Index: head/share/mk/dirdeps.mk =================================================================== --- head/share/mk/dirdeps.mk (revision 314808) +++ head/share/mk/dirdeps.mk (revision 314809) @@ -1,786 +1,788 @@ # $FreeBSD$ -# $Id: dirdeps.mk,v 1.84 2016/11/27 02:44:34 sjg Exp $ +# $Id: dirdeps.mk,v 1.86 2017/03/01 20:26:51 sjg Exp $ # Copyright (c) 2010-2013, Juniper Networks, Inc. # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. # Much of the complexity here is for supporting cross-building. # If a tree does not support that, simply using plain Makefile.depend # should provide sufficient clue. # Otherwise the recommendation is to use Makefile.depend.${MACHINE} # as expected below. # Note: this file gets multiply included. # This is what we do with DIRDEPS # DIRDEPS: # This is a list of directories - relative to SRCTOP, it is # normally only of interest to .MAKE.LEVEL 0. # In some cases the entry may be qualified with a . # or . suffix (see TARGET_SPEC_VARS below), # for example to force building something for the pseudo # machines "host" or "common" regardless of current ${MACHINE}. # # All unqualified entries end up being qualified with .${TARGET_SPEC} # and partially qualified (if TARGET_SPEC_VARS has multiple # entries) are also expanded to a full .. # The _DIRDEP_USE target uses the suffix to set TARGET_SPEC # correctly when visiting each entry. # # The fully qualified directory entries are used to construct a # dependency graph that will drive the build later. # # Also, for each fully qualified directory target, we will search # using ${.MAKE.DEPENDFILE_PREFERENCE} to find additional # dependencies. We use Makefile.depend (default value for # .MAKE.DEPENDFILE_PREFIX) to refer to these makefiles to # distinguish them from others. # # Before each Makefile.depend file is read, we set -# DEP_RELDIR to be the RELDIR (path relative to SRCTOP) for +# DEP_RELDIR to be the the RELDIR (path relative to SRCTOP) for # its directory, and DEP_MACHINE etc according to the . # represented by the suffix of the corresponding target. # # Since each Makefile.depend file includes dirdeps.mk, this # processing is recursive and results in .MAKE.LEVEL 0 learning the # dependencies of the tree wrt the initial directory (_DEP_RELDIR). # # BUILD_AT_LEVEL0 # Indicates whether .MAKE.LEVEL 0 builds anything: # if "no" sub-makes are used to build everything, # if "yes" sub-makes are only used to build for other machines. # It is best to use "no", but this can require fixing some # makefiles to not do anything at .MAKE.LEVEL 0. # # TARGET_SPEC_VARS # The default value is just MACHINE, and for most environments # this is sufficient. The _DIRDEP_USE target actually sets # both MACHINE and TARGET_SPEC to the suffix of the current # target so that in the general case TARGET_SPEC can be ignored. # # If more than MACHINE is needed then sys.mk needs to decompose # TARGET_SPEC and set the relevant variables accordingly. # It is important that MACHINE be included in and actually be # the first member of TARGET_SPEC_VARS. This allows other # variables to be considered optional, and some of the treatment # below relies on MACHINE being the first entry. # Note: TARGET_SPEC cannot contain any '.'s so the target # triple used by compiler folk won't work (directly anyway). # # For example: # # # Always list MACHINE first, # # other variables might be optional. # TARGET_SPEC_VARS = MACHINE TARGET_OS # .if ${TARGET_SPEC:Uno:M*,*} != "" # _tspec := ${TARGET_SPEC:S/,/ /g} # MACHINE := ${_tspec:[1]} # TARGET_OS := ${_tspec:[2]} # # etc. # # We need to stop that TARGET_SPEC affecting any submakes # # and deal with MACHINE=${TARGET_SPEC} in the environment. # TARGET_SPEC = # # export but do not track # .export-env TARGET_SPEC # .export ${TARGET_SPEC_VARS} # .for v in ${TARGET_SPEC_VARS:O:u} # .if empty($v) # .undef $v # .endif # .endfor # .endif # # make sure we know what TARGET_SPEC is # # as we may need it to find Makefile.depend* # TARGET_SPEC = ${TARGET_SPEC_VARS:@v@${$v:U}@:ts,} # # The following variables can influence the initial DIRDEPS # computation with regard to the TARGET_SPECs that will be # built. # Most should also be considered by init.mk # # ONLY_TARGET_SPEC_LIST # Defines a list of TARGET_SPECs for which the current # directory can be built. # If ALL_MACHINES is defined, we build for all the # TARGET_SPECs listed. # # ONLY_MACHINE_LIST # As for ONLY_TARGET_SPEC_LIST but only specifies # MACHINEs. # # NOT_TARGET_SPEC_LIST # A list of TARGET_SPECs for which the current # directory should not be built. # # NOT_MACHINE_LIST # A list of MACHINEs the current directory should not be # built for. # # touch this at your peril _DIRDEP_USE_LEVEL?