# -*- Autoconf -*- # Process this file with autoconf to produce a configure script. AC_PREREQ([2.50]) AC_INIT([shairport-sync], [3.2.2], [mikebrady@eircom.net]) AM_INIT_AUTOMAKE AC_CONFIG_SRCDIR([shairport.c]) AC_CONFIG_HEADERS([config.h]) # Derived from the Avahi configure.ac file # Specifying the OS type, defaulting to linux. # AC_ARG_WITH(os, AS_HELP_STRING([--with-os=OSType],[Specify the distribution to target: One of linux freebsd or darwin])) if test "z$with_os" = "z"; then with_os="linux" fi with_os=`echo ${with_os} | tr '[[:upper:]]' '[[:lower:]]' ` # Checks for programs. AC_PROG_CC AC_PROG_CXX AC_PROG_INSTALL PKG_PROG_PKG_CONFIG([0.9.0]) # Checks for libraries. if test "x${with_os}" = xlinux -o "x${with_os}" = xfreebsd ; then AC_CHECK_LIB([rt],[clock_gettime], , AC_MSG_ERROR(librt needed)) fi if test "x${with_os}" = xopenbsd ; then AC_CHECK_LIB([c],[clock_gettime], , AC_MSG_ERROR(libc needed)) fi AM_CONDITIONAL([BUILD_FOR_FREEBSD], [test "x${with_os}" = xfreebsd ]) AM_CONDITIONAL([BUILD_FOR_OPENBSD], [test "x${with_os}" = xopenbsd ]) ##### Some build systems are not fully using pkg-config, so we can use the flag ${with_pkg_config} on a case-by-case basis ##### to control how to deal with them AC_ARG_WITH([pkg_config], [ --with-pkg-config = use pkg-config to find libraries], ,[with_pkg_config=yes]) AC_MSG_RESULT(>>Including libdaemon) if test "x${with_pkg_config}" = xyes ; then PKG_CHECK_MODULES( [DAEMON], [libdaemon], [LIBS="${DAEMON_LIBS} ${LIBS}"]) else AC_CHECK_LIB([daemon],[daemon_fork], , AC_MSG_ERROR(libdaemon needed)) fi ##### The following check for the pthreads library doesn't put the compiler into the correct pthread mode ##### so we add the -pthread compilation flag in AMFLAGS in the Makefile.am as well. AC_CHECK_LIB([pthread],[pthread_create], , AC_MSG_ERROR(pthread library needed)) AC_CHECK_LIB([m],[exp], , AC_MSG_ERROR(maths library needed)) AC_MSG_RESULT(>>Including libpopt) if test "x${with_pkg_config}" = xyes ; then PKG_CHECK_MODULES( [POPT], [popt], [CFLAGS="${POPT_CFLAGS} ${CFLAGS}" LIBS="${POPT_LIBS} ${LIBS}" AC_DEFINE([HAVE_LIBPOPT],[1],[Define to 1 if you have popt])]) else AC_CHECK_LIB([popt],[poptGetContext], , AC_MSG_ERROR(libpopt needed)) AC_DEFINE([HAVE_LIBPOPT],[1],[Define to 1 if you have popt]) fi AC_ARG_WITH([dummy],[ --with-dummy = include the dummy audio back end ],[AC_MSG_RESULT(>>Including the dummy audio back end) AC_DEFINE([CONFIG_DUMMY], 1, [Needed by the compiler.]) ], ) AM_CONDITIONAL([USE_DUMMY], [test "x$with_dummy" = "xyes" ]) AC_ARG_WITH([stdout],[ --with-stdout = include the stdout audio back end ],[ AC_MSG_RESULT(>>Including the stdout audio back end) AC_DEFINE([CONFIG_STDOUT], 1, [Needed by the compiler.]) ], ) AM_CONDITIONAL([USE_STDOUT], [test "x$with_stdout" = "xyes" ]) AC_ARG_WITH([pipe],[ --with-pipe = include the pipe audio back end ],[ AC_MSG_RESULT(>>Including