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# $NetBSD: bsd.README,v 1.384 2018/09/16 13:14:12 christos Exp $
# @(#)bsd.README 8.2 (Berkeley) 4/2/94
This is the README file for the make "include" files for the NetBSD
source tree. The files are installed in /usr/share/mk, and are,
by convention, named with the suffix ".mk".
Note, this file is not intended to replace reading through the .mk
files for anything tricky.
=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
RANDOM THINGS WORTH KNOWING:
The files are simply C-style #include files, and pretty much behave like
you'd expect. The syntax is slightly different in that a single '.' is
used instead of the hash mark, i.e. ".include <bsd.prog.mk>".
One difference that will save you lots of debugging time is that inclusion
of the file is normally done at the *end* of the Makefile. The reason for
this is because .mk files often modify variables and behavior based on the
values of variables set in the Makefile. To make this work, remember that
the FIRST target found is the target that is used, i.e. if the Makefile has:
a:
echo a
a:
echo a number two
the command "make a" will echo "a". To make things confusing, the SECOND
variable assignment is the overriding one, i.e. if the Makefile has:
a= foo
a= bar
b:
echo ${a}
the command "make b" will echo "bar". This is for compatibility with the
way the V7 make behaved.
It's fairly difficult to make the BSD .mk files work when you're building
multiple programs in a single directory. It's a lot easier to split up the
programs than to deal with the problem. Most of the agony comes from making
the "obj" directory stuff work right, not because we switched to a new version
of make. So, don't get mad at us, figure out a better way to handle multiple
architectures so we can quit using the symbolic link stuff. (Imake doesn't
count.)
The file .depend in the source directory is expected to contain dependencies
for the source files. This file is read automatically by make after reading
the Makefile.
The variable DESTDIR works as before. It's not set anywhere but will change
the tree where the file gets installed.
The profiled libraries are no longer built in a different directory than
the regular libraries. A new suffix, ".po", is used to denote a profiled
object, and ".pico" denotes a shared (position-independent) object.
There are various make variables used during the build.
Many variables support a (case sensitive) value of "no" or "yes",
and are tested with ${VAR} == "no" and ${VAR} != "no" .
The basic rule for the variable naming scheme is as follows:
HOST_xxx A command that runs on the host machine regardless of
whether or not the system is being cross compiled, or
flags for such a command.
MKxxx Can be set to "no" to disable functionality, or
"yes" to enable it.
Usually defaults to "yes", although some variables
default to "no".
Due to make(1) implementation issues, if a temporary
command-line override of a mk.conf(5) or <bsd.own.mk>
setting is required whilst still honoring a particular
Makefile's setting of MKxxx, use
env MKxxx=value make
instead of
make MKxxx=value
NOxxx If defined, disables a feature.
Not intended for users.
This is to allow Makefiles to disable functionality
that they don't support (such as missing man pages).
NOxxx variables must be defined before <bsd.own.mk>
is included.
TOOL_xxx A tool that is provided as part of the USETOOLS
framework. When not using the USETOOLS framework,
TOOL_xxx variables should refer to tools that are
already installed on the host system.
The following variables that control how things are made/installed that
are not set by default. These should not be set by Makefiles; they're for
the user to define in MAKECONF (see <bsd.own.mk>, below, or mk.conf(5))
or on the make(1) command line:
BUILD If defined, 'make install' checks that the targets in the
source directories are up-to-date and remakes them if they
are out of date, instead of blindly trying to install
out of date or non-existent targets.
MAKEVERBOSE Control how "verbose" the standard make(1) rules are.
Default: 2
Supported values:
0 Minimal output ("quiet")
1 Describe what is occurring
2 Describe what is occurring and echo the actual command
3 Ignore the effect of the "@" prefix in make commands
4 Trace shell commands using the shell's -x flag
MKATF If "no", don't build the Automated Testing Framework (ATF),
which includes the libatf-c, libatf-c++ and libatf-sh libraries
and the various command line tools. Also, because the build of
the libraries is disabled, don't build the NetBSD test suite
either.
Default: yes
MKBFD Obsolete, use MKBINUTILS
MKBINUTILS If "no", don't build binutils (gas, ld, etc and libbfd,
libopcodes)
Default: yes
MKBSDTAR If "yes", use the libarchive based cpio and tar instead of
the pax frontends.
Default: no
MKCATPAGES If "no", don't build or install the catman pages.
Default: no
MKCOMPAT If "no", don't build or install the src/compat.
Default: yes on amd64/mips64/sparc64, no elsewhere.
MKCOMPATTESTS If "yes", build and install the NetBSD test suite when
building and installing src/compat.
Default: no
MKCOMPATX11 If "yes", build and install the X11 libraries when
building and installing src/compat.
Default: no
MKCOMPLEX If "no", don't build libm support for <complex.h>
Default: yes
MKCTF If "no", do not build and install CTF tools, and also
don't generate and manipulate CTF data of ELF binaries
during build.
Default: no
NOCTF Don't generate and manipulate CTF data of ELF binaries
during build. It is set internally for standalone programs.
MKCVS If "no", don't build or install cvs(1).
Default: yes
MKDEBUG If "no", don't build and install separate debugging symbols
into /usr/libdata/debug.
Default: no
NODEBUG Don't compile with debugging symbols during build.
It is set internally for standalone programs.
MKDEBUGLIB Build *_g.a debugging libraries, which are compiled
with -DDEBUG.
Default: no
MKDEPINCLUDES If "yes" issue .include statements in the .depend file
instead of inlining the contents of the .d files. Useful
when stale dependencies are present, to list the exact
files that need refreshing. It is off by default because
it is possibly slower.
Default "no"
MKDOC If "no", don't build or install the documentation.
Default: yes
MKDTRACE If "no", do not build and install the kernel modules,
utilities and libraries used to implement the dtrace(1)
facility.
Default: no
MKDYNAMICROOT If "no", build programs in /bin and /sbin statically,
don't install certain libraries in /lib, and don't
install the shared linker into /libexec.
Default: yes
MKEXTSRC If not "no", 'make build' also descends into either src/extsrc
to cross-build programs and libraries externally added by
users, and automatically enables creation of those sets.
Default: no
MKFIRMWARE If not "no", install the /libdata/firmware directory,
which is necessary for several drivers: athn(4), bwfm(4),
ipw(4), iwi(4), iwm(4), iwn(4), otus(4), rtwn(4), urtwn(4),
wpi(4), ral(4), rum(4), run(4), zyd(4), bcm43xx(4), and
the Tegra 124 SoC.
Default: yes on amd64, cobalt, evbarm evbmips, evbppc, hpcarm,
hppa, i386, mac68k, macppc, sandpoint, and sparc64, no elsewhere.
MKGCC If "no", don't build gcc(1) or any of the GCC-related
libraries (libgcc, libobjc, libstdc++).
Default: yes
MKGCCCMDS If "no", don't build gcc(1), but do build the GCC-related
libraries (libgcc, libobjc, libstdc++).
Default: yes
MKGDB If "no", don't build gdb(1).
Default: yes
MKGROFFHTMLDOC If "no", avoid trying to use groff to generate html for
miscellaneous articles, as this seems to sometimes want
to run software not in base. Does not affect html man
pages.
Default: no
MKHESIOD If "no", disables building of Hesiod infrastructure
(libraries and support programs).
Default: yes
MKHOSTOBJ If not "no", for programs intended to be run on the compile
host, the name, release, and architecture of the host
operating system will be suffixed to the name of the object
directory created by "make obj".
Default: no
MKHTML If "no", don't build or install the HTML man pages.
Default: yes
MKIEEEFP If "no", don't add code for IEEE754/IEC60559 conformance.
Has no effect on most platforms.
Default: yes
MKSTRIPIDENT Strip the RCS IDs from program binaries and shared libraries.
Default: no
MKINET6 If "no", disables building of INET6 (IPv6) infrastructure
(libraries and support programs). This option must not be
set to "no" if MKX11 is not "no".
Default: yes
MKINFO If "no", don't build or install Info documentation from
Texinfo source files.
Default: yes
MKIPFILTER If "no", don't build or install the IP Filter programs and LKM.
Default: yes
MKISCSI If "no", don't build or install iSCSI library or applications
(depends on libpthread.)
Default: yes
MKKDEBUG If "yes", force building of kernel symbol info and creation
of netbsd.gdb in all kernel builds, independently of the
settings for "makeoptions DEBUG" in the kernel config file.
MKKERBEROS If "no", disables building of Kerberos v5
infrastructure (libraries and support programs).
Default: yes
MKKMOD If "no", disables building of kernel modules.
Default: yes
MKKYUA If "no", don't build Kyua nor its dependent library Lutok.
Note that setting this to "no" does not disable the build of
the NetBSD test suite itself; the build of the tests is
controlled by the MKATF knob.
Default: no (until the import is done and validated)
MKLDAP If "no", disables building of LDAP infrastructure
(libraries and support programs).
Default: yes
MKLIBCSANITIZER If "yes", use the selected sanitizer inside libc to compile
userland programs and libraries as defined in
USE_LIBCSANITIZER, which defaults to "undefined".
The undefined behavior detector is currently the only supported
sanitizer in this mode. Its runtime differs from the UBSan
available in MKSANITIZER, and it is reimplemented from scratch
as micro-UBSan in the user mode (uUBSan). Its code is shared
with the kernel mode variation (kUBSan). The runtime is
stripped down from C++ features, in particular -fsanitize=vptr
is not supported and explicitly disabled. The only runtime
configuration is restricted to the LIBC_UBSAN environment
variable, that is designed to be safe for hardening.
The USE_LIBCSANITIZER value is passed to the -fsanitize=
argument to the compiler in CFLAGS and CXXFLAGS, but not in
LDFLAGS, as the runtime part is located inside libc.
Additional sanitizer arguments can be passed through
LIBCSANITIZERFLAGS.
Default: no
MKLIBCXX If not "no", build and install libc++.