= 0 .if ${.MAKE.LEVEL} == ${_DIRDEP_USE_LEVEL} # only the first instance is interested in all this .if !target(_DIRDEP_USE) # do some setup we only need once _CURDIR ?= ${.CURDIR} _OBJDIR ?= ${.OBJDIR} now_utc = ${%s:L:gmtime} .if !defined(start_utc) start_utc := ${now_utc} .endif .if ${MAKEFILE:T} == ${.PARSEFILE} && empty(DIRDEPS) && ${.TARGETS:Uall:M*/*} != "" # This little trick let's us do # # mk -f dirdeps.mk some/dir.${TARGET_SPEC} # all: ${.TARGETS:Nall}: all DIRDEPS := ${.TARGETS:M*[/.]*} # so that -DNO_DIRDEPS works DEP_RELDIR := ${DIRDEPS:[1]:R} # this will become DEP_MACHINE below TARGET_MACHINE := ${DIRDEPS:[1]:E:C/,.*//} .if ${TARGET_MACHINE:N*/*} == "" TARGET_MACHINE := ${MACHINE} .endif # disable DIRDEPS_CACHE as it does not like this trick MK_DIRDEPS_CACHE = no .endif # make sure we get the behavior we expect .MAKE.SAVE_DOLLARS = no # make sure these are empty to start with _DEP_TARGET_SPEC = # If TARGET_SPEC_VARS is other than just MACHINE # it should be set by sys.mk or similar by now. # TARGET_SPEC must not contain any '.'s. TARGET_SPEC_VARS ?= MACHINE # this is what we started with TARGET_SPEC = ${TARGET_SPEC_VARS:@v@${$v:U}@:ts,} # this is what we mostly use below DEP_TARGET_SPEC = ${TARGET_SPEC_VARS:S,^,DEP_,:@v@${$v:U}@:ts,} # make sure we have defaults .for v in ${TARGET_SPEC_VARS} DEP_$v ?= ${$v} .endfor .if ${TARGET_SPEC_VARS:[#]} > 1 # Ok, this gets more complex (putting it mildly). # In order to stay sane, we need to ensure that all the build_dirs # we compute below are fully qualified wrt DEP_TARGET_SPEC. # The makefiles may only partially specify (eg. MACHINE only), # so we need to construct a set of modifiers to fill in the gaps. -.if ${TARGET_SPEC_VARS:[#]} > 10 +.if ${MAKE_VERSION} >= 20170130 +_tspec_x := ${TARGET_SPEC_VARS:range} +.elif ${TARGET_SPEC_VARS:[#]} > 10 # seriously? better have jot(1) or equivalent to produce suitable sequence _tspec_x := ${${JOT:Ujot} ${TARGET_SPEC_VARS:[#]}:L:sh} .else # we can provide the sequence ourselves _tspec_x := ${1 2 3 4 5 6 7 8 9 10:L:[1..${TARGET_SPEC_VARS:[#]}]} .endif # this handles unqualified entries M_dep_qual_fixes = C;(/[^/.,]+)$$;\1.$${DEP_TARGET_SPEC}; # there needs to be at least one item missing for these to make sense .for i in ${_tspec_x:[2..-1]} _tspec_m$i := ${TARGET_SPEC_VARS:[2..$i]:@w@[^,]+@:ts,} _tspec_a$i := ,${TARGET_SPEC_VARS:[$i..-1]:@v@$$$${DEP_$v}@:ts,} M_dep_qual_fixes += C;(\.${_tspec_m$i})$$;\1${_tspec_a$i}; .endfor .else # A harmless? default. M_dep_qual_fixes = U .endif .if !defined(.MAKE.DEPENDFILE_PREFERENCE) # .MAKE.DEPENDFILE_PREFERENCE makes the logic below neater? # you really want this set by sys.mk or similar .MAKE.DEPENDFILE_PREFERENCE = ${_CURDIR}/${.MAKE.DEPENDFILE:T} .if ${.MAKE.DEPENDFILE:E} == "${TARGET_SPEC}" .if ${TARGET_SPEC} != ${MACHINE} .MAKE.DEPENDFILE_PREFERENCE += ${_CURDIR}/${.MAKE.DEPENDFILE:T:R}.$${MACHINE} .endif .MAKE.DEPENDFILE_PREFERENCE += ${_CURDIR}/${.MAKE.DEPENDFILE:T:R} .endif .endif _default_dependfile := ${.MAKE.DEPENDFILE_PREFERENCE:[1]:T} _machine_dependfiles := ${.MAKE.DEPENDFILE_PREFERENCE:T:M*${MACHINE}*} # for machine specific dependfiles we require ${MACHINE} to be at the end # also for the sake of sanity we require a common prefix .if !defined(.MAKE.DEPENDFILE_PREFIX) # knowing .MAKE.DEPENDFILE_PREFIX helps .if !empty(_machine_dependfiles) .MAKE.DEPENDFILE_PREFIX := ${_machine_dependfiles:[1]:T:R} .else .MAKE.DEPENDFILE_PREFIX := ${_default_dependfile:T} .endif .endif # this is how we identify non-machine specific dependfiles N_notmachine := ${.MAKE.DEPENDFILE_PREFERENCE:E:N*${MACHINE}*:${M_ListToSkip}} .endif # !target(_DIRDEP_USE) # First off, we want to know what ${MACHINE} to build for. # This can be complicated if we are using a mixture of ${MACHINE} specific # and non-specific Makefile.depend* # if we were included recursively _DEP_TARGET_SPEC should be valid. .if empty(_DEP_TARGET_SPEC) # we may or may not have included a dependfile yet .if defined(.INCLUDEDFROMFILE) _last_dependfile := ${.INCLUDEDFROMFILE:M${.MAKE.DEPENDFILE_PREFIX}*} .else _last_dependfile := ${.MAKE.MAKEFILES:M*/${.MAKE.DEPENDFILE_PREFIX}*:[-1]} .endif .if ${_debug_reldir:U0} .info ${DEP_RELDIR}.${DEP_TARGET_SPEC}: _last_dependfile='${_last_dependfile}' .endif .if empty(_last_dependfile) || ${_last_dependfile:E:${N_notmachine}} == "" # this is all we have to work with DEP_MACHINE = ${TARGET_MACHINE:U${MACHINE}} _DEP_TARGET_SPEC := ${DEP_TARGET_SPEC} .else _DEP_TARGET_SPEC = ${_last_dependfile:${M_dep_qual_fixes:ts:}:E} .endif .if !empty(_last_dependfile) # record that we've read dependfile for this _dirdeps_checked.${_CURDIR}.${TARGET_SPEC}: .endif .endif # by now _DEP_TARGET_SPEC should be set, parse it. .if ${TARGET_SPEC_VARS:[#]} > 1 # we need to parse DEP_MACHINE may or may not contain more info _tspec := ${_DEP_TARGET_SPEC:S/,/ /g} .for i in ${_tspec_x} DEP_${TARGET_SPEC_VARS:[$i]} := ${_tspec:[$i]} .endfor .for v in ${TARGET_SPEC_VARS:O:u} .if empty(DEP_$v) .undef DEP_$v .endif .endfor .else DEP_MACHINE := ${_DEP_TARGET_SPEC} .endif # reset each time through _build_all_dirs = # the first time we are included the _DIRDEP_USE target will not be defined # we can use this as a clue to do initialization and other one time things. .if !target(_DIRDEP_USE) # make sure this target exists dirdeps: beforedirdeps .WAIT beforedirdeps: # We normally expect to be included by Makefile.depend.* # which sets the DEP_* macros below. DEP_RELDIR ?= ${RELDIR} # this can cause lots of output! # set to a set of glob expressions that might match RELDIR DEBUG_DIRDEPS ?= no # remember the initial value of DEP_RELDIR - we test for it below. _DEP_RELDIR := ${DEP_RELDIR} .endif # DIRDEPS_CACHE can be very handy for debugging. # Also if repeatedly building the same target, # we can avoid the overhead of re-computing the tree dependencies. MK_DIRDEPS_CACHE ?= no BUILD_DIRDEPS_CACHE ?= no BUILD_DIRDEPS ?= yes .if ${MK_DIRDEPS_CACHE} == "yes" # this is where we will cache all our work DIRDEPS_CACHE ?= ${_OBJDIR:tA}/dirdeps.cache${.TARGETS:Nall:O:u:ts-:S,/,_,g:S,^,.,:N.} .endif # pickup customizations # as below you can use !target(_DIRDEP_USE) to protect things # which should only be done once. .-include .if !target(_DIRDEP_USE) # things we skip for host tools SKIP_HOSTDIR ?= NSkipHostDir = ${SKIP_HOSTDIR:N*.host*:S,$,.host*,:N.host*:S,^,${SRCTOP}/,:${M_ListToSkip}} # things we always skip # SKIP_DIRDEPS allows for adding entries on command line. SKIP_DIR += .host *.WAIT ${SKIP_DIRDEPS} SKIP_DIR.host += ${SKIP_HOSTDIR} DEP_SKIP_DIR = ${SKIP_DIR} \ ${SKIP_DIR.${DEP_TARGET_SPEC}:U} \ ${TARGET_SPEC_VARS:@v@${SKIP_DIR.${DEP_$v}:U}@} \ ${SKIP_DIRDEPS.${DEP_TARGET_SPEC}:U} \ ${TARGET_SPEC_VARS:@v@${SKIP_DIRDEPS.${DEP_$v}:U}@} NSkipDir = ${DEP_SKIP_DIR:${M_ListToSkip}} .if defined(NODIRDEPS) || defined(WITHOUT_DIRDEPS) NO_DIRDEPS = .elif defined(WITHOUT_DIRDEPS_BELOW) NO_DIRDEPS_BELOW = .endif .if defined(NO_DIRDEPS) # confine ourselves to the original dir and below. DIRDEPS_FILTER += M${_DEP_RELDIR}* .elif defined(NO_DIRDEPS_BELOW) DIRDEPS_FILTER += M${_DEP_RELDIR} .endif # this is what we run below DIRDEP_MAKE?= ${.MAKE} # we suppress SUBDIR when visiting the leaves # we assume sys.mk will set MACHINE_ARCH # you can add extras to DIRDEP_USE_ENV # if there is no makefile in the target directory, we skip it. _DIRDEP_USE: .USE .MAKE @for m in ${.MAKE.MAKEFILE_PREFERENCE}; do \ test -s ${.TARGET:R}/$$m || continue; \ echo "${TRACER}Checking ${.TARGET:R} for ${.TARGET:E} ..."; \ MACHINE_ARCH= NO_SUBDIR=1 ${DIRDEP_USE_ENV} \ TARGET_SPEC=${.TARGET:E} \ MACHINE=${.TARGET:E} \ ${DIRDEP_MAKE} -C ${.TARGET:R} || exit 1; \ break; \ done .ifdef ALL_MACHINES # this is how you limit it to only the machines we have been built for # previously. .if empty(ONLY_TARGET_SPEC_LIST) && empty(ONLY_MACHINE_LIST) .if !empty(ALL_MACHINE_LIST) # ALL_MACHINE_LIST is the list of all legal machines - ignore anything else _machine_list != cd ${_CURDIR} && 'ls' -1 ${ALL_MACHINE_LIST:O:u:@m@${.MAKE.DEPENDFILE:T:R}.