// Copyright 2019 The gVisor Authors. // // 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 iptables supports packet filtering and manipulation via the iptables // tool. package iptables import ( "fmt" "gvisor.dev/gvisor/pkg/tcpip" "gvisor.dev/gvisor/pkg/tcpip/header" ) // Table names. const ( TablenameNat = "nat" TablenameMangle = "mangle" TablenameFilter = "filter" ) // Chain names as defined by net/ipv4/netfilter/ip_tables.c. const ( ChainNamePrerouting = "PREROUTING" ChainNameInput = "INPUT" ChainNameForward = "FORWARD" ChainNameOutput = "OUTPUT" ChainNamePostrouting = "POSTROUTING" ) // HookUnset indicates that there is no hook set for an entrypoint or // underflow. const HookUnset = -1 // DefaultTables returns a default set of tables. Each chain is set to accept // all packets. func DefaultTables() IPTables { // TODO(gvisor.dev/issue/170): We may be able to swap out some strings for // iotas. return IPTables{ Tables: map[string]Table{ TablenameNat: Table{ Rules: []Rule{ Rule{Target: AcceptTarget{}}, Rule{Target: AcceptTarget{}}, Rule{Target: AcceptTarget{}}, Rule{Target: AcceptTarget{}}, Rule{Target: ErrorTarget{}}, }, BuiltinChains: map[Hook]int{ Prerouting: 0, Input: 1, Output: 2, Postrouting: 3, }, Underflows: map[Hook]int{ Prerouting: 0, Input: 1, Output: 2, Postrouting: 3, }, UserChains: map[string]int{}, }, TablenameMangle: Table{ Rules: []Rule{ Rule{Target: AcceptTarget{}}, Rule{Target: AcceptTarget{}}, Rule{Target: ErrorTarget{}}, }, BuiltinChains: map[Hook]int{ Prerouting: 0, Output: 1, }, Underflows: map[Hook]int{ Prerouting: 0, Output: 1, }, UserChains: map[string]int{}, }, TablenameFilter: Table{ Rules: []Rule{ Rule{Target: AcceptTarget{}}, Rule{Target: AcceptTarget{}}, Rule{Target: AcceptTarget{}}, Rule{Target: ErrorTarget{}}, }, BuiltinChains: map[Hook]int{ Input: 0, Forward: 1, Output: 2, }, Underflows: map[Hook]int{ Input: 0, Forward: 1, Output: 2, }, UserChains: map[string]int{}, }, }, Priorities: map[Hook][]string{ Input: []string{TablenameNat, TablenameFilter}, Prerouting: []string{TablenameMangle, TablenameNat}, Output: []string{TablenameMangle, TablenameNat, TablenameFilter}, }, } } // EmptyFilterTable returns a Table with no rules and the filter table chains // mapped to HookUnset. func EmptyFilterTable() Table { return Table{ Rules: []Rule{}, BuiltinChains: map[Hook]int{ Input: HookUnset, Forward: HookUnset, Output: HookUnset, }, Underflows: map[Hook]int{ Input: HookUnset, Forward: HookUnset, Output: HookUnset, }, UserChains: map[string]int{}, } } // EmptyNatTable returns a Table with no rules and the filter table chains // mapped to HookUnset. func EmptyNatTable() Table { return Table{ Rules: []Rule{}, BuiltinChains: map[Hook]int{ Prerouting: HookUnset, Input: HookUnset, Output: HookUnset, Postrouting: HookUnset, }, Underflows: map[Hook]int{ Prerouting: HookUnset, Input: HookUnset, Output: HookUnset, Postrouting: HookUnset, }, UserChains: map[string]int{}, } } // A chainVerdict is what a table decides should be done with a packet. type chainVerdict int const ( // chainAccept indicates the packet should continue through netstack. chainAccept chainVerdict = iota // chainAccept indicates the packet should be dropped. chainDrop // chainReturn indicates the packet should return to the calling chain // or the underflow rule of a builtin chain. chainReturn ) // Check runs pkt through the rules for hook. It returns true when the packet // should continue traversing the network stack and false when it should be // dropped. // // Precondition: pkt.NetworkHeader is set. func (it *IPTables) Check(hook Hook, pkt tcpip.PacketBuffer) bool { // Go through each table containing the hook. for _, tablename := range it.Priorities[hook] { table := it.Tables[tablename] ruleIdx := table.BuiltinChains[hook] switch verdict := it.checkChain(hook, pkt, table, ruleIdx); verdict { // If the table returns Accept, move on to the next table. case chainAccept: continue // The Drop verdict is final. case chainDrop: return false case chainReturn: // Any Return from a built-in chain means we have to // call the underflow. underflow := table.Rules[table.Underflows[hook]] switch v, _ := underflow.Target.Action(pkt); v { case RuleAccept: continue case RuleDrop: return false case RuleJump, RuleReturn: panic("Underflows should only return RuleAccept or RuleDrop.") default: panic(fmt.Sprintf("Unknown verdict: %d", v)) } default: panic(fmt.Sprintf("Unknown verdict %v.", verdict)) } } // Every table returned Accept. return true } // Precondition: pkt.NetworkHeader is set. func (it *IPTables) checkChain(hook Hook, pkt tcpip.PacketBuffer, table Table, ruleIdx int) chainVerdict { // Start from ruleIdx and walk the list of rules until a rule gives us // a verdict. for ruleIdx < len(table.Rules) { switch verdict, jumpTo := it.checkRule(hook, pkt, table, ruleIdx); verdict { case RuleAccept: return chainAccept case RuleDrop: return chainDrop case RuleReturn: return chainReturn case RuleJump: // "Jumping" to the next rule just means we're // continuing on down the list. if jumpTo == ruleIdx+1 { ruleIdx++ continue } switch verdict := it.checkChain(hook, pkt, table, jumpTo); verdict { case chainAccept: return chainAccept case chainDrop: return chainDrop case chainReturn: ruleIdx++ continue default: panic(fmt.Sprintf("Unknown verdict: %d", verdict)) } default: panic(fmt.Sprintf("Unknown verdict: %d", verdict)) } } // We got through the entire table without a decision. Default to DROP // for safety. return chainDrop } // Precondition: pk.NetworkHeader is set. func (it *IPTables) checkRule(hook Hook, pkt tcpip.PacketBuffer, table Table, ruleIdx int) (RuleVerdict, int) { rule := table.Rules[ruleIdx] // If pkt.NetworkHeader hasn't been set yet, it will be contained in // pkt.Data.First(). if pkt.NetworkHeader == nil { pkt.NetworkHeader = pkt.Data.First() } // Check whether the packet matches the IP header filter. if !filterMatch(rule.Filter, header.IPv4(pkt.NetworkHeader)) { // Continue on to the next rule. return RuleJump, ruleIdx + 1 } // Go through each rule matcher. If they all match, run // the rule target. for _, matcher := range rule.Matchers { matches, hotdrop := matcher.Match(hook, pkt, "") if hotdrop { return RuleDrop, 0 } if !matches { // Continue on to the next rule. return RuleJump, ruleIdx + 1 } } // All the matchers matched, so run the target. return rule.Target.Action(pkt) } func filterMatch(filter IPHeaderFilter, hdr header.IPv4) bool { // TODO(gvisor.dev/issue/170): Support other fields of the filter. // Check the transport protocol. if filter.Protocol != 0 && filter.Protocol != hdr.TransportProtocol() { return false } // Check the destination IP. dest := hdr.DestinationAddress() matches := true for i := range filter.Dst { if dest[i]&filter.DstMask[i] != filter.Dst[i] { matches = false break } } if matches == filter.DstInvert { return false } return true }