1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4
5 #include "net/dns/mdns_client_impl.h"
6
7 #include "base/bind.h"
8 #include "base/message_loop/message_loop_proxy.h"
9 #include "base/stl_util.h"
10 #include "base/time/default_clock.h"
11 #include "net/base/dns_util.h"
12 #include "net/base/net_errors.h"
13 #include "net/base/net_log.h"
14 #include "net/base/rand_callback.h"
15 #include "net/dns/dns_protocol.h"
16 #include "net/dns/record_rdata.h"
17 #include "net/udp/datagram_socket.h"
18
19 // TODO(gene): Remove this temporary method of disabling NSEC support once it
20 // becomes clear whether this feature should be
21 // supported. http://crbug.com/255232
22 #define ENABLE_NSEC
23
24 namespace net {
25
26 namespace {
27
28 const unsigned MDnsTransactionTimeoutSeconds = 3;
29
30 } // namespace
31
CreateSockets(ScopedVector<DatagramServerSocket> * sockets)32 void MDnsSocketFactoryImpl::CreateSockets(
33 ScopedVector<DatagramServerSocket>* sockets) {
34 InterfaceIndexFamilyList interfaces(GetMDnsInterfacesToBind());
35 for (size_t i = 0; i < interfaces.size(); ++i) {
36 DCHECK(interfaces[i].second == net::ADDRESS_FAMILY_IPV4 ||
37 interfaces[i].second == net::ADDRESS_FAMILY_IPV6);
38 scoped_ptr<DatagramServerSocket> socket(
39 CreateAndBindMDnsSocket(interfaces[i].second, interfaces[i].first));
40 if (socket)
41 sockets->push_back(socket.release());
42 }
43 }
44
SocketHandler(scoped_ptr<DatagramServerSocket> socket,MDnsConnection * connection)45 MDnsConnection::SocketHandler::SocketHandler(
46 scoped_ptr<DatagramServerSocket> socket,
47 MDnsConnection* connection)
48 : socket_(socket.Pass()),
49 connection_(connection),
50 response_(dns_protocol::kMaxMulticastSize) {
51 }
52
~SocketHandler()53 MDnsConnection::SocketHandler::~SocketHandler() {
54 }
55
Start()56 int MDnsConnection::SocketHandler::Start() {
57 IPEndPoint end_point;
58 int rv = socket_->GetLocalAddress(&end_point);
59 if (rv != OK)
60 return rv;
61 DCHECK(end_point.GetFamily() == ADDRESS_FAMILY_IPV4 ||
62 end_point.GetFamily() == ADDRESS_FAMILY_IPV6);
63 multicast_addr_ = GetMDnsIPEndPoint(end_point.GetFamily());
64 return DoLoop(0);
65 }
66
DoLoop(int rv)67 int MDnsConnection::SocketHandler::DoLoop(int rv) {
68 do {
69 if (rv > 0)
70 connection_->OnDatagramReceived(&response_, recv_addr_, rv);
71
72 rv = socket_->RecvFrom(
73 response_.io_buffer(),
74 response_.io_buffer()->size(),
75 &recv_addr_,
76 base::Bind(&MDnsConnection::SocketHandler::OnDatagramReceived,
77 base::Unretained(this)));
78 } while (rv > 0);
79
80 if (rv != ERR_IO_PENDING)
81 return rv;
82
83 return OK;
84 }
85
OnDatagramReceived(int rv)86 void MDnsConnection::SocketHandler::OnDatagramReceived(int rv) {
87 if (rv >= OK)
88 rv = DoLoop(rv);
89
90 if (rv != OK)
91 connection_->OnError(this, rv);
92 }
93
Send(IOBuffer * buffer,unsigned size)94 int MDnsConnection::SocketHandler::Send(IOBuffer* buffer, unsigned size) {
95 return socket_->SendTo(buffer, size, multicast_addr_,
96 base::Bind(&MDnsConnection::SocketHandler::SendDone,
97 base::Unretained(this) ));
98 }
99
SendDone(int rv)100 void MDnsConnection::SocketHandler::SendDone(int rv) {
101 // TODO(noamsml): Retry logic.