$m@} 2> /dev/null; echo .else _machine_list != 'ls' -1 ${_CURDIR}/${.MAKE.DEPENDFILE_PREFIX}.* 2> /dev/null; echo .endif _only_machines := ${_machine_list:${NIgnoreFiles:UN*.bak}:E:O:u} .else _only_machines := ${ONLY_TARGET_SPEC_LIST:U} ${ONLY_MACHINE_LIST:U} .endif .if empty(_only_machines) # we must be boot-strapping _only_machines := ${TARGET_MACHINE:U${ALL_MACHINE_LIST:U${DEP_MACHINE}}} .endif .else # ! ALL_MACHINES # if ONLY_TARGET_SPEC_LIST or ONLY_MACHINE_LIST is set, we are limited to that. # Note that ONLY_TARGET_SPEC_LIST should be fully qualified. # if TARGET_MACHINE is set - it is really the same as ONLY_MACHINE_LIST # otherwise DEP_MACHINE is it - so DEP_MACHINE will match. _only_machines := ${ONLY_TARGET_SPEC_LIST:U:M${DEP_MACHINE},*} .if empty(_only_machines) _only_machines := ${ONLY_MACHINE_LIST:U${TARGET_MACHINE:U${DEP_MACHINE}}:M${DEP_MACHINE}} .endif .endif .if !empty(NOT_MACHINE_LIST) _only_machines := ${_only_machines:${NOT_MACHINE_LIST:${M_ListToSkip}}} .endif .if !empty(NOT_TARGET_SPEC_LIST) # we must first qualify _dm := ${DEP_MACHINE} _only_machines := ${_only_machines:M*,*} ${_only_machines:N*,*:@DEP_MACHINE@${DEP_TARGET_SPEC}@:S,^,.,:${M_dep_qual_fixes:ts:}:O:u:S,^.,,} DEP_MACHINE := ${_dm} _only_machines := ${_only_machines:${NOT_TARGET_SPEC_LIST:${M_ListToSkip}}} .endif # clean up _only_machines := ${_only_machines:O:u} # make sure we have a starting place? DIRDEPS ?= ${RELDIR} .endif # target .if !defined(NO_DIRDEPS) && !defined(NO_DIRDEPS_BELOW) .if ${MK_DIRDEPS_CACHE} == "yes" # just ensure this exists build-dirdeps: M_oneperline = @x@\\${.newline} $$x@ .if ${BUILD_DIRDEPS_CACHE} == "no" .if !target(dirdeps-cached) # we do this via sub-make BUILD_DIRDEPS = no # ignore anything but these .MAKE.META.IGNORE_FILTER = M*/${.MAKE.DEPENDFILE_PREFIX}* dirdeps: dirdeps-cached dirdeps-cached: ${DIRDEPS_CACHE} .MAKE @echo "${TRACER}Using ${DIRDEPS_CACHE}" @MAKELEVEL=${.MAKE.LEVEL} ${.MAKE} -C ${_CURDIR} -f ${DIRDEPS_CACHE} \ dirdeps MK_DIRDEPS_CACHE=no BUILD_DIRDEPS=no # these should generally do BUILD_DIRDEPS_MAKEFILE ?= ${MAKEFILE} BUILD_DIRDEPS_TARGETS ?= ${.TARGETS} # we need the .meta file to ensure we update if # any of the Makefile.depend* changed. # We do not want to compare the command line though. ${DIRDEPS_CACHE}: .META .NOMETA_CMP +@{ echo '# Autogenerated - do NOT edit!'; echo; \ echo 'BUILD_DIRDEPS=no'; echo; \ echo '.include '; \ } > ${.TARGET}.new +@MAKELEVEL=${.MAKE.LEVEL} DIRDEPS_CACHE=${DIRDEPS_CACHE} \ DIRDEPS="${DIRDEPS}" \ TARGET_SPEC=${TARGET_SPEC} \ MAKEFLAGS= ${.MAKE} -C ${_CURDIR} -f ${BUILD_DIRDEPS_MAKEFILE} \ ${BUILD_DIRDEPS_TARGETS} BUILD_DIRDEPS_CACHE=yes \ .MAKE.DEPENDFILE=.none \ ${.MAKEFLAGS:tW:S,-D ,-D,g:tw:M*WITH*} \ 3>&1 1>&2 | sed 's,${SRCTOP},$${SRCTOP},g' >> ${.TARGET}.new && \ mv ${.TARGET}.new ${.TARGET} .endif .elif !target(_count_dirdeps) # we want to capture the dirdeps count in the cache .END: _count_dirdeps _count_dirdeps: .NOMETA @echo '.info $${.newline}$${TRACER}Makefiles read: total=${.MAKE.MAKEFILES:[#]} depend=${.MAKE.MAKEFILES:M*depend*:[#]} dirdeps=${.ALLTARGETS:M${SRCTOP}*:O:u:[#]}' >&3 .endif .elif !make(dirdeps) && !target(_count_dirdeps) beforedirdeps: _count_dirdeps _count_dirdeps: .NOMETA @echo "${TRACER}Makefiles read: total=${.MAKE.MAKEFILES:[#]} depend=${.MAKE.MAKEFILES:M*depend*:[#]} dirdeps=${.ALLTARGETS:M${SRCTOP}*:O:u:[#]} seconds=`expr ${now_utc} - ${start_utc}`" .endif .endif .if ${BUILD_DIRDEPS} == "yes" .if ${DEBUG_DIRDEPS:@x@${DEP_RELDIR:M$x}${${DEP_RELDIR}.${DEP_MACHINE}:L:M$x}@} != "" _debug_reldir = 1 .else _debug_reldir = 0 .endif .if ${DEBUG_DIRDEPS:@x@${DEP_RELDIR:M$x}${${DEP_RELDIR}.depend:L:M$x}@} != "" _debug_search = 1 .else _debug_search = 0 .endif # the rest is done repeatedly for every Makefile.depend we read. # if we are anything but the original dir we care only about the # machine type we were included for.. .if ${DEP_RELDIR} == "." _this_dir := ${SRCTOP} .else _this_dir := ${SRCTOP}/${DEP_RELDIR} .endif # on rare occasions, there can be a need for extra help _dep_hack := ${_this_dir}/${.MAKE.DEPENDFILE_PREFIX}.inc .