# # Copyright (C) 2010-2015 Mamadou DIOP # Copyright (C) 2011-2015 Doubango Telecom # License: GPLv3 or commercial # This file is part of Doubango VoIP framework # AC_PREREQ([2.0]) AC_INIT(libdoubango, 2.0.1316, doubango(at)googlegroups(dot)com) AC_CANONICAL_SYSTEM AM_INIT_AUTOMAKE([subdir-objects]) AC_CONFIG_MACRO_DIR([m4]) AC_CONFIG_HEADERS([config.h]) AC_CONFIG_SRCDIR([tinySAK/src/tsk.c]) ### HOST FOR CROSS-COMPILING target_os=`uname -s` android_cpu=unknown case "$host" in arm-*-linux-androideabi) target_os=android android_cpu=armv5te ;; aarch64-*-linux-android) target_os=android android_cpu=arm64 ;; x86_64-*-linux-android) target_os=android android_cpu=x64 ;; i686-*-linux-android) target_os=android android_cpu=x86 ;; *) AC_MSG_NOTICE(["Using host as target os: $host"]) ;; esac ### ANDROID-CPU AC_ARG_WITH(android-cpu, [ --with-android-cpu[=cpu] set android CPU type [[default=armv5te]] armv5te: ARMv5TE armv7-a: ARMv7-a *without* NEON armv7-a-neon: ARMv7-a *with* NEON arm64: aarch64 x86: X86 x64: X86_64], [ android_cpu=$withval ]) ### ANDROID-TOOLCHAIN (http://www.kandroid.org/ndk/docs/STANDALONE-TOOLCHAIN.html) if test "$target_os" = "android"; then case "$android_cpu" in x86) export SYSROOT=$NDK/platforms/android-23/arch-x86 export ANDROID_PREFIX=i686-linux-android export ANDROID_TOOLCHAIN=$(pwd)/my-android-toolchain-android-x86 $NDK/build/tools/make-standalone-toolchain.sh --platform=android-23 --arch=x86 --install-dir=$ANDROID_TOOLCHAIN export CFLAGS='-DANDROID=1' AC_SUBST(TARGET_ARCH, "x86") ;; x64) export SYSROOT=$NDK/platforms/android-21/arch-x86_64 export ANDROID_PREFIX=x86_64-linux-android export ANDROID_TOOLCHAIN=$(pwd)/my-android-toolchain-android-x86_64 $NDK/build/tools/make-standalone-toolchain.sh --arch=x86_64 --platform=android-21 --install-dir=$ANDROID_TOOLCHAIN export CFLAGS='-DANDROID=1' AC_SUBST(TARGET_ARCH, "x86") ;; arm64) export ANDROID_PREFIX=aarch64-linux-android export SYSROOT=$NDK/platforms/android-21/arch-arm64 export ANDROID_TOOLCHAIN=$(pwd)/my-android-toolchain-android-arm64 $NDK/build/tools/make-standalone-toolchain.sh --arch=arm64 --platform=android-21 --install-dir=$ANDROID_TOOLCHAIN export CFLAGS='-DANDROID=1 -D__ARMEL__' AC_SUBST(TARGET_ARCH, "arm") ;; armv7-a) export ANDROID_PREFIX=arm-linux-androideabi export SYSROOT=$NDK/platforms/android-23/arch-arm export ANDROID_TOOLCHAIN=$(pwd)/my-android-toolchain-android-armv7-a $NDK/build/tools/make-standalone-toolchain.sh --platform=android-23 --arch=arm --install-dir=$ANDROID_TOOLCHAIN export CFLAGS='-march=armv7-a -mfloat-abi=softfp -DANDROID=1 -D__ARMEL__' export LDFLAGS='-Wl,--fix-cortex-a8' AC_SUBST(TARGET_ARCH, "arm") ;; armv7-a-neon) export ANDROID_PREFIX=arm-linux-androideabi export SYSROOT=$NDK/platforms/android-23/arch-arm export ANDROID_TOOLCHAIN=$(pwd)/my-android-toolchain-android-armv7-a-neon $NDK/build/tools/make-standalone-toolchain.sh --platform=android-23 --arch=arm --install-dir=$ANDROID_TOOLCHAIN export CFLAGS='-march=armv7-a -mfloat-abi=softfp -mfpu=neon -DANDROID=1' export LDFLAGS='-Wl,--fix-cortex-a8' AC_SUBST(TARGET_ARCH, "arm") ;; *) export ANDROID_PREFIX=arm-linux-androideabi export SYSROOT=$NDK/platforms/android-23/arch-arm export ANDROID_TOOLCHAIN=$(pwd)/my-android-toolchain-armv5te $NDK/build/tools/make-standalone-toolchain.sh --platform=android-23 --arch=arm --install-dir=$ANDROID_TOOLCHAIN AC_SUBST(TARGET_ARCH, "arm") ;; esac AC_SUBST(NDK, $NDK) export CFLAGS="${CFLAGS} -fsigned-char" export CPPFLAGS="$CFLAGS -fPIC" export LDFLAGS="${LDFLAGS} -lc -lm -lgcc" export PATH=$ANDROID_TOOLCHAIN/bin:$PATH export CC=$ANDROID_TOOLCHAIN/bin/$ANDROID_PREFIX-gcc export AR=$ANDROID_TOOLCHAIN/bin/$ANDROID_PREFIX-ar export CXX=$ANDROID_TOOLCHAIN/bin/$ANDROID_PREFIX-g++ export AS=$ANDROID_TOOLCHAIN/bin/$ANDROID_PREFIX-as export RANLIB=$ANDROID_TOOLCHAIN/bin/$ANDROID_PREFIX-ranlib export STRIP=$ANDROID_TOOLCHAIN/bin/$ANDROID_PREFIX-strip fi dnl find suitable C and C++ compilers AC_PROG_CC AC_PROG_CXX AC_PROG_INSTALL AC_PROG_LIBTOOL AC_LIBTOOL_WIN32_DLL AC_PROG_SED AC_PROG_MAKE_SET PKG_PROG_PKG_CONFIG ### Set Target OS AM_CONDITIONAL([TARGET_OS_IS_ANDROID], [test "x$target_os" = xandroid]) ### CROSS COMPILATION? AM_CONDITIONAL([CROSS_COMPILING], [test "x$cross_compiling" = xyes]) ### ENABLE GPL CODE AC_ARG_ENABLE(gpl, [ AS_HELP_STRING([--disable-gpl], [Disable GPL code]) ], [ ],[]) test "x$enable_gpl" = "x" && enable_gpl=yes ### ENABLE NONFREE CODE AC_ARG_ENABLE(nonfree, [ AS_HELP_STRING([--disable-nonfree], [Disable NONFREE code]) ], [ ],[]) test "x$enable_nonfree" = "x" && enable_nonfree=yes ### ENABLE-DEBUG AC_MSG_CHECKING(whether to enable debugging) debug_default="no" AC_ARG_ENABLE(debug, [ --enable-debug[=no/yes] turn on/off debugging [[default=$debug_default]]], [ if test "x$enableval" = "xyes" ; then AC_DEFINE(DEBUG_LEVEL, DEBUG_LEVEL_INFO, []) else AC_DEFINE(DEBUG_LEVEL, DEBUG_LEVEL_ERROR, []) fi ], []) test "x$enable_debug" = "x" && enable_debug=no AM_CONDITIONAL(USE_DEBUG, test x"$enable_debug" = x"yes") if test "$enable_debug" = "yes"; then CFLAGS="${CFLAGS} -O0 -g3 -DDEBUG" CPPFLAGS=$CFLAGS CXXFLAGS=$CFLAGS else if test "$target_os" = "android"; then CFLAGS="${CFLAGS} -Os -s" else CFLAGS="${CFLAGS} -O3 -DNDEBUG" fi CPPFLAGS=$CFLAGS CXXFLAGS=$CFLAGS fi ### DEBUG-LEVEL debug_level=error AC_ARG_WITH(debug-level, [ --with-debug-level[=level] Set debug-level to level [[default=error]] info: informational warn: warnings error [default]: errors fatal: fatal], [ if test "x$withval" = "xinfo" ; then AC_DEFINE(DEBUG_LEVEL, DEBUG_LEVEL_INFO, [info debug]) AC_MSG_RESULT(info) elif test "x$withval" = "xwarn" ; then AC_DEFINE(DEBUG_LEVEL, DEBUG_LEVEL_INFO, [warn debug]) AC_MSG_RESULT(warn) elif test "x$withval" = "xerror" ; then AC_DEFINE(DEBUG_LEVEL, DEBUG_LEVEL_ERROR, [error debug]) AC_MSG_RESULT(error) elif test "x$withval" = "xfatal" ; then AC_DEFINE(DEBUG_LEVEL, DEBUG_LEVEL_FATAL, [fatal debug]) AC_MSG_RESULT(fatal) fi debug_level=$withval ]) ### BUILD-TYPE build_type=doubango AC_ARG_WITH(build-type, [ --with-build-type[=bt] Set build-type to bt [[default=doubango]] doubango [default]: Doubango Telecom ge: General Electric tiscali: Tiscali tch: Technicolor], [ if test "x$withval" = "xtch" ; then AC_DEFINE(BUILD_TYPE_TCH, 1, [Technicolor]) elif test "x$withval" = "xge" ; then AC_DEFINE(BUILD_TYPE_GE, 1, [General Electric]) elif test "x$withval" = "xtiscali" ; then AC_DEFINE(BUILD_TYPE_TISCALI, 1, [Tiscali]) fi build_type="$withval" ]) ### CFLAGS && LDFLAGS if test "$target_os" = "android"; then home_dir=`pwd` CFLAGS="${CFLAGS} -I${home_dir}/thirdparties/android/${android_cpu}/include -I${home_dir}/thirdparties/android/common/include -I${home_dir}/thirdparties/common/include -I${home_dir}/thirdparties/common/include/libyuv" CPPFLAGS=$CFLAGS LDFLAGS="${LDFLAGS} -L${home_dir}/thirdparties/android/${android_cpu}/lib/dist" if test "$enable_gpl" = yes; then LDFLAGS="${LDFLAGS} -L${home_dir}/thirdparties/android/${android_cpu}/lib/dist/gpl" else LDFLAGS="${LDFLAGS} -L${home_dir}/thirdparties/android/${android_cpu}/lib/dist/lgpl" fi AC_SUBST(CFLAGS) AC_SUBST(LDFLAGS) fi AC_CHECK_FUNCS([stricmp strnicmp strtok_r strtok_s]) AC_TRY_COMPILE([#include ], [static int k = PTHREAD_MUTEX_RECURSIVE;], [AC_DEFINE(TSK_RECURSIVE_MUTEXATTR, PTHREAD_MUTEX_RECURSIVE, [Check whether PTHREAD_MUTEX_RECURSIVE is defined])], [AC_TRY_COMPILE([#include ], [static int k = PTHREAD_MUTEX_RECURSIVE_NP;], [AC_DEFINE(TSK_RECURSIVE_MUTEXATTR, PTHREAD_MUTEX_RECURSIVE_NP, [Check whether PTHREAD_MUTEX_RECURSIVE_NP is defined])])]) AC_TRY_COMPILE([#include ], [static int a = 0; __sync_fetch_and_add(&a, 1);], [AC_DEFINE(HAVE___SYNC_FETCH_AND_ADD, 1, [Check whether __sync_fetch_and_add is defined])],[]) AC_TRY_COMPILE([#include ], [static int a = 0; __sync_fetch_and_sub(&a, 1);], [AC_DEFINE(HAVE___SYNC_FETCH_AND_SUB, 1, [Check whether __sync_fetch_and_sub is defined])],[]) AC_DEFINE(USE_POLL, 1, [Setting USE_POLL to 1 for backward compatibility]) AC_CHECK_FUNCS([inet_pton inet_ntop poll getdtablesize opendir closedir getpid]) AC_CHECK_HEADERS([arpa/inet.h net/if_types.h net/if_dl.h poll.h unistd.h dirent.h fcntl.h sys/param.h sys/resource.h linux/videodev2.h]) AC_CHECK_FUNC(getifaddrs, AC_DEFINE(HAVE_GETIFADDRS, 1 ,[Define to 1 if you have the 'getifaddrs' function])) AH_TEMPLATE([HAVE_IFADDRS_H], [Define if header exist]) AC_CHECK_HEADER([ifaddrs.h], AC_DEFINE(HAVE_IFADDRS_H, 1), AC_DEFINE(HAVE_IFADDRS_H, 0), []) AH_TEMPLATE([HAVE_NET_IF_DL_H], [Define if header exist]) AC_CHECK_HEADER([net/if_dl.h], AC_DEFINE(HAVE_NET_IF_DL_H, 1), AC_DEFINE(HAVE_NET_IF_DL_H, 0), []) AH_TEMPLATE([HAVE_NET_IF_TYPES_H], [Define if header exist]) AC_CHECK_HEADER([net/if_types.h], AC_DEFINE(HAVE_NET_IF_TYPES_H, 