/* This file is part of libmicrohttpd Copyright (C) 2013, 2015 Christian Grothoff libmicrohttpd is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. libmicrohttpd 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 for more details. You should have received a copy of the GNU General Public License along with libmicrohttpd; see the file COPYING. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /** * @file test_quiesce.c * @brief Testcase for libmicrohttpd quiescing * @author Christian Grothoff */ #include "MHD_config.h" #include "platform.h" #include #include #include #include #include #include #include #include "mhd_sockets.h" /* only macros used */ #ifndef WINDOWS #include #include #endif #if defined(CPU_COUNT) && (CPU_COUNT+0) < 2 #undef CPU_COUNT #endif #if !defined(CPU_COUNT) #define CPU_COUNT 2 #endif struct CBC { char *buf; size_t pos; size_t size; }; static int port; static size_t copyBuffer (void *ptr, size_t size, size_t nmemb, void *ctx) { struct CBC *cbc = ctx; if (cbc->pos + size * nmemb > cbc->size) return 0; /* overflow */ memcpy (&cbc->buf[cbc->pos], ptr, size * nmemb); cbc->pos += size * nmemb; return size * nmemb; } static int ahc_echo (void *cls, struct MHD_Connection *connection, const char *url, const char *method, const char *version, const char *upload_data, size_t *upload_data_size, void **unused) { static int ptr; const char *me = cls; struct MHD_Response *response; int ret; (void)version;(void)upload_data;(void)upload_data_size; /* Unused. Silent compiler warning. */ if (0 != strcmp (me, method)) return MHD_NO; /* unexpected method */ if (&ptr != *unused) { *unused = &ptr; return MHD_YES; } *unused = NULL; response = MHD_create_response_from_buffer (strlen (url), (void *) url, MHD_RESPMEM_MUST_COPY); ret = MHD_queue_response (connection, MHD_HTTP_OK, response); MHD_destroy_response (response); if (ret == MHD_NO) abort (); return ret; } static void request_completed (void *cls, struct MHD_Connection *connection, void **con_cls, enum MHD_RequestTerminationCode code) { (void)connection;(void)con_cls;(void)code; /* Unused. Silent compiler warning. */ int *done = (int *)cls; *done = 1; } static void * ServeOneRequest(void *param) { struct MHD_Daemon *d; fd_set rs; fd_set ws; fd_set es; MHD_socket fd, max; time_t start; struct timeval tv; int done = 0; fd = (MHD_socket) (intptr_t) param; d = MHD_start_daemon (MHD_USE_ERROR_LOG, 0, NULL, NULL, &ahc_echo, "GET", MHD_OPTION_LISTEN_SOCKET, fd, MHD_OPTION_NOTIFY_COMPLETED, &request_completed, &done, MHD_OPTION_END); if (d == NULL) return "MHD_start_daemon() failed"; start = time (NULL); while ((time (NULL) - start < 5) && done == 0) { max = 0; FD_ZERO (&rs); FD_ZERO (&ws); FD_ZERO (&es); if (MHD_YES != MHD_get_fdset (d, &rs, &ws, &es, &max)) { MHD_stop_daemon (d); MHD_socket_close_chk_(fd); return "MHD_get_fdset() failed"; } tv.tv_sec = 0; tv.tv_usec = 1000; if (-1 == MHD_SYS_select_ (max + 