-include <${_dep_hack}> .if ${DEP_RELDIR} != ${_DEP_RELDIR} || ${DEP_TARGET_SPEC} != ${TARGET_SPEC} # this should be all _machines := ${DEP_MACHINE} .else # this is the machine list we actually use below _machines := ${_only_machines} .if defined(HOSTPROG) || ${DEP_MACHINE} == "host" # we need to build this guy's dependencies for host as well. _machines += host .endif _machines := ${_machines:O:u} .endif .if ${TARGET_SPEC_VARS:[#]} > 1 # we need to tweak _machines _dm := ${DEP_MACHINE} # apply the same filtering that we do when qualifying DIRDEPS. # M_dep_qual_fixes expects .${MACHINE}* so add (and remove) '.' # Again we expect that any already qualified machines are fully qualified. _machines := ${_machines:M*,*} ${_machines:N*,*:@DEP_MACHINE@${DEP_TARGET_SPEC}@:S,^,.,:${M_dep_qual_fixes:ts:}:O:u:S,^.,,} DEP_MACHINE := ${_dm} _machines := ${_machines:O:u} .endif # reset each time through _build_dirs = .if ${DEP_RELDIR} == ${_DEP_RELDIR} # pickup other machines for this dir if necessary .if ${BUILD_AT_LEVEL0:Uyes} == "no" _build_dirs += ${_machines:@m@${_CURDIR}.$m@} .else _build_dirs += ${_machines:N${DEP_TARGET_SPEC}:@m@${_CURDIR}.$m@} .if ${DEP_TARGET_SPEC} == ${TARGET_SPEC} # pickup local dependencies now .if ${MAKE_VERSION} < 20160220 .-include <.depend> .else .dinclude <.depend> .endif .endif .endif .endif .if ${_debug_reldir} .info ${DEP_RELDIR}.${DEP_TARGET_SPEC}: DIRDEPS='${DIRDEPS}' .info ${DEP_RELDIR}.${DEP_TARGET_SPEC}: _machines='${_machines}' .endif .if !empty(DIRDEPS) # these we reset each time through as they can depend on DEP_MACHINE DEP_DIRDEPS_FILTER = \ ${DIRDEPS_FILTER.${DEP_TARGET_SPEC}:U} \ ${TARGET_SPEC_VARS:@v@${DIRDEPS_FILTER.${DEP_$v}:U}@} \ ${DIRDEPS_FILTER:U} .if empty(DEP_DIRDEPS_FILTER) # something harmless DEP_DIRDEPS_FILTER = U .endif # this is what we start with __depdirs := ${DIRDEPS:${NSkipDir}:${DEP_DIRDEPS_FILTER:ts:}:C,//+,/,g:O:u:@d@${SRCTOP}/$d@} # some entries may be qualified with . # the :M*/*/*.* just tries to limit the dirs we check to likely ones. # the ${d:E:M*/*} ensures we don't consider junos/usr.sbin/mgd __qual_depdirs := ${__depdirs:M*/*/*.*:@d@${exists($d):?:${"${d:E:M*/*}":?:${exists(${d:R}):?$d:}}}@} __unqual_depdirs := ${__depdirs:${__qual_depdirs:Uno:${M_ListToSkip}}} .if ${DEP_RELDIR} == ${_DEP_RELDIR} # if it was called out - we likely need it. __hostdpadd := ${DPADD:U.:M${HOST_OBJTOP}/*:S,${HOST_OBJTOP}/,,:H:${NSkipDir}:${DIRDEPS_FILTER:ts:}:S,$,.host,:N.*:@d@${SRCTOP}/$d@} __qual_depdirs += ${__hostdpadd} .endif .if ${_debug_reldir} .info depdirs=${__depdirs} .info qualified=${__qual_depdirs} .info unqualified=${__unqual_depdirs} .endif # _build_dirs is what we will feed to _DIRDEP_USE _build_dirs += \ ${__qual_depdirs:M*.host:${NSkipHostDir}:N.host} \ ${__qual_depdirs:N*.host} \ ${_machines:Mhost*:@m@${__unqual_depdirs:@d@$d.$m@}@:${NSkipHostDir}:N.host} \ ${_machines:Nhost*:@m@${__unqual_depdirs:@d@$d.$m@}@} # qualify everything now _build_dirs := ${_build_dirs:${M_dep_qual_fixes:ts:}:O:u} +.endif # empty DIRDEPS + _build_all_dirs += ${_build_dirs} _build_all_dirs := ${_build_all_dirs:O:u} - -.endif # empty DIRDEPS # Normally if doing make -V something, # we do not want to waste time chasing DIRDEPS # but if we want to count the number of Makefile.depend* read, we do. .if ${.MAKEFLAGS:M-V${_V_READ_DIRDEPS}} == "" .if !empty(_build_all_dirs) .if ${BUILD_DIRDEPS_CACHE} == "yes" x!= { echo; echo '\# ${DEP_RELDIR}.${DEP_TARGET_SPEC}'; \ echo 'dirdeps: ${_build_all_dirs:${M_oneperline}}'; echo; } >&3; echo x!= { ${_build_all_dirs:@x@${target($x):?:echo '$x: _DIRDEP_USE';}@} echo; } >&3; echo .else # this makes it all happen dirdeps: ${_build_all_dirs} .endif ${_build_all_dirs}: _DIRDEP_USE .if ${_debug_reldir} .info ${DEP_RELDIR}.