102 }
103
MDnsConnection(MDnsConnection::Delegate * delegate)104 MDnsConnection::MDnsConnection(MDnsConnection::Delegate* delegate) :
105 delegate_(delegate) {
106 }
107
~MDnsConnection()108 MDnsConnection::~MDnsConnection() {
109 }
110
Init(MDnsSocketFactory * socket_factory)111 bool MDnsConnection::Init(MDnsSocketFactory* socket_factory) {
112 ScopedVector<DatagramServerSocket> sockets;
113 socket_factory->CreateSockets(&sockets);
114
115 for (size_t i = 0; i < sockets.size(); ++i) {
116 socket_handlers_.push_back(
117 new MDnsConnection::SocketHandler(make_scoped_ptr(sockets[i]), this));
118 }
119 sockets.weak_clear();
120
121 // All unbound sockets need to be bound before processing untrusted input.
122 // This is done for security reasons, so that an attacker can't get an unbound
123 // socket.
124 for (size_t i = 0; i < socket_handlers_.size();) {
125 int rv = socket_handlers_[i]->Start();
126 if (rv != OK) {
127 socket_handlers_.erase(socket_handlers_.begin() + i);
128 VLOG(1) << "Start failed, socket=" << i << ", error=" << rv;
129 } else {
130 ++i;
131 }
132 }
133 VLOG(1) << "Sockets ready:" << socket_handlers_.size();
134 return !socket_handlers_.empty();
135 }
136
Send(IOBuffer * buffer,unsigned size)137 bool MDnsConnection::Send(IOBuffer* buffer, unsigned size) {
138 bool success = false;
139 for (size_t i = 0; i < socket_handlers_.size(); ++i) {
140 int rv = socket_handlers_[i]->Send(buffer, size);
141 if (rv >= OK || rv == ERR_IO_PENDING) {
142 success = true;
143 } else {
144 VLOG(1) << "Send failed, socket=" << i << ", error=" << rv;
145 }
146 }
147 return success;
148 }
149
OnError(SocketHandler * loop,int error)150 void MDnsConnection::OnError(SocketHandler* loop,
151 int error) {
152 // TODO(noamsml): Specific handling of intermittent errors that can be handled
153 // in the connection.
154 delegate_->OnConnectionError(error);
155 }
156
OnDatagramReceived(DnsResponse * response,const IPEndPoint & recv_addr,int bytes_read)157 void MDnsConnection::OnDatagramReceived(
158 DnsResponse* response,
159 const IPEndPoint& recv_addr,
160 int bytes_read) {
161 // TODO(noamsml): More sophisticated error handling.
162 DCHECK_GT(bytes_read, 0);
163 delegate_->HandlePacket(response, bytes_read);
164 }
165
Core(MDnsClientImpl * client)166 MDnsClientImpl::Core::Core(MDnsClientImpl* client)
167 : client_(client), connection_(new MDnsConnection(this)) {
168 }
169
~Core()170 MDnsClientImpl::Core::~Core() {
171 STLDeleteValues(&listeners_);
172 }
173
Init(MDnsSocketFactory * socket_factory)174 bool MDnsClientImpl::Core::Init(MDnsSocketFactory* socket_factory) {
175 return connection_->Init(socket_factory);
176 }
177
SendQuery(uint16 rrtype,std::string name)178 bool MDnsClientImpl::Core::SendQuery(uint16 rrtype, std::string name) {
179 std::string name_dns;
180 if (!DNSDomainFromDot(name, &name_dns))
181 return false;
182
183 DnsQuery query(0, name_dns, rrtype);
184 query.set_flags(0); // Remove the RD flag from the query. It is unneeded.
185
186 return connection_->Send(query.io_buffer(), query.io_buffer()->size());
187 }
188
HandlePacket(DnsResponse * response,int bytes_read)189 void MDnsClientImpl::Core::HandlePacket(DnsResponse* response,
190 int bytes_read) {
191 unsigned offset;
192 // Note: We store cache keys rather than record pointers to avoid
193 // erroneous behavior in case a packet contains multiple exclusive
194 // records with the same type and name.
195 std::map<MDnsCache::Key, MDnsListener::UpdateType> update_keys;
196
197 if (!response->InitParseWithoutQuery(bytes_read)) {
198 LOG(WARNING) << "Could not understand an mDNS packet.";
199 return; // Message is unreadable.
200 }
201
202 // TODO(noamsml): duplicate query suppression.
203 if (!(response->flags() & dns_protocol::kFlagResponse))
204 return; // Message is a query. ignore it.
205
206 DnsRecordParser parser = response->Parser();
207 unsigned answer_count = response->answer_count() +
208 response->additional_answer_count();
209
210 for (unsigned i = 0; i < answer_count; i++) {
211 offset = parser.GetOffset();
212 scoped_ptr<const RecordParsed> record = RecordParsed::CreateFrom(
213 &parser, base::Time::Now());
214
215 if (!record) {
216 LOG(WARNING) << "Could not understand an mDNS record.";
217
218 if (offset == parser.GetOffset()) {
219 LOG(WARNING) << "Abandoned parsing the rest of the packet.";
220 return; // The parser did not advance, abort reading the packet.
