curl-7.25.0/tests/libtest/test.h - nest-learning-thermostat/5.1.5/curl - Git at Google

 /***************************************************************************
  *                                  _   _ ____  _
  *  Project                     ___| | | |  _ \| |
  *                             / __| | | | |_) | |
  *                            | (__| |_| |  _ <| |___
  *                             \___|\___/|_| \_\_____|
  *
  * Copyright (C) 1998 - 2011, Daniel Stenberg, <daniel@haxx.se>, et al.
  *
  * This software is licensed as described in the file COPYING, which
  * you should have received as part of this distribution. The terms
  * are also available at http://curl.haxx.se/docs/copyright.html.
  *
  * You may opt to use, copy, modify, merge, publish, distribute and/or sell
  * copies of the Software, and permit persons to whom the Software is
  * furnished to do so, under the terms of the COPYING file.
  *
  * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
  * KIND, either express or implied.
  *
  ***************************************************************************/

 /* Now include the setup.h file from libcurl's private libdir (the source
    version, but that might include "curl_config.h" from the build dir so we
    need both of them in the include path), so that we get good in-depth
    knowledge about the system we're building this on */

 #define CURL_NO_OLDIES

 #include "setup.h"

 #include <curl/curl.h>
 #include <stdio.h>
 #include <string.h>
 #include <stdlib.h>

 #ifdef HAVE_SYS_SOCKET_H
 #include <sys/socket.h>
 #endif
 #ifdef HAVE_SYS_SELECT_H
 /* since so many tests use select(), we can just as well include it here */
 #include <sys/select.h>
 #endif
 #ifdef HAVE_UNISTD_H
 /* at least somewhat oldish FreeBSD systems need this for select() */
 #include <unistd.h>
 #endif

 #ifdef TPF
 #  include "select.h"
 #endif

 #define test_setopt(A,B,C) \
   if((res = curl_easy_setopt((A),(B),(C))) != CURLE_OK) goto test_cleanup

 #define test_multi_setopt(A,B,C) \
   if((res = curl_multi_setopt((A),(B),(C))) != CURLE_OK) goto test_cleanup

 extern char *libtest_arg2; /* set by first.c to the argv[2] or NULL */
 extern char *libtest_arg3; /* set by first.c to the argv[3] or NULL */

 /* argc and argv as passed in to the main() function */
 extern int test_argc;
 extern char **test_argv;

 extern struct timeval tv_test_start; /* for test timing */

 extern int select_wrapper(int nfds, fd_set *rd, fd_set *wr, fd_set *exc,
                           struct timeval *tv);

 extern int test(char *URL); /* the actual test function provided by each
                                individual libXXX.c file */

 #ifdef UNITTESTS
 extern int unitfail;
 #endif

 /*
 ** TEST_ERR_* values must be greater than CURL_LAST CURLcode in order
 ** to avoid confusion with any CURLcode or CURLMcode. These TEST_ERR_*
 ** codes are returned to signal test specific situations and should
 ** not get mixed with CURLcode or CURLMcode values.
 **
 ** For portability reasons TEST_ERR_* values should be less than 127.
 */

 #define TEST_ERR_MAJOR_BAD     126
 #define TEST_ERR_RUNS_FOREVER  125
 #define TEST_ERR_EASY_INIT     124
 #define TEST_ERR_MULTI_INIT    123
 #define TEST_ERR_NUM_HANDLES   122
 #define TEST_ERR_SELECT        121
 #define TEST_ERR_SUCCESS       120
 #define TEST_ERR_FAILURE       119
 #define TEST_ERR_USAGE         118
 #define TEST_ERR_FOPEN         117
 #define TEST_ERR_FSTAT         116
 #define TEST_ERR_BAD_TIMEOUT   115

