/*************************************************************************** * engine_select.c -- select(2) based IO engine. * * * ***********************IMPORTANT NSOCK LICENSE TERMS*********************** * * The nsock parallel socket event library is (C) 1999-2024 Nmap Software LLC * This library is free software; you may redistribute and/or modify it under * the terms of the GNU General Public License as published by the Free Software * Foundation; Version 2. This guarantees your right to use, modify, and * redistribute this software under certain conditions. If this license is * unacceptable to you, Nmap Software LLC may be willing to sell alternative * licenses (contact sales@nmap.com ). * * As a special exception to the GPL terms, Nmap Software LLC grants permission * to link the code of this program with any version of the OpenSSL library * which is distributed under a license identical to that listed in the included * docs/licenses/OpenSSL.txt file, and distribute linked combinations including * the two. You must obey the GNU GPL in all respects for all of the code used * other than OpenSSL. If you modify this file, you may extend this exception to * your version of the file, but you are not obligated to do so. * * If you received these files with a written license agreement stating terms * other than the (GPL) terms above, then that alternative license agreement * takes precedence over this comment. * * Source is provided to this software because we believe users have a right to * know exactly what a program is going to do before they run it. This also * allows you to audit the software for security holes. * * Source code also allows you to port Nmap to new platforms, fix bugs, and add * new features. You are highly encouraged to send your changes to the * dev@nmap.org mailing list for possible incorporation into the main * distribution. By sending these changes to Fyodor or one of the Insecure.Org * development mailing lists, or checking them into the Nmap source code * repository, it is understood (unless you specify otherwise) that you are * offering the Nmap Project (Nmap Software LLC) the unlimited, non-exclusive * right to reuse, modify, and relicense the code. Nmap will always be available * Open Source, but this is important because the inability to relicense code * has caused devastating problems for other Free Software projects (such as KDE * and NASM). We also occasionally relicense the code to third parties as * discussed above. If you wish to specify special license conditions of your * contributions, just say so when you send them. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU General Public License v2.0 for more * details (http://www.gnu.org/licenses/gpl-2.0.html). * ***************************************************************************/ /* $Id$ */ #ifndef WIN32 #include #endif #include #include "nsock_internal.h" #include "nsock_log.h" #if HAVE_PCAP #include "nsock_pcap.h" #endif extern struct io_operations posix_io_operations; /* --- ENGINE INTERFACE PROTOTYPES --- */ static int select_init(struct npool *nsp); static void select_destroy(struct npool *nsp); static int select_iod_register(struct npool *nsp, struct niod *iod, struct nevent *nse, int ev); static int select_iod_unregister(struct npool *nsp, struct niod *iod); static int select_iod_modify(struct npool *nsp, struct niod *iod, struct nevent *nse, int ev_set, int ev_clr); static int select_loop(struct npool *nsp, int msec_timeout); /* ---- ENGINE DEFINITION ---- */ struct io_engine engine_select = { "select", select_init, select_destroy, select_iod_register, select_iod_unregister, select_iod_modify, select_loop, &posix_io_operations }; /* --- INTERNAL PROTOTYPES --- */ static void iterate_through_event_lists(struct npool *nsp); /* defined in nsock_core.c */ void