AdGuardHome/internal/dnsforward/dns.go
Eugene Burkov 78d47d8884 Pull request: 3185 fix recursion vol.2
Merge in DNS/adguard-home from fix-recursion to master

Closes #3185.

Squashed commit of the following:

commit c78650b762163f39b2eb4b10f76f1845913134b2
Author: Eugene Burkov <e.burkov@adguard.com>
Date:   Mon May 31 13:12:46 2021 +0300

    all: fix changelog

commit e43017a4b6d245f14e1a3bdf735a9c9f03501156
Author: Eugene Burkov <e.burkov@adguard.com>
Date:   Sun May 30 22:39:05 2021 +0300

    dnsforward: reduce recursion ttl

commit 79208a82bdad8280c439669413aef8dc7df0a85c
Author: Eugene Burkov <e.burkov@adguard.com>
Date:   Sun May 30 22:29:27 2021 +0300

    dnsforward: only check recursion for private rdns

commit 1b8075b086f33e58e273dfcf4168a6ba0473ebae
Author: Eugene Burkov <e.burkov@adguard.com>
Date:   Sun May 30 22:18:11 2021 +0300

    dnsforward: rm recursion detecting from upstream
2021-05-31 13:25:40 +03:00

639 lines
16 KiB
Go

package dnsforward
import (
"net"
"strings"
"time"
"github.com/AdguardTeam/AdGuardHome/internal/aghnet"
"github.com/AdguardTeam/AdGuardHome/internal/aghstrings"
"github.com/AdguardTeam/AdGuardHome/internal/dhcpd"
"github.com/AdguardTeam/AdGuardHome/internal/filtering"
"github.com/AdguardTeam/dnsproxy/proxy"
"github.com/AdguardTeam/golibs/log"
"github.com/miekg/dns"
)
// To transfer information between modules
type dnsContext struct {
// TODO(a.garipov): Remove this and rewrite processors to be methods of
// *Server instead.
srv *Server
proxyCtx *proxy.DNSContext
// setts are the filtering settings for the client.
setts *filtering.Settings
startTime time.Time
result *filtering.Result
// origResp is the response received from upstream. It is set when the
// response is modified by filters.
origResp *dns.Msg
// unreversedReqIP stores an IP address obtained from PTR request if it
// was successfully parsed.
unreversedReqIP net.IP
// err is the error returned from a processing function.
err error
// clientID is the clientID from DOH, DOQ, or DOT, if provided.
clientID string
// origQuestion is the question received from the client. It is set
// when the request is modified by rewrites.
origQuestion dns.Question
// protectionEnabled shows if the filtering is enabled, and if the
// server's DNS filter is ready.
protectionEnabled bool
// responseFromUpstream shows if the response is received from the
// upstream servers.
responseFromUpstream bool
// origReqDNSSEC shows if the DNSSEC flag in the original request from
// the client is set.
origReqDNSSEC bool
// isLocalClient shows if client's IP address is from locally-served
// network.
isLocalClient bool
}
// resultCode is the result of a request processing function.
type resultCode int
const (
// resultCodeSuccess is returned when a handler performed successfully,
// and the next handler must be called.
resultCodeSuccess resultCode = iota
// resultCodeFinish is returned when a handler performed successfully,
// and the processing of the request must be stopped.
resultCodeFinish
// resultCodeError is returned when a handler failed, and the processing
// of the request must be stopped.
resultCodeError
)
// handleDNSRequest filters the incoming DNS requests and writes them to the query log