Default: no
MKLIBSTDCXX If not "no", build and install libstdc++.
Default: yes
MKLINKLIB If "no", act as "MKLINT=no MKPICINSTALL=no MKPROFILE=no".
Also:
- don't install the .a libraries
- don't install _pic.a libraries on PIC systems
- don't build .a libraries on PIC systems
- don't install the .so symlink on ELF systems
I.e, only install the shared library (and the .so.major
symlink on ELF).
Default: yes
MKLINT If "no", don't build or install the lint libraries.
Default: yes
MKLVM If "no", don't build or install the logical volume manager
and device mapper tools and libraries
Default: yes
MKMAN If "no", don't build or install the man or catman pages,
and also acts as "MKCATPAGES=no MKHTML=no".
Default: yes
MKMANDOC If "yes", mandoc is built as tool and used to compile
catman or html pages. A directory can be exempted by
defining NOMANDOC. Individual man pages are exempted
if NOMANDOC.${target} is set to "yes".
Default: yes
MKMANZ If not "no", compress manual pages at installation time.
Default: no
MKMDNS If "no", disables building of mDNS infrastructure
(libraries and support programs).
Default: yes
MKNLS If "no", don't build or install the NLS files and locale
definition files.
Default: yes
MKNPF If "no", don't build or install the NPF and its modules.
Default: yes
MKNSD If "no", don't build or install the "nsd" DNS authoritative
server.
Default: no
MKOBJ If "no", don't enable the rule which creates objdirs,
and also acts as "MKOBJDIRS=no".
Default: yes
MKOBJDIRS If "no", don't create objdirs during a "make build".
Default: no
MKPAM If "no", disables building of PAM authentication
infrastructure (libraries and support programs).
Default: yes
MKPCC If "no", don't build pcc(1) or any of the PCC-related
libraries (libpcc, libpccsoftfloat).
Default: no
MKPF If "no", don't build or install the pf programs and LKM.
Default: yes
MKPIC If "no", don't build or install shared libraries, and
also acts as "MKPICLIB=no"
Default: yes (for MACHINE_ARCHs that support it)
MKPICINSTALL If "no", don't install the *_pic.a libraries.
Default: yes
MKPICLIB If "no", don't build *_pic.a libraries, and build the
shared object libraries from the .a libraries.
A symlink is installed in ${DESTDIR}/usr/lib for the
_pic.a library pointing to the .a library.
Default: yes
MKPIE If "no", create regular executables. Otherwise create
PIE (Position Independent Executables).
Default: no
NOPIE Don't create PIE (Position Independent Executables)
It is set internally for standalone programs.
MKPIGZGZIP If "no", only install pigz as pigz, not gzip.
Default: no
MKPOSTFIX If "no", don't build or install postfix(1).
Default: yes
MKPROFILE If "no", don't build or install the profiling (*_p.a) libraries.
Default: yes
MKRADEONFIRMWARE If "no", install the /libdata/firmware/radeon directory,
which is necessary for the radeon DRM driver.
Default: yes on i386 and amd64, no elsewhere.
MKRELRO If "partial", set the non-PLT GOT to read-only. If "full"
also force immediate symbol binding.
Default: no
MKREPRO If "yes", create reproducible builds. This enables
different switches to make two builds from the same source tree
result in the same build results.
Default: no
MKSANITIZER if "yes", use the selected sanitizer to compile userland
programs as defined in USE_SANITIZER, which defaults to
"address". A selection of available sanitizers:
address: A memory error detector (default)
thread: A data race detector
memory: An uninitialized memory read detector
undefined: An undefined behavior detector
leak: A memory leak detector
dataflow: A general data flow analysis
cfi: A control flow detector
safe-stack: Protect against stack-based corruption
scudo: The Scudo Hardened allocator
It's possible to specify multiple sanitizers within the
USE_SANITIZER option (comma separated). The USE_SANITIZER value
is passed to the -fsanitize= argument to the compiler.
Additional arguments can be passed through SANITIZERFLAGS.
The list of supported features and their valid combinations
depends on the compiler version and target CPU architecture.
Default: no
MKSHARE If "no", act as "MKCATPAGES=no MKDOC=no MKHTML=no MKINFO=no
MKMAN=no MKNLS=no".
I.e, don't build catman pages, documentation, Info
documentation, man pages, NLS files, ...
Default: yes
MKSKEY If "no", disables building of S/key authentication
infrastructure (libraries and support programs).
Default: yes
MKSLJIT If "no", disables building of sljit (stack-less platform
independent JIT compiler) private library and tests.
Default: yes on amd64, i386 and sparc, no elsewhere.
MKSOFTFLOAT If not "no", build with options to enable the compiler to
generate output containing library calls for floating
point and possibly soft-float library support.
Default: no
MKSTATICLIB If "no", don't build or install the normal static (*.a)
libraries.
Default: yes
MKSTATICPIE Compile in support for static pie binaries. These binaries
use a special support in crt0.o for resolving relative
relocations and require linker support.
Default: yes on platforms that support it.
MKSTRIPSYM If "yes", strip all local symbols from shared libraries;
the affect is equivalent to -x option of ld(1). If "no",
strip only temporary local symbols; the affect is equivalent
to -X option of ld(1). Keeping non-temporary local symbols
such as static function names is useful on using DTrace for
userland libraries and getting a backtrace from a rump kernel
loading shared libraries.
Default: yes
MKTEGRAFIRMWARE If "no", install the /libdata/firmware/nvidia directory,
which is necessary for the NVIDIA Tegra XHCI driver.
Default: yes on evbarm, no elsewhere.
MKTOOLSDEBUG If "yes" build the tools with debugging symbols.
Default: no
MKTPM If "no" then don't build the Trusted Platform Module
infrastructure.
Default: no
MKUNBOUND If not "no", build and install the "unbound" DNS resolver.
Default: yes
MKUNPRIVED If not "no", don't set the owner/group/mode when installing
files or directories, and keep a metadata log of what
the owner/group/mode should be. This allows a
non-root "make install".
Default: no
MKUPDATE If not "no", 'make install' only installs targets that are
more recently modified in the source directories that their
installed counterparts.
Default: no
MKX11 If not "no", 'make build' also descends into
src/external/mit/xorg to cross-build X11 and automatically
enables creation of X sets.
Default: no
MKX11FONTS If not "no", do not build or install the X fonts. The xfont
set is still created but will be empty.
Default: yes
MKX11MOTIF: If "yes", build the native X11 libGLw with Motif stubs. If
Motif is not installed in the default location /usr/pkg, the
location can be specified using the X11MOTIFPATH variable.
Default: no
MKYP If "no", disables building of YP (NIS)
infrastructure (libraries and support programs).
Default: yes
MKZFS If "no", do not build and install utilities and libraries
used to manage ZFS file system. Do not build zfs and solaris
compatibility kernel modules. Note: ZFS requires 64bit
atomic operations.
Default: yes on amd64, no elsewhere.
MKRUMP If "no", do not build and install rump related headers,
libraries, and programs.
Default: yes
USE_HESIOD If "no", disables building Hesiod support into
various system utilities/libraries that support it.
If ${MKHESIOD} is "no", USE_HESIOD will also be
forced to "no".
USE_INET6 If "no", disables building INET6 (IPv6) support into
various system utilities/libraries that support it.
If ${MKINET6} is "no", USE_INET6 will also be
forced to "no".
USE_JEMALLOC If "no", disables building the "jemalloc" allocator
designed for improved performance with threaded
applications. The "phkmalloc" allocator as used up
before NetBSD-5.0 will be substituted.
USE_KERBEROS If "no", disables building Kerberos v5
support into various system utilities/libraries that
support it. If ${MKKERBEROS} is "no", USE_KERBEROS
will also be forced to "no".
USE_LDAP If "no", disables building LDAP support into various
system utilities/libraries that support it.
If ${MKLDAP} is "no", USE_LDAP will also be forced to "no".
USE_PAM If "no", disables building PAM authentication support
into various system utilities/libraries that support it.
If ${MKPAM} is "no", USE_PAM will also be forced to "no".
USE_SKEY If "no", disables building S/key authentication
support into various system utilities/libraries that
support it. If ${MKSKEY} is "no", USE_SKEY will
also be forced to "no".
Default: no
USE_SSP If "no", disables GCC stack protection code, which
detects stack overflows and aborts the program. The
stack protection code imposes a performance penalty
of about 5%.
Default: "no", unless "USE_FORT" is set to "yes"
NOSSP Don't compile with stack protector during build.
It is set internally for standalone programs.
USE_FORT If "yes" turns on substitute wrappers for commonly used
functions that do not do bounds checking regularly, but
they could in some cases by using the gcc
__builtin_object_size() function to determine the buffer
size where it is known and detect buffer overflows.
These substitute functions are in /usr/include/ssp.
Default: depends on the part of the source tree
NOFORT Don't compile with substitute wrappers during build.
It is set internally for standalone programs.
USE_YP If "no", disables building YP (NIS) support into
various system utilities/libraries that support it.
If ${MKYP} is "no", USE_YP will also be forced to "no".
USE_PIGZGZIP If "no", use the host "gzip" program to compress things.
Otherwise, build tools/pigz, set TOOL_GZIP=${TOOL_PIGZ},
and use nbpigz to compress things.
Default: "no".
COPTS.lib<lib>
OBJCOPTS.lib<lib>
LDADD.lib<lib>
CPPFLAGS.lib<lib>
CXXFLAGS.lib<lib>
COPTS.<prog>
OBJCCOPTS.<prog>
LDADD.<prog>
CPPFLAGS.<prog>
CXXFLAGS.<prog> These provide a way to specify additions to the associated
variables in a way that applies only to a particular library
or program. <lib> corresponds to the LIB variable set in
the library's makefile. <prog> corresponds to either PROG
or PROG_CXX (if set). For example, if COPTS.libcrypto is
set to "-g", "-g" will be added to COPTS only when compiling
the crypto library.
