package qdisc import ( "fmt" "math" "net" "github.com/mdlayher/netlink" "github.com/mdlayher/netlink/nlenc" ) const ( TCA_UNSPEC = iota TCA_KIND TCA_OPTIONS TCA_STATS TCA_XSTATS TCA_RATE TCA_FCNT TCA_STATS2 TCA_STAB __TCA_MAX ) const ( TCA_STATS_UNSPEC = iota TCA_STATS_BASIC TCA_STATS_RATE_EST TCA_STATS_QUEUE TCA_STATS_APP TCA_STATS_RATE_EST64 __TCA_STATS_MAX ) // See struct tc_stats in /usr/include/linux/pkt_sched.h type TC_Stats struct { Bytes uint64 Packets uint32 Drops uint32 Overlimits uint32 Bps uint32 Pps uint32 Qlen uint32 Backlog uint32 } // See /usr/include/linux/gen_stats.h type TC_Stats2 struct { // struct gnet_stats_basic Bytes uint64 Packets uint32 // struct gnet_stats_queue Qlen uint32 Backlog uint32 Drops uint32 Requeues uint32 Overlimits uint32 } // See struct tc_fq_qd_stats /usr/include/linux/pkt_sched.h type TC_Fq_Qd_Stats struct { GcFlows uint64 HighprioPackets uint64 TcpRetrans uint64 Throttled uint64 FlowsPlimit uint64 PktsTooLong uint64 AllocationErrors uint64 TimeNextDelayedFlow int64 Flows uint32 InactiveFlows uint32 ThrottledFlows uint32 UnthrottleLatencyNs uint32 } type QdiscInfo struct { IfaceName string Parent uint32 Handle uint32 Kind string Bytes uint64 Packets uint32 Drops uint32 Requeues uint32 Overlimits uint32 GcFlows uint64 Throttled uint64 FlowsPlimit uint64 } func parseTCAStats(attr netlink.Attribute) TC_Stats { var stats TC_Stats stats.Bytes = nlenc.Uint64(attr.Data[0:8]) stats.Packets = nlenc.Uint32(attr.Data[8:12]) stats.Drops = nlenc.Uint32(attr.Data[12:16]) stats.Overlimits = nlenc.Uint32(attr.Data[16:20]) stats.Bps = nlenc.Uint32(attr.Data[20:24]) stats.Pps = nlenc.Uint32(attr.Data[24:28]) stats.Qlen = nlenc.Uint32(attr.Data[28:32]) stats.Backlog = nlenc.Uint32(attr.Data[32:36]) return stats } func parseTCAStats2(attr netlink.Attribute) TC_Stats2 { var stats TC_Stats2 nested, _ := netlink.UnmarshalAttributes(attr.Data) for _, a := range nested { switch a.Type { case TCA_STATS_BASIC: stats.Bytes = nlenc.Uint64(a.Data[0:8]) stats.Packets = nlenc.Uint32(a.Data[8:12]) case TCA_STATS_QUEUE: stats.Qlen = nlenc.Uint32(a.Data[0:4]) stats.Backlog = nlenc.Uint32(a.Data[4:8]) stats.Drops = nlenc.Uint32(a.Data[8:12]) stats.Requeues = nlenc.Uint32(a.Data[12:16]) stats.Overlimits = nlenc.Uint32(a.Data[16:20]) default: } } return stats } func parseTC_Fq_Qd_Stats(attr netlink.Attribute) TC_Fq_Qd_Stats { var stats TC_Fq_Qd_Stats nested, _ := netlink.UnmarshalAttributes(attr.Data) for _, a := range nested { switch a.Type { case TCA_STATS_APP: stats.GcFlows = nlenc.Uint64(a.Data[0:8]) stats.HighprioPackets = nlenc.Uint64(a.Data[8:16]) stats.TcpRetrans = nlenc.Uint64(a.Data[16:24]) stats.Throttled = nlenc.Uint64(a.Data[24:32]) stats.FlowsPlimit = nlenc.Uint64(a.Data[32:40]) stats.PktsTooLong = nlenc.Uint64(a.Data[40:48]) stats.AllocationErrors = nlenc.Uint64(a.Data[48:56]) default: } } return stats } func getQdiscMsgs(c *netlink.Conn) ([]netlink.Message, error) { req := netlink.Message{ Header: netlink.Header{ Flags: netlink.HeaderFlagsRequest | netlink.HeaderFlagsDump, Type: 38, // RTM_GETQDISC }, Data: []byte{0}, } // Perform a request, receive replies, and validate the replies msgs, err := c.Execute(req) if err != nil { return nil, fmt.Errorf("failed to execute request: %v", err) } return msgs, nil } // See https://tools.ietf.org/html/rfc3549#section-3.1.3 func parseMessage(msg netlink.Message) (QdiscInfo, error) { var m QdiscInfo var s TC_Stats var s2 TC_Stats2 var s_fq TC_Fq_Qd_Stats /* struct tcmsg { unsigned char tcm_family; unsigned char tcm__pad1; unsigned short tcm__pad2; int tcm_ifindex; __u32 tcm_handle; __u32 tcm_parent; __u32 tcm_info; }; */ if len(msg.Data) < 20 { return m, fmt.Errorf("Short message, len=%d", len(msg.Data)) } ifaceIdx := nlenc.Uint32(msg.Data[4:8]) m.Handle = nlenc.Uint32(msg.Data[8:12]) m.Parent = nlenc.Uint32(msg.Data[12:16]) if m.Parent == math.MaxUint32 { m.Parent = 0 } // The first 20 bytes are taken by tcmsg attrs, err := netlink.UnmarshalAttributes(msg.Data[20:]) if err != nil { return m, fmt.Errorf("failed to unmarshal attributes: %v", err) } for _, attr := range attrs { switch attr.Type { case TCA_KIND: m.Kind = nlenc.String(attr.Data) case TCA_STATS2: s2 = parseTCAStats2(attr) s_fq = parseTC_Fq_Qd_Stats(attr) if s_fq.GcFlows > 0 { m.GcFlows = s_fq.GcFlows } if s_fq.Throttled > 0 { m.Throttled = s_fq.Throttled } if s_fq.FlowsPlimit > 0 { m.FlowsPlimit = s_fq.FlowsPlimit } m.Bytes = s2.Bytes m.Packets = s2.Packets m.Drops = s2.Drops // requeues only available in TCA_STATS2, not in TCA_STATS m.Requeues = s2.Requeues m.Overlimits = s2.Overlimits case TCA_STATS: // Legacy s = parseTCAStats(attr) m.Bytes = s.Bytes m.Packets = s.Packets m.Drops = s.Drops m.Overlimits = s.Overlimits default: // TODO: TCA_OPTIONS and TCA_XSTATS } } iface, err := net.InterfaceByIndex(int(ifaceIdx)) if err == nil { m.IfaceName = iface.Name } return m, err } func getAndParse(c *netlink.Conn) ([]QdiscInfo, error) { var res []QdiscInfo msgs, err := getQdiscMsgs(c) if err != nil { return nil, err } for _, msg := range msgs { m, err := parseMessage(msg) if err != nil { return nil, err } res = append(res, m) } return res, nil } func Get() ([]QdiscInfo, error) { const familyRoute = 0 c, err := netlink.Dial(familyRoute, nil) if err != nil { return nil, fmt.Errorf("failed to dial netlink: %v", err) } defer c.Close() return getAndParse(c) }