/* Copyright 2014 The Kubernetes 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 import ( "bytes" "fmt" "regexp" "strings" "sync" godbus "github.com/godbus/dbus" "github.com/golang/glog" "k8s.io/apimachinery/pkg/util/sets" utildbus "k8s.io/kubernetes/pkg/util/dbus" utilversion "k8s.io/kubernetes/pkg/util/version" utilexec "k8s.io/utils/exec" ) type RulePosition string const ( Prepend RulePosition = "-I" Append RulePosition = "-A" ) // An injectable interface for running iptables commands. Implementations must be goroutine-safe. type Interface interface { // GetVersion returns the "X.Y.Z" version string for iptables. GetVersion() (string, error) // EnsureChain checks if the specified chain exists and, if not, creates it. If the chain existed, return true. EnsureChain(table Table, chain Chain) (bool, error) // FlushChain clears the specified chain. If the chain did not exist, return error. FlushChain(table Table, chain Chain) error // DeleteChain deletes the specified chain. If the chain did not exist, return error. DeleteChain(table Table, chain Chain) error // EnsureRule checks if the specified rule is present and, if not, creates it. If the rule existed, return true. EnsureRule(position RulePosition, table Table, chain Chain, args ...string) (bool, error) // DeleteRule checks if the specified rule is present and, if so, deletes it. DeleteRule(table Table, chain Chain, args ...string) error // IsIpv6 returns true if this is managing ipv6 tables IsIpv6() bool // SaveInto calls `iptables-save` for table and stores result in a given buffer. SaveInto(table Table, buffer *bytes.Buffer) error // Restore runs `iptables-restore` passing data through []byte. // table is the Table to restore // data should be formatted like the output of SaveInto() // flush sets the presence of the "--noflush" flag. see: FlushFlag // counters sets the "--counters" flag. see: RestoreCountersFlag Restore(table Table, data []byte, flush FlushFlag, counters RestoreCountersFlag) error // RestoreAll is the same as Restore except that no table is specified. RestoreAll(data []byte, flush FlushFlag, counters RestoreCountersFlag) error // AddReloadFunc adds a function to call on iptables reload AddReloadFunc(reloadFunc func()) // Destroy cleans up resources used by the Interface Destroy() } type Protocol byte const ( ProtocolIpv4 Protocol = iota + 1 ProtocolIpv6 ) type Table string const ( TableNAT Table = "nat" TableFilter Table = "filter" TableMangle Table = "mangle" ) type Chain string const ( ChainPostrouting Chain = "POSTROUTING" ChainPrerouting Chain = "PREROUTING" ChainOutput Chain = "OUTPUT" ChainInput Chain = "INPUT" ChainForward Chain = "FORWARD" ) const ( cmdIPTablesSave string = "iptables-save" cmdIPTablesRestore string = "iptables-restore" cmdIPTables string = "iptables" cmdIP6TablesRestore string = "ip6tables-restore" cmdIP6TablesSave string = "ip6tables-save" cmdIP6Tables string = "ip6tables" ) // Option flag for Restore type RestoreCountersFlag bool const RestoreCounters RestoreCountersFlag = true const NoRestoreCounters RestoreCountersFlag = false // Option flag for Flush type FlushFlag bool const FlushTables FlushFlag = true const NoFlushTables FlushFlag = false // Versions of iptables less than this do not support the -C / --check flag // (test whether a rule exists). const MinCheckVersion = "1.4.11" // Minimum iptables versions supporting the -w and -w flags const WaitMinVersion = "1.4.20" const WaitSecondsMinVersion = "1.4.22" const WaitString = "-w" const WaitSecondsString = "-w5" const LockfilePath16x = "/run/xtables.lock" // runner implements Interface in terms of exec("iptables"). type runner struct { mu sync.Mutex exec utilexec.Interface dbus utildbus.Interface protocol Protocol hasCheck bool waitFlag []string restoreWaitFlag []string lockfilePath string reloadFuncs []func() signal chan *godbus.Signal } // newInternal returns a new Interface which will exec iptables, and allows the // caller to change the iptables-restore lockfile path func newInternal(exec utilexec.Interface, dbus utildbus.Interface, protocol