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581 lines
15 KiB
Go
581 lines
15 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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// TODO(bradfitz): update this code to use netaddr more
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// Package dnscache contains a minimal DNS cache that makes a bunch of
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// assumptions that are only valid for us. Not recommended for general use.
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package dnscache
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import (
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"context"
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"crypto/tls"
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"errors"
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"fmt"
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"log"
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"net"
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"runtime"
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"sync"
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"time"
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"golang.org/x/sync/singleflight"
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"inet.af/netaddr"
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"tailscale.com/envknob"
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)
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var single = &Resolver{
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Forward: &net.Resolver{PreferGo: preferGoResolver()},
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}
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func preferGoResolver() bool {
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// There does not appear to be a local resolver running
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// on iOS, and NetworkExtension is good at isolating DNS.
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// So do not use the Go resolver on macOS/iOS.
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if runtime.GOOS == "darwin" || runtime.GOOS == "ios" {
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return false
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}
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// The local resolver is not available on Android.
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if runtime.GOOS == "android" {
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return false
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}
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// Otherwise, the Go resolver is fine and slightly preferred
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// since it's lighter, not using cgo calls & threads.
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return true
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}
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// Get returns a caching Resolver singleton.
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func Get() *Resolver { return single }
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// Resolver is a minimal DNS caching resolver.
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//
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// The TTL is always fixed for now. It's not intended for general use.
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// Cache entries are never cleaned up so it's intended that this is
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// only used with a fixed set of hostnames.
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type Resolver struct {
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// Forward is the resolver to use to populate the cache.
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// If nil, net.DefaultResolver is used.
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Forward *net.Resolver
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// LookupIPFallback optionally provides a backup DNS mechanism
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// to use if Forward returns an error or no results.
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LookupIPFallback func(ctx context.Context, host string) ([]netaddr.IP, error)
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// TTL is how long to keep entries cached
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//
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// If zero, a default (currently 10 minutes) is used.
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TTL time.Duration
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// UseLastGood controls whether a cached entry older than TTL is used
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// if a refresh fails.
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UseLastGood bool
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sf singleflight.Group
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mu sync.Mutex
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ipCache map[string]ipCacheEntry
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}
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type ipCacheEntry struct {
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ip net.IP // either v4 or v6
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ip6 net.IP // nil if no v4 or no v6
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allIPs []net.IPAddr // 1+ v4 and/or v6
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expires time.Time
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}
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func (r *Resolver) fwd() *net.Resolver {
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if r.Forward != nil {
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return r.Forward
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}
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return net.DefaultResolver
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}
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func (r *Resolver) ttl() time.Duration {
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if r.TTL > 0 {
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return r.TTL
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}
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return 10 * time.Minute
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}
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var debug = envknob.Bool("TS_DEBUG_DNS_CACHE")
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// LookupIP returns the host's primary IP address (either IPv4 or
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// IPv6, but preferring IPv4) and optionally its IPv6 address, if
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// there is both IPv4 and IPv6.
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//
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// If err is nil, ip will be non-nil. The v6 address may be nil even
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// with a nil error.
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func (r *Resolver) LookupIP(ctx context.Context, host string) (ip, v6 net.IP, allIPs []net.IPAddr, err error) {
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if ip := net.ParseIP(host); ip != nil {
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if ip4 := ip.To4(); ip4 != nil {
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return ip4, nil, []net.IPAddr{{IP: ip4}}, nil
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}
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if debug {
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log.Printf("dnscache: %q is an IP", host)
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}
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return ip, nil, []net.IPAddr{{IP: ip}}, nil
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}
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if ip, ip6, allIPs, ok := r.lookupIPCache(host); ok {
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if debug {
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log.Printf("dnscache: %q = %v (cached)", host, ip)
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}
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return ip, ip6, allIPs, nil
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}
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type ipRes struct {
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ip, ip6 net.IP
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allIPs []net.IPAddr
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}
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ch := r.sf.DoChan(host, func() (interface{}, error) {
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ip, ip6, allIPs, err := r.lookupIP(host)
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if err != nil {
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return nil, err
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}
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return ipRes{ip, ip6, allIPs}, nil
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})
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select {
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case res := <-ch:
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if res.Err != nil {
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if r.UseLastGood {
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if ip, ip6, allIPs, ok := r.lookupIPCacheExpired(host); ok {
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if debug {
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log.Printf("dnscache: %q using %v after error", host, ip)
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}
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return ip, ip6, allIPs, nil
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}
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}
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if debug {
