dae/component/control/routing_matcher_builder.go

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/*
* SPDX-License-Identifier: AGPL-3.0-only
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* Copyright (c) since 2022, v2rayA Organization <team@v2raya.org>
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*/
package control
import (
"encoding/binary"
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"fmt"
"github.com/cilium/ebpf"
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"github.com/v2rayA/dae/common"
"github.com/v2rayA/dae/common/consts"
"github.com/v2rayA/dae/component/routing"
"github.com/v2rayA/dae/pkg/config_parser"
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"net/netip"
"strconv"
)
type DomainSet struct {
Key string
RuleIndex int
Domains []string
}
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type RoutingMatcherBuilder struct {
*routing.DefaultMatcherBuilder
outboundName2Id map[string]uint8
bpf *bpfObjects
rules []_bpfMatchSet
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SimulatedLpmTries [][]netip.Prefix
SimulatedDomainSet []DomainSet
Final string
err error
}
func NewRoutingMatcherBuilder(outboundName2Id map[string]uint8, bpf *bpfObjects) *RoutingMatcherBuilder {
return &RoutingMatcherBuilder{outboundName2Id: outboundName2Id, bpf: bpf}
}
func (b *RoutingMatcherBuilder) OutboundToId(outbound string) uint8 {
var outboundId uint8
switch outbound {
case routing.FakeOutbound_AND:
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outboundId = uint8(consts.OutboundLogicalAnd)
case routing.FakeOutbound_OR:
outboundId = uint8(consts.OutboundLogicalOr)
default:
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var ok bool
outboundId, ok = b.outboundName2Id[outbound]
if !ok {
b.err = fmt.Errorf("%v not defined in group", strconv.Quote(outbound))
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}
}
return outboundId
}
func (b *RoutingMatcherBuilder) AddDomain(f *config_parser.Function, key string, values []string, outbound string) {
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if b.err != nil {
return
}
switch key {
case consts.RoutingDomain_Regex,
consts.RoutingDomain_Full,
consts.RoutingDomain_Keyword,
consts.RoutingDomain_Suffix:
default:
b.err = fmt.Errorf("AddDomain: unsupported key: %v", key)
return
}
b.SimulatedDomainSet = append(b.SimulatedDomainSet, DomainSet{
Key: key,
RuleIndex: len(b.rules),
Domains: values,
})
b.rules = append(b.rules, _bpfMatchSet{
Type: uint8(consts.MatchType_DomainSet),
Not: f.Not,
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Outbound: b.OutboundToId(outbound),
})
}
func (b *RoutingMatcherBuilder) AddSourceMac(f *config_parser.Function, macAddrs [][6]byte, outbound string) {
if b.err != nil {
return
}
var addr16 [16]byte
values := make([]netip.Prefix, 0, len(macAddrs))
for _, mac := range macAddrs {
copy(addr16[10:], mac[:])
prefix := netip.PrefixFrom(netip.AddrFrom16(addr16), 128)
values = append(values, prefix)
}
lpmTrieIndex := len(b.SimulatedLpmTries)
b.SimulatedLpmTries = append(b.SimulatedLpmTries, values)
set := _bpfMatchSet{
Value: [16]byte{},
Type: uint8(consts.MatchType_Mac),
Not: f.Not,
Outbound: b.OutboundToId(outbound),
}
binary.LittleEndian.PutUint32(set.Value[:], uint32(lpmTrieIndex))
b.rules = append(b.rules, set)
}
func (b *RoutingMatcherBuilder) AddIp(f *config_parser.Function, values []netip.Prefix, outbound string) {
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if b.err != nil {
return
}
lpmTrieIndex := len(b.SimulatedLpmTries)
b.SimulatedLpmTries = append(b.SimulatedLpmTries, values)
set := _bpfMatchSet{
Value: [16]byte{},
Type: uint8(consts.MatchType_IpSet),
Not: f.Not,
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Outbound: b.OutboundToId(outbound),
}
binary.LittleEndian.PutUint32(set.Value[:], uint32(lpmTrieIndex))
b.rules = append(b.rules, set)
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}
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func (b *RoutingMatcherBuilder) AddPort(f *config_parser.Function, values [][2]uint16, _outbound string) {
for i, value := range values {
outbound := routing.FakeOutbound_OR
if i == len(values)-1 {