func (s *Server) handleDNSRequest(_ *proxy.Proxy, d *proxy.DNSContext) error {
ctx := &dnsContext{
srv: s,
proxyCtx: d,
result: &filtering.Result{},
startTime: time.Now(),
}
type modProcessFunc func(ctx *dnsContext) (rc resultCode)
// Since (*dnsforward.Server).handleDNSRequest(...) is used as
// proxy.(Config).RequestHandler, there is no need for additional index
// out of range checking in any of the following functions, because the
// (*proxy.Proxy).handleDNSRequest method performs it before calling the
// appropriate handler.
mods := []modProcessFunc{
s.processRecursion,
processInitial,
s.processDetermineLocal,
s.processInternalHosts,
s.processRestrictLocal,
s.processInternalIPAddrs,
processClientID,
processFilteringBeforeRequest,
s.processLocalPTR,
s.processUpstream,
processDNSSECAfterResponse,
processFilteringAfterResponse,
s.ipset.process,
processQueryLogsAndStats,
}
for _, process := range mods {
r := process(ctx)
switch r {
case resultCodeSuccess:
// continue: call the next filter
case resultCodeFinish:
return nil
case resultCodeError:
return ctx.err
}
}
if d.Res != nil {
d.Res.Compress = true // some devices require DNS message compression
}
return nil
}
// processRecursion checks the incoming request and halts it's handling if s
// have tried to resolve it recently.
func (s *Server) processRecursion(dctx *dnsContext) (rc resultCode) {
pctx := dctx.proxyCtx
if msg := pctx.Req; msg != nil && s.recDetector.check(*msg) {
log.Debug("recursion detected resolving %q", msg.Question[0].Name)
pctx.Res = s.genNXDomain(pctx.Req)
return resultCodeFinish
}
return resultCodeSuccess
}
// Perform initial checks; process WHOIS & rDNS
func processInitial(ctx *dnsContext) (rc resultCode) {
s := ctx.srv
d := ctx.proxyCtx
if s.conf.AAAADisabled && d.Req.Question[0].Qtype == dns.TypeAAAA {
_ = proxy.CheckDisabledAAAARequest(d, true)
return resultCodeFinish
}
if s.conf.OnDNSRequest != nil {
s.conf.OnDNSRequest(d)
}
// disable Mozilla DoH
// https://support.mozilla.org/en-US/kb/canary-domain-use-application-dnsnet
if (d.Req.Question[0].Qtype == dns.TypeA || d.Req.Question[0].Qtype == dns.TypeAAAA) &&
d.Req.Question[0].Name == "use-application-dns.net." {
d.Res = s.genNXDomain(d.Req)
return resultCodeFinish
}
return resultCodeSuccess
}
func (s *Server) setTableHostToIP(t hostToIPTable) {
s.tableHostToIPLock.Lock()
defer s.tableHostToIPLock.Unlock()
s.tableHostToIP = t
}
func (s *Server) setTableIPToHost(t ipToHostTable) {
s.tableIPToHostLock.Lock()
defer s.tableIPToHostLock.Unlock()
s.tableIPToHost = t
}
func (s *Server) onDHCPLeaseChanged(flags int) {
var err error
add := true
switch flags {
case dhcpd.LeaseChangedAdded,
dhcpd.LeaseChangedAddedStatic,
dhcpd.LeaseChangedRemovedStatic:
// Go on.
case dhcpd.LeaseChangedRemovedAll:
add = false
default:
return
}
var hostToIP hostToIPTable
var ipToHost ipToHostTable
if add {
hostToIP = make(hostToIPTable)
ipToHost = make(ipToHostTable)
ll := s.dhcpServer.Leases(dhcpd.LeasesAll)
for _, l := range ll {
// TODO(a.garipov): Remove this after we're finished
// with the client hostname validations in the DHCP
// server code.
err = aghnet.ValidateDomainName(l.Hostname)
if err != nil {
log.Debug(
"dns: skipping invalid hostname %q from dhcp: %s",
l.Hostname,
err,
)
}
lowhost := strings.ToLower(l.Hostname)