Protocol, lockfilePath string) Interface { vstring, err := getIPTablesVersionString(exec, protocol) if err != nil { glog.Warningf("Error checking iptables version, assuming version at least %s: %v", MinCheckVersion, err) vstring = MinCheckVersion } if lockfilePath == "" { lockfilePath = LockfilePath16x } runner := &runner{ exec: exec, dbus: dbus, protocol: protocol, hasCheck: getIPTablesHasCheckCommand(vstring), waitFlag: getIPTablesWaitFlag(vstring), restoreWaitFlag: getIPTablesRestoreWaitFlag(exec, protocol), lockfilePath: lockfilePath, } // TODO this needs to be moved to a separate Start() or Run() function so that New() has zero side // effects. runner.connectToFirewallD() return runner } // New returns a new Interface which will exec iptables. func New(exec utilexec.Interface, dbus utildbus.Interface, protocol Protocol) Interface { return newInternal(exec, dbus, protocol, "") } // Destroy is part of Interface. func (runner *runner) Destroy() { if runner.signal != nil { runner.signal <- nil } } const ( firewalldName = "org.fedoraproject.FirewallD1" firewalldPath = "/org/fedoraproject/FirewallD1" firewalldInterface = "org.fedoraproject.FirewallD1" ) // Connects to D-Bus and listens for FirewallD start/restart. (On non-FirewallD-using // systems, this is effectively a no-op; we listen for the signals, but they will never be // emitted, so reload() will never be called.) func (runner *runner) connectToFirewallD() { bus, err := runner.dbus.SystemBus() if err != nil { glog.V(1).Infof("Could not connect to D-Bus system bus: %s", err) return } rule := fmt.Sprintf("type='signal',sender='%s',path='%s',interface='%s',member='Reloaded'", firewalldName, firewalldPath, firewalldInterface) bus.BusObject().Call("org.freedesktop.DBus.AddMatch", 0, rule) rule = fmt.Sprintf("type='signal',interface='org.freedesktop.DBus',member='NameOwnerChanged',path='/org/freedesktop/DBus',sender='org.freedesktop.DBus',arg0='%s'", firewalldName) bus.BusObject().Call("org.freedesktop.DBus.AddMatch", 0, rule) runner.signal = make(chan *godbus.Signal, 10) bus.Signal(runner.signal) go runner.dbusSignalHandler(bus) } // GetVersion returns the version string. func (runner *runner) GetVersion() (string, error) { return getIPTablesVersionString(runner.exec, runner.protocol) } // EnsureChain is part of Interface. func (runner *runner) EnsureChain(table Table, chain Chain) (bool, error) { fullArgs := makeFullArgs(table, chain) runner.mu.Lock() defer runner.mu.Unlock() out, err := runner.run(opCreateChain, fullArgs) if err != nil { if ee, ok := err.(utilexec.ExitError); ok { if ee.Exited() && ee.ExitStatus() == 1 { return true, nil } } return false, fmt.Errorf("error creating chain %q: %v: %s", chain, err, out) } return false, nil } // FlushChain is part of Interface. func (runner *runner) FlushChain(table Table, chain Chain) error { fullArgs := makeFullArgs(table, chain) runner.mu.Lock() defer runner.mu.Unlock() out, err := runner.run(opFlushChain, fullArgs) if err != nil { return fmt.Errorf("error flushing chain %q: %v: %s", chain, err, out) } return nil } // DeleteChain is part of Interface. func (runner *runner) DeleteChain(table Table, chain Chain) error { fullArgs := makeFullArgs(table, chain) runner.mu.Lock() defer runner.mu.Unlock() // TODO: we could call iptables -S first, ignore the output and check for non-zero return (more like DeleteRule) out, err := runner.run(opDeleteChain, fullArgs) if err != nil { return fmt.Errorf("error deleting chain %q: %v: %s", chain, err, out) } return nil } // EnsureRule is part of Interface. func (runner *runner) EnsureRule(position RulePosition, table Table, chain Chain, args ...string) (bool, error) { fullArgs := makeFullArgs(table, chain, args...) runner.mu.Lock() defer runner.mu.Unlock() exists, err := runner.checkRule(table, chain, args...) if err != nil { return false, err } if exists { return true, nil } out, err := runner.run(operation(position), fullArgs) if err != nil { return false, fmt.Errorf("error appending rule: %v: %s", err, out) } return false, nil } // DeleteRule is part of Interface. func (runner *runner) DeleteRule(table Table, chain Chain, args ...string) error { fullArgs := makeFullArgs(table, chain, args...) runner.mu.Lock() defer runner.mu.Unlock() exists, err := runner.checkRule(table, chain, args...) if err != nil { return err } if !exists { return nil } out, err := runner.run(opDeleteRule, fullArgs) if err != nil { return fmt.Errorf("error deleting rule: %v: %s", err, out) } return nil } func (runner *runner) IsIpv6() bool { return runner.protocol == ProtocolIpv6 } // SaveInto is part of Interface. func (runner *runner) SaveInto(table Table, buffer *bytes.Buffer) error { runner.mu.Lock() defer runner.mu.Unlock() // run and return iptablesSaveCmd := iptablesSaveCommand(runner.protocol) args := []string{"-t", string(table)} glog.V(4).Infof("running %s %v", iptablesSaveCmd, args) cmd := runner.exec.Command(iptablesSaveCmd, args...) // Since CombinedOutput() doesn't support redirecting it to a buffer, // we need to workaround it by redirecting stdout and stderr to buffer // and explicitly calling Run() [CombinedOutput() underneath itself // creates a new buffer, redirects stdout and stderr to it and also // calls Run()]. cmd.SetStdout(buffer) cmd.SetStderr(buffer) return cmd.Run() } // Restore is part of Interface. func (runner *runner) Restore(table Table, data []byte, flush FlushFlag, counters RestoreCountersFlag) error { // setup args args := []string{"-T", string(table)} return runner.restoreInternal(args, data, flush, counters) } // RestoreAll is part of Interface. func (runner *runner) RestoreAll(data []byte, flush FlushFlag, counters RestoreCountersFlag) error { // setup args args := make([]string, 0) return runner.restoreInternal(args, data, flush, counters) } type iptablesLocker interface { Close() error } // restoreInternal is the shared part of Restore/RestoreAll func (runner *runner) restoreInternal(args []string, data []byte, flush FlushFlag, counters RestoreCountersFlag) error { runner.mu.Lock() defer runner.mu.Unlock() if !flush { args = append(args, "--noflush") } if counters { args = append(args, "--counters") } // Grab the iptables lock to prevent iptables-restore and iptables // from stepping on each other. iptables-restore 1.6.2 will have // a --wait option like iptables itself, but that's not widely deployed. if len(runner.restoreWaitFlag) == 0 { locker, err := grabIptablesLocks(runner.lockfilePath) if err != nil { return err } defer func(locker iptablesLocker) { if err := locker.Close(); err != nil { glog.Errorf("Failed to close iptables locks: %v", err) } }(locker) } // run the command and return the output or an error including the output and error fullArgs := append(runner.restoreWaitFlag, args...) iptablesRestoreCmd := iptablesRestoreCommand(runner.protocol) glog.V(4).Infof("running %s %v", iptablesRestoreCmd, fullArgs) cmd := runner.exec.Command(iptablesRestoreCmd, fullArgs...) cmd.SetStdin(bytes.NewBuffer(data)) b, err := cmd.CombinedOutput() if err != nil { return fmt.Errorf("%v (%s)", err, b) } return nil } func iptablesSaveCommand(protocol Protocol) string { if protocol == ProtocolIpv6 { return cmdIP6TablesSave } else { return cmdIPTablesSave } } func iptablesRestoreCommand(protocol Protocol) string { if protocol == ProtocolIpv6 { return cmdIP6TablesRestore } else { return cmdIPTablesRestore } } func iptablesCommand(protocol Protocol) string { if protocol == ProtocolIpv6 { return cmdIP6Tables } else { return cmdIPTables } } func (runner *runner) run(op operation, args []string) ([]byte, error) { iptablesCmd := iptablesCommand(runner.protocol) fullArgs := append(runner.waitFlag, string(op)) fullArgs = append(fullArgs, args...) glog.V(5).Infof("running iptables %s %v", string(op), args) return runner.exec.Command(iptablesCmd, fullArgs...).CombinedOutput() // Don't log err here - callers might not think it is an error. } // Returns (bool, nil) if it was able to check the existence of the rule, or // (, error) if the process of checking failed. func (runner *runner) checkRule(table Table, chain Chain, args ...string) (bool, error) { if runner.hasCheck { return