process_event(struct npool *nsp, gh_list_t *evlist, struct nevent *nse, int ev); void process_iod_events(struct npool *nsp, struct niod *nsi, int ev); void process_expired_events(struct npool *nsp); #if HAVE_PCAP #ifndef PCAP_CAN_DO_SELECT int pcap_read_on_nonselect(struct npool *nsp); #endif #endif /* defined in nsock_event.c */ void update_first_events(struct nevent *nse); extern struct timeval nsock_tod; /* * Engine specific data structure */ struct select_engine_info { /* Descriptors which have pending READ events */ fd_set fds_master_r; /* Descriptors we are trying to WRITE to */ fd_set fds_master_w; /* Looking for exceptional events -- used with connect */ fd_set fds_master_x; /* For keeping track of the select results */ fd_set fds_results_r, fds_results_w, fds_results_x; /* The highest sd we have set in any of our fd_set's (max_sd + 1 is used in * select() calls). Note that it can be -1, when there are no valid sockets */ int max_sd; }; int select_init(struct npool *nsp) { struct select_engine_info *sinfo; sinfo = (struct select_engine_info *)safe_malloc(sizeof(struct select_engine_info)); FD_ZERO(&sinfo->fds_master_r); FD_ZERO(&sinfo->fds_master_w); FD_ZERO(&sinfo->fds_master_x); sinfo->max_sd = -1; nsp->engine_data = (void *)sinfo; return 1; } void select_destroy(struct npool *nsp) { assert(nsp->engine_data != NULL); free(nsp->engine_data); } int select_iod_register(struct npool *nsp, struct niod *iod, struct nevent *nse, int ev) { assert(!IOD_PROPGET(iod, IOD_REGISTERED)); iod->watched_events = ev; select_iod_modify(nsp, iod, nse, ev, EV_NONE); IOD_PROPSET(iod, IOD_REGISTERED); return 1; } int select_iod_unregister(struct npool *nsp, struct niod *iod) { struct select_engine_info *sinfo = (struct select_engine_info *)nsp->engine_data; iod->watched_events = EV_NONE; /* some IODs can be unregistered here if they're associated to an event that was * immediately completed */ if (IOD_PROPGET(iod, IOD_REGISTERED)) { #if HAVE_PCAP if (iod->pcap) { int sd = ((mspcap *)iod->pcap)->pcap_desc; if (sd >= 0) { checked_fd_clr(sd, &sinfo->fds_master_r); checked_fd_clr(sd, &sinfo->fds_results_r); } } else #endif { checked_fd_clr(iod->sd, &sinfo->fds_master_r); checked_fd_clr(iod->sd, &sinfo->fds_master_w); checked_fd_clr(iod->sd, &sinfo->fds_master_x); checked_fd_clr(iod->sd, &sinfo->fds_results_r); checked_fd_clr(iod->sd, &sinfo->fds_results_w); checked_fd_clr(iod->sd, &sinfo->fds_results_x); } if (sinfo->max_sd == iod->sd) sinfo->max_sd--; IOD_PROPCLR(iod, IOD_REGISTERED); } return 1; } int select_iod_modify(struct npool *nsp, struct niod *iod, struct nevent *nse, int ev_set, int ev_clr) { int sd; struct select_engine_info *sinfo = (struct select_engine_info *)nsp->engine_data; assert((ev_set & ev_clr) == 0); iod->watched_events |= ev_set; iod->watched_events &= ~ev_clr; ev_set |= EV_EXCEPT; ev_clr &= ~EV_EXCEPT; sd = nsock_iod_get_sd(iod); /* -- set events -- */ if (ev_set & EV_READ) checked_fd_set(sd, &sinfo->fds_master_r); if (ev_set & EV_WRITE) checked_fd_set(sd, &sinfo->fds_master_w); if (ev_set & EV_EXCEPT) checked_fd_set(sd, &sinfo->fds_master_x); /* -- clear events -- */ if (ev_clr & EV_READ) checked_fd_clr(sd, &sinfo->fds_master_r); if (ev_clr & EV_WRITE) checked_fd_clr(sd, &sinfo->fds_master_w); if (ev_clr & EV_EXCEPT) checked_fd_clr(sd, &sinfo->fds_master_x); /* -- update max_sd -- */ if (ev_set != EV_NONE) sinfo->max_sd = MAX(sinfo->max_sd, sd); else if (ev_clr != EV_NONE && iod->events_pending == 1 && (sinfo->max_sd == sd)) sinfo->max_sd--; return 1; } int select_loop(struct npool *nsp, int msec_timeout) { int results_left = 0; int event_msecs; /* msecs before an event goes off */ int combined_msecs; int sock_err = 0; struct timeval select_tv; struct timeval *select_tv_p; struct select_engine_info *sinfo = (struct select_engine_info *)nsp->engine_data; assert(msec_timeout >= -1); if (nsp->events_pending == 0) return 0; /* No need to wait on 0 events ... */ do { struct nevent *nse; nsock_log_debug_all("wait for events"); nse = next_expirable_event(nsp); if (!nse) event_msecs = -1; /* None of the events specified a timeout */ else event_msecs = MAX(0, TIMEVAL_MSEC_SUBTRACT(nse->timeout, nsock_tod)); #if HAVE_PCAP #ifndef PCAP_CAN_DO_SELECT /* Force a low timeout when capturing packets on systems where * the pcap descriptor is not select()able. */ if (gh_list_count(&nsp->pcap_read_events)) if (event_msecs > PCAP_POLL_INTERVAL) event_msecs = PCAP_POLL_INTERVAL; #endif #endif /* We cast to unsigned because we want -1 to be very high (since it means no * timeout) */ combined_msecs = MIN((unsigned)event_msecs, (unsigned)msec_timeout); /* Set up the timeval pointer we will give to select() */ memset(&select_tv, 0, sizeof(select_tv)); if (combined_msecs > 0) { select_tv.tv_sec = combined_msecs / 1000; select_tv.tv_usec = (combined_msecs % 1000) * 1000; select_tv_p = &select_tv; } else if (combined_msecs == 0) { /* we want the tv_sec and tv_usec to be zero but they already are from bzero */ select_tv_p = &select_tv; } else { assert(combined_msecs == -1); select_tv_p = NULL; } #if HAVE_PCAP #ifndef PCAP_CAN_DO_SELECT /* do non-blocking read on pcap devices that doesn't support select() * If there is anything read, just leave this loop. */ if (pcap_read_on_nonselect(nsp)) { /* okay, something was read. */ } else #endif #endif { /* Set up the descriptors for select */ sinfo->fds_results_r = sinfo->fds_master_r; sinfo->fds_results_w = sinfo->fds_master_w; sinfo->fds_results_x = sinfo->fds_master_x; results_left = fselect(sinfo->max_sd + 1, &sinfo->fds_results_r, &sinfo->fds_results_w, &sinfo->fds_results_x, select_tv_p); if (results_left == -1) sock_err = socket_errno(); } gettimeofday(&nsock_tod, NULL); /* Due to select delay */ } while (results_left == -1 && sock_err == EINTR); /* repeat only if signal occurred */ if (results_left == -1 && sock_err != EINTR) { nsock_log_error("nsock_loop error %d: %s", sock_err, socket_strerror(sock_err)); nsp->errnum = sock_err; return -1; } iterate_through_event_lists(nsp); return 1; } /* ---- INTERNAL FUNCTIONS ---- */ static inline int get_evmask(const struct npool *nsp, const struct niod *nsi) { struct select_engine_info *sinfo = (struct select_engine_info *)nsp->engine_data; int sd, evmask; evmask = EV_NONE; #if HAVE_PCAP #ifndef PCAP_CAN_DO_SELECT if (nsi->pcap) { /* Always assume readable for a non-blocking read. We can't check checked_fd_isset because we don't have a pcap_desc. */ evmask |= EV_READ; return evmask; } #endif #endif #if HAVE_PCAP if (nsi->pcap) sd = ((mspcap *)nsi->pcap)->pcap_desc; else #endif sd = nsi->sd; assert(sd >= 0); if (checked_fd_isset(sd, &sinfo->fds_results_r)) evmask |= EV_READ; if (checked_fd_isset(sd, &sinfo->fds_results_w)) evmask |= EV_WRITE; if (checked_fd_isset(sd, &sinfo->fds_results_x)) evmask |= EV_EXCEPT; return evmask; } /* Iterate through all the event lists (such as connect_events, read_events, * timer_events, etc) and take action for those that have completed (due to * timeout, i/o, etc) */ void iterate_through_event_lists(struct npool *nsp) { gh_lnode_t *current, *next, *last; last = gh_list_last_elem(&nsp->active_iods); for (current = gh_list_first_elem(&nsp->active_iods); current != NULL && gh_lnode_prev(current) != last; current = next) { struct niod *nsi = container_of(current, struct niod, nodeq); if (nsi->state != NSIOD_STATE_DELETED && nsi->events_pending) process_iod_events(nsp, nsi, get_evmask(nsp, nsi)); next = gh_lnode_next(current); if (nsi->state == NSIOD_STATE_DELETED) { gh_list_remove(&nsp->active_iods, current); gh_list_prepend(&nsp->free_iods, current); } } /* iterate through timers and expired events */ process_expired_events(nsp); }