The active compiler is selected using the following variables:
AVAILABLE_COMPILER
List of available compiler suites. Processed in order
for selecting the active compiler for each frontend.
HAVE_PCC If defined, PCC is present and enabled.
HAVE_LLVM If defined, LLVM/Clang is present and enabled.
UNSUPPORTED_COMPILER.xxx
If defined, the support for compiler "xxx" is disabled.
For the frontends (CC, CPP, CXX, FC and OBJC) the following variables exist:
ACTIVE_CC Active compile suite for the CC frontend.
SUPPORTED_CC Compile suite with support for the CC frontend.
TOOL_CC.xxx Path to the CC frontend for compiler "xxx"
=-=-=-=-= sys.mk =-=-=-=-=
The include file <sys.mk> has the default rules for all makes, in the BSD
environment or otherwise. You probably don't want to touch this file.
=-=-=-=-= bsd.own.mk =-=-=-=-=
The include file <bsd.own.mk> contains source tree configuration parameters,
such as the owners, groups, etc. for both manual pages and binaries, and
a few global "feature configuration" parameters.
It has no targets.
To get system-specific configuration parameters, <bsd.own.mk> will try to
include the file specified by the "MAKECONF" variable. If MAKECONF is not
set, or no such file exists, the system make configuration file, /etc/mk.conf
is included. These files may define any of the variables described below.
<bsd.own.mk> sets the following variables, if they are not already defined
(defaults are in brackets):
NETBSDSRCDIR Top of the NetBSD source tree.
If _SRC_TOP_ != "", that will be used as the default,
otherwise BSDSRCDIR will be used as the default.
Various makefiles within the NetBSD source tree will
use this to reference the top level of the source tree.
_SRC_TOP_ Top of the system source tree, as determined by <bsd.own.mk>
based on the presence of tools/ and build.sh. This variable
is "internal" to <bsd.own.mk>, although its value is only
determined once and then propagated to all sub-makes.
_NETBSD_VERSION_DEPENDS
A list of files which contain information about
the version of the NetBSD being built. This is
defined only if the current directory appears
to be inside a NetBSD source tree. The list of
files includes ${NETBSDSRCDIR}/sys/sys/param.h
(which contains the kernel version number),
${NETBSDSRCDIR}/sys/conf/newvers.sh and
${NETBSDSRCDIR}/sys/conf/osrelease.sh (which
interpret the information in sys/sys/param.h), and
${_SRC_TOP_OBJ_}/params (which is an optional file,
created by "make build" in ${_SRC_TOP_}/Makefile,
containing all the variables that may influence the
build).
Targets that depend on the NetBSD version, or on
variables defined at build time, can declare a
dependency on ${_NETBSD_VERSION_DEPENDS}, like this:
version.c: ${_NETBSD_VERSION_DEPENDS}
commands to create version.c
BSDSRCDIR The real path to the system sources, so that 'make obj'
will work correctly. [/usr/src]
BSDOBJDIR The real path to the system 'obj' tree, so that 'make obj'
will work correctly. [/usr/obj]
BINGRP Binary group. [wheel]
BINOWN Binary owner. [root]
BINMODE Binary mode. [555]
NONBINMODE Mode for non-executable files. [444]
MANDIR Base path for manual installation. [/usr/share/man/cat]
MANGRP Manual group. [wheel]
MANOWN Manual owner. [root]
MANMODE Manual mode. [${NONBINMODE}]
MANINSTALL Manual installation type. Space separated list:
catinstall, htmlinstall, maninstall
Default value derived from MKCATPAGES and MKHTML.
LDSTATIC Control program linking; if set blank, link everything
dynamically. If set to "-static", link everything statically.
If not set, programs link according to their makefile.
LIBDIR Base path for library installation. [/usr/lib]
LINTLIBDIR Base path for lint(1) library installation. [/usr/libdata/lint]
LIBGRP Library group. [${BINGRP}]
LIBOWN Library owner. [${BINOWN}]
LIBMODE Library mode. [${NONBINMODE}]
DOCDIR Base path for system documentation (e.g. PSD, USD, etc.)
installation. [/usr/share/doc]
DOCGRP Documentation group. [wheel]
DOCOWN Documentation owner. [root]
DOCMODE Documentation mode. [${NONBINMODE}]
GZIP_N_FLAG Flags to pass to TOOL_GZIP to prevent it from inserting
file names or timestamps in the compressed output.
[-n, or -nT when TOOL_GZIP is really TOOL_PIGZ]
NLSDIR Base path for Native Language Support files installation.
[/usr/share/nls]
NLSGRP Native Language Support files group. [wheel]
NLSOWN Native Language Support files owner. [root]
NLSMODE Native Language Support files mode. [${NONBINMODE}]
X11SRCDIR The path to the xsrc tree. [${NETBSDSRCDIR}/../xsrc,
if that exists; otherwise /usr/xsrc]
X11SRCDIR.local The path to the local X11 src tree. [${X11SRCDIR}/local]
X11SRCDIR.lib<package>
X11SRCDIR.<package>
The path to the xorg src tree for the specificed package>.
[${X11SRCDIR}/external/mit/xorg/<package>/dist]
X11ROOTDIR Root directory of the X11 installation. [/usr/X11R7]
X11BINDIR X11 bin directory. [${X11ROOTDIR}/bin]
X11FONTDIR X11 font directory. [${X11ROOTDIR}/lib/X11/fonts]
X11INCDIR X11 include directory. [${X11ROOTDIR}/include]
X11LIBDIR X11 lib/x11 (config) directory. [${X11ROOTDIR}/lib/X11]
X11MANDIR X11 manual directory. [${X11ROOTDIR}/man]
X11USRLIBDIR X11 library directory. [${X11ROOTDIR}/lib]
STRIPFLAG The flag passed to the install program to cause the binary
to be stripped. This is to be used when building your
own install script so that the entire system can be made
stripped/not-stripped using a single knob. []
COPY The flag passed to the install program to cause the binary
to be copied rather than moved. This is to be used when
building our own install script so that the entire system
can either be installed with copies, or with moves using
a single knob. [-c]
MAKEDIRTARGETENV
Environment variables passed to the child make process
invoked by MAKEDIRTARGET.
MAKEDIRTARGET dir target [params]
Runs "cd $${dir} && ${MAKE} [params] $${target}",
displaying a "pretty" message whilst doing so.
RELEASEMACHINEDIR
Subdirectory used below RELEASEDIR when building
a release. [${MACHINE}]
RELEASEMACHINE Subdirectory or path component used for the following
paths:
distrib/${RELEASEMACHINE}
distrib/notes/${RELEASEMACHINE}
etc/etc.${RELEASEMACHINE}
Used when building a release. [${MACHINE}]
Additionally, the following variables may be set by <bsd.own.mk> or in a
make configuration file to modify the behavior of the system build
process (default values are in brackets along with comments, if set by
<bsd.own.mk>):
USETOOLS Indicates whether the tools specified by ${TOOLDIR} should
be used as part of a build in progress.
Supported values:
yes Use the tools from TOOLDIR.
Must be set to this if cross-compiling.
no Do not use the tools from TOOLDIR, but refuse to
build native compilation tool components that are
version-specific for that tool.
never Do not use the tools from TOOLDIR, even when
building native tool components. This is similar to
the traditional NetBSD build method, but does not
verify that the compilation tools in use are
up-to-date enough in order to build the tree
successfully. This may cause build or runtime
problems when building the whole NetBSD source tree.
Default: "yes" if building all or part of a whole NetBSD
source tree (detected automatically); "no" otherwise
(to preserve traditional semantics of the <bsd.*.mk>
make(1) include files).
OBJECT_FMT Object file format. [set to "ELF" on architectures that
use ELF -- currently all architectures].
TOOLCHAIN_MISSING
If not "no", this indicates that the platform being built
does not have a working in-tree toolchain. If the
${MACHINE_ARCH} in question falls into this category,
TOOLCHAIN_MISSING is conditionally assigned the value "yes".
Otherwise, the variable is unconditionally assigned the
value "no".
If not "no", ${MKBINUTILS}, ${MKGCC}, and ${MKGDB} are
unconditionally assigned the value "no".
EXTERNAL_TOOLCHAIN
This variable is not directly set by <bsd.own.mk>, but
including <bsd.own.mk> is the canonical way to gain
access to this variable. The variable should be defined
either in the user's environment or in the user's mk.conf
file. If defined, this variable indicates the root of
an external toolchain which will be used to build the
tree. For example, if a platform is a ${TOOLCHAIN_MISSING}
platform, EXTERNAL_TOOLCHAIN can be used to re-enable the
cross-compile framework.
If EXTERNAL_TOOLCHAIN is defined, ${MKGCC} is unconditionally
assigned the value "no", since the external version of the
compiler may not be able to build the library components of
the in-tree compiler.
This variable should be used in conjunction with an appropiate
HAVE_GCC or HAVE_LLVM setting to control the compiler flags.
NOTE: This variable is not yet used in as many places as
it should be. Expect the exact semantics of this variable
to change in the short term as parts of the cross-compile
framework continue to be cleaned up.
