// This tests the features of the and // classes. In addition, it can be used to test the // oneway and twoway latency and throughput at the socket-level. This // is useful as a baseline to compare against ORB-level performance // for the same types of data. #include "ace/OS_NS_string.h" #include "ace/OS_NS_unistd.h" #include "ace/INET_Addr.h" #include "ace/Log_Msg.h" #include "ace/Singleton.h" #include "ace/Get_Opt.h" #include "ace/High_Res_Timer.h" #include "ace/Null_Mutex.h" #include "ace/Truncate.h" #include "ace/SSL/SSL_SOCK_Connector.h" #include "SSL-client-simple.h" Options::Options (void) : host_ (ACE_DEFAULT_SERVER_HOST), port_ (ACE_DEFAULT_SERVER_PORT), sleep_time_ (0, 0), // By default, don't sleep between calls. message_len_ (0), message_buf_ (0), io_source_ (ACE_INVALID_HANDLE), // Defaults to using the generator. iterations_ (10000), oneway_ (1) // Make oneway calls the default. { ACE_OS::strcpy (quit_string_, "q"); } Options::~Options (void) { delete [] this->message_buf_; } // Options Singleton. typedef ACE_Singleton OPTIONS; int Options::init (void) { // Check for default case. if (this->message_len_ == 0) this->message_len_ = ACE_OS::strlen ("TAO"); this->message_len_ += sizeof (ACE_UINT32); ACE_NEW_RETURN (this->message_buf_, char[this->message_len_], -1); // Copy the length into the beginning of the message. ACE_UINT32 length = ntohl (ACE_Utils::truncate_cast (this->message_len_)); ACE_OS::memcpy ((void *) this->message_buf_, (void *) &length, sizeof length); ACE_OS::memset ((void *) (this->message_buf_ + sizeof (ACE_UINT32)), 'a', this->message_len_ - sizeof (ACE_UINT32)); return 0; } size_t Options::message_len () const { return this->message_len_; } const void * Options::message_buf () const { return this->message_buf_; } ssize_t Options::read (void *buf, size_t len, size_t &iteration) { if (this->io_source_ == ACE_STDIN) return ACE_OS::read (ACE_STDIN, buf, len); else if (iteration >= this->iterations_) return 0; else { ACE_OS::memcpy (buf, this->message_buf (), len); ++iteration; return ACE_Utils::truncate_cast (len); } } int Options::parse_args (int argc, ACE_TCHAR *argv[]) { //FUZZ: disable check_for_lack_ACE_OS ACE_Get_Opt getopt (argc, argv, ACE_TEXT ("2h:i:m:p:q:sT:"), 1); for (int c; (c = getopt ()) != -1; ) //FUZZ: enable check_for_lack_ACE_OS switch (c) { case '2': // Disable the oneway client. this->oneway_ = 0; break; case 'h': this->host_ = getopt.opt_arg (); break; case 'i': this->iterations_ = ACE_OS::atoi (getopt.opt_arg ()); break; case 'm': this->message_len_ = ACE_OS::atoi (getopt.opt_arg ()); break; case 'p': this->port_ = ACE_OS::atoi (getopt.opt_arg ()); break; case 'q': ACE_OS::strncpy (this->quit_string_, ACE_TEXT_ALWAYS_CHAR (getopt.opt_arg ()), QUIT_STRING_SIZE); break; case 's': this->io_source_ = ACE_STDIN; break; case 'T': this->sleep_time_.set (0, ACE_OS::atoi (getopt.opt_arg ())); break; default: ACE_ERROR_RETURN ((LM_ERROR, ACE_TEXT ("(%P|%t) usage: %n [-2] [-h ] ") ACE_TEXT ("[-i iterations] [-m message-size] ") ACE_TEXT ("[-p ] [-q ] ") ACE_TEXT ("[-s] [-T ]\n")), -1); } return this->init (); } u_short Options::port () const { return this->port_; } const ACE_TCHAR * Options::host () const { return this->host_; } const char * Options::quit_string () const { return this->quit_string_; } const ACE_Time_Value & Options::sleep_time () const { return this->sleep_time_; } char * Options::shared_client_test (u_short port, ACE_SSL_SOCK_Stream &cli_stream) { ACE_INET_Addr remote_addr (port, this->host_); ACE_SSL_SOCK_Connector con; if (con.connect (cli_stream, remote_addr) == -1) ACE_ERROR_RETURN ((LM_ERROR, ACE_TEXT ("(%P|%t) %p\n"), ACE_TEXT ("connection failed")), 0); else ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) connected to %C at port %d\n"), remote_addr.get_host_name (), remote_addr.get_port_number ())); char *buf; ACE_NEW_RETURN (buf, char[this->message_len ()], 0); ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) waiting...