package netlink import ( "fmt" "net" "strings" "syscall" "github.com/vishvananda/netlink/nl" "github.com/vishvananda/netns" ) // RtAttr is shared so it is in netlink_linux.go const ( SCOPE_UNIVERSE Scope = syscall.RT_SCOPE_UNIVERSE SCOPE_SITE Scope = syscall.RT_SCOPE_SITE SCOPE_LINK Scope = syscall.RT_SCOPE_LINK SCOPE_HOST Scope = syscall.RT_SCOPE_HOST SCOPE_NOWHERE Scope = syscall.RT_SCOPE_NOWHERE ) 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 ) const ( FLAG_ONLINK NextHopFlag = syscall.RTNH_F_ONLINK FLAG_PERVASIVE NextHopFlag = syscall.RTNH_F_PERVASIVE ) var testFlags = []flagString{ {f: FLAG_ONLINK, s: "onlink"}, {f: FLAG_PERVASIVE, s: "pervasive"}, } func listFlags(flag int) []string { var flags []string for _, tf := range testFlags { if flag&int(tf.f) != 0 { flags = append(flags, tf.s) } } return flags } func (r *Route) ListFlags() []string { return listFlags(r.Flags) } func (n *NexthopInfo) ListFlags() []string { return listFlags(n.Flags) } type MPLSDestination struct { Labels []int } func (d *MPLSDestination) Family() int { return nl.FAMILY_MPLS } func (d *MPLSDestination) Decode(buf []byte) error { d.Labels = nl.DecodeMPLSStack(buf) return nil } func (d *MPLSDestination) Encode() ([]byte, error) { return nl.EncodeMPLSStack(d.Labels...), nil } func (d *MPLSDestination) String() string { s := make([]string, 0, len(d.Labels)) for _, l := range d.Labels { s = append(s, fmt.Sprintf("%d", l)) } return strings.Join(s, "/") } type MPLSEncap struct { Labels []int } func (e *MPLSEncap) Type() int { return nl.LWTUNNEL_ENCAP_MPLS } func (e *MPLSEncap) Decode(buf []byte) error { if len(buf) < 4 { return fmt.Errorf("Lack of bytes") } native := nl.NativeEndian() l := native.Uint16(buf) if len(buf) < int(l) { return fmt.Errorf("Lack of bytes") } buf = buf[:l] typ := native.Uint16(buf[2:]) if typ != nl.MPLS_IPTUNNEL_DST { return fmt.Errorf("Unknown MPLS Encap Type: %d", typ) } e.Labels = nl.DecodeMPLSStack(buf[4:]) return nil } func (e *MPLSEncap) Encode() ([]byte, error) { s := nl.EncodeMPLSStack(e.Labels...) native := nl.NativeEndian() hdr := make([]byte, 4) native.PutUint16(hdr, uint16(len(s)+4)) native.PutUint16(hdr[2:], nl.MPLS_IPTUNNEL_DST) return append(hdr, s...), nil } func (e *MPLSEncap) String() string { s := make([]string, 0, len(e.Labels)) for _, l := range e.Labels { s = append(s, fmt.Sprintf("%d", l)) } return strings.Join(s, "/") } // RouteAdd will add a route to the system. // Equivalent to: `ip route add $route` func RouteAdd(route *Route) error { return pkgHandle.RouteAdd(route) } // RouteAdd will add a route to the system. // Equivalent to: `ip route add $route` func (h *Handle) RouteAdd(route *Route) error { flags := syscall.NLM_F_CREATE | syscall.NLM_F_EXCL | syscall.NLM_F_ACK req := h.newNetlinkRequest(syscall.RTM_NEWROUTE, flags) return h.routeHandle(route, req, nl.NewRtMsg()) } // RouteReplace will add a route to the system. // Equivalent to: `ip route replace $route` func RouteReplace(route *Route) error { return pkgHandle.RouteReplace(route) } // RouteReplace will add a route to the system. // Equivalent to: `ip route replace $route` func (h *Handle) RouteReplace(route *Route) error { flags := syscall.NLM_F_CREATE | syscall.NLM_F_REPLACE | syscall.NLM_F_ACK req := h.newNetlinkRequest(syscall.RTM_NEWROUTE, flags) return h.routeHandle(route, req, nl.NewRtMsg()) } // RouteDel