21af771d16
- resurrect USE_X11 in a smart way: auto-determine it correctly from WANTLIBS (accounts for most ports) - define a BUILD_XENOCARA knob that builds fake based on mtree for X11BASE. - if BUILD_XENOCARA_TOO=Yes, prepare to hook to a xenocara "fake" meta package. All of this off by default, the xenocara shadow tree is not in yet anyways. Zero impact on regular builds. |
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.. | ||
apache-module.port.mk | ||
arch-defines.mk | ||
automake.dep | ||
bsd.port.arch.mk | ||
bsd.port.mk | ||
bsd.port.subdir.mk | ||
cpan.port.mk | ||
fortran.port.mk | ||
gcc3.port.mk | ||
gcc4.port.mk | ||
gnu.port.mk | ||
imake.port.mk | ||
java.port.mk | ||
modules.port.mk | ||
perl.port.mk | ||
pkgpath.mk | ||
README.internals |
$OpenBSD: README.internals,v 1.9 2011/11/25 15:05:56 espie Exp $ Copyright (C) 2011 Marc Espie <espie@openbsd.org> Permission to use, copy, modify, and distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. This file is *not* user documentation of the *mk files. The full user documentation is available as manpages such as bsd.port.mk(5) There are comments in bsd.port.mk but this file is already too long, so I finally decided to put the design notes in a separate file. Most of this is not for the faint of heart. "Imagination could conceive almost anything in connexion with this place." (H.P. Lovecraft, At the Mountains of Madness) Some design principles ---------------------- - all variables and targets prefixed with _ are for internal use. It may be that some other tools reuse them, but that's generally following the same guidelines: no user serviceable parts inside (and you should always ask ME about it, since I'm liable to change these with very little notice). This is an attempt to avoid exposing too many knobs, and a clear distinction between "supported" stuff, and "you're on your own, if you abuse this, bad things will happen". - most variables will always be defined, even with an empty value. This avoids stupid .if defined(TESTS). - bsd.port.mk has a strict separation between variable definitions (at top) and target definitions (right after the ### ### end of variable setup. Only targets now ### comment). This is because of make's "lazy" way to evaluate things: constructs in shell-lines get evaluated very very late. But all targets (such as ${_WRKDIR_COOKIE}) get evaluated when they're encountered. There was some significant effort in the early days when I took bsd.port.mk over to achieve that separation. Be very careful with Makefile.inc and modules, since those get included at a very specific location in the Makefile. They should mostly define variables. Makefile.inc is included very early so that it can override about anything it should be able to (but then, nothing is already defined except for read-only variables / global user-tweakable defaults). Modules is included a little bit later... - a lot of the code is done through shell fragments. All of these are internal and prefixed with _. This is done for speed and compactness (forking an external shell would be very slow, and a total nightmare with respect to parameter passing). These often communicate through internal shell variables with well-defined names. - the infrastructure tries very hard to have real files (as far as possible) attached to most targets: "make package" points to the actual pkgfile(s) being generated. There's a whole section of the makefile devoted to targets generated from the distfiles devoted to fetch and fetch-all (see the section around _EVERYTHING for variable definition, and the # Separate target for each file fetch-all will retrieve for the actual targets). Apart from that, once a port starts building, targets "without" an actual file will generate a cookie under WRKDIR or some subdir of it (see all the _COOKIE* definitions). Of particular interest are dependencies, where the cookie file is generated depending on the name of the dependency: that's the infamous .for _i in ${_DEPLIST} ${WRKDIR}/.dep-${_i:C,>=,ge-,g:C,<=,le-,g:C,<,lt-,g:C,>,gt-,g:C,\*,ANY,g:C,[|:/=],-,g}: ${_WRKDIR_COOKIE} loop. The reason for that complexity is that this avoids rechecking dependencies while working on a port, since only the new stuff will need evaluation... In general, make works really bad when you write phony-target1: phony-target2 @do_some_shit as phony targets are always out-of-date, and thus you will always do_some_shit. - a lot of computations are very expensive, so