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<?php namespace React\Dns\Query; use React\Dns\Model\Message; use React\Dns\Protocol\BinaryDumper; use React\Dns\Protocol\Parser; use React\EventLoop\LoopInterface; use React\Promise\Deferred; /** * Send DNS queries over a TCP/IP stream transport. * * This is one of the main classes that send a DNS query to your DNS server. * * For more advanced usages one can utilize this class directly. * The following example looks up the `IPv6` address for `reactphp.org`. * * ```php * $loop = Factory::create(); * $executor = new TcpTransportExecutor('8.8.8.8:53', $loop); * * $executor->query( * new Query($name, Message::TYPE_AAAA, Message::CLASS_IN) * )->then(function (Message $message) { * foreach ($message->answers as $answer) { * echo 'IPv6: ' . $answer->data . PHP_EOL; * } * }, 'printf'); * * $loop->run(); * ``` * * See also [example #92](examples). * * Note that this executor does not implement a timeout, so you will very likely * want to use this in combination with a `TimeoutExecutor` like this: * * ```php * $executor = new TimeoutExecutor( * new TcpTransportExecutor($nameserver, $loop), * 3.0, * $loop * ); * ``` * * Unlike the `UdpTransportExecutor`, this class uses a reliable TCP/IP * transport, so you do not necessarily have to implement any retry logic. * * Note that this executor is entirely async and as such allows you to execute * queries concurrently. The first query will establish a TCP/IP socket * connection to the DNS server which will be kept open for a short period. * Additional queries will automatically reuse this existing socket connection * to the DNS server, will pipeline multiple requests over this single * connection and will keep an idle connection open for a short period. The * initial TCP/IP connection overhead may incur a slight delay if you only send * occasional queries – when sending a larger number of concurrent queries over * an existing connection, it becomes increasingly more efficient and avoids * creating many concurrent sockets like the UDP-based executor. You may still * want to limit the number of (concurrent) queries in your application or you * may be facing rate limitations and bans on the resolver end. For many common * applications, you may want to avoid sending the same query multiple times * when the first one is still pending, so you will likely want to use this in * combination with a `CoopExecutor` like this: * * ```php * $executor = new CoopExecutor( * new TimeoutExecutor( * new TcpTransportExecutor($nameserver, $loop), * 3.0, * $loop * ) * ); * ``` * * > Internally, this class uses PHP's TCP/IP sockets and does not take advantage * of [react/socket](https://github.com/reactphp/socket) purely for * organizational reasons to avoid a cyclic dependency between the two * packages. Higher-level components should take advantage of the Socket * component instead of reimplementing this socket logic from scratch. */ class TcpTransportExecutor implements ExecutorInterface { private $nameserver; private $loop; private $parser; private $dumper; /** * @var ?resource */ private $socket; /** * @var Deferred[] */ private $pending = array(); /** * @var string[] */ private $names = array(); /** * Maximum idle time when socket is current unused (i.e. no pending queries outstanding) * * If a new query is to be sent during the idle period, we can reuse the * existing socket without having to wait for a new socket connection. * This uses a rather small, hard-coded value to not keep any unneeded * sockets open and to not keep the loop busy longer than needed. * * A future implementation may take advantage of `edns-tcp-keepalive` to keep * the socket open for longer periods. This will likely require explicit * configuration because this may consume additional resources and also keep * the loop busy for longer than expected in some applications. * * @var float * @link https://tools.ietf.org/html/rfc7766#section-6.2.1 * @link https://tools.ietf.org/html/rfc7828 */ private $idlePeriod = 0.001; /** * @var ?\React\EventLoop\TimerInterface */ private $idleTimer; private $writeBuffer = ''; private $writePending = false; private $readBuffer = ''; private $readPending = false; /** * @param string $nameserver * @param LoopInterface $loop */ public function __construct($nameserver, LoopInterface $loop) { if (\strpos($nameserver, '[') === false && \substr_count($nameserver, ':') >= 2 && \strpos($nameserver, '://') === false) { // several colons, but not enclosed in square brackets => enclose IPv6 address in square brackets $nameserver = '[' . $nameserver . ']'; } $parts = \parse_url((\strpos($nameserver, '://') === false ? 'tcp://' : '') . $nameserver); if (!isset($parts['scheme'], $parts['host']) || $parts['scheme'] !== 'tcp' || !