/* Unix SMB/CIFS implementation. Main select loop and event handling - Solaris port implementation. Losely based on the Linux epoll backend. Copyright (C) Jeremy Allison 2013 ** NOTE! The following LGPL license applies to the tevent ** library. This does NOT imply that all of Samba is released ** under the LGPL This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, see . */ #include "replace.h" #include "system/filesys.h" #include "system/select.h" #include "tevent.h" #include "tevent_internal.h" #include "tevent_util.h" struct port_associate_vals { struct port_associate_vals *prev, *next; struct port_event_context *port_ev; int events; struct tevent_fd *fde; bool associated_event; }; struct port_event_context { /* a pointer back to the generic event_context */ struct tevent_context *ev; /* This is the handle from port_create */ int port_fd; pid_t pid; /* List of associations. */ struct port_associate_vals *po_vals; }; #define PORT_ADDITIONAL_FD_FLAG_HAS_ASSOCIATION (1<<0) #define PORT_ADDITIONAL_FD_FLAG_REPORT_ERROR (1<<1) #define PORT_ADDITIONAL_FD_FLAG_GOT_ERROR (1<<2) #define PORT_ADDITIONAL_FD_FLAG_HAS_MPX (1<<3) /* Map from TEVENT_FD_* to POLLIN/POLLOUT */ static int port_map_flags(uint16_t flags) { int ret = 0; if (flags & TEVENT_FD_READ) ret |= (POLLIN | POLLERR | POLLHUP); if (flags & TEVENT_FD_WRITE) ret |= (POLLOUT | POLLERR | POLLHUP); return ret; } /* Free the port fd */ static int port_ctx_destructor(struct port_event_context *port_ev) { close(port_ev->port_fd); port_ev->port_fd = -1; return 0; } /* Init the port fd */ static int port_init_ctx(struct port_event_context *port_ev) { port_ev->port_fd = port_create(); if (port_ev->port_fd == -1) { tevent_debug(port_ev->ev, TEVENT_DEBUG_FATAL, "Failed to create port handle.\n"); return -1; } if (!ev_set_close_on_exec(port_ev->port_fd)) { tevent_debug(port_ev->ev, TEVENT_DEBUG_WARNING, "Failed to set close-on-exec, file descriptor may be leaked to children.\n"); } port_ev->pid = getpid(); talloc_set_destructor(port_ev, port_ctx_destructor); return 0; } /* Functions to manage the lower level cache of associated events on the port_fd. */ static int port_associate_vals_destructor(struct port_associate_vals *val) { DLIST_REMOVE(val->port_ev->po_vals, val); memset(val, '\0', sizeof(struct port_associate_vals)); return 0; } /* * TODO: As the port_association is per-fde, it should be possible to store it * directly in fde->additional_data, alongside any multiplexed-fde. That way the * lookup on store and delete would be avoided, and associate_all_events() could * walk the ev->fd_events list. */ static bool store_port_association(struct port_event_context *port_ev, struct tevent_fd *fde, int events) { struct port_associate_vals *val; for (val = port_ev->po_vals; val; val = val->next) { if (val->fde->fd == fde->fd) { /* Association already attached to fd. */ if (val->events != events) { val->events = events; val->associated_event = false; } return true; } } val = talloc_zero(port_ev, struct port_associate_vals); if (val == NULL) { return false; } val->port_ev = port_ev; val->fde = fde; val->events = events; val->associated_event = false; DLIST_ADD(port_ev->po_vals, val); talloc_set_destructor(val, port_associate_vals_destructor); return true; } static void delete_port_association(struct port_event_context *port_ev, struct tevent_fd *fde) { struct port_associate_vals *val; for (val = port_ev->po_vals; val; val = val->next) { if (val->fde == fde) { if (val->associated_event) { (void)port_dissociate(port_ev->port_fd, PORT_SOURCE_FD, fde->fd); } talloc_free(val); return; } } } static int associate_all_events(struct port_event_context *port_ev) { struct port_associate_vals *val; for (val = port_ev->po_vals; val; val = val->next) { int ret; if (val->associated_event) { continue; } ret = port_associate(port_ev->port_fd, PORT_SOURCE_FD, (uintptr_t)val->fde->fd, val->events, (void *)val); if (ret != 0) { return -1; } val->associated_event = true; } return 0; } static int port_update_event(struct port_event_context *port_ev, struct tevent_fd *fde); /* Reopen the port handle when our pid changes. */ static int port_check_reopen(struct port_event_context *port_ev) { struct tevent_fd *fde; if (port_ev->pid == getpid()) { return 0; } close(port_ev->port_fd); port_ev->port_fd = port_create(); if (port_ev->port_fd == -1) { tevent_debug(port_ev->ev, TEVENT_DEBUG_FATAL, "port_create() failed"); return -1; } if (!ev_set_close_on_exec(port_ev->port_fd)) { tevent_debug(port_ev->ev, TEVENT_DEBUG_WARNING, "Failed to set close-on-exec, file descriptor may be leaked to children.\n"); } port_ev->pid = getpid(); for (fde=port_ev->ev->fd_events;fde;fde=fde->next) { fde->additional_flags &= PORT_ADDITIONAL_FD_FLAG_HAS_ASSOCIATION; if (port_update_event(port_ev, fde) != 0) { return -1; } } return 0; } /* * Solaris ports cannot add the same file descriptor twice, once * with read, once with write which is allowed by the tevent backend. * Multiplex the existing fde, flag it as such so we can search for the * correct fde on event triggering. */ static void port_setup_multiplex_fd(struct port_event_context *port_ev, struct tevent_fd *add_fde, struct tevent_fd *mpx_fde) { /* * Make each fde->additional_data pointers point at each other * so we can look them up from each other. They are now paired. */ mpx_fde->additional_data = add_fde; add_fde->additional_data = mpx_fde; /* Now flag both fde's as being multiplexed. */ mpx_fde->additional_flags |= PORT_ADDITIONAL_FD_FLAG_HAS_MPX; add_fde->additional_flags |= PORT_ADDITIONAL_FD_FLAG_HAS_MPX; /* We need to keep the GOT_ERROR flag. */ if (mpx_fde->additional_flags & PORT_ADDITIONAL_FD_FLAG_GOT_ERROR) { add_fde->additional_flags |= PORT_ADDITIONAL_FD_FLAG_GOT_ERROR; } } /* Add the port event to the given fd_event, Or modify an existing event. */ static int port_add_event(struct port_event_context *port_ev, struct tevent_fd *fde) { int flags = port_map_flags(fde->flags); struct tevent_fd *mpx_fde = NULL; fde->additional_flags &= ~PORT_ADDITIONAL_FD_FLAG_HAS_ASSOCIATION; fde->additional_flags &= ~PORT_ADDITIONAL_FD_FLAG_REPORT_ERROR; if (fde->additional_flags & PORT_ADDITIONAL_FD_FLAG_HAS_MPX) { /* * This is already a multiplexed fde, we need to include both * flags in the modified event. */ mpx_fde = talloc_get_type_abort(fde->additional_data, struct tevent_fd); mpx_fde->additional_flags &= ~PORT_ADDITIONAL_FD_FLAG_HAS_ASSOCIATION; mpx_fde->additional_flags &= ~PORT_ADDITIONAL_FD_FLAG_REPORT_ERROR; flags |= port_map_flags(mpx_fde->flags); } else { /* * Not (yet) a multiplexed event. See if there * is already an event with the same fd. */ for (mpx_fde = port_ev->ev->fd_events; mpx_fde; mpx_fde = mpx_fde->next) { if (mpx_fde->fd != fde->fd) { continue; } if (mpx_fde == fde) { continue; } /* Same fd. */ break; } if (mpx_fde) { if (mpx_fde->additional_flags & PORT_ADDITIONAL_FD_FLAG_HAS_MPX) { /* Logic error. Can't have more then 2 multiplexed fde's. */ tevent_debug(port_ev->ev, TEVENT_DEBUG_FATAL, "multiplex fde for fd[%d] is already multiplexed\n", mpx_fde->fd); return -1; } flags |= port_map_flags(mpx_fde->flags); } } if (!store_port_association(port_ev, fde, flags)) { tevent_debug(port_ev->ev, TEVENT_DEBUG_FATAL, "store_port_association failed for fd[%d]\n", fde->fd); return -1; } /* Note we have an association now. */ fde->additional_flags |= PORT_ADDITIONAL_FD_FLAG_HAS_ASSOCIATION; /* Only