (i *PeerInfo) String() string {
if i.Address == nil {
return "local"
}
s := bytes.NewBuffer(make([]byte, 0, 64))
s.WriteString(fmt.Sprintf("{ %s | ", i.Address))
s.WriteString(fmt.Sprintf("as: %d", i.AS))
s.WriteString(fmt.Sprintf(", id: %s", i.ID))
if i.RouteReflectorClient {
s.WriteString(fmt.Sprintf(", cluster-id: %s", i.RouteReflectorClusterID))
}
s.WriteString(" }")
return s.String()
}
func NewPeerInfo(g *config.Global, p *config.Neighbor) *PeerInfo {
clusterID := net.ParseIP(string(p.RouteReflector.State.RouteReflectorClusterId)).To4()
// exclude zone info
naddr, _ := net.ResolveIPAddr("ip", p.State.NeighborAddress)
return &PeerInfo{
AS: p.Config.PeerAs,
LocalAS: g.Config.As,
LocalID: net.ParseIP(g.Config.RouterId).To4(),
RouteReflectorClient: p.RouteReflector.Config.RouteReflectorClient,
Address: naddr.IP,
RouteReflectorClusterID: clusterID,
MultihopTtl: p.EbgpMultihop.Config.MultihopTtl,
Confederation: p.IsConfederationMember(g),
}
}
type Destination struct {
routeFamily bgp.RouteFamily
nlri bgp.AddrPrefixInterface
knownPathList []*Path
localIdMap *Bitmap
}
func NewDestination(nlri bgp.AddrPrefixInterface, mapSize int, known ...*Path) *Destination {
d := &Destination{
routeFamily: bgp.AfiSafiToRouteFamily(nlri.AFI(), nlri.SAFI()),
nlri: nlri,
knownPathList: known,
localIdMap: NewBitmap(mapSize),
}
// the id zero means id is not allocated yet.
if mapSize != 0 {
d.localIdMap.Flag(0)
}
return d
}
func (dd *Destination) Family() bgp.RouteFamily {
return dd.routeFamily
}
func (dd *Destination) setRouteFamily(routeFamily bgp.RouteFamily) {
dd.routeFamily = routeFamily
}
func (dd *Destination) GetNlri() bgp.AddrPrefixInterface {
return dd.nlri
}
func (dd *Destination) setNlri(nlri bgp.AddrPrefixInterface) {
dd.nlri = nlri
}
func (dd *Destination) GetAllKnownPathList() []*Path {
return dd.knownPathList
}
func rsFilter(id string, as uint32, path *Path) bool {
isASLoop := func(as uint32, path *Path) bool {
for _, v := range path.GetAsList() {
if as == v {
return true
}
}
return false
}
if id != GLOBAL_RIB_NAME && (path.GetSource().Address.String() == id || isASLoop(as, path)) {
return true
}
return false
}
func (dd *Destination) GetKnownPathList(id string, as uint32) []*Path {
list := make([]*Path, 0, len(dd.knownPathList))
for _, p := range dd.knownPathList {
if rsFilter(id, as, p) {
continue
}
list = append(list, p)
}
return list
}
func getBestPath(id string, as uint32, pathList []*Path) *Path {
for _, p := range pathList {
if rsFilter(id, as, p) {
continue
}
return p
}
return nil
}
func (dd *Destination) GetBestPath(id string, as uint32) *Path {
p := getBestPath(id, as, dd.knownPathList)
if p == nil || p.IsNexthopInvalid {
return nil
}
return p
}
func (dd *Destination) GetMultiBestPath(id string) []*Path {
return getMultiBestPath(id, dd.knownPathList)
}
func (dd *Destination) validatePath(path *Path) {
if path == nil || path.GetRouteFamily() != dd.routeFamily {
log.WithFields(log.Fields{
"Topic": "Table",
"Key": dd.GetNlri().String(),
"Path": path,
"ExpectedRF": dd.routeFamily,
}).Error("path is nil or invalid route family")
}
}
// Calculates best-path among known paths for this destination.