will delete a route from the system. // Equivalent to: `ip route del $route` func RouteDel(route *Route) error { return pkgHandle.RouteDel(route) } // RouteDel will delete a route from the system. // Equivalent to: `ip route del $route` func (h *Handle) RouteDel(route *Route) error { req := h.newNetlinkRequest(syscall.RTM_DELROUTE, syscall.NLM_F_ACK) return h.routeHandle(route, req, nl.NewRtDelMsg()) } func (h *Handle) routeHandle(route *Route, req *nl.NetlinkRequest, msg *nl.RtMsg) error { if (route.Dst == nil || route.Dst.IP == nil) && route.Src == nil && route.Gw == nil && route.MPLSDst == nil { return fmt.Errorf("one of Dst.IP, Src, or Gw must not be nil") } family := -1 var rtAttrs []*nl.RtAttr if route.Dst != nil && route.Dst.IP != nil { dstLen, _ := route.Dst.Mask.Size() msg.Dst_len = uint8(dstLen) dstFamily := nl.GetIPFamily(route.Dst.IP) family = dstFamily var dstData []byte if dstFamily == FAMILY_V4 { dstData = route.Dst.IP.To4() } else { dstData = route.Dst.IP.To16() } rtAttrs = append(rtAttrs, nl.NewRtAttr(syscall.RTA_DST, dstData)) } else if route.MPLSDst != nil { family = nl.FAMILY_MPLS msg.Dst_len = uint8(20) msg.Type = syscall.RTN_UNICAST rtAttrs = append(rtAttrs, nl.NewRtAttr(syscall.RTA_DST, nl.EncodeMPLSStack(*route.MPLSDst))) } if route.NewDst != nil { if family != -1 && family != route.NewDst.Family() { return fmt.Errorf("new destination and destination are not the same address family") } buf, err := route.NewDst.Encode() if err != nil { return err } rtAttrs = append(rtAttrs, nl.NewRtAttr(nl.RTA_NEWDST, buf)) } if route.Encap != nil { buf := make([]byte, 2) native.PutUint16(buf, uint16(route.Encap.Type())) rtAttrs = append(rtAttrs, nl.NewRtAttr(nl.RTA_ENCAP_TYPE, buf)) buf, err := route.Encap.Encode() if err != nil { return err } rtAttrs = append(rtAttrs, nl.NewRtAttr(nl.RTA_ENCAP, buf)) } if route.Src != nil { srcFamily := nl.GetIPFamily(route.Src) if family != -1 && family != srcFamily { return fmt.Errorf("source and destination ip are not the same IP family") } family = srcFamily var srcData []byte if srcFamily == FAMILY_V4 { srcData = route.Src.To4() } else { srcData = route.Src.To16() } // The commonly used src ip for routes is actually PREFSRC rtAttrs = append(rtAttrs, nl.NewRtAttr(syscall.RTA_PREFSRC, srcData)) } if route.Gw != nil { gwFamily := nl.GetIPFamily(route.Gw) if family != -1 && family != gwFamily { return fmt.Errorf("gateway, source, and destination ip are not the same IP family") } family = gwFamily var gwData []byte if gwFamily == FAMILY_V4 { gwData = route.Gw.To4() } else { gwData = route.Gw.To16() } rtAttrs = append(rtAttrs, nl.NewRtAttr(syscall.RTA_GATEWAY, gwData)) } if len(route.MultiPath) > 0 { buf := []byte{} for _, nh := range route.MultiPath { rtnh := &nl.RtNexthop{ RtNexthop: syscall.RtNexthop{ Hops: uint8(nh.Hops), Ifindex: int32(nh.LinkIndex), Flags: uint8(nh.Flags), }, } children := []nl.NetlinkRequestData{} if nh.Gw != nil { gwFamily := nl.GetIPFamily(nh.Gw) if family != -1 && family != gwFamily { return fmt.Errorf("gateway, source, and destination ip are not the same IP family") } if gwFamily == FAMILY_V4 { children = append(children, nl.NewRtAttr(syscall.RTA_GATEWAY, []byte(nh.Gw.To4()))) } else { children = append(children, nl.NewRtAttr(syscall.RTA_GATEWAY, []byte(nh.Gw.To16()))) } } if nh.NewDst != nil { if family != -1 && family != nh.NewDst.Family() { return fmt.Errorf("new destination and destination are not the same address family") } buf, err := nh.NewDst.Encode() if err != nil { return err } children = append(children, nl.NewRtAttr(nl.RTA_NEWDST, buf)) } if nh.Encap != nil { buf := make([]byte, 2) native.PutUint16(buf, uint16(nh.Encap.Type())) rtAttrs = append(rtAttrs, nl.NewRtAttr(nl.RTA_ENCAP_TYPE, buf)) buf, err := nh.Encap.Encode() if err != nil { return err } children = append(children, nl.NewRtAttr(nl.RTA_ENCAP, buf)) } rtnh.Children = children buf = append(buf, rtnh.Serialize()...) } rtAttrs = append(rtAttrs, nl.NewRtAttr(syscall.RTA_MULTIPATH, buf)) } if route.Table > 0 { if route.Table >= 256 { msg.Table = syscall.RT_TABLE_UNSPEC b := make([]byte, 4) native.PutUint32(b, uint32(route.Table)) rtAttrs = append(rtAttrs, nl.NewRtAttr(syscall.RTA_TABLE, b)) } else { msg.Table = uint8(route.Table) } } if route.Priority > 0 { b := make([]byte, 4) native.PutUint32(b, uint32(route.Priority)) rtAttrs = append(rtAttrs, nl.NewRtAttr(syscall.RTA_PRIORITY, b)) } if route.Tos > 0 { msg.Tos = uint8(route.Tos) } if route.Protocol > 0 { msg.Protocol = uint8(route.Protocol) } if route.Type > 0 { msg.Type = uint8(route.Type) } msg.Flags = uint32(route.Flags) msg.Scope = uint8(route.Scope) msg.Family = uint8(family) req.AddData(msg) for _, attr := range rtAttrs { req.AddData(attr) } var ( b = make([]byte, 4) native = nl.NativeEndian() ) native.PutUint32(b, uint32(route.LinkIndex)) req.AddData(nl.NewRtAttr(syscall.RTA_OIF, b)) _, err := req.Execute(syscall.NETLINK_ROUTE, 0) return err } // RouteList gets a list of routes in the system. // Equivalent to: `ip route show`. // The list can be filtered by link and ip family. func RouteList(link Link, family int) ([]Route, error) { return pkgHandle.RouteList(link, family) } // RouteList gets a list of routes in the system. // Equivalent to: `ip route show`. // The list can be filtered by link and ip family. func (h *Handle) RouteList(link Link, family int) ([]Route, error) { var routeFilter *Route if link != nil { routeFilter = &Route{ LinkIndex: link.Attrs().Index, } } return h.RouteListFiltered(family, routeFilter, RT_FILTER_OIF) } // RouteListFiltered gets a list of routes in the system filtered with specified rules. // All rules must be defined in RouteFilter struct func RouteListFiltered(family int, filter *Route, filterMask uint64) ([]Route, error) { return pkgHandle.RouteListFiltered(family, filter, filterMask) } // RouteListFiltered gets a list of routes in the system filtered with specified rules. // All rules must be defined in RouteFilter struct func (h *Handle) RouteListFiltered(family int, filter *Route, filterMask uint64) ([]Route, error) { req := h.newNetlinkRequest(syscall.RTM_GETROUTE, syscall.NLM_F_DUMP) infmsg := nl.NewIfInfomsg(family) req.AddData(infmsg) msgs, err := req.Execute(syscall.NETLINK_ROUTE, syscall.RTM_NEWROUTE) if err != nil { return nil, err } var res []Route for _, m := range msgs { msg := nl.DeserializeRtMsg(m) if msg.Flags&syscall.RTM_F_CLONED != 0 { // Ignore cloned routes continue } if msg.Table != syscall.RT_TABLE_MAIN { if filter == nil || filter != nil && filterMask&RT_FILTER_TABLE == 0 { // Ignore non-main tables continue } } route, err := deserializeRoute(m) if err != nil { return nil, err } if