func ToPathApi(path *table.Path) *Path { nlri := path.GetNlri() n, _ := nlri.Serialize() family := uint32(bgp.AfiSafiToRouteFamily(nlri.AFI(), nlri.SAFI())) pattrs := func(arg []bgp.PathAttributeInterface) [][]byte { ret := make([][]byte, 0, len(arg)) for _, a := range arg { aa, _ := a.Serialize() ret = append(ret, aa) } return ret }(path.GetPathAttrs()) return &Path{ Nlri: n, Pattrs: pattrs, Age: path.GetTimestamp().Unix(), IsWithdraw: path.IsWithdraw, Validation: int32(path.Validation().ToInt()), Filtered: path.Filtered("") == table.POLICY_DIRECTION_IN, Family: family, SourceAsn: path.GetSource().AS, SourceId: path.GetSource().ID.String(), NeighborIp: path.GetSource().Address.String(), Stale: path.IsStale(), IsFromExternal: path.IsFromExternal(), } }
// compare neighbor ipaddress of this condition and source address of path // and, subsequent comparisons are skipped if that matches the conditions. // If NeighborList's length is zero, return true. func (c *NeighborCondition) evaluate(path *table.Path) bool { if len(c.NeighborList) == 0 { log.Debug("NeighborList doesn't have elements") return true } for _, neighbor := range c.NeighborList { cAddr := neighbor pAddr := path.GetSource().Address if pAddr.Equal(cAddr) { log.WithFields(log.Fields{ "Topic": "Policy", "NeighborAddress": pAddr.String(), }).Debug("neighbor matched") return true } } return false }
func path2data(path *table.Path) (map[string]interface{}, map[string]string) { fields := map[string]interface{}{ "ASPath": path.GetAsPath().String(), } if origin, err := path.GetOrigin(); err == nil { typ := "-" switch origin { case bgp.BGP_ORIGIN_ATTR_TYPE_IGP: typ = "i" case bgp.BGP_ORIGIN_ATTR_TYPE_EGP: typ = "e" case bgp.BGP_ORIGIN_ATTR_TYPE_INCOMPLETE: typ = "?" } fields["Origin"] = typ } if med, err := path.GetMed(); err == nil { fields["Med"] = med } var prefix, prefixLen string l := strings.Split(path.GetNlri().String(), "/") if len(l) == 2 { prefix = l[0] prefixLen = l[1] } tags := map[string]string{ "PeerAddress": path.GetSource().Address.String(), "PeerAS": fmt.Sprintf("%v", path.GetSource().AS), "Prefix": prefix, "PrefixLen": prefixLen, "NextHop": path.GetNexthop().String(), "OriginAS": fmt.Sprintf("%v", path.GetSourceAs()), "Timestamp": path.GetTimestamp().String(), } return fields, tags }
func path2data(path *table.Path) (map[string]interface{}, map[string]string) { fields := map[string]interface{}{ "RouterID": path.GetSource().ID, } if asPath := path.GetAsPath(); asPath != nil { fields["ASPath"] = asPath.String() } if origin, err := path.GetOrigin(); err == nil { typ := "-" switch origin { case bgp.BGP_ORIGIN_ATTR_TYPE_IGP: typ = "i" case bgp.BGP_ORIGIN_ATTR_TYPE_EGP: typ = "e" case bgp.BGP_ORIGIN_ATTR_TYPE_INCOMPLETE: typ = "?" } fields["Origin"] = typ } if med, err := path.GetMed(); err == nil { fields["Med"] = med } tags := map[string]string{ "PeerAddress": path.GetSource().Address.String(), "PeerAS": fmt.Sprintf("%v", path.GetSource().AS), "Timestamp": path.GetTimestamp().String(), } if nexthop := path.GetNexthop(); len(nexthop) > 0 { fields["NextHop"] = nexthop.String() } if originAS := path.GetSourceAs(); originAS != 0 { fields["OriginAS"] = fmt.Sprintf("%v", originAS) } if err := bgp.FlatUpdate(tags, path.GetNlri().Flat()); err != nil { log.Error(err) } for _, p := range path.GetPathAttrs() { if err := bgp.FlatUpdate(tags, p.Flat()); err != nil { log.Error(err) } } return fields, tags }