//
// Modifies destination's state related to stored paths. Removes withdrawn
// paths from known paths. Also, adds new paths to known paths.
func (dest *Destination) Calculate(newPath *Path) *Update {
oldKnownPathList := make([]*Path, len(dest.knownPathList))
copy(oldKnownPathList, dest.knownPathList)
if newPath.IsWithdraw {
p := dest.explicitWithdraw(newPath)
if p != nil {
if id := p.GetNlri().PathLocalIdentifier(); id != 0 {
dest.localIdMap.Unflag(uint(id))
}
}
} else {
dest.implicitWithdraw(newPath)
dest.knownPathList = append(dest.knownPathList, newPath)
}
for _, path := range dest.knownPathList {
if path.GetNlri().PathLocalIdentifier() == 0 {
id, err := dest.localIdMap.FindandSetZeroBit()
if err != nil {
dest.localIdMap.Expand()
id, _ = dest.localIdMap.FindandSetZeroBit()
}
path.GetNlri().SetPathLocalIdentifier(uint32(id))
}
}
// Compute new best path
dest.computeKnownBestPath()
l := make([]*Path, len(dest.knownPathList))
copy(l, dest.knownPathList)
return &Update{
KnownPathList: l,
OldKnownPathList: oldKnownPathList,
}
}
// Removes withdrawn paths.
//
// Note:
// We may have disproportionate number of withdraws compared to know paths
// since not all paths get installed into the table due to bgp policy and
// we can receive withdraws for such paths and withdrawals may not be
// stopped by the same policies.
//
func (dest *Destination) explicitWithdraw(withdraw *Path) *Path {
log.WithFields(log.Fields{
"Topic": "Table",
"Key": dest.GetNlri().String(),
}).Debug("Removing withdrawals")
// If we have some withdrawals and no know-paths, it means it is safe to
// delete these withdraws.
if len(dest.knownPathList) == 0 {
log.WithFields(log.Fields{
"Topic": "Table",
"Key": dest.GetNlri().String(),
}).Debug("Found withdrawals for path(s) that did not get installed")
return nil
}
// Match all withdrawals from destination paths.
isFound := -1
for i, path := range dest.knownPathList {
// We have a match if the source and path-id are same.
if path.GetSource().Equal(withdraw.GetSource()) && path.GetNlri().PathIdentifier() == withdraw.GetNlri().PathIdentifier() {
isFound = i
withdraw.GetNlri().SetPathLocalIdentifier(path.GetNlri().PathLocalIdentifier())
}
}
// We do no have any match for this withdraw.
if isFound == -1 {
log.WithFields(log.Fields{
"Topic": "Table",
"Key": dest.GetNlri().String(),
"Path": withdraw,
}).Warn("No matching path for withdraw found, may be path was not installed into table")
return nil
} else {
p := dest.knownPathList[isFound]
dest.knownPathList = append(dest.knownPathList[:isFound], dest.knownPathList[isFound+1:]...)
return p
}
}
// Identifies which of known paths are old and removes them.
//
// Known paths will no longer have paths whose new version is present in
// new paths.
func (dest *Destination) implicitWithdraw(newPath *Path) {
found := -1
for i, path := range dest.knownPathList {
if newPath.NoImplicitWithdraw() {
continue
}
// Here we just check if source is same and not check if path
// version num. as newPaths are implicit withdrawal of old
// paths and when doing RouteRefresh (not EnhancedRouteRefresh)
// we get same paths again.
if newPath.GetSource().Equal(path.GetSource()) && newPath.GetNlri().PathIdentifier() == path.GetNlri().PathIdentifier() {
log.WithFields(log.Fields{
"Topic": "Table",
"Key": dest.GetNlri().String(),
"Path": path,
}).Debug("Implicit withdrawal of old path, since we have learned new path from the same peer")
found = i
newPath.GetNlri().SetPathLocalIdentifier(path.GetNlri().PathLocalIdentifier())
break
}
}
if found != -1 {
dest.knownPathList = append(dest.knownPathList[:found], dest.knownPathList[found+1:]...)