 /*
 ** Macros for test source code readability/maintainability.
 **
 ** All of the following macros require that an int data type 'res' variable
 ** exists in scope where macro is used, and that it has been initialized to
 ** zero before the macro is used.
 **
 ** exe_* and chk_* macros are helper macros not intended to be used from
 ** outside of this header file. Arguments 'Y' and 'Z' of these represent
 ** source code file and line number, while Arguments 'A', 'B', etc, are
 ** the arguments used to actually call a libcurl function.
 **
 ** All easy_* and multi_* macros call a libcurl function and evaluate if
 ** the function has succeeded or failed. When the function succeeds 'res'
 ** variable is not set nor cleared and program continues normal flow. On
 ** the other hand if function fails 'res' variable is set and a jump to
 ** label 'test_cleanup' is performed.
 **
 ** Every easy_* and multi_* macros have a res_easy_* and res_multi_* macro
 ** counterpart that operates in tha same way with the exception that no
 ** jump takes place in case of failure. res_easy_* and res_multi_* macros
 ** should be immediately followed by checking if 'res' variable has been
 ** set.
 **
 ** 'res' variable when set will hold a CURLcode, CURLMcode, or any of the
 ** TEST_ERR_* values defined above. It is advisable to return this value
 ** as test result.
 */

 /* ---------------------------------------------------------------- */

 #define exe_easy_init(A,Y,Z) do {                                 \
   if(((A) = curl_easy_init()) == NULL) {                          \
     fprintf(stderr, "%s:%d curl_easy_init() failed\n", (Y), (Z)); \
     res = TEST_ERR_EASY_INIT;                                     \
   }                                                               \
 } WHILE_FALSE

 #define res_easy_init(A) \
   exe_easy_init((A),(__FILE__),(__LINE__))

 #define chk_easy_init(A,Y,Z) do { \
   exe_easy_init((A),(Y),(Z));     \
   if(res)                         \
     goto test_cleanup;            \
 } WHILE_FALSE

 #define easy_init(A) \
   chk_easy_init((A),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define exe_multi_init(A,Y,Z) do {                                 \
   if(((A) = curl_multi_init()) == NULL) {                          \
     fprintf(stderr, "%s:%d curl_multi_init() failed\n", (Y), (Z)); \
     res = TEST_ERR_MULTI_INIT;                                     \
   }                                                                \
 } WHILE_FALSE

 #define res_multi_init(A) \
   exe_multi_init((A),(__FILE__),(__LINE__))

 #define chk_multi_init(A,Y,Z) do { \
   exe_multi_init((A),(Y),(Z));     \
   if(res)                          \
     goto test_cleanup;             \
 } WHILE_FALSE

 #define multi_init(A) \
   chk_multi_init((A),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define exe_easy_setopt(A,B,C,Y,Z) do {                  \
   CURLcode ec;                                           \
   if((ec = curl_easy_setopt((A),(B),(C))) != CURLE_OK) { \
     fprintf(stderr, "%s:%d curl_easy_setopt() failed, "  \
             "with code %d (%s)\n",                       \
             (Y), (Z), (int)ec, curl_easy_strerror(ec));  \
     res = (int)ec;                                       \
   }                                                      \
 } WHILE_FALSE

 #define res_easy_setopt(A,B,C) \
   exe_easy_setopt((A),(B),(C),(__FILE__),(__LINE__))

 #define chk_easy_setopt(A,B,C,Y,Z) do { \
   exe_easy_setopt((A),(B),(C),(Y),(Z)); \
   if(res)                               \
     goto test_cleanup;                  \
 } WHILE_FALSE

 #define easy_setopt(A,B,C) \
   chk_easy_setopt((A),(B),(C),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define exe_multi_setopt(A,B,C,Y,Z) do {                  \
   CURLMcode ec;                                           \
   if((ec = curl_multi_setopt((A),(B),(C))) != CURLM_OK) { \
     fprintf(stderr, "%s:%d curl_multi_setopt() failed, "  \
             "with code %d (%s)\n",                        \
             (Y), (Z), (int)ec, curl_multi_strerror(ec));  \
     res = (int)ec;                                        \
   }                                                       \
 } WHILE_FALSE

 #define res_multi_setopt(A,B,C) \
   exe_multi_setopt((A),(B),(C),(__FILE__),(__LINE__))

