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tailscale/util/linuxfw/linuxfw.go

181 lines
5.3 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
// Package linuxfw returns the kind of firewall being used by the kernel.
//go:build linux
package linuxfw
import (
"bytes"
"errors"
"fmt"
"os"
"os/exec"
"strconv"
"strings"
"github.com/tailscale/netlink"
"tailscale.com/types/logger"
)
// The following bits are added to packet marks for Tailscale use.
//
// We tried to pick bits sufficiently out of the way that it's
// unlikely to collide with existing uses. We have 4 bytes of mark
// bits to play with. We leave the lower byte alone on the assumption
// that sysadmins would use those. Kubernetes uses a few bits in the
// second byte, so we steer clear of that too.
//
// Empirically, most of the documentation on packet marks on the
// internet gives the impression that the marks are 16 bits
// wide. Based on this, we theorize that the upper two bytes are
// relatively unused in the wild, and so we consume bits 16:23 (the
// third byte).
//
// The constants are in the iptables/iproute2 string format for
// matching and setting the bits, so they can be directly embedded in
// commands.
const (
// The mask for reading/writing the 'firewall mask' bits on a packet.
// See the comment on the const block on why we only use the third byte.
//
// We claim bits 16:23 entirely. For now we only use the lower four
// bits, leaving the higher 4 bits for future use.
TailscaleFwmarkMask = "0xff0000"
TailscaleFwmarkMaskNeg = "0xff00ffff"
TailscaleFwmarkMaskNum = 0xff0000
// Packet is from Tailscale and to a subnet route destination, so
// is allowed to be routed through this machine.
TailscaleSubnetRouteMark = "0x40000"
TailscaleSubnetRouteMarkNum = 0x40000
// This one is same value but padded to even number of digit, so
// hex decoding can work correctly.
TailscaleSubnetRouteMarkHexStr = "0x040000"
// Packet was originated by tailscaled itself, and must not be
// routed over the Tailscale network.
TailscaleBypassMark = "0x80000"
TailscaleBypassMarkNum = 0x80000
)
// errCode extracts and returns the process exit code from err, or
// zero if err is nil.
func errCode(err error) int {
if err == nil {
return 0
}
var e *exec.ExitError
if ok := errors.As(err, &e); ok {
return e.ExitCode()
}
s := err.Error()
if strings.HasPrefix(s, "exitcode:") {
code, err := strconv.Atoi(s[9:])
if err == nil {
return code
}
}
return -42
}
// checkIPv6 checks whether the system appears to have a working IPv6
// network stack. It returns an error explaining what looks wrong or
// missing. It does not check that IPv6 is currently functional or
// that there's a global address, just that the system would support
// IPv6 if it were on an IPv6 network.
func checkIPv6(logf logger.Logf) error {
_, err := os.Stat("/proc/sys/net/ipv6")
if os.IsNotExist(err) {
return err
}
bs, err := os.ReadFile("/proc/sys/net/ipv6/conf/all/disable_ipv6")
if err != nil {
// Be conservative if we can't find the IPv6 configuration knob.
return err
}
disabled, err := strconv.ParseBool(strings.TrimSpace(string(bs)))
if err != nil {
return errors.New("disable_ipv6 has invalid bool")
}
if disabled {
return errors.New("disable_ipv6 is set")
}
// Older kernels don't support IPv6 policy routing. Some kernels
// support policy routing but don't have this knob, so absence of
// the knob is not fatal.
bs, err = os.ReadFile("/proc/sys/net/ipv6/conf/all/disable_policy")
if err == nil {
disabled, err = strconv.ParseBool(strings.TrimSpace(string(bs)))
if err != nil {
return errors.New("disable_policy has invalid bool")
}
if disabled {
return errors.New("disable_policy is set")
}
}
if err := CheckIPRuleSupportsV6(logf); err != nil {
return fmt.Errorf("kernel doesn't support IPv6 policy routing: %w", err)
}
// Some distros ship ip6tables separately from iptables.
if _, err := exec.LookPath("ip6tables"); err != nil {
return err
}
return nil
}
// checkSupportsV6NAT returns whether the system has a "nat" table in the
// IPv6 netfilter stack.
//
// The nat table was added after the initial release of ipv6
// netfilter, so some older distros ship a kernel that can't NAT IPv6
// traffic.
func checkSupportsV6NAT() bool {
bs, err := os.ReadFile("/proc/net/ip6_tables_names")
if err != nil {
// Can't read the file. Assume SNAT works.
return true
}
if bytes.Contains(bs, []byte("nat\n")) {
return true
}
// In nftables mode, that proc file will be empty. Try another thing:
if exec.Command("modprobe", "ip6table_nat").Run() == nil {
return true
}
return false
}
func CheckIPRuleSupportsV6(logf logger.Logf) error {
// First try just a read-only operation to ideally avoid
// having to modify any state.
if rules, err := netlink.RuleList(netlink.FAMILY_V6); err != nil {
return fmt.Errorf("querying IPv6 policy routing rules: %w", err)
} else {
if len(rules) > 0 {
logf("[v1] kernel supports IPv6 policy routing (found %d rules)", len(rules))
return nil
}
}
// Try to actually create & delete one as a test.
rule := netlink.NewRule()
rule.Priority = 1234
rule.Mark = TailscaleBypassMarkNum
rule.Table = 52
rule.Family = netlink.FAMILY_V6
// First delete the rule unconditionally, and don't check for
// errors. This is just cleaning up anything that might be already
// there.
netlink.RuleDel(rule)
// And clean up on exit.
defer netlink.RuleDel(rule)
return netlink.RuleAdd(rule)
}