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f_flow.go
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f_flow.go
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package tc
import (
"fmt"
"github.com/mdlayher/netlink"
)
const (
tcaFlowUnspec = iota
tcaFlowKeys
tcaFlowMode
tcaFlowBaseClass
tcaFlowRShift
tcaFlowAddend
tcaFlowMask
tcaFlowXOR
tcaFlowDivisor
tcaFlowAct
tcaFlowPolice
tcaFlowEMatches
tcaFlowPerTurb
)
// Flow contains attributes of the flow discipline
type Flow struct {
Keys *uint32
Mode *uint32
BaseClass *uint32
RShift *uint32
Addend *uint32
Mask *uint32
XOR *uint32
Divisor *uint32
PerTurb *uint32
Ematch *Ematch
}
// unmarshalFlow parses the Flow-encoded data and stores the result in the value pointed to by info.
func unmarshalFlow(data []byte, info *Flow) error {
ad, err := netlink.NewAttributeDecoder(data)
if err != nil {
return err
}
ad.ByteOrder = nativeEndian
for ad.Next() {
switch ad.Type() {
case tcaFlowKeys:
info.Keys = uint32Ptr(ad.Uint32())
case tcaFlowMode:
info.Mode = uint32Ptr(ad.Uint32())
case tcaFlowBaseClass:
info.BaseClass = uint32Ptr(ad.Uint32())
case tcaFlowRShift:
info.RShift = uint32Ptr(ad.Uint32())
case tcaFlowAddend:
info.Addend = uint32Ptr(ad.Uint32())
case tcaFlowMask:
info.Mask = uint32Ptr(ad.Uint32())
case tcaFlowXOR:
info.XOR = uint32Ptr(ad.Uint32())
case tcaFlowDivisor:
info.Divisor = uint32Ptr(ad.Uint32())
case tcaFlowPerTurb:
info.PerTurb = uint32Ptr(ad.Uint32())
case tcaFlowEMatches:
ematch := &Ematch{}
if err := unmarshalEmatch(ad.Bytes(), ematch); err != nil {
return err
}
info.Ematch = ematch
default:
return fmt.Errorf("unmarshalFlow()\t%d\n\t%v", ad.Type(), ad.Bytes())
}
}
return ad.Err()
}
// marshalFlow returns the binary encoding of Flow
func marshalFlow(info *Flow) ([]byte, error) {
options := []tcOption{}
if info == nil {
return []byte{}, fmt.Errorf("Flow: %w", ErrNoArg)
}
// TODO: improve logic and check combinations
if info.Keys != nil {
options = append(options, tcOption{Interpretation: vtUint32, Type: tcaFlowKeys, Data: uint32Value(info.Keys)})
}
if info.Mode != nil {
options = append(options, tcOption{Interpretation: vtUint32, Type: tcaFlowMode, Data: uint32Value(info.Mode)})
}
if info.BaseClass != nil {
options = append(options, tcOption{Interpretation: vtUint32, Type: tcaFlowBaseClass, Data: uint32Value(info.BaseClass)})
}
if info.RShift != nil {
options = append(options, tcOption{Interpretation: vtUint32, Type: tcaFlowRShift, Data: uint32Value(info.RShift)})
}
if info.Addend != nil {
options = append(options, tcOption{Interpretation: vtUint32, Type: tcaFlowAddend, Data: uint32Value(info.Addend)})
}
if info.Mask != nil {
options = append(options, tcOption{Interpretation: vtUint32, Type: tcaFlowMask, Data: uint32Value(info.Mask)})
}
if info.XOR != nil {
options = append(options, tcOption{Interpretation: vtUint32, Type: tcaFlowXOR, Data: uint32Value(info.XOR)})
}
if info.Divisor != nil {
options = append(options, tcOption{Interpretation: vtUint32, Type: tcaFlowDivisor, Data: uint32Value(info.Divisor)})
}
if info.PerTurb != nil {
options = append(options, tcOption{Interpretation: vtUint32, Type: tcaFlowPerTurb, Data: uint32Value(info.PerTurb)})
}
if info.Ematch != nil {
data, err := marshalEmatch(info.Ematch)
if err != nil {
return []byte{}, err
}
options = append(options, tcOption{Interpretation: vtBytes, Type: tcaFlowEMatches, Data: data})
}
return marshalAttributes(options)
}