 #define chk_multi_setopt(A,B,C,Y,Z) do { \
   exe_multi_setopt((A),(B),(C),(Y),(Z)); \
   if(res)                                \
     goto test_cleanup;                   \
 } WHILE_FALSE

 #define multi_setopt(A,B,C) \
   chk_multi_setopt((A),(B),(C),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define exe_multi_add_handle(A,B,Y,Z) do {                   \
   CURLMcode ec;                                              \
   if((ec = curl_multi_add_handle((A),(B))) != CURLM_OK) {    \
     fprintf(stderr, "%s:%d curl_multi_add_handle() failed, " \
             "with code %d (%s)\n",                           \
             (Y), (Z), (int)ec, curl_multi_strerror(ec));     \
     res = (int)ec;                                           \
   }                                                          \
 } WHILE_FALSE

 #define res_multi_add_handle(A,B) \
   exe_multi_add_handle((A),(B),(__FILE__),(__LINE__))

 #define chk_multi_add_handle(A,B,Y,Z) do { \
   exe_multi_add_handle((A),(B),(Y),(Z));   \
   if(res)                                  \
     goto test_cleanup;                     \
 } WHILE_FALSE

 #define multi_add_handle(A,B) \
   chk_multi_add_handle((A),(B),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define exe_multi_remove_handle(A,B,Y,Z) do {                   \
   CURLMcode ec;                                                 \
   if((ec = curl_multi_remove_handle((A),(B))) != CURLM_OK) {    \
     fprintf(stderr, "%s:%d curl_multi_remove_handle() failed, " \
             "with code %d (%s)\n",                              \
             (Y), (Z), (int)ec, curl_multi_strerror(ec));        \
     res = (int)ec;                                              \
   }                                                             \
 } WHILE_FALSE

 #define res_multi_remove_handle(A,B) \
   exe_multi_remove_handle((A),(B),(__FILE__),(__LINE__))

 #define chk_multi_remove_handle(A,B,Y,Z) do { \
   exe_multi_remove_handle((A),(B),(Y),(Z));   \
   if(res)                                     \
     goto test_cleanup;                        \
 } WHILE_FALSE


 #define multi_remove_handle(A,B) \
   chk_multi_remove_handle((A),(B),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define exe_multi_perform(A,B,Y,Z) do {                          \
   CURLMcode ec;                                                  \
   if((ec = curl_multi_perform((A),(B))) != CURLM_OK) {           \
     fprintf(stderr, "%s:%d curl_multi_perform() failed, "        \
             "with code %d (%s)\n",                               \
             (Y), (Z), (int)ec, curl_multi_strerror(ec));         \
     res = (int)ec;                                               \
   }                                                              \
   else if(*((B)) < 0) {                                          \
     fprintf(stderr, "%s:%d curl_multi_perform() succeeded, "     \
             "but returned invalid running_handles value (%d)\n", \
             (Y), (Z), (int)*((B)));                              \
     res = TEST_ERR_NUM_HANDLES;                                  \
   }                                                              \
 } WHILE_FALSE

 #define res_multi_perform(A,B) \
   exe_multi_perform((A),(B),(__FILE__),(__LINE__))

 #define chk_multi_perform(A,B,Y,Z) do { \
   exe_multi_perform((A),(B),(Y),(Z));   \
   if(res)                               \
     goto test_cleanup;                  \
 } WHILE_FALSE

 #define multi_perform(A,B) \
   chk_multi_perform((A),(B),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define exe_multi_fdset(A,B,C,D,E,Y,Z) do {                      \
   CURLMcode ec;                                                  \
   if((ec = curl_multi_fdset((A),(B),(C),(D),(E))) != CURLM_OK) { \
     fprintf(stderr, "%s:%d curl_multi_fdset() failed, "          \
             "with code %d (%s)\n",                               \
             (Y), (Z), (int)ec, curl_multi_strerror(ec));         \
     res = (int)ec;                                               \
   }                                                              \
   else if(*((E)) < -1) {                                         \
     fprintf(stderr, "%s:%d curl_multi_fdset() succeeded, "       \
             "but returned invalid max_fd value (%d)\n",          \
             (Y), (Z), (int)*((E)));                              \
     res = TEST_ERR_NUM_HANDLES;                                  \
   }                                                              \
 } WHILE_FALSE

