kilo/vendor/github.com/vishvananda/netlink/class.go

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package netlink
import (
"fmt"
)
// Class interfaces for all classes
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type Class interface {
Attrs() *ClassAttrs
Type() string
}
// Generic networking statistics for netlink users.
// This file contains "gnet_" prefixed structs and relevant functions.
// See Documentation/networking/getn_stats.txt in Linux source code for more details.
// GnetStatsBasic Ref: struct gnet_stats_basic { ... }
type GnetStatsBasic struct {
Bytes uint64 // number of seen bytes
Packets uint32 // number of seen packets
}
// GnetStatsRateEst Ref: struct gnet_stats_rate_est { ... }
type GnetStatsRateEst struct {
Bps uint32 // current byte rate
Pps uint32 // current packet rate
}
// GnetStatsRateEst64 Ref: struct gnet_stats_rate_est64 { ... }
type GnetStatsRateEst64 struct {
Bps uint64 // current byte rate
Pps uint64 // current packet rate
}
// GnetStatsQueue Ref: struct gnet_stats_queue { ... }
type GnetStatsQueue struct {
Qlen uint32 // queue length
Backlog uint32 // backlog size of queue
Drops uint32 // number of dropped packets
Requeues uint32 // number of requues
Overlimits uint32 // number of enqueues over the limit
}
// ClassStatistics representation based on generic networking statistics for netlink.
// See Documentation/networking/gen_stats.txt in Linux source code for more details.
type ClassStatistics struct {
Basic *GnetStatsBasic
Queue *GnetStatsQueue
RateEst *GnetStatsRateEst
}
// NewClassStatistics Construct a ClassStatistics struct which fields are all initialized by 0.
func NewClassStatistics() *ClassStatistics {
return &ClassStatistics{
Basic: &GnetStatsBasic{},
Queue: &GnetStatsQueue{},
RateEst: &GnetStatsRateEst{},
}
}
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// ClassAttrs represents a netlink class. A filter is associated with a link,
// has a handle and a parent. The root filter of a device should have a
// parent == HANDLE_ROOT.
type ClassAttrs struct {
LinkIndex int
Handle uint32
Parent uint32
Leaf uint32
Statistics *ClassStatistics
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}
func (q ClassAttrs) String() string {
return fmt.Sprintf("{LinkIndex: %d, Handle: %s, Parent: %s, Leaf: %d}", q.LinkIndex, HandleStr(q.Handle), HandleStr(q.Parent), q.Leaf)
}
// HtbClassAttrs stores the attributes of HTB class
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type HtbClassAttrs struct {
// TODO handle all attributes
Rate uint64
Ceil uint64
Buffer uint32
Cbuffer uint32
Quantum uint32
Level uint32
Prio uint32
}
func (q HtbClassAttrs) String() string {
return fmt.Sprintf("{Rate: %d, Ceil: %d, Buffer: %d, Cbuffer: %d}", q.Rate, q.Ceil, q.Buffer, q.Cbuffer)
}
// HtbClass represents an Htb class
type HtbClass struct {
ClassAttrs
Rate uint64
Ceil uint64
Buffer uint32
Cbuffer uint32
Quantum uint32
Level uint32
Prio uint32
}
func (q HtbClass) String() string {
return fmt.Sprintf("{Rate: %d, Ceil: %d, Buffer: %d, Cbuffer: %d}", q.Rate, q.Ceil, q.Buffer, q.Cbuffer)
}
// Attrs returns the class attributes
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func (q *HtbClass) Attrs() *ClassAttrs {
return &q.ClassAttrs
}
// Type return the class type
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func (q *HtbClass) Type() string {
return "htb"
}
// GenericClass classes represent types that are not currently understood
// by this netlink library.
type GenericClass struct {
ClassAttrs
ClassType string
}
// Attrs return the class attributes
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func (class *GenericClass) Attrs() *ClassAttrs {
return &class.ClassAttrs
}
// Type return the class type
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func (class *GenericClass) Type() string {
return class.ClassType
}
// ServiceCurve is a nondecreasing function of some time unit, returning the amount of service
// (an allowed or allocated amount of bandwidth) at some specific point in time. The purpose of it
// should be subconsciously obvious: if a class was allowed to transfer not less than the amount
// specified by its service curve, then the service curve is not violated.