the pipe audio back end) AC_DEFINE([CONFIG_PIPE], 1, [Needed by the compiler.]) ], ) AM_CONDITIONAL([USE_PIPE], [test "x$with_pipe" = "xyes" ]) # Check to see if we should include the System V initscript AC_ARG_WITH([systemv], [ --with-systemv = install a System V startup script during a make install], , ) AM_CONDITIONAL([INSTALL_SYSTEMV], [test "x$with_systemv" = "xyes"]) # Check to see if we should include the systemd stuff to define it as a service AC_ARG_WITH([systemd], [ --with-systemd = install a systemd startup script during a make install], , ) AM_CONDITIONAL([INSTALL_SYSTEMD], [test "x$with_systemd" = "xyes"]) AC_ARG_WITH([freebsd-service], [ --with-freebsd-service = install a FreeBSD startup script during a make install], , ) AM_CONDITIONAL([INSTALL_FREEBSD_SERVICE], [test "x$with_freebsd_service" = "xyes"]) # Add the libconfig package if test "x${with_pkg_config}" = xyes ; then PKG_CHECK_MODULES( [LIBCONFIG], [libconfig], [LIBS="${LIBCONFIG_LIBS} ${LIBS}"]) else AC_CHECK_LIB([config],[config_init], , AC_MSG_ERROR([libconfig library needed])) fi AC_ARG_WITH([configfiles], [ --with-configfiles = install configuration files during a make install ], ,[with_configfiles=yes]) AM_CONDITIONAL([INSTALL_CONFIG_FILES], [test "x$with_configfiles" = "xyes"]) # Look for Apple ALAC flag AC_ARG_WITH(apple-alac, [ --with-apple-alac = include support for the Apple ALAC decoder], [AC_MSG_RESULT(>>Including the Apple ALAC Decoder) HAS_APPLE_ALAC=1 AM_CONDITIONAL([USE_APPLE_ALAC], [test 0]) AC_DEFINE([CONFIG_APPLE_ALAC], 1, [Needed by the compiler.]) if test "x${with_pkg_config}" = xyes ; then PKG_CHECK_MODULES( [ALAC], [alac], [LIBS="${ALAC_LIBS} ${LIBS}" AC_DEFINE([HAVE_APPLE_ALAC],[1],[Define to 1 if you are using the Apple ALAC Decoder])]) else AC_CHECK_LIB([alac], [BitBufferInit], , AC_MSG_ERROR(Apple ALAC Decoder support requires the alac library!)) AC_DEFINE([HAVE_APPLE_ALAC],[1],[Define to 1 if you have the Apple ALAC library]) fi ]) AM_CONDITIONAL([USE_APPLE_ALAC], [test "x$HAS_APPLE_ALAC" = "x1"]) # Look for piddir flag AC_ARG_WITH(piddir, [ --with-piddir= Specify a pathname to a directory in which to write the PID file.], [ AC_MSG_CHECKING(--with-piddir argument) if test "x${with_piddir}" = x -o "x${with_piddir}" = xyes ; then AC_MSG_RESULT(not found) AC_MSG_ERROR(when you use the --with-piddir directive you must specify the pathname of the directory into which the PID file will be written) fi AC_MSG_RESULT(${with_piddir}) HAS_CUSTOMPIDDIR=1 AC_SUBST(CUSTOM_PID_DIR,["${with_piddir}"]) AC_DEFINE([USE_CUSTOM_PID_DIR],1,[Hook up special proc to libdaemon to point to this directory])], ) AM_CONDITIONAL([USE_CUSTOMPIDDIR], [test "x$HAS_CUSTOMPIDDIR" = "x1"]) # Check --with-ssl=argument AC_ARG_WITH(ssl, [ choose --with-ssl=openssl, --with-ssl=mbedtls or --with-ssl=polarssl (deprecated) for encryption services ], [ AC_MSG_CHECKING(encryption libraries chosen) if test "x${with_ssl}" = x -o "x${with_ssl}" = xyes ; then AC_MSG_RESULT(not found) AC_MSG_ERROR(choose "openssl", "mbedtls" or "polarssl" encryption) fi if test "x${with_ssl}" = xopenssl ; then if test "x${with_pkg_config}" = xyes ; then PKG_CHECK_MODULES( [SSL], [libssl,libcrypto], [LIBS="${SSL_LIBS} ${LIBS}" AC_DEFINE([HAVE_LIBCRYPTO],[1],[Define to 1 if you have libcrypto]) AC_DEFINE([HAVE_LIBSSL],[1],[Define to 1 if you have libssl])]) else AC_CHECK_LIB([crypto], [main], , AC_MSG_ERROR(libcrypto selected but the library cannot be found!)) AC_CHECK_LIB([ssl], [main], , AC_MSG_ERROR(libssl selected but the library cannot be found!)) AC_DEFINE([HAVE_LIBCRYPTO],[1],[Define to 1 if you have libcrypto]) AC_DEFINE([HAVE_LIBSSL],[1],[Define to 1 if you have libssl]) fi elif test "x${with_ssl}" = xmbedtls ; then AC_CHECK_LIB([mbedtls],[mbedtls_ssl_init],, [AC_MSG_ERROR([mbed tls support requires the mbedtls library -- libmbedtls-dev suggested],1)]) AC_CHECK_LIB([mbedcrypto], [mbedtls_entropy_func],, [AC_MSG_ERROR([mbed tls support requires the mbedcrypto library -- libmbedcrypto0 suggested],1)]) AC_CHECK_LIB([mbedx509], [mbedtls_pk_init],, [AC_MSG_ERROR([mbed tls support requires the mbedx509 library -- libmbedx509-0 suggested],1)]) elif test "x${with_ssl}" = xpolarssl ; then AC_CHECK_LIB([polarssl],[ssl_init], , AC_MSG_ERROR(PolarSSL is selected but the library cannot be found and is deprecated. Consider selecting mbed TLS instead using --with-ssl=mbedtls.)) else AC_MSG_ERROR(unknown option "${with_ssl}"." Please choose with "openssl", "mbedtls" or "polarssl") fi ], ) # Look for soxr flag AC_ARG_WITH(soxr, [ --with-soxr = choose libsoxr for high-quality interpolation], [ AC_MSG_RESULT(>>Including support for soxr-based interpolation) AC_CHECK_LIB([soxr],[soxr_create], , AC_MSG_ERROR(soxr support requested but libsoxr not found!))], ) # Look for metadata flag -- set flag for conditional compilation AC_ARG_WITH(metadata, [ --with-metadata = include support for a metadata feed], [ AC_MSG_RESULT(>>Including metadata support) AC_DEFINE([CONFIG_METADATA], 1, [Needed by the compiler.])], ) AM_CONDITIONAL([USE_METADATA], [test "x$with_metadata" = "xyes"]) # What follows is a bit messy, because if the relevant library is requested, a compiler flag is defined, a file is included in the compilation # and the relevant link files are added. # Look for avahi flag AC_ARG_WITH(avahi, [ --with-avahi = choose Avahi-based mDNS support], [ AC_MSG_RESULT(>>Including Avahi mDNS support) HAS_AVAHI=1 AC_DEFINE([CONFIG_AVAHI], 1, [Needed by the compiler.]) AC_CHECK_LIB([avahi-client], [avahi_client_new], , AC_MSG_ERROR(Avahi support requires the avahi-client library!)) AC_CHECK_LIB([avahi-common],[avahi_strerror], , AC_MSG_ERROR(Avahi support requires the avahi-common library!))], ) AM_CONDITIONAL([USE_AVAHI], [test "x$HAS_AVAHI" = "x1"]) # Look for tinysvcmdns flag AC_ARG_WITH(tinysvcmdns, [ --with-tinysvcmdns = choose tinysvcmdns-based mDNS support], [ AC_MSG_RESULT(>>Including tinysvcmdns mDNS support) HAS_TINYSVCMDNS=1 AC_DEFINE([CONFIG_TINYSVCMDNS], 1, [Needed by the compiler.])], ) AM_CONDITIONAL([USE_TINYSVCMDNS], [test "x$HAS_TINYSVCMDNS" = "x1"]) # Look for ALSA flag AC_ARG_WITH(alsa, [ --with-alsa = choose ALSA API support (GNU/Linux only)], [AC_MSG_RESULT(>>Including an ALSA back end) HAS_ALSA=1 AM_CONDITIONAL([USE_ALSA], [test 0]) AC_DEFINE([CONFIG_ALSA], 1, [Needed by the compiler.]) if test "x${with_pkg_config}" = xyes ; then PKG_CHECK_MODULES( [ALSA], [alsa], [LIBS="${ALSA_LIBS} ${LIBS}" AC_DEFINE([HAVE_LIBASOUND],[1],[Define to 1 if you have ALSA])]) else AC_CHECK_LIB([asound], [snd_pcm_open], , AC_MSG_ERROR(ALSA support requires the asound library!)) AC_DEFINE([HAVE_LIBASOUND],[1],[Define to 1 if you have ALSA]) fi ]) AM_CONDITIONAL([USE_ALSA], [test "x$HAS_ALSA" = "x1"]) # Look for SNDIO flag AC_ARG_WITH(sndio, [ --with-sndio = choose SNDIO API support], [ AC_MSG_RESULT(>>Including a SNDIO back end) HAS_SNDIO=1 AC_DEFINE([CONFIG_SNDIO], 1, [Needed by the compiler.]) AC_CHECK_LIB([sndio], [sio_open], , AC_MSG_ERROR(SNDIO support requires the sndio library -- libsndio-dev suggested))], ) AM_CONDITIONAL([USE_SNDIO], [test "x$HAS_SNDIO" = "x1"]) # Look for AO flag AC_ARG_WITH(ao, [ --with-ao = choose AO (Audio Output?) API support. N.B. no synchronisation -- so underflow or overflow is inevitable!], [ AC_MSG_RESULT(>>Including an AO back end. N.B. no synchronisation -- so underflow or overflow is inevitable!) HAS_AO=1 AC_DEFINE([CONFIG_AO], 1, [Needed by the compiler.]) AC_CHECK_LIB([ao], [ao_initialize], , AC_MSG_ERROR(AO support requires the ao library -- libao-dev suggested))], ) AM_CONDITIONAL([USE_AO], [test "x$HAS_AO" = "x1"]) # Look for Soundio flag AC_ARG_WITH(soundio, [ --with-soundio = choose soundio API support.], [ AC_MSG_RESULT(>>Including an soundio back end) HAS_SOUNDIO=1 AC_DEFINE([CONFIG_SOUNDIO], 1, [Needed by the compiler.]) AC_CHECK_LIB([soundio], [soundio_create], , AC_MSG_ERROR(soundio support requires the soundio library -- libsoundio-dev suggested))], ) AM_CONDITIONAL([USE_SOUNDIO], [test "x$HAS_SOUNDIO" = "x1"]) # Look for pulseaudio flag AC_ARG_WITH(pa, [ --with-pa = choose PulseAudio support.], [ AC_MSG_RESULT(>>Including a PulseAudio back end.) HAS_PA=1 AC_DEFINE([CONFIG_PA], 1, [Needed by the compiler.]) if test "x${with_pkg_config}" = xyes ; then PKG_CHECK_MODULES( [PULSEAUDIO], [libpulse >= 0.9.2], [LIBS="${PULSEAUDIO_LIBS} ${LIBS}"],[AC_MSG_ERROR(PulseAudio support requires the libpulse-dev library!)]) else AC_CHECK_LIB([pulse-simple], [pa_simple_new], , AC_MSG_ERROR(PulseAudio support requires the libpulse library!)) AC_CHECK_LIB([pulse], [pa_stream_peek], , AC_MSG_ERROR(PulseAudio