 #define res_multi_fdset(A,B,C,D,E) \
   exe_multi_fdset((A),(B),(C),(D),(E),(__FILE__),(__LINE__))

 #define chk_multi_fdset(A,B,C,D,E,Y,Z) do {     \
   exe_multi_fdset((A),(B),(C),(D),(E),(Y),(Z)); \
   if(res)                                       \
     goto test_cleanup;                          \
 } WHILE_FALSE

 #define multi_fdset(A,B,C,D,E) \
   chk_multi_fdset((A),(B),(C),(D),(E),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define exe_multi_timeout(A,B,Y,Z) do {                      \
   CURLMcode ec;                                              \
   if((ec = curl_multi_timeout((A),(B))) != CURLM_OK) {       \
     fprintf(stderr, "%s:%d curl_multi_timeout() failed, "    \
             "with code %d (%s)\n",                           \
             (Y), (Z), (int)ec, curl_multi_strerror(ec));     \
     res = (int)ec;                                           \
   }                                                          \
   else if(*((B)) < -1L) {                                    \
     fprintf(stderr, "%s:%d curl_multi_timeout() succeeded, " \
             "but returned invalid timeout value (%ld)\n",    \
             (Y), (Z), (long)*((B)));                         \
     res = TEST_ERR_BAD_TIMEOUT;                              \
   }                                                          \
 } WHILE_FALSE

 #define res_multi_timeout(A,B) \
   exe_multi_timeout((A),(B),(__FILE__),(__LINE__))

 #define chk_multi_timeout(A,B,Y,Z) do { \
   exe_multi_timeout((A),(B),(Y),(Z));   \
   if(res)                               \
     goto test_cleanup;                  \
 } WHILE_FALSE

 #define multi_timeout(A,B) \
   chk_multi_timeout((A),(B),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define exe_select_test(A,B,C,D,E,Y,Z) do {        \
   int ec;                                          \
   if(select_wrapper((A),(B),(C),(D),(E)) == -1 ) { \
     ec = SOCKERRNO;                                \
     fprintf(stderr, "%s:%d select() failed, with " \
             "errno %d (%s)\n",                     \
             (Y), (Z), ec, strerror(ec));           \
     res = TEST_ERR_SELECT;                         \
   }                                                \
 } WHILE_FALSE

 #define res_select_test(A,B,C,D,E) \
   exe_select_test((A),(B),(C),(D),(E),(__FILE__),(__LINE__))

 #define chk_select_test(A,B,C,D,E,Y,Z) do {     \
   exe_select_test((A),(B),(C),(D),(E),(Y),(Z)); \
   if(res)                                       \
     goto test_cleanup;                          \
 } WHILE_FALSE

 #define select_test(A,B,C,D,E) \
   chk_select_test((A),(B),(C),(D),(E),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define start_test_timing() do { \
   tv_test_start = tutil_tvnow(); \
 } WHILE_FALSE

 #define exe_test_timedout(Y,Z) do {                                    \
   if(tutil_tvdiff(tutil_tvnow(), tv_test_start) > TEST_HANG_TIMEOUT) { \
     fprintf(stderr, "%s:%d ABORTING TEST, since it seems "             \
                     "that it would have run forever.\n", (Y), (Z));    \
     res = TEST_ERR_RUNS_FOREVER;                                       \
   }                                                                    \
 } WHILE_FALSE

 #define res_test_timedout() \
   exe_test_timedout((__FILE__),(__LINE__))

 #define chk_test_timedout(Y,Z) do { \
   exe_test_timedout(Y,Z);           \
   if(res)                           \
     goto test_cleanup;              \
 } WHILE_FALSE

 #define abort_on_test_timeout() \
   chk_test_timedout((__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */

 #define exe_global_init(A,Y,Z) do {                     \
   CURLcode ec;                                          \
   if((ec = curl_global_init((A))) != CURLE_OK) {        \
     fprintf(stderr, "%s:%d curl_global_init() failed, " \
             "with code %d (%s)\n",                      \
             (Y), (Z), (int)ec, curl_easy_strerror(ec)); \
     res = (int)ec;                                      \
   }                                                     \
 } WHILE_FALSE

 #define res_global_init(A) \
   exe_global_init((A),(__FILE__),(__LINE__))

 #define chk_global_init(A,Y,Z) do { \
   exe_global_init((A),(Y),(Z));     \
   if(res)                           \
     return res;                     \
 } WHILE_FALSE

 /* global_init() is different than other macros. In case of
    failure it 'return's instead of going to 'test_cleanup'. */

 #define global_init(A) \
   chk_global_init((A),(__FILE__),(__LINE__))

 /* ---------------------------------------------------------------- */
	/***************************************************************************
	* _ _ ____ _
	* Project ___\| \| \| \| _ \\| \|
	* / __\| \| \| \| \|_) \| \|
	* \| (__\| \|_\| \| _ <\| \|___
	* \___\|\___/\|_\| \_\_____\|
	*
	* Copyright (C) 1998 - 2011, Daniel Stenberg, <daniel@haxx.se>, et al.
	*
	* This software is licensed as described in the file COPYING, which
	* you should have received as part of this distribution. The terms
	* are also available at http://curl.haxx.se/docs/copyright.html.
	*
	* You may opt to use, copy, modify, merge, publish, distribute and/or sell
	* copies of the Software, and permit persons to whom the Software is
	* furnished to do so, under the terms of the COPYING file.
	*
	* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
	* KIND, either express or implied.
	*
	***************************************************************************/

	/* Now include the setup.h file from libcurl's private libdir (the source
	version, but that might include "curl_config.h" from the build dir so we
	need both of them in the include path), so that we get good in-depth
	knowledge about the system we're building this on */

	#define CURL_NO_OLDIES

	#include "setup.h"

	#include <curl/curl.h>
	#include <stdio.h>
	#include <string.h>
	#include <stdlib.h>

	#ifdef HAVE_SYS_SOCKET_H
	#include <sys/socket.h>
	#endif
	#ifdef HAVE_SYS_SELECT_H
	/* since so many tests use select(), we can just as well include it here */
	#include <sys/select.h>
	#endif
	#ifdef HAVE_UNISTD_H
	/* at least somewhat oldish FreeBSD systems need this for select() */
	#include <unistd.h>
	#endif

	#ifdef TPF
	# include "select.h"
	#endif

	#define test_setopt(A,B,C) \
	if((res = curl_easy_setopt((A),(B),(C))) != CURLE_OK) goto test_cleanup

	#define test_multi_setopt(A,B,C) \
	if((res = curl_multi_setopt((A),(B),(C))) != CURLE_OK) goto test_cleanup

	extern char libtest_arg2; / set by first.c to the argv[2] or NULL */
	extern char libtest_arg3; / set by first.c to the argv[3] or NULL */

	/* argc and argv as passed in to the main() function */
	extern int test_argc;
	extern char **test_argv;

	extern struct timeval tv_test_start; /* for test timing */

	extern int select_wrapper(int nfds, fd_set rd, fd_set wr, fd_set *exc,
	struct timeval *tv);

	extern int test(char URL); / the actual test function provided by each
	individual libXXX.c file */

	#ifdef UNITTESTS
	extern int unitfail;
	#endif

	/*
	** TEST_ERR_* values must be greater than CURL_LAST CURLcode in order
	** to avoid confusion with any CURLcode or CURLMcode. These TEST_ERR_*
	** codes are returned to signal test specific situations and should
	** not get mixed with CURLcode or CURLMcode values.
	**
	** For portability reasons TEST_ERR_* values should be less than 127.
	*/