1), AC_DEFINE(HAVE_NET_IF_TYPES_H, 0), []) AH_TEMPLATE([HAVE_NETPACKET_PACKET_H], [Define if header exist]) AC_CHECK_HEADER([netpacket/packet.h], AC_DEFINE(HAVE_NETPACKET_PACKET_H, 1), AC_DEFINE(HAVE_NETPACKET_PACKET_H, 0), []) AH_TEMPLATE([HAVE_NET_ROUTE_H], [Define if header exist]) AC_CHECK_HEADER([net/route.h], AC_DEFINE(HAVE_NET_ROUTE_H, 1), AC_DEFINE(HAVE_NET_ROUTE_H, 0), []) AC_CHECK_TYPES([struct rt_metrics], [], [], [ #if HAVE_NET_ROUTE_H # include #endif ]) AC_CHECK_TYPES([struct sockaddr_dl], [], [], [ #if HAVE_NET_IF_DL_H # include #endif ]) AC_CHECK_TYPES([struct rlimit], [AC_CHECK_FUNCS([getrlimit setrlimit])], [], [ #if HAVE_SYS_RESOURCE_H # include #endif ]) AC_CHECK_TYPES([struct dirent], [], [], [ #if HAVE_DIRENT_H # include #endif ]) have_resolv=no AH_TEMPLATE([HAVE_DNS_H], [Define if header exist]) AM_CONDITIONAL(USE_RESOLV, false) AC_CHECK_LIB([resolv], [dns_search], AC_SUBST(LIBRESOLV_LIBADD, "-lresolv") AM_CONDITIONAL(USE_RESOLV, true) [have_resolv=yes], AC_SUBST(LIBRESOLV_LIBADD, "") ) # check for only if libresolv exist test $have_resolv = yes && AC_CHECK_HEADER([dns.h], AC_DEFINE(HAVE_DNS_H, 1), AC_DEFINE(HAVE_DNS_H, 0), []) AM_CONDITIONAL(USE_RT, false) have_rt=no AC_CHECK_LIB([rt], [clock_gettime], AC_SUBST(LIBRT_LIBADD, "-lrt") AC_DEFINE(HAVE_CLOCK_GETTIME, 1, [Define to 1 if we have the `clock_gettime' function.]) AM_CONDITIONAL(USE_RT, true) [have_rt=yes], AC_SUBST(LIBRT_LIBADD, "") ) have_alsa=no AH_TEMPLATE([HAVE_ALSA_ASOUNDLIB_H], [Define if header exist]) AM_CONDITIONAL(USE_ALSA, false) AC_CHECK_LIB([asound], [snd_pcm_open], AC_SUBST(LIBASOUND_LIBADD, "-lasound") AM_CONDITIONAL(USE_ALSA, true) [have_alsa=yes], AC_SUBST(LIBASOUND_LIBADD, "") ) # check for only if libasound exist test $have_alsa = yes && AC_CHECK_HEADER([alsa/asoundlib.h], AC_DEFINE(HAVE_ALSA_ASOUNDLIB_H, 1), AC_DEFINE(HAVE_ALSA_ASOUNDLIB_H, 0) [have_alsa=no], []) have_oss=no AH_TEMPLATE([HAVE_LINUX_SOUNDCARD_H], [Define if header exist]) AC_CHECK_HEADER([linux/soundcard.h], AC_DEFINE(HAVE_LINUX_SOUNDCARD_H, 1) [have_oss=yes], AC_DEFINE(HAVE_LINUX_SOUNDCARD_H, 0), []) have_v4l2=no AH_TEMPLATE([HAVE_LINUX_VIDEODEV2_H], [Define if header exist]) AC_CHECK_HEADER([linux/videodev2.h], AC_DEFINE(HAVE_LINUX_VIDEODEV2_H, 1) [have_v4l2=yes], AC_DEFINE(HAVE_LINUX_VIDEODEV2_H, 0), []) AH_TEMPLATE([TNET_HAVE_SS_LEN], [Define if sockaddr_storage.ss_len exists]) AC_CHECK_MEMBER([struct sockaddr_storage.ss_len], AC_DEFINE(TNET_HAVE_SS_LEN, 1), AC_DEFINE(TNET_HAVE_SS_LEN,0), [#include ]) AH_TEMPLATE([TNET_HAVE_SA_LEN], [Define if sockaddr.sa_len exists]) AC_CHECK_MEMBER([struct sockaddr.sa_len], AC_DEFINE(TNET_HAVE_SA_LEN, 1), AC_DEFINE(TNET_HAVE_SA_LEN, 0), [#include ]) ######################################################## # SRTP # --with-srtp / --without-srtp as argument to configure ######################################################## AH_TEMPLATE([HAVE_APPEND_SALT_TO_KEY], [Checks if the installed libsrtp version support append_salt_to_key() function]) AH_TEMPLATE([HAVE_SRTP_PROFILE_GET_MASTER_KEY_LENGTH], [Checks if the installed libsrtp version support srtp_profile_get_master_key_length() function]) AH_TEMPLATE([HAVE_SRTP_PROFILE_GET_MASTER_SALT_LENGTH], [Checks if the installed libsrtp version support srtp_profile_get_master_salt_length() function]) have_srtp=no want_srtp=check path_srtp=undef AC_SUBST(LIBSRTP_LIBADD, "") AC_ARG_WITH(srtp, [ --with-srtp=PATH Build with SRTP (requires libsrtp). PATH is optional.], if test "x$withval" = "xyes"; then want_srtp=yes path_srtp=undef elif test "x$withval" = "xno"; then want_srtp=no path_srtp=undef elif test "$withval"; then want_srtp=yes path_srtp=$withval fi, ) # only if --without-srtp not used if test $want_srtp != no; then # check for lib and headers AC_CHECK_HEADERS(srtp/srtp.h, AC_CHECK_LIB(srtp, srtp_create, AC_DEFINE_UNQUOTED(HAVE_SRTP, 1, HAVE_SRTP) [have_srtp=yes] LIBSRTP_LIBADD="-lsrtp" AC_CHECK_LIB(srtp, append_salt_to_key, AC_DEFINE(HAVE_APPEND_SALT_TO_KEY, 1), AC_DEFINE(HAVE_APPEND_SALT_TO_KEY, 0)) AC_CHECK_LIB(srtp, srtp_profile_get_master_key_length, AC_DEFINE(HAVE_SRTP_PROFILE_GET_MASTER_KEY_LENGTH, 1), AC_DEFINE(HAVE_SRTP_PROFILE_GET_MASTER_KEY_LENGTH, 0)) AC_CHECK_LIB(srtp, srtp_profile_get_master_salt_length, AC_DEFINE(HAVE_SRTP_PROFILE_GET_MASTER_SALT_LENGTH, 1), AC_DEFINE(HAVE_SRTP_PROFILE_GET_MASTER_SALT_LENGTH, 