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kc3-lang/libevent/test/regress_bufferevent.c
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- test/regress_bufferevent.c
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/* * Copyright (c) 2003-2007 Niels Provos <provos@citi.umich.edu> * Copyright (c) 2007-2012 Niels Provos and 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 "util-internal.h" /* The old tests here need assertions to work. */ #undef NDEBUG #ifdef _WIN32 #include <winsock2.h> #include <windows.h> #endif #include "event2/event-config.h" #include <sys/types.h> #include <sys/stat.h> #ifdef EVENT__HAVE_SYS_TIME_H #include <sys/time.h> #endif #include <sys/queue.h> #ifndef _WIN32 #include <sys/socket.h> #include <sys/wait.h> #include <signal.h> #include <unistd.h> #include <netdb.h> #include <netinet/in.h> #endif #include <fcntl.h> #include <signal.h> #include <stdlib.h> #include <stdio.h> #include <string.h> #include <errno.h> #include <assert.h> #include <limits.h> #ifdef EVENT__HAVE_ARPA_INET_H #include <arpa/inet.h> #endif #include "event2/event-config.h" #include "event2/event.h" #include "event2/event_struct.h" #include "event2/event_compat.h" #include "event2/tag.h" #include "event2/buffer.h" #include "event2/bufferevent.h" #include "event2/bufferevent_compat.h" #include "event2/bufferevent_struct.h" #include "event2/listener.h" #include "event2/util.h" #include "bufferevent-internal.h" #include "evthread-internal.h" #include "util-internal.h" #ifdef _WIN32 #include "iocp-internal.h" #endif #include "regress.h" #include "regress_testutils.h" /* * simple bufferevent test */ static void readcb(struct bufferevent *bev, void *arg) { if (evbuffer_get_length(bev->input) == 8333) { struct evbuffer *evbuf = evbuffer_new(); assert(evbuf != NULL); /* gratuitous test of bufferevent_read_buffer */ bufferevent_read_buffer(bev, evbuf); bufferevent_disable(bev, EV_READ); if (evbuffer_get_length(evbuf) == 8333) { test_ok++; } evbuffer_free(evbuf); } } static void writecb(struct bufferevent *bev, void *arg) { if (evbuffer_get_length(bev->output) == 0) { test_ok++; } } static void errorcb(struct bufferevent *bev, short what, void *arg) { test_ok = -2; } static void test_bufferevent_impl(int use_pair, int flush) { struct bufferevent *bev1 = NULL, *bev2 = NULL; char buffer[8333]; int i; int expected = 2; if (use_pair) { struct bufferevent *pair[2]; tt_assert(0 == bufferevent_pair_new(NULL, 0, pair)); bev1 = pair[0]; bev2 = pair[1]; bufferevent_setcb(bev1, readcb, writecb, errorcb, bev1); bufferevent_setcb(bev2, readcb, writecb, errorcb, NULL); tt_fd_op(bufferevent_getfd(bev1), ==, EVUTIL_INVALID_SOCKET); tt_ptr_op(bufferevent_get_underlying(bev1), ==, NULL); tt_ptr_op(bufferevent_pair_get_partner(bev1), ==, bev2); tt_ptr_op(bufferevent_pair_get_partner(bev2), ==, bev1); } else { bev1 = bufferevent_new(pair[0], readcb, writecb, errorcb, NULL); bev2 = bufferevent_new(pair[1], readcb, writecb, errorcb, NULL); tt_assert(bev1); tt_assert(bev2); tt_fd_op(bufferevent_getfd(bev1), ==, pair[0]); tt_ptr_op(bufferevent_get_underlying(bev1), ==, NULL); tt_ptr_op(bufferevent_pair_get_partner(bev1), ==, NULL); tt_ptr_op(bufferevent_pair_get_partner(bev2), ==, NULL); } { /* Test getcb. */ bufferevent_data_cb r, w; bufferevent_event_cb e; void *a; bufferevent_getcb(bev1, &r, &w, &e, &a); tt_ptr_op(r, ==, readcb); tt_ptr_op(w, ==, writecb); tt_ptr_op(e, ==, errorcb); tt_ptr_op(a, ==, use_pair ? bev1 : NULL); } bufferevent_disable(bev1, EV_READ); bufferevent_enable(bev2, EV_READ); tt_int_op(bufferevent_get_enabled(bev1), ==, EV_WRITE); tt_int_op(bufferevent_get_enabled(bev2), ==, EV_WRITE|EV_READ); for (i = 0; i < (int)sizeof(buffer); i++) buffer[i] = i; bufferevent_write(bev1, buffer, sizeof(buffer)); if (flush >= 0) { tt_int_op(bufferevent_flush(bev1, EV_WRITE, flush), >=, 0); } event_dispatch(); bufferevent_free(bev2); tt_ptr_op(bufferevent_pair_get_partner(bev1), ==, NULL); bufferevent_free(bev1); /** Only pair call errorcb for BEV_FINISHED */ if (use_pair && flush == BEV_FINISHED) { expected = -1; } if (test_ok != expected) test_ok = 0; end: ; } static void test_bufferevent(void) { test_bufferevent_impl(0, -1); } static void test_bufferevent_pair(void) { test_bufferevent_impl(1, -1); } static void test_bufferevent_flush_normal(void) { test_bufferevent_impl(0, BEV_NORMAL); } static void test_bufferevent_flush_flush(void) { test_bufferevent_impl(0, BEV_FLUSH); } static void test_bufferevent_flush_finished(void) { test_bufferevent_impl(0, BEV_FINISHED); } static void test_bufferevent_pair_flush_normal(void) { test_bufferevent_impl(1, BEV_NORMAL); } static void test_bufferevent_pair_flush_flush(void) { test_bufferevent_impl(1, BEV_FLUSH); } static void test_bufferevent_pair_flush_finished(void) { test_bufferevent_impl(1, BEV_FINISHED); } static void test_bufferevent_ratelimit_div_by_zero(void) { struct timeval cfg_tick = {0, 0}; struct ev_token_bucket_cfg *cfg = ev_token_bucket_cfg_new(1, 1, 1, 1, &cfg_tick); tt_ptr_op(cfg, ==, NULL); test_ok = 1; end: ; } static void test_bufferevent_ratelimit_overflow(void) { { struct timeval cfg_tick = {LONG_MAX, 0}; struct ev_token_bucket_cfg *cfg = ev_token_bucket_cfg_new(1, 1, 1, 1, &cfg_tick); tt_ptr_op(cfg, ==, NULL); } { struct timeval cfg_tick = {UINT_MAX-1, 0}; struct ev_token_bucket_cfg *cfg = ev_token_bucket_cfg_new(1, 1, 1, 1, &cfg_tick); tt_ptr_op(cfg, ==, NULL); } { struct timeval cfg_tick = {INT_MAX, 0}; struct ev_token_bucket_cfg *cfg = ev_token_bucket_cfg_new(1, 1, 1, 1, &cfg_tick); tt_ptr_op(cfg, ==, NULL); } { struct timeval cfg_tick = {INT_MAX/1000+1, 0}; struct ev_token_bucket_cfg *cfg = ev_token_bucket_cfg_new(1, 1, 1, 1, &cfg_tick); tt_ptr_op(cfg, ==, NULL); } { struct timeval cfg_tick = {INT_MAX/1000, 0}; struct ev_token_bucket_cfg *cfg = ev_token_bucket_cfg_new(1, 1, 1, 1, &cfg_tick); tt_ptr_op(cfg, !=, NULL); ev_token_bucket_cfg_free(cfg); } { struct timeval cfg_tick = {INT_MAX/1000-1, 0}; struct ev_token_bucket_cfg *cfg = ev_token_bucket_cfg_new(1, 1, 1, 1, &cfg_tick); tt_ptr_op(cfg, !=, NULL); ev_token_bucket_cfg_free(cfg); } test_ok = 1; end: ; } #if defined(EVTHREAD_USE_PTHREADS_IMPLEMENTED) /** * Trace lock/unlock/alloc/free for locks. * (More heavier then evthread_debug*) */ typedef struct { void *lock; enum { ALLOC, FREE, } status; size_t locked /** allow recursive locking */; } lock_wrapper; struct lock_unlock_base { /* Original callbacks */ struct evthread_lock_callbacks cbs; /* Map of locks */ lock_wrapper *locks; size_t nr_locks; } lu_base = { .locks = NULL, }; static lock_wrapper *lu_find(void *lock_) { size_t i; for (i = 0; i < lu_base.nr_locks; ++i) { lock_wrapper *lock = &lu_base.locks[i]; if (lock->lock == lock_) return lock; } return NULL; } static void *trace_lock_alloc(unsigned locktype) { void *lock; lock_wrapper *existing_lock; lock = lu_base.cbs.alloc(locktype); existing_lock = lu_find(lock); if (existing_lock) { existing_lock->status = ALLOC; return lock; } ++lu_base.nr_locks; lu_base.locks = realloc(lu_base.locks, sizeof(lock_wrapper) * lu_base.nr_locks); lu_base.locks[lu_base.nr_locks - 1] = (lock_wrapper){ lock, ALLOC, 0 }; return lock; } static void trace_lock_free(void *lock_, unsigned locktype) { lock_wrapper *lock = lu_find(lock_); if (!lock || lock->status == FREE || lock->locked) { TT_FAIL(("lock: free error")); } else { lock->status = FREE; lu_base.cbs.free(lock_, locktype); } } static int trace_lock_lock(unsigned mode, void *lock_) { lock_wrapper *lock = lu_find(lock_); if (!lock || lock->status == FREE) { TT_FAIL(("lock: lock error")); return -1; } else { ++lock->locked; return lu_base.cbs.lock(mode, lock_); } } static int trace_lock_unlock(unsigned mode, void *lock_) { lock_wrapper *lock = lu_find(lock_); if (!lock || lock->status == FREE || !lock->locked) { TT_FAIL(("lock: unlock error")); return -1; } else { --lock->locked; return lu_base.cbs.unlock(mode, lock_); } } static void lock_unlock_free_thread_cbs(void) { event_base_free(NULL); libevent_global_shutdown(); evthread_set_lock_callbacks(NULL); } static int use_lock_unlock_profiler(void) { struct evthread_lock_callbacks cbs = { EVTHREAD_LOCK_API_VERSION, EVTHREAD_LOCKTYPE_RECURSIVE, trace_lock_alloc, trace_lock_free, trace_lock_lock, trace_lock_unlock, }; memcpy(&lu_base.cbs, evthread_get_lock_callbacks(), sizeof(lu_base.cbs)); { lock_unlock_free_thread_cbs(); evthread_set_lock_callbacks(&cbs); /** re-create debug locks correctly */ evthread_enable_lock_debugging(); event_init(); } return 0; } static void free_lock_unlock_profiler(struct basic_test_data *data) { lock_unlock_free_thread_cbs(); free(lu_base.locks); data->base = NULL; } static void test_bufferevent_pair_release_lock(void *arg) { struct basic_test_data *data = arg; use_lock_unlock_profiler(); { struct bufferevent *pair[2]; if (!bufferevent_pair_new(NULL, BEV_OPT_THREADSAFE, pair)) { bufferevent_free(pair[0]); bufferevent_free(pair[1]); } else tt_abort_perror("bufferevent_pair_new"); } free_lock_unlock_profiler(data); end: ; } #endif /* * test watermarks and bufferevent */ static void wm_readcb(struct bufferevent *bev, void *arg) { struct evbuffer *evbuf = evbuffer_new(); int len = (int)evbuffer_get_length(bev->input); static int nread; assert(len >= 10 && len <= 20); assert(evbuf != NULL); /* gratuitous test of bufferevent_read_buffer */ bufferevent_read_buffer(bev, evbuf); nread += len; if (nread == 65000) { bufferevent_disable(bev, EV_READ); test_ok++; } evbuffer_free(evbuf); } static void wm_writecb(struct bufferevent *bev, void *arg) { assert(evbuffer_get_length(bev->output) <= 100); if (evbuffer_get_length(bev->output) == 0) { evbuffer_drain(bev->output, evbuffer_get_length(bev->output)); test_ok++; } } static void wm_errorcb(struct bufferevent *bev, short what, void *arg) { test_ok = -2; } static void test_bufferevent_watermarks_impl(int use_pair) { struct bufferevent *bev1 = NULL, *bev2 = NULL; char buffer[65000]; size_t low, high; int i; test_ok = 0; if (use_pair) { struct bufferevent *pair[2]; tt_assert(0 == bufferevent_pair_new(NULL, 0, pair)); bev1 = pair[0]; bev2 = pair[1]; bufferevent_setcb(bev1, NULL, wm_writecb, errorcb, NULL); bufferevent_setcb(bev2, wm_readcb, NULL, errorcb, NULL); } else { bev1 = bufferevent_new(pair[0], NULL, wm_writecb, wm_errorcb, NULL); bev2 = bufferevent_new(pair[1], wm_readcb, NULL, wm_errorcb, NULL); } tt_assert(bev1); tt_assert(bev2); bufferevent_disable(bev1, EV_READ); bufferevent_enable(bev2, EV_READ); /* By default, low watermarks are set to 0 */ bufferevent_getwatermark(bev1, EV_READ, &low, NULL); tt_int_op(low, ==, 0); bufferevent_getwatermark(bev2, EV_WRITE, &low, NULL); tt_int_op(low, ==, 0); for (i = 0; i < (int)sizeof(buffer); i++) buffer[i] = (char)i; /* limit the reading on the receiving bufferevent */ bufferevent_setwatermark(bev2, EV_READ, 10, 20); bufferevent_getwatermark(bev2, EV_READ, &low, &high); tt_int_op(low, ==, 10); tt_int_op(high, ==, 20); /* Tell the sending bufferevent not to notify us till it's down to 100 bytes. */ bufferevent_setwatermark(bev1, EV_WRITE, 100, 2000); bufferevent_getwatermark(bev1, EV_WRITE, &low, &high); tt_int_op(low, ==, 100); tt_int_op(high, ==, 2000); { int r = bufferevent_getwatermark(bev1, EV_WRITE | EV_READ, &low, &high); tt_int_op(r, !=, 0); } bufferevent_write(bev1, buffer, sizeof(buffer)); event_dispatch(); tt_int_op(test_ok, ==, 2); /* The write callback drained all the data from outbuf, so we * should have removed the write event... */ tt_assert(!event_pending(&bev2->ev_write, EV_WRITE, NULL)); end: if (bev1) bufferevent_free(bev1); if (bev2) bufferevent_free(bev2); } static void test_bufferevent_watermarks(void) { test_bufferevent_watermarks_impl(0); } static void test_bufferevent_pair_watermarks(void) { test_bufferevent_watermarks_impl(1); } /* * Test bufferevent filters */ /* strip an 'x' from each byte */ static enum bufferevent_filter_result bufferevent_input_filter(struct evbuffer *src, struct evbuffer *dst, ev_ssize_t lim, enum bufferevent_flush_mode state, void *ctx) { const unsigned char *buffer; unsigned i; buffer = evbuffer_pullup(src, evbuffer_get_length(src)); for (i = 0; i < evbuffer_get_length(src); i += 2) { if (buffer[i] == '-') continue; assert(buffer[i] == 'x'); evbuffer_add(dst, buffer + i + 1, 1); } evbuffer_drain(src, i); return (BEV_OK); } /* add an 'x' before each byte */ static enum bufferevent_filter_result bufferevent_output_filter(struct evbuffer *src, struct evbuffer *dst, ev_ssize_t lim, enum bufferevent_flush_mode state, void *ctx) { const unsigned char *buffer; unsigned i; struct bufferevent **bevp = ctx; ++test_ok; if (test_ok == 1) { buffer = evbuffer_pullup(src, evbuffer_get_length(src)); for (i = 0; i < evbuffer_get_length(src); ++i) { evbuffer_add(dst, "x", 1); evbuffer_add(dst, buffer + i, 1); } evbuffer_drain(src, evbuffer_get_length(src)); } else { return BEV_ERROR; } if (bevp && test_ok == 1) { int prev = ++test_ok; bufferevent_write(*bevp, "-", 1); /* check that during this bufferevent_write() * bufferevent_output_filter() will not be called again */ assert(test_ok == prev); --test_ok; } return (BEV_OK); } static void test_bufferevent_filters_impl(int use_pair, int disable) { struct bufferevent *bev1 = NULL, *bev2 = NULL; struct bufferevent *bev1_base = NULL, *bev2_base = NULL; char buffer[8333]; int i; test_ok = 0; if (use_pair) { struct bufferevent *pair[2]; tt_assert(0 == bufferevent_pair_new(NULL, 0, pair)); bev1 = pair[0]; bev2 = pair[1]; } else { bev1 = bufferevent_socket_new(NULL, pair[0], 0); bev2 = bufferevent_socket_new(NULL, pair[1], 0); } bev1_base = bev1; bev2_base = bev2; for (i = 0; i < (int)sizeof(buffer); i++) buffer[i] = i; bev1 = bufferevent_filter_new(bev1, NULL, bufferevent_output_filter, BEV_OPT_CLOSE_ON_FREE, NULL, disable ? &bev1 : NULL); bev2 = bufferevent_filter_new(bev2, bufferevent_input_filter, NULL, BEV_OPT_CLOSE_ON_FREE, NULL, NULL); tt_assert(bev1); tt_assert(bev2); bufferevent_setcb(bev1, NULL, writecb, errorcb, NULL); bufferevent_setcb(bev2, readcb, NULL, errorcb, NULL); tt_ptr_op(bufferevent_get_underlying(bev1), ==, bev1_base); tt_ptr_op(bufferevent_get_underlying(bev2), ==, bev2_base); tt_fd_op(bufferevent_getfd(bev1), ==, bufferevent_getfd(bev1_base)); tt_fd_op(bufferevent_getfd(bev2), ==, bufferevent_getfd(bev2_base)); bufferevent_disable(bev1, EV_READ); bufferevent_enable(bev2, EV_READ); /* insert some filters */ bufferevent_write(bev1, buffer, sizeof(buffer)); event_dispatch(); if (test_ok != 3 + !!disable) test_ok = 0; end: if (bev1) bufferevent_free(bev1); if (bev2) bufferevent_free(bev2); } static void test_bufferevent_filters(void) { test_bufferevent_filters_impl(0, 0); } static void test_bufferevent_pair_filters(void) { test_bufferevent_filters_impl(1, 0); } static void test_bufferevent_filters_disable(void) { test_bufferevent_filters_impl(0, 1); } static void test_bufferevent_pair_filters_disable(void) { test_bufferevent_filters_impl(1, 1); } static void sender_writecb(struct bufferevent *bev, void *ctx) { if (evbuffer_get_length(bufferevent_get_output(bev)) == 0) { bufferevent_disable(bev,EV_READ|EV_WRITE); TT_BLATHER(("Flushed %d: freeing it.", (int)bufferevent_getfd(bev))); bufferevent_free(bev); } } static void sender_errorcb(struct bufferevent *bev, short what, void *ctx) { TT_FAIL(("Got sender error %d",(int)what)); } static int bufferevent_connect_test_flags = 0; static int bufferevent_trigger_test_flags = 0; static int n_strings_read = 0; static int n_reads_invoked = 0; static int n_events_invoked = 0; #define TEST_STR "Now is the time for all good events to signal for " \ "the good of their protocol" static void listen_cb(struct evconnlistener *listener, evutil_socket_t fd, struct sockaddr *sa, int socklen, void *arg) { struct event_base *base = arg; struct bufferevent *bev; const char s[] = TEST_STR; TT_BLATHER(("Got a request on socket %d", (int)fd )); bev = bufferevent_socket_new(base, fd, bufferevent_connect_test_flags); tt_assert(bev); bufferevent_setcb(bev, NULL, sender_writecb, sender_errorcb, NULL); bufferevent_write(bev, s, sizeof(s)); end: ; } static evutil_socket_t fake_listener_create(struct sockaddr_in *localhost) { struct sockaddr *sa = (struct sockaddr *)localhost; evutil_socket_t fd = -1; ev_socklen_t slen = sizeof(*localhost); memset(localhost, 0, sizeof(*localhost)); localhost->sin_port = 0; /* have the kernel pick a port */ localhost->sin_addr.s_addr = htonl(0x7f000001L); localhost->sin_family = AF_INET; /* bind, but don't listen or accept. should trigger "Connection refused" reliably on most platforms. */ fd = socket(localhost->sin_family, SOCK_STREAM, 0); tt_assert(fd >= 0); tt_assert(bind(fd, sa, slen) == 0); tt_assert(getsockname(fd, sa, &slen) == 0); return fd; end: return -1; } static void reader_eventcb(struct bufferevent *bev, short what, void *ctx) { struct event_base *base = ctx; if (what & BEV_EVENT_ERROR) { perror("foobar"); TT_FAIL(("got connector error %d", (int)what)); return; } if (what & BEV_EVENT_CONNECTED) { TT_BLATHER(("connected on %d", (int)bufferevent_getfd(bev))); bufferevent_enable(bev, EV_READ); } if (what & BEV_EVENT_EOF) { char buf[512]; size_t n; n = bufferevent_read(bev, buf, sizeof(buf)-1); tt_int_op(n, >=, 0); buf[n] = '\0'; tt_str_op(buf, ==, TEST_STR); if (++n_strings_read == 2) event_base_loopexit(base, NULL); TT_BLATHER(("EOF on %d: %d strings read.", (int)bufferevent_getfd(bev), n_strings_read)); } end: ; } static void reader_eventcb_simple(struct bufferevent *bev, short what, void *ctx) { TT_BLATHER(("Read eventcb simple invoked on %d (what=%hd).", (int)bufferevent_getfd(bev), what)); n_events_invoked++; } static void reader_readcb(struct bufferevent *bev, void *ctx) { TT_BLATHER(("Read invoked on %d.", (int)bufferevent_getfd(bev))); n_reads_invoked++; } static void test_bufferevent_connect(void *arg) { struct basic_test_data *data = arg; struct evconnlistener *lev=NULL; struct bufferevent *bev1=NULL, *bev2=NULL; struct sockaddr_in localhost; struct sockaddr_storage ss; struct sockaddr *sa; ev_socklen_t slen; int be_flags=BEV_OPT_CLOSE_ON_FREE; if (strstr((char*)data->setup_data, "defer")) { be_flags |= BEV_OPT_DEFER_CALLBACKS; } if (strstr((char*)data->setup_data, "unlocked")) { be_flags |= BEV_OPT_UNLOCK_CALLBACKS; } if (strstr((char*)data->setup_data, "lock")) { be_flags |= BEV_OPT_THREADSAFE; } bufferevent_connect_test_flags = be_flags; #ifdef _WIN32 if (!strcmp((char*)data->setup_data, "unset_connectex")) { struct win32_extension_fns *ext = (struct win32_extension_fns *) event_get_win32_extension_fns_(); ext->ConnectEx = NULL; } #endif memset(&localhost, 0, sizeof(localhost)); localhost.sin_port = 0; /* pick-a-port */ localhost.sin_addr.s_addr = htonl(0x7f000001L); localhost.sin_family = AF_INET; sa = (struct sockaddr *)&localhost; lev = evconnlistener_new_bind(data->base, listen_cb, data->base, LEV_OPT_CLOSE_ON_FREE|LEV_OPT_REUSEABLE, 16, sa, sizeof(localhost)); tt_assert(lev); sa = (struct sockaddr *)&ss; slen = sizeof(ss); if (regress_get_listener_addr(lev, sa, &slen) < 0) { tt_abort_perror("getsockname"); } tt_assert(!evconnlistener_enable(lev)); bev1 = bufferevent_socket_new(data->base, -1, be_flags); bev2 = bufferevent_socket_new(data->base, -1, be_flags); tt_assert(bev1); tt_assert(bev2); bufferevent_setcb(bev1, reader_readcb,NULL, reader_eventcb, data->base); bufferevent_setcb(bev2, reader_readcb,NULL, reader_eventcb, data->base); bufferevent_enable(bev1, EV_READ); bufferevent_enable(bev2, EV_READ); tt_want(!bufferevent_socket_connect(bev1, sa, sizeof(localhost))); tt_want(!bufferevent_socket_connect(bev2, sa, sizeof(localhost))); event_base_dispatch(data->base); tt_int_op(n_strings_read, ==, 2); tt_int_op(n_reads_invoked, >=, 2); end: if (lev) evconnlistener_free(lev); if (bev1) bufferevent_free(bev1); if (bev2) bufferevent_free(bev2); } static void close_socket_cb(evutil_socket_t fd, short what, void *arg) { evutil_socket_t *fdp = arg; if (*fdp >= 0) { evutil_closesocket(*fdp); *fdp = -1; } } static void test_bufferevent_connect_fail_eventcb(void *arg) { struct basic_test_data *data = arg; int flags = BEV_OPT_CLOSE_ON_FREE | (intptr_t)data->setup_data; struct event