	#define TEST_ERR_MAJOR_BAD 126
	#define TEST_ERR_RUNS_FOREVER 125
	#define TEST_ERR_EASY_INIT 124
	#define TEST_ERR_MULTI_INIT 123
	#define TEST_ERR_NUM_HANDLES 122
	#define TEST_ERR_SELECT 121
	#define TEST_ERR_SUCCESS 120
	#define TEST_ERR_FAILURE 119
	#define TEST_ERR_USAGE 118
	#define TEST_ERR_FOPEN 117
	#define TEST_ERR_FSTAT 116
	#define TEST_ERR_BAD_TIMEOUT 115

	/*
	** Macros for test source code readability/maintainability.
	**
	** All of the following macros require that an int data type 'res' variable
	** exists in scope where macro is used, and that it has been initialized to
	** zero before the macro is used.
	**
	** exe_* and chk_* macros are helper macros not intended to be used from
	** outside of this header file. Arguments 'Y' and 'Z' of these represent
	** source code file and line number, while Arguments 'A', 'B', etc, are
	** the arguments used to actually call a libcurl function.
	**
	** All easy_* and multi_* macros call a libcurl function and evaluate if
	** the function has succeeded or failed. When the function succeeds 'res'
	** variable is not set nor cleared and program continues normal flow. On
	** the other hand if function fails 'res' variable is set and a jump to
	** label 'test_cleanup' is performed.
	**
	** Every easy_* and multi_* macros have a res_easy_* and res_multi_* macro
	** counterpart that operates in tha same way with the exception that no
	** jump takes place in case of failure. res_easy_* and res_multi_* macros
	** should be immediately followed by checking if 'res' variable has been
	** set.
	**
	** 'res' variable when set will hold a CURLcode, CURLMcode, or any of the
	** TEST_ERR_* values defined above. It is advisable to return this value
	** as test result.
	*/

	/* ---------------------------------------------------------------- */

	#define exe_easy_init(A,Y,Z) do { \
	if(((A) = curl_easy_init()) == NULL) { \
	fprintf(stderr, "%s:%d curl_easy_init() failed\n", (Y), (Z)); \
	res = TEST_ERR_EASY_INIT; \
	} \
	} WHILE_FALSE

	#define res_easy_init(A) \
	exe_easy_init((A),(__FILE__),(__LINE__))

	#define chk_easy_init(A,Y,Z) do { \
	exe_easy_init((A),(Y),(Z)); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE

	#define easy_init(A) \
	chk_easy_init((A),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define exe_multi_init(A,Y,Z) do { \
	if(((A) = curl_multi_init()) == NULL) { \
	fprintf(stderr, "%s:%d curl_multi_init() failed\n", (Y), (Z)); \
	res = TEST_ERR_MULTI_INIT; \
	} \
	} WHILE_FALSE

	#define res_multi_init(A) \
	exe_multi_init((A),(__FILE__),(__LINE__))

	#define chk_multi_init(A,Y,Z) do { \
	exe_multi_init((A),(Y),(Z)); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE

	#define multi_init(A) \
	chk_multi_init((A),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define exe_easy_setopt(A,B,C,Y,Z) do { \
	CURLcode ec; \
	if((ec = curl_easy_setopt((A),(B),(C))) != CURLE_OK) { \
	fprintf(stderr, "%s:%d curl_easy_setopt() failed, " \
	"with code %d (%s)\n", \
	(Y), (Z), (int)ec, curl_easy_strerror(ec)); \
	res = (int)ec; \
	} \
	} WHILE_FALSE

	#define res_easy_setopt(A,B,C) \
	exe_easy_setopt((A),(B),(C),(__FILE__),(__LINE__))

	#define chk_easy_setopt(A,B,C,Y,Z) do { \
	exe_easy_setopt((A),(B),(C),(Y),(Z)); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE

	#define easy_setopt(A,B,C) \
	chk_easy_setopt((A),(B),(C),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define exe_multi_setopt(A,B,C,Y,Z) do { \
	CURLMcode ec; \
	if((ec = curl_multi_setopt((A),(B),(C))) != CURLM_OK) { \
	fprintf(stderr, "%s:%d curl_multi_setopt() failed, " \
	"with code %d (%s)\n", \
	(Y), (Z), (int)ec, curl_multi_strerror(ec)); \
	res = (int)ec; \
	} \
	} WHILE_FALSE

