vendor/github.com/vishvananda/netlink/filter.go - third_party/github.com/moby/moby - Git at Google

 package netlink

 import (
 	"fmt"
 )

 type Filter interface {
 	Attrs() *FilterAttrs
 	Type() string
 }

 // FilterAttrs represents a netlink filter. 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 FilterAttrs struct {
 	LinkIndex int
 	Handle    uint32
 	Parent    uint32
 	Priority  uint16 // lower is higher priority
 	Protocol  uint16 // syscall.ETH_P_*
 }

 func (q FilterAttrs) String() string {
 	return fmt.Sprintf("{LinkIndex: %d, Handle: %s, Parent: %s, Priority: %d, Protocol: %d}", q.LinkIndex, HandleStr(q.Handle), HandleStr(q.Parent), q.Priority, q.Protocol)
 }

 type TcAct int32

 const (
 	TC_ACT_UNSPEC     TcAct = -1
 	TC_ACT_OK         TcAct = 0
 	TC_ACT_RECLASSIFY TcAct = 1
 	TC_ACT_SHOT       TcAct = 2
 	TC_ACT_PIPE       TcAct = 3
 	TC_ACT_STOLEN     TcAct = 4
 	TC_ACT_QUEUED     TcAct = 5
 	TC_ACT_REPEAT     TcAct = 6
 	TC_ACT_REDIRECT   TcAct = 7
 	TC_ACT_JUMP       TcAct = 0x10000000
 )

 func (a TcAct) String() string {
 	switch a {
 	case TC_ACT_UNSPEC:
 		return "unspec"
 	case TC_ACT_OK:
 		return "ok"
 	case TC_ACT_RECLASSIFY:
 		return "reclassify"
 	case TC_ACT_SHOT:
 		return "shot"
 	case TC_ACT_PIPE:
 		return "pipe"
 	case TC_ACT_STOLEN:
 		return "stolen"
 	case TC_ACT_QUEUED:
 		return "queued"
 	case TC_ACT_REPEAT:
 		return "repeat"
 	case TC_ACT_REDIRECT:
 		return "redirect"
 	case TC_ACT_JUMP:
 		return "jump"
 	}
 	return fmt.Sprintf("0x%x", int32(a))
 }

 type TcPolAct int32

 const (
 	TC_POLICE_UNSPEC     TcPolAct = TcPolAct(TC_ACT_UNSPEC)
 	TC_POLICE_OK         TcPolAct = TcPolAct(TC_ACT_OK)
 	TC_POLICE_RECLASSIFY TcPolAct = TcPolAct(TC_ACT_RECLASSIFY)
 	TC_POLICE_SHOT       TcPolAct = TcPolAct(TC_ACT_SHOT)
 	TC_POLICE_PIPE       TcPolAct = TcPolAct(TC_ACT_PIPE)
 )

 func (a TcPolAct) String() string {
 	switch a {
 	case TC_POLICE_UNSPEC:
 		return "unspec"
 	case TC_POLICE_OK:
 		return "ok"
 	case TC_POLICE_RECLASSIFY:
 		return "reclassify"
 	case TC_POLICE_SHOT:
 		return "shot"
 	case TC_POLICE_PIPE:
 		return "pipe"
 	}
 	return fmt.Sprintf("0x%x", int32(a))
 }

 type ActionAttrs struct {
 	Index   int
 	Capab   int
 	Action  TcAct
 	Refcnt  int
 	Bindcnt int
 }

 func (q ActionAttrs) String() string {
 	return fmt.Sprintf("{Index: %d, Capab: %x, Action: %s, Refcnt: %d, Bindcnt: %d}", q.Index, q.Capab, q.Action.String(), q.Refcnt, q.Bindcnt)
 }

