# This file is part of libmicrohttpd. # (C) 2006-2021 Christian Grothoff (and other contributing authors) # (C) 2014-2022 Evgeny Grin (Karlson2k) # # 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 3, 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. # # # Process this file with autoconf to produce a configure script. # # AC_PREREQ([2.64]) LT_PREREQ([2.4.0]) AC_INIT([GNU libmicrohttpd],[0.9.75],[libmicrohttpd@gnu.org]) AC_CONFIG_AUX_DIR([build-aux]) AC_CONFIG_HEADERS([MHD_config.h]) AC_CONFIG_MACRO_DIR([m4]) m4_pattern_forbid([^_?MHD_[A-Z_]+_CC_])dnl LIB_VERSION_CURRENT=72 LIB_VERSION_REVISION=0 LIB_VERSION_AGE=60 AC_SUBST([LIB_VERSION_CURRENT]) AC_SUBST([LIB_VERSION_REVISION]) AC_SUBST([LIB_VERSION_AGE]) PACKAGE_VERSION_MAJOR='m4_car(m4_unquote(m4_split(AC_PACKAGE_VERSION, [\.])))' PACKAGE_VERSION_MINOR='m4_argn(2, m4_unquote(m4_split(AC_PACKAGE_VERSION, [\.])))' PACKAGE_VERSION_SUBMINOR='m4_argn(3, m4_unquote(m4_split(AC_PACKAGE_VERSION, [\.])))' AS_VAR_ARITH([MHD_W32_DLL_SUFF],[[$LIB_VERSION_CURRENT - $LIB_VERSION_AGE]]) AC_SUBST([PACKAGE_VERSION_MAJOR]) AC_SUBST([PACKAGE_VERSION_MINOR]) AC_SUBST([PACKAGE_VERSION_SUBMINOR]) AC_SUBST([MHD_W32_DLL_SUFF]) AC_CONFIG_FILES([src/microhttpd/microhttpd_dll_res.rc]) MHD_LIB_CPPFLAGS="" MHD_LIB_CFLAGS="" MHD_LIB_LDFLAGS="" MHD_LIBDEPS="" # for pkg-config MHD_REQ_PRIVATE='' MHD_LIBDEPS_PKGCFG='' AS_IF([test -z "$CC" && test -z "$CPP"], [ AC_MSG_CHECKING([[whether z/OS special settings are required]]) AS_IF([test `uname -s` = "OS/390"], [ # configure binaries for z/OS AS_IF([test -z "$CC"], [CC=`pwd`"/contrib/xcc" chmod +x $CC || true]) AS_IF([test -z "$CPP"], CPP="c89 -E") AC_MSG_RESULT([[yes]]) ], [AC_MSG_RESULT([[no]])] ) ]) AC_MSG_CHECKING([for build type]) AC_ARG_ENABLE([build-type], [AS_HELP_STRING([[--enable-build-type=TYPE]], [enable build TYPE, a set of configuration parameters; individual settings ] [(asserts, sanitizers, compiler and linker flags) can be overridden by ] [additional configure parameters (debug, debugger, neutral, release, release-compact, ] [release-hardened) [neutral]])], [], [enable_build_type=neutral]) AS_IF([test "x${enable_build_type}" = "x"], [enable_build_type="neutral"]) AS_VAR_IF([enable_build_type], ["no"], [enable_build_type="neutral"]) AS_VAR_IF([enable_build_type], ["yes"], [AC_MSG_ERROR([[Missing TYPE for --enable-build-type=]])]) AS_CASE([${enable_build_type}], [debug], [AC_MSG_RESULT([debug. Defaults: enable asserts, sanitizers (if any supported), debug information, compiler optimisation for debugging])], [debugger], [AC_MSG_RESULT([debugger. Defaults: enable asserts, disable sanitizers, debug information, no compiler optimisation, static lib])], [neutral], [AC_MSG_RESULT([neutral. Defaults: use only user-specified compiler and linker flags])], [release], [AC_MSG_RESULT([release. Defaults: disable asserts, enable compiler optimisations])], [release-compact], [AC_MSG_RESULT([release-compact. Defaults: disable asserts, enable compiler optimisations for size, enable compact code])], [release-hardened], [AC_MSG_RESULT([release-hardened. Defaults: disable asserts, enable compiler optimisations, enable linker and compiler hardening])], [AC_MSG_ERROR([[Unknown build type: ${enable_build_type}]])] ) AS_VAR_IF([enable_build_type], ["neutral"], [:], [ # For all non-neutral build types do not use automatic "-g -O2" for CFLAGS AS_IF([test -z "${CFLAGS}"], [CFLAGS=""]) ] ) AS_VAR_IF([enable_build_type], ["debugger"], [ # Build only static version unless something else is specified by the user AS_IF([test -z "${enable_static}" || test "x${enable_static}" = "xyes"], [ AS_IF([test -z "${enable_shared}"], [ enable_shared="no" enable_static="yes" ] ) ], [ AS_CASE([${enable_static}],[*libmicrohttpd*], [AS_IF([test -z "${enable_shared}"], [enable_shared="no"])], ) ] ) ] ) AS_CASE([${enable_build_type}],[debug|debugger], [ AS_IF([test -z "${enable_silent_rules}"], [ enable_silent_rules="yes" ])] ) AM_INIT_AUTOMAKE([gnu] [check-news] [filename-length-max=99] [tar-v7] [silent-rules] [subdir-objects]) # Checks for programs. AC_PROG_AWK AC_PROG_GREP AC_PROG_FGREP AC_PROG_INSTALL AC_PROG_LN_S AC_PROG_MAKE_SET AC_CANONICAL_HOST m4_version_prereq([2.70], [ # Find C compiler and compiler options to support # the latest C standard (C11). Fallback to C99 and C89 # if later C versions are not supported. AC_PROG_CC ], [ # Find C compiler and compiler options to support # the latest C standard (C99). Fallback to C89 # if later C versions are not supported. AC_PROG_CC_STDC ] ) # Workaround for libgcrypt AS_IF([[test "x$lt_sysroot" != "x" && test "x$SYSROOT" = "x"]], [[SYSROOT="$lt_sysroot"]]) user_CFLAGS="$CFLAGS" user_LDFLAGS="$LDFLAGS" user_CPPFLAGS="$CPPFLAGS" CFLAGS_ac="" LDFLAGS_ac="" CPPFLAGS_ac="" MHD_SYS_EXT([CPPFLAGS_ac]) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" LT_INIT([win32-dll]) LT_LANG([Windows Resource]) AC_ARG_ENABLE([compact-code], [AS_HELP_STRING([[--enable-compact-code]], [enable use of a reduced size version of the code, resulting in smaller ] [binaries with a slight performance hit [auto]])], [], [enable_compact_code=auto]) AS_IF([test "x${enable_compact_code}" = "x"], [enable_compact_code="auto"]) AH_TEMPLATE([[MHD_FAVOR_SMALL_CODE]], [Define to '1' to use compact code version]) AH_TEMPLATE([[MHD_FAVOR_FAST_CODE]], [Define to '1' to use fast (and larger) code version]) AS_UNSET([compact_code_MSG]) AS_CASE([${enable_compact_code}], [auto], [ # Parameter not set. # Check preprocessor macros AC_CHECK_DECL([MHD_FAVOR_SMALL_CODE], [ enable_compact_code="yes" compact_code_MSG="enabled by preprocessor macro" ], [],[/* no includes */] ) AC_CHECK_DECL([MHD_FAVOR_FAST_CODE], [ AS_VAR_IF([enable_compact_code],["yes"], [AC_MSG_ERROR([Both MHD_FAVOR_SMALL_CODE and MHD_FAVOR_FAST_CODE macros are defined])] ) enable_compact_code="no" compact_code_MSG="set by preprocessor macro" ],[],[/* no includes */] ) AS_VAR_IF([enable_compact_code], ["auto"], [ # No preference by preprocessor macros AC_CACHE_CHECK([whether compiler is configured to optimize for size], [mhd_cv_cc_optim_size], [ AC_COMPILE_IFELSE( [ AC_LANG_PROGRAM([[ #ifndef __OPTIMIZE_SIZE__ #error Looks like compiler does not optimize for size choke me now #endif ]],[]) ], [mhd_cv_cc_optim_size="yes"],[mhd_cv_cc_optim_size="no"] ) ] ) AS_VAR_IF([mhd_cv_cc_optim_size], ["yes"], [ enable_compact_code="yes" compact_code_MSG="enabled automatically as compiler optimizes for size" AC_DEFINE([MHD_FAVOR_SMALL_CODE],[1]) ] ) ] ) AS_VAR_IF([enable_compact_code], ["auto"], [ # No preference by preprocessor macros and compiler flags AS_CASE([${enable_build_type}],[*-compact], [ enable_compact_code="yes" compact_code_MSG="enabled by --enable-build-type=${enable_build_type}" AC_DEFINE([MHD_FAVOR_SMALL_CODE],[1]) ] ) ] ) AS_VAR_IF([enable_compact_code], ["auto"], [ # No preference enable_compact_code="no" compact_code_MSG="by default" AC_DEFINE([MHD_FAVOR_FAST_CODE],[1]) ] ) ], [yes], [ compact_code_MSG="enabled by configure parameter" AC_CHECK_DECL([MHD_FAVOR_SMALL_CODE], [], [AC_DEFINE([MHD_FAVOR_SMALL_CODE],[1])],[/* no includes */] ) AC_CHECK_DECL([MHD_FAVOR_FAST_CODE], [AC_MSG_ERROR([MHD_FAVOR_FAST_CODE macro is defined, --enable-compact-code could not be used]) ], [],[/* no includes */] ) ], [no], [ compact_code_MSG="disabled by configure parameter" AC_CHECK_DECL([MHD_FAVOR_FAST_CODE], [], [AC_DEFINE([MHD_FAVOR_FAST_CODE],[1])],[/* no includes */] ) AC_CHECK_DECL([MHD_FAVOR_SMALL_CODE], [AC_MSG_ERROR([MHD_FAVOR_SMALL_CODE macro is defined, --disable-compact-code could not be used]) ], [],[/* no includes */] ) ], [AC_MSG_ERROR([[Unknown parameter value: --enable-compact-code=${enable_compact_code}]])] ) AC_MSG_CHECKING([whether to use a reduced size version of the code]) AC_MSG_RESULT([${enable_compact_code} (${compact_code_MSG})]) CFLAGS="${user_CFLAGS}" # Compiler options to always enable (if supported) MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac], [-fno-strict-aliasing], [-qnoansialias]) # '-qlonglong' is XLC option for C89, not used with C99 or later MHD_CHECK_ADD_CC_CFLAG([-qlonglong], [CFLAGS_ac]) # Set basic optimisation flags AS_VAR_IF([enable_build_type],["neutral"],[], [ # Any non-neutral build types AC_CACHE_CHECK([whether workarounds for clang or clang-based compiler are required], [mhd_cv_cc_clang_based], [ AC_COMPILE_IFELSE([AC_LANG_SOURCE([[ #if ! defined(__clang__) && ! defined(__llvm__) #error Compiler is not clang-based choke me now #endif ]] ) ], [mhd_cv_cc_clang_based="yes"],[mhd_cv_cc_clang_based="no"] ) ] ) ] ) AS_CASE([${enable_build_type}],[debug|debugger], [ # Debug build or build for walking with debugger CFLAGS="${user_CFLAGS}" AS_VAR_IF([enable_build_type],["debug"], [ # Clang has ASAN (pointer compare) broken when '-Og' optimisations are used AS_IF([test "x${enable_sanitizers}" != "xno" && test "x${mhd_cv_cc_clang_based}" = "xyes"], [MHD_CHECK_ADD_CC_CFLAG([-O0], [CFLAGS_ac])], [MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac], [-Og], [-O0])] ) ], [MHD_CHECK_ADD_CC_CFLAG([-O0], [CFLAGS_ac])] ) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" ] ) AS_CASE([${enable_build_type}],[release|release-*], [ # All release types AS_VAR_IF([enable_build_type],["release-compact"], [ CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" AC_CHECK_DECL([MHD_FAVOR_SMALL_CODE],[], [AC_CHECK_DECL([MHD_FAVOR_FAST_CODE],[], [MHD_APPEND_FLAG_TO_VAR([CPPFLAGS_ac],[-DMHD_FAVOR_SMALL_CODE=1])], [/* no includes */])],[/* no includes */]) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" CFLAGS="${user_CFLAGS}" MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac], [-Oz], [-Os], [-O]) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" ], [ # All non-compact release types CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" AC_CHECK_DECL([MHD_FAVOR_SMALL_CODE],[], [AC_CHECK_DECL([MHD_FAVOR_FAST_CODE],[], [MHD_APPEND_FLAG_TO_VAR([CPPFLAGS_ac],[-DMHD_FAVOR_FAST_CODE=1])], [/* no includes */])],[/* no includes */]) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" CFLAGS="${user_CFLAGS}" MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac], [-O2], [-O]) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" ] ) ] ) AS_VAR_IF([enable_build_type],["neutral"],[], [ # Any non-neutral build types MHD_CHECK_ADD_CC_CFLAGS([-Wall -Wnull-dereference], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wdeclaration-after-statement -Wimplicit -Wnested-externs], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wredundant-decls -Wtrampolines -Wunsafe-loop-optimizations], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wpoison-system-directories], [CFLAGS_ac]) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${user_LDFLAGS}" MHD_CHECK_ADD_CC_LDFLAG([-Wl,--warn-common], [LDFLAGS_ac]) LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" ] ) AS_CASE([${enable_build_type}],[debug|debugger], [ # Debug build or build for walking with debugger CFLAGS="${user_CFLAGS}" MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac], [-ggdb3], [-g3], [-ggdb], [-g]) MHD_CHECK_ADD_CC_CFLAGS([-Wextra -Wdouble-promotion], [CFLAGS_ac]) MHD_FIND_ADD_CC_CFLAG_IFELSE( [ # clang produce warning when string pointer is used as a format specifier for v*printf() function AS_VAR_IF([mhd_cv_cc_clang_based],["yes"],[MHD_CHECK_ADD_CC_CFLAG([-Wno-format-nonliteral], [CFLAGS_ac])]) ],[], [CFLAGS_ac], [-Wformat=2], [-Wformat] ) MHD_CHECK_ADD_CC_CFLAGS([-Wformat-overflow -Wformat-truncation -Wformat-security -Wformat-signedness], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wmissing-include-dirs -Wshift-overflow=2 -Wstringop-overflow=4 -Walloc-zero], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wduplicated-branches -Wduplicated-cond -Wfloat-equal -Wshadow -Wpointer-arith], [CFLAGS_ac]) MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac], [-Wshadow-all], [-Wshadow]) MHD_CHECK_ADD_CC_CFLAGS([-Wbad-function-cast -Wcast-qual -Wwrite-strings -Wconversion], [CFLAGS_ac]) MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac], [-Wcast-align=strict], [-Wcast-align]) MHD_CHECK_ADD_CC_CFLAGS([-Wjump-misses-init -Wlogical-op -Waggregate-return -Wstrict-prototypes], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wold-style-definition -Wmissing-declarations -Wmissing-prototypes], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wuninitialized -Winit-self -Wshift-negative-value -Wswitch-enum], [CFLAGS_ac]) MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac], [-Wstrict-overflow=4], [-Wstrict-overflow]) MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac], [-Wnormalized=nfkc], [-Wnormalized]) MHD_CHECK_ADD_CC_CFLAGS([-Walloca -Wbidi-chars=any -Warray-bounds -Wpacked -Wvariadic-macros], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wundef], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wanon-enum-enum-conversion -Warray-bounds-pointer-arithmetic -Wassign-enum], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wbit-int-extension -Wbitfield-enum-conversion -Wparentheses -Wbool-operation], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wcast-function-type -Wcomma -Wcomment -Wcompound-token-split], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wconditional-uninitialized -Wdeprecated], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wdocumentation-pedantic -Wempty-init-stmt -Wenum-conversion -Wexpansion-to-defined], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wflexible-array-extensions -Wloop-analysis -Wformat-pedantic], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wformat-type-confusion -Wfour-char-constants], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wgcc-compat -Wgnu-anonymous-struct -Wgnu-compound-literal-initializer], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wgnu-conditional-omitted-operand -Wgnu-designator -Wgnu-empty-initializer], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wgnu-empty-struct -Wgnu-flexible-array-initializer -Wgnu-folding-constant], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wgnu-null-pointer-arithmetic -Wgnu-pointer-arith -Wgnu-redeclared-enum], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wgnu-union-cast -Wgnu-variable-sized-type-not-at-end -Widiomatic-parentheses], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wmissing-noreturn -Wmissing-variable-declarations -Wnested-anon-types], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wnewline-eof -Wover-aligned -Wredundant-parens], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wshift-sign-overflow -Wtautological-compare -Wunaligned-access], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wunused -Wzero-as-null-pointer-constant -Wzero-length-array], [CFLAGS_ac]) MHD_CHECK_CC_CFLAG([-Wused-but-marked-unused],[CFLAGS_ac], [ AC_CACHE_CHECK([whether $[]CC -Wused-but-marked-unused works with system headers], [mhd_cv_wused_but_marked_unused_sys_header], [ SAVE_ac_c_werror_flag="$ac_c_werror_flag" ac_c_werror_flag="yes" CFLAGS="${CFLAGS_ac} -Wused-but-marked-unused ${user_CFLAGS}" AC_COMPILE_IFELSE( [ AC_LANG_SOURCE([[ #include int main(void) { char buf[16]; return (int) snprintf(buf, 16, "test"); } ]] ) ], [mhd_cv_wused_but_marked_unused_sys_header="yes"], [mhd_cv_wused_but_marked_unused_sys_header="no"] ) ac_c_werror_flag="$SAVE_ac_c_werror_flag" ] ) AS_VAR_IF([mhd_cv_wused_but_marked_unused_sys_header],["yes"], [MHD_APPEND_FLAG_TO_VAR([CFLAGS_ac],[-Wused-but-marked-unused])] ) ] ) # # Removed flags: # # -Wdisabled-macro-expansion - warns about macros from system headers CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${user_LDFLAGS}" MHD_CHECK_ADD_CC_LDFLAG([-Wl,--enable-long-section-names], [LDFLAGS_ac]) LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" ] ) AS_CASE([${enable_build_type}],[release|release-*], [ # All release types CFLAGS="${user_CFLAGS}" AS_VAR_IF([enable_build_type],["release-compact"], [], [ # All non-compact release types MHD_CHECK_ADD_CC_CFLAGS([-fsched-pressure -fira-loop-pressure -fmerge-all-constants], [CFLAGS_ac]) # These flags may improve size, recheck with LTO and linker garbage collection MHD_CHECK_ADD_CC_CFLAGS([-ftree-partial-pre -fgcse-after-reload -fipa-pta], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-fisolate-erroneous-paths-attribute -ffinite-loops -floop-nest-optimize], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-fpredictive-commoning -frename-registers], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-ftree-loop-distribute-patterns -fpeel-loops -fsplit-loops -ftree-vectorize], [CFLAGS_ac]) ] ) AS_VAR_IF([enable_build_type],["release-hardened"], [ MHD_CHECK_ADD_CC_CFLAGS([-Wformat-security -Wstack-protector], [CFLAGS_ac]) MHD_CHECK_ADD_CC_CFLAGS([-Wuninitialized -Winit-self -Walloc-zero -Wbidi-chars=any], [CFLAGS_ac]) ] ) AS_VAR_IF([enable_build_type],["release"], [ # Flags are not suitable for 