mk-files ******** The term ``mk-files`` refers to a collection of ``*.mk`` files. You need bmake_ or a *recent* NetBSD_ make. If in doubt use bmake_. Introduction ============ Many years ago, when building large software projects, I used GNU make (or my own patched version of it), and had developed a set of macros to simplify developing complex build trees. Since the early 90's my main development machines, run BSD (NetBSD_ to be precise), and the BSD source tree is good example of a large software project. It quickly became clear that ``/usr/share/mk/*.mk`` were a great model, but were quite tightly linked to building the BSD tree. Much as I liked using NetBSD, my customers were more likely to be using SunOS, HP-UX etc, so I started on bmake_ and a portable collection of mk-files (mk.tar.gz_). NetBSD provided much of the original structure. Since then I've added a lot of features to NetBSD's make and hence to bmake which is kept closely in sync. The mk-files however have diverged quite a bit, though ideas are still picked up from NetBSD and FreeBSD. Basics ------ The BSD build model is very simple. A directory produces one component, which is generally either a library or a program. Library makefiles include ``lib.mk`` and programs include ``prog.mk`` and they *do the right thing*. A simple library makefile might look like:: LIB = sig SRCS = \ sigaction.c \ sigcompat.c \ sighdl.c .include a simple program makefile:: PROG = cat SRCS = cat.c .include in such cases even the ``SRCS`` line is unnecessary as ``prog.mk`` will default it to ``${PROG}.c``. It is the sensible use of defaults and the plethora of macro modifiers provided by bmake_ that allow simple makefiles such as the above *just work* on many different systems. mk-files ======== This section provides a brief description of some of the ``*.mk`` files. sys.mk ------ When bmake starts, it looks for ``sys.mk`` and reads it before doing anything else. Thus, this is the place to setup the environment for everyone else. In this distribution, sys.mk avoids doing anything platform dependent. It is quite short, and includes a number of other files (which may or may not exists) sys.env.mk If it exists, is expected to do things like conditioning the environment. Since it will only be included by the initial instance of bmake, it should ``.export`` anything that sub-makes might need. examples/sys.clean-env.mk An example of how to clean the environment. See the file for all the details:: .if ${MAKE_VERSION} >= 20100606 && ${.MAKE.LEVEL} == 0 # we save any env var that starts with these MAKE_SAVE_ENV_PREFIX += SB MK MAKE MACHINE NEED_ CCACHE DISTCC USE_ SSH MAKE_SAVE_ENV_VARS += \ PATH HOME USER LOGNAME \ SRCTOP OBJTOP OBJROOT \ ${_env_vars} _env_vars != env | egrep '^(${MAKE_SAVE_ENV_PREFIX:ts|})' | sed 's,=.*,,'; echo _export_list = .for v in ${MAKE_SAVE_ENV_VARS:O:u} .if !empty($v) _export_list += $v $v := ${$v} .endif .endfor # now clobber the environment .unexport-env # list of vars that we handle specially below _tricky_env_vars = MAKEOBJDIR # export our selection - sans tricky ones .export ${_export_list:${_tricky_env_vars:${M_ListToSkip}}} # this next bit may need tweaking .if defined(MAKEOBJDIR) srctop := ${SRCTOP:U${SB_SRC:U${SB}/src}} objroot := ${OBJROOT:U${SB_OBJROOT:U${SB}/${SB_OBJPREFIX}}} # we'll take care of MACHINE below objtop := ${OBJTOP:U${objroot}${MACHINE}} .if !empty(objtop) # we would normally want something like (/bin/sh): # MAKEOBJDIR="\${.CURDIR:S,${SRCTOP},${OBJROOT}\${MACHINE},}" # the $$ below is how we achieve the same result here. # since everything saved from the environment above # has run through := we need to compensate for ${MACHINE} MAKEOBJDIR = $${.CURDIR:S,${srctop},${objtop:S,${MACHINE},\${MACHINE},},} # export these as-is, and do not track... .export-env ${_tricky_env_vars} # now evaluate for ourselves .for v in ${_tricky_env_vars} $v := ${$v} .endfor .endif .endif .endif host-target.mk Is used to set macros like ``HOST_TARGET``, ``HOST_OS`` and ``host_os`` which are used to find the next step. sys/\*.mk Platform specific additions, such as ``Darwin.mk`` or ``SunOS.mk`` set things like ``HOST_LIBEXT = .dylib`` for Darwin or ``SHLIB_FULLVERSION = ${SHLIB_MAJOR}`` for SunOS 5. If there is no OS specific file, ``sys/Generic.mk`` is used. local.sys.mk Any ``local.*.mk`` file is not part of the distribution. This provides a hook for sites to do extra setup without having to edit the distributed files. The above arrangement makes it easy for the mk files to be part of a src tree on an NFS volume and to allow building on multiple platforms. lib.mk ------ This file is used to build a number of different libraries from the same SRCS. lib${LIB}.a An archive lib of ``.o`` files, this is the default lib${LIB}_p.a A profiled lib of ``.po`` files. Still an archive lib, but all the objects are built with profiling in mind - hence the different extension. It is skipped if ``MKPROFILE`` is "no". lib${LIB}_pic.a An archive of ``.so`` objects compiled for relocation. On NetBSD this is the input to ``lib${LIB}.