/* * Copyright (c) 2002-2007 Niels Provos * Copyright (c) 2007-2012 Niels Provos, Nick Mathewson * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "event2/event-config.h" #include "evconfig-private.h" #include #ifdef EVENT__HAVE_SYS_TIME_H #include #endif #include #include #include #include #ifdef EVENT__HAVE_STDARG_H #include #endif #ifdef _WIN32 #include #endif #include "event2/util.h" #include "event2/buffer.h" #include "event2/buffer_compat.h" #include "event2/bufferevent.h" #include "event2/bufferevent_struct.h" #include "event2/bufferevent_compat.h" #include "event2/event.h" #include "event-internal.h" #include "log-internal.h" #include "mm-internal.h" #include "bufferevent-internal.h" #include "evbuffer-internal.h" #include "util-internal.h" static void bufferevent_cancel_all_(struct bufferevent *bev); static void bufferevent_finalize_cb_(struct event_callback *evcb, void *arg_); void bufferevent_suspend_read_(struct bufferevent *bufev, bufferevent_suspend_flags what) { struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); BEV_LOCK(bufev); if (!bufev_private->read_suspended) bufev->be_ops->disable(bufev, EV_READ); bufev_private->read_suspended |= what; BEV_UNLOCK(bufev); } void bufferevent_unsuspend_read_(struct bufferevent *bufev, bufferevent_suspend_flags what) { struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); BEV_LOCK(bufev); bufev_private->read_suspended &= ~what; if (!bufev_private->read_suspended && (bufev->enabled & EV_READ)) bufev->be_ops->enable(bufev, EV_READ); BEV_UNLOCK(bufev); } void bufferevent_suspend_write_(struct bufferevent *bufev, bufferevent_suspend_flags what) { struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); BEV_LOCK(bufev); if (!bufev_private->write_suspended) bufev->be_ops->disable(bufev, EV_WRITE); bufev_private->write_suspended |= what; BEV_UNLOCK(bufev); } void bufferevent_unsuspend_write_(struct bufferevent *bufev, bufferevent_suspend_flags what) { struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); BEV_LOCK(bufev); bufev_private->write_suspended &= ~what; if (!bufev_private->write_suspended && (bufev->enabled & EV_WRITE)) bufev->be_ops->enable(bufev, EV_WRITE); BEV_UNLOCK(bufev); } /** * Sometimes bufferevent's implementation can overrun high watermarks * (one of examples is openssl) and in this case if the read callback * will not handle enough data do over condition above the read * callback will never be called again (due to suspend above). * * To avoid this we are scheduling read callback again here, but only * from the user callback to avoid multiple scheduling: * - when the data had been added to it * - when the data had been drained from it (user specified read callback) */ static void bufferevent_inbuf_wm_check(struct bufferevent *bev) { if (!bev->wm_read.high) return; if (!(bev->enabled & EV_READ)) return; if (evbuffer_get_length(bev->input) < bev->wm_read.high) return; bufferevent_trigger(bev, EV_READ, BEV_OPT_DEFER_CALLBACKS); } /* Callback to implement watermarks on the input buffer. Only enabled * if the watermark is set. */ static void bufferevent_inbuf_wm_cb(struct evbuffer *buf, const struct evbuffer_cb_info *cbinfo, void *arg) { struct bufferevent *bufev = arg; size_t size; size = evbuffer_get_length(buf); if (size >= bufev->wm_read.high) bufferevent_wm_suspend_read(bufev); else bufferevent_wm_unsuspend_read(bufev); } static void bufferevent_run_deferred_callbacks_locked(struct