}
}
func (dest *Destination) computeKnownBestPath() (*Path, BestPathReason, error) {
if SelectionOptions.DisableBestPathSelection {
log.WithFields(log.Fields{
"Topic": "Table",
}).Debug("computeKnownBestPath skipped")
return nil, BPR_DISABLED, nil
}
// If we do not have any paths to this destination, then we do not have
// new best path.
if len(dest.knownPathList) == 0 {
return nil, BPR_UNKNOWN, nil
}
log.WithFields(log.Fields{
"Topic": "Table",
}).Debugf("computeKnownBestPath knownPathList: %d", len(dest.knownPathList))
// We pick the first path as current best path. This helps in breaking
// tie between two new paths learned in one cycle for which best-path
// calculation steps lead to tie.
if len(dest.knownPathList) == 1 {
// If the first path has the invalidated next-hop, which evaluated by
// IGP, returns no path with the reason of the next-hop reachability.
if dest.knownPathList[0].IsNexthopInvalid {
return nil, BPR_REACHABLE_NEXT_HOP, nil
}
return dest.knownPathList[0], BPR_ONLY_PATH, nil
}
dest.sort()
newBest := dest.knownPathList[0]
// If the first path has the invalidated next-hop, which evaluated by IGP,
// returns no path with the reason of the next-hop reachability.
if dest.knownPathList[0].IsNexthopInvalid {
return nil, BPR_REACHABLE_NEXT_HOP, nil
}
return newBest, newBest.reason, nil
}
func (dst *Destination) sort() {
sort.SliceStable(dst.knownPathList, func(i, j int) bool {
//Compares given paths and returns best path.
//
//Parameters:
// -`path1`: first path to compare
// -`path2`: second path to compare
//
// Best path processing will involve following steps:
// 1. Select a path with a reachable next hop.
// 2. Select the path with the highest weight.
// 3. If path weights are the same, select the path with the highest
// local preference value.
// 4. Prefer locally originated routes (network routes, redistributed
// routes, or aggregated routes) over received routes.
// 5. Select the route with the shortest AS-path length.
// 6. If all paths have the same AS-path length, select the path based
// on origin: IGP is preferred over EGP; EGP is preferred over
// Incomplete.
// 7. If the origins are the same, select the path with lowest MED
// value.
// 8. If the paths have the same MED values, select the path learned
// via EBGP over one learned via IBGP.
// 9. Select the route with the lowest IGP cost to the next hop.
// 10. Select the route received from the peer with the lowest BGP
// router ID.
//
// Returns None if best-path among given paths cannot be computed else best
// path.
// Assumes paths from NC has source equal to None.
//
path1 := dst.knownPathList[i]
path2 := dst.knownPathList[j]
var better *Path
reason := BPR_UNKNOWN
// draft-uttaro-idr-bgp-persistence-02
if better == nil {
better = compareByLLGRStaleCommunity(path1, path2)
reason = BPR_NON_LLGR_STALE
}
// Follow best path calculation algorithm steps.
// compare by reachability
if better == nil {
better = compareByReachableNexthop(path1, path2)
reason = BPR_REACHABLE_NEXT_HOP
}
if better == nil {
better = compareByHighestWeight(path1, path2)
reason = BPR_HIGHEST_WEIGHT
}
if better == nil {
better = compareByLocalPref(path1, path2)
reason = BPR_LOCAL_PREF
}
if better == nil {
better = compareByLocalOrigin(path1, path2)
reason = BPR_LOCAL_ORIGIN
}
if better == nil {
better = compareByASPath(path1, path2)
reason = BPR_ASPATH
}
if better == nil {
better = compareByOrigin(path1, path2)
reason = BPR_ORIGIN
}
if better == nil {
better = compareByMED(path1, path2)
reason = BPR_MED
}
if better == nil {
better = compareByASNumber(path1, path2)
reason = BPR_ASN
}
if better == nil {
better = compareByIGPCost(path1, path2)
reason = BPR_IGP_COST
}
if better == nil {
better = compareByAge(path1, path2)
reason = BPR_OLDER
}
if better == nil {
var e error = nil
better, e = compareByRouterID(path1, path2)
if e != nil {
log.WithFields(log.Fields{
"Topic": "Table",
"Error": e,
}).Error("Could not get best path by comparing router ID")