The following variables are defined to commands to perform the
appropriate operation, with the default in [brackets]. Note that
the defaults change if USETOOLS == "yes":
TOOL_AMIGAAOUT2BB aout to Amiga bootblock converter. [amiga-aout2bb]
TOOL_AMIGAELF2BB ELF to Amiga bootblock converter. [amiga-elf2bb]
TOOL_AMIGATXLT Amige assembly language format translator. [amiga-txlt]
TOOL_ASN1_COMPILE ASN1 compiler. [asn1_compile]
TOOL_AWK Pattern-directed scanning/processing language. [awk]
TOOL_CAP_MKDB Create capability database. [cap_mkdb]
TOOL_CAT Concatenate and print files. [cat]
TOOL_CKSUM Display file checksums. [cksum]
TOOL_COMPILE_ET Error table compiler. [compile_et]
TOOL_CONFIG Build kernel compilation directories. [config]
TOOL_CRUNCHGEN Generate crunched binary build environment. [crunchgen]
TOOL_CTAGS Create a tags file. [ctags]
TOOL_DB Manipulate db(3) databases. [db]
TOOL_DISKLABEL Read and write disk pack label. [disklabel]
TOOL_EQN Format equations for groff. [eqn]
TOOL_FDISK MS-DOS partition maintenance program. [fdisk]
TOOL_FGEN IEEE 1275 Open Firmware FCode Tokenizer. [fgen]
TOOL_GENASSYM Generate constants for assembly files. [genassym]
TOOL_GENCAT Generate NLS message catalogs. [gencat]
TOOL_GMAKE GNU make utility. [gmake]
TOOL_GREP Print lines matching a pattern. [grep]
TOOL_GROFF Front end for groff document formatting system. [groff]
TOOL_GZIP Compression/decompression tool. [gzip]
TOOL_GZIP_N Same as TOOL_GZIP, plus a command line option to
prevent it from inserting file names or timestamps
into the compressed output.
[${TOOL_GZIP} ${GZIP_N_FLAG}]
TOOL_HEXDUMP Ascii, decimal, hexadecimal, octal dump. [hexdump]
TOOL_HP300MKBOOT Make bootable image for hp300. [hp300-mkboot]
TOOL_HPPAMKBOOT Make bootable image for hppa. [hppa-mkboot]
TOOL_INDXBIB Make bibliographic database's inverted index. [indxbib]
TOOL_INSTALLBOOT Install disk bootstrap software. [installboot]
TOOL_INSTALL_INFO Update info/dir entries. [install-info]
TOOL_JOIN Relational database operator. [join]
TOOL_M4 M4 macro language processor. [m4]
TOOL_MACPPCFIXCOFF Fix up xcoff headers for macppc. [macppc-fixcoff]
TOOL_MAKEFS Create file system image from directory tree. [makefs]
TOOL_MAKEINFO Translate Texinfo documents. [makeinfo]
TOOL_MAKEWHATIS Create a whatis.db database. [makewhatis]
TOOL_MDSETIMAGE Set kernel RAM disk image. [mdsetimage]
TOOL_MENUC Menu compiler. [menuc]
TOOL_MIPSELF2ECOFF Convert ELF-format executable to ECOFF for mips.
[mips-elf2ecoff]
TOOL_MKCSMAPPER Make charset mapping table. [mkcsmapper]
TOOL_MKESDB Make encoding scheme database. [mkesdb]
TOOL_MKLOCALE Make LC_CTYPE locale files. [mklocale]
TOOL_MKMAGIC Create database for file(1). [file]
TOOL_MKNOD Make device special file. [mknod]
TOOL_MKTEMP Make (unique) temporary file name. [mktemp]
TOOL_MSGC Simple message list compiler. [msgc]
TOOL_MTREE Map a directory hierarchy. [mtree]
TOOL_NCDCS Turn ELF kernel into a NCD firmware image. [ncdcs]
TOOL_PAX Manipulate file archives and copy directories. [pax]
TOOL_PIC Compile pictures for groff. [pic]
TOOL_PIGZ Parallel compressor. [pigz]
TOOL_POWERPCMKBOOTIMAGE Make bootable image for powerpc. [powerpc-mkbootimage]
TOOL_PWD_MKDB Generate the password databases. [pwd_mkdb]
TOOL_REFER Preprocess bibliographic references for groff. [refer]
TOOL_ROFF_ASCII Generate ASCII groff output. [nroff]
TOOL_ROFF_DVI Generate DVI groff output. [${TOOL_GROFF} -Tdvi]
TOOL_ROFF_HTML Generate HTML groff output.
[${TOOL_GROFF} -Tlatin1 -mdoc2html]
TOOL_ROFF_PS Generate PS groff output. [${TOOL_GROFF} -Tps]
TOOL_ROFF_RAW Generate "raw" groff output. [${TOOL_GROFF} -Z]
TOOL_RPCGEN Remote Procedure Call (RPC) protocol compiler. [rpcgen]
TOOL_SED Stream editor. [sed]
TOOL_SOELIM Eliminate .so's from groff input. [soelim]
TOOL_SPARKCRC Generate a crc suitable for use in a sparkive file.
[sparkcrc]
TOOL_STAT Display file status. [stat]
TOOL_STRFILE Create a random access file for storing strings.
[strfile]
TOOL_SUNLABEL Read or modify a SunOS disk label. [sunlabel]
TOOL_TBL Format tables for groff. [tbl]
TOOL_UUDECODE Uudecode a binary file. [uudecode]
TOOL_VGRIND Grind nice listings of programs. [vgrind -f]
TOOL_ZIC Time zone compiler. [zic]
For each possible value of MACHINE_CPU, MACHINES.${MACHINE_CPU} contain a
list of what ports can be built for it. This keeps those definitions in
centralized place.
<bsd.own.mk> is generally useful when building your own Makefiles so that
they use the same default owners etc. as the rest of the tree.
=-=-=-=-= bsd.clean.mk =-=-=-=-=
The include file <bsd.clean.mk> defines the clean and cleandir
targets. It uses the following variables:
CLEANFILES Files to remove for both the clean and cleandir targets.
CLEANDIRFILES Files to remove for the cleandir target, but not for
the clean target.
MKCLEANSRC Controls whether or not the clean and cleandir targets
will delete files from both the object directory,
${.OBJDIR}, and the source directory, ${.CURDIR}.
If MKCLEANSRC is set to "no", then the file names in
CLEANFILES or CLEANDIRFILES are interpreted relative
to the object directory, ${.OBJDIR}. This is the
traditional behaviour.
If MKCLEANSRC is set to "yes", then the file deletion
is performed relative to both the object directory,
${.OBJDIR}, and the source directory, ${.CURDIR}. (This
has no effect if ${.OBJDIR} is the same as ${.CURDIR}.)
Deleting files from ${.CURDIR} is intended to remove
stray output files that had been left in the source
directory by an earlier build that did not use object
directories.
The default is MKCLEANSRC=yes. If you always build with
separate object directories, and you are sure that there
are no stray files in the source directories, then you
may set MKCLEANSRC=no to save some time.
MKCLEANVERIFY Controls whether or not the clean and cleandir targets
will verify that files have been deleted.
If MKCLEANVERIFY is set to "no", then the files will
be deleted using a "rm -f" command, and its success or
failure will be ignored.
If MKCLEANVERIFY is set to "yes", then the success of
the "rm -f" command will be verified using an "ls"
command.
The default is MKCLEANVERIFY=yes. If you are sure that
there will be no problems caused by file permissions,
read-only file systems, or the like, then you may set
MKCLEANVERIFY=no to save some time.
To use the clean and cleandir targets defined in <bsd.clean.mk>, other
Makefiles or bsd.*.mk files should append file names to the CLEANFILES
or CLEANDIRFILES variables. For example:
CLEANFILES+= a.out
CLEANDIRFILES+= .depend
.include <bsd.clean.mk>
The files listed in CLEANFILES and CLEANDIRFILES must not be
directories, because the potential risk from running "rm -rf" commands
in bsd.clean.mk is considered too great. If you want to recursively
delete a directory as part of "make clean" or "make cleandir" then you
need to provide your own target.
=-=-=-=-= bsd.dep.mk =-=-=-=-=
The include file <bsd.dep.mk> contains the default targets for building
.depend files. It creates .d files from entries in SRCS and DPSRCS
that are C, C++, or Objective C source files, and builds .depend from the
.d files. All other files in SRCS and all of DPSRCS will be used as
dependencies for the .d files. In order for this to function correctly,
it should be .included after all other .mk files and directives that may
modify SRCS or DPSRCS. It uses the following variables:
SRCS List of source files to build the program.
DPSRCS List of source files which are needed for generating
dependencies, but are not needed in ${SRCS}.
=-=-=-=-= bsd.files.mk =-=-=-=-=
The include file <bsd.files.mk> handles the FILES variables and is included
from <bsd.lib.mk> and <bsd.prog.mk>, and uses the following variables:
FILES The list of files to install.
CONFIGFILES Similar semantics to FILES, except that the files
are installed by the `configinstall' target,
not the `install' target.
The FILES* variables documented below also apply.
FILESOWN File owner. [${BINOWN}]
FILESGRP File group. [${BINGRP}]
FILESMODE File mode. [${NONBINMODE}]
FILESDIR The location to install the files.
FILESNAME Optional name to install each file as.
FILESOWN_<fn> File owner of the specific file <fn>.
FILESGRP_<fn> File group of the specific file <fn>.
FILESMODE_<fn> File mode of the specific file <fn>.
FILESDIR_<fn> The location to install the specific file <fn>.
FILESNAME_<fn> Optional name to install <fn> as.
FILESBUILD If this variable is defined, then its value will be
used as the default for all FILESBUILD_<fn> variables.
Otherwise, the default will be "no".
FILESBUILD_<fn> A value different from "no" will add the file to the list of
targets to be built by `realall'. Users of that variable
should provide a target to build the file.
BUILDSYMLINKS List of two word items:
lnsrc lntgt
For each lnsrc item, create a symlink named lntgt.
The lntgt symlinks are removed by the cleandir target.
UUDECODE_FILES List of files which are stored as <file>.uue in the source
tree. Each one will be decoded with ${TOOL_UUDECODE}.
The source files have a `.uue' suffix, the generated files do
not.
UUDECODE_FILES_RENAME_<fn>
Rename the output from the decode to the provided name.
*NOTE: These files are simply decoded, with no install or other
rule applying implicitly except being added to the clean
target.
=-=-=-=-= bsd.gcc.mk =-=-=-=-=
The include file <bsd.gcc.mk> computes various parameters related to GCC
support libraries. It defines no targets. <bsd.own.mk> MUST be included
before <bsd.gcc.mk>.
The primary users of <bsd.gcc.mk> are <bsd.prog.mk> and <bsd.lib.mk>, each
of which need to know where to find certain GCC support libraries.