	#define res_multi_setopt(A,B,C) \
	exe_multi_setopt((A),(B),(C),(__FILE__),(__LINE__))

	#define chk_multi_setopt(A,B,C,Y,Z) do { \
	exe_multi_setopt((A),(B),(C),(Y),(Z)); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE

	#define multi_setopt(A,B,C) \
	chk_multi_setopt((A),(B),(C),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define exe_multi_add_handle(A,B,Y,Z) do { \
	CURLMcode ec; \
	if((ec = curl_multi_add_handle((A),(B))) != CURLM_OK) { \
	fprintf(stderr, "%s:%d curl_multi_add_handle() failed, " \
	"with code %d (%s)\n", \
	(Y), (Z), (int)ec, curl_multi_strerror(ec)); \
	res = (int)ec; \
	} \
	} WHILE_FALSE

	#define res_multi_add_handle(A,B) \
	exe_multi_add_handle((A),(B),(__FILE__),(__LINE__))

	#define chk_multi_add_handle(A,B,Y,Z) do { \
	exe_multi_add_handle((A),(B),(Y),(Z)); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE

	#define multi_add_handle(A,B) \
	chk_multi_add_handle((A),(B),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define exe_multi_remove_handle(A,B,Y,Z) do { \
	CURLMcode ec; \
	if((ec = curl_multi_remove_handle((A),(B))) != CURLM_OK) { \
	fprintf(stderr, "%s:%d curl_multi_remove_handle() failed, " \
	"with code %d (%s)\n", \
	(Y), (Z), (int)ec, curl_multi_strerror(ec)); \
	res = (int)ec; \
	} \
	} WHILE_FALSE

	#define res_multi_remove_handle(A,B) \
	exe_multi_remove_handle((A),(B),(__FILE__),(__LINE__))

	#define chk_multi_remove_handle(A,B,Y,Z) do { \
	exe_multi_remove_handle((A),(B),(Y),(Z)); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE


	#define multi_remove_handle(A,B) \
	chk_multi_remove_handle((A),(B),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define exe_multi_perform(A,B,Y,Z) do { \
	CURLMcode ec; \
	if((ec = curl_multi_perform((A),(B))) != CURLM_OK) { \
	fprintf(stderr, "%s:%d curl_multi_perform() failed, " \
	"with code %d (%s)\n", \
	(Y), (Z), (int)ec, curl_multi_strerror(ec)); \
	res = (int)ec; \
	} \
	else if(*((B)) < 0) { \
	fprintf(stderr, "%s:%d curl_multi_perform() succeeded, " \
	"but returned invalid running_handles value (%d)\n", \
	(Y), (Z), (int)*((B))); \
	res = TEST_ERR_NUM_HANDLES; \
	} \
	} WHILE_FALSE

	#define res_multi_perform(A,B) \
	exe_multi_perform((A),(B),(__FILE__),(__LINE__))

	#define chk_multi_perform(A,B,Y,Z) do { \
	exe_multi_perform((A),(B),(Y),(Z)); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE

	#define multi_perform(A,B) \
	chk_multi_perform((A),(B),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define exe_multi_fdset(A,B,C,D,E,Y,Z) do { \
	CURLMcode ec; \
	if((ec = curl_multi_fdset((A),(B),(C),(D),(E))) != CURLM_OK) { \
	fprintf(stderr, "%s:%d curl_multi_fdset() failed, " \
	"with code %d (%s)\n", \
	(Y), (Z), (int)ec, curl_multi_strerror(ec)); \
	res = (int)ec; \
	} \
	else if(*((E)) < -1) { \
	fprintf(stderr, "%s:%d curl_multi_fdset() succeeded, " \
	"but returned invalid max_fd value (%d)\n", \
	(Y), (Z), (int)*((E))); \
	res = TEST_ERR_NUM_HANDLES; \
	} \
	} WHILE_FALSE

	#define res_multi_fdset(A,B,C,D,E) \
	exe_multi_fdset((A),(B),(C),(D),(E),(__FILE__),(__LINE__))

