AC_INIT(nix, m4_esyscmd([bash -c "echo -n $(cat ./.version)$VERSION_SUFFIX"])) AC_CONFIG_MACRO_DIRS([m4]) AC_CONFIG_SRCDIR(README.md) AC_CONFIG_AUX_DIR(config) AC_PROG_SED # Construct a Nix system name (like "i686-linux"). AC_CANONICAL_HOST AC_MSG_CHECKING([for the canonical Nix system name]) AC_ARG_WITH(system, AC_HELP_STRING([--with-system=SYSTEM], [Platform identifier (e.g., `i686-linux').]), [system=$withval], [case "$host_cpu" in i*86) machine_name="i686";; amd64) machine_name="x86_64";; armv6|armv7) machine_name="${host_cpu}l";; *) machine_name="$host_cpu";; esac case "$host_os" in linux-gnu*|linux-musl*) # For backward compatibility, strip the `-gnu' part. system="$machine_name-linux";; *) # Strip the version number from names such as `gnu0.3', # `darwin10.2.0', etc. system="$machine_name-`echo $host_os | "$SED" -e's/@<:@0-9.@:>@*$//g'`";; esac]) sys_name=$(uname -s | tr 'A-Z ' 'a-z_') case $sys_name in cygwin*) sys_name=cygwin ;; esac AC_MSG_RESULT($system) AC_SUBST(system) AC_DEFINE_UNQUOTED(SYSTEM, ["$system"], [platform identifier ('cpu-os')]) # State should be stored in /nix/var, unless the user overrides it explicitly. test "$localstatedir" = '${prefix}/var' && localstatedir=/nix/var CFLAGS= CXXFLAGS= AC_PROG_CC AC_PROG_CXX AC_PROG_CPP AC_CHECK_TOOL([AR], [ar]) # Use 64-bit file system calls so that we can support files > 2 GiB. AC_SYS_LARGEFILE # Solaris-specific stuff. AC_STRUCT_DIRENT_D_TYPE if test "$sys_name" = sunos; then # Solaris requires -lsocket -lnsl for network functions LIBS="-lsocket -lnsl $LIBS" fi # Check for pubsetbuf. AC_MSG_CHECKING([for pubsetbuf]) AC_LANG_PUSH(C++) AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[#include <iostream> using namespace std; static char buf[1024];]], [[cerr.rdbuf()->pubsetbuf(buf, sizeof(buf));]])], [AC_MSG_RESULT(yes) AC_DEFINE(HAVE_PUBSETBUF, 1, [Whether pubsetbuf is available.])], AC_MSG_RESULT(no)) AC_LANG_POP(C++) AC_CHECK_FUNCS([statvfs pipe2]) # Check for lutimes, optionally used for changing the mtime of # symlinks. AC_CHECK_FUNCS([lutimes]) # Check whether the store optimiser can optimise symlinks. AC_MSG_CHECKING([whether it is possible to create a link to a symlink]) ln -s bla tmp_link if ln tmp_link tmp_link2 2> /dev/null; then AC_MSG_RESULT(yes) AC_DEFINE(CAN_LINK_SYMLINK, 1, [Whether link() works on symlinks.]) else AC_MSG_RESULT(no) fi rm -f tmp_link tmp_link2 # Check for <locale>. AC_LANG_PUSH(C++) AC_CHECK_HEADERS([locale]) AC_LANG_POP(C++) AC_DEFUN([NEED_PROG], [ AC_PATH_PROG($1, $2) if test -z "$$1"; then AC_MSG_ERROR([$2 is required]) fi ]) NEED_PROG(bash, bash) AC_PATH_PROG(xmllint, xmllint, false) AC_PATH_PROG(xsltproc, xsltproc, false) AC_PATH_PROG(flex, flex, false) AC_PATH_PROG(bison, bison, false) AC_PATH_PROG(dot, dot) AC_PATH_PROG(lsof, lsof, lsof) AC_SUBST(coreutils, [$(dirname $(type -p cat))]) AC_ARG_WITH(store-dir, AC_HELP_STRING([--with-store-dir=PATH], [path of the Nix store (defaults to /nix/store)]), storedir=$withval, storedir='/nix/store') AC_SUBST(storedir) # Look for boost, a required dependency. # Note that AX_BOOST_BASE only exports *CPP* BOOST_CPPFLAGS, no CXX flags, # and CPPFLAGS are not passed to the C++ compiler automatically. # Thus we append the returned CPPFLAGS to the CXXFLAGS here. AX_BOOST_BASE([1.66], [CXXFLAGS="$BOOST_CPPFLAGS $CXXFLAGS"], [AC_MSG_ERROR([Nix