// Copyright 2018 Google LLC. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package nftables import ( "encoding/binary" "fmt" "github.com/google/nftables/binaryutil" "github.com/google/nftables/expr" "github.com/mdlayher/netlink" "golang.org/x/sys/unix" ) var ruleHeaderType = netlink.HeaderType((unix.NFNL_SUBSYS_NFTABLES << 8) | unix.NFT_MSG_NEWRULE) type ruleOperation uint32 // Possible PayloadOperationType values. const ( operationAdd ruleOperation = iota operationInsert operationReplace ) // A Rule does something with a packet. See also // https://wiki.nftables.org/wiki-nftables/index.php/Simple_rule_management type Rule struct { Table *Table Chain *Chain Position uint64 Handle uint64 Exprs []expr.Any UserData []byte } // GetRule returns the rules in the specified table and chain. func (cc *Conn) GetRule(t *Table, c *Chain) ([]*Rule, error) { conn, err := cc.dialNetlink() if err != nil { return nil, err } defer conn.Close() data, err := netlink.MarshalAttributes([]netlink.Attribute{ {Type: unix.NFTA_RULE_TABLE, Data: []byte(t.Name + "\x00")}, {Type: unix.NFTA_RULE_CHAIN, Data: []byte(c.Name + "\x00")}, }) if err != nil { return nil, err } message := netlink.Message{ Header: netlink.Header{ Type: netlink.HeaderType((unix.NFNL_SUBSYS_NFTABLES << 8) | unix.NFT_MSG_GETRULE), Flags: netlink.Request | netlink.Acknowledge | netlink.Dump | unix.NLM_F_ECHO, }, Data: append(extraHeader(uint8(t.Family), 0), data...), } if _, err := conn.SendMessages([]netlink.Message{message}); err != nil { return nil, fmt.Errorf("SendMessages: %v", err) } reply, err := conn.Receive() if err != nil { return nil, fmt.Errorf("Receive: %v", err) } var rules []*Rule for _, msg := range reply { r, err := ruleFromMsg(msg) if err != nil { return nil, err } rules = append(rules, r) } return rules, nil } // AddRule adds the specified Rule func (cc *Conn) newRule(r *Rule, op ruleOperation) *Rule { cc.Lock() defer cc.Unlock() exprAttrs := make([]netlink.Attribute, len(r.Exprs)) for idx, expr := range r.Exprs { exprAttrs[idx] = netlink.Attribute{ Type: unix.NLA_F_NESTED | unix.NFTA_LIST_ELEM, Data: cc.marshalExpr(expr), } } data := cc.marshalAttr([]netlink.Attribute{ {Type: unix.NFTA_RULE_TABLE, Data: []byte(r.Table.Name + "\x00")}, {Type: unix.NFTA_RULE_CHAIN, Data: []byte(r.Chain.Name + "\x00")}, }) if r.Handle != 0 { data = append(data, cc.marshalAttr([]netlink.Attribute{ {Type: unix.NFTA_RULE_HANDLE, Data: binaryutil.BigEndian.PutUint64(r.Handle)}, })...) } data = append(data, cc.marshalAttr([]netlink.Attribute{ {Type: unix.NLA_F_NESTED | unix.NFTA_RULE_EXPRESSIONS, Data: cc.marshalAttr(exprAttrs)}, })...) msgData := []byte{} msgData = append(msgData, data...) var flags netlink.HeaderFlags if r.UserData != nil { msgData = append(msgData, cc.marshalAttr([]netlink.Attribute{ {Type: unix.NFTA_RULE_USERDATA, Data: r.UserData}, })...) } switch op { case operationAdd: flags = netlink.Request | netlink.Acknowledge | netlink.Create | unix.NLM_F_ECHO | unix.NLM_F_APPEND case operationInsert: flags = netlink.Request | netlink.Acknowledge | netlink.Create | unix.NLM_F_ECHO case operationReplace: flags = netlink.Request | netlink.Acknowledge | netlink.Replace | unix.NLM_F_ECHO | unix.NLM_F_REPLACE } if r.Position != 0 { msgData = append(msgData, cc.marshalAttr([]netlink.Attribute{ {Type: unix.NFTA_RULE_POSITION, Data: binaryutil.BigEndian.PutUint64(r.Position)}, })...) } cc.messages = append(cc.messages, netlink.Message{ Header: netlink.Header{ Type: ruleHeaderType, Flags: flags, }, Data: append(extraHeader(uint8(r.Table.Family), 