221 } else {
222 continue; // We may be able to extract other records from the packet.
223 }
224 }
225
226 if ((record->klass() & dns_protocol::kMDnsClassMask) !=
227 dns_protocol::kClassIN) {
228 LOG(WARNING) << "Received an mDNS record with non-IN class. Ignoring.";
229 continue; // Ignore all records not in the IN class.
230 }
231
232 MDnsCache::Key update_key = MDnsCache::Key::CreateFor(record.get());
233 MDnsCache::UpdateType update = cache_.UpdateDnsRecord(record.Pass());
234
235 // Cleanup time may have changed.
236 ScheduleCleanup(cache_.next_expiration());
237
238 if (update != MDnsCache::NoChange) {
239 MDnsListener::UpdateType update_external;
240
241 switch (update) {
242 case MDnsCache::RecordAdded:
243 update_external = MDnsListener::RECORD_ADDED;
244 break;
245 case MDnsCache::RecordChanged:
246 update_external = MDnsListener::RECORD_CHANGED;
247 break;
248 case MDnsCache::NoChange:
249 default:
250 NOTREACHED();
251 // Dummy assignment to suppress compiler warning.
252 update_external = MDnsListener::RECORD_CHANGED;
253 break;
254 }
255
256 update_keys.insert(std::make_pair(update_key, update_external));
257 }
258 }
259
260 for (std::map<MDnsCache::Key, MDnsListener::UpdateType>::iterator i =
261 update_keys.begin(); i != update_keys.end(); i++) {
262 const RecordParsed* record = cache_.LookupKey(i->first);
263 if (!record)
264 continue;
265
266 if (record->type() == dns_protocol::kTypeNSEC) {
267 #if defined(ENABLE_NSEC)
268 NotifyNsecRecord(record);
269 #endif
270 } else {
271 AlertListeners(i->second, ListenerKey(record->name(), record->type()),
272 record);
273 }
274 }
275 }
276
NotifyNsecRecord(const RecordParsed * record)277 void MDnsClientImpl::Core::NotifyNsecRecord(const RecordParsed* record) {
278 DCHECK_EQ(dns_protocol::kTypeNSEC, record->type());
279 const NsecRecordRdata* rdata = record->rdata<NsecRecordRdata>();
280 DCHECK(rdata);
281
282 // Remove all cached records matching the nonexistent RR types.
283 std::vector<const RecordParsed*> records_to_remove;
284
285 cache_.FindDnsRecords(0, record->name(), &records_to_remove,
286 base::Time::Now());
287
288 for (std::vector<const RecordParsed*>::iterator i = records_to_remove.begin();
289 i != records_to_remove.end(); i++) {
290 if ((*i)->type() == dns_protocol::kTypeNSEC)
291 continue;
292 if (!rdata->GetBit((*i)->type())) {
293 scoped_ptr<const RecordParsed> record_removed = cache_.RemoveRecord((*i));
294 DCHECK(record_removed);
295 OnRecordRemoved(record_removed.get());
296 }
297 }
298
299 // Alert all listeners waiting for the nonexistent RR types.
300 ListenerMap::iterator i =
301 listeners_.upper_bound(ListenerKey(record->name(), 0));
302 for (; i != listeners_.end() && i->first.first == record->name(); i++) {
303 if (!rdata->GetBit(i->first.second)) {
304 FOR_EACH_OBSERVER(MDnsListenerImpl, *i->second, AlertNsecRecord());
305 }
306 }
307 }
308
OnConnectionError(int error)309 void MDnsClientImpl::Core::OnConnectionError(int error) {
310 // TODO(noamsml): On connection error, recreate connection and flush cache.