\n"))); return buf; } // Static function entry point to the oneway client service. void Options::oneway_client_test (void) { ACE_SSL_SOCK_Stream cli_stream; // Add 1 to the port to trigger the oneway test! char *request = this->shared_client_test (this->port () + 1, cli_stream); if (request == 0) return; // This variable is allocated off the stack to obviate the need for // locking. size_t iteration = 0; ACE_INT32 len = ACE_Utils::truncate_cast (this->message_len ()); ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) starting oneway transmission\n"))); // Perform oneway transmission of data to server (correctly handles // "incomplete writes"). for (ssize_t r_bytes; (r_bytes = this->read (request, len, iteration)) > 0; // Transmit at the proper rate. ACE_OS::sleep (this->sleep_time ())) if (ACE_OS::memcmp (request, this->quit_string (), ACE_OS::strlen (this->quit_string ())) == 0) break; else if (cli_stream.send_n (request, r_bytes) == -1) { ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%P|%t) %p\n"), ACE_TEXT ("send_n"))); break; } // Close the connection. cli_stream.close (); delete [] request; } // Static function entry point to the twoway client service. void Options::twoway_client_test (void) { ACE_SSL_SOCK_Stream cli_stream; char *request = this->shared_client_test (this->port (), cli_stream); if (request == 0) return; // This variable is allocated off the stack to obviate the need for // locking. size_t iteration = 0; // Timer business. ACE_High_Res_Timer timer; ACE_INT32 len = ACE_Utils::truncate_cast (this->message_len ()); ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) starting twoway transmission\n"))); // Perform twoway transmission of data to server (correctly handles // "incomplete writes"). for (ssize_t r_bytes; (r_bytes = this->read (request, len, iteration)) > 0; // Transmit at the proper rate. ACE_OS::sleep (this->sleep_time ())) if (ACE_OS::memcmp (request, this->quit_string (), ACE_OS::strlen (this->quit_string ())) == 0) break; // Transmit to the server. else { // Note that we use the incremental feature of the // so that we don't get "charged" for the // used to control the rate at which requests // are sent. timer.start_incr (); if (cli_stream.send_n (request, r_bytes) == -1) { ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%P|%t) %p\n"), ACE_TEXT ("send_n"))); break; } // Receive the reply from the server. Normally, it just sends // back 24 bytes, which is typical for an IIOP reply. else if (cli_stream.recv (request, r_bytes) <= 0) { ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%P|%t) %p\n"), ACE_TEXT ("recv"))); break; } timer.stop_incr (); } ACE_Time_Value tv; timer.elapsed_time_incr (tv); double real_time = static_cast (tv.sec () * ACE_ONE_SECOND_IN_USECS + tv.usec ()); double messages_per_sec = iteration * double (ACE_ONE_SECOND_IN_USECS) / real_time; ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%t) messages = %d\n(%t) usec-per-message = %f\n(%t) messages-per-second = %0.00f\n"), iteration, real_time / double (iteration), messages_per_sec < 0 ? 0 : messages_per_sec)); // Close the connection. cli_stream.close (); delete [] request; } void Options::run (void) { if (this->oneway_ == 0) this->twoway_client_test (); else this->oneway_client_test (); } static int run_client (void) { // Raise the socket handle limit to the maximum. ACE::set_handle_limit (); OPTIONS::instance ()->run (); return 0; } int ACE_TMAIN (int argc, ACE_TCHAR *argv[]) { // Initialize the logger. ACE_LOG_MSG->open (argv[0]); if (OPTIONS::instance ()->parse_args (argc, argv) == -1) return -1; // Run the client run_client (); return 0; }