0), msgData...), }) return r } func (cc *Conn) ReplaceRule(r *Rule) *Rule { return cc.newRule(r, operationReplace) } func (cc *Conn) AddRule(r *Rule) *Rule { if r.Handle != 0 { return cc.newRule(r, operationReplace) } return cc.newRule(r, operationAdd) } func (cc *Conn) InsertRule(r *Rule) *Rule { if r.Handle != 0 { return cc.newRule(r, operationReplace) } return cc.newRule(r, operationInsert) } // DelRule deletes the specified Rule, rule's handle cannot be 0 func (cc *Conn) DelRule(r *Rule) error { cc.Lock() defer cc.Unlock() data := cc.marshalAttr([]netlink.Attribute{ {Type: unix.NFTA_RULE_TABLE, Data: []byte(r.Table.Name + "\x00")}, {Type: unix.NFTA_RULE_CHAIN, Data: []byte(r.Chain.Name + "\x00")}, }) if r.Handle == 0 { return fmt.Errorf("rule's handle cannot be 0") } data = append(data, cc.marshalAttr([]netlink.Attribute{ {Type: unix.NFTA_RULE_HANDLE, Data: binaryutil.BigEndian.PutUint64(r.Handle)}, })...) flags := netlink.Request | netlink.Acknowledge cc.messages = append(cc.messages, netlink.Message{ Header: netlink.Header{ Type: netlink.HeaderType((unix.NFNL_SUBSYS_NFTABLES << 8) | unix.NFT_MSG_DELRULE), Flags: flags, }, Data: append(extraHeader(uint8(r.Table.Family), 0), data...), }) return nil } func exprsFromMsg(b []byte) ([]expr.Any, error) { ad, err := netlink.NewAttributeDecoder(b) if err != nil { return nil, err } ad.ByteOrder = binary.BigEndian var exprs []expr.Any for ad.Next() { ad.Do(func(b []byte) error { ad, err := netlink.NewAttributeDecoder(b) if err != nil { return err } ad.ByteOrder = binary.BigEndian var name string for ad.Next() { switch ad.Type() { case unix.NFTA_EXPR_NAME: name = ad.String() case unix.NFTA_EXPR_DATA: var e expr.Any switch name { case "meta": e = &expr.Meta{} case "cmp": e = &expr.Cmp{} case "counter": e = &expr.Counter{} case "payload": e = &expr.Payload{} case "lookup": e = &expr.Lookup{} case "immediate": e = &expr.Immediate{} case "bitwise": e = &expr.Bitwise{} case "redir": e = &expr.Redir{} case "nat": e = &expr.NAT{} case "dynset": e = &expr.Dynset{} } if e == nil { // TODO: introduce an opaque expression type so that users know // something is here. continue // unsupported expression type } ad.Do(func(b []byte) error { if err := expr.Unmarshal(b, e); err != nil { return err } // Verdict expressions are a special-case of immediate expressions, so // if the expression is an immediate writing nothing into the verdict // register (invalid), re-parse it as a verdict expression. if imm, isImmediate := e.(*expr.Immediate); isImmediate && imm.Register == unix.NFT_REG_VERDICT && len(imm.Data) == 0 { e = &expr.Verdict{} if err := expr.Unmarshal(b, e); err != nil { return err } } exprs = append(exprs, e) return nil }) } } return ad.Err() }) } return exprs, ad.Err() } func ruleFromMsg(msg netlink.Message) (*Rule, error) { if got, want := msg.Header.Type, ruleHeaderType; got != want { return nil, fmt.Errorf("unexpected header type: got %v, want %v", got, want) } ad, err := netlink.NewAttributeDecoder(msg.Data[4:]) if err != nil { return nil, err } ad.ByteOrder = binary.BigEndian var r Rule for ad.Next() { switch ad.Type() { case unix.NFTA_RULE_TABLE: r.Table = &Table{Name: ad.String()} case unix.NFTA_RULE_CHAIN: r.Chain = &Chain{Name: ad.String()} case unix.NFTA_RULE_EXPRESSIONS: ad.Do(func(b []byte) error { r.Exprs, err = exprsFromMsg(b) return err }) case unix.NFTA_RULE_POSITION: r.Position = ad.Uint64() case unix.NFTA_RULE_HANDLE: r.Handle = ad.Uint64() case unix.NFTA_RULE_USERDATA: r.UserData = ad.Bytes() } } return &r, ad.Err() }