sing-box/route/rule/rule_headless.go
2024-12-21 19:40:02 +08:00

215 lines
7.1 KiB
Go

package rule
import (
"context"
"github.com/sagernet/sing-box/adapter"
C "github.com/sagernet/sing-box/constant"
"github.com/sagernet/sing-box/option"
"github.com/sagernet/sing/common"
E "github.com/sagernet/sing/common/exceptions"
"github.com/sagernet/sing/service"
)
func NewHeadlessRule(ctx context.Context, options option.HeadlessRule) (adapter.HeadlessRule, error) {
switch options.Type {
case "", C.RuleTypeDefault:
if !options.DefaultOptions.IsValid() {
return nil, E.New("missing conditions")
}
return NewDefaultHeadlessRule(ctx, options.DefaultOptions)
case C.RuleTypeLogical:
if !options.LogicalOptions.IsValid() {
return nil, E.New("missing conditions")
}
return NewLogicalHeadlessRule(ctx, options.LogicalOptions)
default:
return nil, E.New("unknown rule type: ", options.Type)
}
}
var _ adapter.HeadlessRule = (*DefaultHeadlessRule)(nil)
type DefaultHeadlessRule struct {
abstractDefaultRule
}
func NewDefaultHeadlessRule(ctx context.Context, options option.DefaultHeadlessRule) (*DefaultHeadlessRule, error) {
networkManager := service.FromContext[adapter.NetworkManager](ctx)
rule := &DefaultHeadlessRule{
abstractDefaultRule{
invert: options.Invert,
},
}
if len(options.Network) > 0 {
item := NewNetworkItem(options.Network)
rule.items = append(rule.items, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.Domain) > 0 || len(options.DomainSuffix) > 0 {
item := NewDomainItem(options.Domain, options.DomainSuffix)
rule.destinationAddressItems = append(rule.destinationAddressItems, item)
rule.allItems = append(rule.allItems, item)
} else if options.DomainMatcher != nil {
item := NewRawDomainItem(options.DomainMatcher)
rule.destinationAddressItems = append(rule.destinationAddressItems, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.DomainKeyword) > 0 {
item := NewDomainKeywordItem(options.DomainKeyword)
rule.destinationAddressItems = append(rule.destinationAddressItems, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.DomainRegex) > 0 {
item, err := NewDomainRegexItem(options.DomainRegex)
if err != nil {
return nil, E.Cause(err, "domain_regex")
}
rule.destinationAddressItems = append(rule.destinationAddressItems, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.SourceIPCIDR) > 0 {
item, err := NewIPCIDRItem(true, options.SourceIPCIDR)
if err != nil {
return nil, E.Cause(err, "source_ip_cidr")
}
rule.sourceAddressItems = append(rule.sourceAddressItems, item)
rule.allItems = append(rule.allItems, item)
} else if options.SourceIPSet != nil {
item := NewRawIPCIDRItem(true, options.SourceIPSet)
rule.sourceAddressItems = append(rule.sourceAddressItems, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.IPCIDR) > 0 {
item, err := NewIPCIDRItem(false, options.IPCIDR)
if err != nil {
return nil, E.Cause(err, "ipcidr")
}
rule.destinationIPCIDRItems = append(rule.destinationIPCIDRItems, item)
rule.allItems = append(rule.allItems, item)
} else if options.IPSet != nil {
item := NewRawIPCIDRItem(false, options.IPSet)
rule.destinationIPCIDRItems = append(rule.destinationIPCIDRItems, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.SourcePort) > 0 {
item := NewPortItem(true, options.SourcePort)
rule.sourcePortItems = append(rule.sourcePortItems, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.SourcePortRange) > 0 {
item, err := NewPortRangeItem(true, options.SourcePortRange)
if err != nil {
return nil, E.Cause(err, "source_port_range")
}
rule.sourcePortItems = append(rule.sourcePortItems, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.Port) > 0 {
item := NewPortItem(false, options.Port)
rule.destinationPortItems = append(rule.destinationPortItems, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.PortRange) > 0 {
item, err := NewPortRangeItem(false, options.PortRange)
if err != nil {
return nil, E.Cause(err, "port_range")
}
rule.destinationPortItems = append(rule.destinationPortItems, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.ProcessName) > 0 {
item := NewProcessItem(options.ProcessName)
rule.items = append(rule.items, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.ProcessPath) > 0 {
item := NewProcessPathItem(options.ProcessPath)
rule.items = append(rule.items, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.ProcessPathRegex) > 0 {
item, err := NewProcessPathRegexItem(options.ProcessPathRegex)
if err != nil {
return nil, E.Cause(err, "process_path_regex")
}
rule.items = append(rule.items, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.PackageName) > 0 {
item := NewPackageNameItem(options.PackageName)
rule.items = append(rule.items, item)
rule.allItems = append(rule.allItems, item)
}
if networkManager != nil {
if len(options.NetworkType) > 0 {
item := NewNetworkTypeItem(networkManager, common.Map(options.NetworkType, option.InterfaceType.Build))
rule.items = append(rule.items, item)
rule.allItems = append(rule.allItems, item)
}
if options.NetworkIsExpensive {
item := NewNetworkIsExpensiveItem(networkManager)
rule.items = append(rule.items, item)
rule.allItems = append(rule.allItems, item)
}
if options.NetworkIsConstrained {
item := NewNetworkIsConstrainedItem(networkManager)
rule.items = append(rule.items, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.WIFISSID) > 0 {
item := NewWIFISSIDItem(networkManager, options.WIFISSID)
rule.items = append(rule.items, item)
rule.allItems = append(rule.allItems, item)
}
if len(options.WIFIBSSID) > 0 {
item := NewWIFIBSSIDItem(networkManager, options.WIFIBSSID)
rule.items = append(rule.items, item)
rule.allItems = append(rule.allItems, item)
}
}
if len(options.AdGuardDomain) > 0 {
item := NewAdGuardDomainItem(options.AdGuardDomain)
rule.destinationAddressItems = append(rule.destinationAddressItems, item)
rule.allItems = append(rule.allItems, item)
} else if options.AdGuardDomainMatcher != nil {
item := NewRawAdGuardDomainItem(options.AdGuardDomainMatcher)
rule.destinationAddressItems = append(rule.destinationAddressItems, item)
rule.allItems = append(rule.allItems, item)
}
return rule, nil
}
var _ adapter.HeadlessRule = (*LogicalHeadlessRule)(nil)
type LogicalHeadlessRule struct {
abstractLogicalRule
}
func NewLogicalHeadlessRule(ctx context.Context, options option.LogicalHeadlessRule) (*LogicalHeadlessRule, error) {
r := &LogicalHeadlessRule{
abstractLogicalRule{
rules: make([]adapter.HeadlessRule, len(options.Rules)),
invert: options.Invert,
},
}
switch options.Mode {
case C.LogicalTypeAnd:
r.mode = C.LogicalTypeAnd
case C.LogicalTypeOr:
r.mode = C.LogicalTypeOr
default:
return nil, E.New("unknown logical mode: ", options.Mode)
}
for i, subRule := range options.Rules {
rule, err := NewHeadlessRule(ctx, subRule)
if err != nil {
return nil, E.Cause(err, "sub rule[", i, "]")
}
r.rules[i] = rule
}
return r, nil
}