close_listener_event; struct bufferevent *bev = NULL; struct evconnlistener *lev = NULL; struct sockaddr_in localhost; struct timeval close_timeout = { 0, 300000 }; ev_socklen_t slen = sizeof(localhost); evutil_socket_t fake_listener = -1; int r; fake_listener = fake_listener_create(&localhost); n_strings_read = 0; n_reads_invoked = 0; n_events_invoked = 0; tt_int_op(n_events_invoked, ==, 0); bev = bufferevent_socket_new(data->base, -1, flags); tt_assert(bev); bufferevent_setcb(bev, reader_readcb, reader_readcb, reader_eventcb_simple, data->base); bufferevent_enable(bev, EV_READ|EV_WRITE); tt_int_op(n_events_invoked, ==, 0); tt_int_op(n_reads_invoked, ==, 0); /** @see also test_bufferevent_connect_fail() */ r = bufferevent_socket_connect(bev, (struct sockaddr *)&localhost, slen); /* XXXX we'd like to test the '0' case everywhere, but FreeBSD tells * detects the error immediately, which is not really wrong of it. */ tt_want(r == 0 || r == -1); tt_int_op(n_events_invoked, ==, 0); tt_int_op(n_reads_invoked, ==, 0); /* Close the listener socket after a delay. This should trigger "connection refused" on some other platforms, including OSX. */ evtimer_assign(&close_listener_event, data->base, close_socket_cb, &fake_listener); event_add(&close_listener_event, &close_timeout); event_base_dispatch(data->base); tt_int_op(n_events_invoked, ==, 1); tt_int_op(n_reads_invoked, ==, 0); end: if (lev) evconnlistener_free(lev); if (bev) bufferevent_free(bev); if (fake_listener >= 0) evutil_closesocket(fake_listener); } static void want_fail_eventcb(struct bufferevent *bev, short what, void *ctx) { struct event_base *base = ctx; const char *err; evutil_socket_t s; if (what & BEV_EVENT_ERROR) { s = bufferevent_getfd(bev); err = evutil_socket_error_to_string(evutil_socket_geterror(s)); TT_BLATHER(("connection failure on "EV_SOCK_FMT": %s", EV_SOCK_ARG(s), err)); test_ok = 1; } else { TT_FAIL(("didn't fail? what %hd", what)); } event_base_loopexit(base, NULL); } static void test_bufferevent_connect_fail(void *arg) { struct basic_test_data *data = (struct basic_test_data *)arg; struct bufferevent *bev=NULL; struct event close_listener_event; int close_listener_event_added = 0; struct timeval close_timeout = { 0, 300000 }; struct sockaddr_in localhost; ev_socklen_t slen = sizeof(localhost); evutil_socket_t fake_listener = -1; int r; test_ok = 0; fake_listener = fake_listener_create(&localhost); bev = bufferevent_socket_new(data->base, -1, BEV_OPT_CLOSE_ON_FREE | BEV_OPT_DEFER_CALLBACKS); tt_assert(bev); bufferevent_setcb(bev, NULL, NULL, want_fail_eventcb, data->base); r = bufferevent_socket_connect(bev, (struct sockaddr *)&localhost, slen); /* XXXX we'd like to test the '0' case everywhere, but FreeBSD tells * detects the error immediately, which is not really wrong of it. */ tt_want(r == 0 || r == -1); /* Close the listener socket after a delay. This should trigger "connection refused" on some other platforms, including OSX. */ evtimer_assign(&close_listener_event, data->base, close_socket_cb, &fake_listener); event_add(&close_listener_event, &close_timeout); close_listener_event_added = 1; event_base_dispatch(data->base); tt_int_op(test_ok, ==, 1); end: if (fake_listener >= 0) evutil_closesocket(fake_listener); if (bev) bufferevent_free(bev); if (close_listener_event_added) event_del(&close_listener_event); } struct timeout_cb_result { struct timeval read_timeout_at; struct timeval write_timeout_at; struct timeval last_wrote_at; struct timeval last_read_at; int n_read_timeouts; int n_write_timeouts; int total_calls; }; static void bev_timeout_read_cb(struct bufferevent *bev, void *arg) { struct timeout_cb_result *res = arg; evutil_gettimeofday(&res->last_read_at, NULL); } static void bev_timeout_write_cb(struct bufferevent *bev, void *arg) { struct timeout_cb_result *res = arg; evutil_gettimeofday(&res->last_wrote_at, NULL); } static void bev_timeout_event_cb(struct bufferevent *bev, short what, void *arg) { struct timeout_cb_result *res = arg; ++res->total_calls; if ((what & (BEV_EVENT_READING|BEV_EVENT_TIMEOUT)) == (BEV_EVENT_READING|BEV_EVENT_TIMEOUT)) { evutil_gettimeofday(&res->read_timeout_at, NULL); ++res->n_read_timeouts; } if ((what & (BEV_EVENT_WRITING|BEV_EVENT_TIMEOUT)) == (BEV_EVENT_WRITING|BEV_EVENT_TIMEOUT)) { evutil_gettimeofday(&res->write_timeout_at, NULL); ++res->n_write_timeouts; } } static void test_bufferevent_timeouts(void *arg) { /* "arg" is a string containing "pair" and/or "filter". */ struct bufferevent *bev1 = NULL, *bev2 = NULL; struct basic_test_data *data = arg; int use_pair = 0, use_filter = 0; struct timeval tv_w, tv_r, started_at; struct timeout_cb_result res1, res2; memset(&res1, 0, sizeof(res1)); memset(&res2, 0, sizeof(res2)); if (strstr((char*)data->setup_data, "pair")) use_pair = 1; if (strstr((char*)data->setup_data, "filter")) use_filter = 1; if (use_pair) { struct bufferevent *p[2]; tt_int_op(0, ==, bufferevent_pair_new(data->base, 0, p)); bev1 = p[0]; bev2 = p[1]; } else { bev1 = bufferevent_socket_new(data->base, data->pair[0], 