}
reason = BPR_ROUTER_ID
}
if better == nil {
reason = BPR_UNKNOWN
better = path1
}
better.reason = reason
if better == path1 {
return true
}
return false
})
}
type Update struct {
KnownPathList []*Path
OldKnownPathList []*Path
}
func getMultiBestPath(id string, pathList []*Path) []*Path {
list := make([]*Path, 0, len(pathList))
var best *Path
for _, p := range pathList {
if !p.IsNexthopInvalid {
if best == nil {
best = p
list = append(list, p)
} else if best.Compare(p) == 0 {
list = append(list, p)
}
}
}
return list
}
func (u *Update) GetWithdrawnPath() []*Path {
if len(u.KnownPathList) == len(u.OldKnownPathList) {
return nil
}
l := make([]*Path, 0, len(u.OldKnownPathList))
for _, p := range u.OldKnownPathList {
y := func() bool {
for _, old := range u.KnownPathList {
if p == old {
return true
}
}
return false
}()
if !y {
l = append(l, p.Clone(true))
}
}
return l
}
func (u *Update) GetChanges(id string, as uint32, peerDown bool) (*Path, *Path, []*Path) {
best, old := func(id string) (*Path, *Path) {
old := getBestPath(id, as, u.OldKnownPathList)
best := getBestPath(id, as, u.KnownPathList)
if best != nil && best.Equal(old) {
// RFC4684 3.2. Intra-AS VPN Route Distribution
// When processing RT membership NLRIs received from internal iBGP
// peers, it is necessary to consider all available iBGP paths for a
// given RT prefix, for building the outbound route filter, and not just
// the best path.
if best.GetRouteFamily() == bgp.RF_RTC_UC {
return best, old
}
// For BGP Nexthop Tracking, checks if the nexthop reachability
// was changed or not.
if best.IsNexthopInvalid != old.IsNexthopInvalid {
// If the nexthop of the best path became unreachable, we need
// to withdraw that path.
if best.IsNexthopInvalid {
return best.Clone(true), old
}
return best, old
}
return nil, old
}
if best == nil {
if old == nil {
return nil, nil
}
if peerDown {
// withdraws were generated by peer
// down so paths are not in knowpath
// or adjin.
old.IsWithdraw = true
return old, old
}
return old.Clone(true), old
}
return best, old
}(id)
var multi []*Path
if id == GLOBAL_RIB_NAME && UseMultiplePaths.Enabled {
diff := func(lhs, rhs []*Path) bool {
if len(lhs) != len(rhs) {
return true
}
for idx, l := range lhs {
if !l.Equal(rhs[idx]) {
return true
}
}
return false
}
oldM := getMultiBestPath(id, u.OldKnownPathList)
newM := getMultiBestPath(id, u.KnownPathList)
if diff(oldM, newM) {
multi = newM
if len(newM) == 0 {
multi = []*Path{best}
}
}
}
return best, old, multi
}
func compareByLLGRStaleCommunity(path1, path2 *Path) *Path {
p1 := path1.IsLLGRStale()
p2 := path2.IsLLGRStale()
if p1 == p2 {
return nil
} else if p1 {
return path2
}
return path1
}
func compareByReachableNexthop(path1, path2 *Path) *Path {
// Compares given paths and selects best path based on reachable next-hop.
//
// If no path matches this criteria, return nil.
// For BGP Nexthop Tracking, evaluates next-hop is validated by IGP.
log.WithFields(log.Fields{
"Topic": "Table",
}).Debugf("enter compareByReachableNexthop -- path1: %s, path2: %s", path1, path2)
if path1.IsNexthopInvalid && !path2.IsNexthopInvalid {
return path2
} else if !path1.IsNexthopInvalid && path2.IsNexthopInvalid {
return path1
}
return nil
}
func compareByHighestWeight(path1, path2 *Path) *Path {
// Selects a path with highest weight.
//
// Weight is BGPS specific parameter. It is local to the router on which it
// is configured.
// Return:
// nil if best path among given paths cannot be decided, else best path.
log.WithFields(log.Fields{
"Topic": "Table",
}).Debugf("enter compareByHighestWeight -- path1: %s, path2: %s", path1, path2)
return nil
}
func compareByLocalPref(path1, path2 *Path) *Path {
// Selects a path with highest local-preference.
//
// Unlike the weight attribute, which is only relevant to the local
// router, local preference is an attribute that routers exchange in the
// same AS. Highest local-pref is preferred. If we cannot decide,
// we return None.