'compact' and for 'hardened' MHD_CHECK_ADD_CC_CFLAGS([-ffast-math -fno-trapping-math], [CFLAGS_ac]) ] ) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" # W32-specific LDFLAGS="${user_LDFLAGS}" MHD_CHECK_ADD_CC_LDFLAG([-Wl,--disable-long-section-names], [LDFLAGS_ac]) LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" ] ) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" # Additional flags are checked and added at the end of 'configure' # Check for headers that are ALWAYS required AC_CHECK_HEADERS_ONCE([stdio.h string.h stdint.h errno.h limits.h fcntl.h], [], [AC_MSG_ERROR([Compiling libmicrohttpd requires standard POSIX headers files])], [AC_INCLUDES_DEFAULT]) # Check for basic optional headers AC_CHECK_HEADERS([stddef.h stdlib.h inttypes.h sys/types.h sys/stat.h unistd.h \ sys/uio.h], [], [], [AC_INCLUDES_DEFAULT]) # Check for clock-specific optional headers AC_CHECK_HEADERS([sys/time.h time.h], [], [], [AC_INCLUDES_DEFAULT]) # Check for system information and parameters optional headers AC_CHECK_HEADERS([endian.h machine/endian.h sys/endian.h sys/byteorder.h \ sys/machine.h machine/param.h sys/param.h sys/isa_defs.h \ sys/ioctl.h], [], [], [AC_INCLUDES_DEFAULT]) # Check for network and sockets optional headers AC_CHECK_HEADERS([sys/socket.h sys/select.h netinet/in.h arpa/inet.h \ netinet/ip.h netinet/tcp.h net/if.h \ netdb.h sockLib.h inetLib.h], [], [], [AC_INCLUDES_DEFAULT [ #ifdef HAVE_SYS_TYPES_H #include #endif /* HAVE_SYS_TYPES_H */ #ifdef HAVE_INTTYPES_H #include #endif /* HAVE_INTTYPES_H */ #ifdef HAVE_SYS_SOCKET_H #include #endif /* HAVE_SYS_SOCKET_H */ #ifdef HAVE_NETINET_IN_H #include #endif /* HAVE_NETINET_IN_H */ #ifdef HAVE_NETINET_IP_H #include #endif /* HAVE_NETINET_IP_H */ #ifdef HAVE_NETINET_TCP_H #include #endif /* HAVE_NETINET_TCP_H */ ]] ) # Check for other optional headers AC_CHECK_HEADERS([sys/msg.h sys/mman.h signal.h], [], [], [AC_INCLUDES_DEFAULT]) AC_CHECK_HEADER([[search.h]], [ MHD_CHECK_LINK_RUN([[for proper tsearch(), tfind() and tdelete()]],[[mhd_cv_sys_tsearch_usable]], [ AS_CASE([$host_os], [openbsd*], [[ # Some OpenBSD versions have wrong return value for tdelete() mhd_cv_sys_tsearch_usable='assuming no' ]], [netbsd*], [[ # NetBSD had leaked root node for years mhd_cv_sys_tsearch_usable='assuming no' ]], [[mhd_cv_sys_tsearch_usable='assuming yes']] ) ], [ AC_LANG_SOURCE( [[ #ifdef HAVE_STDDEF_H #include #endif /* HAVE_STDDEF_H */ #ifdef HAVE_STDLIB_H #include #endif /* HAVE_STDLIB_H */ #include #include static int cmp_func(const void *p1, const void *p2) { return (*((const int *)p1)) - (*((const int *)p2)); } int main(void) { int ret = 0; void *root_ptr = NULL; int element1 = 1; int **element_ptr_ptr1; int **element_ptr_ptr2; element_ptr_ptr1 = (int **) tsearch ((void*) &element1, &root_ptr, &cmp_func); if (NULL == element_ptr_ptr1) { fprintf (stderr, "NULL pointer has been returned when tsearch() called for the first time.\n"); return ++ret; } if (*element_ptr_ptr1 != &element1) { fprintf (stderr, "Wrong pointer has been returned when tsearch() called for the first time.\n"); return ++ret; } if (NULL == root_ptr) { fprintf (stderr, "Root pointer has not been set by tsearch().\n"); return ++ret; } element_ptr_ptr2 = (int **) tsearch ((void*) &element1, &root_ptr, &cmp_func); if (NULL == element_ptr_ptr2) { fprintf (stderr, "NULL pointer has been returned when tsearch() called for the second time.\n"); return ++ret; } if (*element_ptr_ptr2 != &element1) { fprintf (stderr, "Wrong pointer has been returned when tsearch() called for the second time.\n"); ++ret; } if (element_ptr_ptr2 != element_ptr_ptr1) { fprintf (stderr, "Wrong element has been returned when tsearch() called for the second time.\n"); ++ret; } element_ptr_ptr2 = (int **) tfind ((void*) &element1, &root_ptr, &cmp_func); if (NULL == element_ptr_ptr2) { fprintf (stderr, "NULL pointer has been returned by tfind().\n"); ++ret; } if (*element_ptr_ptr2 != &element1) { fprintf (stderr, "Wrong pointer has been returned when by tfind().\n"); ++ret; } if (element_ptr_ptr2 != element_ptr_ptr1) { fprintf (stderr, "Wrong element has been returned when tsearch() called for the second time.\n"); ++ret; } element_ptr_ptr1 = (int **) tdelete ((void*) &element1, &root_ptr, &cmp_func); if (NULL == element_ptr_ptr1) { fprintf (stderr, "NULL pointer has been returned by tdelete().\n"); ++ret; } if (NULL != root_ptr) { fprintf (stderr, "Root pointer has not been set to NULL by tdelete().\n"); ++ret; } return ret; } ]] ) ], [AC_DEFINE([[MHD_USE_SYS_TSEARCH]], [[1]], [Define to 1 if you have properly working tsearch(), tfind() and tdelete() functions.])] ) ], [], [AC_INCLUDES_DEFAULT] ) AM_CONDITIONAL([MHD_USE_SYS_TSEARCH], [[test "x$mhd_cv_sys_tsearch_usable" = "xyes" || test "x$mhd_cv_sys_tsearch_usable" = "xassuming yes"]]) # Optional headers used for tests AC_CHECK_HEADERS([sys/sysctl.h netinet/ip_icmp.h netinet/icmp_var.h], [], [], [[ #ifdef HAVE_SYS_TYPES_H #include #endif /* HAVE_SYS_TYPES_H */ #ifdef HAVE_SYS_SYSCTL_H #include #endif /* HAVE_SYS_SYSCTL_H */ #ifdef HAVE_SYS_SOCKET_H #include #endif /* HAVE_SYS_SOCKET_H */ #ifdef HAVE_NETINET_IN_H #include #endif /* HAVE_NETINET_IN_H */ #ifdef HAVE_NETINET_IP_H #include #endif /* HAVE_NETINET_IP_H */ #ifdef HAVE_NETINET_IP_ICMP_H #include #endif /* HAVE_NETINET_IP_ICMP_H */ ]] ) AC_ARG_ENABLE([compiler-hardening], [AS_HELP_STRING([--enable-compiler-hardening], [enable compiler security checks])], [], [AS_CASE([${enable_build_type}],[*-hardened], [enable_compiler_hardening='yes'],[enable_compiler_hardening='no'])] ) AS_VAR_IF([enable_compiler_hardening],["yes"], [ CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" AC_CHECK_DECL([_FORTIFY_SOURCE], [MHD_APPEND_FLAG_TO_VAR([CPPFLAGS_ac],[-U_FORTIFY_SOURCE])], [],[/* no includes */]) MHD_APPEND_FLAG_TO_VAR([CPPFLAGS_ac],[-D_FORTIFY_SOURCE=2]) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" CFLAGS="${user_CFLAGS}" MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac],[-fstack-protector-strong],[-fstack-protector-all],[-fstack-protector]) MHD_CHECK_ADD_CC_CFLAGS([-fstack-clash-protection],[CFLAGS_ac]) MHD_FIND_ADD_CC_CFLAG([CFLAGS_ac],[-ftrivial-auto-var-init=pattern],[-ftrivial-auto-var-init=zero]) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" AS_IF([test "x${enable_static}" = "xyes" && test "x${pic_mode}" != "xyes"], [ # PIE static lib can be used within non-PIE application, but # PIE static lib cannot be used in non-PIE shared lib. Let's assume # that static lib will not be used in shared lib # All "pie" flags will be used automatically by libtool only # for static library objects. CFLAGS="${user_CFLAGS}" # Perform tests here with "-pie" enabled LDFLAGS="${LDFLAGS_ac} -pie ${user_LDFLAGS}" MHD_CHECK_ADD_CC_CFLAG([-fPIE],[CFLAGS_ac], [ MHD_APPEND_FLAG_TO_VAR([LDFLAGS_ac],[-pie]) ], [ MHD_CHECK_ADD_CC_CFLAG([-fpie],[CFLAGS_ac], [ MHD_APPEND_FLAG_TO_VAR([LDFLAGS_ac],[-pie]) ] ) ] ) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" ] ) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" ] ) # Linker hardening options # Currently these options are ELF specific, they don't work on Darwin and W32 AC_ARG_ENABLE([linker-hardening], [AS_HELP_STRING([--enable-linker-hardening], [enable linker security fixups])], [], [AS_CASE([${enable_build_type}],[*-hardened], [enable_linker_hardening='yes'],[enable_linker_hardening='no'])] ) AS_VAR_IF([enable_linker_hardening],["yes"], [ CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${user_LDFLAGS}" MHD_CHECK_ADD_CC_LDFLAG([-Wl,-z,relro],[LDFLAGS_ac], [MHD_CHECK_ADD_CC_LDFLAG([-Wl,-z,now],[LDFLAGS_ac])]) # Actually should be "noexec" by default, but let's try to enforce it. MHD_CHECK_ADD_CC_LDFLAG([-Wl,-z,noexecstack],[LDFLAGS_ac]) # W32-specific. Some are enabled by default, but they will be enfored to be sure. MHD_CHECK_ADD_CC_LDFLAGS([-Wl,--large-address-aware -Wl,--enable-auto-image-base],[LDFLAGS_ac]) MHD_CHECK_ADD_CC_LDFLAGS([-Wl,--dynamicbase -Wl,--nxcompat -Wl,--high-entropy-va],[LDFLAGS_ac]) LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" ] ) AH_TEMPLATE([[HAVE_STDBOOL_H]], [Define to 1 i][f you have the header file and defines 'bool' type.]) AH_TEMPLATE([[HAVE_REAL_BOOL]], [Define to 1 i][f you have the real boolean type.]) AH_TEMPLATE([[bool]], [Define to type name which will be used as boolean type.]) AC_CHECK_HEADER([stdbool.h], [ AC_CHECK_TYPE([bool], [ AC_DEFINE([[HAVE_STDBOOL_H]], [[1]]) AC_DEFINE([[HAVE_REAL_BOOL]], [[1]]) ], [ AC_MSG_WARN([[Header is present, but "bool" type cannot be detected. Check compiler flags.]]) AC_DEFINE([[bool]], [[int]]) ], [ #include ] ) ], [ AC_CHECK_TYPE([bool], [AC_DEFINE([[HAVE_REAL_BOOL]], [[1]])], [ AC_CHECK_TYPE([_Bool], [ AC_DEFINE([[HAVE_REAL_BOOL]], [[1]]) AC_DEFINE([[bool]], [[_Bool]]) ], [ AC_DEFINE([[bool]], [[int]]) ], [] ) ], [] ) ], [AC_INCLUDES_DEFAULT] ) AC_CACHE_CHECK([[whether "true" is defined or builtin]], [[mhd_cv_macro_true_defined]], [AC_COMPILE_IFELSE( [AC_LANG_PROGRAM( [[ #ifdef HAVE_STDBOOL_H #include #endif ]], [[ #if defined(true) /* dummy */ #else (void)true; #endif ]]) ], [[mhd_cv_macro_true_defined='yes']], [[mhd_cv_macro_true_defined='no']]) ]) AS_VAR_IF([[mhd_cv_macro_true_defined]], [["yes"]], [[:]], [AC_DEFINE([[true]],[[(!0)]], [Define to value interpreted by compiler as boolean "true", if "true" is not defined by system headers.])]) AC_CACHE_CHECK([[whether "false" is defined or builtin]], [[mhd_cv_macro_false_defined]], [AC_COMPILE_IFELSE( [AC_LANG_PROGRAM( [[ #ifdef HAVE_STDBOOL_H #include #endif ]], [[ #if !defined(false) (void)false; #else /* dummy */ #endif ]]) ], [[mhd_cv_macro_false_defined='yes']], [[mhd_cv_macro_false_defined='no']]) ]) AS_VAR_IF([[mhd_cv_macro_false_defined]], [["yes"]], [[:]], [AC_DEFINE([[false]],[[0]], [Define to value interpreted by compiler as boolean "false", if "false" is not defined by system headers.])]) AC_CACHE_CHECK([[whether "true" and "false" could be used]], [[mhd_cv_macro_true_false_valid]], [AC_COMPILE_IFELSE( [AC_LANG_PROGRAM( [[ #ifdef HAVE_STDBOOL_H #include #endif ]], [[ int var1[true ? 1 : -1] = { 1 }; int var2[false ? -1 : 1] = { 2 }; int var3[!true ? -1 : 1] = { 3 }; int var4[!false ? 1 : -1] = { 4 }; if (var1[0] == var2[0] || var3[0] == var4[0]) return 1; ]]) ], [[mhd_cv_macro_true_false_valid='yes']], [[mhd_cv_macro_true_false_valid='no']]) ]) AS_VAR_IF([[mhd_cv_macro_true_false_valid]], [["yes"]], [[:]], [AC_MSG_ERROR([[Value of "true" or value of "false" is not valid. Check config.log for details.]])]) AX_CHECK_COMPILE_FLAG([[-Werror=attributes]], [ AC_MSG_CHECKING([[whether -Werror=attributes actually works]]) CFLAGS="${CFLAGS_ac} ${user_CFLAGS} -Werror=attributes" AC_COMPILE_IFELSE([AC_LANG_PROGRAM( [[__attribute__((non_existing_attrb_dummy)) static int SimpleFunc(void) {return 3;}]], [[int r = SimpleFunc(); if (r) return r;]])], [ AC_MSG_RESULT([[no]]) errattr_CFLAGS="" ], [ AC_MSG_RESULT([[yes]]) errattr_CFLAGS="-Werror=attributes" ]) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" ], [[errattr_CFLAGS=""]], [], []) AC_MSG_CHECKING([[for function inline keywords supported by $CC]]) CFLAGS="${CFLAGS_ac} ${user_CFLAGS} $errattr_CFLAGS" inln_prfx="none" # Prefer always inline functions for inln_prfx_chk in InlineWithAttr __forceinline inline __inline__ __inline _inline _Inline do # Try to link to avoid "symbol undefined" problems at build time AS_IF([[test "x$inln_prfx_chk" = "xInlineWithAttr"]], [ AS_IF([[test "x$errattr_CFLAGS" = "x"]], [[ # Skip test with attribute as negative result can't be detected inln_prfx_chk="__forceinline" # use next value ]],[[inln_prfx_chk="inline __attribute__((always_inline))"]]) ]) AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #ifdef __cplusplus #error This test is only for C. choke me #endif #ifdef HAVE_STDBOOL_H #include #endif static $inln_prfx_chk bool cmpfn(int x, int y) { return x > y; } static $inln_prfx_chk int sumfn(int x, int y) { return x + y; } ]],[[ int a = 1, b = 100, c; if (cmpfn(a, b)) c = sumfn(a, b); else c = 0 - sumfn(a, b); if (c) return 0; ]]) ], [[ inln_prfx="$inln_prfx_chk" ]]) test "x$inln_prfx" != "xnone" && break done AS_IF([[test "x$inln_prfx" != "xnone"]], [ AC_DEFINE([INLINE_FUNC],[1],[Define to 1 if your C compiler supports inline functions.]) AC_DEFINE_UNQUOTED([_MHD_static_inline],[static $inln_prfx],[Define to prefix which will be used with MHD static inline functions.]) ], [ AC_DEFINE([_MHD_static_inline],[static],[Define to prefix which will be used with MHD static inline functions.]) ]) AC_MSG_RESULT([[$inln_prfx]]) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" AC_CHECK_HEADERS([stdalign.h], [], [], [AC_INCLUDES_DEFAULT]) AC_CACHE_CHECK([[for C11 'alignof()' support]], [[mhd_cv_c_alignof]], [AC_COMPILE_IFELSE( [AC_LANG_PROGRAM( [[ #ifdef HAVE_STDALIGN_H #include #endif ]], [[ int var1[(alignof(int) >= 2) ? 1 : -1]; int var2[alignof(unsigned int) - 1]; int var3[(alignof(char) > 0) ? 1 : -1]; int var4[(alignof(long) >= 4) ? 1 : -1]; /* Mute compiler warnings */ var1[0] = var2[0] = var3[0] = 0; var4[0] = 1; if (var1[0] + var2[0] + var3[0] == var4[0]) return 1; ]]) ], [ AC_COMPILE_IFELSE( [AC_LANG_PROGRAM( [[ #ifdef HAVE_STDALIGN_H #include #endif ]], [[ /* Should fail if 'alignof()' works */ int var1[alignof(nonexisting_type) - 1]; /* Mute compiler warnings */ var1[0] = 1; if (var1[0] + 1 == 1) return 1; ]]) ], [[mhd_cv_c_alignof='no']], [[mhd_cv_c_alignof='yes']]) ], [[mhd_cv_c_alignof='no']]) ]) AS_VAR_IF([mhd_cv_c_alignof], ["yes"], [AC_DEFINE([[HAVE_C_ALIGNOF]], [1], [Define to 1 if your compiler supports 'alignof()'])]) # Check system type AC_MSG_CHECKING([[for target host OS]]) AS_CASE(["$host_os"], [*darwin* | *rhapsody* | *macosx*], [AC_DEFINE([OSX],[1],[This is an OS X system]) mhd_host_os='Darwin' AC_MSG_RESULT([[$mhd_host_os]])], [kfreebsd*-gnu], [AC_DEFINE([SOMEBSD],[1],[This is a BSD system]) AC_DEFINE([FREEBSD],[1],[This is a FreeBSD system]) mhd_host_os='FreeBSD kernel with GNU userland' AC_MSG_RESULT([[$mhd_host_os]])], [freebsd*], [AC_DEFINE([SOMEBSD],[1],[This is a BSD system]) AC_DEFINE([FREEBSD],[1],[This is a FreeBSD system]) mhd_host_os='FreeBSD' AC_MSG_RESULT([[$mhd_host_os]])], [openbsd*], [AC_DEFINE([SOMEBSD],[1],[This is a BSD system]) AC_DEFINE([OPENBSD],[1],[This is an OpenBSD system]) mhd_host_os='OpenBSD' AC_MSG_RESULT([[$mhd_host_os]])], [netbsd*], [AC_DEFINE([SOMEBSD],[1],[This is a BSD system]) AC_DEFINE([NETBSD],[1],[This is a NetBSD system]) mhd_host_os='NetBSD' AC_MSG_RESULT([[$mhd_host_os]])], [*solaris*], [AC_DEFINE([SOLARIS],[1],[This is a Solaris system]) AC_DEFINE([_REENTRANT],[1],[Need with solaris or errno does not work]) mhd_host_os='Solaris' AC_MSG_RESULT([[$mhd_host_os]])], [*linux*], [AC_DEFINE([LINUX],[1],[This is a Linux kernel]) mhd_host_os='Linux' AC_MSG_RESULT([[$mhd_host_os]])], [*cygwin*], [AC_DEFINE([CYGWIN],[1],[This is a Cygwin system]) mhd_host_os='Windows/Cygwin' AC_MSG_RESULT([[$mhd_host_os]]) os_is_windows=yes], [*mingw*], [ AC_DEFINE([MINGW],[1],[This is a MinGW system]) AC_DEFINE([WINDOWS],[1],[This is a Windows system]) mhd_host_os='Windows/MinGW' AC_MSG_RESULT([[$mhd_host_os]]) AC_CHECK_HEADERS([winsock2.h ws2tcpip.h], [], [AC_MSG_ERROR([[Winsock2 headers are required for W32]])], [AC_INCLUDES_DEFAULT]) AC_CACHE_CHECK([for MS lib utility], [ac_cv_use_ms_lib_tool], [mslibcheck=`lib 2>&1` AS_IF([echo "$mslibcheck" | $GREP -e '^Microsoft (R) Library Manager' - >/dev/null], [ac_cv_use_ms_lib_tool=yes], [ac_cv_use_ms_lib_tool=no]) ]) AS_IF([test "x$ac_cv_use_ms_lib_tool" = "xyes"], [AC_SUBST([MS_LIB_TOOL], [[lib]])]) AC_SUBST([lt_cv_objdir]) os_is_windows=yes os_is_native_w32=yes ], [*openedition*], [AC_DEFINE([OS390],[1],[This is a OS/390 system]) mhd_host_os='OS/390' AC_MSG_RESULT([[$mhd_host_os]])], [gnu*], [AC_DEFINE([[GNU_HURD]], [[1]], [Define to `1' if host machine runs on GNU Hurd.]) mhd_host_os='GNU Hurd' AC_MSG_RESULT([[$mhd_host_os]]) ], [ AC_MSG_RESULT([unrecognised OS]) mhd_host_os="${host_os}" AC_MSG_WARN([Unrecognised OS $host_os]) AC_DEFINE([OTHEROS],1,[Some strange OS]) ]) AM_CONDITIONAL([CYGWIN_TARGET], [[test "x$os_is_windows" = "xyes" && \ test "x${os_is_native_w32}" != "xyes"]]) AS_VAR_IF([os_is_windows], ["yes"], [ AC_MSG_CHECKING([[whether target W32 version is specified by precompiler defines]]) AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ /* Note: check logic is reversed for easy log reading */ #ifdef WINVER #error WINVER is defined choke me now; #endif #ifdef _WIN32_WINNT #error _WIN32_WINNT is defined choke me now; #endif #ifdef NTDDI #error NTDDI is defined choke me now; #endif ]],[[(void)0]]) ], [[mhd_w32_ver_preselect=no]], [[mhd_w32_ver_preselect=yes]] ) AC_MSG_RESULT([[${mhd_w32_ver_preselect}]]) AC_CHECK_HEADERS([windows.h sdkddkver.h], [], [], [AC_INCLUDES_DEFAULT]) AS_VAR_IF([mhd_w32_ver_preselect],["yes"], [ AC_MSG_CHECKING([[for specified target W32 version]]) AS_UNSET([[mhd_w32_ver]]) AS_UNSET([[mhd_w32_ver_msg]]) AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #if _WIN32_WINNT+0 < 0x0501 /* Check before headers inclusion */ #error _WIN32_WINNT is less than 0x0501 choke me now; #endif #ifdef HAVE_SDKDDKVER_H #include #endif #ifdef HAVE_WINDOWS_H #include #endif #if _WIN32_WINNT+0 < 0x0501 #error _WIN32_WINNT is less than 0x0501 choke me now; #endif ]],[[(void)0]]) ], [], [ AC_MSG_RESULT([[pre-WinXP]]) AC_MSG_ERROR([[libmicrohttpd cannot be compiled for Windows version before Windows XP]]) ] ) AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #ifdef HAVE_SDKDDKVER_H #include #endif #ifdef HAVE_WINDOWS_H #include #endif #if _WIN32_WINNT+0 == 0x0501 #error _WIN32_WINNT is 0x0501 choke me now; #endif #if _WIN32_WINNT+0 == 0x0502 #error _WIN32_WINNT is 0x0502 choke me now; #endif ]],[[(void)0]]) ], [], [ mhd_w32_ver="WinXP" mhd_w32_ver_msg="WinXP (selected by precompiler flags)" ] ) AS_VAR_SET_IF([mhd_w32_ver], [], [ AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #ifdef HAVE_SDKDDKVER_H #include #endif #ifdef HAVE_WINDOWS_H #include #endif #if _WIN32_WINNT+0 < 0x0600 #error _WIN32_WINNT is less than 0x0600 but greater than 0x0502 choke me now; #endif ]],[[(void)0]]) ], [], [ AC_MSG_ERROR([[_WIN32_WINNT value is wrong (less than 0x0600 but greater than 0x0502)]]) ] ) AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #ifdef HAVE_SDKDDKVER_H #include #endif #ifdef HAVE_WINDOWS_H #include #endif #if _WIN32_WINNT+0 == 0x0600 #error _WIN32_WINNT is 0x0600 choke me now; #endif ]],[[(void)0]]) ], [], [ mhd_w32_ver="Vista" mhd_w32_ver_msg="Vista (selected by precompiler flags)" ] ) ] ) AS_VAR_SET_IF([mhd_w32_ver], [], [ AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #ifdef HAVE_SDKDDKVER_H #include #endif #ifdef HAVE_WINDOWS_H #include #endif #if _WIN32_WINNT+0 > 0x0600 #error _WIN32_WINNT is greater than 0x0600 choke me now; #endif ]],[[(void)0]]) ], [ mhd_w32_ver="unknown" mhd_w32_ver_msg="unknown (cannot be detected)" ], [ mhd_w32_ver="newer than Vista" mhd_w32_ver_msg="newer than Vista (selected by precompiler flags)" ] ) ] ) AC_MSG_RESULT([[${mhd_w32_ver}]]) ], [ mhd_w32_ver="Vista" mhd_w32_ver_msg="Vista (default, override by CPPFLAGS=-D_WIN32_WINNT=0xNNNN)" CPPFLAGS_ac="${CPPFLAGS_ac} -D_WIN32_WINNT=0x0600" CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" AC_MSG_CHECKING([[whether headers accept _WIN32_WINNT=0x0600]]) AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #ifdef HAVE_SDKDDKVER_H #include #endif #ifdef HAVE_WINDOWS_H #include #endif #include ]],[[(void)0]]) ], [ AC_MSG_RESULT([[yes]]) ], [ AC_MSG_RESULT([[no]]) AC_MSG_ERROR([Headers do not accept _WIN32_WINNT=0x0600. Consider override target W32 version by CPPFLAGS=-D_WIN32_WINNT=0xNNNN]) ] ) ] ) ] ) AS_IF([test "x${os_is_windows}" = "xyes" && test "x${os_is_native_w32}" = "xyes"], [ AC_CACHE_CHECK([W32 run-time library type], [mhd_cv_wctr_type], [ AC_EGREP_CPP([MHDMARKER: UCRT run-time library in use!], [ #include #if defined(_UCRT) #define CRT_STR "MHDMARKER: UCRT run-time library in use!" #endif #if defined(__MSVCRT_VERSION__) #if (__MSVCRT_VERSION__ >= 0xE00) && (__MSVCRT_VERSION__ < 0x1000) #define CRT_STR "MHDMARKER: UCRT run-time library in use!" #endif #if (__MSVCRT_VERSION__ > 0x1400) #define CRT_STR "MHDMARKER: UCRT run-time library in use!" #endif #endif #ifndef CRT_STR #define CRT_STR "MHDMARKER: MSVCRT run-time library in use!" #endif int main(void) { printf ("%\n", CRT_STR); return 0; } ], [mhd_cv_wctr_type="ucrt"], [mhd_cv_wctr_type="msvcrt"]) ] ) mhd_host_os="${mhd_host_os}-${mhd_cv_wctr_type}" AS_VAR_IF([mhd_cv_wctr_type], ["msvcrt"], [ # Use CFLAGS here to override user-supplied wrong CPPFLAGS. Durty trick, but choice is limited. AX_APPEND_COMPILE_FLAGS([-U__USE_MINGW_ANSI_STDIO -D__USE_MINGW_ANSI_STDIO=0], [CFLAGS_ac]) AC_SUBST([W32CRT], [MSVCRT]) ], [AC_SUBST([W32CRT], [UCRT])] ) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${user_LDFLAGS}" AS_CASE([$mhd_w32_ver], [WinXP], [MHD_CHECK_ADD_CC_LDFLAG([-Wl,--major-subsystem-version,5,--minor-subsystem-version,1],[LDFLAGS_ac])], [Vista], [MHD_CHECK_ADD_CC_LDFLAG([-Wl,--major-subsystem-version,6,--minor-subsystem-version,0],[LDFLAGS_ac])] ) LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" ] ) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" AC_ARG_WITH([threads], [AS_HELP_STRING([--with-threads=LIB],[choose threading library (posix, w32, auto, none) [auto]])], [], [with_threads='auto']) AS_CASE([[$with_threads]], [[win32]], [[with_threads='w32']], [[pthreads]], [[with_threads='posix']], [[posix]], [[:]], [[w32]], [[:]], [[none]], [[with_threads='none']], [[no]], [[with_threads='none']], [[auto]], [[:]], [AC_MSG_ERROR([[incorrect parameter "$with_threads" specified for --with-threads]])] ) # Check for posix threads support, regardless of configure parameters as # testsuite uses only posix threads. AX_PTHREAD( [ mhd_have_posix_threads='yes' AC_DEFINE([[HAVE_PTHREAD_H]],[[1]],[Define to 1 if you have the header file.]) AC_CACHE_CHECK([[whether pthread_sigmask(3) is available]], [[mhd_cv_func_pthread_sigmask]], [dnl save_LIBS="$LIBS" LIBS="$PTHREAD_LIBS $LIBS" CFLAGS="${CFLAGS_ac} ${PTHREAD_CFLAGS} ${user_CFLAGS}" AC_LINK_IFELSE([AC_LANG_PROGRAM([[#include ]], [[ sigset_t nset, oset; sigemptyset (&nset); sigaddset (&nset, SIGPIPE); if (0 != pthread_sigmask(SIG_BLOCK, &nset, &oset)) return 1; ]])], [[mhd_cv_func_pthread_sigmask="yes"]],[[mhd_cv_func_pthread_sigmask="no"]]) LIBS="${save_LIBS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" ]) AS_VAR_IF([mhd_cv_func_pthread_sigmask],["yes"], [AC_DEFINE([[HAVE_PTHREAD_SIGMASK]],[[1]],[Define to 1 if you have the pthread_sigmask(3) function.])]) ],[[mhd_have_posix_threads='no']]) AM_CONDITIONAL([HAVE_POSIX_THREADS],[test "x$mhd_have_posix_threads" = "xyes"]) mhd_have_w32_threads='no' AS_IF([[test "x$with_threads" = "xauto"]], [ AS_IF([[test "x$os_is_windows" = "xyes"]], [ AC_MSG_CHECKING([[for W32 threads]]) AC_LINK_IFELSE( [AC_LANG_PROGRAM([[ #include ]], [ HANDLE h = CreateThread(NULL, 0, NULL, NULL, 0, NULL);])] , [[mhd_have_w32_threads='yes']], [[mhd_have_w32_threads='no']] ) AC_MSG_RESULT([[$mhd_have_w32_threads]]) ]) ] ) AC_MSG_CHECKING([[for threading lib to use with libmicrohttpd ($with_threads)]]) AS_IF([test "x$with_threads" = "xposix"], [ # forced posix threads AS_IF([test "x$mhd_have_posix_threads" = "xyes"], [USE_THREADS='posix'], [ AS_IF([[test "x$os_is_windows" = "xyes"]] , [ AC_MSG_ERROR([[Posix threads are not available. Try to configure --with-threads=auto]])], [ AC_MSG_ERROR([[No threading lib is available. Consider installing pthreads]])] ) ]) ]) AS_IF([test "x$with_threads" = "xw32"], [ # forced w32 threads AS_IF([[test "x$mhd_have_w32_threads" = "xyes"]], [[ USE_THREADS='w32' ]], [ AC_MSG_ERROR([[W32 threads are not available. Try to configure --with-threads=auto]])]) ]) AS_IF([test "x$with_threads" = "xauto"], [# automatic threads lib selection AS_IF([[test "x$os_is_native_w32" = "xyes" && test "x$mhd_have_w32_threads" = "xyes"]] , [[ USE_THREADS='w32' ]] , [[ test "x$mhd_have_posix_threads" = "xyes" ]], [[ USE_THREADS='posix' ]], [[ test "x$mhd_have_w32_threads" = "xyes" ]], [[ USE_THREADS='w32' ]], [ AC_MSG_ERROR([[No threading lib is available. Consider installing pthreads]]) ] )]) AS_IF([test "x$with_threads" = "xnone"], [USE_THREADS='none']) AS_IF([test "x$USE_THREADS" = "xposix"], [CC="$PTHREAD_CC" AC_DEFINE([MHD_USE_POSIX_THREADS],[1],[define to use pthreads]) MHD_LIB_CFLAGS="$MHD_LIB_CFLAGS $PTHREAD_CFLAGS" MHD_LIBDEPS="$PTHREAD_LIBS $MHD_LIBDEPS" MHD_LIBDEPS_PKGCFG="$PTHREAD_LIBS $MHD_LIBDEPS_PKGCFG"], [AS_IF([test "x$USE_THREADS" = "xw32"], [AC_DEFINE([MHD_USE_W32_THREADS],[1],[define to use W32 threads])])]) AM_CONDITIONAL([USE_POSIX_THREADS], [test "x$USE_THREADS" = "xposix"]) AM_CONDITIONAL([USE_W32_THREADS], [test "x$USE_THREADS" = "xw32"]) AM_CONDITIONAL([USE_THREADS], [test "x$USE_THREADS" != "xnone"]) AM_CONDITIONAL([DISABLE_THREADS], [test "x$USE_THREADS" = "xnone"]) AC_MSG_RESULT([$USE_THREADS]) AC_ARG_ENABLE([[thread-names]], [AS_HELP_STRING([--disable-thread-names],[do not set names on MHD generated threads [auto]])], [], [enable_thread_names='auto']) AS_IF([test "x$enable_thread_names" != "xno" && test "x$USE_THREADS" = "xposix"],[ # Check for thread name function HAVE_THREAD_NAME_FUNC="no" SAVE_LIBS="$LIBS" LIBS="$PTHREAD_LIBS $LIBS" CFLAGS="${CFLAGS_ac} $PTHREAD_CFLAGS ${user_CFLAGS}" AC_CHECK_HEADERS([pthread_np.h],[],[], [ AC_INCLUDES_DEFAULT [ #include ] ]) # Try to find how to set thread name by thread attributes. # If pthread_attr_setname_np(3) is not declared, it's not possible to detect # form of pthread_attr_setname_np(3) due to C "feature" "implicit declaration". AC_CHECK_DECL([[pthread_attr_setname_np]],[],[],[[ #include #ifdef HAVE_PTHREAD_NP_H #include #endif ]]) AS_IF([[test "x$ac_cv_have_decl_pthread_attr_setname_np" = "xyes"]], [AC_MSG_CHECKING([[for pthread_attr_setname_np(3) in NetBSD or OSF1 form]]) AC_LINK_IFELSE( [AC_LANG_PROGRAM([[ #include #ifdef HAVE_PTHREAD_NP_H #include #endif ]], [[ pthread_attr_t thr_attr; pthread_attr_init(&thr_attr); pthread_attr_setname_np(&thr_attr, "name", 0); pthread_attr_destroy(&thr_attr); ]])], [AC_DEFINE([[HAVE_PTHREAD_ATTR_SETNAME_NP_NETBSD]], [[1]], [Define if you have NetBSD form (or OSF1 form) of pthread_attr_setname_np(3) function.]) HAVE_THREAD_NAME_FUNC="yes" AC_MSG_RESULT([[yes]])], [AC_MSG_RESULT([[no]])] ) ]) AS_IF([[test "x$HAVE_THREAD_NAME_FUNC" != "xyes" && test "x$ac_cv_have_decl_pthread_attr_setname_np" = "xyes"]], [AC_MSG_CHECKING([[for pthread_attr_setname_np(3) in IBM i or Solaris form]]) AC_LINK_IFELSE( [AC_LANG_PROGRAM([[ #include #ifdef HAVE_PTHREAD_NP_H #include #endif ]], [[ pthread_attr_t thr_attr; pthread_attr_init(&thr_attr); pthread_attr_setname_np(&thr_attr, "name"); pthread_attr_destroy(&thr_attr); ]])], [AC_DEFINE([[HAVE_PTHREAD_ATTR_SETNAME_NP_IBMI]], [[1]], [Define if you have IBM i form (or Solaris form) of pthread_attr_setname_np(3) function.]) HAVE_THREAD_NAME_FUNC="yes" AC_MSG_RESULT([[yes]])], [AC_MSG_RESULT([[no]])] ) ]) # Try to find how to set thread name for started thread - less convenient # than setting name by attributes. # If pthread_setname_np(3) is not declared, it's not possible to detect # form of pthread_setname_np(3) due to C "feature" "implicit declaration". AS_IF([[test "x$HAVE_THREAD_NAME_FUNC" != "xyes"]], [AC_CHECK_DECL([[pthread_setname_np]],[],[],[[ #include #ifdef HAVE_PTHREAD_NP_H #include #endif ]]) ]) AS_IF([[test "x$HAVE_THREAD_NAME_FUNC" != "xyes" && test "x$ac_cv_have_decl_pthread_setname_np" = "xyes"]], [AC_MSG_CHECKING([[for pthread_setname_np(3) in NetBSD or OSF1 form]]) AC_LINK_IFELSE( [AC_LANG_PROGRAM([[ #include #ifdef HAVE_PTHREAD_NP_H #include #endif ]], [[int res = pthread_setname_np(pthread_self(), "name", 0); if (res) return res;]])], [AC_DEFINE([[HAVE_PTHREAD_SETNAME_NP_NETBSD]], [[1]], [Define if you have NetBSD form (or OSF1 form) of pthread_setname_np(3) function.]) HAVE_THREAD_NAME_FUNC="yes" AC_MSG_RESULT([[yes]])], [AC_MSG_RESULT([[no]])] ) ]) AS_IF([[test "x$HAVE_THREAD_NAME_FUNC" != "xyes" && test "x$ac_cv_have_decl_pthread_setname_np" = "xyes"]], [AC_MSG_CHECKING([[for pthread_setname_np(3) in GNU/Linux form]]) AC_LINK_IFELSE( [AC_LANG_PROGRAM([[ #include #ifdef HAVE_PTHREAD_NP_H #include #endif ]], [[int res = pthread_setname_np(pthread_self(), "name"); if (res) return res;]])], [AC_DEFINE([[HAVE_PTHREAD_SETNAME_NP_GNU]], [[1]], [Define if you have GNU/Linux form of pthread_setname_np(3) function.]) HAVE_THREAD_NAME_FUNC="yes" AC_MSG_RESULT([[yes]])], [AC_MSG_RESULT([[no]])] ) ]) AS_IF([[test "x$HAVE_THREAD_NAME_FUNC" != "xyes" && test "x$ac_cv_have_decl_pthread_setname_np" = "xyes"]], [AC_MSG_CHECKING([[for pthread_setname_np(3) in Darwin form]]) AC_LINK_IFELSE( [AC_LANG_PROGRAM([[ #include #ifdef HAVE_PTHREAD_NP_H #include #endif ]], [[int res = pthread_setname_np("name"); if (res) return res;]])], [AC_DEFINE([[HAVE_PTHREAD_SETNAME_NP_DARWIN]], [[1]], [Define if you have Darwin form of pthread_setname_np(3) function.]) HAVE_THREAD_NAME_FUNC="yes" AC_MSG_RESULT([[yes]])], [AC_MSG_RESULT([[no]])] ) ]) AS_IF([[test "x$HAVE_THREAD_NAME_FUNC" != "xyes"]], [ AC_CHECK_DECL([[pthread_set_name_np]], [ AC_MSG_CHECKING([[for pthread_set_name_np(3) in FreeBSD form]]) AC_LINK_IFELSE( [AC_LANG_PROGRAM([[ #include #ifdef HAVE_PTHREAD_NP_H #include #endif ]], [[pthread_set_name_np(pthread_self(), "name");]])], [AC_DEFINE([[HAVE_PTHREAD_SET_NAME_NP_FREEBSD]], [[1]], [Define if you have FreeBSD form of pthread_set_name_np(3) function.]) HAVE_THREAD_NAME_FUNC="yes" AC_MSG_RESULT([[yes]])], [AC_MSG_RESULT([[no]])] ) ],[],[[ #include #ifdef HAVE_PTHREAD_NP_H #include #endif ]] ) ]) LIBS="$SAVE_LIBS" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" ]) AS_IF([[test "x$enable_thread_names" != "xno"]], [ AC_MSG_CHECKING([[whether to enable thread names]]) AC_COMPILE_IFELSE( [AC_LANG_PROGRAM([], [[ #ifdef MHD_NO_THREAD_NAMES #error Thread names are disabled. choke me #endif /* Keep in sync with mhd_threads.h */ #if defined(MHD_USE_POSIX_THREADS) && (defined(HAVE_PTHREAD_ATTR_SETNAME_NP_NETBSD) || defined(HAVE_PTHREAD_ATTR_SETNAME_NP_IBMI) || \ defined(HAVE_PTHREAD_SETNAME_NP_GNU) || defined(HAVE_PTHREAD_SET_NAME_NP_FREEBSD) || defined(HAVE_PTHREAD_SETNAME_NP_DARWIN) || \ defined(HAVE_PTHREAD_SETNAME_NP_NETBSD) ) (void) 0; /* no-op */ #elif defined(MHD_USE_W32_THREADS) && defined(_MSC_FULL_VER) (void) 0; /* no-op */ #else #error No thread name function is available. choke me #endif ]]) ], [ enable_thread_names='yes' ], [ AS_IF([[test "x$enable_thread_names" = "xyes"]], [ AC_MSG_RESULT([[no]]) AC_MSG_ERROR([[thread names was explicitly requested, but thread name function is not available]]) ]) enable_thread_names='no' ]) AC_MSG_RESULT([[$enable_thread_names]]) ]) AS_IF([[test "x$enable_thread_names" = "xno"]], [AC_DEFINE([[MHD_NO_THREAD_NAMES]], [[1]], [Define to 1 to disable setting name on generated threads])]) AM_CONDITIONAL(HAVE_W32, [test "x$os_is_native_w32" = "xyes"]) w32_shared_lib_exp=no AS_IF([test "x$enable_shared" = "xyes" && test "x$os_is_native_w32" = "xyes"], [ AS_IF([test "x$ac_cv_use_ms_lib_tool" = "xyes" || test -n "$DLLTOOL"], [ w32_shared_lib_exp=yes use_expfile="no" AS_VAR_IF([ac_cv_use_ms_lib_tool], ["yes"], [use_expfile="yes"], [ AC_CACHE_CHECK([whether $DLLTOOL supports export file generation], [mhd_cv_dlltool_expfile], [ AS_IF([AC_RUN_LOG([$DLLTOOL -e conftest.exp >&2 ])], [ AS_IF([test -f conftest.exp], [mhd_cv_dlltool_expfile="yes"], [mhd_cv_dlltool_expfile="no"]) ], [mhd_cv_dlltool_expfile="no"] ) rm -f conftest.exp ] ) use_expfile="${mhd_cv_dlltool_expfile}" ] ) ], [ AC_MSG_WARN([[GNU dlltool or MS lib.exe is required for creating shared library export on W32]]) AC_MSG_WARN([[Export library libmicrohttpd.lib will not be created]]) ] ) ] ) AM_CONDITIONAL([W32_SHARED_LIB_EXP], [test "x$w32_shared_lib_exp" = "xyes"]) AM_CONDITIONAL([USE_MS_LIB_TOOL], [test "x$ac_cv_use_ms_lib_tool" = "xyes"]) AM_CONDITIONAL([USE_EXPORT_FILE], [test "x$use_expfile" = "xyes"]) dnl gethostbyname() is not really needed dnl AC_SEARCH_LIBS([gethostbyname], [nsl]) MHD_FIND_LIB([socket], [[ #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif #ifdef HAVE_SOCKLIB_H #include #endif #if defined(_WIN32) && ! defined(__CYGWIN__) #include #endif ]], [(void)socket(0, 0, 0);], [socket ws2_32 xnet], [ AS_VAR_IF([[mhd_cv_find_lib_socket]],[["none required"]], [], [ MHD_LIBDEPS_PKGCFG="${mhd_cv_find_lib_socket} $MHD_LIBDEPS_PKGCFG" ] ) ], [AC_MSG_ERROR([[cannot find header or library required for function socket()]])] ) MHD_CHECK_SOCKET_SHUTDOWN_TRIGGER([AC_DEFINE([HAVE_LISTEN_SHUTDOWN],[1],[can use shutdown on listen sockets])]) AM_CONDITIONAL([HAVE_LISTEN_SHUTDOWN], [test "x$mhd_cv_host_shtdwn_trgr_select" = "xyes"]) MHD_CHECK_FUNC([writev], [[#include ]], [[ struct iovec iov[2]; char some_str[4] = "OK\n"; iov[0].iov_base = (void *) some_str; iov[0].iov_len = 3; i][f (0 > writev(1, iov, 1)) return 2; ]] ) MHD_FIND_LIB([sendmsg], [[ #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif #ifdef HAVE_SOCKLIB_H #include #endif #ifdef HAVE_SYS_UIO_H #include #endif ]], [[ struct msghdr msg; struct iovec iov; unsigned int i; char some_str[5] = "test"; iov.iov_base = (void*)some_str; iov.iov_len = 4; for (i = 0; i < (unsigned int) sizeof(msg); i++) { *(((unsigned char *)&msg) + i) = 0; } msg.msg_iov = &iov; msg.msg_iovlen = 1; i][f (0 > sendmsg(1, &msg, 0)) return -1; ]], [socket], [ AC_DEFINE([HAVE_SENDMSG],[1],[Define to '1' if your have sendmsg() function]) AS_VAR_IF([[mhd_cv_find_lib_sendmsg]],[["none required"]], [], [ MHD_LIBDEPS_PKGCFG="${mhd_cv_find_lib_sendmsg} $MHD_LIBDEPS_PKGCFG" ] ) ],[], [MHD_LIBDEPS] ) AC_C_BIGENDIAN