ipToHost[l.IP.String()] = lowhost
ip := make(net.IP, 4)
copy(ip, l.IP.To4())
hostToIP[lowhost] = ip
}
log.Debug("dns: added %d A/PTR entries from DHCP", len(ipToHost))
}
s.setTableHostToIP(hostToIP)
s.setTableIPToHost(ipToHost)
}
// processDetermineLocal determines if the client's IP address is from
// locally-served network and saves the result into the context.
func (s *Server) processDetermineLocal(dctx *dnsContext) (rc resultCode) {
rc = resultCodeSuccess
var ip net.IP
if ip = aghnet.IPFromAddr(dctx.proxyCtx.Addr); ip == nil {
return rc
}
dctx.isLocalClient = s.subnetDetector.IsLocallyServedNetwork(ip)
return rc
}
// hostToIP tries to get an IP leased by DHCP and returns the copy of address
// since the data inside the internal table may be changed while request
// processing. It's safe for concurrent use.
func (s *Server) hostToIP(host string) (ip net.IP, ok bool) {
s.tableHostToIPLock.Lock()
defer s.tableHostToIPLock.Unlock()
if s.tableHostToIP == nil {
return nil, false
}
var ipFromTable net.IP
ipFromTable, ok = s.tableHostToIP[host]
if !ok {
return nil, false
}
ip = make(net.IP, len(ipFromTable))
copy(ip, ipFromTable)
return ip, true
}
// processInternalHosts respond to A requests if the target hostname is known to
// the server.
//
// TODO(a.garipov): Adapt to AAAA as well.
func (s *Server) processInternalHosts(dctx *dnsContext) (rc resultCode) {
if !s.dhcpServer.Enabled() {
return resultCodeSuccess
}
req := dctx.proxyCtx.Req
q := req.Question[0]
// Go on processing the AAAA request despite the fact that we don't
// support it yet. The expected behavior here is to respond with an
// empty asnwer and not NXDOMAIN.
if q.Qtype != dns.TypeA && q.Qtype != dns.TypeAAAA {
return resultCodeSuccess
}
reqHost := strings.ToLower(q.Name)
host := strings.TrimSuffix(reqHost, s.localDomainSuffix)
if host == reqHost {
return resultCodeSuccess
}
d := dctx.proxyCtx
if !dctx.isLocalClient {
log.Debug("dns: %q requests for internal host", d.Addr)
d.Res = s.genNXDomain(req)
// Do not even put into query log.
return resultCodeFinish
}
ip, ok := s.hostToIP(host)
if !ok {
// TODO(e.burkov): Inspect special cases when user want to apply
// some rules handled by other processors to the hosts with TLD.
d.Res = s.genNXDomain(req)
return resultCodeFinish
}
log.Debug("dns: internal record: %s -> %s", q.Name, ip)
resp := s.makeResponse(req)
if q.Qtype == dns.TypeA {
a := &dns.A{
Hdr: s.hdr(req, dns.TypeA),
A: ip,
}
resp.Answer = append(resp.Answer, a)
}
dctx.proxyCtx.Res = resp
return resultCodeSuccess
}
// processRestrictLocal responds with NXDOMAIN to PTR requests for IP addresses
// in locally-served network from external clients.
func (s *Server) processRestrictLocal(ctx *dnsContext) (rc resultCode) {
d := ctx.proxyCtx
req := d.Req
q := req.Question[0]
if q.Qtype != dns.TypePTR {
// No need for restriction.
return resultCodeSuccess
}
ip := aghnet.UnreverseAddr(q.Name)
if ip == nil {
// That's weird.
//
// TODO(e.burkov): Research the cases when it could happen.
return resultCodeSuccess
}
// Restrict an access to local addresses for external clients. We also
// assume that all the DHCP leases we give are locally-served or at
// least don't need to be unaccessable externally.
if s.subnetDetector.IsLocallyServedNetwork(ip) {