The behavior of <bsd.gcc.mk> is influenced by the EXTERNAL_TOOLCHAIN variable,
which is generally set by the user. If EXTERNAL_TOOLCHAIN it set, then
the compiler is asked where to find the support libraries, otherwise the
support libraries are found in ${DESTDIR}/usr/lib.
<bsd.gcc.mk> sets the following variables:
_GCC_CRTBEGIN The full path name to crtbegin.o.
_GCC_CRTBEGINS The full path name to crtbeginS.o.
_GCC_CRTEND The full path name to crtend.o.
_GCC_CRTENDS The full path name to crtendS.o.
_GCC_LIBGCCDIR The directory where libgcc.a is located.
=-=-=-=-= bsd.inc.mk =-=-=-=-=
The include file <bsd.inc.mk> defines the includes target and uses the
variables:
INCS The list of include files.
INCSDIR The location to install the include files.
INCSNAME Target name of the include file, if only one; same as
FILESNAME, but for include files.
INCSYMLINKS Similar to SYMLINKS in <bsd.links.mk>, except that these
are installed in the 'includes' target and not the
(much later) 'install' target.
INCSNAME_<file> The name file <file> should be installed as, if not <file>,
same as FILESNAME_<file>, but for include files.
=-=-=-=-= bsd.info.mk =-=-=-=-=
The include file <bsd.info.mk> is used to generate and install GNU Info
documentation from respective Texinfo source files. It defines three
implicit targets (.txi.info, .texi.info, and .texinfo.info), and uses the
following variables:
TEXINFO List of Texinfo source files. Info documentation will
consist of single files with the extension replaced by
.info.
INFOFLAGS Flags to pass to makeinfo. []
=-=-=-=-= bsd.kernobj.mk =-=-=-=-=
The include file <bsd.kernobj.mk> defines variables related to the
location of kernel sources and object directories.
KERNSRCDIR Is the location of the top of the kernel src.
[${_SRC_TOP_}/sys]
KERNARCHDIR Is the location of the machine dependent kernel sources.
[arch/${MACHINE}]
KERNCONFDIR Is where the configuration files for kernels are found.
[${KERNSRCDIR}/${KERNARCHDIR}/conf]
KERNOBJDIR Is the kernel build directory. The kernel GENERIC for
instance will be compiled in ${KERNOBJDIR}/GENERIC.
The default value is
${MAKEOBJDIRPREFIX}${KERNSRCDIR}/${KERNARCHDIR}/compile
if it exists or the target 'obj' is being made.
Otherwise the default is
${KERNSRCDIR}/${KERNARCHDIR}/compile.
It is important that Makefiles (such as those under src/distrib) that
wish to find compiled kernels use <bsd.kernobj.mk> and ${KERNOBJDIR}
rather than make assumptions about the location of the compiled kernel.
=-=-=-=-= bsd.kinc.mk =-=-=-=-=
The include file <bsd.kinc.mk> defines the many targets (includes,
subdirectories, etc.), and is used by kernel makefiles to handle
include file installation. It is intended to be included alone, by
kernel Makefiles. It uses similar variables to <bsd.inc.mk>.
Please see <bsd.kinc.mk> for more details, and keep the documentation
in that file up to date.
=-=-=-=-= bsd.syscall.mk =-=-=-=-=
The include file <bsd.syscall.mk> contains the logic to create syscall
files for various emulations. It includes <bsd.kinc.mk> to handle the
rest of the targets.
=-=-=-=-= bsd.lib.mk =-=-=-=-=
The include file <bsd.lib.mk> has support for building libraries. It has
the same eight targets as <bsd.prog.mk>: all, clean, cleandir, depend,
includes, install, lint, and tags. Additionally, it has a checkver target
which checks for installed shared object libraries whose version is greater
that the version of the source. It has a limited number of suffixes,
consistent with the current needs of the BSD tree. <bsd.lib.mk> includes
<bsd.shlib.mk> to get shared library parameters.
It sets/uses the following variables:
LIB The name of the library to build.
LIBDIR Target directory for libraries.
MKARZERO Normally, ar(1) sets the timestamps, uid, gid and
permissions in files inside its archives to those of
the file it was fed. This leads to non-reproducible
builds. If MKARZERO is set to "yes" (default is the
same as MKREPRO, or "no" if MKREPRO is not defined),
then the "D" flag is passed to ar, causing the
timestamp, uid and gid to be zeroed and the file
permissions to be set to 644. This allows .a files
from different builds to be bit identical.
SHLIBINSTALLDIR Target directory for shared libraries if ${USE_SHLIBDIR}
is not "no".
SHLIB_MAJOR
SHLIB_MINOR
SHLIB_TEENY Major, minor, and teeny version numbers of shared library
USE_SHLIBDIR If not "no", use ${SHLIBINSTALLDIR} instead of ${LIBDIR}
as the path to install shared libraries to.
USE_SHLIBDIR must be defined before <bsd.own.mk> is included.
Default: no
LIBISMODULE If not "no", install as ${LIB}.so (without the "lib" prefix),
and act as "MKDEBUGLIB=no MKLINT=no MKPICINSTALL=no
MKPROFILE=no MKSTATICLIB=no".
Default: no
LIBISPRIVATE If not "no", act as "MKDEBUGLIB=no MKLINT=no MKPIC=no
MKPROFILE=no", and don't install the (.a) library.
This is useful for "build only" helper libraries.
Default: no
LIBISCXX If not "no", Use ${CXX} instead of ${CC} to link
shared libraries.
This is useful for C++ libraries.
Default: no
LINTLIBDIR Target directory for lint libraries.
LIBGRP Library group.
LIBOWN Library owner.
LIBMODE Library mode.
LDADD Additional loader objects.
MAN The manual pages to be installed (use a .1 - .9 suffix).
NOCHECKVER_<library>
NOCHECKVER If set, disables checking for installed shared object
libraries with versions greater than the source. A
particular library name, without the "lib" prefix, may
be appended to the variable name to disable the check for
only that library.
SRCS List of source files to build the library. Suffix types
.s, .c, and .f are supported. Note, .s files are preferred
to .c files of the same name. (This is not the default for
versions of make.)
LIBDPLIBS/
PROGDPLIBS A list of the tuples:
libname path-to-srcdir-of-libname
Instead of depending on installed versions of the libraries,
one can depend on their built version in the source directory.
This is useful for finding private libraries (LIBISPRIVATE).
For each tuple;
* LIBDO.libname contains the .OBJDIR of the library
`libname', and if it is not set it is determined
from the srcdir and added to MAKEOVERRIDES (the
latter is to allow for build time optimization).
* LDADD gets -L${LIBDO.libname} -llibname added.
* DPADD gets ${LIBDO.libname}/liblibname.so or
${LIBDO.libname}/liblibname.a added.
The special value "_external" for LIBDO.lib makes the
build system to assume the library comes from outside
of the NetBSD source tree and only causes -llibname
to be added to LDADD.
This variable may be used for individual libraries/programs,
as well as in parent directories to cache common libraries
as a build-time optimization.
The include file <bsd.lib.mk> includes the file named "../Makefile.inc"
if it exists, as well as the include file <bsd.man.mk>.
It has rules for building profiled objects; profiled libraries are
built by default.
Libraries are ranlib'd when made.
=-=-=-=-= bsd.links.mk =-=-=-=-=
The include file <bsd.links.mk> handles the LINKS and SYMLINKS variables
and is included from from <bsd.lib.mk> and <bsd.prog.mk>.
LINKSOWN, LINKSGRP, and LINKSMODE, are relevant only if a metadata log
is used. The defaults may be modified by other bsd.*.mk files which
include bsd.links.mk. In the future, these variables may be replaced
by a method for explicitly recording hard links in a metadata log.
LINKS The list of hard links, consisting of pairs of paths:
source-file target-file
${DESTDIR} is prepended to both paths before linking.
For example, to link /bin/test and /bin/[, use:
LINKS=/bin/test /bin/[
CONFIGLINKS Similar semantics to LINKS, except that the links
are installed by the `configinstall' target,
not the `install' target.
SYMLINKS The list of symbolic links, consisting of pairs of paths:
source-file target-file
${DESTDIR} is only prepended to target-file before linking.
For example, to symlink /usr/bin/tar to /bin/tar resulting
in ${DESTDIR}/usr/bin/tar -> /bin/tar:
SYMLINKS=/bin/tar /usr/bin/tar
CONFIGSYMLINKS Similar semantics to SYMLINKS, except that the symbolic links
are installed by the `configinstall' target,
not the `install' target.
LINKSOWN Link owner. [${BINOWN}]
LINKSGRP Link group. [${BINGRP}]
LINKSMODE Link mode. [${NONBINMODE}]
LINKSOWN_<fn> Link owner of the specific file <fn>.
LINKSGRP_<fn> Link group of the specific file <fn>.
LINKSMODE_<fn> Link mode of the specific file <fn>.
=-=-=-=-= bsd.man.mk =-=-=-=-=
The include file <bsd.man.mk> handles installing manual pages and their
links.
It has a three targets:
catinstall:
Install the preformatted manual pages and their links.
htmlinstall:
Install the HTML manual pages and their links.
maninstall:
Install the manual page sources and their links.
It sets/uses the following variables:
MANDIR Base path for manual installation.
MANGRP Manual group.
MANOWN Manual owner.
MANMODE Manual mode.
MANSUBDIR Subdirectory under the manual page section, i.e. "/vax"
or "/tahoe" for machine specific manual pages.
MAN The manual pages to be installed (use a .1 - .9 suffix).
MLINKS List of manual page links (using a .1 - .9 suffix). The
linked-to file must come first, the linked file second,
and there may be multiple pairs.
The include file <bsd.man.mk> includes a file named "../Makefile.inc" if
it exists.
=-=-=-=-= bsd.obj.mk =-=-=-=-=
The include file <bsd.obj.mk> defines targets related to the creation
and use of separated object and source directories.