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log.Printf("dnscache: error resolving %q: %v", host, res.Err)
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}
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return nil, nil, nil, res.Err
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}
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r := res.Val.(ipRes)
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return r.ip, r.ip6, r.allIPs, nil
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case <-ctx.Done():
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if debug {
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log.Printf("dnscache: context done while resolving %q: %v", host, ctx.Err())
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}
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return nil, nil, nil, ctx.Err()
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}
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}
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func (r *Resolver) lookupIPCache(host string) (ip, ip6 net.IP, allIPs []net.IPAddr, ok bool) {
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r.mu.Lock()
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defer r.mu.Unlock()
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if ent, ok := r.ipCache[host]; ok && ent.expires.After(time.Now()) {
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return ent.ip, ent.ip6, ent.allIPs, true
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}
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return nil, nil, nil, false
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}
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func (r *Resolver) lookupIPCacheExpired(host string) (ip, ip6 net.IP, allIPs []net.IPAddr, ok bool) {
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r.mu.Lock()
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defer r.mu.Unlock()
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if ent, ok := r.ipCache[host]; ok {
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return ent.ip, ent.ip6, ent.allIPs, true
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}
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return nil, nil, nil, false
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}
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func (r *Resolver) lookupTimeoutForHost(host string) time.Duration {
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if r.UseLastGood {
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if _, _, _, ok := r.lookupIPCacheExpired(host); ok {
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// If we have some previous good value for this host,
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// don't give this DNS lookup much time. If we're in a
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// situation where the user's DNS server is unreachable
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// (e.g. their corp DNS server is behind a subnet router
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// that can't come up due to Tailscale needing to
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// connect to itself), then we want to fail fast and let
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// our caller (who set UseLastGood) fall back to using
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// the last-known-good IP address.
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return 3 * time.Second
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}
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}
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return 10 * time.Second
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}
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func (r *Resolver) lookupIP(host string) (ip, ip6 net.IP, allIPs []net.IPAddr, err error) {
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if ip, ip6, allIPs, ok := r.lookupIPCache(host); ok {
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if debug {
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log.Printf("dnscache: %q found in cache as %v", host, ip)
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}
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return ip, ip6, allIPs, nil
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}
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ctx, cancel := context.WithTimeout(context.Background(), r.lookupTimeoutForHost(host))
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defer cancel()
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ips, err := r.fwd().LookupIPAddr(ctx, host)
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if (err != nil || len(ips) == 0) && r.LookupIPFallback != nil {
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ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second)
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defer cancel()
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var fips []netaddr.IP
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fips, err = r.LookupIPFallback(ctx, host)
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if err == nil {
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ips = nil
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for _, fip := range fips {
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ips = append(ips, *fip.IPAddr())
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}
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}
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}
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if err != nil {
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return nil, nil, nil, err
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}
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if len(ips) == 0 {
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return nil, nil, nil, fmt.Errorf("no IPs for %q found", host)
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}
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have4 := false
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for _, ipa := range ips {
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if ip4 := ipa.IP.To4(); ip4 != nil {
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if !have4 {
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ip6 = ip
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ip = ip4
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have4 = true
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}
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} else {
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if have4 {
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ip6 = ipa.IP
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} else {
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ip = ipa.IP
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}
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}
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}
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r.addIPCache(host, ip, ip6, ips, r.ttl())
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return ip, ip6, ips, nil
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}
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func (r *Resolver) addIPCache(host string, ip, ip6 net.IP, allIPs []net.IPAddr, d time.Duration) {
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if naIP, _ := netaddr.FromStdIP(ip); naIP.IsPrivate() {
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// Don't cache obviously wrong entries from captive portals.
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// TODO: use DoH or DoT for the forwarding resolver?
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if debug {
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log.Printf("dnscache: %q resolved to private IP %v; using but not caching", host, ip)
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}
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return
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}
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if debug {
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log.Printf("dnscache: %q resolved to IP %v; caching", host, ip)
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}
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r.mu.Lock()
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defer r.mu.Unlock()
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if r.ipCache == nil {
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r.ipCache = make(map[string]ipCacheEntry)
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}
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r.ipCache[host] = ipCacheEntry{
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ip: ip,
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ip6: ip6,
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allIPs: allIPs,
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expires: time.Now().Add(d),
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}
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}
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type DialContextFunc func(ctx context.Context, network, address string) (net.Conn, error)
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// Dialer returns a wrapped DialContext func that uses the provided dnsCache.
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func Dialer(fwd DialContextFunc, dnsCache *Resolver) DialContextFunc {
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d := &dialer{
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fwd: fwd,
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dnsCache: dnsCache,
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pastConnect: map[netaddr.IP]time.Time{},
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}
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return d.DialContext
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}
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// dialer is the config and accumulated state for a dial func returned by Dialer.