event_callback *cb, void *arg) { struct bufferevent_private *bufev_private = arg; struct bufferevent *bufev = &bufev_private->bev; BEV_LOCK(bufev); if ((bufev_private->eventcb_pending & BEV_EVENT_CONNECTED) && bufev->errorcb) { /* The "connected" happened before any reads or writes, so send it first. */ bufev_private->eventcb_pending &= ~BEV_EVENT_CONNECTED; bufev->errorcb(bufev, BEV_EVENT_CONNECTED, bufev->cbarg); } if (bufev_private->readcb_pending && bufev->readcb) { bufev_private->readcb_pending = 0; bufev->readcb(bufev, bufev->cbarg); bufferevent_inbuf_wm_check(bufev); } if (bufev_private->writecb_pending && bufev->writecb) { bufev_private->writecb_pending = 0; bufev->writecb(bufev, bufev->cbarg); } if (bufev_private->eventcb_pending && bufev->errorcb) { short what = bufev_private->eventcb_pending; int err = bufev_private->errno_pending; bufev_private->eventcb_pending = 0; bufev_private->errno_pending = 0; EVUTIL_SET_SOCKET_ERROR(err); bufev->errorcb(bufev, what, bufev->cbarg); } bufferevent_decref_and_unlock_(bufev); } static void bufferevent_run_deferred_callbacks_unlocked(struct event_callback *cb, void *arg) { struct bufferevent_private *bufev_private = arg; struct bufferevent *bufev = &bufev_private->bev; BEV_LOCK(bufev); #define UNLOCKED(stmt) \ do { BEV_UNLOCK(bufev); stmt; BEV_LOCK(bufev); } while(0) if ((bufev_private->eventcb_pending & BEV_EVENT_CONNECTED) && bufev->errorcb) { /* The "connected" happened before any reads or writes, so send it first. */ bufferevent_event_cb errorcb = bufev->errorcb; void *cbarg = bufev->cbarg; bufev_private->eventcb_pending &= ~BEV_EVENT_CONNECTED; UNLOCKED(errorcb(bufev, BEV_EVENT_CONNECTED, cbarg)); } if (bufev_private->readcb_pending && bufev->readcb) { bufferevent_data_cb readcb = bufev->readcb; void *cbarg = bufev->cbarg; bufev_private->readcb_pending = 0; UNLOCKED(readcb(bufev, cbarg)); bufferevent_inbuf_wm_check(bufev); } if (bufev_private->writecb_pending && bufev->writecb) { bufferevent_data_cb writecb = bufev->writecb; void *cbarg = bufev->cbarg; bufev_private->writecb_pending = 0; UNLOCKED(writecb(bufev, cbarg)); } if (bufev_private->eventcb_pending && bufev->errorcb) { bufferevent_event_cb errorcb = bufev->errorcb; void *cbarg = bufev->cbarg; short what = bufev_private->eventcb_pending; int err = bufev_private->errno_pending; bufev_private->eventcb_pending = 0; bufev_private->errno_pending = 0; EVUTIL_SET_SOCKET_ERROR(err); UNLOCKED(errorcb(bufev,what,cbarg)); } bufferevent_decref_and_unlock_(bufev); #undef UNLOCKED } #define SCHEDULE_DEFERRED(bevp) \ do { \ if (event_deferred_cb_schedule_( \ (bevp)->bev.ev_base, \ &(bevp)->deferred)) \ bufferevent_incref_(&(bevp)->bev); \ } while (0) void bufferevent_run_readcb_(struct bufferevent *bufev, int options) { /* Requires that we hold the lock and a reference */ struct bufferevent_private *p = BEV_UPCAST(bufev); if (bufev->readcb == NULL) return; if ((p->options|options) & BEV_OPT_DEFER_CALLBACKS) { p->readcb_pending = 1; SCHEDULE_DEFERRED(p); } else { bufev->readcb(bufev, bufev->cbarg); bufferevent_inbuf_wm_check(bufev); } } void bufferevent_run_writecb_(struct bufferevent *bufev, int options) { /* Requires that we hold the lock and a reference */ struct bufferevent_private *p = BEV_UPCAST(bufev); if (bufev->writecb == NULL) return; if ((p->options|options) & BEV_OPT_DEFER_CALLBACKS) { p->writecb_pending = 1; SCHEDULE_DEFERRED(p); } else { bufev->writecb(bufev, bufev->cbarg); } } #define BEV_TRIG_ALL_OPTS ( \ BEV_TRIG_IGNORE_WATERMARKS| \ BEV_TRIG_DEFER_CALLBACKS \ ) void bufferevent_trigger(struct bufferevent *bufev, short iotype, int options) { bufferevent_incref_and_lock_(bufev); bufferevent_trigger_nolock_(bufev, iotype, options&BEV_TRIG_ALL_OPTS); bufferevent_decref_and_unlock_(bufev); } void bufferevent_run_eventcb_(struct bufferevent *bufev, short what, int options) { /* Requires that we hold the lock and a reference */ struct bufferevent_private *p = BEV_UPCAST(bufev); if (bufev->errorcb == NULL) return; if ((p->options|options) & BEV_OPT_DEFER_CALLBACKS) { p->eventcb_pending |= what; p->errno_pending = EVUTIL_SOCKET_ERROR(); SCHEDULE_DEFERRED(p); } else { bufev->errorcb(bufev, what, bufev->cbarg); } } void bufferevent_trigger_event(struct bufferevent *bufev, short what, int options) { bufferevent_incref_and_lock_(bufev); bufferevent_run_eventcb_(bufev, what, options&BEV_TRIG_ALL_OPTS); bufferevent_decref_and_unlock_(bufev); } int bufferevent_init_common_(struct bufferevent_private *bufev_private, struct event_base *base, const struct bufferevent_ops *ops, enum bufferevent_options options) { struct bufferevent *bufev = &bufev_private->bev; if (!bufev->input) { if ((bufev->input = evbuffer_new()) == NULL) goto err; } if (!bufev->output) { if ((bufev->output = evbuffer_new()) == NULL) goto err; } bufev_private->refcnt = 1; bufev->ev_base = base; /* Disable timeouts. */ evutil_timerclear(&bufev->timeout_read); evutil_timerclear(&bufev->timeout_write); bufev->be_ops = ops; if (bufferevent_ratelim_init_(bufev_private)) goto err; /* * Set to EV_WRITE so that using bufferevent_write is going to * trigger a callback. Reading needs to be explicitly enabled * because otherwise no data will be available. */ bufev->enabled = EV_WRITE; #ifndef EVENT__DISABLE_THREAD_SUPPORT if (options & BEV_OPT_THREADSAFE) { if (bufferevent_enable_locking_(bufev, NULL) < 0) goto err; } #endif if ((options & (BEV_OPT_DEFER_CALLBACKS|BEV_OPT_UNLOCK_CALLBACKS)) == BEV_OPT_UNLOCK_CALLBACKS) { event_warnx("UNLOCK_CALLBACKS requires DEFER_CALLBACKS"); goto err; } if (options & BEV_OPT_UNLOCK_CALLBACKS) event_deferred_cb_init_( &bufev_private->deferred, event_base_get_npriorities(base) / 2, bufferevent_run_deferred_callbacks_unlocked, bufev_private); else event_deferred_cb_init_( &bufev_private->deferred, event_base_get_npriorities(base) / 2, bufferevent_run_deferred_callbacks_locked, bufev_private); bufev_private->options = options; evbuffer_set_parent_(bufev->input, bufev); evbuffer_set_parent_(bufev->output, bufev); return 0; err: if (bufev->input) { evbuffer_free(bufev->input); bufev->input = NULL; } if (bufev->output) { evbuffer_free(bufev->output); bufev->output = NULL; } return -1; } void bufferevent_setcb(struct bufferevent *bufev, bufferevent_data_cb readcb, bufferevent_data_cb writecb, bufferevent_event_cb eventcb, void *cbarg) { BEV_LOCK(bufev); bufev->readcb = readcb; bufev->writecb = writecb; bufev->errorcb = eventcb; bufev->cbarg = cbarg; BEV_UNLOCK(bufev); } void bufferevent_getcb(struct bufferevent *bufev, bufferevent_data_cb *readcb_ptr, bufferevent_data_cb *writecb_ptr, bufferevent_event_cb *eventcb_ptr, void **cbarg_ptr) { BEV_LOCK(bufev); if (readcb_ptr) *readcb_ptr = bufev->readcb; if (writecb_ptr) *writecb_ptr = bufev->writecb; if (eventcb_ptr) *eventcb_ptr = bufev->errorcb; if (cbarg_ptr) *cbarg_ptr = bufev->cbarg; BEV_UNLOCK(bufev); } struct evbuffer * bufferevent_get_input(struct bufferevent *bufev) { return bufev->input; } struct evbuffer * bufferevent_get_output(struct bufferevent *bufev) { return bufev->output; } struct event_base * bufferevent_get_base(struct bufferevent *bufev) { return bufev->ev_base; } int bufferevent_get_priority(const struct bufferevent *bufev) { if (event_initialized(&bufev->ev_read)) { return event_get_priority(&bufev->ev_read); } else { return event_base_get_npriorities(bufev->ev_base) / 2; } } int bufferevent_write(struct bufferevent *bufev, const void *data, size_t size) { if (evbuffer_add(bufev->output, data, size) == -1) return (-1); return 0; } int bufferevent_write_buffer(struct bufferevent *bufev, struct evbuffer *buf) { if (evbuffer_add_buffer(bufev->output, buf) == -1) return (-1); return 0; } size_t bufferevent_read(struct bufferevent *bufev, void *data, size_t size) { return (evbuffer_remove(bufev->input, data, size)); } int bufferevent_read_buffer(struct bufferevent *bufev, struct evbuffer *buf) { return (evbuffer_add_buffer(buf, bufev->input)); } int bufferevent_enable(struct bufferevent *bufev, short event) { struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); short impl_events = event; int r = 0; bufferevent_incref_and_lock_(bufev); if (bufev_private->read_suspended) impl_events &= ~EV_READ; if (bufev_private->write_suspended) impl_events &= ~EV_WRITE; bufev->enabled |= event; if (impl_events && bufev->be_ops->enable(bufev, impl_events) < 0) r = -1; if (r) event_debug(("%s: cannot enable 0x%hx on %p", __func__, event, bufev)); bufferevent_decref_and_unlock_(bufev); return r; } int bufferevent_set_timeouts(struct bufferevent *bufev, const struct timeval *tv_read, const struct timeval *tv_write) { int r = 0; BEV_LOCK(bufev); if (tv_read) { bufev->timeout_read = *tv_read; } else { evutil_timerclear(&bufev->timeout_read); } if (tv_write) { bufev->timeout_write = *tv_write; } else { evutil_timerclear(&bufev->timeout_write); } if (bufev->be_ops->adj_timeouts) r = bufev->be_ops->adj_timeouts(bufev); BEV_UNLOCK(bufev); return r; } /* Obsolete; use bufferevent_set_timeouts */ void bufferevent_settimeout(struct bufferevent *bufev, int timeout_read, int timeout_write) { struct timeval tv_read, tv_write; struct timeval *ptv_read = NULL, *ptv_write = NULL; memset(&tv_read, 0, sizeof(tv_read)); memset(&tv_write, 0, sizeof(tv_write)); if (timeout_read) { tv_read.tv_sec = timeout_read; ptv_read = &tv_read; } if (timeout_write) { tv_write.tv_sec = timeout_write; ptv_write = &tv_write; } bufferevent_set_timeouts(bufev, ptv_read, ptv_write); } int bufferevent_disable_hard_(struct bufferevent *bufev, short event) { int r = 0; struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); BEV_LOCK(bufev); bufev->enabled &= ~event; bufev_private->connecting = 0; if (bufev->be_ops->disable(bufev, event) < 0) r = -1; BEV_UNLOCK(bufev); return r; } int bufferevent_disable(struct bufferevent *bufev, short event) { int r = 0; BEV_LOCK(bufev); bufev->enabled &= ~event; if (bufev->be_ops->disable(bufev, event) < 0) r = -1; if (r) event_debug(("%s: cannot disable 0x%hx on %p", __func__, event, bufev)); BEV_UNLOCK(bufev); return r; } /* * Sets the water marks */ void bufferevent_setwatermark(struct bufferevent *bufev, short events, size_t lowmark, size_t highmark) { struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); BEV_LOCK(bufev); if (events & EV_WRITE) { bufev->wm_write.low = lowmark; bufev->wm_write.high = highmark; } if (events & EV_READ) { bufev->wm_read.low = lowmark; bufev->wm_read.high = highmark; if (highmark) { /* There is now a new high-water mark for read. enable the callback if needed, and see if we should suspend/bufferevent_wm_unsuspend. */ if (bufev_private->read_watermarks_cb == NULL) { bufev_private->read_watermarks_cb = evbuffer_add_cb(bufev->input, bufferevent_inbuf_wm_cb, bufev); } evbuffer_cb_set_flags(bufev->input, bufev_private->read_watermarks_cb, EVBUFFER_CB_ENABLED|EVBUFFER_CB_NODEFER); if (evbuffer_get_length(bufev->input) >= highmark) bufferevent_wm_suspend_read(bufev); else if (evbuffer_get_length(bufev->input) < highmark) bufferevent_wm_unsuspend_read(bufev); } else { /* There is now no high-water mark for read. */ if (bufev_private->read_watermarks_cb) evbuffer_cb_clear_flags(bufev->input, bufev_private->read_watermarks_cb, EVBUFFER_CB_ENABLED); bufferevent_wm_unsuspend_read(bufev); } } BEV_UNLOCK(bufev); } int bufferevent_getwatermark(struct bufferevent *bufev, short events, size_t *lowmark, size_t *highmark) { if (events == EV_WRITE) { BEV_LOCK(bufev); if (lowmark) *lowmark = bufev->wm_write.low; if (highmark) *highmark = bufev->wm_write.high; BEV_UNLOCK(bufev); return 0; } if (events == EV_READ) { BEV_LOCK(bufev); if (lowmark) *lowmark = bufev->wm_read.low; if (highmark) *highmark = bufev->wm_read.high; BEV_UNLOCK(bufev); return 0; } return -1; } int bufferevent_flush(struct bufferevent *bufev, short iotype, enum bufferevent_flush_mode mode) { int r = -1; BEV_LOCK(bufev); if (bufev->be_ops->flush) r = bufev->be_ops->flush(bufev, iotype, mode); BEV_UNLOCK(bufev); return r; } void bufferevent_incref_and_lock_(struct bufferevent *bufev) { struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); BEV_LOCK(bufev); ++bufev_private->refcnt; } #if 0 static void bufferevent_transfer_lock_ownership_(struct bufferevent *donor, struct bufferevent *recipient) { struct bufferevent_private *d = BEV_UPCAST(donor); struct bufferevent_private *r = BEV_UPCAST(recipient); if (d->lock != r->lock) return; if (r->own_lock) return; if (d->own_lock) { d->own_lock = 0; r->own_lock = 1; } } #endif int bufferevent_decref_and_unlock_(struct bufferevent *bufev) { struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); int n_cbs = 0; #define MAX_CBS 16 struct event_callback *cbs[MAX_CBS]; EVUTIL_ASSERT(bufev_private->refcnt > 0); if (--bufev_private->refcnt) { BEV_UNLOCK(bufev); return 0; } if (bufev->be_ops->unlink) bufev->be_ops->unlink(bufev); /* Okay, we're out of references. Let's finalize this once all the * callbacks are done running. */ cbs[0] = &bufev->ev_read.ev_evcallback; cbs[1] = &bufev->ev_write.ev_evcallback; cbs[2] = &bufev_private->deferred; n_cbs = 3; if (bufev_private->rate_limiting) { struct event *e = &bufev_private->rate_limiting->refill_bucket_event; if (event_initialized(e)) cbs[n_cbs++] = &e->ev_evcallback; } n_cbs += evbuffer_get_callbacks_(bufev->input, cbs+n_cbs, MAX_CBS-n_cbs); n_cbs += evbuffer_get_callbacks_(bufev->output, cbs+n_cbs, MAX_CBS-n_cbs); event_callback_finalize_many_(bufev->ev_base, n_cbs, cbs, bufferevent_finalize_cb_); #undef MAX_CBS BEV_UNLOCK(bufev); return 1; } static void bufferevent_finalize_cb_(struct event_callback *evcb, void *arg_) { struct bufferevent *bufev = arg_; struct bufferevent *underlying; struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); BEV_LOCK(bufev); underlying = bufferevent_get_underlying(bufev); /* Clean up the shared info */ if (bufev->be_ops->destruct) bufev->be_ops->destruct(bufev); /* XXX what happens if refcnt for these buffers is > 1? * The buffers can share a lock with this bufferevent object, * but the lock might be destroyed below. */ /* evbuffer will free the callbacks */ evbuffer_free(bufev->input); evbuffer_free(bufev->output); if (bufev_private->rate_limiting) { if (bufev_private->rate_limiting->group) bufferevent_remove_from_rate_limit_group_internal_(bufev,0); mm_free(bufev_private->rate_limiting); bufev_private->rate_limiting = NULL; } BEV_UNLOCK(bufev); if (bufev_private->own_lock) EVTHREAD_FREE_LOCK(bufev_private->lock, EVTHREAD_LOCKTYPE_RECURSIVE); /* Free the actual allocated memory. */ mm_free(((char*)bufev) - bufev->be_ops->mem_offset); /* Release the reference to underlying now that we no longer need the * reference to it. We wait this long mainly in case our lock is * shared with underlying. * * The 'destruct' function will also drop a reference to underlying * if BEV_OPT_CLOSE_ON_FREE is set. * * XXX Should we/can we just refcount evbuffer/bufferevent locks? * It would probably save us some headaches. */ if (underlying) bufferevent_decref_(underlying); } int bufferevent_decref(struct bufferevent *bufev) { BEV_LOCK(bufev); return bufferevent_decref_and_unlock_(bufev); } void bufferevent_free(struct bufferevent *bufev) { BEV_LOCK(bufev); bufferevent_setcb(bufev, NULL, NULL, NULL, NULL); bufferevent_cancel_all_(bufev); bufferevent_decref_and_unlock_(bufev); } void bufferevent_incref(struct bufferevent *bufev) { struct bufferevent_private *bufev_private = BEV_UPCAST(bufev); /* XXX: now that this function is public, we might want to * - return the count from this function * - create a new function to atomically grab the current refcount */ BEV_LOCK(bufev); ++bufev_private->refcnt; BEV_UNLOCK(bufev); } int bufferevent_enable_locking_(struct bufferevent *bufev, void *lock) { #ifdef EVENT__DISABLE_THREAD_SUPPORT return -1; #else struct bufferevent *underlying; if (BEV_UPCAST(bufev)->lock) return -1; underlying = bufferevent_get_underlying(bufev); if (!lock && underlying && BEV_UPCAST(underlying)->lock) { lock = BEV_UPCAST(underlying)->lock; BEV_UPCAST(bufev)->lock = lock; BEV_UPCAST(bufev)->own_lock = 0; } else if (!lock) { EVTHREAD_ALLOC_LOCK(lock, EVTHREAD_LOCKTYPE_RECURSIVE); if (!lock) return -1; BEV_UPCAST(bufev)->lock = lock; BEV_UPCAST(bufev)->own_lock = 1; } else { BEV_UPCAST(bufev)->lock = lock; BEV_UPCAST(bufev)->own_lock = 0; } evbuffer_enable_locking(bufev->input, lock); evbuffer_enable_locking(bufev->output, lock); if (underlying && !BEV_UPCAST(underlying)->lock) bufferevent_enable_locking_(underlying, lock); return 0; #endif } int bufferevent_setfd(struct bufferevent *bev, evutil_socket_t fd) { union bufferevent_ctrl_data d; int res = -1; d.fd = fd; BEV_LOCK(bev); if (bev->be_ops->ctrl) res = bev->be_ops->ctrl(bev, BEV_CTRL_SET_FD, &d); if (res) event_debug(("%s: cannot set fd for %p to "EV_SOCK_FMT, __func__, bev, fd)); BEV_UNLOCK(bev); return res; } evutil_socket_t bufferevent_getfd(struct bufferevent *bev) { union bufferevent_ctrl_data d; int res = -1; d.fd = -1; BEV_LOCK(bev); if (bev->be_ops->ctrl) res = bev->be_ops->ctrl(bev, BEV_CTRL_GET_FD, &d); if (res) event_debug(("%s: cannot get fd for %p", __func__, bev)); BEV_UNLOCK(bev); return (res<0) ? -1 : d.fd; } enum bufferevent_options bufferevent_get_options_(struct bufferevent *bev) { struct bufferevent_private *bev_p = BEV_UPCAST(bev); enum bufferevent_options options; BEV_LOCK(bev); options = bev_p->options; BEV_UNLOCK(bev); return options; } static void bufferevent_cancel_all_(struct bufferevent *bev) { union bufferevent_ctrl_data d; memset(&d, 0, sizeof(d)); BEV_LOCK(bev); if (bev->be_ops->ctrl) bev->be_ops->ctrl(bev, BEV_CTRL_CANCEL_ALL, &d); BEV_UNLOCK(bev); } short bufferevent_get_enabled(struct bufferevent *bufev) { short r; BEV_LOCK(bufev); r = bufev->enabled; BEV_UNLOCK(bufev); return r; } struct bufferevent * bufferevent_get_underlying(struct bufferevent *bev) { union bufferevent_ctrl_data d; int res = -1; d.ptr = NULL; BEV_LOCK(bev); if (bev->be_ops->ctrl) res = bev->be_ops->ctrl(bev, BEV_CTRL_GET_UNDERLYING, &d); BEV_UNLOCK(bev); return (res<0) ? NULL : d.ptr; } static void bufferevent_generic_read_timeout_cb(evutil_socket_t fd, short event, void *ctx) { struct bufferevent *bev = ctx; bufferevent_incref_and_lock_(bev); bufferevent_disable(bev, EV_READ); bufferevent_run_eventcb_(bev, BEV_EVENT_TIMEOUT|BEV_EVENT_READING, 0); bufferevent_decref_and_unlock_(bev); } static void bufferevent_generic_write_timeout_cb(evutil_socket_t fd, short event, void *ctx) { struct bufferevent *bev = ctx; bufferevent_incref_and_lock_(bev); bufferevent_disable(bev, EV_WRITE); bufferevent_run_eventcb_(bev, BEV_EVENT_TIMEOUT|BEV_EVENT_WRITING, 0); bufferevent_decref_and_unlock_(bev); } void bufferevent_init_generic_timeout_cbs_(struct bufferevent *bev) { event_assign(&bev->ev_read, bev->ev_base, -1, EV_FINALIZE, bufferevent_generic_read_timeout_cb, bev); event_assign(&bev->ev_write, bev->ev_base, -1, EV_FINALIZE, bufferevent_generic_write_timeout_cb, bev); } int bufferevent_generic_adj_timeouts_(struct bufferevent *bev) { const short enabled = bev->enabled; struct bufferevent_private *bev_p = BEV_UPCAST(bev); int r1=0, r2=0; if ((enabled & EV_READ) && !bev_p->read_suspended && evutil_timerisset(&bev->timeout_read)) r1 = event_add(&bev->ev_read, &bev->timeout_read); else r1 = event_del(&bev->ev_read); if ((enabled & EV_WRITE) && !bev_p->write_suspended && evutil_timerisset(&bev->timeout_write) && evbuffer_get_length(bev->output)) r2 = event_add(&bev->ev_write, &bev->timeout_write); else r2 = event_del(&bev->ev_write); if (r1 < 0 || r2 < 0) return -1; return 0; } int bufferevent_generic_adj_existing_timeouts_(struct bufferevent *bev) { int r = 0; if (event_pending(&bev->ev_read, EV_READ, NULL)) { if (evutil_timerisset(&bev->timeout_read)) { if (bufferevent_add_event_(&bev->ev_read, &bev->timeout_read) < 0) r = -1; } else { event_remove_timer(&bev->ev_read); } } if (event_pending(&bev->ev_write, EV_WRITE, NULL)) { if (evutil_timerisset(&bev->timeout_write)) { if (bufferevent_add_event_(&bev->ev_write, &bev->timeout_write) < 0) r = -1; } else { event_remove_timer(&bev->ev_write); } } return r; } int bufferevent_add_event_(struct event *ev, const struct timeval *tv) { if (!evutil_timerisset(tv)) return event_add(ev, NULL); else return event_add(ev, tv); } /* For use by user programs only; internally, we should be calling either bufferevent_incref_and_lock_(), or BEV_LOCK. */ void bufferevent_lock(struct bufferevent *bev) { bufferevent_incref_and_lock_(bev); } void bufferevent_unlock(struct bufferevent *bev) { bufferevent_decref_and_unlock_(bev); }