 // Action represents an action in any supported filter.
 type Action interface {
 	Attrs() *ActionAttrs
 	Type() string
 }

 type GenericAction struct {
 	ActionAttrs
 }

 func (action *GenericAction) Type() string {
 	return "generic"
 }

 func (action *GenericAction) Attrs() *ActionAttrs {
 	return &action.ActionAttrs
 }

 type BpfAction struct {
 	ActionAttrs
 	Fd   int
 	Name string
 }

 func (action *BpfAction) Type() string {
 	return "bpf"
 }

 func (action *BpfAction) Attrs() *ActionAttrs {
 	return &action.ActionAttrs
 }

 type MirredAct uint8

 func (a MirredAct) String() string {
 	switch a {
 	case TCA_EGRESS_REDIR:
 		return "egress redir"
 	case TCA_EGRESS_MIRROR:
 		return "egress mirror"
 	case TCA_INGRESS_REDIR:
 		return "ingress redir"
 	case TCA_INGRESS_MIRROR:
 		return "ingress mirror"
 	}
 	return "unknown"
 }

 const (
 	TCA_EGRESS_REDIR   MirredAct = 1 /* packet redirect to EGRESS*/
 	TCA_EGRESS_MIRROR  MirredAct = 2 /* mirror packet to EGRESS */
 	TCA_INGRESS_REDIR  MirredAct = 3 /* packet redirect to INGRESS*/
 	TCA_INGRESS_MIRROR MirredAct = 4 /* mirror packet to INGRESS */
 )

 type MirredAction struct {
 	ActionAttrs
 	MirredAction MirredAct
 	Ifindex      int
 }

 func (action *MirredAction) Type() string {
 	return "mirred"
 }

 func (action *MirredAction) Attrs() *ActionAttrs {
 	return &action.ActionAttrs
 }

 func NewMirredAction(redirIndex int) *MirredAction {
 	return &MirredAction{
 		ActionAttrs: ActionAttrs{
 			Action: TC_ACT_STOLEN,
 		},
 		MirredAction: TCA_EGRESS_REDIR,
 		Ifindex:      redirIndex,
 	}
 }

 // Sel of the U32 filters that contains multiple TcU32Key. This is the copy
 // and the frontend representation of nl.TcU32Sel. It is serialized into canonical
 // nl.TcU32Sel with the appropriate endianness.
 type TcU32Sel struct {
 	Flags    uint8
 	Offshift uint8
 	Nkeys    uint8
 	Pad      uint8
 	Offmask  uint16
 	Off      uint16
 	Offoff   int16
 	Hoff     int16
 	Hmask    uint32
 	Keys     []TcU32Key
 }

 // TcU32Key contained of Sel in the U32 filters. This is the copy and the frontend
 // representation of nl.TcU32Key. It is serialized into chanonical nl.TcU32Sel
 // with the appropriate endianness.
 type TcU32Key struct {
 	Mask    uint32
 	Val     uint32
 	Off     int32
 	OffMask int32
 }

 // U32 filters on many packet related properties
 type U32 struct {
 	FilterAttrs
 	ClassId    uint32
 	RedirIndex int
 	Sel        *TcU32Sel
 	Actions    []Action
 }

 func (filter *U32) Attrs() *FilterAttrs {
 	return &filter.FilterAttrs
 }

 func (filter *U32) Type() string {
 	return "u32"
 }

 type FilterFwAttrs struct {
 	ClassId   uint32
 	InDev     string
 	Mask      uint32
 	Index     uint32
 	Buffer    uint32
 	Mtu       uint32
 	Mpu       uint16
 	Rate      uint32
 	AvRate    uint32
 	PeakRate  uint32
 	Action    TcPolAct
 	Overhead  uint16
 	LinkLayer int
 }

 type BpfFilter struct {
 	FilterAttrs
 	ClassId      uint32
 	Fd           int
 	Name         string
 	DirectAction bool
 }

 func (filter *BpfFilter) Type() string {
 	return "bpf"
 }

 func (filter *BpfFilter) Attrs() *FilterAttrs {
 	return &filter.FilterAttrs
 }

 // GenericFilter filters represent types that are not currently understood
 // by this netlink library.
 type GenericFilter struct {
 	FilterAttrs
 	FilterType string
 }