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type dialer struct {
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fwd DialContextFunc
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dnsCache *Resolver
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mu sync.Mutex
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pastConnect map[netaddr.IP]time.Time
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}
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func (d *dialer) DialContext(ctx context.Context, network, address string) (retConn net.Conn, ret error) {
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host, port, err := net.SplitHostPort(address)
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if err != nil {
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// Bogus. But just let the real dialer return an error rather than
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// inventing a similar one.
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return d.fwd(ctx, network, address)
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}
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dc := &dialCall{
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d: d,
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network: network,
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address: address,
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host: host,
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port: port,
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}
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defer func() {
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// On failure, consider that our DNS might be wrong and ask the DNS fallback mechanism for
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// some other IPs to try.
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if ret == nil || d.dnsCache.LookupIPFallback == nil || dc.dnsWasTrustworthy() {
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return
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}
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ips, err := d.dnsCache.LookupIPFallback(ctx, host)
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if err != nil {
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// Return with original error
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return
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}
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if c, err := dc.raceDial(ctx, ips); err == nil {
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retConn = c
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ret = nil
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return
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}
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}()
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ip, ip6, allIPs, err := d.dnsCache.LookupIP(ctx, host)
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if err != nil {
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return nil, fmt.Errorf("failed to resolve %q: %w", host, err)
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}
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i4s := v4addrs(allIPs)
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if len(i4s) < 2 {
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if debug {
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log.Printf("dnscache: dialing %s, %s for %s", network, ip, address)
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}
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ipNA, ok := netaddr.FromStdIP(ip)
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if !ok {
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return nil, fmt.Errorf("invalid IP %q", ip)
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}
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c, err := dc.dialOne(ctx, ipNA)
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if err == nil || ctx.Err() != nil {
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return c, err
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}
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// Fall back to trying IPv6, if any.
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ip6NA, ok := netaddr.FromStdIP(ip6)
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if !ok {
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return nil, err
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}
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return dc.dialOne(ctx, ip6NA)
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}
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// Multiple IPv4 candidates, and 0+ IPv6.
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ipsToTry := append(i4s, v6addrs(allIPs)...)
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return dc.raceDial(ctx, ipsToTry)
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}
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// dialCall is the state around a single call to dial.
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type dialCall struct {
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d *dialer
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network, address, host, port string
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mu sync.Mutex // lock ordering: dialer.mu, then dialCall.mu
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fails map[netaddr.IP]error // set of IPs that failed to dial thus far
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}
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// dnsWasTrustworthy reports whether we think the IP address(es) we
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// tried (and failed) to dial were probably the correct IPs. Currently
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// the heuristic is whether they ever worked previously.
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func (dc *dialCall) dnsWasTrustworthy() bool {
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dc.d.mu.Lock()
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defer dc.d.mu.Unlock()
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dc.mu.Lock()
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defer dc.mu.Unlock()
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if len(dc.fails) == 0 {
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// No information.
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return false
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}
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// If any of the IPs we failed to dial worked previously in
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// this dialer, assume the DNS is fine.
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for ip := range dc.fails {
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if _, ok := dc.d.pastConnect[ip]; ok {
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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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func (dc *dialCall) dialOne(ctx context.Context, ip netaddr.IP) (net.Conn, error) {
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c, err := dc.d.fwd(ctx, dc.network, net.JoinHostPort(ip.String(), dc.port))
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dc.noteDialResult(ip, err)
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return c, err
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}
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// noteDialResult records that a dial to ip either succeeded or
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// failed.
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func (dc *dialCall) noteDialResult(ip netaddr.IP, err error) {
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if err == nil {
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d := dc.d
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d.mu.Lock()
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defer d.mu.Unlock()
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d.pastConnect[ip] = time.Now()
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return
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}
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dc.mu.Lock()
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defer dc.mu.Unlock()
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if dc.fails == nil {
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dc.fails = map[netaddr.IP]error{}
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}
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dc.fails[ip] = err
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}
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// uniqueIPs returns a possibly-mutated subslice of ips, filtering out
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// dups and ones that have already failed previously.
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func (dc *dialCall) uniqueIPs(ips []netaddr.IP) (ret []netaddr.IP) {
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dc.mu.Lock()
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defer dc.mu.Unlock()
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seen := map[netaddr.IP]bool{}
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ret = ips[:0]
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for _, ip := range ips {
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if seen[ip] {
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continue
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}
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seen[ip] = true
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if dc.fails[ip] != nil {
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continue
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}
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ret = append(ret, ip)
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}
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return ret
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}
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// fallbackDelay is how long to wait between trying subsequent
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// addresses when multiple options are available.