0)) , AC_DEFINE_UNQUOTED(HAVE_SRTP, 0, HAVE_SRTP) [have_srtp=no] )) # if srtp not found and requested then, die. test $have_srtp:$want_srtp = no:yes && AC_MSG_ERROR([You requested SRTP (requires libsrtp) but not found...die]) fi AM_CONDITIONAL([USE_SRTP], [test $have_srtp = yes]) ######################################################## # SSL # --with-ssl / --without-ssl as argument to configure ######################################################## have_ssl=no have_dtls_srtp=no have_dtls=no want_ssl=check path_ssl=undef AC_SUBST(LIBSSL_LIBADD, "") AC_ARG_WITH(ssl, [ --with-ssl=PATH Build with SSL (requires OpenSSL). PATH is optional.], if test "x$withval" = "xyes"; then want_ssl=yes path_ssl=undef elif test "x$withval" = "xno"; then want_ssl=no path_ssl=undef elif test "$withval"; then want_ssl=yes path_ssl=$withval fi, ) # only if --without-ssl not used if test $want_ssl != no; then # check for lib and headers AC_CHECK_HEADERS(openssl/ssl.h, AC_CHECK_LIB(ssl, SSL_connect, AC_DEFINE_UNQUOTED(HAVE_OPENSSL, 1, HAVE_OPENSSL) [have_ssl=yes] LIBSSL_LIBADD="${LIBSSL_LIBADD} -lssl", AC_DEFINE_UNQUOTED(HAVE_OPENSSL, 0, HAVE_OPENSSL) [have_ssl=no], [-lcrypto] )) AC_CHECK_LIB(crypto, CRYPTO_new_ex_data, LIBSSL_LIBADD="${LIBSSL_LIBADD} -lcrypto" AC_CHECK_LIB(ssl, SSL_CTX_set_tlsext_use_srtp, AC_DEFINE_UNQUOTED(HAVE_OPENSSL_DTLS_SRTP, 1, HAVE_OPENSSL_DTLS_SRTP) [have_dtls_srtp=yes],[],[-lcrypto]) AC_CHECK_LIB(ssl, DTLSv1_method, AC_DEFINE_UNQUOTED(HAVE_OPENSSL_DTLS, 1, HAVE_OPENSSL_DTLS) [have_dtls=yes],[],[-lcrypto]) ) # if ssl not found and requested then, die. test $have_ssl:$want_ssl = no:yes && AC_MSG_ERROR([You requested SSL (requires OpenSSL) but not found...die]) fi AM_CONDITIONAL([USE_SSL], [test $have_ssl = yes]) ######################################################## # FFmpeg # --with-ffmpeg / --without-ffmpeg as argument to configure ######################################################## have_ffmpeg=no want_ffmpeg=check path_ffmpeg=undef AC_SUBST(LIBFFMPEG_LIBADD, "") AC_ARG_WITH(ffmpeg, [ --with-ffmpeg=PATH Build with FFmpeg (h264, h263, theora, mp4v-es). PATH is optional.], if test "x$withval" = "xyes"; then want_ffmpeg=yes path_ffmpeg=undef elif test "x$withval" = "xno"; then want_ffmpeg=no path_ffmpeg=undef elif test "$withval"; then want_ffmpeg=yes path_ffmpeg=$withval fi, ) # only if --without-opus not used if test $want_ffmpeg != no; then have_avutil=check AC_CHECK_HEADERS(libavutil/avutil.h, AC_CHECK_LIB(avutil, av_gettime, [have_avutil=yes] LIBFFMPEG_LIBADD="-lavutil ${LIBFFMPEG_LIBADD}", [have_avutil=no]) ) have_swscale=check AC_CHECK_HEADERS(libswscale/swscale.h, AC_CHECK_LIB(swscale, sws_scale, [have_swscale=yes] LIBFFMPEG_LIBADD="-lswscale ${LIBFFMPEG_LIBADD}", [have_swscale=no], [-lavutil]) ) have_avcodec=check AC_CHECK_HEADERS(libavcodec/avcodec.h, AC_CHECK_LIB(avcodec, avcodec_alloc_frame, [have_avcodec=yes] LIBFFMPEG_LIBADD="-lavcodec ${LIBFFMPEG_LIBADD}", [have_avcodec=no], [-lavutil]) ) test $have_avutil:$have_swscale:$have_avcodec = yes:yes:yes && have_ffmpeg=yes && AC_DEFINE_UNQUOTED(HAVE_FFMPEG, 1, HAVE_FFMPEG) # if ffmpeg not found and requested then, die. test $have_ffmpeg:$want_ffmpeg = no:yes && AC_MSG_ERROR([You requested FFmpeg (h264, h263, theora, mp4v-es) but not found...die]) fi AM_CONDITIONAL([USE_FFMPEG], [test $have_ffmpeg = yes]) ######################################################## # X264 ######################################################## AM_CONDITIONAL(USE_X264, [test $target_os:$enable_gpl:$have_ffmpeg = android:yes:yes]) # X264 is always there for Android and statically linked AC_SUBST(LIBX264_LIBADD, "-lx264") AC_ARG_WITH(x264, [ --with-x264 IMPORTANT: deprecated to be removed ],[], []) ######################################################## # OpenH264 # --with-openh264 / --without-openh264 as argument to configure ######################################################## have_openh264=no want_openh264=check path_openh264=undef AC_SUBST(LIBOPENH264_LIBADD, "") AC_ARG_WITH(openh264, [ --with-openh264=PATH Build with OpenH264 video codecs. PATH is optional.], if test "x$withval" = "xyes"; then want_openh264=yes path_openh264=undef elif test "x$withval" = "xno"; then want_openh264=no path_openh264=undef elif test "$withval"; then want_openh264=yes path_openh264=$withval fi, ) # only if --without-openh264 not used if test $want_openh264 != no; then # check for lib and headers AC_LANG_PUSH([C++]) AC_CHECK_HEADERS(wels/codec_api.h wels/codec_app_def.h, AC_CHECK_LIB(openh264, WelsCreateSVCEncoder, AC_CHECK_LIB(openh264, WelsCreateDecoder, AC_DEFINE_UNQUOTED(HAVE_OPENH264, 1, HAVE_OPENH264) [have_openh264=yes] LIBOPENH264_LIBADD="-lopenh264", AC_DEFINE_UNQUOTED(HAVE_OPENH264, 0, HAVE_OPENH264) [have_openh264=no] ))) AC_LANG_POP([C++]) # if opus not found and requested then, die. test $have_openh264:$want_openh264 = no:yes && AC_MSG_ERROR([You requested OpenH264 video codec but not found...die]) fi AM_CONDITIONAL([USE_OPENH264], [test $have_openh264 = yes]) ######################################################## # VPX (VP8, VP9) # --with-vpx / --without-vpx as argument to configure ######################################################## have_vpx=no want_vpx=check path_vpx=undef AC_SUBST(LIBVPX_LIBADD, "") AC_ARG_WITH(vpx, [ --with-vpx=PATH Build with VPX(VP8, VP9) video codecs. PATH is optional.], if test "x$withval" = "xyes"; then want_vpx=yes path_vpx=undef elif test "x$withval" = "xno"; then want_vpx=no path_vpx=undef elif test "$withval"; then want_vpx=yes path_vpx=$withval fi, ) # only if --without-vpx not used if test $want_vpx != no; then # check for lib and headers AC_CHECK_HEADERS(vpx/vpx_encoder.h vpx/vpx_decoder.h, AC_CHECK_LIB(vpx, vpx_codec_encode, AC_DEFINE_UNQUOTED(HAVE_LIBVPX, 1, HAVE_LIBVPX) [have_vpx=yes] LIBVPX_LIBADD="-lvpx", AC_DEFINE_UNQUOTED(HAVE_LIBVPX, 0, HAVE_LIBVPX) [have_vpx=no] )) # if opus not found and requested then, die. test $have_vpx:$want_vpx = no:yes && AC_MSG_ERROR([You requested VPX(VP8, VP9) video codecs but not found...die]) fi AM_CONDITIONAL([USE_VPX], [test $have_vpx = yes]) ######################################################## # YUV # --with-yuv / --without-yuv as argument to configure ######################################################## have_yuv=no want_yuv=check path_yuv=undef AC_SUBST(LIBYUV_LIBADD, "") AC_SUBST(LIBYUV_INCLUDE, "") AC_SUBST(LIBYUV_LIB, "") AC_ARG_WITH(yuv, [ --with-yuv=PATH Build with LIBYUV. PATH is optional.], if test "x$withval" = "xyes"; then want_yuv=yes path_yuv=undef elif test "x$withval" = "xno"; then want_yuv=no path_yuv=undef elif test "$withval"; then want_yuv=yes path_yuv=$withval fi, ) # only if --without-yuv not used if test $want_yuv != no; then if test "x$path_yuv" = xundef; then if test "$target_os" != "android"; then LIBYUV_INCLUDE="-I/usr/local/include -I/usr/local/include/libyuv" LIBYUV_LIB="-L/usr/local/lib" fi else LIBYUV_INCLUDE="-I${path_yuv}/include -I${path_yuv}/include/libyuv" LIBYUV_LIB="-L${path_yuv}/lib" fi AC_LANG_PUSH([C++]) CFLAGS_SAVED=$CFLAGS CPPFLAGS_SAVED=$CPPFLAGS CFLAGS="${CFLAGS} ${LIBYUV_INCLUDE}" CPPFLAGS="${CPPFLAGS} ${LIBYUV_INCLUDE}" # check for lib and headers AC_CHECK_HEADERS(libyuv/libyuv.h, AC_CHECK_LIB(yuv, I420Scale, AC_DEFINE_UNQUOTED(HAVE_LIBYUV, 1, HAVE_LIBYUV) [have_yuv=yes] AC_SUBST(LIBYUV_LIBADD, "-lyuv"), AC_DEFINE_UNQUOTED(HAVE_LIBYUV, 0, HAVE_LIBYUV) [have_yuv=no] )) test $have_yuv = yes && LIBYUV_LIB="${LIBYUV_LIB}" # if opus not found and requested then, die. test $have_yuv:$want_yuv = no:yes && AC_MSG_ERROR([You requested LIBYUV but not found...die]) CFLAGS=$CFLAGS_SAVED CPPFLAGS=$CPPFLAGS_SAVED AC_LANG_POP([C++]) fi AM_CONDITIONAL([USE_YUV], [test $have_yuv = yes]) ######################################################## # JPEG # --with-jpeg / --without-jpeg as argument to configure ######################################################## have_jpeg=no want_jpeg=check path_jpeg=undef AC_SUBST(LIBJPEG_LIBADD, "") AC_ARG_WITH(jpeg, [ --with-jpeg=PATH Build with JPEG compression (requires libjpeg[-turbo] library). PATH is optional.], if test "x$withval" = "xyes"; then want_jpeg=yes path_jpeg=undef elif test "x$withval" = "xno"; then want_jpeg=no path_jpeg=undef elif test "$withval"; then want_jpeg=yes path_jpeg=$withval fi, ) # only if --without-jpeg not used if test $want_jpeg != no; then # check for lib and headers AC_CHECK_HEADERS(jpeglib.h jerror.h, AC_CHECK_LIB(jpeg, jpeg_CreateDecompress, [have_jpeg=yes] LIBJPEG_LIBADD="-ljpeg", [have_jpeg=no] )) # if jpeg not found and requested then, die. test $have_jpeg:$want_jpeg = no:yes && AC_MSG_ERROR([You requested JPEG library but not found...die]) # define HAVE_LIBJPEG 1 