 func (filter *GenericFilter) Attrs() *FilterAttrs {
 	return &filter.FilterAttrs
 }

 func (filter *GenericFilter) Type() string {
 	return filter.FilterType
 }
	package netlink

	import (
	"fmt"
	)

	type Filter interface {
	Attrs() *FilterAttrs
	Type() string
	}

	// FilterAttrs represents a netlink filter. 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 FilterAttrs struct {
	LinkIndex int
	Handle uint32
	Parent uint32
	Priority uint16 // lower is higher priority
	Protocol uint16 // syscall.ETH_P_*
	}

	func (q FilterAttrs) String() string {
	return fmt.Sprintf("{LinkIndex: %d, Handle: %s, Parent: %s, Priority: %d, Protocol: %d}", q.LinkIndex, HandleStr(q.Handle), HandleStr(q.Parent), q.Priority, q.Protocol)
	}

	type TcAct int32

	const (
	TC_ACT_UNSPEC TcAct = -1
	TC_ACT_OK TcAct = 0
	TC_ACT_RECLASSIFY TcAct = 1
	TC_ACT_SHOT TcAct = 2
	TC_ACT_PIPE TcAct = 3
	TC_ACT_STOLEN TcAct = 4
	TC_ACT_QUEUED TcAct = 5
	TC_ACT_REPEAT TcAct = 6
	TC_ACT_REDIRECT TcAct = 7
	TC_ACT_JUMP TcAct = 0x10000000
	)

	func (a TcAct) String() string {
	switch a {
	case TC_ACT_UNSPEC:
	return "unspec"
	case TC_ACT_OK:
	return "ok"
	case TC_ACT_RECLASSIFY:
	return "reclassify"
	case TC_ACT_SHOT:
	return "shot"
	case TC_ACT_PIPE:
	return "pipe"
	case TC_ACT_STOLEN:
	return "stolen"
	case TC_ACT_QUEUED:
	return "queued"
	case TC_ACT_REPEAT:
	return "repeat"
	case TC_ACT_REDIRECT:
	return "redirect"
	case TC_ACT_JUMP:
	return "jump"
	}
	return fmt.Sprintf("0x%x", int32(a))
	}

	type TcPolAct int32

	const (
	TC_POLICE_UNSPEC TcPolAct = TcPolAct(TC_ACT_UNSPEC)
	TC_POLICE_OK TcPolAct = TcPolAct(TC_ACT_OK)
	TC_POLICE_RECLASSIFY TcPolAct = TcPolAct(TC_ACT_RECLASSIFY)
	TC_POLICE_SHOT TcPolAct = TcPolAct(TC_ACT_SHOT)
	TC_POLICE_PIPE TcPolAct = TcPolAct(TC_ACT_PIPE)
	)

	func (a TcPolAct) String() string {
	switch a {
	case TC_POLICE_UNSPEC:
	return "unspec"
	case TC_POLICE_OK:
	return "ok"
	case TC_POLICE_RECLASSIFY:
	return "reclassify"
	case TC_POLICE_SHOT:
	return "shot"
	case TC_POLICE_PIPE:
	return "pipe"
	}
	return fmt.Sprintf("0x%x", int32(a))
	}

	type ActionAttrs struct {
	Index int
	Capab int
	Action TcAct
	Refcnt int
	Bindcnt int
	}

	func (q ActionAttrs) String() string {
	return fmt.Sprintf("{Index: %d, Capab: %x, Action: %s, Refcnt: %d, Bindcnt: %d}", q.Index, q.Capab, q.Action.String(), q.Refcnt, q.Bindcnt)
	}