${DEP_TARGET_SPEC}: needs: ${_build_dirs} .endif # this builds the dependency graph .for m in ${_machines} # it would be nice to do :N${.TARGET} .if !empty(__qual_depdirs) .for q in ${__qual_depdirs:${M_dep_qual_fixes:ts:}:E:O:u:N$m} .if ${_debug_reldir} || ${DEBUG_DIRDEPS:@x@${${DEP_RELDIR}.$m:L:M$x}${${DEP_RELDIR}.$q:L:M$x}@} != "" .info ${DEP_RELDIR}.$m: graph: ${_build_dirs:M*.$q} .endif .if ${BUILD_DIRDEPS_CACHE} == "yes" x!= { echo; echo '${_this_dir}.$m: ${_build_dirs:M*.$q:${M_oneperline}}'; echo; } >&3; echo .else ${_this_dir}.$m: ${_build_dirs:M*.$q} .endif .endfor .endif .if ${_debug_reldir} .info ${DEP_RELDIR}.$m: graph: ${_build_dirs:M*.$m:N${_this_dir}.$m} .endif .if ${BUILD_DIRDEPS_CACHE} == "yes" x!= { echo; echo '${_this_dir}.$m: ${_build_dirs:M*.$m:N${_this_dir}.$m:${M_oneperline}}'; echo; } >&3; echo .else ${_this_dir}.$m: ${_build_dirs:M*.$m:N${_this_dir}.$m} .endif .endfor .endif # Now find more dependencies - and recurse. .for d in ${_build_all_dirs} .if !target(_dirdeps_checked.$d) # once only _dirdeps_checked.$d: .if ${_debug_search} .info checking $d .endif # Note: _build_all_dirs is fully qualifed so d:R is always the directory .if exists(${d:R}) # we pass _DEP_TARGET_SPEC to tell the next step what we want _DEP_TARGET_SPEC := ${d:E} # some makefiles may still look at this _DEP_MACHINE := ${d:E:C/,.*//} # set these too in case Makefile.depend* uses them .if ${TARGET_SPEC_VARS:[#]} > 1 _dtspec := ${_DEP_TARGET_SPEC:S/,/ /g} .for i in ${_tspec_x} DEP_${TARGET_SPEC_VARS:[$i]} := ${_dtspec:[$i]} .endfor .else DEP_MACHINE := ${_DEP_MACHINE} .endif # Warning: there is an assumption here that MACHINE is always # the first entry in TARGET_SPEC_VARS. # If TARGET_SPEC and MACHINE are insufficient, you have a problem. _m := ${.MAKE.DEPENDFILE_PREFERENCE:T:S;${TARGET_SPEC}$;${d:E};:S;${MACHINE};${d:E:C/,.*//};:@m@${exists(${d:R}/$m):?${d:R}/$m:}@:[1]} .if !empty(_m) # M_dep_qual_fixes isn't geared to Makefile.depend _qm := ${_m:C;(\.depend)$;\1.${d:E};:${M_dep_qual_fixes:ts:}} .if ${_debug_search} .info Looking for ${_qm} .endif # set this "just in case" # we can skip :tA since we computed the path above DEP_RELDIR := ${_m:H:S,${SRCTOP}/,,} # and reset this DIRDEPS = .if ${_debug_reldir} && ${_qm} != ${_m} .info loading ${_m} for ${d:E} .endif .include <${_m}> .endif .endif .endif .endfor .endif # -V .endif # BUILD_DIRDEPS .elif ${.MAKE.LEVEL} > 42 .error You should have stopped recursing by now. .else # we are building something DEP_RELDIR := ${RELDIR} _DEP_RELDIR := ${RELDIR} # pickup local dependencies .if ${MAKE_VERSION} < 20160220 .-include <.depend> .else .dinclude <.depend> .endif .endif # bootstrapping new dependencies made easy? .if !target(bootstrap) && (make(bootstrap) || \ make(bootstrap-this) || \ make(bootstrap-recurse) || \ make(bootstrap-empty)) # if we are bootstrapping create the default _want = ${.CURDIR}/${.MAKE.DEPENDFILE_DEFAULT:T} .if exists(${_want}) # stop here ${.TARGETS:Mboot*}: .elif !make(bootstrap-empty) # find a Makefile.depend to use as _src _src != cd ${.CURDIR} && for m in ${.MAKE.DEPENDFILE_PREFERENCE:T:S,${MACHINE},*,}; do test -s $$m || continue; echo $$m; break; done; echo .if empty(_src) .error cannot find any of ${.MAKE.DEPENDFILE_PREFERENCE:T}${.newline}Use: bootstrap-empty .endif _src?= ${.MAKE.DEPENDFILE} .MAKE.DEPENDFILE_BOOTSTRAP_SED+= -e 's/${_src:E:C/,.*//}/${MACHINE}/g' # just create Makefile.depend* for this dir bootstrap-this: .NOTMAIN @echo Bootstrapping ${RELDIR}/${_want:T} from ${_src:T}; \ echo You need to build ${RELDIR} to correctly populate it. .if ${_src:T} != ${.MAKE.DEPENDFILE_PREFIX:T} (cd ${.CURDIR} && sed ${.MAKE.DEPENDFILE_BOOTSTRAP_SED} ${_src} > ${_want}) .else cp ${.CURDIR}/${_src:T} ${_want} .endif # create Makefile.depend* for this dir and its dependencies bootstrap: bootstrap-recurse bootstrap-recurse: bootstrap-this _mf := ${.PARSEFILE} bootstrap-recurse: .NOTMAIN .MAKE @cd ${SRCTOP} && \ for d in `cd ${RELDIR} && ${.MAKE} -B -f ${"${.MAKEFLAGS:M-n}":?${_src}:${.MAKE.DEPENDFILE:T}} -V DIRDEPS`; do \ test -d $$d || d=$${d%.