// +build linux package iptables import ( "errors" "fmt" "net" "os/exec" "regexp" "strconv" "strings" "sync" "time" "github.com/sirupsen/logrus" ) // Action signifies the iptable action. type Action string // Policy is the default iptable policies type Policy string // Table refers to Nat, Filter or Mangle. type Table string // IPVersion refers to IP version, v4 or v6 type IPVersion string const ( // Append appends the rule at the end of the chain. Append Action = "-A" // Delete deletes the rule from the chain. Delete Action = "-D" // Insert inserts the rule at the top of the chain. Insert Action = "-I" // Nat table is used for nat translation rules. Nat Table = "nat" // Filter table is used for filter rules. Filter Table = "filter" // Mangle table is used for mangling the packet. Mangle Table = "mangle" // Drop is the default iptables DROP policy Drop Policy = "DROP" // Accept is the default iptables ACCEPT policy Accept Policy = "ACCEPT" // IPv4 is version 4 IPv4 IPVersion = "IPV4" // IPv6 is version 6 IPv6 IPVersion = "IPV6" ) var ( iptablesPath string ip6tablesPath string supportsXlock = false supportsCOpt = false xLockWaitMsg = "Another app is currently holding the xtables lock" // used to lock iptables commands if xtables lock is not supported bestEffortLock sync.Mutex // ErrIptablesNotFound is returned when the rule is not found. ErrIptablesNotFound = errors.New("Iptables not found") initOnce sync.Once ) // IPTable defines struct with IPVersion type IPTable struct { Version IPVersion } // ChainInfo defines the iptables chain. type ChainInfo struct { Name string Table Table HairpinMode bool IPTable IPTable } // ChainError is returned to represent errors during ip table operation. type ChainError struct { Chain string Output []byte } func (e ChainError) Error() string { return fmt.Sprintf("Error iptables %s: %s", e.Chain, string(e.Output)) } func probe() { path, err := exec.LookPath("iptables") if err != nil { logrus.Warnf("Failed to find iptables: %v", err) return } if out, err := exec.Command(path, "--wait", "-t", "nat", "-L", "-n").CombinedOutput(); err != nil { logrus.Warnf("Running iptables --wait -t nat -L -n failed with message: `%s`, error: %v", strings.TrimSpace(string(out)), err) } _, err = exec.LookPath("ip6tables") if err != nil { logrus.Warnf("Failed to find ip6tables: %v", err) return } } func initFirewalld() { if err := FirewalldInit(); err != nil { logrus.Debugf("Fail to initialize firewalld: %v, using raw iptables instead", err) } } func detectIptables() { path, err := exec.LookPath("iptables") if err != nil { return } iptablesPath = path path, err = exec.LookPath("ip6tables") if err != nil { return } ip6tablesPath = path supportsXlock = exec.Command(iptablesPath, "--wait", "-L", "-n").Run() == nil mj, mn, mc, err := GetVersion() if err != nil { logrus.Warnf("Failed to read iptables version: %v", err) return } supportsCOpt = supportsCOption(mj, mn, mc) } func initDependencies() { probe() initFirewalld() detectIptables() } func initCheck() error { initOnce.Do(initDependencies) if iptablesPath == "" { return ErrIptablesNotFound } return nil } // GetIptable returns an instance of IPTable with specified version func GetIptable(version IPVersion) *IPTable { return &IPTable{Version: version} } // NewChain adds a new chain to ip table. func (iptable IPTable) NewChain(name string, table Table, hairpinMode bool) (*ChainInfo, error) { c := &ChainInfo{ Name: name, Table: table, HairpinMode: hairpinMode, IPTable: iptable, } if string(c.Table) == "" { c.Table = Filter } // Add chain if it doesn't exist if _, err := iptable.Raw("-t", string(c.Table), "-n", "-L", c.Name); err != nil { if output, err := iptable.Raw("-t", string(c.Table), "-N", c.Name); err != nil { return nil, err } else if len(output) != 0 { return nil, fmt.Errorf("Could not create %s/%s chain: %s", c.Table, c.Name, output) } } return c, nil } // LoopbackByVersion returns loopback address by version func (iptable IPTable) LoopbackByVersion() string { if iptable.Version == IPv6 { return "::1/128" } return "127.0.0.0/8" } // ProgramChain is used to add rules to a chain func (iptable IPTable) ProgramChain(c *ChainInfo, bridgeName string, hairpinMode, enable bool) error { if c.Name == "" { return errors.New("Could not program chain, missing chain name") } // Either add or remove the interface from the firewalld zone if firewalldRunning { if enable { if err := AddInterfaceFirewalld(bridgeName); err != nil { return err } } else { if err := DelInterfaceFirewalld(bridgeName); err != nil { return err } } } switch c.Table { case Nat: preroute := []string{ "-m", "addrtype", "--dst-type", "LOCAL", "-j", c.Name} if !iptable.Exists(Nat, "PREROUTING", preroute...) && enable { if err := c.Prerouting(Append, preroute...); err != nil { return fmt.Errorf("Failed to inject %s in PREROUTING chain: %s", c.Name, err) } } else if iptable.Exists(Nat, "PREROUTING", preroute...) && !enable { if err := c.Prerouting(Delete, preroute...); err != nil { return fmt.Errorf("Failed to remove %s in PREROUTING chain: %s", c.Name, err) } } output := []string{ "-m", "addrtype", "--dst-type", "LOCAL", "-j", c.Name} if !hairpinMode { output = append(output, "!", "--dst", iptable.LoopbackByVersion()) } if !iptable.Exists(Nat, "OUTPUT", output...) && enable { if err := c.Output(Append, output...); err != nil { return fmt.Errorf("Failed to inject %s in OUTPUT chain: %s", c.Name, err) } } else if iptable.Exists(Nat, "OUTPUT", output...) && !enable { if err := c.Output(Delete, output...); err != nil { return fmt.Errorf("Failed to inject %s in OUTPUT chain: %s", c.Name, err) } } case Filter: if bridgeName == "" { return fmt.Errorf("Could not program chain %s/%s, missing bridge name", c.Table, c.Name) } link := []string{ "-o", bridgeName, "-j", c.Name} if !iptable.Exists(Filter, "FORWARD", link...) && enable { insert := append([]string{string(Insert), "FORWARD"}, link...) if output, err := iptable.Raw(insert...); err != nil { return err } else if len(output) != 0 { return fmt.Errorf("Could not create linking rule to %s/%s: %s", c.Table, c.Name, output) } } else if iptable.Exists(Filter, "FORWARD", link...) && !enable { del := append([]string{string(Delete), "FORWARD"}, link...) if output, err := iptable.Raw(del...); err != nil { return err } else if len(output) != 0 { return fmt.Errorf("Could not delete linking rule from %s/%s: %s", c.Table, c.Name, output) } } establish := []string{ "-o", bridgeName, "-m", "conntrack", "--ctstate", "RELATED,ESTABLISHED", "-j", "ACCEPT"} if !iptable.Exists(Filter, "FORWARD", establish...) && enable { insert := append([]string{string(Insert), "FORWARD"}, establish...) if output, err := iptable.Raw(insert...); err != nil { return err } else if len(output) != 0 { return fmt.Errorf("Could not create establish rule to %s: %s", c.Table, output) } } else if iptable.Exists(Filter, "FORWARD", establish...) && !enable { del := append([]string{string(Delete), "FORWARD"}, establish...) if output, err := iptable.Raw(del...); err != nil { return err } else if len(output) != 0 { return fmt.Errorf("Could not delete establish rule from %s: %s", c.Table, output) } } } return nil } // RemoveExistingChain removes existing chain from the table. func (iptable IPTable) RemoveExistingChain(name string, table Table) error { c := &ChainInfo{ Name: name, Table: table, IPTable: iptable, } if string(c.Table) == "" { c.Table = Filter } return c.Remove() } // Forward adds forwarding rule to 'filter' table and corresponding nat rule to 'nat' table. func (c *ChainInfo) Forward(action Action, ip net.IP, port int, proto, destAddr string, destPort int, bridgeName string) error { iptable := GetIptable(c.IPTable.Version) daddr := ip.String() if ip.IsUnspecified() { // iptables interprets "0.0.0.0" as "0.0.0.0/32", whereas we // want "0.0.0.0/0". "0/0" is correctly interpreted as "any // value" by both iptables and ip6tables. daddr = "0/0" } args := []string{ "-p", proto, "-d", daddr, "--dport", strconv.Itoa(port), "-j", "DNAT", "--to-destination", net.JoinHostPort(destAddr, strconv.Itoa(destPort))} if !c.HairpinMode { args = append(args, "!", "-i", bridgeName) } if err := iptable.ProgramRule(Nat, c.Name, action, args); err != nil { return err } args = []string{ "!", "-i", bridgeName, "-o", bridgeName, "-p", proto, "-d", destAddr, "--dport", strconv.Itoa(destPort), "-j", "ACCEPT", } if err := iptable.ProgramRule(Filter, c.Name, action, args); err != nil { return err } args = []string{ "-p", proto, "-s", destAddr, "-d", destAddr, "--dport", strconv.Itoa(destPort), "-j", "MASQUERADE", } if err := iptable.ProgramRule(Nat, "POSTROUTING", action, args); err != nil { return err } if proto == "sctp" { // Linux kernel v4.9 and below enables NETIF_F_SCTP_CRC for veth by // the following commit. // This introduces a problem when conbined with a physical NIC without // NETIF_F_SCTP_CRC. As for a workaround, here we add an iptables entry // to fill the checksum. // // https://github.com/torvalds/linux/commit/c80fafbbb59ef9924962f83aac85531039395b18 args = []string{ "-p", proto, "--sport", strconv.Itoa(destPort), "-j", "CHECKSUM", "--checksum-fill", } if