	// Action represents an action in any supported filter.
	type Action interface {
	Attrs() *ActionAttrs
	Type() string
	}

	type GenericAction struct {
	ActionAttrs
	}

	func (action *GenericAction) Type() string {
	return "generic"
	}

	func (action GenericAction) Attrs() ActionAttrs {
	return &action.ActionAttrs
	}

	type BpfAction struct {
	ActionAttrs
	Fd int
	Name string
	}

	func (action *BpfAction) Type() string {
	return "bpf"
	}

	func (action BpfAction) Attrs() ActionAttrs {
	return &action.ActionAttrs
	}

	type MirredAct uint8

	func (a MirredAct) String() string {
	switch a {
	case TCA_EGRESS_REDIR:
	return "egress redir"
	case TCA_EGRESS_MIRROR:
	return "egress mirror"
	case TCA_INGRESS_REDIR:
	return "ingress redir"
	case TCA_INGRESS_MIRROR:
	return "ingress mirror"
	}
	return "unknown"
	}

	const (
	TCA_EGRESS_REDIR MirredAct = 1 /* packet redirect to EGRESS*/
	TCA_EGRESS_MIRROR MirredAct = 2 /* mirror packet to EGRESS */
	TCA_INGRESS_REDIR MirredAct = 3 /* packet redirect to INGRESS*/
	TCA_INGRESS_MIRROR MirredAct = 4 /* mirror packet to INGRESS */
	)

	type MirredAction struct {
	ActionAttrs
	MirredAction MirredAct
	Ifindex int
	}

	func (action *MirredAction) Type() string {
	return "mirred"
	}

	func (action MirredAction) Attrs() ActionAttrs {
	return &action.ActionAttrs
	}

	func NewMirredAction(redirIndex int) *MirredAction {
	return &MirredAction{
	ActionAttrs: ActionAttrs{
	Action: TC_ACT_STOLEN,
	},
	MirredAction: TCA_EGRESS_REDIR,
	Ifindex: redirIndex,
	}
	}

	// Sel of the U32 filters that contains multiple TcU32Key. This is the copy
	// and the frontend representation of nl.TcU32Sel. It is serialized into canonical
	// nl.TcU32Sel with the appropriate endianness.
	type TcU32Sel struct {
	Flags uint8
	Offshift uint8
	Nkeys uint8
	Pad uint8
	Offmask uint16
	Off uint16
	Offoff int16
	Hoff int16
	Hmask uint32
	Keys []TcU32Key
	}

	// TcU32Key contained of Sel in the U32 filters. This is the copy and the frontend
	// representation of nl.TcU32Key. It is serialized into chanonical nl.TcU32Sel
	// with the appropriate endianness.
	type TcU32Key struct {
	Mask uint32
	Val uint32
	Off int32
	OffMask int32
	}

	// U32 filters on many packet related properties
	type U32 struct {
	FilterAttrs
	ClassId uint32
	RedirIndex int
	Sel *TcU32Sel
	Actions []Action
	}

	func (filter U32) Attrs() FilterAttrs {
	return &filter.FilterAttrs
	}

	func (filter *U32) Type() string {
	return "u32"
	}

	type FilterFwAttrs struct {
	ClassId uint32
	InDev string
	Mask uint32
	Index uint32
	Buffer uint32
	Mtu uint32
	Mpu uint16
	Rate uint32
	AvRate uint32
	PeakRate uint32
	Action TcPolAct
	Overhead uint16
	LinkLayer int
	}

	type BpfFilter struct {
	FilterAttrs
	ClassId uint32
	Fd int
	Name string
	DirectAction bool
	}

	func (filter *BpfFilter) Type() string {
	return "bpf"
	}

	func (filter BpfFilter) Attrs() FilterAttrs {
	return &filter.FilterAttrs
	}

	// GenericFilter filters represent types that are not currently understood
	// by this netlink library.
	type GenericFilter struct {
	FilterAttrs
	FilterType string
	}

	func (filter GenericFilter) Attrs() FilterAttrs {
	return &filter.FilterAttrs
	}

	func (filter *GenericFilter) Type() string {
	return filter.FilterType
	}