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// 300ms is the same as Go's Happy Eyeballs fallbackDelay value.
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const fallbackDelay = 300 * time.Millisecond
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// raceDial tries to dial port on each ip in ips, starting a new race
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// dial every fallbackDelay apart, returning whichever completes first.
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func (dc *dialCall) raceDial(ctx context.Context, ips []netaddr.IP) (net.Conn, error) {
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ctx, cancel := context.WithCancel(ctx)
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defer cancel()
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type res struct {
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c net.Conn
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err error
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}
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resc := make(chan res) // must be unbuffered
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failBoost := make(chan struct{}) // best effort send on dial failure
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// Remove IPs that we tried & failed to dial previously
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// (such as when we're being called after a dnsfallback lookup and get
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// the same results)
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ips = dc.uniqueIPs(ips)
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if len(ips) == 0 {
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return nil, errors.New("no IPs")
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}
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go func() {
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for i, ip := range ips {
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if i != 0 {
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timer := time.NewTimer(fallbackDelay)
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select {
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case <-timer.C:
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case <-failBoost:
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timer.Stop()
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case <-ctx.Done():
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timer.Stop()
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return
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}
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}
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go func(ip netaddr.IP) {
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c, err := dc.dialOne(ctx, ip)
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if err != nil {
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// Best effort wake-up a pending dial.
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// e.g. IPv4 dials failing quickly on an IPv6-only system.
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// In that case we don't want to wait 300ms per IPv4 before
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// we get to the IPv6 addresses.
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select {
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case failBoost <- struct{}{}:
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default:
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}
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}
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select {
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case resc <- res{c, err}:
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case <-ctx.Done():
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if c != nil {
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c.Close()
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}
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}
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}(ip)
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}
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}()
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var firstErr error
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var fails int
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for {
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select {
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case r := <-resc:
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if r.c != nil {
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return r.c, nil
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}
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fails++
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if firstErr == nil {
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firstErr = r.err
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}
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if fails == len(ips) {
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return nil, firstErr
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}
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case <-ctx.Done():
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return nil, ctx.Err()
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}
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}
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}
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|
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func v4addrs(aa []net.IPAddr) (ret []netaddr.IP) {
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for _, a := range aa {
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if ip, ok := netaddr.FromStdIP(a.IP); ok && ip.Is4() {
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ret = append(ret, ip)
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}
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}
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return ret
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}
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|
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func v6addrs(aa []net.IPAddr) (ret []netaddr.IP) {
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|
for _, a := range aa {
|
|
if ip, ok := netaddr.FromStdIP(a.IP); ok && ip.Is6() {
|
|
ret = append(ret, ip)
|
|
}
|
|
}
|
|
return ret
|
|
}
|
|
|
|
var errTLSHandshakeTimeout = errors.New("timeout doing TLS handshake")
|
|
|
|
// TLSDialer is like Dialer but returns a func suitable for using with net/http.Transport.DialTLSContext.
|
|
// It returns a *tls.Conn type on success.
|
|
// On TLS cert validation failure, it can invoke a backup DNS resolution strategy.
|
|
func TLSDialer(fwd DialContextFunc, dnsCache *Resolver, tlsConfigBase *tls.Config) DialContextFunc {
|
|
tcpDialer := Dialer(fwd, dnsCache)
|
|
return func(ctx context.Context, network, address string) (net.Conn, error) {
|
|
host, _, err := net.SplitHostPort(address)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
tcpConn, err := tcpDialer(ctx, network, address)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
cfg := cloneTLSConfig(tlsConfigBase)
|
|
if cfg.ServerName == "" {
|
|
cfg.ServerName = host
|
|
}
|
|
tlsConn := tls.Client(tcpConn, cfg)
|
|
|
|
handshakeCtx, handshakeTimeoutCancel := context.WithTimeout(ctx, 5*time.Second)
|
|
defer handshakeTimeoutCancel()
|
|
if err := tlsConn.HandshakeContext(handshakeCtx); err != nil {
|
|
tcpConn.Close()
|
|
// TODO: if err != errTLSHandshakeTimeout,
|
|
// assume it might be some captive portal or
|
|
// otherwise incorrect DNS and try the backup
|
|
// DNS mechanism.
|
|
return nil, err
|
|
}
|
|
return tlsConn, nil
|
|
}
|
|
}
|
|
|
|
func cloneTLSConfig(cfg *tls.Config) *tls.Config {
|
|
if cfg == nil {
|
|
return &tls.Config{}
|
|
}
|
|
return cfg.Clone()
|
|
}
|