1, &rs, &ws, &es, &tv)) { #ifdef MHD_POSIX_SOCKETS if (EINTR != errno) abort (); #else if (WSAEINVAL != WSAGetLastError() || 0 != rs.fd_count || 0 != ws.fd_count || 0 != es.fd_count) abort (); Sleep (1000); #endif } MHD_run (d); } fd = MHD_quiesce_daemon (d); if (MHD_INVALID_SOCKET == fd) { MHD_stop_daemon (d); return "MHD_quiesce_daemon() failed in ServeOneRequest()"; } MHD_stop_daemon (d); return done ? NULL : "Requests was not served by ServeOneRequest()"; } static CURL * setupCURL (void *cbc) { CURL *c; c = curl_easy_init (); curl_easy_setopt (c, CURLOPT_URL, "http://127.0.0.1/hello_world"); curl_easy_setopt (c, CURLOPT_PORT, (long)port); curl_easy_setopt (c, CURLOPT_WRITEFUNCTION, ©Buffer); curl_easy_setopt (c, CURLOPT_WRITEDATA, cbc); curl_easy_setopt (c, CURLOPT_FAILONERROR, 1); curl_easy_setopt (c, CURLOPT_TIMEOUT_MS, 150L); curl_easy_setopt (c, CURLOPT_CONNECTTIMEOUT_MS, 150L); curl_easy_setopt (c, CURLOPT_HTTP_VERSION, CURL_HTTP_VERSION_1_0); /* NOTE: use of CONNECTTIMEOUT without also setting NOSIGNAL results in really weird crashes on my system!*/ curl_easy_setopt (c, CURLOPT_NOSIGNAL, 1); return c; } static int testGet (int type, int pool_count, int poll_flag) { struct MHD_Daemon *d; CURL *c; char buf[2048]; struct CBC cbc; CURLcode errornum; MHD_socket fd; pthread_t thrd; const char *thrdRet; if (MHD_NO != MHD_is_feature_supported (MHD_FEATURE_AUTODETECT_BIND_PORT)) port = 0; else port = 1480; cbc.buf = buf; cbc.size = 2048; cbc.pos = 0; if (pool_count > 0) { d = MHD_start_daemon (type | MHD_USE_ERROR_LOG | MHD_USE_ITC | poll_flag, port, NULL, NULL, &ahc_echo, "GET", MHD_OPTION_THREAD_POOL_SIZE, pool_count, MHD_OPTION_END); } else { d = MHD_start_daemon (type | MHD_USE_ERROR_LOG | MHD_USE_ITC | poll_flag, port, NULL, NULL, &ahc_echo, "GET", MHD_OPTION_END); } if (d == NULL) return 1; if (0 == port) { const union MHD_DaemonInfo *dinfo; dinfo = MHD_get_daemon_info (d, MHD_DAEMON_INFO_BIND_PORT); if (NULL == dinfo || 0 == dinfo->port) { MHD_stop_daemon (d); return 32; } port = (int)dinfo->port; } c = setupCURL(&cbc); if (CURLE_OK != (errornum = curl_easy_perform (c))) { fprintf (stderr, "curl_easy_perform failed: `%s'\n", curl_easy_strerror (errornum)); curl_easy_cleanup (c); MHD_stop_daemon (d); return 2; } if (cbc.pos != strlen ("/hello_world")) { curl_easy_cleanup (c); MHD_stop_daemon (d); return 4; } if (0 != strncmp ("/hello_world", cbc.buf, strlen ("/hello_world"))) { curl_easy_cleanup (c); MHD_stop_daemon (d); return 8; } fd = MHD_quiesce_daemon (d); if (MHD_INVALID_SOCKET == fd) { fprintf (stderr, "MHD_quiesce_daemon failed.