filter != nil { switch { case filterMask&RT_FILTER_TABLE != 0 && route.Table != filter.Table: continue case filterMask&RT_FILTER_PROTOCOL != 0 && route.Protocol != filter.Protocol: continue case filterMask&RT_FILTER_SCOPE != 0 && route.Scope != filter.Scope: continue case filterMask&RT_FILTER_TYPE != 0 && route.Type != filter.Type: continue case filterMask&RT_FILTER_TOS != 0 && route.Tos != filter.Tos: continue case filterMask&RT_FILTER_OIF != 0 && route.LinkIndex != filter.LinkIndex: continue case filterMask&RT_FILTER_IIF != 0 && route.ILinkIndex != filter.ILinkIndex: continue case filterMask&RT_FILTER_GW != 0 && !route.Gw.Equal(filter.Gw): continue case filterMask&RT_FILTER_SRC != 0 && !route.Src.Equal(filter.Src): continue case filterMask&RT_FILTER_DST != 0: if filter.MPLSDst == nil || route.MPLSDst == nil || (*filter.MPLSDst) != (*route.MPLSDst) { if filter.Dst == nil { if route.Dst != nil { continue } } else { if route.Dst == nil { continue } aMaskLen, aMaskBits := route.Dst.Mask.Size() bMaskLen, bMaskBits := filter.Dst.Mask.Size() if !(route.Dst.IP.Equal(filter.Dst.IP) && aMaskLen == bMaskLen && aMaskBits == bMaskBits) { continue } } } } } res = append(res, route) } return res, nil } // deserializeRoute decodes a binary netlink message into a Route struct func deserializeRoute(m []byte) (Route, error) { msg := nl.DeserializeRtMsg(m) attrs, err := nl.ParseRouteAttr(m[msg.Len():]) if err != nil { return Route{}, err } route := Route{ Scope: Scope(msg.Scope), Protocol: int(msg.Protocol), Table: int(msg.Table), Type: int(msg.Type), Tos: int(msg.Tos), Flags: int(msg.Flags), } native := nl.NativeEndian() var encap, encapType syscall.NetlinkRouteAttr for _, attr := range attrs { switch attr.Attr.Type { case syscall.RTA_GATEWAY: route.Gw = net.IP(attr.Value) case syscall.RTA_PREFSRC: route.Src = net.IP(attr.Value) case syscall.RTA_DST: if msg.Family == nl.FAMILY_MPLS { stack := nl.DecodeMPLSStack(attr.Value) if len(stack) == 0 || len(stack) > 1 { return route, fmt.Errorf("invalid MPLS RTA_DST") } route.MPLSDst = &stack[0] } else { route.Dst = &net.IPNet{ IP: attr.Value, Mask: net.CIDRMask(int(msg.Dst_len), 8*len(attr.Value)), } } case syscall.RTA_OIF: route.LinkIndex = int(native.Uint32(attr.Value[0:4])) case syscall.RTA_IIF: route.ILinkIndex = int(native.Uint32(attr.Value[0:4])) case syscall.RTA_PRIORITY: route.Priority = int(native.Uint32(attr.Value[0:4])) case syscall.RTA_TABLE: route.Table = int(native.Uint32(attr.Value[0:4])) case syscall.RTA_MULTIPATH: parseRtNexthop := func(value []byte) (*NexthopInfo, []byte, error) { if len(value) < syscall.SizeofRtNexthop { return nil, nil, fmt.Errorf("Lack of bytes") } nh := nl.DeserializeRtNexthop(value) if len(value) < int(nh.RtNexthop.Len) { return nil, nil, fmt.Errorf("Lack of bytes") } info := &NexthopInfo{ LinkIndex: int(nh.RtNexthop.Ifindex), Hops: int(nh.RtNexthop.Hops), Flags: int(nh.RtNexthop.Flags), } attrs, err := nl.ParseRouteAttr(value[syscall.SizeofRtNexthop:int(nh.RtNexthop.Len)]) if err != nil { return nil, nil, err } var encap, encapType syscall.NetlinkRouteAttr for _, attr := range attrs { switch attr.Attr.Type { case syscall.RTA_GATEWAY: info.Gw = net.IP(attr.Value) case nl.RTA_NEWDST: var d Destination switch msg.Family { case nl.FAMILY_MPLS: d = &MPLSDestination{} } if err := d.Decode(attr.Value); err != nil { return