AC_C_VARARRAYS AC_CACHE_CHECK([[whether __func__ magic-macro is available]], [[mhd_cv_macro___func___avail]], [dnl AC_LINK_IFELSE([AC_LANG_PROGRAM([[#include ]],[[const char *funcname = __func__ ; if (NULL == funcname) return 1;]])], [[mhd_cv_macro___func___avail="yes"]],[[mhd_cv_macro___func___avail="no"]]) ]) AS_VAR_IF([mhd_cv_macro___func___avail], ["yes"], [AC_DEFINE([HAVE___FUNC__], [1], [Define to 1 if your compiler supports __func__ magic-macro.])], [ AC_CACHE_CHECK([[whether __FUNCTION__ magic-macro is available]], [[mhd_cv_macro___function___avail]], [dnl AC_LINK_IFELSE([AC_LANG_PROGRAM([[#include ]],[[const char *funcname = __FUNCTION__ ; if (NULL == funcname) return 1;]])], [[mhd_cv_macro___function___avail="yes"]],[[mhd_cv_macro___function___avail="no"]]) ]) AC_DEFINE([HAVE___FUNCTION__], [1], [Define to 1 if your compiler supports __FUNCTION__ magic-macro.]) ] ) AC_CACHE_CHECK([[whether __builtin_bswap32() is available]], [[mhd_cv_func___builtin_bswap32_avail]], [dnl AC_LINK_IFELSE([AC_LANG_PROGRAM([[#include]], [[uint32_t a = 1; uint32_t b = __builtin_bswap32(a); a = b; (void) a;]])], [[mhd_cv_func___builtin_bswap32_avail="yes"]],[[mhd_cv_func___builtin_bswap32_avail="no"]]) ]) AS_IF([[test "x$mhd_cv_func___builtin_bswap32_avail" = "xyes"]], [AC_DEFINE([[MHD_HAVE___BUILTIN_BSWAP32]], [[1]], [Define to 1 if you have __builtin_bswap32() builtin function])]) AC_CACHE_CHECK([[whether __builtin_bswap64() is available]], [[mhd_cv_func___builtin_bswap64_avail]], [dnl AC_LINK_IFELSE([AC_LANG_PROGRAM([[#include]], [[uint64_t a = 1; uint64_t b = __builtin_bswap64(a); a = b; (void) a;]])], [[mhd_cv_func___builtin_bswap64_avail="yes"]], [[mhd_cv_func___builtin_bswap64_avail="no"]]) ]) AS_IF([[test "x$mhd_cv_func___builtin_bswap64_avail" = "xyes"]], [AC_DEFINE([[MHD_HAVE___BUILTIN_BSWAP64]], [[1]], [Define to 1 if you have __builtin_bswap64() builtin function])]) AC_CHECK_PROG([HAVE_CURL_BINARY],[curl],[yes],[no]) AM_CONDITIONAL([HAVE_CURL_BINARY],[test "x$HAVE_CURL_BINARY" = "xyes"]) AC_CHECK_PROG([HAVE_MAKEINFO_BINARY],[makeinfo],[yes],[no]) AM_CONDITIONAL([HAVE_MAKEINFO_BINARY],[test "x$HAVE_MAKEINFO_BINARY" = "xyes"]) AM_CONDITIONAL(W32_STATIC_LIB, [test "x$os_is_native_w32" = "xyes" && test "x$enable_static" = "xyes"]) AC_ARG_ENABLE([[doc]], [AS_HELP_STRING([[--disable-doc]], [do not build any documentation])], , [enable_doc=yes]) test "x$enable_doc" = "xno" || enable_doc=yes AM_CONDITIONAL([BUILD_DOC], [test "x$enable_doc" = "xyes"]) AC_ARG_ENABLE([[examples]], [AS_HELP_STRING([[--disable-examples]], [do not build any examples])], , [enable_examples=yes]) test "x$enable_examples" = "xno" || enable_examples=yes AM_CONDITIONAL([BUILD_EXAMPLES], [test "x$enable_examples" = "xyes"]) AC_ARG_ENABLE([[heavy-tests]], [AS_HELP_STRING([[--enable-heavy-tests[=SCOPE]]], [use SCOPE of heavy tests in test-suite. WARNING:] [a dedicated host with minimal number of background processes and no network] [activity is recommended to enable. (basic, full)])], [], [enable_heavy_tests=no]) use_heavy_tests="no" use_vheavy_tests="no" use_heavy_tests_MSG="no" AS_CASE([${enable_heavy_tests}], [yes|basic], [ enable_heavy_tests="basic" use_heavy_tests="yes" use_vheavy_tests="no" use_heavy_tests_MSG="yes, basic heavy tests (a dedicated host is recommended)" ], [all|full], [ enable_heavy_tests="full" use_heavy_tests="yes" use_vheavy_tests="yes" use_heavy_tests_MSG="yes, full set of heavy tests (a dedicated host is recommended)" ], [no], [ use_heavy_tests="no" use_vheavy_tests="no" use_heavy_tests_MSG="no" ], [AC_MSG_ERROR([[Unknown parameter value: --enable-heavy-tests=${enable_heavy_tests}]])] ) AS_VAR_IF([use_heavy_tests], ["yes"], [ HEAVY_TESTS_NOTPARALLEL='.NOTPARALLEL:' AC_DEFINE([_MHD_HEAVY_TESTS], [1], [Define to 1 to enable "heavy" test paths.]) AS_VAR_IF([use_vheavy_tests], ["yes"], [AC_DEFINE([_MHD_VHEAVY_TESTS], [1], [Define to 1 to enable "very heavy" test paths.])] ) ], [ HEAVY_TESTS_NOTPARALLEL=" " ] ) AM_CONDITIONAL([HEAVY_TESTS],[test "x$use_heavy_tests" = "xyes"]) AC_ARG_ENABLE([[poll]], [AS_HELP_STRING([[--enable-poll[=ARG]]], [enable poll support (yes, no, auto) [auto]])], [enable_poll=${enableval}], [enable_poll='auto'] ) AS_IF([test "$enable_poll" != "no"], [ AS_IF([test "$os_is_native_w32" != "yes"], [ AC_CHECK_HEADERS([poll.h], [ MHD_CHECK_FUNC([poll], [[ #include ]], [[ struct pollfd fds[2]; fds[0].fd = 0; fds[0].events = POLLIN; if (0 > poll(fds, 1, 0)) return 2; ]], [have_poll='yes'], [have_poll='no'] ) ], [], [AC_INCLUDES_DEFAULT] ) ], [ MHD_CHECK_FUNC([WSAPoll], [[ #include ]], [[ WSAPOLLFD fda[2]; WSAPoll(fda, 2, 0); ]], [ have_poll='yes' AC_DEFINE([HAVE_POLL],[1]) ], [have_poll='no'] ) ] ) AS_IF([test "$enable_poll" = "yes" && test "$have_poll" != "yes"], [AC_MSG_ERROR([[Support for poll was explicitly requested but cannot be enabled on this platform.]])]) enable_poll="$have_poll" ] ) AC_ARG_ENABLE([[epoll]], [AS_HELP_STRING([[--enable-epoll[=ARG]]], [enable epoll support (yes, no, auto) [auto]])], [enable_epoll=${enableval}], [enable_epoll='auto'] ) AS_IF([test "$enable_epoll" != "no"], [ AX_HAVE_EPOLL AS_IF([test "${ax_cv_have_epoll}" = "yes"], [ AC_DEFINE([[EPOLL_SUPPORT]],[[1]],[Define to 1 to enable epoll support]) enable_epoll='yes' ], [ AS_IF([test "$enable_epoll" = "yes"], [AC_MSG_ERROR([[Support for epoll was explicitly requested but cannot be enabled on this platform.]])] ) enable_epoll='no' ] ) ] ) AM_CONDITIONAL([MHD_HAVE_EPOLL], [[test "x$enable_epoll" = xyes]]) AS_IF([test "x$enable_epoll" = "xyes"], [ MHD_CHECK_FUNC([epoll_create1], [[ #include ]], [[ i][f (0 > epoll_create1(EPOLL_CLOEXEC)) return 3; ]] ) ] ) AC_CACHE_CHECK([for supported 'noreturn' keyword], [mhd_cv_decl_noreturn], [ mhd_cv_decl_noreturn="none" CFLAGS="${CFLAGS_ac} ${user_CFLAGS} ${errattr_CFLAGS}" for decl_noret in '_Noreturn' '__attribute__((__noreturn__))' '__declspec(noreturn)' do AC_LINK_IFELSE([AC_LANG_SOURCE( [[ #ifdef HAVE_STDLIB_H #include #endif ${decl_noret} static void myexitfunc(int code) { #ifdef HAVE_STDLIB_H exit (code); #else (void)code; #endif } int main (int argc, char *const *argv) { (void) argv; if (argc > 2) myexitfunc (2); return 0; } ]] )], [mhd_cv_decl_noreturn="${decl_noret}"] ) AS_IF([test "x${mhd_cv_decl_noreturn}" != "xnone"], [break]) done CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" ] ) AS_VAR_IF([mhd_cv_decl_noreturn], ["none"], [AC_DEFINE([_MHD_NORETURN], [], [Define to supported 'noreturn' function declaration])], [AC_DEFINE_UNQUOTED([_MHD_NORETURN], [${mhd_cv_decl_noreturn}], [Define to supported 'noreturn' function declaration])] ) # Check for types sizes # Types sizes are used as an indirect indication of maximum allowed values for types # which is used to exclude by preprocessor some compiler checks for values clips # Assuming no staffing or uniform staffing for integer types AC_CACHE_CHECK([size of tv_sec member of struct timeval], [mhd_cv_size_timeval_tv_sec], [ AC_COMPUTE_INT([mhd_cv_size_timeval_tv_sec], [((long int)sizeof(test_var.tv_sec))], [[ #ifdef HAVE_SYS_TIME_H #include #endif /* HAVE_SYS_TIME_H */ #ifdef HAVE_TIME_H #include #endif /* HAVE_TIME_H */ #if HAVE_SYS_TYPES_H #include #endif /* HAVE_SYS_TYPES_H */ struct timeval test_var; ]], [ # The size is used only to exclude additional checks/comparison in code # to avoid compiler warnings. With larger size MHD code will use # additional checks which ensure that value will fit but it may produce # a harmless compiler warning. AC_MSG_WARN([The size cannot be determined, assuming 8.]) mhd_cv_size_timeval_tv_sec=8 ] ) ] ) AC_DEFINE_UNQUOTED([SIZEOF_STRUCT_TIMEVAL_TV_SEC], [$mhd_cv_size_timeval_tv_sec], [The size of `tv_sec' member of `struct timeval', as computed by sizeof]) AC_CHECK_SIZEOF([int64_t], [], [[#include ]]) AC_CHECK_SIZEOF([uint64_t], [], [[#include ]]) AC_CHECK_SIZEOF([int], [], [[#include ]]) AC_CHECK_SIZEOF([unsigned int], [], [[#include ]]) AC_CHECK_SIZEOF([unsigned long long], [], [[#include ]]) AC_CHECK_SIZEOF([size_t], [], [[ #ifdef HAVE_STDLIB_H #include #endif /* HAVE_STDLIB_H */ #ifdef HAVE_STDDEF_H #include #endif /* HAVE_STDDEF_H */ #include ]] ) AC_CHECK_HEADERS([dlfcn.h],[have_tlsplugin=yes],[have_tlsplugin=no], [AC_INCLUDES_DEFAULT]) AM_CONDITIONAL([MHD_HAVE_TLS_PLUGIN], [[test "x$have_tlsplugin" = xyes]]) AC_CHECK_HEADERS([zlib.h],[have_zlib=yes],[have_zlib=no], [AC_INCLUDES_DEFAULT]) AM_CONDITIONAL([HAVE_ZLIB], [[test "x$have_zlib" = xyes]]) # Check for generic functions MHD_CHECK_FUNC([random], [ AC_INCLUDES_DEFAULT [#include ]], [[long int r = random(); (void)r;]], [], [ MHD_CHECK_FUNC([rand], [ AC_INCLUDES_DEFAULT [#include ]], [[int r = rand(); (void)r;]], ) ] ) AC_CHECK_MEMBERS([struct sockaddr_in.sin_len, struct sockaddr_in6.sin6_len, struct sockaddr_storage.ss_len], [], [], [ #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif #ifdef HAVE_NETINET_IN_H #include #endif ]) MHD_CHECK_LINK_RUN([[f][or working getsockname()]],[[mhd_cv_getsockname_usable]], [[mhd_cv_getsockname_usable='assuming yes']], [ AC_LANG_SOURCE( [[ #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_WINSOCK2_H #include #endif #ifdef HAVE_WS2TCPIP_H #include #endif #ifdef HAVE_NETINET_IN_H #include #endif #ifdef HAVE_NETINET_IP_H #include #endif #ifdef HAVE_ARPA_INET_H #include #endif static void zr_mem(void *ptr, socklen_t size) { char *mem = ptr; while(size--) {mem[0] = 0; mem++;} } int main(void) { const socklen_t c_addr_size = (socklen_t)sizeof(struct sockaddr_in); struct sockaddr_in sa; socklen_t addr_size; int ret = 1; #if !defined(_WIN32) || defined(__CYGWIN__) int sckt; const int invld_sckt = -1; #else SOCKET sckt; const SOCKET invld_sckt = INVALID_SOCKET; WSADATA wsa_data; if (0 != WSAStartup(MAKEWORD(2, 2), &wsa_data) || MAKEWORD(2, 2) != wsa_data.wVersion) return 20; #endif sckt = socket (PF_INET, SOCK_STREAM, 0); if (invld_sckt != sckt) { zr_mem(&sa, c_addr_size); sa.sin_family = AF_INET; #ifdef HAVE_STRUCT_SOCKADDR_IN_SIN_LEN sa.sin_len = c_addr_size; #endif if (0 == bind (sckt, (struct sockaddr *)&sa, c_addr_size)) { if (0 == listen (sckt, 1)) { addr_size = c_addr_size; if (0 == getsockname (sckt, (struct sockaddr *)&sa, &addr_size)) { if (c_addr_size >= addr_size) { if (0 != ntohs(sa.sin_port)) { ret = 0; } else ret = 7; } else ret = 6; } else ret = 5; } else ret = 4; } else ret = 3; } else ret = 2; #if !defined(_WIN32) || defined(__CYGWIN__) close (sckt); #else closesocket (sckt); WSACleanup(); #endif return ret; } ]] ) ], [AC_DEFINE([[MHD_USE_GETSOCKNAME]], [[1]], [Define if you have usable `getsockname' function.])] ) AC_CACHE_CHECK([for usable PAGESIZE macro], [mhd_cv_macro_pagesize_usable], [ AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_LIMITS_H #include #endif #ifdef HAVE_SYS_PARAM_H #include #endif #ifndef PAGESIZE #error No PAGESIZE macro defined choke me now #endif ]], [[ long pgsz = PAGESIZE + 0; if (1 > pgsz) return 1; ]] ) ], [[mhd_cv_macro_pagesize_usable="yes"]], [[mhd_cv_macro_pagesize_usable="no"]] ) ] ) AS_VAR_IF([[mhd_cv_macro_pagesize_usable]], [["yes"]], [ AC_DEFINE([[MHD_USE_PAGESIZE_MACRO]],[[1]],[Define if you have usable PAGESIZE macro]) AC_CACHE_CHECK([whether PAGESIZE macro could be used for static init], [mhd_cv_macro_pagesize_usable_static], [ AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_LIMITS_H #include #endif #ifdef HAVE_SYS_PARAM_H #include #endif #ifndef PAGESIZE #error No PAGESIZE macro defined choke me now #endif static long ac_pgsz = PAGESIZE + 0; ]], [[ if (1 > ac_pgsz) return 1; ]] ) ], [[mhd_cv_macro_pagesize_usable_static="yes"]], [[mhd_cv_macro_pagesize_usable_static="no"]] ) ] ) AS_VAR_IF([[mhd_cv_macro_pagesize_usable_static]], [["yes"]], [AC_DEFINE([[MHD_USE_PAGESIZE_MACRO_STATIC]],[[1]],[Define if you have PAGESIZE macro usable for static init])] ) ], [ AC_CACHE_CHECK([for usable PAGE_SIZE macro], [mhd_cv_macro_page_size_usable], [ AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_LIMITS_H #include #endif #ifdef HAVE_SYS_PARAM_H #include #endif #ifndef PAGE_SIZE #error No PAGE_SIZE macro defined choke me now #endif ]], [[ long pgsz = PAGE_SIZE + 0; if (1 > pgsz) return 1; ]] ) ], [[mhd_cv_macro_page_size_usable="yes"]], [[mhd_cv_macro_page_size_usable="no"]] ) ] ) AS_VAR_IF([[mhd_cv_macro_page_size_usable]], [["yes"]], [ AC_DEFINE([[MHD_USE_PAGE_SIZE_MACRO]],[[1]],[Define if you have usable PAGE_SIZE macro]) AC_CACHE_CHECK([whether PAGE_SIZE macro could be used for static init], [mhd_cv_macro_page_size_usable_static], [ AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_LIMITS_H #include #endif #ifdef HAVE_SYS_PARAM_H #include #endif #ifndef PAGE_SIZE #error No PAGE_SIZE macro defined choke me now #endif static long ac_pgsz = PAGE_SIZE + 0; ]], [[ if (1 > ac_pgsz) return 1; ]] ) ], [[mhd_cv_macro_page_size_usable_static="yes"]], [[mhd_cv_macro_page_size_usable_static="no"]] ) ] ) AS_VAR_IF([[mhd_cv_macro_page_size_usable_static]], [["yes"]], [AC_DEFINE([[MHD_USE_PAGE_SIZE_MACRO_STATIC]],[[1]],[Define if you have PAGE_SIZE macro usable for static init])] ) ] ) ] ) # Check for inter-thread signaling type AC_ARG_ENABLE([[itc]], [AS_HELP_STRING([[--enable-itc=TYPE]], [use TYPE of inter-thread communication (pipe, socketpair, eventfd) [auto]])], [], [[enable_itc='auto']] ) AS_CASE([[$enable_itc]], [[pipe]], [[:]], [[socketpair]], [[:]], [[eventfd]], [[:]], [[auto]], [AS_VAR_IF([[os_is_windows]], [["yes"]], [[enable_itc='socketpair']])], [[eventFD]], [[enable_itc='eventfd']], [[socket]], [[enable_itc='socketpair']], [[no]], [AC_MSG_ERROR([[inter-thread communication cannot be disabled]])], [AC_MSG_ERROR([[unrecognized type "$enable_itc" of inter-thread communication specified by "--enable-itc=$enable_itc"]])] ) AS_UNSET([[use_itc]]) AS_IF([[test "x$enable_itc" = "xeventfd" || test "x$enable_itc" = "xauto"]], [ MHD_CHECK_LINK_RUN([[f][or working eventfd(2)]],[[mhd_cv_eventfd_usable]],[[mhd_cv_eventfd_usable='assuming no']], [ AC_LANG_SOURCE([[ #include #include int main(void) { unsigned char buf[8]; int ret; int efd = eventfd(0, EFD_CLOEXEC | EFD_NONBLOCK); if (0 > efd) return 2; ret = 0; buf[3] = 1; if (8 != write(efd, buf, 8)) ret = 3; else { if (8 != read(efd, buf, 8)) ret = 4; } close(efd); return ret; } ]] ) ], [ use_itc='eventfd' enable_itc="$use_itc" AC_DEFINE([[_MHD_ITC_EVENTFD]], [[1]], [Define to use eventFD for inter-thread communication]) ], [ AS_VAR_IF([[enable_itc]], [["eventfd"]], [AC_MSG_ERROR([[eventfd(2) is not usable, consider using other type of inter-thread communication]])]) ] ) AS_VAR_IF([mhd_cv_eventfd_usable],["assuming no"], [AC_MSG_WARN([if you have 'eventfd' support enabled on your target system consider overriding test result by "mhd_cv_eventfd_usable=yes" configure parameter])] ) ] ) AS_IF([[test "x$enable_itc" = "xpipe" || test "x$enable_itc" = "xauto"]], [ AS_VAR_IF([[os_is_native_w32]], [["yes"]], [], [ AC_CACHE_CHECK([[whether pipe(3) is usable]], [[mhd_cv_pipe_usable]], [ AC_LINK_IFELSE([ AC_LANG_PROGRAM([ AC_INCLUDES_DEFAULT #ifdef HAVE_UNISTD_H #include #endif ], [[ int arr[2]; int res; res = pipe(arr); if (res != 0) return 33; close (arr[0]); close (arr[1]); ]]) ], [[mhd_cv_pipe_usable='yes']], [[mhd_cv_pipe_usable='no']]) ]) AS_VAR_IF([[mhd_cv_pipe_usable]], [["yes"]], [ use_itc='pipe' enable_itc="$use_itc" AC_DEFINE([[_MHD_ITC_PIPE]], [[1]], [Define to use pipe for inter-thread communication]) MHD_CHECK_LINK_RUN([[whether pipe2(2) is usable]],[[mhd_cv_pipe2_usable]], [ # Cross-compiling AS_CASE([${host_os}], [kfreebsd*-gnu], [[mhd_cv_pipe2_usable='assuming no']], [[mhd_cv_pipe2_usable='assuming yes']]) ], [ AC_LANG_PROGRAM([ AC_INCLUDES_DEFAULT #ifdef HAVE_FCNTL_H #include #endif #ifdef HAVE_UNISTD_H #include #endif ], [[ int arr[2]; int res; res = pipe2(arr, O_CLOEXEC | O_NONBLOCK); if (res != 0) return 33; close (arr[0]); close (arr[1]); ]] ) ], [AC_DEFINE([[HAVE_PIPE2_FUNC]], [[1]], [Define if you have usable pipe2(2) function])] ) ], [ AS_VAR_IF([[enable_itc]], [["pipe"]], [AC_MSG_ERROR([[pipe(3) is not usable, consider using other type of inter-thread communication]])]) ]) ]) ]) AS_IF([[test "x$enable_itc" = "xsocketpair" || test "x$enable_itc" = "xauto"]], [ AS_VAR_IF([[os_is_native_w32]], [["yes"]], [[mhd_cv_socketpair_usable='yes']], [ AC_CACHE_CHECK([[whether socketpair(3) is usable]], [[mhd_cv_socketpair_usable]], [ AC_LINK_IFELSE([ AC_LANG_PROGRAM([ AC_INCLUDES_DEFAULT #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif ], [[ int arr[2]; int res; #if defined(AF_LOCAL) res = socketpair(AF_LOCAL, SOCK_STREAM, 0, arr); #elif defined(AF_UNIX) res = socketpair(AF_UNIX, SOCK_STREAM, 0, arr); #else #error AF_LOCAL and AF_UNIX are both undefined choke me now; #endif if (res != 0) return 1 ]]) ], [[mhd_cv_socketpair_usable='yes']], [[mhd_cv_socketpair_usable='no']]) ]) ]) AS_VAR_IF([[mhd_cv_socketpair_usable]], [["yes"]], [ use_itc='socketpair' enable_itc="$use_itc" AC_DEFINE([[_MHD_ITC_SOCKETPAIR]], [[1]], [Define to use socketpair for inter-thread communication]) ], [ AS_VAR_IF([[enable_itc]], [["socketpair"]], [AC_MSG_ERROR([[socketpair(3) is not usable, consider using other type of inter-thread communication]])]) ]) ]) AS_IF([[test -z "$use_itc"]], [AC_MSG_ERROR([[cannot find usable type of inter-thread communication]])]) MHD_CHECK_FUNC([accept4], [[ #if defined(HAVE_SYS_TYPES_H) # include #endif #include ]], [[ struct sockaddr sk_addr; socklen_t addr_size; i][f (0 > accept4(0, &sk_addr, &addr_size, 0)) return 3; ]] ) MHD_CHECK_FUNC([gmtime_r], [[ #if defined(HAVE_SYS_TYPES_H) # include #endif #include ]], [[ time_t timer = (time_t) 0; struct tm res; i][f (&res != gmtime_r(&timer, &res)) return 3; ]] ) MHD_CHECK_FUNC([memmem], [[ #if defined(HAVE_STDDEF_H) # include #elif defined(HAVE_STDLIB_H) # include #endif /* HAVE_STDLIB_H */ #include ]], [[ const char *haystack = "abc"; size_t hslen = 3; const char *needle = "b"; size_t needlelen = 1; i][f ((haystack + 1) != memmem(haystack, hslen, needle, needlelen)) return 3; ]] ) MHD_CHECK_FUNC([snprintf], [[ #include ]], [[ char buf[2]; i][f (1 != snprintf(buf, 2, "a")) return 3; /* Do not use the next check to avoid compiler warning */ /* i][f (4 != snprintf(buf, 2, "abcd")) return 4; */ ]] ) AC_CHECK_DECL([gmtime_s], [ AC_MSG_CHECKING([[whether gmtime_s is in C11 form]]) AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #define __STDC_WANT_LIB_EXT1__ 1 #include #ifdef __cplusplus extern "C" #endif struct tm* gmtime_s(const time_t* time, struct tm* result); ]], [[ struct tm res; time_t t; gmtime_s (&t, &res); ]]) ], [ AC_DEFINE([HAVE_C11_GMTIME_S], [1], [Define to 1 if you have the `gmtime_s' function in C11 form.]) AC_MSG_RESULT([[yes]]) ], [ AC_MSG_RESULT([[no]]) AC_MSG_CHECKING([[whether gmtime_s is in W32 form]]) AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #include #ifdef __cplusplus extern "C" #endif errno_t gmtime_s(struct tm* _tm, const time_t* time); ]], [[ struct tm res; time_t t; gmtime_s (&res, &t); ]]) ], [ AC_DEFINE([HAVE_W32_GMTIME_S], [1], [Define to 1 if you have the `gmtime_s' function in W32 form.]) AC_MSG_RESULT([[yes]]) ], [AC_MSG_RESULT([[no]]) ]) ]) ], [], [[#define __STDC_WANT_LIB_EXT1__ 1 #include ]]) AC_CHECK_DECL([SOCK_NONBLOCK], [AC_DEFINE([HAVE_SOCK_NONBLOCK], [1], [SOCK_NONBLOCK is defined in a socket header])], [], [[ #if defined(HAVE_SYS_TYPES_H) # include #endif #if defined(HAVE_SYS_SOCKET_H) # include #elif defined(HAVE_WINSOCK2_H) # include #endif ]] ) MHD_FIND_LIB([clock_gettime],[[#include ]], [[ struct timespec tp; i][f (0 > clock_gettime(CLOCK_REALTIME, &tp)) return 3; ]], [rt], [ AC_DEFINE([HAVE_CLOCK_GETTIME], [1], [Define to '1' if you have clock_gettime() function]) AS_VAR_IF([[mhd_cv_find_lib_clock_gettime]],[["none required"]], [], [ MHD_LIBDEPS_PKGCFG="${mhd_cv_find_lib_clock_gettime} $MHD_LIBDEPS_PKGCFG" ] ) ],[], [MHD_LIBDEPS] ) MHD_CHECK_FUNC([clock_get_time], [[ #include #include ]], [[ clock_serv_t cs; mach_timespec_t mt; host_get_clock_service(mach_host_self(), SYSTEM_CLOCK, &cs); clock_get_time(cs, &mt); mach_port_deallocate(mach_task_self(), cs); ]] ) MHD_CHECK_FUNC([gethrtime], [[ #ifdef HAVE_SYS_TIME_H /* Solaris define gethrtime() in sys/time.h */ #include #endif /* HAVE_SYS_TIME_H */ #ifdef HAVE_TIME_H /* HP-UX define gethrtime() in time.h */ #include #endif /* HAVE_TIME_H */ ]], [[ hrtime_t hrt = gethrtime(); i][f (0 == hrt) return 3; ]] ) AS_VAR_IF([ac_cv_header_time_h], ["yes"], [ MHD_CHECK_FUNC([timespec_get], [[ #include #ifndef TIME_UTC #error TIME_UTC must be defined to use timespec_get() choke me now #endif ]], [[ struct timespec ts; i][f (TIME_UTC != timespec_get (&ts, TIME_UTC)) return 3; ]] ) ] ) MHD_CHECK_FUNC([[gettimeofday]], [[ #ifdef HAVE_SYS_TIME_H #include #endif /* HAVE_SYS_TIME_H */ #ifdef HAVE_TIME_H #include #endif /* HAVE_TIME_H */ ]], [[ struct timeval tv; i][f (0 != gettimeofday (&tv, (void*) 0)) return 1; ]] ) # IPv6 AC_CACHE_CHECK([for IPv6],[mhd_cv_have_inet6], [ AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #include #ifdef HAVE_NETINET_IN_H #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif #ifdef HAVE_WINSOCK2_H #include #endif #ifdef HAVE_WS2TCPIP_H #include #endif ]], [[ int af=AF_INET6; int pf=PF_INET6; struct sockaddr_in6 sa; printf("%d %d %p\n", af, pf, (void*) &sa); ]] ) ], [AS_VAR_SET([mhd_cv_have_inet6],["yes"])], [AS_VAR_SET([mhd_cv_have_inet6],["no"])] ) ] ) AS_VAR_IF([mhd_cv_have_inet6],["yes"], [AC_DEFINE([HAVE_INET6], [1], [Define to '1' if you have IPv6 headers])] ) MHD_CHECK_FUNC([[sysconf]], [[#include ]], [[long a = sysconf(0); if (a) return 1;]]) MHD_CHECK_FUNC([[sysctl]], [[ #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_SYSCTL_H #include #endif #ifdef HAVE_STDDEF_H #include #endif ]], [[int mib[2] = {CTL_KERN, KERN_MAXPROC}; i][f (sysctl(mib, 2, NULL, NULL, NULL, 0)) return 1;]] ) MHD_CHECK_FUNC([[sysctlbyname]], [[ #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_SYSCTL_H #include #endif #ifdef HAVE_STDDEF_H #include #endif ]], [[sysctlbyname("test", NULL, NULL, NULL, 0);]] ) MHD_CHECK_FUNC([[usleep]], [[#include ]], [[usleep(100000);]]) MHD_CHECK_FUNC([[nanosleep]], [[#include ]], [[struct timespec ts2, ts1 = {0, 0}; nanosleep(&ts1, &ts2);]]) HIDDEN_VISIBILITY_CFLAGS="" AH_TEMPLATE([_MHD_EXTERN],[defines how to decorate public symbols w][hile building the library]) CFLAGS="${user_CFLAGS}" MHD_CHECK_CC_CFLAG([-fvisibility=hidden],[CFLAGS_ac], [ # NOTE: require setting of errattr_CFLAGS above CFLAGS="${CFLAGS_ac} -fvisibility=hidden ${user_CFLAGS} ${errattr_CFLAGS}" AC_CACHE_CHECK([whether $CC supports __attribute__((visibility("default")))],[mhd_cv_cc_attr_visibility], [ AC_COMPILE_IFELSE([AC_LANG_SOURCE([[ extern __attribute__((visibility("default"))) int test_extrn_func(void); int test_extrn_func(void) {return 0;} ]]) ], [mhd_cv_cc_attr_visibility="yes"],[mhd_cv_cc_attr_visibility="no"] ) ] ) AS_VAR_IF([mhd_cv_cc_attr_visibility],["yes"], [ HIDDEN_VISIBILITY_CFLAGS="-fvisibility=hidden" AS_IF([test "x$os_is_native_w32" = "xyes" && test "x$enable_shared" = "xyes"], [AC_DEFINE([_MHD_EXTERN], [__attribute__((visibility("default"))) __declspec(dllexport) extern])], [AC_DEFINE([_MHD_EXTERN], [__attribute__((visibility("default"))) extern])] ) ], [ AC_MSG_WARN([$CC supports -fvisibility, but does not support __attribute__((visibility("default"))). Check compiler and compiler flags.]) AC_DEFINE([_MHD_EXTERN], [extern]) ] ) ],[AC_DEFINE([_MHD_EXTERN], [extern])] ) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" AC_SUBST([HIDDEN_VISIBILITY_CFLAGS]) # libcurl (required for testing) AC_ARG_ENABLE([curl], [AS_HELP_STRING([--disable-curl],[disable cURL based testcases])], [enable_curl=${enableval}]) curl=0 AS_IF([test "$enable_curl" != "no"], [LIBCURL_CHECK_CONFIG([yes],[7.16.4],[enable_curl=yes], [ AS_IF([test "x$enable_curl" = "xyes"], [AC_MSG_WARN([[cURL-based tests cannot be enabled because libcurl is missing]])]) enable_curl=no ]) ]) AM_CONDITIONAL([RUN_LIBCURL_TESTS], [test "x$enable_curl" = "xyes"]) AS_IF([test "x$enable_curl" = "xyes"], [MSG_CURL="yes"], [MSG_CURL="no, many unit tests will not run"] ) MHD_CHECK_FUNC([magic_open], [[ #include ]], [[ char var_data[256]; const char *var_mime; magic_t var_magic = magic_open (MAGIC_MIME_TYPE); (void)magic_load (var_magic, NULL); var_data[0] = 0; var_mime = magic_buffer (var_magic, var_data, 1); magic_close (var_magic); ]], [AC_DEFINE([MHD_HAVE_LIBMAGIC], [1], [Define to 1 if you have suitable libmagic.])], [], [-lmagic] ) AM_CONDITIONAL([MHD_HAVE_LIBMAGIC], [[test "x$mhd_cv_func_magic_open" = "xyes"]]) # large file support (> 4 GB) AC_SYS_LARGEFILE AC_FUNC_FSEEKO MHD_CHECK_FUNC([lseek64], [[ #if defined(HAVE_SYS_TYPES_H) # include #endif #include ]], [[ i][f (((off64_t) -1) == lseek64(0, (off64_t) 0, SEEK_SET)) return 3; ]] ) MHD_CHECK_FUNC([pread64], [[ #if defined(HAVE_SYS_TYPES_H) # include #endif #include ]], [[ char buf[5]; i][f (0 > pread64(0, (void *) buf, 1, (off64_t) 0)) return 3; ]] ) MHD_CHECK_FUNC([pread], [[ #if defined(HAVE_SYS_TYPES_H) # include #endif #include ]], [[ char buf[5]; i][f (0 > pread(0, (void *) buf, 1, 0)) return 3; ]] ) # check for various sendfile functions AC_ARG_ENABLE([sendfile], [AS_HELP_STRING([--disable-sendfile], [disable usage of sendfile() for HTTP connections [auto]])], [], [enable_sendfile="auto"]) AS_CASE([$enable_sendfile], [[auto | yes]],[[found_sendfile="no"]], [[no]],[[found_sendfile="disabled"]], [AC_MSG_ERROR([[unknown value specified: --enable-sendfile=$enable_sendfile]])] ) AS_VAR_IF([[found_sendfile]], [["no"]], [ AC_MSG_CHECKING([[for Linux-style sendfile(2)]]) AC_LINK_IFELSE( [AC_LANG_PROGRAM( [[ #include static void empty_func(void) { /* Check for declaration */ (void)sendfile; } /* Declare again to check form match */ ssize_t sendfile(int, int, off_t*, size_t); ]], [[ int fd1=0, fd2=2; off_t o = 0; size_t s = 5; ssize_t r; r = sendfile (fd1, fd2, &o, s); if (r) empty_func(); ]] ) ], [ AC_DEFINE([HAVE_LINUX_SENDFILE], [1], [Define to 1 if you have linux-style sendfile(2).]) found_sendfile="yes, Linux-style" AC_MSG_RESULT([[yes]]) MHD_CHECK_FUNC([sendfile64], [[ #include ]], [[ off64_t f_offset = (off64_t) 0; if (0 > sendfile64 (0, 1, &f_offset, 1)) return 3; ]] ) ], [AC_MSG_RESULT([[no]]) ] ) ] ) AS_VAR_IF([[found_sendfile]], [["no"]], [ AC_MSG_CHECKING([[for FreeBSD-style sendfile(2)]]) AC_LINK_IFELSE( [AC_LANG_PROGRAM( [[ #include #include #include static void empty_func(void) { /* Check for declaration */ (void)sendfile; } /* Declare again to check form match */ int sendfile(int, int, off_t, size_t, struct sf_hdtr*, off_t*, int); ]], [[ int fd1=0, fd2=1; off_t o = 0; size_t s = 5; off_t r1; int r2; r2 = sendfile (fd1, fd2, o, s, (void*)0, &r1, 0); if (r2) empty_func(); ]] ) ], [ AC_DEFINE([HAVE_FREEBSD_SENDFILE], [1], [Define to 1 if you have FreeBSD-style sendfile(2).]) found_sendfile="yes, FreeBSD-style" AC_MSG_RESULT([[yes]]) ], [AC_MSG_RESULT([[no]]) ] ) ] ) AS_VAR_IF([[found_sendfile]], [["no"]], [ AC_MSG_CHECKING([[for Darwin-style sendfile(2)]]) AC_LINK_IFELSE( [AC_LANG_PROGRAM( [[ #include #include #include static void empty_func(void) { /* Check for declaration */ (void)sendfile; } /* Declare again to check form match */ int sendfile(int, int, off_t, off_t*, struct sf_hdtr *, int); ]], [[ int fd=0, s=1; off_t o = 0; off_t l = 5; int r; r = sendfile (fd, s, o, &l, (void*)0, 0); if (r) empty_func(); ]] ) ], [ AC_DEFINE([HAVE_DARWIN_SENDFILE], [1], [Define to 1 if you have Darwin-style sendfile(2).]) found_sendfile="yes, Darwin-style" AC_MSG_RESULT([[yes]]) ], [AC_MSG_RESULT([[no]]) ] ) ] ) AS_VAR_IF([[found_sendfile]], [["no"]], [ AC_MSG_CHECKING([[for Solaris-style sendfile(3)]]) SAVE_LIBS="$LIBS" LIBS="-lsendfile $LIBS" AC_LINK_IFELSE( [AC_LANG_PROGRAM( [[ #include #include #include static void empty_func(void) { /* Check for declaration */ (void)sendfile; } /* Declare again to check form match */ ssize_t sendfile(int out_fd, int in_fd, off_t *off, size_t len); ]], [[ int fd1=0, fd2=1; off_t o = 0; size_t l = 5; ssize_t r; r = sendfile (fd1, fd2, &o, l); if (r) empty_func(); ]] ) ], [ AC_DEFINE([HAVE_SOLARIS_SENDFILE], [1], [Define to 1 if you have Solaris-style sendfile(3).]) found_sendfile="yes, Solaris-style" MHD_LIBDEPS="-lsendfile $MHD_LIBDEPS" MHD_LIBDEPS_PKGCFG="-lsendfile $MHD_LIBDEPS_PKGCFG" AC_MSG_RESULT([[yes]]) MHD_CHECK_FUNC([sendfile64], [[ #include #include #include ]], [[ off64_t f_offset = (off64_t) 0; if (0 > sendfile64 (0, 1, &f_offset, 1)) return 3; ]] ) ], [AC_MSG_RESULT([[no]]) ] ) LIBS="$SAVE_LIBS" ] ) AS_IF([[test "x$found_sendfile" = "xno" && test "x$enable_sendfile" = "xyes"]], [AC_MSG_ERROR([[sendfile() usage was requested by configure parameter, but no usable sendfile() function is detected]])] ) # optional: have error messages ? AC_MSG_CHECKING([[whether to generate error messages]]) AC_ARG_ENABLE([messages], [AS_HELP_STRING([--disable-messages], [disable MHD error messages])], [enable_messages=${enableval}], [enable_messages=yes]) AS_IF([[test "x$enable_messages" = "xyes"]], [ AC_DEFINE([HAVE_MESSAGES],[1],[Define to 1 to enable support for error messages.]) ], [[ enable_messages=no ]]) AC_MSG_RESULT([[$enable_messages]]) # optional: have postprocessor? AC_MSG_CHECKING([[whether to enable postprocessor]]) AC_ARG_ENABLE([postprocessor], [AS_HELP_STRING([--disable-postprocessor], [disable MHD PostProcessor functionality])], [enable_postprocessor=${enableval}], [enable_postprocessor=yes]) AS_IF([[test "x$enable_postprocessor" != "xno"]], [ enable_postprocessor=yes AC_DEFINE([HAVE_POSTPROCESSOR],[1],[Define to 1 if libmicrohttpd is compiled with postprocessor support.]) ]) AM_CONDITIONAL([HAVE_POSTPROCESSOR], [test "x$enable_postprocessor" != "xno"]) AC_MSG_RESULT([[$enable_postprocessor]]) # optional: have zzuf, socat? run_zzuf_tests="no" AS_VAR_IF([use_heavy_tests],["yes"], [ AS_VAR_IF([enable_curl],["yes"], [ AC_CHECK_PROG([have_zzuf],[zzuf],[yes],[no]) AS_VAR_IF([have_zzuf],["yes"], [ AC_CHECK_PROG([have_socat],[socat],[yes],[no]) AS_VAR_IF([have_socat],["yes"], [ run_zzuf_tests="yes" run_zzuf_tests_MSG="yes" ], [ run_zzuf_tests="no" run_zzuf_tests_MSG="no, socat tool not found" ] ) ], [ run_zzuf_tests="no" run_zzuf_tests_MSG="no, zzuf tool not found" ] ) ], [ run_zzuf_tests="no" run_zzuf_tests_MSG="no, tests with libcurl are not enabled" ] ) ], [ run_zzuf_tests="no" run_zzuf_tests_MSG="no, heavy tests are not enabled" ] ) AM_CONDITIONAL([RUN_ZZUF_TESTS],[test "x$run_zzuf_tests" = "xyes"]) have_gnutls=no have_gnutls_sni=no have_gcrypt=no AS_UNSET([GNUTLS_CPPFLAGS]) AS_UNSET([GNUTLS_LDFLAGS]) # optional: HTTPS support. Enabled by default AC_ARG_ENABLE([https], [AS_HELP_STRING([--enable-https], [enable HTTPS support (yes, no, auto)[auto]])], [enable_https=${enableval}]) AS_IF([test "x$enable_https" != "xno"],[ # # Next block is large unindented block # # gnutls have_gnutls_pkgcfg=no AC_MSG_CHECKING([[how to find GnuTLS library]]) AC_ARG_WITH([[gnutls]], [AS_HELP_STRING([[--with-gnutls[=PFX]]],[use GnuTLS for HTTPS support, optional PFX overrides pkg-config data for GnuTLS headers (PFX/include) and libs (PFX/lib)])], [ AS_CASE([$with_gnutls], [no],[ AC_MSG_RESULT([[GnuTLS disabled]]) AS_UNSET([GNUTLS_CPPFLAGS]) AS_UNSET([GNUTLS_CFLAGS]) AS_UNSET([GNUTLS_LDFLAGS]) AS_UNSET([GNUTLS_LIBS]) ], [yes],[ AC_MSG_RESULT([[automatically, forced]]) ], [ AC_MSG_RESULT([[-I$with_gnutls/include -L$with_gnutls/lib -lgnutls]]) SAVE_LIBS="$LIBS" LDFLAGS="${LDFLAGS_ac} -L$with_gnutls/lib ${user_LDFLAGS}" CPPFLAGS="${CPPFLAGS_ac} -I$with_gnutls/include ${user_CPPFLAGS}" have_gnutls_pkgcfg=no MHD_CHECK_FUNC([gnutls_check_version],[[#include ]], [ if(!gnutls_check_version("2.0.0")) return 3; ], [ GNUTLS_CPPFLAGS="-I$with_gnutls/include" GNUTLS_LDFLAGS="-L$with_gnutls/lib" GNUTLS_LIBS="-lgnutls" have_gnutls=yes ], [AC_MSG_ERROR([can't find usable libgnutls at specified prefix $with_gnutls])], [-lgnutls] ) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" LIBS="$SAVE_LIBS" ]) ], [AC_MSG_RESULT([[automatically]]) ]) AS_IF([test "x$with_gnutls" != "xno" && test "x$have_gnutls" != "xyes"], [ AC_CACHE_CHECK([[whether to add pkg-config special search directories]], [mhd_cv_pkgconf_add_dirs], [ AS_IF([[test "x$host_os" = "xsolaris2.11" && test "x$cross_compiling" = "xno"]], [ AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ char size_chk[7-sizeof(char*)]; #if defined(_LP64) || defined(__LP64__) || defined(__x86_64) || defined(__x86_64__) #error This is 64-bit target. choke me now #endif #if defined(__amd64) || defined(__amd64__) || defined(__sparcv9) || defined(__sparc_v9__) #error This is 64-bit target. choke me now #endif ]], [[]] ) ], [ mhd_cv_pkgconf_add_dirs='/usr/lib/pkgconfig/gnutls-3' ], [ AS_IF([[test "x$host_cpu" = "xx86_64" || test "x$host_cpu" = "xi386"]], [[mhd_cv_pkgconf_add_dirs='/usr/lib/amd64/pkgconfig/gnutls-3:/usr/lib/amd64/pkgconfig']], [[test "x$host_cpu" = "xsparc"]], [[mhd_cv_pkgconf_add_dirs='/usr/lib/sparkv9/pkgconfig/gnutls-3:/usr/lib/sparkv9/pkgconfig']], [[mhd_cv_pkgconf_add_dirs='/usr/lib/64/pkgconfig/gnutls-3:/usr/lib/64/pkgconfig']] ) ] ) ], [[ mhd_cv_pkgconf_add_dirs='no' ]] ) ] ) AS_IF([[test "x$mhd_cv_pkgconf_add_dirs" != "xno"]], [ test "x$PKG_CONFIG_PATH" = "x" || PKG_CONFIG_PATH="${PKG_CONFIG_PATH}${PATH_SEPARATOR}" PKG_CONFIG_PATH="${PKG_CONFIG_PATH}${mhd_cv_pkgconf_add_dirs}" export PKG_CONFIG_PATH ] ) PKG_CHECK_MODULES(GNUTLS, [[gnutls]], [ have_gnutls_pkgcfg='yes' SAVE_LIBS="$LIBS" CFLAGS="${CFLAGS_ac} $GNUTLS_CFLAGS ${user_CFLAGS}" LIBS="$GNUTLS_LIBS $LIBS" AC_MSG_CHECKING([[whether GnuTLS is usable]]) AC_LINK_IFELSE([ AC_LANG_PROGRAM([[ #include ]], [[ gnutls_session_t session; gnutls_priority_t priorities; gnutls_global_init(); gnutls_priority_init(&priorities, "NORMAL", NULL); gnutls_init(&session, GNUTLS_SERVER); gnutls_priority_set(session, priorities); ]])], [ AC_MSG_RESULT([[yes]]) have_gnutls=yes # GNUTLS_CFLAGS is actually CPPFLAGS GNUTLS_CPPFLAGS="$GNUTLS_CFLAGS" # GNUTLS_LDFLAGS is a combination of LDFLAGS and LIBS GNUTLS_LDFLAGS="$GNUTLS_LIBS" ], [ AC_MSG_RESULT([[no]]) have_gnutls=no ]) AS_IF([test "x$have_gnutls" != "xyes"], [ AC_MSG_WARN([pkg-config reports that GnuTLS is present, but GnuTLS can't be used]) AS_UNSET([GNUTLS_CPPFLAGS]) AS_UNSET([GNUTLS_CFLAGS]) AS_UNSET([GNUTLS_LDFLAGS]) AS_UNSET([GNUTLS_LIBS]) ] ) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" LIBS="$SAVE_LIBS" ], [ # check for GnuTLS at default paths have_gnutls_pkgcfg='no' AC_CHECK_HEADERS([gnutls/gnutls.h], [AC_CHECK_LIB([gnutls], [gnutls_priority_set], [ GNUTLS_LIBS="-lgnutls" have_gnutls=yes ])], [], [AC_INCLUDES_DEFAULT]) ]) ]) have_gcrypt='unknown' AS_IF([test "x$with_gnutls" != "xno" && test "x$have_gnutls" != "xyes"], [ AM_PATH_LIBGCRYPT([1.2.2], [have_gcrypt=yes], [have_gcrypt=no]) AS_IF([[test "x$have_gcrypt" = "xyes"]], [ SAVE_LIBS="$LIBS" CFLAGS="${CFLAGS_ac} $LIBGCRYPT_CFLAGS ${user_CFLAGS}" # LIBGCRYPT_CFLAGS can be actually a CPPFLAGS, so check them both CPPFLAGS="${CPPFLAGS_ac} $LIBGCRYPT_CFLAGS ${user_CPPFLAGS}" AC_CHECK_HEADERS([gcrypt.h], [], [have_gcrypt=no], [AC_INCLUDES_DEFAULT]) # Check for GnuTLS with gcrypt flags LDFLAGS="${LDFLAGS_ac} ${LIBGCRYPT_LIBS} ${user_LDFLAGS}" # A bit of hack: unset cache variable to force recheck AS_UNSET([ac_cv_header_gnutls_gnutls_h]) AC_CHECK_HEADERS([gnutls/gnutls.h], [AS_UNSET([ac_cv_lib_gnutls_gnutls_priority_set]) # A bit of hack: unset cache variable to force recheck AC_CHECK_LIB([gnutls], [gnutls_priority_set], [ GNUTLS_CPPFLAGS="$LIBGCRYPT_CFLAGS" GNUTLS_CFLAGS="$LIBGCRYPT_CFLAGS" GNUTLS_LDFLAGS="$LIBGCRYPT_LIBS" GNUTLS_LIBS="-lgnutls" have_gnutls=yes ])], [], [AC_INCLUDES_DEFAULT]) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" LIBS="$SAVE_LIBS" ] ) ] ) AS_IF([test "x$have_gnutls" != "xyes" && test "x$with_gnutls" = "xyes"], [AC_MSG_ERROR([[can't find usable libgnutls]])]) AS_IF([test "x$have_gnutls" = "xyes"], [ SAVE_LIBS="$LIBS" CPPFLAGS="${CPPFLAGS_ac} ${GNUTLS_CPPFLAGS} ${user_CPPFLAGS}" CFLAGS="${CFLAGS_ac} ${GNUTLS_CFLAGS} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${GNUTLS_LDFLAGS} ${user_LDFLAGS}" LIBS="$GNUTLS_LIBS $LIBS" AC_MSG_CHECKING([[for gnutls_privkey_import_x509_raw()]]) AC_LINK_IFELSE([ AC_LANG_PROGRAM([[ #include #include ]], [[ gnutls_datum_t data; gnutls_privkey_t key = 0; #ifndef gnutls_load_file (void)gnutls_load_file; /* Check for declaration. */ #endif #ifndef gnutls_privkey_import_x509_raw (void)gnutls_privkey_import_x509_raw; /* Check for declaration. */ #endif gnutls_load_file("key.pem", &data); gnutls_privkey_import_x509_raw(key, &data, GNUTLS_X509_FMT_PEM, NULL, 0); gnutls_free(data.data); ]])], [[have_gnutls_sni=yes]], [[have_gnutls_sni=no]]) AC_MSG_RESULT([[$have_gnutls_sni]]) AC_CACHE_CHECK([[whether GnuTLS require libgcrypt initialisation]], [mhd_cv_gcrypt_required], [ AC_COMPILE_IFELSE( [ AC_LANG_PROGRAM( [ #include ], [ #if !defined(GNUTLS_VERSION_NUMBER) || GNUTLS_VERSION_NUMBER+0 <= 0x020c14 #error Old versions of GnuTLS require libgcript initialisation choke me now #endif ] ) ], [[mhd_cv_gcrypt_required='no']], [[mhd_cv_gcrypt_required='yes']] ) ] ) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" LIBS="$SAVE_LIBS" ], [ AS_UNSET([GNUTLS_CPPFLAGS]) AS_UNSET([GNUTLS_LDFLAGS]) ] ) AS_IF([[test "x$mhd_cv_gcrypt_required" = "xyes" && test "x$have_gcrypt" = "xunknown"]], [ AM_PATH_LIBGCRYPT([1.2.2], [have_gcrypt=yes], [have_gcrypt=no]) AS_IF([[test "x$have_gcrypt" = "xyes"]], [ CFLAGS="${CFLAGS_ac} ${LIBGCRYPT_CFLAGS} ${user_CFLAGS}" # LIBGCRYPT_CFLAGS can be actually a CPPFLAGS, so check them both CPPFLAGS="${CPPFLAGS_ac} ${LIBGCRYPT_CFLAGS} ${user_CPPFLAGS}" AC_CHECK_HEADERS([gcrypt.h], [], [have_gcrypt=no], [AC_INCLUDES_DEFAULT]) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" ] ) ] ) AS_UNSET([[crypt_missing]]) AS_IF([[test "x$have_gnutls" = "xyes"]], [ AS_IF([[test "x$mhd_cv_gcrypt_required" = "xyes" && test "x$have_gcrypt" != "xyes"]], [ crypt_missing="required libgcrypt" AS_IF([[test "x$enable_https" = "xyes" ]], [AC_MSG_ERROR([[HTTPS support cannot be enabled without $crypt_missing.]])]) enable_https=no MSG_HTTPS="no (lacking $crypt_missing)" AS_UNSET([LIBGCRYPT_CFLAGS]) AS_UNSET([LIBGCRYPT_LIBS]) AS_UNSET([GNUTLS_CPPFLAGS]) AS_UNSET([GNUTLS_CFLAGS]) AS_UNSET([GNUTLS_LDFLAGS]) AS_UNSET([GNUTLS_LIBS]) ], [ AC_DEFINE([[HTTPS_SUPPORT]],[[1]],[Define to 1 if libmicrohttpd is compiled with HTTPS support.]) enable_https=yes AS_IF([[test "x$mhd_cv_gcrypt_required" = "xyes"]], [ MSG_HTTPS="yes (using libgnutls and libgcrypt)" MHD_TLS_LIB_CPPFLAGS="$LIBGCRYPT_CFLAGS $GNUTLS_CPPFLAGS" MHD_TLS_LIB_CFLAGS="$LIBGCRYPT_CFLAGS $GNUTLS_CFLAGS" MHD_TLS_LIB_LDFLAGS="$GNUTLS_LDFLAGS" MHD_TLS_LIBDEPS="$GNUTLS_LIBS $LIBGCRYPT_LIBS" AC_DEFINE([[MHD_HTTPS_REQUIRE_GCRYPT]], [[1]], [Define to `1' if HTTPS require initialisation of libgcrypt]) ], [ MSG_HTTPS="yes (using libgnutls)" AS_UNSET([LIBGCRYPT_CFLAGS]) AS_UNSET([LIBGCRYPT_LIBS]) MHD_TLS_LIB_CPPFLAGS="$GNUTLS_CPPFLAGS" MHD_TLS_LIB_CFLAGS="$GNUTLS_CFLAGS" MHD_TLS_LIB_LDFLAGS="$GNUTLS_LDFLAGS" MHD_TLS_LIBDEPS="$GNUTLS_LIBS" ] ) AS_IF([[ test "x$have_gnutls_pkgcfg" = "xyes" ]], [ # remove GnuTLS from private libs in .pc file as it defined in Requires.private MHD_REQ_PRIVATE='gnutls' AS_IF([[test "x$mhd_cv_gcrypt_required" = "xyes"]], [[MHD_LIBDEPS_PKGCFG="$LIBGCRYPT_LIBS $MHD_LIBDEPS_PKGCFG"]] ) ], [ MHD_REQ_PRIVATE='' AS_IF([[test "x$mhd_cv_gcrypt_required" = "xyes"]], [[MHD_LIBDEPS_PKGCFG="$LIBGCRYPT_LIBS $MHD_LIBDEPS_PKGCFG"]] ) MHD_LIBDEPS_PKGCFG="$GNUTLS_LIBS $MHD_LIBDEPS_PKGCFG" ]) ] ) ], [ crypt_missing="libgnutls" AS_IF([[test "x$enable_https" = "xyes" ]], [AC_MSG_ERROR([[HTTPS support cannot be enabled without $crypt_missing.]])]) enable_https=no MSG_HTTPS="no (lacking $crypt_missing)" AS_UNSET([LIBGCRYPT_CFLAGS]) AS_UNSET([LIBGCRYPT_LIBS]) AS_UNSET([GNUTLS_CPPFLAGS]) AS_UNSET([GNUTLS_CFLAGS]) AS_UNSET([GNUTLS_LDFLAGS]) AS_UNSET([GNUTLS_LIBS]) ] ) ],[ MSG_HTTPS="no (disabled)" ]) # # End of large unindented block # AC_MSG_CHECKING(whether to support HTTPS) AC_MSG_RESULT([$MSG_HTTPS]) AM_CONDITIONAL([HAVE_GNUTLS], [[test "x$have_gnutls" = "xyes"]]) AM_CONDITIONAL([HAVE_GNUTLS_SNI], [[test "x$have_gnutls_sni" = "xyes"]]) AM_CONDITIONAL([ENABLE_HTTPS], [test "x$enable_https" = "xyes"]) AM_CONDITIONAL([HTTPS_REQUIRE_GCRYPT], [[test "x$enable_https" = "xyes" && test "x$mhd_cv_gcrypt_required" = "xyes"]]) AC_SUBST([GNUTLS_CPPFLAGS]) AC_SUBST([GNUTLS_CFLAGS]) AC_SUBST([GNUTLS_LDFLAGS]) AC_SUBST([GNUTLS_LIBS]) AS_VAR_IF([have_gnutls], ["yes"], [ AC_CACHE_CHECK([for GnuTLS quirks], [mhd_cv_gnutls_mthread_broken], [ mhd_cv_gnutls_mthread_broken="no" AS_IF([test -r /etc/redhat-release], [ AS_IF([$FGREP ' release 6.' /etc/redhat-release >/dev/null || $FGREP '(Santiago)' /etc/redhat-release >/dev/null], [mhd_cv_gnutls_mthread_broken="found"], ) ] ) AS_VAR_IF([mhd_cv_gnutls_mthread_broken], ["no"], [ AS_IF([command -v rpm >/dev/null], [ AS_IF([test "r`rpm -E '%{rhel}' 2>/dev/null`" = "r6"], [mhd_cv_gnutls_mthread_broken="found"], ) ] ) ] ) ] ) AC_CACHE_CHECK([for gnutls-cli binary], [mhd_cv_gnutls_cli], [ mhd_cv_gnutls_cli="no" AS_IF([command -v gnutls-cli >/dev/null 2>&1], [AS_IF([AC_RUN_LOG([gnutls-cli --version >&2])], [mhd_cv_gnutls_cli="yes"])] ) ] ) ] ) AM_CONDITIONAL([HAVE_GNUTLS_MTHREAD_BROKEN], [[test "x${mhd_cv_gnutls_mthread_broken}" = "xfound"]]) AM_CONDITIONAL([USE_UPGRADE_TLS_TESTS], [[test "x${mhd_cv_gnutls_mthread_broken}" = "xno" || test "x${mhd_cv_gnutls_cli}" = "xyes"]]) # optional: HTTP Basic Auth support. Enabled by default AC_MSG_CHECKING([[whether to support HTTP Basic authentication]]) AC_ARG_ENABLE([bauth], [AS_HELP_STRING([--disable-bauth],[disable HTTP Basic Authentication support])], [enable_bauth=${enableval}], [enable_bauth=yes]) AS_IF([[test "x$enable_bauth" != "xno"]], [ enable_bauth=yes AC_DEFINE([BAUTH_SUPPORT],[1],[Define to 1 if libmicrohttpd is compiled with Basic Auth support.]) ]) AM_CONDITIONAL([ENABLE_BAUTH], [test "x$enable_bauth" != "xno"]) AC_MSG_RESULT([[$enable_bauth]]) # optional: HTTP Digest Auth support. Enabled by default AC_MSG_CHECKING([[whether to support HTTP Digest authentication]]) AC_ARG_ENABLE([dauth], [AS_HELP_STRING([--disable-dauth], [disable HTTP Digest Authentication support])], [enable_dauth="${enableval}"], [enable_dauth="yes"]) AS_IF([[test "x$enable_dauth" != "xno"]], [ enable_dauth=yes AC_DEFINE([DAUTH_SUPPORT],[1],[Define to 1 if libmicrohttpd is compiled with Digest Auth support.]) ]) AM_CONDITIONAL([ENABLE_DAUTH], [test "x$enable_dauth" != "xno"]) AC_MSG_RESULT([[$enable_dauth]]) AM_CONDITIONAL([HAVE_ANYAUTH],[test "x$enable_bauth" != "xno" || test "x$enable_dauth" != "xno"]) # optional: HTTP "Upgrade" support. Enabled by default AC_MSG_CHECKING([[whether to support HTTP "Upgrade"]]) AC_ARG_ENABLE([[httpupgrade]], [AS_HELP_STRING([[--disable-httpupgrade]], [disable HTTP "Upgrade" support])], [AS_VAR_IF([[enable_httpupgrade]],[["no"]],[],[[enable_httpupgrade='yes']])], [[enable_httpupgrade='yes']]) AS_VAR_IF([[enable_httpupgrade]],[["yes"]], [ AC_DEFINE([[UPGRADE_SUPPORT]],[[1]],[Define to 1 if libmicrohttpd is compiled with HTTP Upgrade support.]) ]) AM_CONDITIONAL([ENABLE_UPGRADE], [[test "x$enable_httpupgrade" = "xyes"]]) AC_MSG_RESULT([[$enable_httpupgrade]]) # optional: HTTP cookie parsing support. Enabled by default AC_MSG_CHECKING([[whether to support HTTP cookie parsing]]) AC_ARG_ENABLE([[cookie]], [AS_HELP_STRING([[--disable-cookie]], [disable HTTP cookie parsing support])], [AS_VAR_IF([[enable_cookie]],[["no"]],[],[[enable_cookie='yes']])], [[enable_cookie='yes']]) AS_VAR_IF([[enable_cookie]],[["yes"]], [ AC_DEFINE([[COOKIE_SUPPORT]],[[1]],[Define to 1 if libmicrohttpd is compiled with HTTP cookie parsing support.]) ]) AM_CONDITIONAL([ENABLE_COOKIE], [[test "x$enable_cookie" = "xyes"]]) AC_MSG_RESULT([[$enable_cookie]]) # optional: MD5 support for Digest Auth. Enabled by default. AC_ARG_ENABLE([[md5]], [AS_HELP_STRING([[--enable-md5=TYPE]], [enable TYPE of MD5 hashing code (yes, no, builtin, tlslib) [yes if dauth enabled]])], [ AS_VAR_IF([enable_md5],["internal"],[enable_md5='builtin']) AS_VAR_IF([enable_md5],["built-in"],[enable_md5='builtin']) AS_VAR_IF([enable_dauth],["yes"],[], [ AS_VAR_IF([enable_md5],["no"],[], [ AC_MSG_WARN([The parameter --enable-md5=${enable_md5} is ignored as Digest Authentication is disabled]) enable_md5='no' ] ) ] ) ], [[enable_md5="${enable_dauth}"]] ) AS_CASE([${enable_md5}],[yes|tlslib], [ AS_IF([test "x${enable_compact_code}" != "xno" || test "x$enable_md5" = "xtlslib"], [ AS_IF([test "x$enable_https" = "xyes"], [ AC_CACHE_CHECK([whether GnuTLS supports MD5 hashing],[mhd_cv_gnutls_md5], [ CFLAGS="${CFLAGS_ac} ${GNUTLS_CFLAGS} ${user_CFLAGS}" CPPFLAGS="${CPPFLAGS_ac} ${MHD_TLS_LIB_CPPFLAGS} ${user_CPPFLAGS}" CFLAGS="${CFLAGS_ac} ${MHD_TLS_LIB_CFLAGS} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${MHD_TLS_LIB_LDFLAGS} ${user_LDFLAGS}" save_LIBS="$LIBS" LIBS="${MHD_TLS_LIBDEPS} ${LIBS}" AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #include ]], [[ gnutls_hash_hd_t hash_handle; unsigned char digest[16]; int exit_code; if (0 == gnutls_hash_init(&hash_handle, GNUTLS_DIG_MD5)) { if (0 == gnutls_hash(hash_handle, "", 1)) { gnutls_hash_output(hash_handle, digest); if (0x93 == digest[0]) exit_code = 0; else exit_code = 7; } else exit_code = 5; gnutls_hash_deinit(hash_handle, (void *)0); } else exit_code = 2; if (exit_code) return exit_code; ]] ) ], [mhd_cv_gnutls_md5='yes'],[mhd_cv_gnutls_md5='no'] ) LIBS="${save_LIBS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" ] ) AS_VAR_IF([mhd_cv_gnutls_md5],["no"], [ AS_VAR_IF([enable_md5],["tlslib"], [AC_MSG_FAILURE([TLS library MD5 implementation is not available])] ) enable_md5="builtin" ], [enable_md5="tlslib"] ) ], [ AS_VAR_IF([enable_md5],["tlslib"], [AC_MSG_ERROR([HTTPS is not enabled, TLS library MD5 implementation cannot be used])] ) enable_md5="builtin" ] ) ], [ enable_md5="builtin" ] ) ] ) AC_MSG_CHECKING([[whether to support MD5]]) AS_UNSET([enable_md5_MSG]) AS_CASE([${enable_md5}], [builtin],[enable_md5_MSG='yes, built-in'], [tlslib],[enable_md5_MSG='yes, external (TLS library)'], [no],[enable_md5_MSG='no'], [yes],[AC_MSG_ERROR([configure internal error: unexpected variable value])], [AC_MSG_ERROR([Unrecognized parameter --enable-md5=${enable_md5}])] ) AS_IF([test "x${enable_md5}" = "xbuiltin" || test "x${enable_md5}" = "xtlslib" ], [ AC_DEFINE([[MHD_MD5_SUPPORT]],[[1]], [Define to 1 if libmicrohttpd is compiled with MD5 hashing support.]) ] ) AS_IF([test "x${enable_md5}" = "xtlslib" ], [ AC_DEFINE([[MHD_MD5_TLSLIB]],[[1]], [Define to 1 if libmicrohttpd is compiled with MD5 hashing by TLS library.]) ] ) AM_CONDITIONAL([ENABLE_MD5], [[test "x${enable_md5}" = "xbuiltin" || test "x${enable_md5}" = "xtlslib" ]]) AM_CONDITIONAL([ENABLE_MD5_EXT], [[test "x${enable_md5}" = "xtlslib" ]]) AC_MSG_RESULT([[${enable_md5_MSG}]]) # optional: SHA-256 support for Digest Auth. Enabled by default. AC_ARG_ENABLE([[sha256]], [AS_HELP_STRING([[--enable-sha256=TYPE]], [enable TYPE of SHA-256 hashing code (yes, no, builtin, tlslib) [yes if dauth enabled]])], [ AS_VAR_IF([enable_sha256],["internal"],[enable_sha256='builtin']) AS_VAR_IF([enable_sha256],["built-in"],[enable_sha256='builtin']) AS_VAR_IF([enable_dauth],["yes"],[], [ AS_VAR_IF([enable_sha256],["no"],[], [ AC_MSG_WARN([The parameter --enable-sha256=${enable_sha256} is ignored as Digest Authentication is disabled]) enable_sha256='no' ] ) ] ) ], [[enable_sha256="${enable_dauth}"]] ) AS_CASE([${enable_sha256}],[yes|tlslib], [ AS_IF([test "x${enable_compact_code}" != "xno" || test "x$enable_sha256" = "xtlslib"], [ AS_IF([test "x$enable_https" = "xyes"], [ AC_CACHE_CHECK([whether GnuTLS supports sha256 hashing],[mhd_cv_gnutls_sha256], [ CFLAGS="${CFLAGS_ac} ${GNUTLS_CFLAGS} ${user_CFLAGS}" CPPFLAGS="${CPPFLAGS_ac} ${MHD_TLS_LIB_CPPFLAGS} ${user_CPPFLAGS}" CFLAGS="${CFLAGS_ac} ${MHD_TLS_LIB_CFLAGS} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${MHD_TLS_LIB_LDFLAGS} ${user_LDFLAGS}" save_LIBS="$LIBS" LIBS="${MHD_TLS_LIBDEPS} ${LIBS}" AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #include ]], [[ gnutls_hash_hd_t hash_handle; unsigned char digest[32]; int exit_code; if (0 == gnutls_hash_init(&hash_handle, GNUTLS_DIG_SHA256)) { if (0 == gnutls_hash(hash_handle, "", 1)) { gnutls_hash_output(hash_handle, digest); if (0x6e == digest[0]) exit_code = 0; else exit_code = 7; } else exit_code = 5; gnutls_hash_deinit(hash_handle, (void *)0); } else exit_code = 2; if (exit_code) return exit_code; ]] ) ], [mhd_cv_gnutls_sha256='yes'],[mhd_cv_gnutls_sha256='no'] ) LIBS="${save_LIBS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" LDFLAGS="${LDFLAGS_ac} ${user_LDFLAGS}" ] ) AS_VAR_IF([mhd_cv_gnutls_sha256],["no"], [ AS_VAR_IF([enable_sha256],["tlslib"], [AC_MSG_FAILURE([TLS library SHA-256 implementation is not available])] ) enable_sha256="builtin" ], [enable_sha256="tlslib"] ) ], [ AS_VAR_IF([enable_sha256],["tlslib"], [AC_MSG_ERROR([HTTPS is not enabled, TLS library SHA-256 implementation cannot be used])] ) enable_sha256="builtin" ] ) ], [ enable_sha256="builtin" ] ) ] ) AC_MSG_CHECKING([[whether to support SHA-256]]) AS_UNSET([enable_sha256_MSG]) AS_CASE([${enable_sha256}], [builtin],[enable_sha256_MSG='yes, built-in'], [tlslib],[enable_sha256_MSG='yes, external (TLS library)'], [no],[enable_sha256_MSG='no'], [yes],[AC_MSG_ERROR([configure internal error: unexpected variable value])], [AC_MSG_ERROR([Unrecognized parameter --enable-sha256=${enable_sha256}])] ) AS_IF([test "x${enable_sha256}" = "xbuiltin" || test "x${enable_sha256}" = "xtlslib" ], [ AC_DEFINE([[MHD_SHA256_SUPPORT]],[[1]], [Define to 1 if libmicrohttpd is compiled with SHA-256 hashing support.]) ] ) AS_IF([test "x${enable_sha256}" = "xtlslib" ], [ AC_DEFINE([[MHD_SHA256_TLSLIB]],[[1]], [Define to 1 if libmicrohttpd is compiled with SHA-256 hashing by TLS library.]) ] ) AM_CONDITIONAL([ENABLE_SHA256], [[test "x${enable_sha256}" = "xbuiltin" || test "x${enable_sha256}" = "xtlslib" ]]) AM_CONDITIONAL([ENABLE_SHA256_EXT], [[test "x${enable_sha256}" = "xtlslib" ]]) AC_MSG_RESULT([[${enable_sha256_MSG}]]) # optional: SHA-512/256 support for Digest Auth. Enabled by default. AC_ARG_ENABLE([[sha512-256]], [AS_HELP_STRING([[--disable-sha512-256]], [disable SHA-512/256 hashing support for Digest Authentication])], [ AS_VAR_IF([[enable_sha512_256]],[["yes"]], [ AS_VAR_IF([enable_dauth],["yes"],[], [ AC_MSG_WARN([The parameter --enable-sha512-256 is ignored as Digest Authentication is disabled]) enable_sha512_256='no' ] ) ],[[enable_sha512_256='no']] ) ], [[enable_sha512_256="${enable_dauth}"]] ) AC_MSG_CHECKING([[whether