If an environment variable named MAKEOBJDIRPREFIX is set, make(1) uses
${MAKEOBJDIRPREFIX}${.CURDIR} as the name of the object directory if
it exists. Otherwise make(1) looks for the existence of a
subdirectory (or a symlink to a directory) of the source directory
into which built targets should be placed. If an environment variable
named MAKEOBJDIR is set, make(1) uses its value as the name of the
object directory; failing that, make first looks for a subdirectory
named "obj.${MACHINE}", and if that doesn't exist, it looks for "obj".
Object directories are not created automatically by make(1) if they
don't exist; you need to run a separate "make obj". (This will happen
during a top-level build if "MKOBJDIRS" is set to a value other than
"no"). When the source directory is a subdirectory of ${BSDSRCDIR} --
and this is determined by a simple string prefix comparison -- object
directories are created in a separate object directory tree, and a
symlink to the object directory in that tree is created in the source
directory; otherwise, "make obj" assumes that you're not in the main
source tree and that it's not safe to use a separate object tree.
Several variables used by <bsd.obj.mk> control exactly what
directories and links get created during a "make obj":
MAKEOBJDIR If set, this is the component name of the object
directory.
OBJMACHINE If this is set but MAKEOBJDIR is not set, creates
object directories or links named "obj.${MACHINE}";
otherwise, just creates ones named "obj".
USR_OBJMACHINE If set, and the current directory is a subdirectory of
${BSDSRCDIR}, create object directory in the
corresponding subdirectory of ${BSDOBJDIR}.${MACHINE};
otherwise, create it in the corresponding subdirectory
of ${BSDOBJDIR}
BUILDID If set, the contents of this variable are appended
to the object directory name. If OBJMACHINE is also
set, ".${BUILDID}" is added after ".${MACHINE}".
=-=-=-=-= bsd.prog.mk =-=-=-=-=
The include file <bsd.prog.mk> handles building programs from one or
more source files, along with their manual pages. It has a limited number
of suffixes, consistent with the current needs of the BSD tree.
<bsd.prog.mk> includes <bsd.shlib.mk> to get shared library parameters.
It has eight targets:
all:
build the program and its manual page. This also
creates a GDB initialization file (.gdbinit) in
the objdir. The .gdbinit file sets the shared library
prefix to ${DESTDIR} to facilitate cross-debugging.
clean:
remove the program, any object files and the files a.out,
Errs, errs, mklog, and ${PROG}.core.
cleandir:
remove all of the files removed by the target clean, as
well as .depend, tags, and any manual pages.
`distclean' is a synonym for `cleandir'.
depend:
make the dependencies for the source files, and store
them in the file .depend.
includes:
install any header files.
install:
install the program and its manual pages; if the Makefile
does not itself define the target install, the targets
beforeinstall and afterinstall may also be used to cause
actions immediately before and after the install target
is executed.
lint:
run lint on the source files
tags:
create a tags file for the source files.
It sets/uses the following variables:
BINGRP Binary group.
BINOWN Binary owner.
BINMODE Binary mode.
CLEANDIRFILES Additional files to remove for the cleandir target.
CLEANFILES Additional files to remove for the clean and cleandir targets.
CONFIGOPTS Additional flags to config(1) when building kernels.
COPTS Additional flags to the compiler when creating C objects.
COPTS.<fn> Additional flags to the compiler when creating the
C objects for <fn>.
For <fn>.[ly], "<fn>.c" must be used.
CPUFLAGS Additional flags to the compiler/assembler to select
CPU instruction set options, CPU tuning options, etc.
CPUFLAGS.<fn> Additional flags to the compiler/assembler for <fn>.
For <fn>.[ly], "<fn>.c" must be used.
CPPFLAGS Additional flags to the C pre-processor.
CPPFLAGS.<fn> Additional flags to the C pre-processor for <fn>.
For <fn>.[ly], "<fn>.c" must be used.
GDBINIT List of GDB initialization files to add to "source"
directives in the .gdbinit file that is created in the
objdir.
LDADD Additional loader objects. Usually used for libraries.
For example, to load with the compatibility and utility
libraries, use:
LDADD+=-lutil -lcompat
LDFLAGS Additional linker flags (passed to ${CC} during link).
LINKS See <bsd.links.mk>
OBJCOPTS Additional flags to the compiler when creating ObjC objects.
OBJCOPTS.<fn> Additional flags to the compiler when creating the
ObjC objects for <fn>.
For <fn>.[ly], "<fn>.c" must be used.
SYMLINKS See <bsd.links.mk>
MAN Manual pages (should end in .1 - .9). If no MAN variable is
defined, "MAN=${PROG}.1" is assumed.
PAXCTL_FLAGS If defined, run paxctl(1) on the program binary after link
time, with the value of this variable as args to paxctl(1).
PAXCTL_FLAGS.${PROG} Custom override for PAXCTL_FLAGS.
PROG The name of the program to build. If not supplied, nothing
is built.
PROG_CXX If defined, the name of the program to build. Also
causes <bsd.prog.mk> to link the program with the C++
compiler rather than the C compiler. PROG_CXX overrides
the value of PROG if PROG is also set.
PROGNAME The name that the above program will be installed as, if
different from ${PROG}.
SRCS List of source files to build the program. If SRCS is not
defined, it's assumed to be ${PROG}.c.
DPSRCS List of source files which are needed for generating
dependencies, but are not needed in ${SRCS}.
DPADD Additional dependencies for the program. Usually used for
libraries. For example, to depend on the compatibility and
utility libraries use:
DPADD+=${LIBCOMPAT} ${LIBUTIL}
The following system libraries are predefined for DPADD:
LIBARCHIVE?= ${DESTDIR}/usr/lib/libarchive.a
LIBASN1?= ${DESTDIR}/usr/lib/libasn1.a
LIBATF_C?= ${DESTDIR}/usr/lib/libatf-c.a
LIBATF_CXX?= ${DESTDIR}/usr/lib/libatf-c++.a
LIBBIND9?= ${DESTDIR}/usr/lib/libbind9.a
LIBBLUETOOTH?= ${DESTDIR}/usr/lib/libbluetooth.a
LIBBSDMALLOC?= ${DESTDIR}/usr/lib/libbsdmalloc.a
LIBBZ2?= ${DESTDIR}/usr/lib/libbz2.a
LIBC_PIC?= ${DESTDIR}/usr/lib/libc_pic.a
LIBC?= ${DESTDIR}/usr/lib/libc.a
LIBCOMPAT?= ${DESTDIR}/usr/lib/libcompat.a
LIBCOM_ERR?= ${DESTDIR}/usr/lib/libcom_err.a
LIBCRYPT?= ${DESTDIR}/usr/lib/libcrypt.a
LIBCRYPTO?= ${DESTDIR}/usr/lib/libcrypto.a
LIBCURSES?= ${DESTDIR}/usr/lib/libcurses.a
LIBC_PIC?= ${DESTDIR}/usr/lib/libc_pic.a
LIBDBM?= ${DESTDIR}/usr/lib/libdbm.a
LIBDES?= ${DESTDIR}/usr/lib/libdes.a
LIBDNS?= ${DESTDIR}/usr/lib/libdns.a
LIBEDIT?= ${DESTDIR}/usr/lib/libedit.a
LIBEVENT?= ${DESTDIR}/usr/lib/libevent.a
LIBEVENT_OPENSSL?= ${DESTDIR}/usr/lib/libevent_openssl.a
LIBEVENT_PTHREADS?= ${DESTDIR}/usr/lib/libevent_pthreads.a
LIBEXECINFO?= ${DESTDIR}/usr/lib/libexecinfo.a
LIBEXPAT?= ${DESTDIR}/usr/lib/libexpat.a
LIBFETCH?= ${DESTDIR}/usr/lib/libfetch.a
LIBFL?= ${DESTDIR}/usr/lib/libfl.a
LIBFORM?= ${DESTDIR}/usr/lib/libform.a