//
// # Default local-pref values is 100
log.WithFields(log.Fields{
"Topic": "Table",
}).Debug("enter compareByLocalPref")
localPref1, _ := path1.GetLocalPref()
localPref2, _ := path2.GetLocalPref()
// Highest local-preference value is preferred.
if localPref1 > localPref2 {
return path1
} else if localPref1 < localPref2 {
return path2
} else {
return nil
}
}
func compareByLocalOrigin(path1, path2 *Path) *Path {
// Select locally originating path as best path.
// Locally originating routes are network routes, redistributed routes,
// or aggregated routes.
// Returns None if given paths have same source.
//
// If both paths are from same sources we cannot compare them here.
log.WithFields(log.Fields{
"Topic": "Table",
}).Debug("enter compareByLocalOrigin")
if path1.GetSource().Equal(path2.GetSource()) {
return nil
}
// Here we consider prefix from NC as locally originating static route.
// Hence it is preferred.
if path1.IsLocal() {
return path1
}
if path2.IsLocal() {
return path2
}
return nil
}
func compareByASPath(path1, path2 *Path) *Path {
// Calculated the best-paths by comparing as-path lengths.
//
// Shortest as-path length is preferred. If both path have same lengths,
// we return None.
if SelectionOptions.IgnoreAsPathLength {
log.WithFields(log.Fields{
"Topic": "Table",
}).Debug("compareByASPath -- skip")
return nil
}
log.WithFields(log.Fields{
"Topic": "Table",
}).Debug("enter compareByASPath")
attribute1 := path1.getPathAttr(bgp.BGP_ATTR_TYPE_AS_PATH)
attribute2 := path2.getPathAttr(bgp.BGP_ATTR_TYPE_AS_PATH)
// With addpath support, we could compare paths from API don't
// AS_PATH. No need to warn here.
if !path1.IsLocal() && !path2.IsLocal() && (attribute1 == nil || attribute2 == nil) {
log.WithFields(log.Fields{
"Topic": "Table",
"Key": "compareByASPath",
"ASPath1": attribute1,
"ASPath2": attribute2,
}).Warn("can't compare ASPath because it's not present")
}
l1 := path1.GetAsPathLen()
l2 := path2.GetAsPathLen()
log.WithFields(log.Fields{
"Topic": "Table",
}).Debugf("compareByASPath -- l1: %d, l2: %d", l1, l2)
if l1 > l2 {
return path2
} else if l1 < l2 {
return path1
} else {
return nil
}
}
func compareByOrigin(path1, path2 *Path) *Path {
// Select the best path based on origin attribute.
//
// IGP is preferred over EGP; EGP is preferred over Incomplete.
// If both paths have same origin, we return None.
log.WithFields(log.Fields{
"Topic": "Table",
}).Debug("enter compareByOrigin")
attribute1 := path1.getPathAttr(bgp.BGP_ATTR_TYPE_ORIGIN)
attribute2 := path2.getPathAttr(bgp.BGP_ATTR_TYPE_ORIGIN)
if attribute1 == nil || attribute2 == nil {
log.WithFields(log.Fields{
"Topic": "Table",
"Key": "compareByOrigin",
"Origin1": attribute1,
"Origin2": attribute2,
}).Error("can't compare origin because it's not present")
return nil
}
origin1 := attribute1.(*bgp.PathAttributeOrigin).Value
origin2 := attribute2.(*bgp.PathAttributeOrigin).Value
log.WithFields(log.Fields{
"Topic": "Table",
}).Debugf("compareByOrigin -- origin1: %d, origin2: %d", origin1, origin2)
// If both paths have same origins
if origin1 == origin2 {
return nil
} else if origin1 < origin2 {
return path1
} else {
return path2
}
}
func compareByMED(path1, path2 *Path) *Path {
// Select the path based with lowest MED value.
//
// If both paths have same MED, return None.
// By default, a route that arrives with no MED value is treated as if it
// had a MED of 0, the most preferred value.
// RFC says lower MED is preferred over higher MED value.