there are shortcuts all over the place whenever a variable is empty, especially for dependency computation. Introspection ------------- There's a lot of stuff in the infrastructure which is there only for introspection purposes: show, show-all, print-plist-*, dump-vars, *-dir-depends, print-package-signature (ill-named, since it actually only asks the ports tree for information). They allow external tools to interrogate the ports tree and get most information from it. dpb and sqlports rely very heavily on it. Significant work has been done to achieve better MI. The MULTI_PACKAGES code now assumes you will define MULTI_PACKAGES *independently of the architecture*, annotate subpackage with ONLY_FOR_ARCHS-sub if appropriate, then .include <bsd.port.arch.mk> (which was split off the main file specifically for that purpose), and rely on BUILD_PACKAGES for building. Shell tricks and constructs --------------------------- - IFS is your friend: echo "a:b:c"| while IFS=: read a b c will split things along any character without requiring external commands such as cut. - don't run test for checking variable values. Rather: case "$$subdir" in *,*) ... ;; *) ... ;; esac is entirely internal - the shell has booleans. Set variables to true/false to achieve boolean conditions. Note that those are usually built-ins, and hence even faster than you would think. - () forks a subshell. If you need to syntactally keep a list of commands together, "{ cmd1; cmd2; }" is the way to do it. - use trap to clean up at the end of a command. That's mostly used for caching stuff (depfile and cache), but also for the locking mechanism. - exec is often used for tail recursion: it replaces the shell with the executed command. BUT beware of pending traps, as you will lose them. - all of make commands are executed under -e. Thus, it's deadly to fail without a test around it. In the end, you might end up with: if ( eval $$toset exec ${MAKE} subupdate ); then this forks a subshell to avoid the unpleasantness of -e, then execs the resulting command to avoid piling up an extra process. Make vs. Shell -------------- There are at least *4* kind of variables in those files: - internal shell variables - environment variables - make variables set on the command line - make variables set within a makefile Note that make variables set on the command line ARE set in stone: it's very difficult to change them from within the Makefile, and they will override mostly anything you can do. They also appear in the environment. Thus, a lot of make thingies, such as FLAVOR and SUBPACKAGE must be set in the environment because make will run into subdirs and requires them to be changeable. Also, note that stuff set within Makefiles is not exported to the environment, you have to be explicit and set them when you run a command. When things get ambiguous, This document uses $$var for a shell variable, ${VAR} for a variable set in make, and VAR for an environment variables. pkgpath.mk ---------- Named that way because it mostly deals with pkgpath parsing, but in reality, it's mostly a lift-up from the common parts between bsd.port.mk and bsd.port.subdir.mk (no reason for a name change so late in the game) fragments and common shell variables ------------------------------------ _pflavor_fragment (in pkgpath.mk) takes $$subdir as a pkgpath parameter. will parse it into a $$dir and $$toset variables, perform a cd $$dir so that eval $$toset ${MAKE} gets you into that dependency (this will set PKGPATH, FLAVOR, SUBPACKAGE accordingly) depending on $$_fullpath (true/false), will consider the absence of flavor to be an empty flavor (e.g. $$toset contains FLAVOR='' ) or to be the default flavor (e.g. unset FLAVOR) takes ${PORTSDIR_PATH} into account succeeds if the dependency is correct and the directory is found. Otherwise will emit an error message that ends with $$extra_msg. _flavor_fragment (in pkgpath.mk) calls ${_pflavor_fragment} after imposing $$_fullpath=false. e.g., for actual dependencies. _depfile_fragment (in pkgpath.mk) sets _DEPENDS_FILE to a temporary file in the environment if it's not already set. Set a trap to remove it on end. _DEPENDS_FILE is used by the *dir-depends and show-run-depends targets to not go thru the same directory twice. Beware of setting it "too globally", since it prevents directory walking from happening twice. _cache_fragment (in pkgpath.mk) sets _DEPENDS_CACHE to a temporary directory in the environment if it's not already set. Set a trap