err := iptable.ProgramRule(Mangle, "POSTROUTING", action, args); err != nil { return err } } return nil } // Link adds reciprocal ACCEPT rule for two supplied IP addresses. // Traffic is allowed from ip1 to ip2 and vice-versa func (c *ChainInfo) Link(action Action, ip1, ip2 net.IP, port int, proto string, bridgeName string) error { iptable := GetIptable(c.IPTable.Version) // forward args := []string{ "-i", bridgeName, "-o", bridgeName, "-p", proto, "-s", ip1.String(), "-d", ip2.String(), "--dport", strconv.Itoa(port), "-j", "ACCEPT", } if err := iptable.ProgramRule(Filter, c.Name, action, args); err != nil { return err } // reverse args[7], args[9] = args[9], args[7] args[10] = "--sport" return iptable.ProgramRule(Filter, c.Name, action, args) } // ProgramRule adds the rule specified by args only if the // rule is not already present in the chain. Reciprocally, // it removes the rule only if present. func (iptable IPTable) ProgramRule(table Table, chain string, action Action, args []string) error { if iptable.Exists(table, chain, args...) != (action == Delete) { return nil } return iptable.RawCombinedOutput(append([]string{"-t", string(table), string(action), chain}, args...)...) } // Prerouting adds linking rule to nat/PREROUTING chain. func (c *ChainInfo) Prerouting(action Action, args ...string) error { iptable := GetIptable(c.IPTable.Version) a := []string{"-t", string(Nat), string(action), "PREROUTING"} if len(args) > 0 { a = append(a, args...) } if output, err := iptable.Raw(a...); err != nil { return err } else if len(output) != 0 { return ChainError{Chain: "PREROUTING", Output: output} } return nil } // Output adds linking rule to an OUTPUT chain. func (c *ChainInfo) Output(action Action, args ...string) error { iptable := GetIptable(c.IPTable.Version) a := []string{"-t", string(c.Table), string(action), "OUTPUT"} if len(args) > 0 { a = append(a, args...) } if output, err := iptable.Raw(a...); err != nil { return err } else if len(output) != 0 { return ChainError{Chain: "OUTPUT", Output: output} } return nil } // Remove removes the chain. func (c *ChainInfo) Remove() error { iptable := GetIptable(c.IPTable.Version) // Ignore errors - This could mean the chains were never set up if c.Table == Nat { c.Prerouting(Delete, "-m", "addrtype", "--dst-type", "LOCAL", "-j", c.Name) c.Output(Delete, "-m", "addrtype", "--dst-type", "LOCAL", "!", "--dst", iptable.LoopbackByVersion(), "-j", c.Name) c.Output(Delete, "-m", "addrtype", "--dst-type", "LOCAL", "-j", c.Name) // Created in versions <= 0.1.6 c.Prerouting(Delete) c.Output(Delete) } iptable.Raw("-t", string(c.Table), "-F", c.Name) iptable.Raw("-t", string(c.Table), "-X", c.Name) return nil } // Exists checks if a rule exists func (iptable IPTable) Exists(table Table, chain string, rule ...string) bool { return iptable.exists(false, table, chain, rule...) } // ExistsNative behaves as Exists with the difference it // will always invoke `iptables` binary. func (iptable IPTable) ExistsNative(table Table, chain string, rule ...string) bool { return iptable.exists(true, table, chain, rule...) } func (iptable IPTable) exists(native bool, table Table, chain string, rule ...string) bool { f := iptable.Raw if native { f = iptable.raw } if string(table) == "" { table = Filter } if err := initCheck(); err != nil { // The exists() signature does not allow us to return an error, but at least // we can skip the (likely invalid) exec invocation. return false } if supportsCOpt { // if exit status is 0 then return true, the rule exists _, err := f(append([]string{"-t", string(table), "-C", chain}, rule...)...) return err == nil } // parse "iptables -S" for the rule (it checks rules in a specific chain // in a specific table and it is very unreliable) return iptable.existsRaw(table, chain, rule...) } func (iptable IPTable) existsRaw(table Table, chain string, rule ...string) bool { path := iptablesPath if iptable.Version == IPv6 { path = ip6tablesPath } ruleString := fmt.Sprintf("%s %s\n", chain, strings.Join(rule, " ")) existingRules, _ := exec.Command(path, "-t", string(table), "-S", chain).Output() return strings.Contains(string(existingRules), ruleString) } // Maximum duration that an iptables operation can take // before flagging a warning. const opWarnTime = 2 * time.Second func filterOutput(start time.Time, output []byte, args ...string) []byte { // Flag operations that have taken a long time to complete opTime := time.Since(start) if opTime > opWarnTime { logrus.Warnf("xtables contention