test $have_jpeg:$enable_nonfree = yes:yes && AC_DEFINE_UNQUOTED(HAVE_LIBJPEG, 1, HAVE_LIBJPEG) fi AM_CONDITIONAL([USE_JPEG], [test $have_jpeg:$enable_nonfree = yes:yes]) ######################################################## # AMR # --with-amr / --without-amr as argument to configure ######################################################## have_amr=no want_amr=check path_amr=undef AC_SUBST(LIBAMR_LIBADD, "") AC_ARG_WITH(amr, [ --with-amr=PATH Build with AMR audio codec (requires opencore-amr library). PATH is optional.], if test "x$withval" = "xyes"; then want_amr=yes path_amr=undef elif test "x$withval" = "xno"; then want_amr=no path_amr=undef elif test "$withval"; then want_amr=yes path_amr=$withval fi, ) # only if --without-amr not used if test $want_amr != no; then # check for lib and headers AC_CHECK_HEADERS(opencore-amrnb/interf_dec.h opencore-amrnb/interf_enc.h, AC_CHECK_LIB(opencore-amrnb, Encoder_Interface_init, [have_amr=yes] LIBAMR_LIBADD="-lopencore-amrnb", [have_amr=no] )) # if amr not found and requested then, die. test $have_amr:$want_amr = no:yes && AC_MSG_ERROR([You requested AMR audio codec but not found...die]) # define HAVE_OPENCORE_AMR 1 test $have_amr:$enable_nonfree = yes:yes && AC_DEFINE_UNQUOTED(HAVE_OPENCORE_AMR, 1, HAVE_OPENCORE_AMR) fi AM_CONDITIONAL([USE_AMR], [test $have_amr:$enable_nonfree = yes:yes]) ######################################################## # OPUS # --with-opus / --without-opus as argument to configure ######################################################## have_opus=no want_opus=check path_opus=undef AC_SUBST(LIBOPUS_LIBADD, "") AC_ARG_WITH(opus, [ --with-opus=PATH Build with OPUS audio codec. PATH is optional.], if test "x$withval" = "xyes"; then want_opus=yes path_opus=undef elif test "x$withval" = "xno"; then want_opus=no path_opus=undef elif test "$withval"; then want_opus=yes path_opus=$withval fi, ) # only if --without-opus not used if test $want_opus != no; then # check for lib and headers AC_CHECK_HEADERS(opus/opus.h, AC_CHECK_LIB(opus, opus_decoder_create, AC_DEFINE_UNQUOTED(HAVE_LIBOPUS, 1, HAVE_LIBOPUS) [have_opus=yes] LIBOPUS_LIBADD="-lopus", AC_DEFINE_UNQUOTED(HAVE_LIBOPUS, 0, HAVE_LIBOPUS) [have_opus=no] )) # if opus not found and requested then, die. test $have_opus:$want_opus = no:yes && AC_MSG_ERROR([You requested OPUS audio codec but not found...die]) fi AM_CONDITIONAL([USE_OPUS], [test $have_opus = yes]) ######################################################## # SPEEX # --with-speex / --without-speex as argument to configure ######################################################## have_speex=no want_speex=check path_speex=undef AC_SUBST(LIBSPEEX_LIBADD, "") AC_ARG_WITH(speex, [ --with-speex=PATH Build with SPEEX audio codec. PATH is optional.], if test "x$withval" = "xyes"; then want_speex=yes path_speex=undef elif test "x$withval" = "xno"; then want_speex=no path_speex=undef elif test "$withval"; then want_speex=yes path_speex=$withval fi, ) # only if --without-speex not used if test $want_speex != no; then # check lib and headers AC_CHECK_HEADERS(speex/speex.h, AC_CHECK_LIB(speex, speex_decode_int, AC_DEFINE_UNQUOTED(HAVE_LIB_SPEEX, 1, HAVE_LIB_SPEEX) [have_speex=yes] LIBSPEEX_LIBADD="-lspeex", AC_DEFINE_UNQUOTED(HAVE_LIB_SPEEX, 0, HAVE_LIB_SPEEX) [have_speex=no] )) # if speex not found and requested then, die. test $have_speex:$want_speex = no:yes && AC_MSG_ERROR([You requested SPEEX audio codec but not found...die]) fi AM_CONDITIONAL([USE_SPEEX], [test $have_speex = yes]) ######################################################## # SPEEXDSP # --with-speexdsp / --without-speexdsp as argument to configure ######################################################## have_speexdsp=no want_speexdsp=check path_speexdsp=undef AC_SUBST(LIBSPEEXDSP_LIBADD, "") AC_ARG_WITH(speexdsp, [ --with-speexdsp=PATH Build with SPEEX DSP (audio resampler, jitter buffer...). PATH is optional.], if test "x$withval" = "xyes"; then want_speexdsp=yes path_speexdsp=undef elif test "x$withval" = "xno"; then want_speexdsp=no path_speexdsp=undef elif test "$withval"; then want_speexdsp=yes path_speexdsp=$withval fi, ) # only if --without-speexdsp not used if test $want_speexdsp != no; then # check main lib AC_CHECK_HEADERS(speex/speex_preprocess.h, AC_CHECK_LIB(speexdsp, speex_preprocess_state_init, AC_DEFINE_UNQUOTED(HAVE_SPEEX_DSP, 