to remove it on end. _DEPENDS_CACHE is used to store library lists in _libs2cache. pkg_create(1) also knows about it and use it to store plists. the ${SUDO} part in the trap is because some of the caching happens during ${SUDO} pkg_create. XXX also sets PKGPATH, as it reduces drastically the number of PKGPATH=... needed in bsd.port.mk _read_spec/_parse_spec (in bsd.port.mk) normally used in a pattern like: ${_emit_run_depends}|while ${_read_spec}; do ${_parse_spec}; ... done takes specs, one per line, sets $$pkg $$subdir $$target, and calls ${_flavor_fragment} to cd to the correct dir and set $$toset. Note that this takes "processed" specs: transformation of pkgpath>=0.0 -> STEM->=0.0:pkgpath must have already happened upfront (which happens in place for all *DEPENDS variables). This sets $$d to the spec being processed, which is probably a bad variable name... _emit_run_depends/_emit_lib_depends (in bsd.port.mk) writes out lists of specs suitable for ${_parse_spec}/${_read_spec}. _compute_default (in bsd.port.mk) comes after ${_pflavor_fragment}, and obtains information from the dependent port: sets $$default to the default pkgname, $$pkgspec to the default pkgspec (see PKGSPEC), and $$pkgpath to the actual pkgpath, when default flavors and subpackages are taken into account (hence suitable for FULLPATH=Yes/$$_fullpath=true Used alone when we only need $$default, as ${_complete_pkgspec} is slightly more expensive. _complete_pkgspec (in bsd.port.mk) comes after ${_pflavor_fragment}, obtains information from the dependent port through ${_compute_default}, then make sure $$pkg has the correct value. _libs2cache (in bsd.port.mk) requires properly set dependency information obtained through ${_flavor_fragment} (often through ${_parse_spec}). assumes ${_depcache_fragment} has been called, either directly, or from an upper level target. If not already available, secure the library list from the dependency and store it in a file under _DEPENDS_CACHE. Sets $$cached_libs to the file name. Locking ------- Done thru _DO_LOCK and _SIMPLE_LOCK mostly. Most user-visible targets redirect through ${_DO_LOCK}; make _internal-$@ as soon as locking is used (which is the default these days). The locking mechanism carefully maintains the _LOCK_HELD environment variable so that dependencies can relock themselves (yeah, it looks strange, but this happens !). _SIMPLE_LOCK only exists to provide separate locking targets for fetch: it assumes $$lock has been set to an appropriate lock file name. Internal targets are: _internal-clean _internal-package-only _internal-run-depends _internal-runlib-depends _internal-runwantlib-depends _internal-package _internal-build-depends _internal-buildlib-depends _internal-buildwantlib-depends _internal-regress-depends _internal-prepare _internal-depends _internal-fetch-all _internal-fetch _internal-all _internal-build _internal-checksum _internal-configure _internal-deinstall _internal-extract _internal-fake _internal-patch _internal-plist _internal-regress _internal-subpackage _internal-subupdate _internal-uninstall _internal-update _internal-update-or-install _internal-update-or-install-all _internal-update-plist _internal-distpatch (yeah, that's a lot). So, if you type "make", it will do make build -> lock && make _internal-all then make _internal-all will normally run thru _internal-fetch _internal-extract _internal-patch _internal-build without ever releasing the lock, thus preventing anything else to sneak in and break the build. The difference between _internal-package and _internal-package-only is only due to BULK=Yes, which has to happen exactly once after a user-level target that involves packaging is finished. Misc ---- - Modules inclusion is done through a separate modules.port.mk to handle recursion: modules may trigger the inclusion of other modules, thus modules.port.mk will re-include itself until the whole list is done. - MULTI_PACKAGES and SUBPACKAGE always get set to a non-empty value: if MULTI_PACKAGES is not set, it ends up as MULTI_PACKAGES=- and SUBPACKAGE=-. This does make loops over all subpackages simpler, e.g., .for _s in ${MULTI_PACKAGES} since make doesn't do anything if the list is empty... As a result, most subpackage-dependent variables end up being used as their "true" VAR- form in the case of a port without multi-packages. Exception: FULLPKGNAME needs some specific code for the !multi-packages case. There's also a special case for the PKGDIR stuff, which isn't