to support SHA-512/256]]) AS_UNSET([enable_sha512_256_MSG]) AS_CASE([${enable_sha512_256}], [yes],[enable_sha512_256_MSG='yes, built-in'], [no],[enable_sha512_256_MSG='no'], [AC_MSG_ERROR([Unrecognized parameter --enable-sha512-256=${enable_sha512_256}])] ) AS_VAR_IF([[enable_sha512_256]],[["yes"]], [ AC_DEFINE([[MHD_SHA512_256_SUPPORT]],[[1]], [Define to 1 if libmicrohttpd is compiled with SHA-512/256 hashing support.]) ] ) AM_CONDITIONAL([ENABLE_SHA512_256], [[test "x${enable_sha512_256}" = "xyes"]]) AC_MSG_RESULT([[${enable_sha512_256_MSG}]]) AS_IF([test "x$enable_dauth" != "xno"], [ AS_IF([test "x${enable_md5}" = "xno" && test "x${enable_sha256}" = "xno" && test "x${enable_sha512_256}" != "xyes"], [AC_MSG_ERROR([At least one hashing algorithm must be enabled if Digest Auth is enabled])] ) ] ) AC_CACHE_CHECK([[for calloc()]], [[mhd_cv_have_func_calloc]], [ AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include ]],[[void * ptr = calloc(1, 2); if (ptr) return 1;]]) ], [[mhd_cv_have_func_calloc='yes']], [[mhd_cv_have_func_calloc='no']] ) ] ) AS_VAR_IF([[mhd_cv_have_func_calloc]], [["yes"]], [AC_DEFINE([[HAVE_CALLOC]], [[1]], [Define to 1 if you have the usable `calloc' function.])]) # Some systems have IPv6 disabled in kernel at run-time AS_IF([[test "x${mhd_cv_have_inet6}" = "xyes" && test "x${cross_compiling}" = "xno"]], [ AC_CACHE_CHECK([whether IPv6 could be used for testing],[mhd_cv_ipv6_for_testing], [ AC_RUN_IFELSE( [ AC_LANG_SOURCE([[ #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif #ifdef HAVE_WINSOCK2_H #include #endif #ifdef HAVE_WS2TCPIP_H #include #endif #ifdef HAVE_NETINET_IN_H #include #endif #ifdef HAVE_NETINET_IP_H #include #endif #ifdef HAVE_ARPA_INET_H #include #endif #ifdef HAVE_NETINET_TCP_H #include #endif static void zr_mem(void *ptr, socklen_t size) { char *mem = ptr; while(size--) {mem[0] = 0; mem++;} } int main(void) { int ret = 30; struct sockaddr_in6 sa; #if !defined(_WIN32) || defined(__CYGWIN__) int sckt; const int invld_sckt = -1; #else SOCKET sckt; const SOCKET invld_sckt = INVALID_SOCKET; WSADATA wsa_data; WSAStartup(MAKEWORD(2, 2), &wsa_data); #endif zr_mem(&sa, sizeof(sa)); sa.sin6_family = AF_INET6; sa.sin6_port = 0; sa.sin6_addr = in6addr_loopback; #ifdef HAVE_STRUCT_SOCKADDR_IN6_SIN6_LEN sa.sin6_len = sizeof(sa); #endif sckt = socket (PF_INET6, SOCK_STREAM, 0); if (invld_sckt != sckt) { if (0 == bind (sckt, (struct sockaddr *)&sa, sizeof(sa))) { if (0 == listen (sckt, 1)) ret = 0; else ret = 1; /* listen() failed */ } else ret = 2; /* bind() failed */ #if !defined(_WIN32) || defined(__CYGWIN__) close (sckt); #else closesocket (sckt); #endif } else ret = 3; /* socket() failed */ #if defined(_WIN32) && !defined(__CYGWIN__) WSACleanup(); #endif return ret; } ]]) ], [[mhd_cv_ipv6_for_testing="yes"]], [[mhd_cv_ipv6_for_testing="no"]], [[mhd_cv_ipv6_for_testing="no"]] ) ] ) ] ) AS_VAR_IF([mhd_cv_ipv6_for_testing],["yes"], [AC_DEFINE([[USE_IPV6_TESTING]], [[1]], [Define to 1 if your kernel supports IPv6 and IPv6 is enabled and useful for testing.])] ) # Check for fork() and waitpid(). They are used for tests. AC_MSG_CHECKING([[for fork()]]) mhd_have_fork_waitpid='no' AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_UNISTD_H #include #endif ]], [[ pid_t p = fork (); if (0 == p) return 1; ]]) ], [ AC_DEFINE([[HAVE_FORK]], [[1]], [Define to 1 if you have the usable `fork' function.]) AC_MSG_RESULT([[yes]]) AC_MSG_CHECKING([[for waitpid()]]) AC_LINK_IFELSE( [ AC_LANG_PROGRAM( [[ #include ]], [[ pid_t p = fork (); if (0 == p) return 1; waitpid (p, (void*)0, 0) ]]) ], [ AC_DEFINE([[HAVE_WAITPID]], [[1]], [Define to 1 if you have the usable `waitpid' function.]) AC_MSG_RESULT([[yes]]) mhd_have_fork_waitpid='yes' ],[ AC_MSG_RESULT([[no]]) ]) ],[ AC_MSG_RESULT([[no]]) ]) AM_CONDITIONAL([HAVE_FORK_WAITPID], [test "x$mhd_have_fork_waitpid" = "xyes"]) # gcov compilation AC_MSG_CHECKING(whether to compile with support for code coverage analysis) AC_ARG_ENABLE([coverage], AS_HELP_STRING([--enable-coverage], [compile the library with code coverage support]), [use_gcov=${enableval}], [use_gcov=no]) AC_MSG_RESULT($use_gcov) AM_CONDITIONAL([USE_COVERAGE], [test "x$use_gcov" = "xyes"]) AX_COUNT_CPUS AC_MSG_CHECKING([for number of CPU cores to use in tests]) AS_VAR_IF([use_heavy_tests], ["yes"], [ # Enable usage of many core if heavy tests are enabled AS_IF([[test "$CPU_COUNT" -gt "32"]], [[CPU_COUNT="32"]])dnl Limit resource usage ], [ # Limit usage to just a few cores if heavy tests are not enabled AS_IF([[test "$CPU_COUNT" -gt "6"]], [[CPU_COUNT="6"]]) AS_IF([[test "$CPU_COUNT" -lt "2"]], [[CPU_COUNT="2"]]) ] ) AC_MSG_RESULT([$CPU_COUNT]) AC_ARG_ENABLE([[asserts]], [AS_HELP_STRING([[--enable-asserts]], [enable test build with debug asserts])], [], [enable_asserts='auto'] ) AS_UNSET([use_asserts_MSG]) AC_CACHE_CHECK([[whether NDEBUG macro is defined]], [mhd_cv_macro_ndebug_def], [ AC_LINK_IFELSE( [ AC_LANG_SOURCE([[ #ifndef NDEBUG #error NDEBUG is NOT defined chome me now #endif int main(void) { return 0; } ]] ) ], [[mhd_cv_macro_ndebug_def='yes']], [[mhd_cv_macro_ndebug_def='no']] ) ] ) AS_VAR_IF([enable_asserts],["yes"], [ AS_VAR_IF([mhd_cv_macro_ndebug_def],["yes"], [ AC_MSG_FAILURE([Parameter --enable-asserts is specified, but NDEBUG macro is defined as well]) ] ) use_asserts_MSG="yes, enabled by configure parameter" ] ) AC_CACHE_CHECK([[whether _DEBUG macro is defined]], [mhd_cv_macro__debug_def], [ AC_LINK_IFELSE( [ AC_LANG_SOURCE([[ #ifndef _DEBUG #error _DEBUG is NOT defined chome me now #endif int main(void) { return 0; } ]] ) ], [[mhd_cv_macro__debug_def='yes']], [[mhd_cv_macro__debug_def='no']] ) ] ) AS_VAR_IF([enable_asserts],["no"], [ AS_VAR_IF([mhd_cv_macro__debug_def],["yes"], [ AC_MSG_FAILURE([Parameter --disable-asserts is specified, but _DEBUG macro is defined as well]) ] ) use_asserts_MSG="no, set by configure parameter" ] ) AS_IF([test "x${mhd_cv_macro_ndebug_def}" = "xyes" && test "x${mhd_cv_macro__debug_def}" = "xyes"], [AC_MSG_FAILURE([Both NDEBUG and _DEBUG macros are defined])] ) AS_VAR_IF([enable_asserts],["auto"], [ AS_VAR_IF([mhd_cv_macro_ndebug_def],["yes"], [ enable_asserts="no" use_asserts_MSG="no, set by NDEBUG preprocessor macro" ] ) ] ) AS_VAR_IF([enable_asserts],["auto"], [ AS_VAR_IF([mhd_cv_macro__debug_def],["yes"], [ enable_asserts="yes" use_asserts_MSG="yes, enabled by _DEBUG preprocessor macro" ] ) ] ) AS_VAR_IF([enable_asserts],["auto"], [ AC_CACHE_CHECK([[whether DEBUG macro is defined]], [mhd_cv_macro_debug_def], [ AC_LINK_IFELSE( [ AC_LANG_SOURCE([[ #ifndef DEBUG #error DEBUG is NOT defined chome me now #endif int main(void) { return 0; } ]] ) ], [[mhd_cv_macro_debug_def='yes']], [[mhd_cv_macro_debug_def='no']] ) ] ) AS_VAR_IF([mhd_cv_macro_debug_def],["yes"], [ enable_asserts="yes" use_asserts_MSG="yes, enabled by DEBUG preprocessor macro" ] ) ] ) AC_MSG_CHECKING([[whether to enable debug asserts]]) AS_VAR_IF([enable_asserts],["auto"], [ AS_CASE([${enable_build_type}], [debug|debugger], [ enable_asserts="yes" use_asserts_MSG="yes, enabled by --enable-bulid-type=${enable_build_type}" ], [ enable_asserts="no" use_asserts_MSG="no" ] ) ] ) AS_CASE([[$enable_asserts]], [[yes]], [[:]], [[no]], [[:]], [[enable_asserts='no']]) AC_MSG_RESULT([[${use_asserts_MSG=no}]]) AS_VAR_IF([[enable_asserts]], [["yes"]], [ AS_VAR_IF([[mhd_cv_macro__debug_def]], [["yes"]], [:], [ MHD_PREPEND_FLAG_TO_VAR([CPPFLAGS_ac],[-D_DEBUG=1]) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" ] ) AC_CACHE_CHECK([[whether system assert() is available]], [mhd_cv_sys_assert_avail], [ AC_LINK_IFELSE( [ AC_LANG_SOURCE([[ #include static int pos_val(void) {return 5;} static int neg_val(void) {return -5;} int main(void) { int pos_var = pos_val(), neg_var = neg_val(); assert(neg_var > pos_var); /* Must trigger assert. */ return pos_var + neg_var; } ]]) ], [[mhd_cv_sys_assert_avail='yes']], [[mhd_cv_sys_assert_avail='no']] ) ] ) AS_VAR_IF([[mhd_cv_sys_assert_avail]], [["no"]], [], [AC_DEFINE([[HAVE_ASSERT]], [[1]], [Define if you have usable assert() and assert.h])]) ], [ AS_VAR_IF([[mhd_cv_macro_ndebug_def]], [["yes"]], [:], [ MHD_PREPEND_FLAG_TO_VAR([CPPFLAGS_ac],[-DNDEBUG=1]) CPPFLAGS="${CPPFLAGS_ac} ${user_CPPFLAGS}" ] ) ] ) AS_UNSET([enabled_sanitizers]) TESTS_ENVIRONMENT_ac="" AM_ASAN_OPTIONS="" AM_UBSAN_OPTIONS="" AM_LSAN_OPTIONS="" AS_UNSET([ASAN_OPTIONS]) AS_UNSET([UBSAN_OPTIONS]) AS_UNSET([LSAN_OPTIONS]) AC_MSG_CHECKING([whether to enable run-time sanitizers]) AC_ARG_ENABLE([sanitizers], [AS_HELP_STRING([[--enable-sanitizers[=address,undefined,leak,user-poison]]], [enable run-time sanitizers, specify the list of types of sanitizers to enable, ] [leave the list empty (or set to "auto") to enable all supported and available ] [sanitizers, or specify "auto-fallback" to use sanitizers even without ] [installed sanitizer run-time library])], [], [AS_CASE([${enable_build_type}],[debug], [enable_sanitizers='auto-optional'],[enable_sanitizers='no'])] ) AS_IF([test "x${enable_sanitizers}" = "x"], [enable_sanitizers="auto"]) AS_VAR_IF([enable_sanitizers], ["yes"], [enable_sanitizers="auto"]) AS_VAR_IF([enable_sanitizers], ["autofallback"], [enable_sanitizers="auto-fallback"]) AS_VAR_IF([enable_sanitizers], ["autooptional"], [enable_sanitizers="auto-optional"]) AS_IF([test "x${enable_sanitizers}" = "xno"], [ enable_sanitizers="no" enable_san_address="no" enable_san_undef="no" enable_san_leak="no" enable_san_upoison="no" ], [test "x${enable_sanitizers}" = "xauto" || test "x${enable_sanitizers}" = "xauto-optional"], [ AS_VAR_IF([enable_compiler_hardening],["yes"], [ AS_VAR_IF([enable_sanitizers],["auto"], [AC_MSG_ERROR([sanitizers cannot be enabled with compiler hardnening])], [AC_MSG_WARN([sanitizers cannot be enabled with compiler hardnening])] ) enable_sanitizers="no" enable_san_address="no" enable_san_undef="no" enable_san_leak="no" enable_san_upoison="no" ], [ enable_san_address="auto" enable_san_undef="auto" enable_san_leak="auto" enable_san_upoison="auto" ] ) ], [test "x${enable_sanitizers}" = "xauto-fallback"], [ enable_san_address="auto" enable_san_undef="auto-fallback" enable_san_leak="auto" enable_san_upoison="auto" ], [ AS_UNSET([san]) enable_san_address="no" enable_san_undef="no" enable_san_leak="no" enable_san_upoison="no" f][or san in `AS_ECHO([${enable_sanitizers}]) | tr ',' ' '` do AS_CASE([$san], [address], [enable_san_address="yes"], [undefined], [enable_san_undef="yes"], [leak], [enable_san_leak="yes"], [user-poison|user_poison], [enable_san_upoison="yes"], [no|yes|auto|auto-fallback|autofallback], [AC_MSG_ERROR(["$san" cannot be used with other options for --enable-sanitizers=])], [AC_MSG_ERROR([Unknown parameter "$san" for --enable-sanitizers=])] ) done AS_IF([test "x${enable_san_upoison}" = "xyes" && test "x${enable_san_address}" = "xno"], [AC_MSG_ERROR([User memory poisoning cannot be used without address sanitizer])] ) enable_sanitizers="selected" ] ) AS_CASE([${enable_sanitizers}], [selected], [AC_MSG_RESULT([selected])], [auto], [AC_MSG_RESULT([yes, detect and use supported sanitizers])], [auto-fallback], [AC_MSG_RESULT([yes, detect and use supported sanitizers even without run-time lib])], [auto-optional], [AC_MSG_RESULT([yes, detect and use supported sanitizers if any])], [AC_MSG_RESULT([no])] ) AS_VAR_IF([enable_sanitizers], ["no"], [:], [ AS_UNSET([san_FLAGS]) # the sanitizer flags to be added to both CFLAGS and LDFLAGS AS_UNSET([san_CFLAGS]) # the sanitizer flags to be added to CFLAGS AC_CACHE_CHECK([whether '-fsanitize=' works for $CC], [mhd_cv_cc_sanitizer_works], [ CFLAGS="${CFLAGS_ac} -fsanitize=wrongFeatureName ${user_CFLAGS}" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([],[])], [mhd_cv_cc_sanitizer_works=no], [mhd_cv_cc_sanitizer_works=yes]) ] ) AS_VAR_IF([mhd_cv_cc_sanitizer_works], ["yes"], [ AS_VAR_IF([enable_san_address], ["no"], [:], [ AC_CACHE_CHECK([for address sanitizer], [mhd_cv_cc_sanitizer_address], [ CFLAGS="${CFLAGS_ac} ${san_CFLAGS} ${san_FLAGS} -fsanitize=address ${user_CFLAGS}" AC_LINK_IFELSE([AC_LANG_PROGRAM([],[])], [mhd_cv_cc_sanitizer_address=yes], [mhd_cv_cc_sanitizer_address=no]) ] ) AS_VAR_IF([mhd_cv_cc_sanitizer_address],["yes"], [ AC_DEFINE([MHD_ASAN_ACTIVE], [1], [Define to '1' if you have address sanitizer enabled]) AX_APPEND_FLAG([-fsanitize=address], [san_FLAGS]) enabled_sanitizers="${enabled_sanitizers}${enabled_sanitizers:+, }address" AS_VAR_IF([enable_san_leak], ["no"], [:], [ AC_CACHE_CHECK([whether leak detect is not rejected by address sanitizer], [mhd_cv_cc_sanitizer_address_leak], [ CFLAGS="${CFLAGS_ac} ${san_CFLAGS} ${san_FLAGS} ${user_CFLAGS}" ASAN_OPTIONS="exitcode=88:detect_leaks=1:halt_on_error=1" export ASAN_OPTIONS AC_RUN_IFELSE([AC_LANG_PROGRAM([],[])], [mhd_cv_cc_sanitizer_address_leak=yes], [mhd_cv_cc_sanitizer_address_leak=no], [ # Cross-compiling with sanitizers? mhd_cv_cc_sanitizer_address_leak='assuming no' ] ) AS_UNSET([ASAN_OPTIONS]) ] ) ] ) AC_CACHE_CHECK([for pointer compare sanitizer], [mhd_cv_cc_sanitizer_pointer_compare], [ CFLAGS="${CFLAGS_ac} ${san_CFLAGS} ${san_FLAGS} -fsanitize=pointer-compare ${user_CFLAGS}" AC_LINK_IFELSE([AC_LANG_PROGRAM([],[])], [mhd_cv_cc_sanitizer_pointer_compare=yes], [mhd_cv_cc_sanitizer_pointer_compare=no]) ] ) AS_VAR_IF([mhd_cv_cc_sanitizer_pointer_compare],["yes"], [ AX_APPEND_FLAG([-fsanitize=pointer-compare], [san_FLAGS]) enabled_sanitizers="${enabled_sanitizers}${enabled_sanitizers:+, }pointer compare" ] ) AC_CACHE_CHECK([for pointer subtract sanitizer], [mhd_cv_cc_sanitizer_pointer_subtract], [ CFLAGS="${CFLAGS_ac} ${san_CFLAGS} ${san_FLAGS} -fsanitize=pointer-subtract ${user_CFLAGS}" AC_LINK_IFELSE([AC_LANG_PROGRAM([],[])], [mhd_cv_cc_sanitizer_pointer_subtract=yes], [mhd_cv_cc_sanitizer_pointer_subtract=no]) ] ) AS_VAR_IF([mhd_cv_cc_sanitizer_pointer_subtract],["yes"], [ AX_APPEND_FLAG([-fsanitize=pointer-subtract], [san_FLAGS]) enabled_sanitizers="${enabled_sanitizers}${enabled_sanitizers:+, }pointer subtract" ] ) AS_VAR_IF([enable_san_upoison], ["no"], [:], [ AC_CHECK_HEADERS([sanitizer/asan_interface.h], [], [], [AC_INCLUDES_DEFAULT]) AS_VAR_IF([ac_cv_header_sanitizer_asan_interface_h],["yes"], [ AC_CACHE_CHECK([whether special function attribute is needed for user-poison], [mhd_cv_func_u_p_attribute_needed], [ ASAN_OPTIONS="exitcode=88:detect_invalid_pointer_pairs=3:halt_on_error=1" export ASAN_OPTIONS CFLAGS="${CFLAGS_ac} ${san_CFLAGS} ${san_FLAGS} ${errattr_CFLAGS} ${user_CFLAGS}" AC_RUN_IFELSE( [ AC_LANG_SOURCE( [[ #include #include #include static const size_t first_pos = 0; static const size_t mid_pos = 64; static const size_t last_pos = 128; static const size_t zone_size = 16; static const size_t buf_size = 128 + 16; static int ptr_compare(void *ptr1, uint8_t *ptr2) { if ((((uintptr_t) (uint8_t *)ptr1) >= ((uintptr_t)ptr2))) return ((char *) ptr1)[0] < ((char *) ptr2)[0]; return ((char *) ptr1)[0] > ((char *) ptr2)[0]; } static int ptr_subtract(void *ptr1, uint8_t *ptr2) { return ((size_t)(((uintptr_t)(uint8_t*)ptr1) - ((uintptr_t)ptr2))) <= last_pos; } int main(int argc, char *argv[]) { char *buf = (char*) malloc (buf_size); char *a; char *b; int ret; (void) argv; if (NULL == buf) return 10; ASAN_POISON_MEMORY_REGION (buf + first_pos + zone_size, mid_pos - first_pos - zone_size); ASAN_POISON_MEMORY_REGION (buf + mid_pos + zone_size, last_pos - mid_pos - zone_size); if (0 < argc) a = buf + last_pos; else a = buf + first_pos; b = buf + mid_pos; *a = '0'; *b = '9'; if (ptr_compare((void *)a, (uint8_t*) b)) { if (ptr_subtract((void *)a, (uint8_t*) b)) ret = 0; else ret = 10; } else ret = 5; ASAN_UNPOISON_MEMORY_REGION (buf, buf_size); free (buf); return ret; } ]] ) ], [mhd_cv_func_u_p_attribute_needed="no"], [mhd_cv_func_u_p_attribute_needed="yes"], [ # Cross-compiling with sanitizers?? mhd_cv_func_up_attribute_needed='assuming no' ] ) AS_UNSET([ASAN_OPTIONS]) ] ) ] ) AS_VAR_IF([mhd_cv_func_u_p_attribute_needed],["yes"],[:], [ AC_DEFINE([FUNC_PTRCOMPARE_CAST_WORKAROUND_WORKS],[1],[Define to '1' if cast to 'uintptr_t' works for safely processing user-poisoned pointer]) ] ) AS_IF([test "x${mhd_cv_func_u_p_attribute_needed}" = "xyes" && test "x${ac_cv_header_sanitizer_asan_interface_h}" = "xyes"], [ AC_CACHE_CHECK([whether '__attribute__((no_sanitize("pointer-compare")))' and '__attribute__((no_sanitize("pointer-subtract")))' work], [mhd_cv_func_attribute_nosanitize_ptr], [ ASAN_OPTIONS="exitcode=88:detect_invalid_pointer_pairs=3:halt_on_error=1" export ASAN_OPTIONS CFLAGS="${CFLAGS_ac} ${san_CFLAGS} ${san_FLAGS} ${errattr_CFLAGS} ${user_CFLAGS}" AC_RUN_IFELSE( [ AC_LANG_SOURCE( [[ #include #include #include static const size_t first_pos = 0; static const size_t mid_pos = 64; static const size_t last_pos = 128; static const size_t zone_size = 16; static const size_t