// $Id$ #include "global.h" #include "Options.h" #include "Rwho_DB_Manager.h" #include "ace/Log_Msg.h" // Change to the RWHO directory to speed up and simplify later // processing. This requires opening the directory for reading with // the directory iterator abstraction and then skipping the first two // files in the directory, which are assumed to be "." and ".." (this // function needs to be changed if this assumption does not hold!) RWho_DB_Manager::RWho_DB_Manager (void) : number_of_users (0), current_user (0), WHOD_HEADER_SIZE (sizeof host_data - sizeof host_data.wd_we), rwho_dir_name (RWHODIR) { if (ACE_OS::getcwd (this->original_pathname, MAXPATHLEN + 1) == 0) ACE_ERROR ((LM_ERROR, "%p\n%a", Options::program_name, 1)); if (ACE_OS::chdir (this->rwho_dir_name) < 0) ACE_ERROR ((LM_ERROR, "%p\n%a", this->rwho_dir_name, 1)); this->rwho_dir.open (this->rwho_dir_name); #if 0 // Skip "." and ".." this->rwho_dir.read (); this->rwho_dir.read (); #endif } // The destructor cleans up the RWHOD_DIR handle. RWho_DB_Manager::~RWho_DB_Manager (void) { if (ACE_OS::chdir (this->original_pathname) < 0) ACE_ERROR ((LM_ERROR, "%p\n%a", Options::program_name, 1)); if (Options::get_opt (Options::DEBUG)) ACE_DEBUG ((LM_DEBUG, "disposing the RWho_DB_Manager\n")); } // This procedure looks through the rwhod directory until it finds the next // valid user file. // // The requirements for user files are: // 1) The file is at least MIN_HOST_DATA_SIZE bytes long // 2) It was received within the last MAX_HOST_TIMEOUT seconds // Return: // Are there any more hosts? */ int RWho_DB_Manager::get_next_host (void) { time_t current_time; ACE_OS::time (¤t_time); // Go through each file in the directory looking for valid entries. for (dirent *dir_ptr = this->rwho_dir.read (); dir_ptr != 0; dir_ptr = this->rwho_dir.read ()) { ACE_HANDLE user_file = ACE_OS::open (dir_ptr->d_name, O_RDONLY); if (user_file < 0) return -1; int host_data_length = ACE_OS::read (user_file, (char *) &this->host_data, sizeof this->host_data); if (host_data_length > WHOD_HEADER_SIZE && current_time - this->host_data.wd_recvtime < MAX_HOST_TIMEOUT) { this->current_user = 0; this->number_of_users = (host_data_length - WHOD_HEADER_SIZE) / sizeof *this->host_data.wd_we; ACE_OS::close (user_file); return 1; // We found a good host, so return it. } else ACE_OS::close (user_file); } // There are no more hosts, so return False. return 0; } // Returns the next user's information. Note that for efficiency only // pointers are copied, i.e., this info must be used before we call // this function again. int RWho_DB_Manager::get_next_user (Protocol_Record &protocol_record) { // Get the next host file if necessary if (this->current_user >= this->number_of_users && this->get_next_host () == 0) return 0; protocol_record.set_login (this->host_data.wd_we[current_user].we_utmp.out_name); Drwho_Node *current_node = protocol_record.get_drwho_list (); current_node->set_host_name (this->host_data.wd_hostname); current_node->set_idle_time (this->host_data.wd_we[current_user].we_idle); this->current_user++; return 1; }