311 }
312
AlertListeners(MDnsListener::UpdateType update_type,const ListenerKey & key,const RecordParsed * record)313 void MDnsClientImpl::Core::AlertListeners(
314 MDnsListener::UpdateType update_type,
315 const ListenerKey& key,
316 const RecordParsed* record) {
317 ListenerMap::iterator listener_map_iterator = listeners_.find(key);
318 if (listener_map_iterator == listeners_.end()) return;
319
320 FOR_EACH_OBSERVER(MDnsListenerImpl, *listener_map_iterator->second,
321 AlertDelegate(update_type, record));
322 }
323
AddListener(MDnsListenerImpl * listener)324 void MDnsClientImpl::Core::AddListener(
325 MDnsListenerImpl* listener) {
326 ListenerKey key(listener->GetName(), listener->GetType());
327 std::pair<ListenerMap::iterator, bool> observer_insert_result =
328 listeners_.insert(
329 make_pair(key, static_cast<ObserverList<MDnsListenerImpl>*>(NULL)));
330
331 // If an equivalent key does not exist, actually create the observer list.
332 if (observer_insert_result.second)
333 observer_insert_result.first->second = new ObserverList<MDnsListenerImpl>();
334
335 ObserverList<MDnsListenerImpl>* observer_list =
336 observer_insert_result.first->second;
337
338 observer_list->AddObserver(listener);
339 }
340
RemoveListener(MDnsListenerImpl * listener)341 void MDnsClientImpl::Core::RemoveListener(MDnsListenerImpl* listener) {
342 ListenerKey key(listener->GetName(), listener->GetType());
343 ListenerMap::iterator observer_list_iterator = listeners_.find(key);
344
345 DCHECK(observer_list_iterator != listeners_.end());
346 DCHECK(observer_list_iterator->second->HasObserver(listener));
347
348 observer_list_iterator->second->RemoveObserver(listener);
349
350 // Remove the observer list from the map if it is empty
351 if (!observer_list_iterator->second->might_have_observers()) {
352 // Schedule the actual removal for later in case the listener removal
353 // happens while iterating over the observer list.
354 base::MessageLoop::current()->PostTask(
355 FROM_HERE, base::Bind(
356 &MDnsClientImpl::Core::CleanupObserverList, AsWeakPtr(), key));
357 }
358 }
359
CleanupObserverList(const ListenerKey & key)360 void MDnsClientImpl::Core::CleanupObserverList(const ListenerKey& key) {
361 ListenerMap::iterator found = listeners_.find(key);
362 if (found != listeners_.end() && !found->second->might_have_observers()) {
363 delete found->second;
364 listeners_.erase(found);
365 }
366 }
367
ScheduleCleanup(base::Time cleanup)368 void MDnsClientImpl::Core::ScheduleCleanup(base::Time cleanup) {
369 // Cleanup is already scheduled, no need to do anything.
370 if (cleanup == scheduled_cleanup_) return;
371 scheduled_cleanup_ = cleanup;
372
373 // This cancels the previously scheduled cleanup.
374 cleanup_callback_.Reset(base::Bind(
375 &MDnsClientImpl::Core::DoCleanup, base::Unretained(this)));
376
377 // If |cleanup| is empty, then no cleanup necessary.
378 if (cleanup != base::Time()) {
379 base::MessageLoop::current()->PostDelayedTask(
380 FROM_HERE,
381 cleanup_callback_.callback(),
382 cleanup - base::Time::Now());
383 }
384 }
385
DoCleanup()386 void MDnsClientImpl::Core::DoCleanup() {
387 cache_.CleanupRecords(base::Time::Now(), base::Bind(
388 &MDnsClientImpl::Core::OnRecordRemoved, base::Unretained(this)));
389
390 ScheduleCleanup(cache_.next_expiration());
391 }
392
OnRecordRemoved(const RecordParsed * record)393 void MDnsClientImpl::Core::OnRecordRemoved(
394 const RecordParsed* record) {
395 AlertListeners(MDnsListener::RECORD_REMOVED,
396 ListenerKey(record->name(), record->type()), record);
397 }
398
QueryCache(uint16 rrtype,const std::string & name,std::vector<const RecordParsed * > * records) const399 void MDnsClientImpl::Core::QueryCache(
400 uint16 rrtype, const std::string& name,
401 std::vector<const RecordParsed*>* records) const {
402 cache_.FindDnsRecords(rrtype, name, records, base::Time::Now());
403 }
404
MDnsClientImpl()405 MDnsClientImpl::MDnsClientImpl() {