suffixed with '-' in the non multi-package case. Also, dump-vars distinguishes the !multi case. Note that there are a few checks for empty SUBPACKAGE, these allow the whole bsd.port.mk file to parse, so that we end up with an actual user error message instead of some weird internal error. Dependency variables -------------------- Old legacy dependency styles are gone, so the compat code went away. The code has to deal with BUILD_DEPENDS, LIB_DEPENDS, RUN_DEPENDS, REGRESS_DEPENDS, WANTLIB and RUN_DEPENDS-* LIB_DEPENDS-*, WANTLIB-* There is obviously completely different treatment for WANTLIB* and *DEPENDS*. Also, BUILD* stuff gets to inherit from LIB_DEPENDS* stripped of inter-dependencies, and RUN-s stuff must have LIB_DEPENDS* from inter-dependencies. First, the framework substitutes in place constructs like pkgpath>=version into STEM->=version:pkgpath Then it accumulates dependency into build-time dependencies: - collect LIB_DEPENDS and LIB_DEPENDS-* as _BUILDLIB_DEPENDS - collect WANTLIB and WANTLIB-* as _BUILDWANTLIB (strip any interdependencies) Symetrically: - define _LIB4-* as the interdependencies in LIB_DEPENDS-* - define _LIB4 as the full list of all _LIB4-* - define _BUILD_DEPLIST, _RUN_DEPLIST, _REGRESS_DEPLIST, _BUILDLIB_DEPLIST, _RUNLIB_DEPLIST as the dependency lists relevant to the SUBPACKAGE being built (not set if NO_DEPENDS is Yes !) This accumulates as _DEPLIST, which is the full list of all specs in every dependency. *2 and *3 have the :configure/:patch/:build modifiers stripped: _BUILD_DEP2: BUILD_DEPENDS + _BUILDLIB_DEPENDS _BUILD_DEP3: BUILD_DEPENDS _BUILD_DEP3-*: _BUILD_DEP3 _RUN_DEP2: RUN_DEPENDS (+LIB_DEPENDS-s if shared) _RUN_DEP3: RUN_DEPEND _RUN_DEP3-*: RUN_DEPENDS-* (+LIB_DEPENDS-* if shared) _LIB_DEP3: (LIB_DEPENDS-s if shared) _LIB_DEP3-*: (LIB_DEPENDS-* if shared) _REGRESS_DEP2: REGRESS_DEPENDS _REGRESS_DEP3: REGRESS_DEPENDS _DEPBUILDLIBS: _BUILDWANTLIB _DEPRUNLIBS: WANTLIB-s _BUILD_DEP is the _BUILD_DEP2 paths, without the specs _RUN_DEP is the _RUN_DEP2 paths, without the specs _REGRESS_DEP is the _REGRESS_DEP2 paths, without the specs e.g., *2 is "all the shit relevant to the port at hand", *3 is "only the shit directly relevant to the port with subpackages, or everything pertinent to THAT given subpackage". This gets converted into cookies relevant to each dependency _DEPBUILDLIBS -> _DEPBUILDLIBSPECS_COOKIES as .spec-$i _DEPRUNLIBS -> _DEPRUNLIBSPECS_COOKIES as .spec-$i _DEPBUILDWANTLIB_COOKIE as .buildwantlibs _DEPRUNWANTLIB_COOKIE as .runwantlibs-s Then there are rules for each dependency: a loop over _DEPLIST for each spec, and code to build both _DEP*WANTLIB_COOKIEs There's also some dependency in handling in *wantlib-args, lib-depends-args and run-depends-args. _DEPENDS_TARGET: used to be DEPENDS_TARGET, and visible, but not documented for years, and it can be set internally. Ports normally install their dependencies, with the exception of "make reinstall", and "make update". _FETCH_MAKEFILE: where to put the output of "fetch-makefile", by default stdout, but overridden from the main Makefile. _SHSCRIPT: prepend to a shell script in the infrastructure, e.g., ${_SHSCRIPT}/update-patches _PERLSCRIPT: likewise for perl scripts. _ALL_VARIABLES _ALL_VARIABLES_INDEXED _ALL_VARIABLES_PER_ARCH: stuff to dump in dump-vars. First is "simple" variable, second one will depend on the subpackage, and for last one, must iterate over arches to get all relevant information. _BAD_LICENSING: note that the PERMIT_* variables are defined for subpackages as soon as the main variables are defined, so it's enough to check the normal variables. _lt_libs: derived from SHARED_LIBRARIES explicitly for libtool _FLAVOR_EXT2: FLAVOR_EXT with pseudo-flavors included _PKG_ARGS: list of stuff to append to base PKG_ARGS-sub based on a lot of internal choices. _README_DIR: location for the pkg-readmes, no user serviceable parts inside. _MASTER: dependencies may be confusing, so set _MASTER to know where we come from when patching/configuring only. _SOLVING_DEP: pkg_add -a to avoid manually installed packages. _CHECK_DEPENDS: save all depends prior to tweaking them, just in case. _PERL_FIX_SHAR make visible ? TODO document: MAKE_JOBS PARALLEL_BUILD PARALLEL_INSTALL XAUTHORITY for interactive regress fishy: FLAVORS regress ? fishy: REGRESS_STATUS_IGNORE fishy: GUNZIP_CMD GZCAT GZIP GZIP_CMD M4 STRIP uninstall ? deinstall Todo: kill PORT_LD_LIBRARY_PATH, DEPBASE, DEPDIR Document: all recursive targets