1, HAVE_SPEEX_DSP) [have_speexdsp=yes] LIBSPEEXDSP_LIBADD="-lspeexdsp", AC_DEFINE_UNQUOTED(HAVE_SPEEX_DSP, 0, HAVE_SPEEX_DSP) [have_speexdsp=no]) ) # check for jitter buffer AC_CHECK_HEADERS(speex/speex_jitter.h, AC_CHECK_LIB(speexdsp, jitter_buffer_init, AC_DEFINE_UNQUOTED(HAVE_SPEEX_JB, 1, HAVE_SPEEX_JB), AC_DEFINE_UNQUOTED(HAVE_SPEEX_JB, 0, HAVE_SPEEX_JB)) ) # check for resampler AC_CHECK_HEADERS(speex/speex_resampler.h, AC_CHECK_LIB(speexdsp, speex_resampler_init, AC_DEFINE_UNQUOTED(HAVE_SPEEX_RESAMPLER, 1, HAVE_SPEEX_RESAMPLER), AC_DEFINE_UNQUOTED(HAVE_SPEEX_RESAMPLER, 0, HAVE_SPEEX_RESAMPLER)) ) # check for denoiser and echo canceler AC_CHECK_HEADERS(speex/speex_echo.h, AC_CHECK_LIB(speexdsp, speex_echo_playback, AC_DEFINE_UNQUOTED(HAVE_SPEEX_DENOISE, 1, HAVE_SPEEX_DENOISE), AC_DEFINE_UNQUOTED(HAVE_SPEEX_DENOISE, 0, HAVE_SPEEX_DENOISE)) ) # if speex not found and requested then, die. test $have_speexdsp:$want_speexdsp = no:yes && AC_MSG_ERROR([You requested SPEEX DSP but not found...die]) fi AM_CONDITIONAL([USE_SPEEXDSP], [test $have_speexdsp = yes]) # Deprecated options: to be removed AC_ARG_ENABLE(speexresampler, [ --enable-speexresampler IMPORTANT: deprecated to be removed], , ) AC_ARG_ENABLE(speexdenoiser, [ --enable-speexdenoiser IMPORTANT: deprecated to be removed], , ) AC_ARG_ENABLE(speexjb, [ --enable-speexjb IMPORTANT: deprecated to be removed], , ) ######################################################## # GSM # --with-gsm / --without-gsm as argument to configure ######################################################## have_gsm=no want_gsm=check path_gsm=undef AC_SUBST(LIBGSM_LIBADD, "") AC_ARG_WITH(gsm, [ --with-gsm=PATH Build with GSM audio codec. PATH is optional.], if test "x$withval" = "xyes"; then want_gsm=yes path_gsm=undef elif test "x$withval" = "xno"; then want_gsm=no path_gsm=undef elif test "$withval"; then want_gsm=yes path_gsm=$withval fi, ) # only if --without-gsm not used if test $want_gsm != no; then # check lib and headers AC_CHECK_HEADERS(gsm.h, AC_CHECK_LIB(gsm, gsm_create, AC_DEFINE_UNQUOTED(HAVE_LIBGSM, 1, HAVE_LIBGSM) [have_gsm=yes] LIBGSM_LIBADD="-lgsm", AC_DEFINE_UNQUOTED(HAVE_LIBGSM, 0, HAVE_LIBGSM) [have_gsm=no] )) # if gsm not found and requested then, die. test $have_gsm:$want_gsm = no:yes && AC_MSG_ERROR([You requested GSM audio codec but not found...die]) fi AM_CONDITIONAL([USE_GSM], [test $have_gsm = yes]) ######################################################## # G729 # --with-g729 / --without-g729 as argument to configure ######################################################## have_g729=no want_g729=check path_g729=undef AC_SUBST(LIBG729_LIBADD, "") AC_ARG_WITH(g729, [ --with-g729=PATH Build with G.729 audio codec. PATH is optional.], if test "x$withval" = "xyes"; then want_g729=yes path_g729=undef elif test "x$withval" = "xno"; then want_g729=no path_g729=undef elif test "$withval"; then want_g729=yes path_g729=$withval fi, ) # only if --without-g729 not used if test $want_g729 != no; then # check lib and headers AC_CHECK_HEADERS(g729b/typedef.h g729b/ld8a.h, AC_CHECK_LIB(g729b, Init_Decod_ld8a, [have_g729=yes] LIBG729_LIBADD="-lg729b", [have_g729=no]), [], [[#ifdef HAVE_G729B_TYPEDEF_H # include #endif ]]) # if g729 not found and requested then, die. test $have_g729:$want_g729 = no:yes && AC_MSG_ERROR([You requested G729 audio codec but not found...die]) #define HAVE_G729 1 test $have_g729:$enable_nonfree = yes:yes && AC_DEFINE_UNQUOTED(HAVE_G729, 1, HAVE_G729) fi AM_CONDITIONAL([USE_G729], [test $have_g729:$enable_nonfree = yes:yes]) ######################################################## # ILBC # --with-ilbc / --without-ilbc as argument to configure ######################################################## have_ilbc=no want_ilbc=check path_ilbc=undef AC_SUBST(LIBILBC_LIBADD, "") AC_ARG_WITH(ilbc, [ --with-ilbc=PATH Build with ILBC audio codec. PATH is optional.], if test "x$withval" = "xyes"; then want_ilbc=yes path_ilbc=undef elif test "x$withval" = "xno"; then want_ilbc=no path_ilbc=undef elif test "$withval"; then want_ilbc=yes path_ilbc=$withval fi, ) # only if --without-ilbc not used if test $want_ilbc != no; then # check lib and headers AC_CHECK_HEADERS(ilbc/iLBC_define.h ilbc/iLBC_encode.h ilbc/iLBC_decode.h, AC_CHECK_LIB(iLBC, initDecode, AC_DEFINE_UNQUOTED(HAVE_ILBC, 