406 }
407
~MDnsClientImpl()408 MDnsClientImpl::~MDnsClientImpl() {
409 }
410
StartListening(MDnsSocketFactory * socket_factory)411 bool MDnsClientImpl::StartListening(MDnsSocketFactory* socket_factory) {
412 DCHECK(!core_.get());
413 core_.reset(new Core(this));
414 if (!core_->Init(socket_factory)) {
415 core_.reset();
416 return false;
417 }
418 return true;
419 }
420
StopListening()421 void MDnsClientImpl::StopListening() {
422 core_.reset();
423 }
424
IsListening() const425 bool MDnsClientImpl::IsListening() const {
426 return core_.get() != NULL;
427 }
428
CreateListener(uint16 rrtype,const std::string & name,MDnsListener::Delegate * delegate)429 scoped_ptr<MDnsListener> MDnsClientImpl::CreateListener(
430 uint16 rrtype,
431 const std::string& name,
432 MDnsListener::Delegate* delegate) {
433 return scoped_ptr<net::MDnsListener>(
434 new MDnsListenerImpl(rrtype, name, delegate, this));
435 }
436
CreateTransaction(uint16 rrtype,const std::string & name,int flags,const MDnsTransaction::ResultCallback & callback)437 scoped_ptr<MDnsTransaction> MDnsClientImpl::CreateTransaction(
438 uint16 rrtype,
439 const std::string& name,
440 int flags,
441 const MDnsTransaction::ResultCallback& callback) {
442 return scoped_ptr<MDnsTransaction>(
443 new MDnsTransactionImpl(rrtype, name, flags, callback, this));
444 }
445
MDnsListenerImpl(uint16 rrtype,const std::string & name,MDnsListener::Delegate * delegate,MDnsClientImpl * client)446 MDnsListenerImpl::MDnsListenerImpl(
447 uint16 rrtype,
448 const std::string& name,
449 MDnsListener::Delegate* delegate,
450 MDnsClientImpl* client)
451 : rrtype_(rrtype), name_(name), client_(client), delegate_(delegate),
452 started_(false) {
453 }
454
Start()455 bool MDnsListenerImpl::Start() {
456 DCHECK(!started_);
457
458 started_ = true;
459
460 DCHECK(client_->core());
461 client_->core()->AddListener(this);
462
463 return true;
464 }
465
~MDnsListenerImpl()466 MDnsListenerImpl::~MDnsListenerImpl() {
467 if (started_) {
468 DCHECK(client_->core());
469 client_->core()->RemoveListener(this);
470 }
471 }
472
GetName() const473 const std::string& MDnsListenerImpl::GetName() const {
474 return name_;
475 }
476
GetType() const477 uint16 MDnsListenerImpl::GetType() const {
478 return rrtype_;
479 }
480
AlertDelegate(MDnsListener::UpdateType update_type,const RecordParsed * record)481 void MDnsListenerImpl::AlertDelegate(MDnsListener::UpdateType update_type,
482 const RecordParsed* record) {
483 DCHECK(started_);
484 delegate_->OnRecordUpdate(update_type, record);
485 }
486
AlertNsecRecord()487 void MDnsListenerImpl::AlertNsecRecord() {
488 DCHECK(started_);
489 delegate_->OnNsecRecord(name_, rrtype_);
490 }
491
MDnsTransactionImpl(uint16 rrtype,const std::string & name,int flags,const MDnsTransaction::ResultCallback & callback,MDnsClientImpl * client)492 MDnsTransactionImpl::MDnsTransactionImpl(
493 uint16 rrtype,
494 const std::string& name,
495 int flags,
496 const MDnsTransaction::ResultCallback& callback,
497 MDnsClientImpl* client)
498 : rrtype_(rrtype), name_(name), callback_(callback), client_(client),
499 started_(false), flags_(flags) {
500 DCHECK((flags_ & MDnsTransaction::FLAG_MASK) == flags_);
501 DCHECK(flags_ & MDnsTransaction::QUERY_CACHE ||
502 flags_ & MDnsTransaction::QUERY_NETWORK);
503 }
504
~MDnsTransactionImpl()505 MDnsTransactionImpl::~MDnsTransactionImpl() {
506 timeout_.Cancel();
507 }
508
Start()509 bool MDnsTransactionImpl::Start() {
510 DCHECK(!started_);
511 started_ = true;
512
513 base::WeakPtr<MDnsTransactionImpl> weak_this = AsWeakPtr();
514 if (flags_ & MDnsTransaction::QUERY_CACHE) {
515 ServeRecordsFromCache();
516
517 if (!weak_this || !is_active()) return true;
518 }
519
520 if (flags_ & MDnsTransaction::QUERY_NETWORK) {
521 return QueryAndListen();
522 }
523
524 // If this is a cache only query, signal that the transaction is over
525 // immediately.