LIBG2C?= ${DESTDIR}/usr/lib/libg2c.a
LIBGCC?= ${DESTDIR}/usr/lib/libgcc.a
LIBGNUMALLOC?= ${DESTDIR}/usr/lib/libgnumalloc.a
LIBGSSAPI?= ${DESTDIR}/usr/lib/libgssapi.a
LIBHDB?= ${DESTDIR}/usr/lib/libhdb.a
LIBHEIMBASE?= ${DESTDIR}/usr/lib/libheimbase.a
LIBHEIMNTLM?= ${DESTDIR}/usr/lib/libheimntlm.a
LIBHX500?= ${DESTDIR}/usr/lib/libhx500.a
LIBINTL?= ${DESTDIR}/usr/lib/libintl.a
LIBIPSEC?= ${DESTDIR}/usr/lib/libipsec.a
LIBISC?= ${DESTDIR}/usr/lib/libisc.a
LIBISCCC?= ${DESTDIR}/usr/lib/libisccc.a
LIBISCFG?= ${DESTDIR}/usr/lib/libiscfg.a
LIBKADM5CLNT?= ${DESTDIR}/usr/lib/libkadm5clnt.a
LIBKADM5SRV?= ${DESTDIR}/usr/lib/libkadm5srv.a
LIBKAFS?= ${DESTDIR}/usr/lib/libkafs.a
LIBKRB5?= ${DESTDIR}/usr/lib/libkrb5.a
LIBKVM?= ${DESTDIR}/usr/lib/libkvm.a
LIBL?= ${DESTDIR}/usr/lib/libl.a
LIBLBER?= ${DESTDIR}/usr/lib/liblber.a
LIBLDAP?= ${DESTDIR}/usr/lib/libldap.a
LIBLDAP_R?= ${DESTDIR}/usr/lib/libldap_r.a
LIBLUA?= ${DESTDIR}/usr/lib/liblua.a
LIBLUTOK?= ${DESTDIR}/usr/lib/liblutok.a
LIBM?= ${DESTDIR}/usr/lib/libm.a
LIBMAGIC?= ${DESTDIR}/usr/lib/libmagic.a
LIBMENU?= ${DESTDIR}/usr/lib/libmenu.a
LIBNETPGPVERIFY?= ${DESTDIR}/usr/lib/libnetpgpverify.a
LIBNS?= ${DESTDIR}/usr/lib/libns.a
LIBOBJC?= ${DESTDIR}/usr/lib/libobjc.a
LIBOSSAUDIO?= ${DESTDIR}/usr/lib/libossaudio.a
LIBPAM?= ${DESTDIR}/usr/lib/libpam.a
LIBPANEL?= ${DESTDIR}/usr/lib/libpanel.a
LIBPCAP?= ${DESTDIR}/usr/lib/libpcap.a
LIBPCI?= ${DESTDIR}/usr/lib/libpci.a
LIBPOSIX?= ${DESTDIR}/usr/lib/libposix.a
LIBPTHREAD?= ${DESTDIR}/usr/lib/libpthread.a
LIBPUFFS?= ${DESTDIR}/usr/lib/libpuffs.a
LIBQUOTA?= ${DESTDIR}/usr/lib/libquota.a
LIBRADIUS?= ${DESTDIR}/usr/lib/libradius.a
LIBREFUSE?= ${DESTDIR}/usr/lib/librefuse.a
LIBRESOLV?= ${DESTDIR}/usr/lib/libresolv.a
LIBRMT?= ${DESTDIR}/usr/lib/librmt.a
LIBROKEN?= ${DESTDIR}/usr/lib/libroken.a
LIBRPCSVC?= ${DESTDIR}/usr/lib/librpcsvc.a
LIBRT?= ${DESTDIR}/usr/lib/librt.a
LIBRUMP?= ${DESTDIR}/usr/lib/librump.a
LIBRUMPFS_CD966 0FS?= ${DESTDIR}/usr/lib/librumpfs_cd9660fs.a
LIBRUMPFS_EFS?= ${DESTDIR}/usr/lib/librumpfs_efs.a
LIBRUMPFS_EXT2FS?= ${DESTDIR}/usr/lib/librumpfs_ext2fs.a
LIBRUMPFS_FFS?= ${DESTDIR}/usr/lib/librumpfs_ffs.a
LIBRUMPFS_HFS?= ${DESTDIR}/usr/lib/librumpfs_hfs.a
LIBRUMPFS_LFS?= ${DESTDIR}/usr/lib/librumpfs_lfs.a
LIBRUMPFS_MSDOSFS?= ${DESTDIR}/usr/lib/librumpfs_msdosfs.a
LIBRUMPFS_NFS?= ${DESTDIR}/usr/lib/librumpfs_nfs.a
LIBRUMPFS_NTFS?= ${DESTDIR}/usr/lib/librumpfs_ntfs.a
LIBRUMPFS_SYSPUFFS?= ${DESTDIR}/usr/lib/librumpfs_syspuffs.a
LIBRUMPFS_TMPFS?= ${DESTDIR}/usr/lib/librumpfs_tmpfs.a
LIBRUMPFS_UDF?= ${DESTDIR}/usr/lib/librumpfs_udf.a
LIBRUMPFS_UFS?= ${DESTDIR}/usr/lib/librumpfs_ufs.a
LIBRUMPUSER?= ${DESTDIR}/usr/lib/librumpuser.a
LIBSASLC?= ${DESTDIR}/usr/lib/libsaslc.a
LIBSKEY?= ${DESTDIR}/usr/lib/libskey.a
LIBSL?= ${DESTDIR}/usr/lib/libsl.a
LIBSQLITE3?= ${DESTDIR}/usr/lib/libsqlite3.a
LIBSS?= ${DESTDIR}/usr/lib/libss.a
LIBSSH?= ${DESTDIR}/usr/lib/libssh.a
LIBSSL?= ${DESTDIR}/usr/lib/libssl.a
LIBSSP?= ${DESTDIR}/usr/lib/libssp.a
LIBSTDCXX?= ${DESTDIR}/usr/lib/libstdc++.a
LIBSUPCXX?= ${DESTDIR}/usr/lib/libsupc++.a
LIBTERMINFO?= ${DESTDIR}/usr/lib/libterminfo.a
LIBTRE?= ${DESTDIR}/usr/lib/libtre.a
LIBUNBOUND?= ${DESTDIR}/usr/lib/libunbound.a
LIBUSBHID?= ${DESTDIR}/usr/lib/libusbhid.a
LIBUTIL?= ${DESTDIR}/usr/lib/libutil.a
LIBWIND?= ${DESTDIR}/usr/lib/libwind.a
LIBWRAP?= ${DESTDIR}/usr/lib/libwrap.a
LIBY?= ${DESTDIR}/usr/lib/liby.a
LIBZ?= ${DESTDIR}/usr/lib/libz.a
The following c startup files.
LIBCRT0?= ${DESTDIR}/usr/lib/crt0.o
LIBCRTI?= ${DESTDIR}/usr/lib/crti.o
LIBCRTBEGIN?= ${DESTDIR}/usr/lib/crti.o
LIBCRTEND?= ${DESTDIR}/usr/lib/crtn.o
The following X-Windows libraries are predefined for DPADD:
LIBFS?= ${DESTDIR}/usr/X11R7/lib/libFS.a
LIBGL?= ${DESTDIR}/usr/X11R7/lib/libGL.a
LIBGLU?= ${DESTDIR}/usr/X11R7/lib/libGLU.a
LIBICE?= ${DESTDIR}/usr/X11R7/lib/libICE.a
LIBSM?= ${DESTDIR}/usr/X11R7/lib/libSM.a
LIBX11?= ${DESTDIR}/usr/X11R7/lib/libX11.a
LIBX11_XCB?= ${DESTDIR}/usr/X11R7/lib/libX11-xcb.a
LIBXTRAP?= ${DESTDIR}/usr/X11R7/lib/libXTrap.a
LIBXAU?= ${DESTDIR}/usr/X11R7/lib/libXau.a
LIBXAW?= ${DESTDIR}/usr/X11R7/lib/libXaw.a
LIBXCB?= ${DESTDIR}/usr/X11R7/lib/libxcb.a
LIBXDMCP?= ${DESTDIR}/usr/X11R7/lib/libXdmcp.a
LIBXEXT?= ${DESTDIR}/usr/X11R7/lib/libXext.a
LIBXFONT?= ${DESTDIR}/usr/X11R7/lib/libXfont.a
LIBXFONT2?= ${DESTDIR}/usr/X11R7/lib/libXfont2.a
LIBXFT?= ${DESTDIR}/usr/X11R7/lib/libXft.a
LIBXI?= ${DESTDIR}/usr/X11R7/lib/libXi.a
LIBXINERAMA?= ${DESTDIR}/usr/X11R7/lib/libXinerama.a
LIBXMU?= ${DESTDIR}/usr/X11R7/lib/libXmu.a
LIBXMUU?= ${DESTDIR}/usr/X11R7/lib/libXmuu.a
LIBXPM?= ${DESTDIR}/usr/X11R7/lib/libXpm.a
LIBXRANDR?= ${DESTDIR}/usr/X11R7/lib/libXrandr.a
LIBXRENDER?= ${DESTDIR}/usr/X11R7/lib/libXrender.a
LIBXSS?= ${DESTDIR}/usr/X11R7/lib/libXss.a
LIBXT?= ${DESTDIR}/usr/X11R7/lib/libXt.a
LIBXTST?= ${DESTDIR}/usr/X11R7/lib/libXtst.a
LIBXV?= ${DESTDIR}/usr/X11R7/lib/libXv.a
LIBXXF86DGA?= ${DESTDIR}/usr/X11R7/lib/libXxf86dga.a
LIBXXF86MISC?= ${DESTDIR}/usr/X11R7/lib/libXxf86misc.a
LIBXXF86VM?= ${DESTDIR}/usr/X11R7/lib/libXxf86vm.a
LIBDPS?= ${DESTDIR}/usr/X11R7/lib/libdps.a
LIBFNTSTUBS?= ${DESTDIR}/usr/X11R7/lib/libfntstubs.a
LIBFONTCONFIG?= ${DESTDIR}/usr/X11R7/lib/libfontconfig.a
LIBFONTENC?= ${DESTDIR}/usr/X11R7/lib/libfontenc.a
LIBFREETYPE?= ${DESTDIR}/usr/X11R7/lib/libfreetype.a
LIBLBXUTIL?= ${DESTDIR}/usr/X11R7/lib/liblbxutil.a
LIBXKBFILE?= ${DESTDIR}/usr/X11R7/lib/libxkbfile.a
SHAREDSTRINGS If defined, a new .c.o rule is used that results in shared
strings, using xstr(1). Note that this will not work with
parallel makes.
STRIPFLAG The flag passed to the install program to cause the binary
to be stripped.
SUBDIR A list of subdirectories that should be built as well.
Each of the targets will execute the same target in the
subdirectories.
SCRIPTS A list of interpreter scripts [file.{sh,csh,pl,awk,...}].
These are installed exactly like programs.
SCRIPTSDIR The location to install the scripts. Each script can be
installed to a separate path by setting SCRIPTSDIR_<script>.
SCRIPTSNAME The name that the above program will be installed as, if
different from ${SCRIPTS}. These can be further specialized
by setting SCRIPTSNAME_<script>.
FILES See description of <bsd.files.mk>.
SHLINKDIR Target directory for shared linker. See description of
<bsd.own.mk> for additional information about this variable.
The include file <bsd.prog.mk> includes the file named "../Makefile.inc"
if it exists, as well as the include file <bsd.man.mk>.
Some simple examples:
To build foo from foo.c with a manual page foo.1, use:
PROG= foo
.include <bsd.prog.mk>
To build foo from foo.c with a manual page foo.2, add the line:
MAN= foo.2
If foo does not have a manual page at all, add the line:
MKMAN= no
If foo has multiple source files, add the line:
SRCS= a.c b.c c.c d.c
=-=-=-=-= bsd.rpc.mk =-=-=-=-=
The include file <bsd.rpc.mk> contains a makefile fragment used to
construct source files built by rpcgen.