if !ctx.isLocalClient {
log.Debug("dns: %q requests for internal ip", d.Addr)
d.Res = s.genNXDomain(req)
// Do not even put into query log.
return resultCodeFinish
}
}
// Do not perform unreversing ever again.
ctx.unreversedReqIP = ip
// Disable redundant filtering.
filterSetts := s.getClientRequestFilteringSettings(ctx)
filterSetts.ParentalEnabled = false
filterSetts.SafeBrowsingEnabled = false
filterSetts.SafeSearchEnabled = false
filterSetts.ServicesRules = nil
ctx.setts = filterSetts
// Nothing to restrict.
return resultCodeSuccess
}
// ipToHost tries to get a hostname leased by DHCP. It's safe for concurrent
// use.
func (s *Server) ipToHost(ip net.IP) (host string, ok bool) {
s.tableIPToHostLock.Lock()
defer s.tableIPToHostLock.Unlock()
if s.tableIPToHost == nil {
return "", false
}
host, ok = s.tableIPToHost[ip.String()]
return host, ok
}
// Respond to PTR requests if the target IP is leased by our DHCP server and the
// requestor is inside the local network.
func (s *Server) processInternalIPAddrs(ctx *dnsContext) (rc resultCode) {
d := ctx.proxyCtx
if d.Res != nil {
return resultCodeSuccess
}
ip := ctx.unreversedReqIP
if ip == nil {
return resultCodeSuccess
}
host, ok := s.ipToHost(ip)
if !ok {
return resultCodeSuccess
}
log.Debug("dns: reverse-lookup: %s -> %s", ip, host)
req := d.Req
resp := s.makeResponse(req)
ptr := &dns.PTR{
Hdr: dns.RR_Header{
Name: req.Question[0].Name,
Rrtype: dns.TypePTR,
Ttl: s.conf.BlockedResponseTTL,
Class: dns.ClassINET,
},
Ptr: dns.Fqdn(host),
}
resp.Answer = append(resp.Answer, ptr)
d.Res = resp
return resultCodeSuccess
}
// processLocalPTR responds to PTR requests if the target IP is detected to be
// inside the local network and the query was not answered from DHCP.
func (s *Server) processLocalPTR(ctx *dnsContext) (rc resultCode) {
d := ctx.proxyCtx
if d.Res != nil {
return resultCodeSuccess
}
ip := ctx.unreversedReqIP
if ip == nil {
return resultCodeSuccess
}
s.serverLock.RLock()
defer s.serverLock.RUnlock()
if !s.subnetDetector.IsLocallyServedNetwork(ip) {
return resultCodeSuccess
}
if s.conf.UsePrivateRDNS {
s.recDetector.add(*d.Req)
if err := s.localResolvers.Resolve(d); err != nil {
ctx.err = err
return resultCodeError
}
}
if d.Res == nil {
d.Res = s.genNXDomain(d.Req)
// Do not even put into query log.
return resultCodeFinish
}
return resultCodeSuccess
}
// Apply filtering logic
func processFilteringBeforeRequest(ctx *dnsContext) (rc resultCode) {
s := ctx.srv
d := ctx.proxyCtx
if d.Res != nil {
return resultCodeSuccess // response is already set - nothing to do
}
s.serverLock.RLock()
defer s.serverLock.RUnlock()
ctx.protectionEnabled = s.conf.ProtectionEnabled && s.dnsFilter != nil
if !ctx.protectionEnabled {
return resultCodeSuccess
}
if ctx.setts == nil {
ctx.setts = s.getClientRequestFilteringSettings(ctx)
}
var err error
ctx.result, err = s.filterDNSRequest(ctx)
if err != nil {
ctx.err = err
return resultCodeError
}
return resultCodeSuccess
}
// ipStringFromAddr extracts an IP address string from net.Addr.
func ipStringFromAddr(addr net.Addr) (ipStr string) {
if ip := aghnet.IPFromAddr(addr); ip != nil {
return ip.String()
}
return ""
}
// processUpstream passes request to upstream servers and handles the response.