0); bev2 = bufferevent_socket_new(data->base, data->pair[1], 0); } tt_assert(bev1); tt_assert(bev2); if (use_filter) { struct bufferevent *bevf1, *bevf2; bevf1 = bufferevent_filter_new(bev1, NULL, NULL, BEV_OPT_CLOSE_ON_FREE, NULL, NULL); bevf2 = bufferevent_filter_new(bev2, NULL, NULL, BEV_OPT_CLOSE_ON_FREE, NULL, NULL); tt_assert(bevf1); tt_assert(bevf2); bev1 = bevf1; bev2 = bevf2; } /* Do this nice and early. */ bufferevent_disable(bev2, EV_READ); /* bev1 will try to write and read. Both will time out. */ evutil_gettimeofday(&started_at, NULL); tv_w.tv_sec = tv_r.tv_sec = 0; tv_w.tv_usec = 100*1000; tv_r.tv_usec = 150*1000; bufferevent_setcb(bev1, bev_timeout_read_cb, bev_timeout_write_cb, bev_timeout_event_cb, &res1); bufferevent_set_timeouts(bev1, &tv_r, &tv_w); bufferevent_write(bev1, "ABCDEFG", 7); bufferevent_enable(bev1, EV_READ|EV_WRITE); /* bev2 has nothing to say, and isn't listening. */ bufferevent_setcb(bev2, bev_timeout_read_cb, bev_timeout_write_cb, bev_timeout_event_cb, &res2); tv_w.tv_sec = tv_r.tv_sec = 0; tv_w.tv_usec = 200*1000; tv_r.tv_usec = 100*1000; bufferevent_set_timeouts(bev2, &tv_r, &tv_w); bufferevent_enable(bev2, EV_WRITE); tv_r.tv_sec = 0; tv_r.tv_usec = 350000; event_base_loopexit(data->base, &tv_r); event_base_dispatch(data->base); /* XXXX Test that actually reading or writing a little resets the * timeouts. */ tt_want(res1.total_calls == 2); tt_want(res1.n_read_timeouts == 1); tt_want(res1.n_write_timeouts == 1); tt_want(res2.total_calls == !(use_pair && !use_filter)); tt_want(res2.n_write_timeouts == !(use_pair && !use_filter)); tt_want(!res2.n_read_timeouts); test_timeval_diff_eq(&started_at, &res1.read_timeout_at, 150); test_timeval_diff_eq(&started_at, &res1.write_timeout_at, 100); #define tt_assert_timeval_empty(tv) do { \ tt_int_op((tv).tv_sec, ==, 0); \ tt_int_op((tv).tv_usec, ==, 0); \ } while(0) tt_assert_timeval_empty(res1.last_read_at); tt_assert_timeval_empty(res2.last_read_at); tt_assert_timeval_empty(res2.last_wrote_at); tt_assert_timeval_empty(res2.last_wrote_at); #undef tt_assert_timeval_empty end: if (bev1) bufferevent_free(bev1); if (bev2) bufferevent_free(bev2); } static void trigger_failure_cb(evutil_socket_t fd, short what, void *ctx) { TT_FAIL(("The triggered callback did not fire or the machine is really slow (try increasing timeout).")); } static void trigger_eventcb(struct bufferevent *bev, short what, void *ctx) { struct event_base *base = ctx; if (what == ~0) { TT_BLATHER(("Event successfully triggered.")); event_base_loopexit(base, NULL); return; } reader_eventcb(bev, what, ctx); } static void trigger_readcb_triggered(struct bufferevent *bev, void *ctx) { TT_BLATHER(("Read successfully triggered.")); n_reads_invoked++; bufferevent_trigger_event(bev, ~0, bufferevent_trigger_test_flags); } static void trigger_readcb(struct bufferevent *bev, void *ctx) { struct timeval timeout = { 30, 0 }; struct event_base *base = ctx; size_t low, high, len; int expected_reads; TT_BLATHER(("Read invoked on %d.", (int)bufferevent_getfd(bev))); expected_reads = ++n_reads_invoked; bufferevent_setcb(bev, trigger_readcb_triggered, NULL, trigger_eventcb, ctx); bufferevent_getwatermark(bev, EV_READ, &low, &high); len = evbuffer_get_length(bufferevent_get_input(bev)); bufferevent_setwatermark(bev, EV_READ, len + 1, 0); bufferevent_trigger(bev, EV_READ, bufferevent_trigger_test_flags); /* no callback expected */ tt_int_op(n_reads_invoked, ==, expected_reads); if ((bufferevent_trigger_test_flags & BEV_TRIG_DEFER_CALLBACKS) || (bufferevent_connect_test_flags & BEV_OPT_DEFER_CALLBACKS)) { /* will be deferred */ } else { expected_reads++; } event_base_once(base, -1, EV_TIMEOUT, trigger_failure_cb, NULL, &timeout); bufferevent_trigger(bev, EV_READ, bufferevent_trigger_test_flags | BEV_TRIG_IGNORE_WATERMARKS); tt_int_op(n_reads_invoked, ==, expected_reads); bufferevent_setwatermark(bev, EV_READ, low, high); end: ; } static void test_bufferevent_trigger(void *arg) { struct basic_test_data *data = arg; struct evconnlistener *lev=NULL; struct bufferevent *bev=NULL; struct sockaddr_in localhost; struct sockaddr_storage ss; struct sockaddr *sa; ev_socklen_t slen; int be_flags=BEV_OPT_CLOSE_ON_FREE; int trig_flags=0; if (strstr((char*)data->setup_data, "defer")) { be_flags |= BEV_OPT_DEFER_CALLBACKS; } bufferevent_connect_test_flags = be_flags; if (strstr((char*)data->setup_data, "postpone")) { trig_flags |= BEV_TRIG_DEFER_CALLBACKS; } bufferevent_trigger_test_flags = trig_flags; memset(&localhost, 0, sizeof(localhost)); localhost.sin_port = 0; /* pick-a-port */ localhost.sin_addr.s_addr = htonl(0x7f000001L); localhost.sin_family = AF_INET; sa = (struct sockaddr *)&localhost; lev = evconnlistener_new_bind(data->base, listen_cb, data->base, LEV_OPT_CLOSE_ON_FREE|LEV_OPT_REUSEABLE, 16, sa, sizeof(localhost)); tt_assert(lev); sa = (struct sockaddr *)&ss; slen = sizeof(ss); if (regress_get_listener_addr(lev, sa, &slen) < 0) { tt_abort_perror("getsockname"); } tt_assert(!evconnlistener_enable(lev)); bev = bufferevent_socket_new(data->base, -1, be_flags); tt_assert(bev); bufferevent_setcb(bev, trigger_readcb, NULL, trigger_eventcb, data->base); bufferevent_enable(bev, EV_READ); tt_want(!bufferevent_socket_connect(bev, sa, sizeof(localhost))); event_base_dispatch(data->base); tt_int_op(n_reads_invoked, ==, 2); end: if (lev) evconnlistener_free(lev); if (bev) bufferevent_free(bev); } static void test_bufferevent_socket_filter_inactive(void *arg) { struct basic_test_data *data = arg; struct bufferevent *bev = NULL, *bevf = NULL; bev = bufferevent_socket_new(data->base, -1, 0); tt_assert(bev); bevf = bufferevent_filter_new(bev, NULL, NULL, 0, NULL, NULL); tt_assert(bevf); end: if (bevf) bufferevent_free(bevf); if (bev) bufferevent_free(bev); } static void pair_flush_eventcb(struct bufferevent *bev, short what, void *ctx) { int *callback_what = ctx; *callback_what = what; } static void test_bufferevent_pair_flush(void *arg) { struct basic_test_data *data = arg; struct bufferevent *pair[2]; struct bufferevent *bev1 = NULL; struct bufferevent *bev2 = NULL; int callback_what = 0; tt_assert(0 == bufferevent_pair_new(data->base, 0, pair)); bev1 = pair[0]; bev2 = pair[1]; tt_assert(0 == bufferevent_enable(bev1, EV_WRITE)); tt_assert(0 == bufferevent_enable(bev2, EV_READ)); bufferevent_setcb(bev2, NULL, NULL, pair_flush_eventcb, &callback_what); bufferevent_flush(bev1, EV_WRITE, BEV_FINISHED); event_base_loop(data->base, EVLOOP_ONCE); tt_assert(callback_what == (BEV_EVENT_READING | BEV_EVENT_EOF)); end: if (bev1) bufferevent_free(bev1); if (bev2) bufferevent_free(bev2); } struct bufferevent_filter_data_stuck { size_t header_size; size_t total_read; }; static void bufferevent_filter_data_stuck_readcb(struct bufferevent *bev, void *arg) { struct bufferevent_filter_data_stuck *filter_data = arg; struct evbuffer *input = bufferevent_get_input(bev); size_t read_size = evbuffer_get_length(input); evbuffer_drain(input, read_size); filter_data->total_read += read_size; } /** * This filter prepends header once before forwarding data. */ static enum bufferevent_filter_result bufferevent_filter_data_stuck_inputcb( struct evbuffer *src, struct evbuffer *dst, ev_ssize_t dst_limit, enum bufferevent_flush_mode mode, void *ctx) { struct bufferevent_filter_data_stuck *filter_data = ctx; static int header_inserted = 0; size_t payload_size; size_t header_size = 0; if (!header_inserted) { char *header = calloc(filter_data->header_size, 1); evbuffer_add(dst, header, filter_data->header_size); free(header); header_size = filter_data->header_size; header_inserted = 1; } payload_size = evbuffer_get_length(src); if (payload_size > dst_limit - header_size) { payload_size = dst_limit - header_size; } tt_int_op(payload_size, ==, evbuffer_remove_buffer(src, dst, payload_size)); end: return BEV_OK; } static void test_bufferevent_filter_data_stuck(void *arg) { const size_t read_high_wm = 4096; struct bufferevent_filter_data_stuck filter_data; struct basic_test_data *data = arg; struct bufferevent *pair[2]; struct bufferevent *filter = NULL; int options = BEV_OPT_CLOSE_ON_FREE | BEV_OPT_DEFER_CALLBACKS; char payload[4096]; int payload_size = sizeof(payload); memset(&filter_data, 0, sizeof(filter_data)); filter_data.header_size = 20; tt_assert(bufferevent_pair_new(data->base, options, pair) == 0); bufferevent_setwatermark(pair[0], EV_READ, 0, read_high_wm); bufferevent_setwatermark(pair[1], EV_READ, 0, read_high_wm); tt_assert( filter = bufferevent_filter_new(pair[1], bufferevent_filter_data_stuck_inputcb, NULL, options, NULL, &filter_data)); bufferevent_setcb(filter, bufferevent_filter_data_stuck_readcb, NULL, NULL, &filter_data); tt_assert(bufferevent_enable(filter, EV_READ|EV_WRITE) == 0); bufferevent_setwatermark(filter, EV_READ, 0, read_high_wm); tt_assert(bufferevent_write(pair[0], payload, sizeof(payload)) == 0); event_base_dispatch(data->base); tt_int_op(filter_data.total_read, ==, payload_size + filter_data.header_size); end: if (pair[0]) bufferevent_free(pair[0]); if (filter) bufferevent_free(filter); } static void read_failed_readcb(struct bufferevent *bev, void *arg) { int r; struct evbuffer *in_buf = NULL; char buf[] = "test data\0"; struct event_base *base = arg; in_buf = bufferevent_get_input(bev); tt_int_op(evbuffer_get_length(in_buf), ==, strlen(buf)); r = bufferevent_read(bev, buf, strlen(buf) - 1); tt_int_op(r, ==, strlen(buf) - 1); tt_int_op(evbuffer_get_length(in_buf), ==, 1); evbuffer_freeze(in_buf, 1); r = bufferevent_read(bev, buf, 1); tt_int_op(r, ==, 0); end:; event_base_loopexit(base, NULL); } static void test_bufferevent_read_failed(void *arg) { struct basic_test_data *data = arg; struct bufferevent *bev = NULL; char buf[] = "test data\0"; bev = bufferevent_socket_new( data->base, data->pair[1], BEV_OPT_CLOSE_ON_FREE); tt_assert(bev != NULL); bufferevent_setcb(bev, read_failed_readcb, NULL, NULL, data->base); bufferevent_enable(bev, EV_READ); #ifdef _WIN32 tt_int_op(send(data->pair[0], buf, strlen(buf), 0), ==, strlen(buf)); #else