nil, nil, err } info.NewDst = d case nl.RTA_ENCAP_TYPE: encapType = attr case nl.RTA_ENCAP: encap = attr } } if len(encap.Value) != 0 && len(encapType.Value) != 0 { typ := int(native.Uint16(encapType.Value[0:2])) var e Encap switch typ { case nl.LWTUNNEL_ENCAP_MPLS: e = &MPLSEncap{} if err := e.Decode(encap.Value); err != nil { return nil, nil, err } } info.Encap = e } return info, value[int(nh.RtNexthop.Len):], nil } rest := attr.Value for len(rest) > 0 { info, buf, err := parseRtNexthop(rest) if err != nil { return route, err } route.MultiPath = append(route.MultiPath, info) rest = buf } case nl.RTA_NEWDST: var d Destination switch msg.Family { case nl.FAMILY_MPLS: d = &MPLSDestination{} } if err := d.Decode(attr.Value); err != nil { return route, err } route.NewDst = d case nl.RTA_ENCAP_TYPE: encapType = attr case nl.RTA_ENCAP: encap = attr } } if len(encap.Value) != 0 && len(encapType.Value) != 0 { typ := int(native.Uint16(encapType.Value[0:2])) var e Encap switch typ { case nl.LWTUNNEL_ENCAP_MPLS: e = &MPLSEncap{} if err := e.Decode(encap.Value); err != nil { return route, err } } route.Encap = e } return route, nil } // RouteGet gets a route to a specific destination from the host system. // Equivalent to: 'ip route get'. func RouteGet(destination net.IP) ([]Route, error) { return pkgHandle.RouteGet(destination) } // RouteGet gets a route to a specific destination from the host system. // Equivalent to: 'ip route get'. func (h *Handle) RouteGet(destination net.IP) ([]Route, error) { req := h.newNetlinkRequest(syscall.RTM_GETROUTE, syscall.NLM_F_REQUEST) family := nl.GetIPFamily(destination) var destinationData []byte var bitlen uint8 if family == FAMILY_V4 { destinationData = destination.To4() bitlen = 32 } else { destinationData = destination.To16() bitlen = 128 } msg := &nl.RtMsg{} msg.Family = uint8(family) msg.Dst_len = bitlen req.AddData(msg) rtaDst := nl.NewRtAttr(syscall.RTA_DST, destinationData) req.AddData(rtaDst) msgs, err := req.Execute(syscall.NETLINK_ROUTE, syscall.RTM_NEWROUTE) if err != nil { return nil, err } var res []Route for _, m := range msgs { route, err := deserializeRoute(m) if err != nil { return nil, err } res = append(res, route) } return res, nil } // RouteSubscribe takes a chan down which notifications will be sent // when routes are added or deleted. Close the 'done' chan to stop subscription. func RouteSubscribe(ch chan<- RouteUpdate, done <-chan struct{}) error { return routeSubscribeAt(netns.None(), netns.None(), ch, done) } // RouteSubscribeAt works like RouteSubscribe plus it allows the caller // to choose the network namespace in which to subscribe (ns). func RouteSubscribeAt(ns netns.NsHandle, ch chan<- RouteUpdate, done <-chan struct{}) error { return routeSubscribeAt(ns, netns.None(), ch, done) } func routeSubscribeAt(newNs, curNs netns.NsHandle, ch chan<- RouteUpdate, done <-chan struct{}) error { s, err := nl.SubscribeAt(newNs, curNs, syscall.NETLINK_ROUTE, syscall.RTNLGRP_IPV4_ROUTE, syscall.RTNLGRP_IPV6_ROUTE) if err != nil { return err } if done != nil { go func() { <-done s.Close() }() } go func() { defer close(ch) for { msgs, err := s.Receive() if err != nil { return } for _, m := range msgs { route, err := deserializeRoute(m.Data) if err != nil { return } ch <- RouteUpdate{Type: m.Header.Type, Route: route} } } }() return nil }