outbound = _outbound
}
b.rules = append(b.rules, _bpfMatchSet{
Type: uint8(consts.MatchType_Port),
Value: _bpfPortRange{
PortStart: value[0],
PortEnd: value[1],
}.Encode(),
Not: f.Not,
Outbound: b.OutboundToId(outbound),
})
}
}
func (b *RoutingMatcherBuilder) AddSourceIp(f *config_parser.Function, values []netip.Prefix, outbound string) {
if b.err != nil {
return
}
lpmTrieIndex := len(b.SimulatedLpmTries)
b.SimulatedLpmTries = append(b.SimulatedLpmTries, values)
set := _bpfMatchSet{
Value: [16]byte{},
Type: uint8(consts.MatchType_SourceIpSet),
Not: f.Not,
Outbound: b.OutboundToId(outbound),
}
binary.LittleEndian.PutUint32(set.Value[:], uint32(lpmTrieIndex))
b.rules = append(b.rules, set)
}
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func (b *RoutingMatcherBuilder) AddSourcePort(f *config_parser.Function, values [][2]uint16, _outbound string) {
for i, value := range values {
outbound := routing.FakeOutbound_OR
if i == len(values)-1 {
outbound = _outbound
}
b.rules = append(b.rules, _bpfMatchSet{
Type: uint8(consts.MatchType_SourcePort),
Value: _bpfPortRange{
PortStart: value[0],
PortEnd: value[1],
}.Encode(),
Not: f.Not,
Outbound: b.OutboundToId(outbound),
})
}
}
func (b *RoutingMatcherBuilder) AddL4Proto(f *config_parser.Function, values consts.L4ProtoType, outbound string) {
if b.err != nil {
return
}
b.rules = append(b.rules, _bpfMatchSet{
Value: [16]byte{byte(values)},
Type: uint8(consts.MatchType_L4Proto),
Not: f.Not,
Outbound: b.OutboundToId(outbound),
})
}
func (b *RoutingMatcherBuilder) AddIpVersion(f *config_parser.Function, values consts.IpVersionType, outbound string) {
if b.err != nil {
return
}
b.rules = append(b.rules, _bpfMatchSet{
Value: [16]byte{byte(values)},
Type: uint8(consts.MatchType_IpVersion),
Not: f.Not,
Outbound: b.OutboundToId(outbound),
})
}
func (b *RoutingMatcherBuilder) AddProcessName(f *config_parser.Function, values [][consts.TaskCommLen]byte, _outbound string) {
for i, value := range values {
outbound := routing.FakeOutbound_OR
if i == len(values)-1 {
outbound = _outbound
}
matchSet := _bpfMatchSet{
Type: uint8(consts.MatchType_ProcessName),
Not: f.Not,
Outbound: b.OutboundToId(outbound),
}
copy(matchSet.Value[:], value[:])
b.rules = append(b.rules, matchSet)
}
}
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func (b *RoutingMatcherBuilder) AddFinal(outbound string) {
if b.err != nil {
return
}
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b.Final = outbound
b.rules = append(b.rules, _bpfMatchSet{
Type: uint8(consts.MatchType_Final),
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Outbound: b.OutboundToId(outbound),
})
}
func (b *RoutingMatcherBuilder) Build() (err error) {
if b.err != nil {
return b.err
}
// Update lpm_array_map.
for i, cidrs := range b.SimulatedLpmTries {
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var keys []_bpfLpmKey
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var values []uint32
for _, cidr := range cidrs {
keys = append(keys, cidrToBpfLpmKey(cidr))
values = append(values, 1)
}
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m, err := b.bpf.newLpmMap(keys, values)
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if err != nil {
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return fmt.Errorf("newLpmMap: %w", err)
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}
// ebpf.Map cannot be BatchUpdate
if err = b.bpf.LpmArrayMap.Update(uint32(i), m, ebpf.UpdateAny); err != nil {
m.Close()
return fmt.Errorf("Update: %w", err)
}
m.Close()
}
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// Write routings.
// Final rule MUST be the last.
if b.rules[len(b.rules)-1].Type != uint8(consts.MatchType_Final) {
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b.err = fmt.Errorf("final rule MUST be the last")
return b.err
}
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routingsLen := uint32(len(b.rules))
routingsKeys := common.ARangeU32(routingsLen)
if _, err = BatchUpdate(b.bpf.RoutingMap, routingsKeys, b.rules, &ebpf.BatchOptions{
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ElemFlags: uint64(ebpf.UpdateAny),
}); err != nil {
return fmt.Errorf("BatchUpdate: %w", err)
}
return nil
}