buf_size = 128 + 16; __attribute__((no_sanitize("pointer-compare"))) static int ptr_compare(void *ptr1, uint8_t *ptr2) { if ((((const uint8_t*)ptr1) >= ((const uint8_t*)ptr2))) return ((char *) ptr1)[0] < ((char *) ptr2)[0]; return ((char *) ptr1)[0] > ((char *) ptr2)[0]; } __attribute__((no_sanitize("pointer-subtract"))) static int ptr_subtract(void *ptr1, uint8_t *ptr2) { return ((size_t)(((const uint8_t*)ptr1) - \ ((const uint8_t*)ptr2))) <= last_pos; } int main(int argc, char *argv[]) { char *buf = (char*) malloc (buf_size); char *a; char *b; int ret; (void) argv; if (NULL == buf) return 10; ASAN_POISON_MEMORY_REGION (buf + first_pos + zone_size, mid_pos - first_pos - zone_size); ASAN_POISON_MEMORY_REGION (buf + mid_pos + zone_size, last_pos - mid_pos - zone_size); if (0 < argc) a = buf + last_pos; else a = buf + first_pos; b = buf + mid_pos; *a = '0'; *b = '9'; if (ptr_compare((void *)a, (uint8_t*) b)) { if (ptr_subtract((void *)a, (uint8_t*) b)) ret = 0; else ret = 10; } else ret = 5; ASAN_UNPOISON_MEMORY_REGION (buf, buf_size); free (buf); return ret; } ]] ) ], [mhd_cv_func_attribute_nosanitize_ptr=yes], [mhd_cv_func_attribute_nosanitize_ptr=no], [ # Cross-compiling with sanitizers?? mhd_cv_func_attribute_nosanitize_ptr='assuming no' ] ) AS_UNSET([ASAN_OPTIONS]) ] ) AS_VAR_IF([mhd_cv_func_attribute_nosanitize_ptr], ["yes"], [ AC_DEFINE([FUNC_ATTR_PTRCOMPARE_WORKS],[1],[Define to '1' if '__attribute__((no_sanitize("pointer-compare")))' works]) AC_DEFINE([FUNC_ATTR_PTRSUBTRACT_WORKS],[1],[Define to '1' if '__attribute__((no_sanitize("pointer-subtract")))' works]) ], [ AC_CACHE_CHECK([whether '__attribute__((no_sanitize("address")))' works for pointers compare], [mhd_cv_func_attribute_nosanitize_addr], [ ASAN_OPTIONS="exitcode=88:detect_invalid_pointer_pairs=3:halt_on_error=1" export ASAN_OPTIONS CFLAGS="${CFLAGS_ac} ${san_CFLAGS} ${san_FLAGS} ${errattr_CFLAGS} ${user_CFLAGS}" AC_RUN_IFELSE( [ AC_LANG_SOURCE( [[ #include #include #include static const size_t first_pos = 0; static const size_t mid_pos = 64; static const size_t last_pos = 128; static const size_t zone_size = 16; static const size_t buf_size = 128 + 16; __attribute__((no_sanitize("address"))) static int ptr_compare(void *ptr1, uint8_t *ptr2) { if ((((const uint8_t*)ptr1) >= ((const uint8_t*)ptr2))) return ((char *) ptr1)[0] < ((char *) ptr2)[0]; return ((char *) ptr1)[0] > ((char *) ptr2)[0]; } __attribute__((no_sanitize("address"))) static int ptr_subtract(void *ptr1, uint8_t *ptr2) { return ((size_t)(((const uint8_t*)ptr1) - \ ((const uint8_t*)ptr2))) <= last_pos; } int main(int argc, char *argv[]) { char *buf = (char*) malloc (buf_size); char *a; char *b; int ret; (void) argv; if (NULL == buf) return 10; ASAN_POISON_MEMORY_REGION (buf + first_pos + zone_size, mid_pos - first_pos - zone_size); ASAN_POISON_MEMORY_REGION (buf + mid_pos + zone_size, last_pos - mid_pos - zone_size); if (0 < argc) a = buf + last_pos; else a = buf + first_pos; b = buf + mid_pos; *a = '0'; *b = '9'; if (ptr_compare((void *)a, (uint8_t*) b)) { if (ptr_subtract((void *)a, (uint8_t*) b)) ret = 0; else ret = 10; } else ret = 5; ASAN_UNPOISON_MEMORY_REGION (buf, buf_size); free (buf); return ret; } ]] ) ], [mhd_cv_func_attribute_nosanitize_addr=yes], [mhd_cv_func_attribute_nosanitize_addr=no], [ # Cross-compiling with sanitizers?? mhd_cv_func_attribute_nosanitize_addr='assuming no' ] ) AS_UNSET([ASAN_OPTIONS]) ] ) AS_VAR_IF([mhd_cv_func_attribute_nosanitize_addr], ["yes"], [AC_DEFINE([FUNC_ATTR_NOSANITIZE_WORKS],[1],[Define to '1' if '__attribute__((no_sanitize("address")))' works for pointers compare])] ) ] ) ] ) ] ) ] ) AS_IF([test "x${enable_san_address}" = "xyes" && test "x${mhd_cv_cc_sanitizer_address}" != "xyes"], [AC_MSG_ERROR([Address sanitizer cannot be enabled])] ) enable_san_address="${mhd_cv_cc_sanitizer_address}" ] ) AS_VAR_IF([enable_san_undef], ["no"], [:], [ dnl Ensure that '#' will be processed correctly [ test_undf_prog=' #include static void func_out_b(char *arr) { arr[0] = 0; arr[16] = 2; } static unsigned int int_deref(void *ptr) { return (*((unsigned int*)ptr)) + 2; } static int func1(void) { char chr[16]; func_out_b (chr); return (int) (int_deref(chr + 1) + int_deref(chr + 2)); } int main(void) { unsigned long ulvar; signed char ch1; ulvar = -1 * func1(); ch1 = ulvar * 6UL; printf("%lu\n", ulvar + ch1); return 0; } ' ] AC_CACHE_CHECK([for undefined behavior sanitizer], [mhd_cv_cc_sanitizer_undefined], [ CFLAGS="${CFLAGS_ac} ${san_FLAGS} ${san_CFLAGS} -fsanitize=undefined ${user_CFLAGS}" AC_LINK_IFELSE([AC_LANG_SOURCE([${test_undf_prog}])], [mhd_cv_cc_sanitizer_undefined=yes], [mhd_cv_cc_sanitizer_undefined=no]) ] ) AS_VAR_IF([mhd_cv_cc_sanitizer_undefined],["yes"], [ AX_APPEND_FLAG([-fsanitize=undefined], [san_FLAGS]) enabled_sanitizers="${enabled_sanitizers}${enabled_sanitizers:+, }undefined" ], [ AS_CASE([${enable_san_undef}], [yes|auto-fallback], [ AC_CACHE_CHECK([for undefined behavior sanitizer with '-fsanitize-undefined-trap-on-error'], [mhd_cv_cc_sanitizer_undefined_trap], [ CFLAGS="${CFLAGS_ac} ${san_FLAGS} ${san_CFLAGS} -fsanitize=undefined -fsanitize-undefined-trap-on-error ${user_CFLAGS}" AC_LINK_IFELSE([AC_LANG_SOURCE([${test_undf_prog}])], [mhd_cv_cc_sanitizer_undefined_trap=yes], [mhd_cv_cc_sanitizer_undefined_trap=no]) ] ) AS_VAR_IF([mhd_cv_cc_sanitizer_undefined_trap], ["yes"], [ AX_APPEND_FLAG([-fsanitize=undefined], [san_FLAGS]) AX_APPEND_FLAG([-fsanitize-undefined-trap-on-error], [san_FLAGS]) enabled_sanitizers="${enabled_sanitizers}${enabled_sanitizers:+, }undefined" AC_MSG_WARN([Enabled sanitizer without run-time library, error reporting will be limited]) ], [ AS_IF([test -z "${enabled_sanitizers}"], [ # Last resort AC_CACHE_CHECK([for undefined behavior sanitizer with '-fsanitize-trap=all'], [mhd_cv_cc_sanitizer_undefined_trap_all], [ CFLAGS="${CFLAGS_ac} ${san_FLAGS} ${san_CFLAGS} -fsanitize=undefined -fsanitize-trap=all ${user_CFLAGS}" AC_LINK_IFELSE([AC_LANG_SOURCE([${test_undf_prog}])], [mhd_cv_cc_sanitizer_undefined_trap_all=yes], [mhd_cv_cc_sanitizer_undefined_trap_all=no]) ] ) AS_VAR_IF([mhd_cv_cc_sanitizer_undefined_trap_all],["yes"], [ AX_APPEND_FLAG([-fsanitize=undefined], [san_FLAGS]) AX_APPEND_FLAG([-fsanitize-trap=all], [san_FLAGS]) CFLAGS="${CFLAGS_ac} ${san_FLAGS} ${san_CFLAGS} -fsanitize=undefined -fsanitize-trap=all ${user_CFLAGS}" enabled_sanitizers="${enabled_sanitizers}${enabled_sanitizers:+, }undefined" AC_MSG_WARN([Enabled sanitizer without run-time library, error reporting will be limited]) ] ) ] ) ] ) AS_CASE(["$enabled_sanitizers"], [*undefined], [ AS_VAR_IF([mhd_cv_cc_sanitizer_undefined], ["yes"],[], [ # A workaround for broken clang which is trying to use UBSan lib # even when instructed to not use it CFLAGS="${CFLAGS_ac} ${san_FLAGS} ${san_CFLAGS} ${user_CFLAGS}" AX_APPEND_LINK_FLAGS([-fsanitize-trap=implicit-conversion], [san_FLAGS], [], [AC_LANG_SOURCE([${test_undf_prog}])]) ] ) ] ) ] ) ] ) AS_CASE(["$enabled_sanitizers"], [*undefined], [ CFLAGS="${CFLAGS_ac} ${san_FLAGS} ${san_CFLAGS} ${user_CFLAGS}" AX_APPEND_LINK_FLAGS([-fsanitize=bounds-strict -fsanitize=local-bounds -fsanitize=implicit-conversion -fsanitize=nullability-arg], [san_CFLAGS], [], [AC_LANG_SOURCE([${test_undf_prog}])]) ] ) AS_UNSET([test_undf_prog]) AS_CASE(["$enabled_sanitizers"], [*undefined], [enable_san_undef="yes"], [ AS_VAR_IF([enable_san_undef], [yes], [AC_MSG_ERROR([Undefined behavior sanitizer cannot be enabled])]) enable_san_undef="no" ] ) ] ) AS_VAR_IF([enable_san_leak], ["no"], [:], [ AC_CACHE_CHECK([for leak sanitizer], [mhd_cv_cc_sanitizer_leak], [ CFLAGS="${CFLAGS_ac} ${san_FLAGS} ${san_CFLAGS} -fsanitize=leak ${user_CFLAGS}" AC_LINK_IFELSE([AC_LANG_PROGRAM([],[])], [mhd_cv_cc_sanitizer_leak=yes], [mhd_cv_cc_sanitizer_leak=no]) ] ) AS_VAR_IF([mhd_cv_cc_sanitizer_leak],["yes"], [ AX_APPEND_FLAG([-fsanitize=leak], [san_FLAGS]) enabled_sanitizers="${enabled_sanitizers}${enabled_sanitizers:+, }leak" ] ) AS_IF([test "x${enable_san_leak}" = "xyes" && test "x${mhd_cv_cc_sanitizer_leak}" != "xyes"], [AC_MSG_ERROR([User poison cannot be enabled])] ) enable_san_leak="${mhd_cv_cc_sanitizer_leak}" ] ) AS_IF([test -z "${enabled_sanitizers}"], [ AS_VAR_IF([enable_sanitizers], ["auto-optional"], [ san_FLAGS="" san_CFLAGS="" ], [ AC_MSG_ERROR([cannot find any sanitizer supported by $CC]) ] ) ], [ AS_VAR_IF([enable_san_upoison], ["no"], [:], [ AC_MSG_CHECKING([whether to enable user memory poisoning]) AS_IF([test "x${mhd_cv_cc_sanitizer_address}" = "xyes" && test "x${ac_cv_header_sanitizer_asan_interface_h}" = "xyes" && \ (test "x${mhd_cv_func_u_p_attribute_needed}" != "xyes" || test "x${mhd_cv_func_attribute_nosanitize_ptr}" = "xyes" || \ test "x${mhd_cv_func_attribute_nosanitize_addr}" = "xyes")], [ AC_DEFINE([MHD_ASAN_POISON_ACTIVE], [1], [Define to '1' if user memory poison is used]) enabled_sanitizers="${enabled_sanitizers}${enabled_sanitizers:+, }user-poison" enable_san_upoison="yes" AC_MSG_RESULT([yes]) ], [ AC_MSG_RESULT([no]) AS_VAR_IF([enable_san_upoison], ["yes"], [AC_MSG_ERROR([User memory poisoning cannot be enabled])]) enable_san_upoison="no" ] ) ] ) AS_VAR_IF([enable_san_address], ["yes"], [ CFLAGS="${CFLAGS_ac} ${san_FLAGS} ${san_CFLAGS} ${user_CFLAGS}" AC_CHECK_DECL([_FORTIFY_SOURCE], [MHD_APPEND_FLAG_TO_VAR([CPPFLAGS_ac],[-U_FORTIFY_SOURCE])], [],[/* no includes */]) AX_APPEND_FLAG([-D_FORTIFY_SOURCE=0], [san_CFLAGS]) ], [ AS_CASE([$enable_sanitizers], [auto|auto-fallback], [AC_MSG_WARN([$CC does not support address sanitizer])]) ] ) CFLAGS="${CFLAGS_ac} ${san_FLAGS} ${san_CFLAGS} ${user_CFLAGS}" # Always stop on sanitizer error AX_APPEND_COMPILE_FLAGS([-fno-sanitize-recover=all], [san_CFLAGS]) # Get a better output for sanitizers error reporting AX_APPEND_COMPILE_FLAGS([-fno-omit-frame-pointer -fno-optimize-sibling-calls], [san_CFLAGS]) AS_VAR_IF([enable_san_address], ["yes"], [ AM_ASAN_OPTIONS="exitcode=88:strict_string_checks=1:detect_stack_use_after_return=1" AM_ASAN_OPTIONS="${AM_ASAN_OPTIONS}:check_initialization_order=1:strict_init_order=1:redzone=64" AM_ASAN_OPTIONS="${AM_ASAN_OPTIONS}:max_free_fill_size=1024:detect_invalid_pointer_pairs=3" AM_ASAN_OPTIONS="${AM_ASAN_OPTIONS}:handle_ioctl=1:halt_on_error=1" AS_VAR_IF([enable_san_upoison], ["yes"], [AM_ASAN_OPTIONS="${AM_ASAN_OPTIONS}:allow_user_poisoning=1"]) AS_VAR_IF([enable_san_leak], ["yes"], [AS_VAR_IF([mhd_cv_cc_sanitizer_address_leak], ["yes"], [AM_ASAN_OPTIONS="${AM_ASAN_OPTIONS}:detect_leaks=1"]) ], [AM_ASAN_OPTIONS="${AM_ASAN_OPTIONS}:detect_leaks=0"] ) ] ) AS_VAR_IF([enable_san_undef], [yes], [AM_UBSAN_OPTIONS="exitcode=87:print_stacktrace=1:halt_on_error=1"]) AS_VAR_IF([enable_san_leak], ["yes"], [AM_LSAN_OPTIONS="use_unaligned=1"] ) TESTS_ENVIRONMENT_ac='\ ASAN_OPTIONS="$(AM_ASAN_OPTIONS)" ; export ASAN_OPTIONS ; \ UBSAN_OPTIONS="$(AM_UBSAN_OPTIONS)" ; export UBSAN_OPTIONS ; \ LSAN_OPTIONS="$(AM_LSAN_OPTIONS)" ; export LSAN_OPTIONS ;' ] ) ] ) CFLAGS_ac="${CFLAGS_ac} ${san_FLAGS} ${san_CFLAGS}" CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" ] ) # Final flags that may interfere with autoconf detections AS_CASE([${enable_build_type}],[debug|debugger], [ # Debug build or build for walking with debugger CFLAGS="${user_CFLAGS}" MHD_CHECK_ADD_CC_CFLAGS([-Wextra-semi -Wextra-semi-stmt], [CFLAGS_ac]) CFLAGS="${CFLAGS_ac} ${user_CFLAGS}" ] ) AM_CONDITIONAL([USE_SANITIZERS], [test -n "$enabled_sanitizers" && test "x$mhd_cv_cc_sanitizer_works" = "xyes"]) AC_SUBST([AM_ASAN_OPTIONS]) AC_SUBST([AM_UBSAN_OPTIONS]) AC_SUBST([AM_LSAN_OPTIONS]) AC_SUBST([TESTS_ENVIRONMENT_ac]) MHD_LIB_LDFLAGS="$MHD_LIB_LDFLAGS" AC_SUBST([CPU_COUNT]) AC_SUBST([HEAVY_TESTS_NOTPARALLEL]) AM_SUBST_NOTMAKE([HEAVY_TESTS_NOTPARALLEL]) AC_SUBST(MHD_LIB_CPPFLAGS) AC_SUBST(MHD_LIB_CFLAGS) AC_SUBST(MHD_LIB_LDFLAGS) AC_SUBST(MHD_LIBDEPS) AC_SUBST(MHD_TLS_LIB_CPPFLAGS) AC_SUBST(MHD_TLS_LIB_CFLAGS) AC_SUBST(MHD_TLS_LIB_LDFLAGS) AC_SUBST(MHD_TLS_LIBDEPS) # for pkg-config AC_SUBST([MHD_REQ_PRIVATE]) AC_SUBST([MHD_LIBDEPS_PKGCFG]) # Restore flags as set by the user CFLAGS="${user_CFLAGS}" LDFLAGS="${user_LDFLAGS}" CPPFLAGS="${user_CPPFLAGS}" AC_SUBST([CFLAGS]) AC_SUBST([LDFLAGS]) AC_SUBST([CPPFLAGS]) AC_SUBST([LIBS]) # Configure-defined flags AC_SUBST([CFLAGS_ac]) AC_SUBST([LDFLAGS_ac]) AC_SUBST([CPPFLAGS_ac]) # Used for 'po' directory staff AC_SUBST([ac_configure_args]) AC_SUBST([EMPTY_VAR], [[]]) # We define the paths here, because MinGW/GCC expands paths # passed through the command line ("-DDIR=..."). This would # lead to hard-coded paths ("C:\mingw\mingw\bin...") that do # not contain the actual installation. AC_DEFINE_DIR([MHD_PLUGIN_INSTALL_PREFIX], [libdir/libmicrohttpd], [tls plugins]) # should experimental code be compiled (code that may not yet compile)? AC_MSG_CHECKING(whether to compile experimental code) AC_ARG_ENABLE([experimental], [AS_HELP_STRING([--enable-experimental], [enable compiling experimental code])], [enable_experimental=${enableval}], [enable_experimental=no]) AC_MSG_RESULT($enable_experimental) AM_CONDITIONAL([HAVE_EXPERIMENTAL], [test "x$enable_experimental" = "xyes"]) AC_CONFIG_FILES([libmicrohttpd.pc w32/common/microhttpd_dll_res_vc.rc Makefile po/po-configure.ac contrib/Makefile doc/Makefile doc/doxygen/libmicrohttpd.doxy doc/doxygen/Makefile doc/examples/Makefile m4/Makefile src/Makefile src/include/Makefile src/lib/Makefile src/microhttpd/Makefile src/microhttpd_ws/Makefile src/examples/Makefile src/testcurl/Makefile src/testcurl/https/Makefile src/testzzuf/Makefile]) AC_OUTPUT # Finally: summary # Format flags without extra spaces for visual beauty fin_CPPFLAGS="$user_CPPFLAGS" fin_CFLAGS="$user_CFLAGS" fin_LDFLAGS="$user_LDFLAGS" MHD_PREPEND_FLAG_TO_VAR([fin_CPPFLAGS],[$CPPFLAGS_ac]) MHD_PREPEND_FLAG_TO_VAR([fin_CFLAGS],[$CFLAGS_ac]) MHD_PREPEND_FLAG_TO_VAR([fin_LDFLAGS],[$LDFLAGS_ac]) fin_lib_CPPFLAGS="$user_CPPFLAGS" fin_lib_CFLAGS="$user_CFLAGS" fin_lib_LDFLAGS="$user_LDFLAGS" MHD_PREPEND_FLAG_TO_VAR([fin_lib_CPPFLAGS],[$MHD_LIB_CPPFLAGS]) MHD_PREPEND_FLAG_TO_VAR([fin_lib_CFLAGS],[$MHD_LIB_CFLAGS]) MHD_PREPEND_FLAG_TO_VAR([fin_lib_LDFLAGS],[$MHD_LIB_LDFLAGS]) MHD_PREPEND_FLAG_TO_VAR([fin_lib_CPPFLAGS],[$CPPFLAGS_ac]) MHD_PREPEND_FLAG_TO_VAR([fin_lib_CFLAGS],[$CFLAGS_ac]) MHD_PREPEND_FLAG_TO_VAR([fin_lib_LDFLAGS],[$LDFLAGS_ac]) AC_MSG_NOTICE([Toolchain settings: CC=$CC User/system/default flags: CPPFLAGS="$user_CPPFLAGS" CFLAGS= "$user_CFLAGS" LDFLAGS= "$user_LDFLAGS" Final set of the flags for tests and examples: CPPFLAGS="$fin_CPPFLAGS" CFLAGS= "$fin_CFLAGS" LDFLAGS= "$fin_LDFLAGS" Final set of the flags for ${PACKAGE_NAME} library: CPPFLAGS="$fin_lib_CPPFLAGS" CFLAGS= "$fin_lib_CFLAGS" LDFLAGS= "$fin_lib_LDFLAGS" ]) AS_UNSET([fin_CPPFLAGS]) AS_UNSET([fin_CFLAGS]) AS_UNSET([fin_LDFLAGS]) AS_UNSET([fin_lib_CPPFLAGS]) AS_UNSET([fin_lib_CFLAGS]) AS_UNSET([fin_lib_LDFLAGS]) AS_VAR_IF([os_is_windows], ["yes"], [os_ver_msg=" Target W32 ver: ${mhd_w32_ver_msg}"], [AS_UNSET([[os_ver_msg]])]) AC_MSG_NOTICE([GNU libmicrohttpd ${PACKAGE_VERSION} Configuration Summary: Target directory: ${prefix} Cross-compiling: ${cross_compiling} Operating System: ${mhd_host_os}${os_ver_msg} Messages: ${enable_messages} Cookie parsing: ${enable_cookie} Postproc: ${enable_postprocessor} HTTP "Upgrade": ${enable_httpupgrade} Basic auth.: ${enable_bauth} Digest auth.: ${enable_dauth} MD5: ${enable_md5_MSG} SHA-256: ${enable_sha256_MSG} SHA-512/256: ${enable_sha512_256_MSG} Shutdown of listening socket triggers select: ${mhd_cv_host_shtdwn_trgr_select} Inter-thread comm: ${use_itc} Threading lib: ${USE_THREADS} poll support: ${enable_poll=no} epoll support: ${enable_epoll=no} sendfile used: ${found_sendfile} HTTPS support: ${MSG_HTTPS} Compact code: ${enable_compact_code} (${compact_code_MSG}) Use thread names: ${enable_thread_names} Use debug asserts: ${use_asserts_MSG=no} Use sanitizers: ${enabled_sanitizers:=no} Build docs: ${enable_doc} Build examples: ${enable_examples} Build static lib: ${enable_static} Build shared lib: ${enable_shared} Test with libcurl: ${MSG_CURL} Heavy tests: ${use_heavy_tests_MSG} Fuzzing tests: ${run_zzuf_tests_MSG=no} ]) AS_IF([test "x$enable_https" = "xyes"], [AC_MSG_NOTICE([HTTPS subsystem configuration: License : LGPL version 2.1 or any later version ])], [AC_MSG_NOTICE([ License : LGPLv2.1+ or eCos ])]) AS_IF([test "x$enable_bauth" != "xyes" || \ test "x$enable_dauth" != "xyes" || \ test "x${enable_md5}" = "xno" || \ test "x${enable_sha256}" = "xno" || \ test "x${enable_sha512_256}" != "xyes" || \ test "x$enable_httpupgrade" != "xyes" || \ test "x$enable_cookie" != "xyes" || \ test "x$enable_postprocessor" != "xyes"], [AC_MSG_NOTICE([WARNING: This will be a custom build with missing symbols. Do NOT use this build in a distribution. Building with these kinds of configure options is only for custom builds for embedded systems.])])