The following macros may be defined in makefiles which include
<bsd.rpc.mk> in order to control which files get built and how they
are to be built:
RPC_INCS: construct .h file from .x file
RPC_XDRFILES: construct _xdr.c from .x file
(for marshalling/unmarshalling data types)
RPC_SVCFILES: construct _svc.c from .x file
(server-side stubs)
RPC_SVCFLAGS: Additional flags passed to builds of RPC_SVCFILES.
RPC_XDIR: Directory containing .x/.h files
=-=-=-=-= bsd.shlib.mk =-=-=-=-=
The include file <bsd.shlib.mk> computes parameters for shared library
installation and use. It defines no targets. <bsd.own.mk> MUST be
included before <bsd.shlib.mk>.
<bsd.own.mk> sets the following variables, if they are not already defined
(defaults are in brackets):
SHLIBINSTALLDIR If ${USE_SHLIBDIR} is not "no", use ${SHLIBINSTALLDIR}
instead of ${LIBDIR} as the base path for shared library
installation. [/lib]
SHLIBDIR The path to USE_SHLIBDIR shared libraries to use when building
a program. [/lib for programs in /bin and /sbin, /usr/lib
for all others.]
_LIBSODIR Set to ${SHLIBINSTALLDIR} if ${USE_SHLIBDIR} is not "no",
otherwise set to ${LIBDIR}
SHLINKINSTALLDIR Base path for shared linker. [/libexec]
SHLINKDIR Path to use for shared linker when building a program.
[/libexec for programs in /bin and /sbin, /usr/libexec for
all others.]
=-=-=-=-= bsd.subdir.mk =-=-=-=-=
The include file <bsd.subdir.mk> contains the default targets for building
subdirectories. It has the same eight targets as <bsd.prog.mk>: all,
clean, cleandir, depend, includes, install, lint, and tags. It uses the
following variables:
NOSUBDIR If this variable is defined, then the SUBDIR variable
will be ignored and subdirectories will not be processed.
SUBDIR For all of the directories listed in ${SUBDIR}, the
specified directory will be visited and the target made.
As a special case, the use of a token .WAIT as an
entry in SUBDIR acts as a synchronization barrier
when multiple make jobs are run; subdirs before the
.WAIT must complete before any subdirs after .WAIT are
started. See make(1) for some caveats on use of .WAIT
and other special sources.
=-=-=-=-= bsd.x11.mk =-=-=-=-=
The include file <bsd.x11.mk> contains parameters and targets for
cross-building X11 from ${X11SRCDIR.<package>}. It should be included
after the general Makefile contents but before the include files such as
<bsd.prog.mk> and <bsd.lib.mk>.
It provides the following targets:
.man.1 .man.3 .man.4 .man.5 .man.7:
If ${MAN} or ${PROG} is set and ${MKMAN} != "no",
these rules convert from X11's manual page source
into an mdoc.old source file.
It sets the following variables:
BINDIR Set to ${X11BINDIR}.
To override, define after including <bsd.x11.mk>
LIBDIR Set to ${X11USRLIBDIR}.
To override, define after including <bsd.x11.mk>
MANDIR Set to ${X11MANDIR}.
To override, define after including <bsd.x11.mk>
CPPFLAGS Appended with definitions to include from
${DESTDIR}${X11INCDIR}
LDFLAGS Appended with definitions to link from
${DESTDIR}${X11USRLIBDIR}
X11FLAGS.CONNECTION Equivalent to X11's CONNECTION_FLAGS.
X11FLAGS.EXTENSION Equivalent to X11's EXT_DEFINES.
X11FLAGS.LOADABLE Equivalent to X11's LOADABLE.
X11FLAGS.OS_DEFINES Equivalent to X11's OS_DEFINES.
X11FLAGS.SERVER Equivalent to X11's ServerDefines.
X11FLAGS.THREADLIB Equivalent to X11's THREADS_DEFINES for libraries.
X11FLAGS.THREADS Equivalent to X11's THREADS_DEFINES.
X11FLAGS.VERSION cpp(1) definitions of OSMAJORVERSION and OSMINORVERSION.
X11FLAGS.DIX Equivalent to X11's DIX_DEFINES.
X11TOOL_UNXCOMM Commandline to convert `XCOMM' comments to `#'
It uses the following variables:
APPDEFS List of app-default files to install.
CPPSCRIPTS List of files/scripts to run through cpp(1)
and then ${X11TOOL_UNXCOMM}. The source files
have a `.cpp' suffix, the generated files do not.
CPPSCRIPTFLAGS Additional flags to cpp(1) when building CPPSCRIPTS.
CPPSCRIPTFLAGS_<fn> Additional flags to cpp(1) when building CPPSCRIPT <fn>.
=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
The following files are described here for completion, but they are not
supposed to be included directly from other Makefiles; they are used
internally by other system files.
=-=-=-=-= bsd.sys.mk =-=-=-=-=
The include file <bsd.sys.mk> is used by other system mk files and
it is not intended to be included standalone. It contains rules and
system build variables. It requires bsd.own.mk to be included first.
It contains overrides that are used when building the NetBSD source tree.
The following variables control how various files are compiled/built.
(Note that these may be overridden in <bsd.own.mk> if USETOOLS == "yes"):
AR Create, modify, and extract from archives. [ar]
ARFLAGS Options to ${AR}. [rl]
AS Assembler. [as]
AFLAGS Options to ${CC} when compiling or linking .s or .S
assembly source files. []
BUILDSEED GCC uses random numbers when compiling C++ code.
If this option is present, seed the random number
generator based on the value, source file names and
the output file name to make builds more deterministic.
Additional information is available in the GCC
documentation of -frandom-seed.
CC C compiler. [cc]
CFLAGS Options to ${CC}. [Usually -O or -O2]
CPP C Pre-Processor. [cpp]
CPPFLAGS Options to ${CPP}. []
CPUFLAGS Optimization flags for ${CC}. []
CXX C++ compiler. [c++]
CXXFLAGS Options to ${CXX}. [${CFLAGS}]
ELF2ECOFF Convert ELF-format executable to ECOFF. [elf2ecoff]
FC Fortran compiler. [f77]
FFLAGS Options to {$FC}. [-O]
HOST_SH Shell. This must be an absolute path, because it may be
substituted into "#!" lines in scripts. [/bin/sh]
INSTALL install(1) command. [install]
LEX Lexical analyzer. [lex]
LFLAGS Options to ${LEX}. []
LPREFIX Symbol prefix for ${LEX} (see -P option in lex(1)) [yy]
LD Linker. [ld]
LDFLAGS Options to ${CC} during the link process. []
LINT C program verifier. [lint]
LINTFLAGS Options to ${LINT}. [-chapbxzgFS]
LORDER List dependencies for object files. [lorder]
MAKE make(1). [make]
MKDEP Construct Makefile dependency list. [mkdep]
MKDEPCXX Construct Makefile dependency list for C++ files. [mkdep]
NM List symbols from object files. [nm]
PC Pascal compiler. [pc] (Not present)
PFLAGS Options to ${PC}. []
OBJC Objective C compiler. [${CC}]
OBJCFLAGS Options to ${OBJC}. [${CFLAGS}]
OBJCOPY Copy and translate object files. [objcopy]
OBJCOPYLIBFLAGS Flags to pass to objcopy when library objects are
being built. [${.TARGET} =~ "*.po" ? -X : -x]
OBJDUMP Display information from object files. [objdump]
RANLIB Generate index to archive. [ranlib]
READELF Display information from ELF object files. [readelf]
SIZE List section sizes and total size. [size]
STRINGS Display printable character sequences in files. [strings]
STRIP Discard symbols from object files. [strip]
TSORT Topological sort of a directed graph. [tsort -q]
YACC LALR(1) parser generator. [yacc]
YFLAGS Options to ${YACC}. []
YHEADER If defined, add "-d" to YFLAGS, and add dependencies
from <file>.y to <file>.h and <file>.c, and add
<foo>.h to CLEANFILES.
YPREFIX If defined, add "-p ${YPREFIX}" to YFLAGS.
Other variables of note (incomplete list):
NOGCCERROR If defined, prevents passing certain ${CFLAGS} to GCC
that cause warnings to be fatal, such as:
-Werror -Wa,--fatal-warnings
(The latter being for as(1).)
NOCLANGERROR If defined and clang is used as C compiler, -Werror is not
passed to it.
WARNS Crank up compiler warning options; the distinct levels are:
WARNS=1
WARNS=2
WARNS=3
WARNS=4
WARNS=5
WARNS=6
=-=-=-=-= bsd.host.mk =-=-=-=-=
This file is automatically included from bsd.own.mk. It contains settings
for all the HOST_* variables that are used in host programs and libraries.
HOST_AR The host archive processing command
HOST_CC The host c compiler
HOST_CFLAGS The host c compiler flags
HOST_COMPILE.c The host c compiler line with flags
HOST_COMPILE.cc The host c++ compiler line with flags
HOST_CPP The host c pre-processor
HOST_CPPFLAGS The cost c pre-processor flags
HOST_CXX The host c++ compiler
HOST_CXXFLAGS The host c++ compiler flags
HOST_INSTALL_DIR The host command to install a directory
HOST_INSTALL_FILE The host command to install a file
HOST_INSTALL_SYMLINK The host command to install a symlink
HOST_LD The host linker command
HOST_LDFLAGS The host linker flags
HOST_LINK.c The host c linker line with flags
HOST_LINK.cc The host c++ linker line with flags
HOST_LN The host command to link two files
HOST_MKDEP The host command to create dependencies for c programs
HOST_MKDEPCXX The host command to create dependencies for c++ programs
HOST_OSTYPE The host OSNAME-RELEASE-ARCH tupple
HOST_RANLIB The host command to create random access archives
HOST_SH The host Bourne shell interpreter name (absolute path)
=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
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