	#define chk_multi_fdset(A,B,C,D,E,Y,Z) do { \
	exe_multi_fdset((A),(B),(C),(D),(E),(Y),(Z)); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE

	#define multi_fdset(A,B,C,D,E) \
	chk_multi_fdset((A),(B),(C),(D),(E),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define exe_multi_timeout(A,B,Y,Z) do { \
	CURLMcode ec; \
	if((ec = curl_multi_timeout((A),(B))) != CURLM_OK) { \
	fprintf(stderr, "%s:%d curl_multi_timeout() failed, " \
	"with code %d (%s)\n", \
	(Y), (Z), (int)ec, curl_multi_strerror(ec)); \
	res = (int)ec; \
	} \
	else if(*((B)) < -1L) { \
	fprintf(stderr, "%s:%d curl_multi_timeout() succeeded, " \
	"but returned invalid timeout value (%ld)\n", \
	(Y), (Z), (long)*((B))); \
	res = TEST_ERR_BAD_TIMEOUT; \
	} \
	} WHILE_FALSE

	#define res_multi_timeout(A,B) \
	exe_multi_timeout((A),(B),(__FILE__),(__LINE__))

	#define chk_multi_timeout(A,B,Y,Z) do { \
	exe_multi_timeout((A),(B),(Y),(Z)); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE

	#define multi_timeout(A,B) \
	chk_multi_timeout((A),(B),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define exe_select_test(A,B,C,D,E,Y,Z) do { \
	int ec; \
	if(select_wrapper((A),(B),(C),(D),(E)) == -1 ) { \
	ec = SOCKERRNO; \
	fprintf(stderr, "%s:%d select() failed, with " \
	"errno %d (%s)\n", \
	(Y), (Z), ec, strerror(ec)); \
	res = TEST_ERR_SELECT; \
	} \
	} WHILE_FALSE

	#define res_select_test(A,B,C,D,E) \
	exe_select_test((A),(B),(C),(D),(E),(__FILE__),(__LINE__))

	#define chk_select_test(A,B,C,D,E,Y,Z) do { \
	exe_select_test((A),(B),(C),(D),(E),(Y),(Z)); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE

	#define select_test(A,B,C,D,E) \
	chk_select_test((A),(B),(C),(D),(E),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define start_test_timing() do { \
	tv_test_start = tutil_tvnow(); \
	} WHILE_FALSE

	#define exe_test_timedout(Y,Z) do { \
	if(tutil_tvdiff(tutil_tvnow(), tv_test_start) > TEST_HANG_TIMEOUT) { \
	fprintf(stderr, "%s:%d ABORTING TEST, since it seems " \
	"that it would have run forever.\n", (Y), (Z)); \
	res = TEST_ERR_RUNS_FOREVER; \
	} \
	} WHILE_FALSE

	#define res_test_timedout() \
	exe_test_timedout((__FILE__),(__LINE__))

	#define chk_test_timedout(Y,Z) do { \
	exe_test_timedout(Y,Z); \
	if(res) \
	goto test_cleanup; \
	} WHILE_FALSE

	#define abort_on_test_timeout() \
	chk_test_timedout((__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */

	#define exe_global_init(A,Y,Z) do { \
	CURLcode ec; \
	if((ec = curl_global_init((A))) != CURLE_OK) { \
	fprintf(stderr, "%s:%d curl_global_init() failed, " \
	"with code %d (%s)\n", \
	(Y), (Z), (int)ec, curl_easy_strerror(ec)); \
	res = (int)ec; \
	} \
	} WHILE_FALSE

	#define res_global_init(A) \
	exe_global_init((A),(__FILE__),(__LINE__))

	#define chk_global_init(A,Y,Z) do { \
	exe_global_init((A),(Y),(Z)); \
	if(res) \
	return res; \
	} WHILE_FALSE

	/* global_init() is different than other macros. In case of
	failure it 'return's instead of going to 'test_cleanup'. */

	#define global_init(A) \
	chk_global_init((A),(__FILE__),(__LINE__))

	/* ---------------------------------------------------------------- */