support requires the libpulse-dev library.)) fi ]) AM_CONDITIONAL([USE_PA], [test "x$HAS_PA" = "x1"]) # Look for Convolution flag AC_ARG_WITH(convolution, [ --with-convolution = choose audio DSP convolution support], [ AC_MSG_RESULT(>>Including convolution support) HAS_CONVOLUTION=1 AM_INIT_AUTOMAKE([subdir-objects]) AC_DEFINE([CONFIG_CONVOLUTION], 1, [Needed by the compiler.]) AC_CHECK_LIB([sndfile], [sf_open], , AC_MSG_ERROR(Convolution support requires the sndfile library!))], ) AM_CONDITIONAL([USE_CONVOLUTION], [test "x$HAS_CONVOLUTION" = "x1"]) # Look for dns_sd flag AC_ARG_WITH(dns_sd, [ --with-dns_sd = choose dns_sd mDNS support], [ AC_MSG_RESULT(>>Including dns_sd for mDNS support) HAS_DNS_SD=1 AC_DEFINE([CONFIG_HAVE_DNS_SD_H], 1, [Needed by the compiler.]) AC_SEARCH_LIBS([DNSServiceRefDeallocate], [dns_sd], , AC_MSG_ERROR(dns_sd support requires the dns_sd library!))], ) AM_CONDITIONAL([USE_DNS_SD], [test "x$HAS_DNS_SD" = "x1"]) # Look for dbus flag AC_ARG_WITH(dbus-interface, [ --with-dbus-interface = include support for the native Shairport Sync D-Bus interface], [ AC_MSG_RESULT(>>Including dbus support) HAS_DBUS=1 AC_DEFINE([HAVE_DBUS], 1, [Needed by the compiler.]) PKG_CHECK_MODULES([GIO_UNIX], [gio-unix-2.0 >= 2.30.0],[CFLAGS="${GIO_UNIX_CFLAGS} ${CFLAGS}" LIBS="${GIO_UNIX_LIBS} ${LIBS}"],[AC_MSG_ERROR(dbus messaging support requires the glib 2.0 library -- libglib2.0-dev suggested!)]) ], ) AM_CONDITIONAL([USE_DBUS], [test "x$HAS_DBUS" = "x1"]) # Look for dbus test client flag AC_ARG_WITH(dbus-test-client, [ --with-dbus-test-client = compile dbus test client], [ AC_MSG_RESULT(>>Including dbus test client) HAS_DBUS_CLIENT=1 AC_DEFINE([HAVE_DBUS_CLIENT], 1, [Needed by the compiler.]) PKG_CHECK_MODULES([GIO_UNIX], [gio-unix-2.0 >= 2.30.0],[CFLAGS="${GIO_UNIX_CFLAGS} ${CFLAGS}" LIBS="${GIO_UNIX_LIBS} ${LIBS}"],[AC_MSG_ERROR(dbus client support requires the glib 2.0 library -- libglib2.0-dev suggested!)]) ], ) AM_CONDITIONAL([USE_DBUS_CLIENT], [test "x$HAS_DBUS_CLIENT" = "x1"]) # Look for mpris flag AC_ARG_WITH(mpris-interface, [ --with-mpris-interface = include support for a Shairport Sync D-Bus interface conforming to the MPRIS standard], [ AC_MSG_RESULT(>>Including the MPRIS D-Bus Interface) HAS_MPRIS=1 AC_DEFINE([HAVE_MPRIS], 1, [Needed by the compiler.]) PKG_CHECK_MODULES([GIO_UNIX], [gio-unix-2.0 >= 2.30.0],[CFLAGS="${GIO_UNIX_CFLAGS} ${CFLAGS}" LIBS="${GIO_UNIX_LIBS} ${LIBS}"],[AC_MSG_ERROR(dbus messaging support for mpris requires the glib 2.0 library -- libglib2.0-dev suggested!)]) ], ) AM_CONDITIONAL([USE_MPRIS], [test "x$HAS_MPRIS" = "x1"]) # Look for mpris test client flag AC_ARG_WITH(mpris-test-client, [ --with-mpris-test-client = compile mpris test client], [ AC_MSG_RESULT(>>Including mpris test client) HAS_MPRIS_CLIENT=1 AC_DEFINE([HAVE_MPRIS_CLIENT], 1, [Needed by the