requires boost.])]) # For unknown reasons, setting this directly in the ACTION-IF-FOUND above # ends up with LDFLAGS being empty, so we set it afterwards. LDFLAGS="$BOOST_LDFLAGS $LDFLAGS" # On some platforms, new-style atomics need a helper library AC_MSG_CHECKING(whether -latomic is needed) AC_LINK_IFELSE([AC_LANG_SOURCE([[ #include <stdint.h> uint64_t v; int main() { return (int)__atomic_load_n(&v, __ATOMIC_ACQUIRE); }]])], GCC_ATOMIC_BUILTINS_NEED_LIBATOMIC=no, GCC_ATOMIC_BUILTINS_NEED_LIBATOMIC=yes) AC_MSG_RESULT($GCC_ATOMIC_BUILTINS_NEED_LIBATOMIC) if test "x$GCC_ATOMIC_BUILTINS_NEED_LIBATOMIC" = xyes; then LIBS="-latomic $LIBS" fi PKG_PROG_PKG_CONFIG AC_ARG_ENABLE(shared, AC_HELP_STRING([--enable-shared], [Build shared libraries for Nix [default=yes]]), shared=$enableval, shared=yes) if test "$shared" = yes; then AC_SUBST(BUILD_SHARED_LIBS, 1, [Whether to build shared libraries.]) else AC_SUBST(BUILD_SHARED_LIBS, 0, [Whether to build shared libraries.]) PKG_CONFIG="$PKG_CONFIG --static" fi # Look for OpenSSL, a required dependency. FIXME: this is only (maybe) # used by S3BinaryCacheStore. PKG_CHECK_MODULES([OPENSSL], [libcrypto], [CXXFLAGS="$OPENSSL_CFLAGS $CXXFLAGS"]) # Look for libbz2, a required dependency. AC_CHECK_LIB([bz2], [BZ2_bzWriteOpen], [true], [AC_MSG_ERROR([Nix requires libbz2, which is part of bzip2. See https://web.archive.org/web/20180624184756/http://www.bzip.org/.])]) AC_CHECK_HEADERS([bzlib.h], [true], [AC_MSG_ERROR([Nix requires libbz2, which is part of bzip2. See https://web.archive.org/web/20180624184756/http://www.bzip.org/.])]) # Checks for libarchive PKG_CHECK_MODULES([LIBARCHIVE], [libarchive >= 3.1.2], [CXXFLAGS="$LIBARCHIVE_CFLAGS $CXXFLAGS"]) # Look for SQLite, a required dependency. PKG_CHECK_MODULES([SQLITE3], [sqlite3 >= 3.6.19], [CXXFLAGS="$SQLITE3_CFLAGS $CXXFLAGS"]) # Look for libcurl, a required dependency. PKG_CHECK_MODULES([LIBCURL], [libcurl], [CXXFLAGS="$LIBCURL_CFLAGS $CXXFLAGS"]) # Look for editline, a required dependency. # The the libeditline.pc file was added only in libeditline >= 1.15.2, # see https://github.com/troglobit/editline/commit/0a8f2ef4203c3a4a4726b9dd1336869cd0da8607, # but e.g. Ubuntu 16.04 has an older version, so we fall back to searching for # editline.h when the pkg-config approach fails. PKG_CHECK_MODULES([EDITLINE], [libeditline], [CXXFLAGS="$EDITLINE_CFLAGS $CXXFLAGS"], [ AC_CHECK_HEADERS([editline.h], [true], [AC_MSG_ERROR([Nix requires libeditline; it was found neither via pkg-config nor its normal header.])]) AC_SEARCH_LIBS([readline read_history], [editline], [], [AC_MSG_ERROR([Nix requires libeditline; it was not found via pkg-config, but via its header, but required functions do not work. Maybe it is too old? >= 1.14 is required.])]) ]) # Look for libsodium, an optional dependency. PKG_CHECK_MODULES([SODIUM], [libsodium], [AC_DEFINE([HAVE_SODIUM], [1], [Whether to use libsodium for cryptography.]) CXXFLAGS="$SODIUM_CFLAGS $CXXFLAGS" have_sodium=1], [have_sodium=]) AC_SUBST(HAVE_SODIUM, [$have_sodium]) # Look for liblzma, a required dependency. PKG_CHECK_MODULES([LIBLZMA], [liblzma], [CXXFLAGS="$LIBLZMA_CFLAGS $CXXFLAGS"]) AC_CHECK_LIB([lzma], [lzma_stream_encoder_mt], [AC_DEFINE([HAVE_LZMA_MT], [1], [xz multithreaded compression support])]) # Look for zlib, a required