1, HAVE_ILBC) [have_ilbc=yes] LIBILBC_LIBADD="-liLBC", AC_DEFINE_UNQUOTED(HAVE_ILBC, 0, HAVE_ILBC) [have_ilbc=no], [-lm] )) # if gsm not found and requested then, die. test $have_ilbc:$want_ilbc = no:yes && AC_MSG_ERROR([You requested ILBC audio codec but not found...die]) fi AM_CONDITIONAL([USE_ILBC], [test $have_ilbc = yes]) ######################################################## # WEBRTC # --with-webrtc / --without-webrtc as argument to configure ######################################################## have_webrtc=no want_webrtc=check path_webrtc=undef AC_SUBST(LIBWEBRTC_LIBADD, "") AC_ARG_WITH(webrtc, [ --with-webrtc=PATH Build with WebRTC audio processing features (AEC, VAD, Noise supp...). PATH is optional.], if test "x$withval" = "xyes"; then want_webrtc=yes path_webrtc=undef elif test "x$withval" = "xno"; then want_webrtc=no path_webrtc=undef elif test "$withval"; then want_webrtc=yes path_webrtc=$withval fi, ) # only if --without-webrtc not used if test $want_webrtc != no; then # WebRTC AEC have_webrtc_aec=no if test "$target_os" = "android"; then AC_CHECK_HEADERS(webrtc/echo_control_mobile.h, AC_CHECK_LIB(audio_processing, WebRtcAecm_Create, [have_webrtc_aec=yes], [], [-lsystem_wrappers -lcommon_audio]) ) else AC_CHECK_HEADERS(webrtc/echo_cancellation.h, AC_CHECK_LIB(audio_processing, WebRtcAec_Create, [have_webrtc_aec=yes], [], [-lsystem_wrappers -lcommon_audio]) ) fi # WebRTC NS have_webrtc_ns=no if test "$target_os" = "android"; then AC_CHECK_HEADERS(webrtc/noise_suppression_x.h, AC_CHECK_LIB(audio_processing, WebRtcNsx_Process, [have_webrtc_ns=yes] [], [], [-lsystem_wrappers -lcommon_audio]) ) else AC_CHECK_HEADERS(webrtc/noise_suppression.h, AC_CHECK_LIB(audio_processing, WebRtcNs_Process, [have_webrtc_ns=yes] [], [], [-lsystem_wrappers -lcommon_audio]) ) fi if test $have_webrtc_aec:$have_webrtc_ns = yes:yes; then have_webrtc=yes AC_DEFINE_UNQUOTED(HAVE_WEBRTC, 1, HAVE_WEBRTC) AC_DEFINE_UNQUOTED(HAVE_WEBRTC_DENOISE, 1, HAVE_WEBRTC_DENOISE) LIBWEBRTC_LIBADD="-laudio_processing -lcommon_audio -lsystem_wrappers" fi test $have_webrtc:$want_webrtc = no:yes && AC_MSG_ERROR([You requested WebRTC (audio processing features) but not found...die]) fi AM_CONDITIONAL([USE_WEBRTC], [test $have_webrtc = yes]) AC_CONFIG_FILES( Makefile doubango.pc tinySAK/Makefile tinySAK/tinySAK.pc tinyNET/Makefile tinyNET/tinyNET.pc tinyHTTP/Makefile tinyHTTP/tinyHTTP.pc tinyXCAP/Makefile tinyXCAP/tinyXCAP.pc tinyIPSec/Makefile tinyIPSec/tinyIPSec.pc tinySMS/Makefile tinySMS/tinySMS.pc tinySIGCOMP/Makefile tinySIGCOMP/tinySIGCOMP.pc tinySDP/Makefile tinySDP/tinySDP.pc tinyBFCP/Makefile tinyBFCP/tinyBFCP.pc tinyRTP/Makefile tinyRTP/tinyRTP.pc tinyMSRP/Makefile tinyMSRP/tinyMSRP.pc tinyMEDIA/Makefile tinyMEDIA/tinyMEDIA.pc tinyDAV/Makefile tinyDAV/tinyDAV.pc tinySIP/Makefile tinySIP/tinySIP.pc bindings/Makefile bindings/tinyWRAP.pc plugins/audio_opensles/Makefile plugins/audio_opensles/plugin_audio_opensles.pc ) AC_OUTPUT AC_MSG_NOTICE([ ************************************************************************** * CONGRATULATIONS ************************************************************************** Cross Compilation: ${cross_compiling} Target OS: ${target_os} Host setup: ${host} Install prefix: ${prefix} Compiler: ${CC} Build Type: ${build_type} Enable GPL: $enable_gpl Enable Non Free: $enable_nonfree FFmpeg: $have_ffmpeg VP8 video codec: $have_vpx OpenH264 video codec: $have_openh264 OPUS audio codec: $have_opus ILBC audio codec: $have_ilbc G.729 audio codec: $have_g729 -> $enable_nonfree GSM audio codec: $have_gsm AMR audio codec: $have_amr -> $enable_nonfree SPEEX audio codec: $have_speex G.722 audio codec: yes G.711 audio codec: yes YUV: $have_yuv JPEG: $have_jpeg SPEEX DSP: $have_speexdsp SSL: $have_ssl DTLS-SRTP: $have_dtls_srtp DTLS: $have_dtls SRTP: $have_srtp WebRTC: Enabled($have_webrtc): AEC($have_webrtc_aec), NS($have_webrtc_ns) Monotonic timers: $have_rt RESOLV: $have_resolv ALSA (audio): $have_alsa OSS (audio): $have_oss V4L2 (video): $have_v4l2 DEBUG: $enable_debug DEBUG_LEVEL: $debug_level Report any issue at https://groups.google.com/group/doubango ]) if test "$target_os" = "android"; then AC_MSG_NOTICE([ -------------------------------------------------------------------------- - ANDRDOID -------------------------------------------------------------------------- CPU: ${android_cpu} ]) fi