detected while running [%s]: Waited for %.2f seconds and received %q", strings.Join(args, " "), float64(opTime)/float64(time.Second), string(output)) } // ignore iptables' message about xtables lock: // it is a warning, not an error. if strings.Contains(string(output), xLockWaitMsg) { output = []byte("") } // Put further filters here if desired return output } // Raw calls 'iptables' system command, passing supplied arguments. func (iptable IPTable) Raw(args ...string) ([]byte, error) { if firewalldRunning { // select correct IP version for firewalld ipv := Iptables if iptable.Version == IPv6 { ipv = IP6Tables } startTime := time.Now() output, err := Passthrough(ipv, args...) if err == nil || !strings.Contains(err.Error(), "was not provided by any .service files") { return filterOutput(startTime, output, args...), err } } return iptable.raw(args...) } func (iptable IPTable) raw(args ...string) ([]byte, error) { if err := initCheck(); err != nil { return nil, err } if supportsXlock { args = append([]string{"--wait"}, args...) } else { bestEffortLock.Lock() defer bestEffortLock.Unlock() } path := iptablesPath commandName := "iptables" if iptable.Version == IPv6 { path = ip6tablesPath commandName = "ip6tables" } logrus.Debugf("%s, %v", path, args) startTime := time.Now() output, err := exec.Command(path, args...).CombinedOutput() if err != nil { return nil, fmt.Errorf("iptables failed: %s %v: %s (%s)", commandName, strings.Join(args, " "), output, err) } return filterOutput(startTime, output, args...), err } // RawCombinedOutput internally calls the Raw function and returns a non nil // error if Raw returned a non nil error or a non empty output func (iptable IPTable) RawCombinedOutput(args ...string) error { if output, err := iptable.Raw(args...); err != nil || len(output) != 0 { return fmt.Errorf("%s (%v)", string(output), err) } return nil } // RawCombinedOutputNative behave as RawCombinedOutput with the difference it // will always invoke `iptables` binary func (iptable IPTable) RawCombinedOutputNative(args ...string) error { if output, err := iptable.raw(args...); err != nil || len(output) != 0 { return fmt.Errorf("%s (%v)", string(output), err) } return nil } // ExistChain checks if a chain exists func (iptable IPTable) ExistChain(chain string, table Table) bool { if _, err := iptable.Raw("-t", string(table), "-nL", chain); err == nil { return true } return false } // GetVersion reads the iptables version numbers during initialization func GetVersion() (major, minor, micro int, err error) { out, err := exec.Command(iptablesPath, "--version").CombinedOutput() if err == nil { major, minor, micro = parseVersionNumbers(string(out)) } return } // SetDefaultPolicy sets the passed default policy for the table/chain func (iptable IPTable) SetDefaultPolicy(table Table, chain string, policy Policy) error { if err := iptable.RawCombinedOutput("-t", string(table), "-P", chain, string(policy)); err != nil { return fmt.Errorf("setting default policy to %v in %v chain failed: %v", policy, chain, err) } return nil } func parseVersionNumbers(input string) (major, minor, micro int) { re := regexp.MustCompile(`v\d*.\d*.\d*`) line := re.FindString(input) fmt.Sscanf(line, "v%d.%d.%d", &major, &minor, µ) return } // iptables -C, --check option was added in v.1.4.11 // http://ftp.netfilter.org/pub/iptables/changes-iptables-1.4.11.txt func supportsCOption(mj, mn, mc int) bool { return mj > 1 || (mj == 1 && (mn > 4 || (mn == 4 && mc >= 11))) } // AddReturnRule adds a return rule for the chain in the filter table func (iptable IPTable) AddReturnRule(chain string) error { var ( table = Filter args = []string{"-j", "RETURN"} ) if iptable.Exists(table, chain, args...) { return nil } err := iptable.RawCombinedOutput(append([]string{"-A", chain}, args...)...) if err != nil { return fmt.Errorf("unable to add return rule in %s chain: %s", chain, err.Error()) } return nil } // EnsureJumpRule ensures the jump rule is on top func (iptable IPTable) EnsureJumpRule(fromChain, toChain string) error { var ( table = Filter args = []string{"-j", toChain} ) if iptable.Exists(table, fromChain, args...) { err := iptable.RawCombinedOutput(append([]string{"-D", fromChain}, args...)...) if err != nil { return fmt.Errorf("unable to remove jump to %s rule in %s chain: %s", toChain, fromChain, err.Error()) } } err := iptable.RawCombinedOutput(append([]string{"-I", fromChain}, args...)...) if err != nil { return fmt.Errorf("unable to insert jump to %s rule in %s chain: %s", toChain, fromChain, err.Error()) } return nil }