dependency. PKG_CHECK_MODULES([ZLIB], [zlib], [CXXFLAGS="$ZLIB_CFLAGS $CXXFLAGS"]) AC_CHECK_HEADER([zlib.h],[:],[AC_MSG_ERROR([could not find the zlib.h header])]) LDFLAGS="-lz $LDFLAGS" # Look for libbrotli{enc,dec}. PKG_CHECK_MODULES([LIBBROTLI], [libbrotlienc libbrotlidec], [CXXFLAGS="$LIBBROTLI_CFLAGS $CXXFLAGS"]) # Look for libseccomp, required for Linux sandboxing. if test "$sys_name" = linux; then AC_ARG_ENABLE([seccomp-sandboxing], AC_HELP_STRING([--disable-seccomp-sandboxing], [Don't build support for seccomp sandboxing (only recommended if your arch doesn't support libseccomp yet!)] )) if test "x$enable_seccomp_sandboxing" != "xno"; then PKG_CHECK_MODULES([LIBSECCOMP], [libseccomp], [CXXFLAGS="$LIBSECCOMP_CFLAGS $CXXFLAGS"]) have_seccomp=1 AC_DEFINE([HAVE_SECCOMP], [1], [Whether seccomp is available and should be used for sandboxing.]) else have_seccomp= fi else have_seccomp= fi AC_SUBST(HAVE_SECCOMP, [$have_seccomp]) # Look for aws-cpp-sdk-s3. AC_LANG_PUSH(C++) AC_CHECK_HEADERS([aws/s3/S3Client.h], [AC_DEFINE([ENABLE_S3], [1], [Whether to enable S3 support via aws-sdk-cpp.]) enable_s3=1], [enable_s3=]) AC_SUBST(ENABLE_S3, [$enable_s3]) AC_LANG_POP(C++) if test -n "$enable_s3"; then declare -a aws_version_tokens=($(printf '#include <aws/core/VersionConfig.h>\nAWS_SDK_VERSION_STRING' | $CPP $CPPFLAGS - | grep -v '^#.*' | sed 's/"//g' | tr '.' ' ')) AC_DEFINE_UNQUOTED([AWS_VERSION_MAJOR], ${aws_version_tokens@<:@0@:>@}, [Major version of aws-sdk-cpp.]) AC_DEFINE_UNQUOTED([AWS_VERSION_MINOR], ${aws_version_tokens@<:@1@:>@}, [Minor version of aws-sdk-cpp.]) fi # Whether to use the Boehm garbage collector. AC_ARG_ENABLE(gc, AC_HELP_STRING([--enable-gc], [enable garbage collection in the Nix expression evaluator (requires Boehm GC) [default=yes]]), gc=$enableval, gc=yes) if test "$gc" = yes; then PKG_CHECK_MODULES([BDW_GC], [bdw-gc]) CXXFLAGS="$BDW_GC_CFLAGS $CXXFLAGS" AC_DEFINE(HAVE_BOEHMGC, 1, [Whether to use the Boehm garbage collector.]) fi # documentation generation switch AC_ARG_ENABLE(doc-gen, AC_HELP_STRING([--disable-doc-gen], [disable documentation generation]), doc_generate=$enableval, doc_generate=yes) AC_SUBST(doc_generate) # Setuid installations. AC_CHECK_FUNCS([setresuid setreuid lchown]) # Nice to have, but not essential. AC_CHECK_FUNCS([strsignal posix_fallocate sysconf]) # This is needed if bzip2 is a static library, and the Nix libraries # are dynamic. if test "$(uname)" = "Darwin"; then LDFLAGS="-all_load $LDFLAGS" fi # Do we have GNU tar? AC_MSG_CHECKING([if you have a recent GNU tar]) if $tar --version 2> /dev/null | grep -q GNU && tar cvf /dev/null --warning=no-timestamp ./config.log > /dev/null; then AC_MSG_RESULT(yes) tarFlags="--warning=no-timestamp" else AC_MSG_RESULT(no) fi AC_SUBST(tarFlags) AC_ARG_WITH(sandbox-shell, AC_HELP_STRING([--with-sandbox-shell=PATH], [path of a statically-linked shell to use as /bin/sh in sandboxes]), sandbox_shell=$withval) AC_SUBST(sandbox_shell) # Expand all variables in config.status. test "$prefix" = NONE && prefix=$ac_default_prefix test "$exec_prefix" = NONE && exec_prefix='${prefix}' for name in $ac_subst_vars; do declare $name="$(eval echo "${!name}")" declare $name="$(eval echo "${!name}")" declare $name="$(eval echo "${!name}")" done rm -f Makefile.config AC_CONFIG_HEADER([config.h]) AC_CONFIG_FILES([]) AC_OUTPUT