526 SignalTransactionOver();
527 return true;
528 }
529
GetName() const530 const std::string& MDnsTransactionImpl::GetName() const {
531 return name_;
532 }
533
GetType() const534 uint16 MDnsTransactionImpl::GetType() const {
535 return rrtype_;
536 }
537
CacheRecordFound(const RecordParsed * record)538 void MDnsTransactionImpl::CacheRecordFound(const RecordParsed* record) {
539 DCHECK(started_);
540 OnRecordUpdate(MDnsListener::RECORD_ADDED, record);
541 }
542
TriggerCallback(MDnsTransaction::Result result,const RecordParsed * record)543 void MDnsTransactionImpl::TriggerCallback(MDnsTransaction::Result result,
544 const RecordParsed* record) {
545 DCHECK(started_);
546 if (!is_active()) return;
547
548 // Ensure callback is run after touching all class state, so that
549 // the callback can delete the transaction.
550 MDnsTransaction::ResultCallback callback = callback_;
551
552 // Reset the transaction if it expects a single result, or if the result
553 // is a final one (everything except for a record).
554 if (flags_ & MDnsTransaction::SINGLE_RESULT ||
555 result != MDnsTransaction::RESULT_RECORD) {
556 Reset();
557 }
558
559 callback.Run(result, record);
560 }
561
Reset()562 void MDnsTransactionImpl::Reset() {
563 callback_.Reset();
564 listener_.reset();
565 timeout_.Cancel();
566 }
567
OnRecordUpdate(MDnsListener::UpdateType update,const RecordParsed * record)568 void MDnsTransactionImpl::OnRecordUpdate(MDnsListener::UpdateType update,
569 const RecordParsed* record) {
570 DCHECK(started_);
571 if (update == MDnsListener::RECORD_ADDED ||
572 update == MDnsListener::RECORD_CHANGED)
573 TriggerCallback(MDnsTransaction::RESULT_RECORD, record);
574 }
575
SignalTransactionOver()576 void MDnsTransactionImpl::SignalTransactionOver() {
577 DCHECK(started_);
578 if (flags_ & MDnsTransaction::SINGLE_RESULT) {
579 TriggerCallback(MDnsTransaction::RESULT_NO_RESULTS, NULL);
580 } else {
581 TriggerCallback(MDnsTransaction::RESULT_DONE, NULL);
582 }
583 }
584
ServeRecordsFromCache()585 void MDnsTransactionImpl::ServeRecordsFromCache() {
586 std::vector<const RecordParsed*> records;
587 base::WeakPtr<MDnsTransactionImpl> weak_this = AsWeakPtr();
588
589 if (client_->core()) {
590 client_->core()->QueryCache(rrtype_, name_, &records);
591 for (std::vector<const RecordParsed*>::iterator i = records.begin();
592 i != records.end() && weak_this; ++i) {
593 weak_this->TriggerCallback(MDnsTransaction::RESULT_RECORD, *i);
594 }
595
596 #if defined(ENABLE_NSEC)
597 if (records.empty()) {
598 DCHECK(weak_this);
599 client_->core()->QueryCache(dns_protocol::kTypeNSEC, name_, &records);
600 if (!records.empty()) {
601 const NsecRecordRdata* rdata =
602 records.front()->rdata<NsecRecordRdata>();
603 DCHECK(rdata);
604 if (!rdata->GetBit(rrtype_))
605 weak_this->TriggerCallback(MDnsTransaction::RESULT_NSEC, NULL);
606 }
607 }
608 #endif
609 }
610 }
611
QueryAndListen()612 bool MDnsTransactionImpl::QueryAndListen() {
613 listener_ = client_->CreateListener(rrtype_, name_, this);
614 if (!listener_->Start())
615 return false;
616
617 DCHECK(client_->core());
618 if (!client_->core()->SendQuery(rrtype_, name_))
619 return false;
620
621 timeout_.Reset(base::Bind(&MDnsTransactionImpl::SignalTransactionOver,
622 AsWeakPtr()));
623 base::MessageLoop::current()->PostDelayedTask(
624 FROM_HERE,
625 timeout_.callback(),
626 base::TimeDelta::FromSeconds(MDnsTransactionTimeoutSeconds));
627
628 return true;
629 }
630
OnNsecRecord(const std::string & name,unsigned type)631 void MDnsTransactionImpl::OnNsecRecord(const std::string& name, unsigned type) {
632 TriggerCallback(RESULT_NSEC, NULL);
633 }
634
OnCachePurged()635 void MDnsTransactionImpl::OnCachePurged() {
636 // TODO(noamsml): Cache purge situations not yet implemented
637 }
638
639 } // namespace net
640