${LD_so}``, it is skipped if ``MKPICLIB`` is "no". lib${LIB}.${LD_so} A shared library. The value of ``LD_so`` is very platform specific. For example:: # SunOS 5 and most other ELF systems libsslfd.so.1 # Darwin libsslfd.1.dylib This library will only be built if ``SHLIB_MAJOR`` has a value, and ``MKPIC`` is not set to "no". There is a lot of platform specific tweaking in ``lib.mk``, largely the result of the original distributions trying to avoid interfering with the system's ``sys.mk``. libnames.mk ----------- This is included by both ``prog.mk`` and ``lib.mk`` and tries to include ``*.libnames.mk`` of which: local.libnames.mk does not exist unless you create it. It is a handy way for you to customize without touching the distributed files. For example, on a test machine I needed to build openssl but not install it, so put the following in ``local.libnames.mk``:: .if ${host_os} == "sunos" LIBCRYPTO = ${OBJTOP}/openssl/lib/crypto/libcrypto${DLIBEXT} LIBSSL = ${OBJTOP}/openssl/lib/ssl/libssl${DLIBEXT} INCLUDES_libcrypto = -I${OBJ_libcrypto} .endif The makefile created an openssl dir in ``${OBJ_libcrypto}`` to gather all the headers. dpadd.mk_ did the rest. sjg.libnames.mk not part of the mk-files distribution. host.libnames.mk contains logic to find any libs named in ``HOST_LIBS`` in ``HOST_LIBDIRS``. Each file above gets an opportunity to define things like:: LIBSSLFD ?= ${OBJTOP}/ssl/lib/sslfd/libsslfd${DLIBEXT} INCLUDES_libsslfd = -I${SRC_libsslfd}/h -I${OBJ_libslfd} these are used by dpadd.mk_ and will be explained below. dpadd.mk -------- This file looks like line noise, and is best considered read-only. However it provides some very useful functionality, which simplifies the build. Makefiles can use the LIB* macros defined via libnames.mk_ or anywhere else in various ways:: # indicate that we need to include headers from LIBCRYPTO # this would result in ${INCLUDES_libcrypto} being added to CFLAGS. SRC_LIBS += ${LIBCRYPTO} # indicate that libsslfd must be built already. # it also has the same effect as SRC_LIBS DPADD += ${LIBSSLFD} # indicate that not only must libsslfd be built, # but that we need to link with it. # this is almost exactly equivalent to # DPADD += ${LIBSSLFD} # LDADD += -L${LIBSSLFD:H} -lsslfd # and mostly serves to ensure that DPADD and LDADD are in sync. DPLIBS += ${LIBSSLFD} Any library (referenced by its full path) in any of the above, is added to ``DPMAGIC_LIBS`` with the following results, for each lib *foo*. SRC_libfoo Is set to indicate where the src for libfoo is. By default it is derived from ``LIBFOO`` by replacing ``${OBJTOP}`` with ``${SRCTOP}``. OBJ_libfoo Not very exciting, is just the dir where libfoo lives. INCLUDES_libfoo What to add to ``CFLAGS`` to find the public headers. The default varies. If ``${SRC_libfoo}/h`` exists, it is assumed to be the home of all public headers and thus the default is ``-I${SRC_libfoo}/h`` Otherwise we make no assumptions and the default is ``-I${SRC_libfoo} -I${OBJ_libfoo}`` LDADD_libfoo This only applies to libs reference via ``DPLIBS``. The default is ``-lfoo``, ``LDADD_*`` provides a hook to instantiate other linker flags at the appropriate point without losing the benfits of ``DPLIBS``. prog.mk ------- Compiles the specified SRCS and links them and the nominated libraries into a program. Prog makefiles usually need to list the libraries that need to be linked. We prefer use of ``DPLIBS`` but the more traditional ``DPADD`` and ``LDADD`` work just as well. That is:: DPLIBS += ${LIBCRYPTO} is equivalent to:: DPADD += ${LIBCRYPTO} LDADD += -lcrypto obj.mk ------ One of the cool aspects of BSD make, is its support for separating object files from the src tree. This is also the source of much confusion to some. Traditionally one had to do a separate ``make obj`` pass through the tree. If ``MKOBJDIRS`` is "auto", we include auto.obj.mk_. auto.obj.mk ----------- This leverages the ``.OBJDIR`` target introduced some years ago to NetBSD make, to automatically create the desired object dir. subdir.mk --------- This is the traditional means of walking the tree. A makefile sets ``SUBDIR`` to the list of sub-dirs to visit. If ``SUBDIR_MUST_EXIST`` is set, missing directories cause an error, otherwise a warning is issued. If you don't even want the warning, set ``MISSING_DIR=continue``. Traditionally, ``subdir.mk`` prints clue as it visits each subdir:: ===> ssl ===> ssl/lib ===> ssl/lib/sslfd you can suppress that - or enhance it by setting ``ECHO_DIR``:: # suppress subdir noise ECHO_DIR=: # print time stamps ECHO_DIR=echo @ `date "+%s [%Y-%m-%d %T] "` links.mk -------- Provides rules for processing lists of ``LINKS`` and ``SYMLINKS``. Each is expected to be a list of ``link`` and ``target`` pairs (``link`` -> ``target``). The logic is generally in a ``_*_SCRIPT`` which is referenced in a ``_*_USE`` (``.USE``) target. The ``_BUILD_*`` forms are identical, but do not use ``${DESTDIR}`` and so are useful for creating symlinks during the build phase. For example:: SYMLINKS += ${.CURDIR}/${MACHINE_ARCH}/include machine header_links: _BUILD_SYMLINKS_USE md.o: header_links would create a symlink called ``machine`` in ``${.OBJDIR}`` pointing to ``${.CURDIR}/${MACHINE_ARCH}/include`` before compiling ``md.o`` autoconf.mk ----------- Deals with running (or generating) GNU autoconf ``configure`` scripts. dep.mk ------ Deals with collecting dependencies. Another useful feature of BSD make is the separation of this sort of information into a ``.depend`` file. ``MKDEP`` needs to point to a suitable tool (like mkdeps.sh_) If ``USE_AUTODEP_MK`` is "yes" includes autodep.mk_ autodep.mk ---------- Leverages the ``-MD`` feature of recent GCC to collect dependency information as a side effect of compilation. With this GCC puts dependency info into a ``.d`` file. Unfortunately GCC bases the name of the ``.d`` file on the name of the input rather than the output file, which causes problems when the same source is compiled different ways. The latest GCC supports ``-MF`` to name the ``.d`` file and ``-MT`` to control the name to put as the dependent. Recent bmake allows dependencies for the ``.END`` target (run at the end if everything was successful), and ``autodep.mk`` uses this to post process the ``.d`` files into ``.depend``. auto.dep.mk ----------- A much simpler implementation than autodep.mk_ it uses ``-MF ${.TARGET:T}.d`` to avoid possible conflicts during parallel builds. This precludes the use of suffix rules to drive ``make depend``, so dep.mk_ handles that if specifically requested. options.mk ---------- Inspired by FreeBSD's ``bsd.own.mk`` more flexible. FreeBSD now have similar functionality in ``bsd.mkopt.mk``. It allows users to express their intent with respect to options ``MK_*`` by setting ``WITH_*`` or ``WITHOUT_*``. Note: ``WITHOUT_*`` wins if both are set, and makefiles can set ``NO_*`` to say they cannot handle that option, or even ``MK_*`` if they really need to. own.mk ------ Normally included by ``init.mk`` (included by ``lib.mk`` and ``prog.mk`` etc), sets macros for default ownership etc. It includes ``${MAKECONF}`` if it is defined and exists. ldorder.mk ---------- Leverages ``bmake`` to compute optimal link order for libraries. This works nicely and makes refactoring a breeze - so long as you have not (or few) cicular dependencies between libraries. man.mk ------ Deals with man pages. warnings.mk ----------- This provides a means of fine grained control over warnings on a per ``${MACHINE}`` or even file basis. A makefile sets ``WARNINGS_SET`` to name a list of warnings and individual ``W_*`` macros can be used to tweak them. For example:: WARNINGS_SET = HIGH W_unused_sparc = -Wno-unused would add all the warnings in ``${HIGH_WARNINGS}`` to CFLAGS, but on sparc, ``-Wno-unused`` would replace ``-Wunused``. You should never need to edit ``warnings.mk``, it will include ``warnings-sets.mk`` if it exists and you use that to make any local customizations. rst2htm.mk ---------- Logic to simplify generating HTML (and PDF) documents from ReStructuredText. cython.mk --------- Logic to build Python C interface modules using Cython_ .. _Cython: http://www.cython.org/ Meta mode ========= The 20110505 and later versions of ``mk-files`` include a number of makefiles contributed by Juniper Networks, Inc. These allow the latest version of bmake_ to run in `meta mode`_ see `dirdeps.mk`_ .. _`dirdeps.mk`: /help/sjg/dirdeps.htm .. _`meta mode`: bmake-meta-mode.htm Install ======= You can use the content of mk.tar.gz_ without installing at all. The script ``install-mk`` takes care of copying ``*.mk`` into a destination directory, and unless told not to, create ``bsd.*.mk`` links for ``lib.mk`` etc. If you just want to create the ``bsd.*.mk`` links in the directory where you unpacked the tar file, you can:: ./mk/install-mk ./mk ------ .. _bmake: bmake.htm .. _NetBSD: http://www.netbsd.org/ .. _mkdeps.sh: http://www.crufty.net/ftp/pub/sjg/mkdeps.sh .. _mk.tar.gz: http://www.crufty.net/ftp/pub/sjg/mk.tar.gz :Author: sjg@crufty.net :Revision: $Id: mk-files.txt,v 1.18 2018/12/08 07:27:15 sjg Exp $ :Copyright: Crufty.NET