\n"); curl_easy_cleanup (c); MHD_stop_daemon (d); return 2; } if (0 != pthread_create(&thrd, NULL, &ServeOneRequest, (void*)(intptr_t) fd)) { fprintf (stderr, "pthread_create failed\n"); curl_easy_cleanup (c); MHD_stop_daemon (d); return 16; } cbc.pos = 0; if (CURLE_OK != (errornum = curl_easy_perform (c))) { fprintf (stderr, "curl_easy_perform failed: `%s'\n", curl_easy_strerror (errornum)); curl_easy_cleanup (c); MHD_stop_daemon (d); return 2; } if (0 != pthread_join(thrd, (void**)&thrdRet)) { fprintf (stderr, "pthread_join failed\n"); curl_easy_cleanup (c); MHD_stop_daemon (d); return 16; } if (NULL != thrdRet) { fprintf (stderr, "ServeOneRequest() error: %s\n", thrdRet); curl_easy_cleanup (c); MHD_stop_daemon (d); return 16; } if (cbc.pos != strlen ("/hello_world")) { fprintf(stderr, "%s\n", cbc.buf); curl_easy_cleanup (c); MHD_stop_daemon (d); MHD_socket_close_chk_(fd); return 4; } if (0 != strncmp ("/hello_world", cbc.buf, strlen ("/hello_world"))) { fprintf(stderr, "%s\n", cbc.buf); curl_easy_cleanup (c); MHD_stop_daemon (d); MHD_socket_close_chk_(fd); return 8; } /* at this point, the forked server quit, and the new * server has quiesced, so new requests should fail */ if (CURLE_OK == (errornum = curl_easy_perform (c))) { fprintf (stderr, "curl_easy_perform should fail\n"); curl_easy_cleanup (c); MHD_stop_daemon (d); MHD_socket_close_chk_(fd); return 2; } curl_easy_cleanup (c); MHD_stop_daemon (d); MHD_socket_close_chk_(fd); return 0; } static int testExternalGet () { struct MHD_Daemon *d; CURL *c; char buf[2048]; struct CBC cbc; CURLM *multi; CURLMcode mret; fd_set rs; fd_set ws; fd_set es; MHD_socket maxsock; #ifdef MHD_WINSOCK_SOCKETS int maxposixs; /* Max socket number unused on W32 */ #else /* MHD_POSIX_SOCKETS */ #define maxposixs maxsock #endif /* MHD_POSIX_SOCKETS */ int running; struct CURLMsg *msg; time_t start; struct timeval tv; int i; MHD_socket fd; if (MHD_NO != MHD_is_feature_supported (MHD_FEATURE_AUTODETECT_BIND_PORT)) port = 0; else port = 1481; multi = NULL; cbc.buf = buf; cbc.size = 2048; cbc.pos = 0; d = MHD_start_daemon (MHD_USE_ERROR_LOG, port, NULL, NULL, &ahc_echo, "GET", MHD_OPTION_END); if (d == NULL) return 256; if (0 == port) { const union MHD_DaemonInfo *dinfo; dinfo = MHD_get_daemon_info (d, MHD_DAEMON_INFO_BIND_PORT); if (NULL == dinfo || 0 == dinfo->port) { MHD_stop_daemon (d); return 32; } port = (int)dinfo->port; } c = setupCURL(&cbc); multi = curl_multi_init (); if (multi == NULL) { curl_easy_cleanup (c); MHD_stop_daemon (d); return 512; } mret = curl_multi_add_handle (multi, c); if (mret != CURLM_OK) { curl_multi_cleanup (multi); curl_easy_cleanup (c); MHD_stop_daemon (d); return 1024; } for (i = 0; i < 2; i++) { start = time (NULL); while ( (time (NULL) - start < 5) && (NULL != multi) ) { maxsock = MHD_INVALID_SOCKET; maxposixs = -1; FD_ZERO (&rs); FD_ZERO (&ws); FD_ZERO (&es); curl_multi_perform (multi, &running); mret = curl_multi_fdset (multi, &rs, &ws, &es, &maxposixs); if (mret != CURLM_OK) { curl_multi_remove_handle (multi, c); curl_multi_cleanup (multi); curl_easy_cleanup (c); MHD_stop_daemon (d); return 2048; } if (MHD_YES != MHD_get_fdset (d, &rs, &ws, &es, &maxsock)) { curl_multi_remove_handle (multi, c); curl_multi_cleanup (multi); curl_easy_cleanup (c); MHD_stop_daemon (d); return 4096; } tv.tv_sec = 0; tv.tv_usec = 1000; if (-1 == select (maxposixs + 1, &rs, &ws, &es, &tv)) { #ifdef MHD_POSIX_SOCKETS if (EINTR != errno) abort (); #else if (WSAEINVAL != WSAGetLastError() || 0 != rs.fd_count || 0 != ws.fd_count || 0 != es.fd_count) abort (); Sleep (1000); #endif } curl_multi_perform (multi, &running); if (0 == running) { msg = curl_multi_info_read (multi, &running); if (NULL == msg) break; if (msg->msg == CURLMSG_DONE) { if (i == 0 && msg->data.result != CURLE_OK) printf ("%s failed at %s:%d: `%s'\n", "curl_multi_perform", __FILE__, __LINE__, curl_easy_strerror (msg->data.result)); else if ( (i == 1) && (msg->data.result == CURLE_OK) ) printf ("%s should have failed at %s:%d\n", "curl_multi_perform", __FILE__, __LINE__); curl_multi_remove_handle (multi, c); curl_multi_cleanup (multi); curl_easy_cleanup (c); c = NULL; multi = NULL; } } MHD_run (d); } if (0 == i) { /* quiesce the daemon on the 1st iteration, so the 2nd should fail */ fd = MHD_quiesce_daemon(d); if (MHD_INVALID_SOCKET == fd) { fprintf (stderr, "MHD_quiesce_daemon failed.\n"); curl_multi_remove_handle (multi, c); curl_multi_cleanup (multi); curl_easy_cleanup (c); MHD_stop_daemon (d); return 2; } c = setupCURL (&cbc); multi = curl_multi_init (); mret = curl_multi_add_handle (multi, c); if (mret != CURLM_OK) { curl_multi_remove_handle (multi, c); curl_multi_cleanup (multi); curl_easy_cleanup (c); MHD_stop_daemon (d); return 32768; } } } if (NULL != multi) { curl_multi_remove_handle (multi, c); curl_easy_cleanup (c); curl_multi_cleanup (multi); } MHD_stop_daemon (d); MHD_socket_close_chk_ (fd); if (cbc.pos != strlen ("/hello_world")) return 8192; if (0 != strncmp ("/hello_world", cbc.buf, strlen ("/hello_world"))) return 16384; return 0; } int main (int argc, char *const *argv) { unsigned int errorCount = 0; (void)argc; (void)argv; /* Unused. Silent compiler warning. */ if (0 != curl_global_init (CURL_GLOBAL_WIN32)) return 2; errorCount += testGet (MHD_USE_INTERNAL_POLLING_THREAD, 0, 0); errorCount += testGet (MHD_USE_THREAD_PER_CONNECTION | MHD_USE_INTERNAL_POLLING_THREAD, 0, 0); errorCount += testGet (MHD_USE_INTERNAL_POLLING_THREAD, CPU_COUNT, 0); errorCount += testExternalGet (); if (MHD_YES == MHD_is_feature_supported(MHD_FEATURE_POLL)) { errorCount += testGet(MHD_USE_INTERNAL_POLLING_THREAD, 0, MHD_USE_POLL); errorCount += testGet (MHD_USE_THREAD_PER_CONNECTION | MHD_USE_INTERNAL_POLLING_THREAD, 0, MHD_USE_POLL); errorCount += testGet (MHD_USE_INTERNAL_POLLING_THREAD, CPU_COUNT, MHD_USE_POLL); } if (MHD_YES == MHD_is_feature_supported(MHD_FEATURE_EPOLL)) { errorCount += testGet (MHD_USE_INTERNAL_POLLING_THREAD, 0, MHD_USE_EPOLL); errorCount += testGet (MHD_USE_INTERNAL_POLLING_THREAD, CPU_COUNT, MHD_USE_EPOLL); } if (errorCount != 0) fprintf (stderr, "Error (code: %u)\n", errorCount); curl_global_cleanup (); return errorCount != 0; /* 0 == pass */ }