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ca455ac84b
netaddr allocated at the time this was written. No longer. name old time/op new time/op delta TailscaleServiceAddr-4 5.46ns ± 4% 1.83ns ± 3% -66.52% (p=0.008 n=5+5) A bunch of the others can probably be simplified too, but this was the only one with just an IP and not an IPPrefix. Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
172 lines
5.2 KiB
Go
172 lines
5.2 KiB
Go
// Copyright (c) 2020 Tailscale Inc & AUTHORS All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package tsaddr handles Tailscale-specific IPs and ranges.
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package tsaddr
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import (
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"sync"
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"inet.af/netaddr"
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)
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// ChromeOSVMRange returns the subset of the CGNAT IPv4 range used by
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// ChromeOS to interconnect the host OS to containers and VMs. We
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// avoid allocating Tailscale IPs from it, to avoid conflicts.
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func ChromeOSVMRange() netaddr.IPPrefix {
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chromeOSRange.Do(func() { mustPrefix(&chromeOSRange.v, "100.115.92.0/23") })
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return chromeOSRange.v
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}
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var chromeOSRange oncePrefix
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// CGNATRange returns the Carrier Grade NAT address range that
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// is the superset range that Tailscale assigns out of.
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// See https://tailscale.com/kb/1015/100.x-addresses.
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// Note that Tailscale does not assign out of the ChromeOSVMRange.
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func CGNATRange() netaddr.IPPrefix {
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cgnatRange.Do(func() { mustPrefix(&cgnatRange.v, "100.64.0.0/10") })
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return cgnatRange.v
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}
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var (
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cgnatRange oncePrefix
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ulaRange oncePrefix
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tsUlaRange oncePrefix
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ula4To6Range oncePrefix
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ulaEph6Range oncePrefix
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)
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// TailscaleServiceIP returns the listen address of services
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// provided by Tailscale itself such as the MagicDNS proxy.
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func TailscaleServiceIP() netaddr.IP {
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return netaddr.IPv4(100, 100, 100, 100) // "100.100.100.100" for those grepping
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}
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// IsTailscaleIP reports whether ip is an IP address in a range that
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// Tailscale assigns from.
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func IsTailscaleIP(ip netaddr.IP) bool {
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if ip.Is4() {
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return CGNATRange().Contains(ip) && !ChromeOSVMRange().Contains(ip)
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}
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return TailscaleULARange().Contains(ip)
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}
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// TailscaleULARange returns the IPv6 Unique Local Address range that
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// is the superset range that Tailscale assigns out of.
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func TailscaleULARange() netaddr.IPPrefix {
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tsUlaRange.Do(func() { mustPrefix(&tsUlaRange.v, "fd7a:115c:a1e0::/48") })
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return tsUlaRange.v
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}
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// Tailscale4To6Range returns the subset of TailscaleULARange used for
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// auto-translated Tailscale ipv4 addresses.
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func Tailscale4To6Range() netaddr.IPPrefix {
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// This IP range has no significance, beyond being a subset of
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// TailscaleULARange. The bits from /48 to /104 were picked at
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// random.
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ula4To6Range.Do(func() { mustPrefix(&ula4To6Range.v, "fd7a:115c:a1e0:ab12:4843:cd96:6200::/104") })
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return ula4To6Range.v
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}
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// TailscaleEphemeral6Range returns the subset of TailscaleULARange
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// used for ephemeral IPv6-only Tailscale nodes.
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func TailscaleEphemeral6Range() netaddr.IPPrefix {
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// This IP range has no significance, beyond being a subset of
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// TailscaleULARange. The bits from /48 to /64 were picked at
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// random, with the only criterion being to not be the conflict
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// with the Tailscale4To6Range above.
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ulaEph6Range.Do(func() { mustPrefix(&ulaEph6Range.v, "fd7a:115c:a1e0:efe3::/64") })
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return ulaEph6Range.v
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}
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// Tailscale4To6Placeholder returns an IP address that can be used as
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// a source IP when one is required, but a netmap didn't provide
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// any. This address never gets allocated by the 4-to-6 algorithm in
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// control.
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//
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// Currently used to work around a Windows limitation when programming
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// IPv6 routes in corner cases.
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func Tailscale4To6Placeholder() netaddr.IP {
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return Tailscale4To6Range().IP()
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}
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// Tailscale4To6 returns a Tailscale IPv6 address that maps 1:1 to the
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// given Tailscale IPv4 address. Returns a zero IP if ipv4 isn't a
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// Tailscale IPv4 address.
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func Tailscale4To6(ipv4 netaddr.IP) netaddr.IP {
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if !ipv4.Is4() || !IsTailscaleIP(ipv4) {
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return netaddr.IP{}
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}
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ret := Tailscale4To6Range().IP().As16()
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v4 := ipv4.As4()
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copy(ret[13:], v4[1:])
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return netaddr.IPFrom16(ret)
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}
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func IsULA(ip netaddr.IP) bool {
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ulaRange.Do(func() { mustPrefix(&ulaRange.v, "fc00::/7") })
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return ulaRange.v.Contains(ip)
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}
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func mustPrefix(v *netaddr.IPPrefix, prefix string) {
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var err error
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*v, err = netaddr.ParseIPPrefix(prefix)
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if err != nil {
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panic(err)
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}
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}
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type oncePrefix struct {
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sync.Once
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v netaddr.IPPrefix
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}
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// NewContainsIPFunc returns a func that reports whether ip is in addrs.
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//
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// It's optimized for the cases of addrs being empty and addrs
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// containing 1 or 2 single-IP prefixes (such as one IPv4 address and
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// one IPv6 address).
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//
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// Otherwise the implementation is somewhat slow.
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func NewContainsIPFunc(addrs []netaddr.IPPrefix) func(ip netaddr.IP) bool {
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// Specialize the three common cases: no address, just IPv4
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// (or just IPv6), and both IPv4 and IPv6.
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if len(addrs) == 0 {
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return func(netaddr.IP) bool { return false }
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}
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// If any addr is more than a single IP, then just do the slow
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// linear thing until
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// https://github.com/inetaf/netaddr/issues/139 is done.
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for _, a := range addrs {
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if a.IsSingleIP() {
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continue
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}
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acopy := append([]netaddr.IPPrefix(nil), addrs...)
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return func(ip netaddr.IP) bool {
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for _, a := range acopy {
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if a.Contains(ip) {
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return true
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}
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}
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return false
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}
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}
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// Fast paths for 1 and 2 IPs:
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if len(addrs) == 1 {
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a := addrs[0]
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return func(ip netaddr.IP) bool { return ip == a.IP() }
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}
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if len(addrs) == 2 {
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a, b := addrs[0], addrs[1]
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return func(ip netaddr.IP) bool { return ip == a.IP() || ip == b.IP() }
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}
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// General case:
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m := map[netaddr.IP]bool{}
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for _, a := range addrs {
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m[a.IP()] = true
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}
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return func(ip netaddr.IP) bool { return m[ip] }
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}
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