tt_int_op(write(data->pair[0], buf, strlen(buf)), ==, strlen(buf)); #endif event_base_dispatch(data->base); end:; bufferevent_free(bev); } struct testcase_t bufferevent_testcases[] = { LEGACY(bufferevent, TT_ISOLATED), LEGACY(bufferevent_pair, TT_ISOLATED), LEGACY(bufferevent_flush_normal, TT_ISOLATED), LEGACY(bufferevent_flush_flush, TT_ISOLATED), LEGACY(bufferevent_flush_finished, TT_ISOLATED), LEGACY(bufferevent_pair_flush_normal, TT_ISOLATED), LEGACY(bufferevent_pair_flush_flush, TT_ISOLATED), LEGACY(bufferevent_pair_flush_finished, TT_ISOLATED), #if defined(EVTHREAD_USE_PTHREADS_IMPLEMENTED) { "bufferevent_pair_release_lock", test_bufferevent_pair_release_lock, TT_FORK|TT_ISOLATED|TT_NEED_THREADS|TT_NEED_BASE|TT_LEGACY|TT_NO_LOGS, &basic_setup, NULL }, #endif LEGACY(bufferevent_watermarks, TT_ISOLATED), LEGACY(bufferevent_pair_watermarks, TT_ISOLATED), LEGACY(bufferevent_filters, TT_ISOLATED), LEGACY(bufferevent_pair_filters, TT_ISOLATED), LEGACY(bufferevent_filters_disable, TT_ISOLATED), LEGACY(bufferevent_pair_filters_disable, TT_ISOLATED), { "bufferevent_connect", test_bufferevent_connect, TT_FORK|TT_NEED_BASE, &basic_setup, (void*)"" }, { "bufferevent_connect_defer", test_bufferevent_connect, TT_FORK|TT_NEED_BASE, &basic_setup, (void*)"defer" }, { "bufferevent_connect_lock", test_bufferevent_connect, TT_FORK|TT_NEED_BASE|TT_NEED_THREADS, &basic_setup, (void*)"lock" }, { "bufferevent_connect_lock_defer", test_bufferevent_connect, TT_FORK|TT_NEED_BASE|TT_NEED_THREADS, &basic_setup, (void*)"defer lock" }, { "bufferevent_connect_unlocked_cbs", test_bufferevent_connect, TT_FORK|TT_NEED_BASE|TT_NEED_THREADS, &basic_setup, (void*)"lock defer unlocked" }, { "bufferevent_connect_fail", test_bufferevent_connect_fail, TT_FORK|TT_NEED_BASE, &basic_setup, NULL }, { "bufferevent_timeout", test_bufferevent_timeouts, TT_FORK|TT_NEED_BASE, &basic_setup, (void*)"" }, { "bufferevent_timeout_pair", test_bufferevent_timeouts, TT_FORK|TT_NEED_BASE, &basic_setup, (void*)"pair" }, { "bufferevent_timeout_filter", test_bufferevent_timeouts, TT_FORK|TT_NEED_BASE, &basic_setup, (void*)"filter" }, { "bufferevent_timeout_filter_pair", test_bufferevent_timeouts, TT_FORK|TT_NEED_BASE, &basic_setup, (void*)"filter pair" }, { "bufferevent_trigger", test_bufferevent_trigger, TT_FORK|TT_NEED_BASE, &basic_setup, (void*)"" }, { "bufferevent_trigger_defer", test_bufferevent_trigger, TT_FORK|TT_NEED_BASE, &basic_setup, (void*)"defer" }, { "bufferevent_trigger_postpone", test_bufferevent_trigger, TT_FORK|TT_NEED_BASE|TT_NEED_THREADS, &basic_setup, (void*)"postpone" }, { "bufferevent_trigger_defer_postpone", test_bufferevent_trigger, TT_FORK|TT_NEED_BASE|TT_NEED_THREADS, &basic_setup, (void*)"defer postpone" }, #ifdef EVENT__HAVE_LIBZ LEGACY(bufferevent_zlib, TT_ISOLATED), #else { "bufferevent_zlib", NULL, TT_SKIP, NULL, NULL }, #endif { "bufferevent_connect_fail_eventcb_defer", test_bufferevent_connect_fail_eventcb, TT_FORK|TT_NEED_BASE, &basic_setup, (void*)BEV_OPT_DEFER_CALLBACKS }, { "bufferevent_connect_fail_eventcb", test_bufferevent_connect_fail_eventcb, TT_FORK|TT_NEED_BASE, &basic_setup, NULL }, { "bufferevent_socket_filter_inactive", test_bufferevent_socket_filter_inactive, TT_FORK|TT_NEED_BASE, &basic_setup, NULL }, { "bufferevent_pair_flush", test_bufferevent_pair_flush, TT_FORK|TT_NEED_BASE, &basic_setup, NULL }, { "bufferevent_filter_data_stuck", test_bufferevent_filter_data_stuck, TT_FORK|TT_NEED_BASE, &basic_setup, NULL }, { "bufferevent_read_failed", test_bufferevent_read_failed, TT_FORK|TT_NEED_SOCKETPAIR|TT_NEED_BASE, &basic_setup, NULL }, LEGACY(bufferevent_ratelimit_div_by_zero, TT_ISOLATED), LEGACY(bufferevent_ratelimit_overflow, TT_ISOLATED), END_OF_TESTCASES, }; #define TT_IOCP (TT_FORK|TT_NEED_BASE|TT_ENABLE_IOCP) #define TT_IOCP_LEGACY (TT_ISOLATED|TT_ENABLE_IOCP) struct testcase_t bufferevent_iocp_testcases[] = { LEGACY(bufferevent, TT_IOCP_LEGACY), LEGACY(bufferevent_flush_normal, TT_ISOLATED), LEGACY(bufferevent_flush_flush, TT_ISOLATED), LEGACY(bufferevent_flush_finished, TT_ISOLATED), LEGACY(bufferevent_watermarks, TT_IOCP_LEGACY), LEGACY(bufferevent_filters, TT_IOCP_LEGACY), LEGACY(bufferevent_filters_disable, TT_IOCP_LEGACY), { "bufferevent_connect", test_bufferevent_connect, TT_IOCP, &basic_setup, (void*)"" }, { "bufferevent_connect_defer", test_bufferevent_connect, TT_IOCP, &basic_setup, (void*)"defer" }, { "bufferevent_connect_lock", test_bufferevent_connect, TT_IOCP, &basic_setup, (void*)"lock" }, { "bufferevent_connect_lock_defer", test_bufferevent_connect, TT_IOCP, &basic_setup, (void*)"defer lock" }, { "bufferevent_connect_fail", test_bufferevent_connect_fail, TT_IOCP, &basic_setup, NULL }, { "bufferevent_connect_nonblocking", test_bufferevent_connect, TT_IOCP, &basic_setup, (void*)"unset_connectex" }, { "bufferevent_connect_fail_eventcb_defer", test_bufferevent_connect_fail_eventcb, TT_IOCP, &basic_setup, (void*)BEV_OPT_DEFER_CALLBACKS }, { "bufferevent_connect_fail_eventcb", test_bufferevent_connect_fail_eventcb, TT_IOCP, &basic_setup, NULL }, END_OF_TESTCASES, };