// compare MED among not only same AS path but also all path,
// like bgp always-compare-med
isInternal := func() bool { return path1.GetAsPathLen() == 0 && path2.GetAsPathLen() == 0 }()
isSameAS := func() bool {
firstAS := func(path *Path) uint32 {
if asPath := path.GetAsPath(); asPath != nil {
for _, v := range asPath.Value {
segType := v.GetType()
asList := v.GetAS()
if len(asList) == 0 {
continue
}
switch segType {
case bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SET, bgp.BGP_ASPATH_ATTR_TYPE_CONFED_SEQ:
continue
}
return asList[0]
}
}
return 0
}
return firstAS(path1) != 0 && firstAS(path1) == firstAS(path2)
}()
if SelectionOptions.AlwaysCompareMed || isInternal || isSameAS {
log.WithFields(log.Fields{
"Topic": "Table",
}).Debug("enter compareByMED")
getMed := func(path *Path) uint32 {
attribute := path.getPathAttr(bgp.BGP_ATTR_TYPE_MULTI_EXIT_DISC)
if attribute == nil {
return 0
}
med := attribute.(*bgp.PathAttributeMultiExitDisc).Value
return med
}
med1 := getMed(path1)
med2 := getMed(path2)
log.WithFields(log.Fields{
"Topic": "Table",
}).Debugf("compareByMED -- med1: %d, med2: %d", med1, med2)
if med1 == med2 {
return nil
} else if med1 < med2 {
return path1
}
return path2
} else {
log.WithFields(log.Fields{
"Topic": "Table",
}).Debugf("skip compareByMED %v %v %v", SelectionOptions.AlwaysCompareMed, isInternal, isSameAS)
return nil
}
}
func compareByASNumber(path1, path2 *Path) *Path {
//Select the path based on source (iBGP/eBGP) peer.
//
//eBGP path is preferred over iBGP. If both paths are from same kind of
//peers, return None.
log.WithFields(log.Fields{
"Topic": "Table",
}).Debug("enter compareByASNumber")
log.WithFields(log.Fields{
"Topic": "Table",
}).Debugf("compareByASNumber -- p1Asn: %d, p2Asn: %d", path1.GetSource().AS, path2.GetSource().AS)
// Path from confederation member should be treated as internal (IBGP learned) path.
isIBGP1 := path1.GetSource().Confederation || path1.IsIBGP()
isIBGP2 := path2.GetSource().Confederation || path2.IsIBGP()
// If one path is from ibgp peer and another is from ebgp peer, take the ebgp path.
if isIBGP1 != isIBGP2 {
if isIBGP1 {
return path2
}
return path1
}
// If both paths are from ebgp or ibpg peers, we cannot decide.
return nil
}
func compareByIGPCost(path1, path2 *Path) *Path {
// Select the route with the lowest IGP cost to the next hop.
//
// Return None if igp cost is same.
// Currently BGPS has no concept of IGP and IGP cost.
log.WithFields(log.Fields{
"Topic": "Table",
}).Debugf("enter compareByIGPCost -- path1: %v, path2: %v", path1, path2)
return nil
}
func compareByRouterID(path1, path2 *Path) (*Path, error) {
// Select the route received from the peer with the lowest BGP router ID.
//
// If both paths are eBGP paths, then we do not do any tie breaking, i.e we do
// not pick best-path based on this criteria.
// RFC: http://tools.ietf.org/html/rfc5004
// We pick best path between two iBGP paths as usual.
log.WithFields(log.Fields{
"Topic": "Table",
}).Debug("enter compareByRouterID")
// If both paths are from NC we have same router Id, hence cannot compare.
if path1.IsLocal() && path2.IsLocal() {
return nil, nil
}
// If both paths are from eBGP peers, then according to RFC we need
// not tie break using router id.
if !SelectionOptions.ExternalCompareRouterId && !path1.IsIBGP() && !path2.IsIBGP() {
return nil, nil
}
if !SelectionOptions.ExternalCompareRouterId && path1.IsIBGP() != path2.IsIBGP() {
return nil, fmt.Errorf("This method does not support comparing ebgp with ibgp path")
}
// At least one path is not coming from NC, so we get local bgp id.
id1 := binary.BigEndian.Uint32(path1.GetSource().ID)
id2 := binary.BigEndian.Uint32(path2.GetSource().ID)
// If both router ids are same/equal we cannot decide.