\filter_var(\trim($parts['host'], '[]'), \FILTER_VALIDATE_IP)) { throw new \InvalidArgumentException('Invalid nameserver address given'); } $this->nameserver = $parts['host'] . ':' . (isset($parts['port']) ? $parts['port'] : 53); $this->loop = $loop; $this->parser = new Parser(); $this->dumper = new BinaryDumper(); } public function query(Query $query) { $request = Message::createRequestForQuery($query); // keep shuffing message ID to avoid using the same message ID for two pending queries at the same time while (isset($this->pending[$request->id])) { $request->id = \mt_rand(0, 0xffff); // @codeCoverageIgnore } $queryData = $this->dumper->toBinary($request); $length = \strlen($queryData); if ($length > 0xffff) { return \React\Promise\reject(new \RuntimeException( 'DNS query for ' . $query->name . ' failed: Query too large for TCP transport' )); } $queryData = \pack('n', $length) . $queryData; if ($this->socket === null) { // create async TCP/IP connection (may take a while) $socket = @\stream_socket_client($this->nameserver, $errno, $errstr, 0, \STREAM_CLIENT_CONNECT | \STREAM_CLIENT_ASYNC_CONNECT); if ($socket === false) { return \React\Promise\reject(new \RuntimeException( 'DNS query for ' . $query->name . ' failed: Unable to connect to DNS server (' . $errstr . ')', $errno )); } // set socket to non-blocking and wait for it to become writable (connection success/rejected) \stream_set_blocking($socket, false); $this->socket = $socket; } if ($this->idleTimer !== null) { $this->loop->cancelTimer($this->idleTimer); $this->idleTimer = null; } // wait for socket to become writable to actually write out data $this->writeBuffer .= $queryData; if (!$this->writePending) { $this->writePending = true; $this->loop->addWriteStream($this->socket, array($this, 'handleWritable')); } $names =& $this->names; $that = $this; $deferred = new Deferred(function () use ($that, &$names, $request) { // remove from list of pending names, but remember pending query $name = $names[$request->id]; unset($names[$request->id]); $that->checkIdle(); throw new CancellationException('DNS query for ' . $name . ' has been cancelled'); }); $this->pending[$request->id] = $deferred; $this->names[$request->id] = $query->name; return $deferred->promise(); } /** * @internal */ public function handleWritable() { if ($this->readPending === false) { $name = @\stream_socket_get_name($this->socket, true); if ($name === false) { $this->closeError('Connection to DNS server rejected'); return; } $this->readPending = true; $this->loop->addReadStream($this->socket, array($this, 'handleRead')); } $written = @\fwrite($this->socket, $this->writeBuffer); if ($written === false || $written === 0) { $this->closeError('Unable to write to closed socket'); return; } if (isset($this->writeBuffer[$written])) { $this->writeBuffer = \substr($this->writeBuffer, $written); } else { $this->loop->removeWriteStream($this->socket); $this->writePending = false; $this->writeBuffer = ''; } } /** * @internal */ public function handleRead() { // read one chunk of data from the DNS server // any error is fatal, this is a stream of TCP/IP data $chunk = @\fread($this->socket, 65536); if ($chunk === false || $chunk === '') { $this->closeError('Connection to DNS server lost'); return; } // reassemble complete message by concatenating all chunks. $this->readBuffer .= $chunk; // response message header contains at least 12 bytes while (isset($this->readBuffer[11])) { // read response message length from first 2 bytes and ensure we have length + data in buffer list(, $length) = \unpack('n', $this->readBuffer); if (!isset($this->readBuffer[$length + 1])) { return; } $data = \substr($this->readBuffer, 2, $length); $this->readBuffer = (string)substr($this->readBuffer, $length + 2); try { $response = $this->parser->parseMessage($data); } catch (\Exception $e) { // reject all pending queries if we received an invalid message from remote server $this->closeError('Invalid message received from DNS server'); return; } // reject all pending queries if we received an unexpected response ID or truncated response if (!isset($this->pending[$response->id]) || $response->tc) { $this->closeError('Invalid response message received from DNS server'); return; } $deferred = $this->pending[$response->id]; unset($this->pending[$response->id], $this->names[$response->id]); $deferred->resolve($response); $this->checkIdle(); } } /** * @internal * @param string $reason */ public function closeError($reason) { $this->readBuffer = ''; if ($this->readPending) { $this->loop->removeReadStream($this->socket); $this->readPending = false; } $this->writeBuffer = ''; if ($this->writePending) { $this->loop->removeWriteStream($this->socket); $this->writePending = false; } if ($this->idleTimer !== null) { $this->loop->cancelTimer($this->idleTimer); $this->idleTimer = null; } @\fclose($this->socket); $this->socket = null; foreach ($this->names as $id => $name) { $this->pending[$id]->reject(new \RuntimeException( 'DNS query for ' . $name . ' failed: ' . $reason )); } $this->pending = $this->names = array(); } /** * @internal */ public function checkIdle() { if ($this->idleTimer === null && !$this->names) { $that = $this; $this->idleTimer = $this->loop->addTimer($this->idlePeriod, function () use ($that) { $that->closeError('Idle timeout'); }); } } }