func (s *Server) processUpstream(ctx *dnsContext) (rc resultCode) {
d := ctx.proxyCtx
if d.Res != nil {
return resultCodeSuccess // response is already set - nothing to do
}
if d.Addr != nil && s.conf.GetCustomUpstreamByClient != nil {
// Use the clientID first, since it has a higher priority.
id := aghstrings.Coalesce(ctx.clientID, ipStringFromAddr(d.Addr))
upsConf, err := s.conf.GetCustomUpstreamByClient(id)
if err != nil {
log.Error("dns: getting custom upstreams for client %s: %s", id, err)
} else if upsConf != nil {
log.Debug("dns: using custom upstreams for client %s", id)
d.CustomUpstreamConfig = upsConf
}
}
req := d.Req
if s.conf.EnableDNSSEC {
opt := req.IsEdns0()
if opt == nil {
log.Debug("dns: adding OPT record with DNSSEC flag")
req.SetEdns0(4096, true)
} else if !opt.Do() {
opt.SetDo(true)
} else {
ctx.origReqDNSSEC = true
}
}
// request was not filtered so let it be processed further
if ctx.err = s.dnsProxy.Resolve(d); ctx.err != nil {
return resultCodeError
}
ctx.responseFromUpstream = true
return resultCodeSuccess
}
// Process DNSSEC after response from upstream server
func processDNSSECAfterResponse(ctx *dnsContext) (rc resultCode) {
d := ctx.proxyCtx
if !ctx.responseFromUpstream || // don't process response if it's not from upstream servers
!ctx.srv.conf.EnableDNSSEC {
return resultCodeSuccess
}
if !ctx.origReqDNSSEC {
optResp := d.Res.IsEdns0()
if optResp != nil && !optResp.Do() {
return resultCodeSuccess
}
// Remove RRSIG records from response
// because there is no DO flag in the original request from client,
// but we have EnableDNSSEC set, so we have set DO flag ourselves,
// and now we have to clean up the DNS records our client didn't ask for.
answers := []dns.RR{}
for _, a := range d.Res.Answer {
switch a.(type) {
case *dns.RRSIG:
log.Debug("Removing RRSIG record from response: %v", a)
default:
answers = append(answers, a)
}
}
d.Res.Answer = answers
answers = []dns.RR{}
for _, a := range d.Res.Ns {
switch a.(type) {
case *dns.RRSIG:
log.Debug("Removing RRSIG record from response: %v", a)
default:
answers = append(answers, a)
}
}
d.Res.Ns = answers
}
return resultCodeSuccess
}
// Apply filtering logic after we have received response from upstream servers
func processFilteringAfterResponse(ctx *dnsContext) (rc resultCode) {
s := ctx.srv
d := ctx.proxyCtx
res := ctx.result
var err error
switch res.Reason {
case filtering.Rewritten,
filtering.RewrittenRule:
if len(ctx.origQuestion.Name) == 0 {
// origQuestion is set in case we get only CNAME without IP from rewrites table
break
}
d.Req.Question[0] = ctx.origQuestion
d.Res.Question[0] = ctx.origQuestion
if len(d.Res.Answer) != 0 {
answer := []dns.RR{}
answer = append(answer, s.genAnswerCNAME(d.Req, res.CanonName))
answer = append(answer, d.Res.Answer...)
d.Res.Answer = answer
}
case filtering.NotFilteredAllowList:
// nothing
default:
if !ctx.protectionEnabled || // filters are disabled: there's nothing to check for
!ctx.responseFromUpstream { // only check response if it's from an upstream server
break
}
origResp2 := d.Res
ctx.result, err = s.filterDNSResponse(ctx)
if err != nil {
ctx.err = err
return resultCodeError
}
if ctx.result != nil {
ctx.origResp = origResp2 // matched by response
} else {
ctx.result = &filtering.Result{}
}
}
return resultCodeSuccess
}