runner.checkRuleUsingCheck(makeFullArgs(table, chain, args...)) } else { return runner.checkRuleWithoutCheck(table, chain, args...) } } var hexnumRE = regexp.MustCompile("0x0+([0-9])") func trimhex(s string) string { return hexnumRE.ReplaceAllString(s, "0x$1") } // Executes the rule check without using the "-C" flag, instead parsing iptables-save. // Present for compatibility with <1.4.11 versions of iptables. This is full // of hack and half-measures. We should nix this ASAP. func (runner *runner) checkRuleWithoutCheck(table Table, chain Chain, args ...string) (bool, error) { iptablesSaveCmd := iptablesSaveCommand(runner.protocol) glog.V(1).Infof("running %s -t %s", iptablesSaveCmd, string(table)) out, err := runner.exec.Command(iptablesSaveCmd, "-t", string(table)).CombinedOutput() if err != nil { return false, fmt.Errorf("error checking rule: %v", err) } // Sadly, iptables has inconsistent quoting rules for comments. Just remove all quotes. // Also, quoted multi-word comments (which are counted as a single arg) // will be unpacked into multiple args, // in order to compare against iptables-save output (which will be split at whitespace boundary) // e.g. a single arg('"this must be before the NodePort rules"') will be unquoted and unpacked into 7 args. var argsCopy []string for i := range args { tmpField := strings.Trim(args[i], "\"") tmpField = trimhex(tmpField) argsCopy = append(argsCopy, strings.Fields(tmpField)...) } argset := sets.NewString(argsCopy...) for _, line := range strings.Split(string(out), "\n") { var fields = strings.Fields(line) // Check that this is a rule for the correct chain, and that it has // the correct number of argument (+2 for "-A ") if !strings.HasPrefix(line, fmt.Sprintf("-A %s", string(chain))) || len(fields) != len(argsCopy)+2 { continue } // Sadly, iptables has inconsistent quoting rules for comments. // Just remove all quotes. for i := range fields { fields[i] = strings.Trim(fields[i], "\"") fields[i] = trimhex(fields[i]) } // TODO: This misses reorderings e.g. "-x foo ! -y bar" will match "! -x foo -y bar" if sets.NewString(fields...).IsSuperset(argset) { return true, nil } glog.V(5).Infof("DBG: fields is not a superset of args: fields=%v args=%v", fields, args) } return false, nil } // Executes the rule check using the "-C" flag func (runner *runner) checkRuleUsingCheck(args []string) (bool, error) { out, err := runner.run(opCheckRule, args) if err == nil { return true, nil } if ee, ok := err.(utilexec.ExitError); ok { // iptables uses exit(1) to indicate a failure of the operation, // as compared to a malformed commandline, for example. if ee.Exited() && ee.ExitStatus() == 1 { return false, nil } } return false, fmt.Errorf("error checking rule: %v: %s", err, out) } type operation string const ( opCreateChain operation = "-N" opFlushChain operation = "-F" opDeleteChain operation = "-X" opAppendRule operation = "-A" opCheckRule operation = "-C" opDeleteRule operation = "-D" ) func makeFullArgs(table Table, chain Chain, args ...string) []string { return append([]string{string(chain), "-t", string(table)}, args...) } // Checks if iptables has the "-C" flag func getIPTablesHasCheckCommand(vstring string) bool { minVersion, err := utilversion.ParseGeneric(MinCheckVersion) if err != nil { glog.Errorf("MinCheckVersion (%s) is not a valid version string: %v", MinCheckVersion, err) return true } version, err := utilversion.ParseGeneric(vstring) if err != nil { glog.Errorf("vstring (%s) is not a valid version string: %v", vstring, err) return true } return version.AtLeast(minVersion) } // Checks if iptables version has a "wait" flag func getIPTablesWaitFlag(vstring string) []string { version, err := utilversion.ParseGeneric(vstring) if err != nil { glog.Errorf("vstring (%s) is not a valid version string: %v", vstring, err) return nil } minVersion, err := utilversion.ParseGeneric(WaitMinVersion) if err != nil { glog.Errorf("WaitMinVersion (%s) is not a valid version string: %v", WaitMinVersion, err) return nil } if version.LessThan(minVersion) { return nil } minVersion, err = utilversion.ParseGeneric(WaitSecondsMinVersion) if err != nil { glog.Errorf("WaitSecondsMinVersion (%s) is not a valid version string: %v", WaitSecondsMinVersion, err) return nil } if version.LessThan(minVersion) { return []string{WaitString} } else { return []string{WaitSecondsString} } } // getIPTablesVersionString runs "iptables --version" to get the version string // in the form "X.X.X" func getIPTablesVersionString(exec utilexec.Interface, protocol Protocol) (string, error) { // this doesn't access mutable state so we don't need to use the interface / runner iptablesCmd := iptablesCommand(protocol) bytes, err := exec.Command(iptablesCmd, "--version").CombinedOutput() if err != nil { return "", err } versionMatcher := regexp.MustCompile("v([0-9]+(\\.[0-9]+)+)") match := versionMatcher.FindStringSubmatch(string(bytes)) if match == nil { return "", fmt.Errorf("no iptables version found in string: %s", bytes) } return match[1], nil } // Checks if iptables-restore has a "wait" flag // --wait support landed in v1.6.1+ right before --version support, so // any version of iptables-restore that supports --version will also // support --wait func getIPTablesRestoreWaitFlag(exec utilexec.Interface, protocol Protocol) []string { vstring, err := getIPTablesRestoreVersionString(exec, protocol) if err != nil || vstring == "" { glog.V(3).Infof("couldn't get iptables-restore version; assuming it doesn't support --wait") return nil } if _, err := utilversion.ParseGeneric(vstring); err != nil { glog.V(3).Infof("couldn't parse iptables-restore version; assuming it doesn't support --wait") return nil } return []string{WaitSecondsString} } // getIPTablesRestoreVersionString runs "iptables-restore --version" to get the version string // in the form "X.X.X" func getIPTablesRestoreVersionString(exec utilexec.Interface, protocol Protocol) (string, error) { // this doesn't access mutable state so we don't need to use the interface / runner // iptables-restore hasn't always had --version, and worse complains // about unrecognized commands but doesn't exit when it gets them. // Work around that by setting stdin to nothing so it exits immediately. iptablesRestoreCmd := iptablesRestoreCommand(protocol) cmd := exec.Command(iptablesRestoreCmd, "--version") cmd.SetStdin(bytes.NewReader([]byte{})) bytes, err := cmd.CombinedOutput() if err != nil { return "", err } versionMatcher := regexp.MustCompile("v([0-9]+(\\.[0-9]+)+)") match := versionMatcher.FindStringSubmatch(string(bytes)) if match == nil { return "", fmt.Errorf("no iptables version found in string: %s", bytes) } return match[1], nil } // goroutine to listen for D-Bus signals func (runner *runner) dbusSignalHandler(bus utildbus.Connection) { firewalld := bus.Object(firewalldName, firewalldPath) for s := range runner.signal { if s == nil { // Unregister bus.Signal(runner.signal) return } switch s.Name { case "org.freedesktop.DBus.NameOwnerChanged": name := s.Body[0].(string) new_owner := s.Body[2].(string) if name != firewalldName || len(new_owner) == 0 { continue } // FirewallD startup (specifically the part where it deletes // all existing iptables rules) may not yet be complete when // we get this signal, so make a dummy request to it to // synchronize. firewalld.Call(firewalldInterface+".getDefaultZone", 0) runner.reload() case firewalldInterface + ".Reloaded": runner.reload() } } } // AddReloadFunc is part of Interface func (runner *runner) AddReloadFunc(reloadFunc func()) { runner.reloadFuncs = append(runner.reloadFuncs, reloadFunc) } // runs all reload funcs to re-sync iptables rules func (runner *runner) reload() { glog.V(1).Infof("reloading iptables rules") for _, f := range runner.reloadFuncs { f() } } // IsNotFoundError returns true if the error indicates "not found". It parses // the error string looking for known values, which is imperfect but works in // practice. func IsNotFoundError(err error) bool { es := err.Error() if strings.Contains(es, "No such file or directory") { return true } if strings.Contains(es, "No chain/target/match by that name") { return true } return false }