compiler.]) PKG_CHECK_MODULES([GIO_UNIX], [gio-unix-2.0 >= 2.30.0],[CFLAGS="${GIO_UNIX_CFLAGS} ${CFLAGS}" LIBS="${GIO_UNIX_LIBS} ${LIBS}"],[AC_MSG_ERROR(mpris client support requires the glib 2.0 library -- libglib2.0-dev suggested!)]) ], ) AM_CONDITIONAL([USE_MPRIS_CLIENT], [test "x$HAS_MPRIS_CLIENT" = "x1"]) #AM_CONDITIONAL([USE_DBUS_CORE_AND_DACP], [test "x$HAS_MPRIS" = "x1" -o "x$HAS_DBUS" = "x1"]) if test "x$HAS_MPRIS" = "x1" -o "x$HAS_DBUS" = "x1" ; then AC_MSG_RESULT(>>Including the metadata hub) HAS_METADATA_HUB=1 AC_DEFINE([HAVE_METADATA_HUB], 1, [Needed by the compiler.]) AC_MSG_RESULT(>>Including the DACP client) HAS_DACP_CLIENT=1 AC_DEFINE([HAVE_DACP_CLIENT], 1, [Needed by the compiler.]) fi AM_CONDITIONAL([USE_METADATA_HUB], [test "x$HAS_METADATA_HUB" = "x1"]) AM_CONDITIONAL([USE_DACP_CLIENT], [test "x$HAS_DACP_CLIENT" = "x1"]) if test "x${with_systemd}" = xyes ; then # Find systemd unit dir AC_ARG_WITH([systemdsystemunitdir], [AS_HELP_STRING([--with-systemdsystemunitdir=DIR], [Directory for systemd service files])],, [with_systemdsystemunitdir=auto]) AS_IF([test "x$with_systemdsystemunitdir" = "xyes" -o "x$with_systemdsystemunitdir" = "xauto"], [ def_systemdsystemunitdir=$($PKG_CONFIG --variable=systemdsystemunitdir systemd) AS_IF([test "x$def_systemdsystemunitdir" = "x"], [AS_IF([test "x$with_systemdsystemunitdir" = "xyes"], [AC_MSG_ERROR([systemd support requested but pkg-config unable to query systemd package])]) with_systemdsystemunitdir=no], [with_systemdsystemunitdir="$def_systemdsystemunitdir"])]) AS_IF([test "x$with_systemdsystemunitdir" != "xno"], [AC_SUBST([systemdsystemunitdir], [$with_systemdsystemunitdir])]) AM_CONDITIONAL([HAVE_SYSTEMD], [test "x$with_systemdsystemunitdir" != "xno"]) else AM_CONDITIONAL([HAVE_SYSTEMD], false) fi # Look for xmltoman AC_CHECK_PROGS([XMLTOMAN], [xmltoman]) if test -z "$XMLTOMAN"; then AC_MSG_WARN([>>xmltoman not found - not rebuilding man pages]) fi AM_CONDITIONAL([HAVE_XMLTOMAN], [test -n "$XMLTOMAN"]) # Checks for header files. AC_HEADER_STDC AC_CHECK_HEADERS([getopt_long.h]) AC_CHECK_HEADERS([arpa/inet.h fcntl.h limits.h mach/mach.h memory.h netdb.h netinet/in.h stdint.h stdlib.h string.h sys/ioctl.h sys/socket.h sys/time.h syslog.h unistd.h]) # Checks for typedefs, structures, and compiler characteristics. AC_C_INLINE AC_TYPE_INT16_T AC_TYPE_INT32_T AC_TYPE_INT64_T AC_TYPE_PID_T AC_TYPE_SIZE_T AC_TYPE_SSIZE_T AC_TYPE_UINT16_T AC_TYPE_UINT32_T AC_TYPE_UINT64_T AC_TYPE_UINT8_T # Checks for library functions. AC_FUNC_ALLOCA AC_FUNC_ERROR_AT_LINE AC_FUNC_FORK AC_CHECK_FUNCS([atexit clock_gettime gethostname inet_ntoa memchr memmove memset mkfifo pow select socket stpcpy strcasecmp strchr strdup strerror strstr strtol strtoul]) AC_CONFIG_FILES([Makefile man/Makefile scripts/shairport-sync.service]) AC_CONFIG_FILES([scripts/shairport-sync],[chmod +x scripts/shairport-sync]) AC_OUTPUT