// This case is possible since router ids are arbitrary.
if id1 == id2 {
return nil, nil
} else if id1 < id2 {
return path1, nil
} else {
return path2, nil
}
}
func compareByAge(path1, path2 *Path) *Path {
if !path1.IsIBGP() && !path2.IsIBGP() && !SelectionOptions.ExternalCompareRouterId {
age1 := path1.GetTimestamp().UnixNano()
age2 := path2.GetTimestamp().UnixNano()
if age1 == age2 {
return nil
} else if age1 < age2 {
return path1
}
return path2
}
return nil
}
func (dest *Destination) String() string {
return fmt.Sprintf("Destination NLRI: %s", dest.nlri.String())
}
type DestinationSelectOption struct {
ID string
AS uint32
VRF *Vrf
adj bool
Best bool
MultiPath bool
}
func (d *Destination) MarshalJSON() ([]byte, error) {
return json.Marshal(d.GetAllKnownPathList())
}
func (d *Destination) Select(option ...DestinationSelectOption) *Destination {
id := GLOBAL_RIB_NAME
var vrf *Vrf
adj := false
best := false
mp := false
as := uint32(0)
for _, o := range option {
if o.ID != "" {
id = o.ID
}
if o.VRF != nil {
vrf = o.VRF
}
adj = o.adj
best = o.Best
mp = o.MultiPath
as = o.AS
}
var paths []*Path
if adj {
paths = make([]*Path, len(d.knownPathList))
copy(paths, d.knownPathList)
} else {
paths = d.GetKnownPathList(id, as)
if vrf != nil {
ps := make([]*Path, 0, len(paths))
for _, p := range paths {
if CanImportToVrf(vrf, p) {
ps = append(ps, p.ToLocal())
}
}
paths = ps
}
if len(paths) == 0 {
return nil
}
if best {
if !mp {
paths = []*Path{paths[0]}
} else {
ps := make([]*Path, 0, len(paths))
var best *Path
for _, p := range paths {
if best == nil {
best = p
ps = append(ps, p)
} else if best.Compare(p) == 0 {
ps = append(ps, p)
}
}
paths = ps
}
}
}
return NewDestination(d.nlri, 0, paths...)
}
type destinations []*Destination
func (d destinations) Len() int {
return len(d)
}
func (d destinations) Swap(i, j int) {
d[i], d[j] = d[j], d[i]
}
func (d destinations) Less(i, j int) bool {
switch d[i].routeFamily {
case bgp.RF_FS_IPv4_UC, bgp.RF_FS_IPv6_UC, bgp.RF_FS_IPv4_VPN, bgp.RF_FS_IPv6_VPN, bgp.RF_FS_L2_VPN:
var s, t *bgp.FlowSpecNLRI
switch d[i].routeFamily {
case bgp.RF_FS_IPv4_UC:
s = &d[i].nlri.(*bgp.FlowSpecIPv4Unicast).FlowSpecNLRI
t = &d[j].nlri.(*bgp.FlowSpecIPv4Unicast).FlowSpecNLRI
case bgp.RF_FS_IPv6_UC:
s = &d[i].nlri.(*bgp.FlowSpecIPv6Unicast).FlowSpecNLRI
t = &d[j].nlri.(*bgp.FlowSpecIPv6Unicast).FlowSpecNLRI
case bgp.RF_FS_IPv4_VPN:
s = &d[i].nlri.(*bgp.FlowSpecIPv4VPN).FlowSpecNLRI
t = &d[j].nlri.(*bgp.FlowSpecIPv4VPN).FlowSpecNLRI
case bgp.RF_FS_IPv6_VPN:
s = &d[i].nlri.(*bgp.FlowSpecIPv6VPN).FlowSpecNLRI
t = &d[j].nlri.(*bgp.FlowSpecIPv6VPN).FlowSpecNLRI
case bgp.RF_FS_L2_VPN:
s = &d[i].nlri.(*bgp.FlowSpecL2VPN).FlowSpecNLRI
t = &d[j].nlri.(*bgp.FlowSpecL2VPN).FlowSpecNLRI
}
if r, _ := bgp.CompareFlowSpecNLRI(s, t); r >= 0 {
return true
} else {
return false
}
default:
strings := sort.StringSlice{d[i].nlri.String(), d[j].nlri.String()}
return strings.Less(0, 1)
}
}
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