if we want to read do we tell the event handler about errors. */ if (fde->flags & TEVENT_FD_READ) { fde->additional_flags |= PORT_ADDITIONAL_FD_FLAG_REPORT_ERROR; } if (mpx_fde == NULL) { return 0; } /* Set up the multiplex pointer. Does no harm if already multiplexed. */ port_setup_multiplex_fd(port_ev, fde, mpx_fde); mpx_fde->additional_flags |= PORT_ADDITIONAL_FD_FLAG_HAS_ASSOCIATION; /* Only if we want to read do we tell the event handler about errors. */ if (mpx_fde->flags & TEVENT_FD_READ) { mpx_fde->additional_flags |= PORT_ADDITIONAL_FD_FLAG_REPORT_ERROR; } return 0; } /* Delete the port association for the given fd_event. */ static void port_del_event(struct port_event_context *port_ev, struct tevent_fd *fde) { struct tevent_fd *mpx_fde = NULL; fde->additional_flags &= ~PORT_ADDITIONAL_FD_FLAG_HAS_ASSOCIATION; fde->additional_flags &= ~PORT_ADDITIONAL_FD_FLAG_REPORT_ERROR; if (fde->additional_flags & PORT_ADDITIONAL_FD_FLAG_HAS_MPX) { /* * This is a multiplexed fde, we need to remove * both associations. */ mpx_fde = talloc_get_type_abort(fde->additional_data, struct tevent_fd); mpx_fde->additional_flags &= ~PORT_ADDITIONAL_FD_FLAG_HAS_ASSOCIATION; mpx_fde->additional_flags &= ~PORT_ADDITIONAL_FD_FLAG_REPORT_ERROR; mpx_fde->additional_data = NULL; fde->additional_data = NULL; } delete_port_association(port_ev, fde); } /* Add or remove the port event from the given fd_event */ static int port_update_event(struct port_event_context *port_ev, struct tevent_fd *fde) { bool got_error = (fde->additional_flags & PORT_ADDITIONAL_FD_FLAG_GOT_ERROR); bool want_read = (fde->flags & TEVENT_FD_READ); bool want_write = (fde->flags & TEVENT_FD_WRITE); struct tevent_fd *mpx_fde = NULL; if (fde->additional_flags & PORT_ADDITIONAL_FD_FLAG_HAS_MPX) { /* * work out what the multiplexed fde wants. */ mpx_fde = talloc_get_type_abort(fde->additional_data, struct tevent_fd); if (mpx_fde->flags & TEVENT_FD_READ) { want_read = true; } if (mpx_fde->flags & TEVENT_FD_WRITE) { want_write = true; } } if (fde->additional_flags & PORT_ADDITIONAL_FD_FLAG_HAS_ASSOCIATION) { /* There's already an association. */ if (want_read || (want_write && !got_error)) { return port_add_event(port_ev, fde); } /* * If we want to match the select behavior, we need to remove the port event * when the caller isn't interested in events. */ port_del_event(port_ev, fde); return 0; } /* There's no port event attached to the fde. */ if (want_read || (want_write && !got_error)) { return port_add_event(port_ev, fde); } return 0; } /* Cope with port_get returning EPOLLHP|EPOLLERR on an association. Return true if there's nothing else to do, false if this event needs further handling. */ static bool port_handle_hup_or_err(struct port_event_context *port_ev, struct tevent_fd *fde) { if (fde == NULL) { return true; } fde->additional_flags |= PORT_ADDITIONAL_FD_FLAG_GOT_ERROR; /* * If we only wait for TEVENT_FD_WRITE, we should not tell the * event handler about it, and remove the port association, * as we only report error when waiting for read events, * to match the select() behavior. */ if (!(fde->additional_flags & PORT_ADDITIONAL_FD_FLAG_REPORT_ERROR)) { /* * Do the same as the poll backend and * remove the writable flag. */ fde->flags &= ~TEVENT_FD_WRITE; return true; } /* This has TEVENT_FD_READ set, we're not finished. */ return false; } /* Event loop handling using Solaris ports. */ static int port_event_loop(struct port_event_context *port_ev, struct timeval *tvalp) { int ret; #define MAXEVENTS 1 port_event_t events[MAXEVENTS]; uint_t nget = 1; uint_t max_events = MAXEVENTS; uint_t i; int port_errno; struct timespec ts; struct tevent_context *ev = port_ev->ev; if (tvalp) { ts.tv_sec = tvalp->tv_sec; ts.tv_nsec = tvalp->tv_usec * 1000; } if (port_ev->ev->signal_events && tevent_common_check_signal(ev)) { return 0; } /* * Solaris triggers sending the event to the port * at the time the port association is done. Postpone * associating fd's until just before we get the events, * otherwise we can deadlock. */ if (associate_all_events(port_ev) != 0) { return -1; } tevent_trace_point_callback(ev, TEVENT_TRACE_BEFORE_WAIT); ret = port_getn(port_ev->port_fd, events, max_events, &nget, &ts); port_errno = errno; tevent_trace_point_callback(ev, TEVENT_TRACE_AFTER_WAIT); if (ret == -1 && port_errno == EINTR) { if (ev->signal_events) { tevent_common_check_signal(ev); } /* * If no signal handlers we got an unsolicited * signal wakeup. This can happen with epoll * too. Just return and ignore. */ return 0; } if (ret == -1 && port_errno == ETIME) { /* * If errno is set to ETIME it is possible that we still got an event. * In that case we need to go through the processing loop so that we * reassociate the received event with the port or the association will * be lost so check the value of nget is 0 before returning. */ if (nget == 0) { /* we don't care about a possible delay here */ tevent_common_loop_timer_delay(ev); return 0; } /* * Set the return value to 0 since we do not actually have an error and we * do have events that need to be processed. This keeps us from getting * caught in the generic error test. */ ret = 0; } if (ret == -1) { tevent_debug(ev, TEVENT_DEBUG_ERROR, "port_get failed (%s)\n", strerror(errno)); return -1; } for (i = 0; i < nget; i++) { struct tevent_fd *mpx_fde = NULL; struct tevent_fd *fde = NULL; uint16_t flags = 0; struct port_associate_vals *val = talloc_get_type(events[i].portev_user, struct port_associate_vals); if (val == NULL) { tevent_debug(ev, TEVENT_DEBUG_ERROR, "port_getn() gave bad data"); return -1; } /* Mark this event as needing to be re-associated. */ val->associated_event = false; fde = val->fde; if (fde->additional_flags & PORT_ADDITIONAL_FD_FLAG_HAS_MPX) { /* * Save off the multiplexed event in case we need * to use it to call the handler function. */ mpx_fde = talloc_get_type_abort(fde->additional_data, struct tevent_fd); } if (events[i].portev_events & (POLLHUP|POLLERR)) { bool handled_fde = port_handle_hup_or_err(port_ev, fde); bool handled_mpx = port_handle_hup_or_err(port_ev, mpx_fde); if (handled_fde && handled_mpx) { return port_update_event(port_ev, fde); } if (!handled_mpx) { /* * If the mpx event was the one that needs * further handling, it's the TEVENT_FD_READ * event so switch over and call that handler. */ fde = mpx_fde; mpx_fde = NULL; } flags |= TEVENT_FD_READ; } if (events[i].portev_events & POLLIN) { flags |= TEVENT_FD_READ; } if (events[i].portev_events & POLLOUT) { flags |= TEVENT_FD_WRITE; } if (flags & TEVENT_FD_WRITE) { if (fde->flags & TEVENT_FD_WRITE) { mpx_fde = NULL; } if (mpx_fde && (mpx_fde->flags & TEVENT_FD_WRITE)) { fde = mpx_fde; mpx_fde = NULL; } if (mpx_fde) { /* Ensure we got the right fde. */ if ((flags & fde->flags) == 0) { fde = mpx_fde; mpx_fde = NULL; } } } /* * Make sure we only pass the flags * the handler is expecting. */ flags &= fde->flags; if (flags) { fde->handler(ev, fde, flags, fde->private_data); break; } } return 0; } /* create a port_event_context structure. */ static int port_event_context_init(struct tevent_context *ev) { int ret; struct port_event_context *port_ev; /* * We might be called during tevent_re_initialise() * which means we need to free our old additional_data. */ TALLOC_FREE(ev->additional_data); port_ev = talloc_zero(ev, struct port_event_context); if (!port_ev) { return -1; } port_ev->ev = ev; port_ev->port_fd = -1; port_ev->pid = (pid_t)-1; ret = port_init_ctx(port_ev); if (ret != 0) { talloc_free(port_ev); return ret; } ev->additional_data = port_ev; return 0; } /* destroy an fd_event */ static int port_event_fd_destructor(struct tevent_fd *fde) { struct tevent_context *ev = fde->event_ctx; struct port_event_context *port_ev = NULL; struct tevent_fd *mpx_fde = NULL; int flags = (int)fde->flags; if (ev == NULL) { return tevent_common_fd_destructor(fde); } port_ev = talloc_get_type_abort(ev->additional_data, struct port_event_context); DLIST_REMOVE(ev->fd_events, fde); if (fde->additional_flags & PORT_ADDITIONAL_FD_FLAG_HAS_MPX) { mpx_fde = talloc_get_type_abort(fde->additional_data, struct tevent_fd); fde->additional_flags &= ~PORT_ADDITIONAL_FD_FLAG_HAS_MPX; mpx_fde->additional_flags &= ~PORT_ADDITIONAL_FD_FLAG_HAS_MPX; fde->additional_data = NULL; mpx_fde->additional_data = NULL; fde->additional_flags &= PORT_ADDITIONAL_FD_FLAG_HAS_ASSOCIATION; } (void)port_check_reopen(port_ev); if (mpx_fde != NULL) { (void)port_update_event(port_ev, mpx_fde); } fde->flags = 0; (void)port_update_event(port_ev, fde); fde->flags = flags; return tevent_common_fd_destructor(fde); } /* add a fd based event return NULL on failure (memory allocation error) */ static struct tevent_fd *port_event_add_fd(struct tevent_context *ev, TALLOC_CTX *mem_ctx, int fd, uint16_t flags, tevent_fd_handler_t handler, void *private_data, const char *handler_name, const char *location) { struct port_event_context *port_ev = talloc_get_type_abort(ev->additional_data, struct port_event_context); struct tevent_fd *fde; fde = tevent_common_add_fd(ev, mem_ctx, fd, flags, handler, private_data, handler_name, location); if (!fde) { return NULL; } talloc_set_destructor(fde, port_event_fd_destructor); if (port_check_reopen(port_ev) != 0) { TALLOC_FREE(fde); return NULL; } if (port_update_event(port_ev, fde) != 0) { TALLOC_FREE(fde); return NULL; } return fde; } /* set the fd event flags */ static void port_event_set_fd_flags(struct tevent_fd *fde, uint16_t flags) { struct tevent_context *ev; struct port_event_context *port_ev; if (fde->flags == flags) { return; } ev = fde->event_ctx; port_ev = talloc_get_type_abort(ev->additional_data, struct port_event_context); fde->flags = flags; (void)port_check_reopen(port_ev); (void)port_update_event(port_ev, fde); } /* do a single event loop using the events defined in ev */ static int port_event_loop_once(struct tevent_context *ev, const char *location) { struct port_event_context *port_ev = talloc_get_type(ev->additional_data, struct port_event_context); struct timeval tval; if (ev->signal_events && tevent_common_check_signal(ev)) { return 0; } if (ev->threaded_contexts != NULL) { tevent_common_threaded_activate_immediate(ev); } if (ev->immediate_events && tevent_common_loop_immediate(ev)) { return 0; } tval = tevent_common_loop_timer_delay(ev); if (tevent_timeval_is_zero(&tval)) { return 0; } if (port_check_reopen(port_ev) != 0) { errno = EINVAL; return -1; } return port_event_loop(port_ev, &tval); } static const struct tevent_ops port_event_ops = { .context_init = port_event_context_init, .add_fd = port_event_add_fd, .set_fd_close_fn = tevent_common_fd_set_close_fn, .get_fd_flags = tevent_common_fd_get_flags, .set_fd_flags = port_event_set_fd_flags, .add_timer = tevent_common_add_timer_v2, .schedule_immediate = tevent_common_schedule_immediate, .add_signal = tevent_common_add_signal, .loop_once = port_event_loop_once, .loop_wait = tevent_common_loop_wait, }; _PRIVATE_ bool tevent_port_init(void) { if (!tevent_register_backend("port", &port_event_ops)) { return false; } tevent_set_default_backend("port"); return true; }