type ServiceCurve struct {
m1 uint32
d uint32
m2 uint32
}
// Attrs return the parameters of the service curve
func (c *ServiceCurve) Attrs() (uint32, uint32, uint32) {
return c.m1, c.d, c.m2
}
// Burst returns the burst rate (m1) of the curve
func (c *ServiceCurve) Burst() uint32 {
return c.m1
}
// Delay return the delay (d) of the curve
func (c *ServiceCurve) Delay() uint32 {
return c.d
}
// Rate returns the rate (m2) of the curve
func (c *ServiceCurve) Rate() uint32 {
return c.m2
}
// HfscClass is a representation of the HFSC class
type HfscClass struct {
ClassAttrs
Rsc ServiceCurve
Fsc ServiceCurve
Usc ServiceCurve
}
// SetUsc sets the USC curve. The bandwidth (m1 and m2) is specified in bits and the delay in
// seconds.
func (hfsc *HfscClass) SetUsc(m1 uint32, d uint32, m2 uint32) {
hfsc.Usc = ServiceCurve{m1: m1, d: d, m2: m2}
}
// SetFsc sets the Fsc curve. The bandwidth (m1 and m2) is specified in bits and the delay in
// seconds.
func (hfsc *HfscClass) SetFsc(m1 uint32, d uint32, m2 uint32) {
hfsc.Fsc = ServiceCurve{m1: m1, d: d, m2: m2}
}
// SetRsc sets the Rsc curve. The bandwidth (m1 and m2) is specified in bits and the delay in
// seconds.
func (hfsc *HfscClass) SetRsc(m1 uint32, d uint32, m2 uint32) {
hfsc.Rsc = ServiceCurve{m1: m1, d: d, m2: m2}
}
// SetSC implements the SC from the `tc` CLI. This function behaves the same as if one would set the
// USC through the `tc` command-line tool. This means bandwidth (m1 and m2) is specified in bits and
// the delay in ms.
func (hfsc *HfscClass) SetSC(m1 uint32, d uint32, m2 uint32) {
hfsc.SetRsc(m1, d, m2)
hfsc.SetFsc(m1, d, m2)
}
// SetUL implements the UL from the `tc` CLI. This function behaves the same as if one would set the
// USC through the `tc` command-line tool. This means bandwidth (m1 and m2) is specified in bits and
// the delay in ms.
func (hfsc *HfscClass) SetUL(m1 uint32, d uint32, m2 uint32) {
hfsc.SetUsc(m1, d, m2)
}
// SetLS implements the LS from the `tc` CLI. This function behaves the same as if one would set the
// USC through the `tc` command-line tool. This means bandwidth (m1 and m2) is specified in bits and
// the delay in ms.
func (hfsc *HfscClass) SetLS(m1 uint32, d uint32, m2 uint32) {
hfsc.SetFsc(m1, d, m2)
}
// NewHfscClass returns a new HFSC struct with the set parameters
func NewHfscClass(attrs ClassAttrs) *HfscClass {
return &HfscClass{
ClassAttrs: attrs,
Rsc: ServiceCurve{},
Fsc: ServiceCurve{},
Usc: ServiceCurve{},
}
}
// String() returns a string that contains the information and attributes of the HFSC class
func (hfsc *HfscClass) String() string {
return fmt.Sprintf(
"{%s -- {RSC: {m1=%d d=%d m2=%d}} {FSC: {m1=%d d=%d m2=%d}} {USC: {m1=%d d=%d m2=%d}}}",
hfsc.Attrs(), hfsc.Rsc.m1*8, hfsc.Rsc.d, hfsc.Rsc.m2*8, hfsc.Fsc.m1*8, hfsc.Fsc.d, hfsc.Fsc.m2*8, hfsc.Usc.m1*8, hfsc.Usc.d, hfsc.Usc.m2*8,
)
}
// Attrs return the Hfsc parameters
func (hfsc *HfscClass) Attrs() *ClassAttrs {
return &hfsc.ClassAttrs
}
// Type return the type of the class
func (hfsc *HfscClass) Type() string {
return "hfsc"
}