*}; \ test -d $$d || continue; \ echo "Checking $$d for bootstrap ..."; \ (cd $$d && ${.MAKE} -f ${_mf} bootstrap-recurse); \ done .endif # create an empty Makefile.depend* to get the ball rolling. bootstrap-empty: .NOTMAIN .NOMETA @echo Creating empty ${RELDIR}/${_want:T}; \ echo You need to build ${RELDIR} to correctly populate it. @{ echo DIRDEPS=; echo ".include "; } > ${_want} .endif Index: head/share/mk/meta.stage.mk =================================================================== --- head/share/mk/meta.stage.mk (revision 314808) +++ head/share/mk/meta.stage.mk (revision 314809) @@ -1,305 +1,327 @@ # $FreeBSD$ -# $Id: meta.stage.mk,v 1.47 2016/12/07 23:07:49 sjg Exp $ +# $Id: meta.stage.mk,v 1.48 2017/03/01 22:48:07 sjg Exp $ # -# @(#) Copyright (c) 2011, Simon J. Gerraty +# @(#) Copyright (c) 2011-2017, Simon J. Gerraty # # This file is provided in the hope that it will # be of use. There is absolutely NO WARRANTY. # Permission to copy, redistribute or otherwise # use this file is hereby granted provided that # the above copyright notice and this notice are # left intact. # # Please send copies of changes and bug-fixes to: # sjg@crufty.net # .if !target(__${.PARSEFILE}__) -__${.PARSEFILE}__: +# the guard target is defined later .if ${.MAKE.DEPENDFILE_PREFERENCE:U${.MAKE.DEPENDFILE}:M*.${MACHINE}} != "" # this is generally safer anyway _dirdep = ${RELDIR}.${MACHINE} .else _dirdep = ${RELDIR} .endif CLEANFILES+= .dirdep # this allows us to trace dependencies back to their src dir .dirdep: .NOPATH @echo '${_dirdep}' > $@ .if defined(NO_POSIX_SHELL) || ${type printf:L:sh:Mbuiltin} == "" _stage_file_basename = `basename $$f` _stage_target_dirname = `dirname $$t` .else _stage_file_basename = $${f\#\#*/} _stage_target_dirname = $${t%/*} .endif _OBJROOT ?= ${OBJROOT:U${OBJTOP:H}} .if ${_OBJROOT:M*/} != "" _objroot ?= ${_OBJROOT:tA}/ .else _objroot ?= ${_OBJROOT:tA} .endif # make sure this is global _STAGED_DIRS ?= .export _STAGED_DIRS # add each dir we stage to to _STAGED_DIRS # and make sure we have absolute paths so that bmake # will match against .MAKE.META.BAILIWICK STAGE_DIR_FILTER = tA:@d@$${_STAGED_DIRS::+=$$d}$$d@ # convert _STAGED_DIRS into suitable filters GENDIRDEPS_FILTER += Nnot-empty-is-important \ ${_STAGED_DIRS:O:u:M${OBJTOP}*:S,${OBJTOP}/,N,} \ ${_STAGED_DIRS:O:u:M${_objroot}*:N${OBJTOP}*:S,${_objroot},,:C,^([^/]+)/(.*),N\2.\1,:S,${HOST_TARGET},.host,} LN_CP_SCRIPT = LnCp() { \ rm -f $$2 2> /dev/null; \ { [ -z "$$mode" ] && ${LN:Uln} $$1 $$2 2> /dev/null; } || \ cp -p $$1 $$2; } # a staging conflict should cause an error # a warning is handy when bootstapping different options. STAGE_CONFLICT?= ERROR .if ${STAGE_CONFLICT:tl} == "error" STAGE_CONFLICT_ACTION= exit 1; .else STAGE_CONFLICT_ACTION= .endif # it is an error for more than one src dir to try and stage # the same file STAGE_DIRDEP_SCRIPT = ${LN_CP_SCRIPT}; StageDirdep() { \ t=$$1; \ if [ -s $$t.dirdep ]; then \ cmp -s .dirdep $$t.dirdep && return; \ echo "${STAGE_CONFLICT}: $$t installed by `cat $$t.dirdep` not ${_dirdep}" >&2; \ ${STAGE_CONFLICT_ACTION} \ fi; \ LnCp .dirdep $$t.dirdep || exit 1; } # common logic for staging files # this all relies on RELDIR being set to a subdir of SRCTOP # we use ln(1) if we can, else cp(1) STAGE_FILE_SCRIPT = ${STAGE_DIRDEP_SCRIPT}; StageFiles() { \ case "$$1" in "") return;; -m) mode=$$2; shift 2;; *) mode=;; esac; \ dest=$$1; shift; \ mkdir -p $$dest; \ [ -s .dirdep ] || echo '${_dirdep}' > .dirdep; \ for f in "$$@"; do \ case "$$f" in */*) t=$$dest/${_stage_file_basename};; *) t=$$dest/$$f;; esac; \ StageDirdep $$t; \ LnCp $$f $$t || exit 1; \ [ -z "$$mode" ] || chmod $$mode $$t; \ done; :; } STAGE_LINKS_SCRIPT = ${STAGE_DIRDEP_SCRIPT}; StageLinks() { \ case "$$1" in "") return;; --) shift;; -*) ldest= lnf=$$1; shift;; /*) ldest=$$1/;; esac; \ dest=$$1; shift; \ mkdir -p $$dest; \ [ -s .dirdep ] || echo '${_dirdep}' > .dirdep; \ while test $$\# -ge 2; do \ l=$$ldest$$1; shift; \ t=$$dest/$$1; \ case "$$1" in */*) mkdir -p ${_stage_target_dirname};; esac; \ shift; \ StageDirdep $$t; \ rm -f $$t 2>/dev/null; \ ln $$lnf $$l $$t || exit 1; \ done; :; } STAGE_AS_SCRIPT = ${STAGE_DIRDEP_SCRIPT}; StageAs() { \ case "$$1" in "") return;; -m) mode=$$2; shift 2;; *) mode=;; esac; \ dest=$$1; shift; \ mkdir -p $$dest; \ [ -s .dirdep ] || echo '${_dirdep}' > .dirdep; \ while test $$\# -ge 2; do \ s=$$1; shift; \ t=$$dest/$$1; \ case "$$1" in */*) mkdir -p ${_stage_target_dirname};; esac; \ shift; \ StageDirdep $$t; \ LnCp $$s $$t || exit 1; \ [ -z "$$mode" ] || chmod $$mode $$t; \ done; :; } # this is simple, a list of the "staged" files depends on this, -_STAGE_BASENAME_USE: .USE ${.TARGET:T} +_STAGE_BASENAME_USE: .USE .dirdep ${.TARGET:T} @${STAGE_FILE_SCRIPT}; StageFiles ${.TARGET:H:${STAGE_DIR_FILTER}} ${.TARGET:T} -_STAGE_AS_BASENAME_USE: .USE ${.TARGET:T} +_STAGE_AS_BASENAME_USE: .USE .dirdep ${.TARGET:T} @${STAGE_AS_SCRIPT}; StageAs ${.TARGET:H:${STAGE_DIR_FILTER}} ${.TARGET:T} ${STAGE_AS_${.TARGET:T}:U${.TARGET:T}} -.if !empty(STAGE_INCSDIR) -STAGE_TARGETS += stage_incs -STAGE_INCS ?= ${.ALLSRC:N.dirdep:Nstage_*} stage_includes: stage_incs stage_incs: .dirdep @${STAGE_FILE_SCRIPT}; StageFiles ${STAGE_INCSDIR:${STAGE_DIR_FILTER}} ${STAGE_INCS} @touch $@ -.endif -.if !empty(STAGE_LIBDIR) -STAGE_TARGETS += stage_libs - -STAGE_LIBS ?= ${.ALLSRC:N.dirdep:Nstage_*} - stage_libs: .dirdep @${STAGE_FILE_SCRIPT}; StageFiles ${STAGE_LIBDIR:${STAGE_DIR_FILTER}} ${STAGE_LIBS} .if !defined(NO_SHLIB_LINKS) .if !empty(SHLIB_LINKS) @${STAGE_LINKS_SCRIPT}; StageLinks -s ${STAGE_LIBDIR:${STAGE_DIR_FILTER}} \ ${SHLIB_LINKS:@t@${STAGE_LIBS:T:M$t.*} $t@} .elif !empty(SHLIB_LINK) && !empty(SHLIB_NAME) @${STAGE_LINKS_SCRIPT}; StageLinks -s ${STAGE_LIBDIR:${STAGE_DIR_FILTER}} ${SHLIB_NAME} ${SHLIB_LINK} .endif .endif @touch $@ + +.endif # first time + + +.if !empty(STAGE_INCSDIR) +STAGE_TARGETS += stage_incs +STAGE_INCS ?= ${.ALLSRC:N.dirdep:Nstage_*} .endif +.if !empty(STAGE_LIBDIR) +STAGE_TARGETS += stage_libs +STAGE_LIBS ?= ${.ALLSRC:N.dirdep:Nstage_*} +.endif + .if !empty(STAGE_DIR) STAGE_SETS += _default STAGE_DIR._default = ${STAGE_DIR} STAGE_LINKS_DIR._default = ${STAGE_LINKS_DIR:U${STAGE_OBJTOP}} STAGE_SYMLINKS_DIR._default = ${STAGE_SYMLINKS_DIR:U${STAGE_OBJTOP}} STAGE_FILES._default = ${STAGE_FILES} STAGE_LINKS._default = ${STAGE_LINKS} STAGE_SYMLINKS._default = ${STAGE_SYMLINKS} STAGE_FILES ?= ${.ALLSRC:N.dirdep:Nstage_*} STAGE_SYMLINKS ?= ${.ALLSRC:T:N.dirdep:Nstage_*} .endif .if !empty(STAGE_SETS) CLEANFILES += ${STAGE_SETS:@s@stage*$s@} # some makefiles need to populate multiple directories .for s in ${STAGE_SETS:O:u} STAGE_FILES.$s ?= ${.ALLSRC:N.dirdep:Nstage_*} STAGE_SYMLINKS.$s ?= ${.ALLSRC:N.dirdep:Nstage_*} STAGE_LINKS_DIR.$s ?= ${STAGE_OBJTOP} STAGE_SYMLINKS_DIR.$s ?= ${STAGE_OBJTOP} STAGE_TARGETS += stage_files +.if !target(.stage_files.$s) +.stage_files.$s: .if $s != "_default" stage_files: stage_files.$s stage_files.$s: .dirdep .else stage_files: .dirdep .endif @${STAGE_FILE_SCRIPT}; StageFiles ${FLAGS.$@} ${STAGE_FILES_DIR.$s:U${STAGE_DIR.$s}:${STAGE_DIR_FILTER}} ${STAGE_FILES.$s} @touch $@ +.endif STAGE_TARGETS += stage_links +.if !target(.stage_links.$s) +.stage_links.$s: .if $s != "_default" stage_links: stage_links.$s stage_links.$s: .dirdep .else stage_links: .dirdep .endif @${STAGE_LINKS_SCRIPT}; StageLinks ${STAGE_LINKS_DIR.$s:U${STAGE_DIR.$s}:${STAGE_DIR_FILTER}} ${STAGE_LINKS.$s} @touch $@ +.endif STAGE_TARGETS += stage_symlinks +.if !target(.stage_symlinks.$s) +.stage_symlinks.$s: .if $s != "_default" stage_symlinks: stage_symlinks.$s stage_symlinks.$s: .dirdep .else stage_symlinks: .dirdep .endif @${STAGE_LINKS_SCRIPT}; StageLinks -s ${STAGE_SYMLINKS_DIR.$s:U${STAGE_DIR.$s}:${STAGE_DIR_FILTER}} ${STAGE_SYMLINKS.$s} @touch $@ +.endif .endfor .endif .if !empty(STAGE_AS_SETS) CLEANFILES += ${STAGE_AS_SETS:@s@stage*$s@} STAGE_TARGETS += stage_as stage_as_and_symlink # sometimes things need to be renamed as they are staged # each ${file} will be staged as ${STAGE_AS_${file:T}} # one could achieve the same with SYMLINKS # stage_as_and_symlink makes the original name a symlink to the new name # it is the same as using stage_as and stage_symlinks but ensures # both operations happen together .for s in ${STAGE_AS_SETS:O:u} STAGE_AS.$s ?= ${.ALLSRC:N.dirdep:Nstage_*} STAGE_AS_AND_SYMLINK.$s ?= ${.ALLSRC:N.dirdep:Nstage_*} +.if !target(.stage_as.$s) +.stage_as.$s: stage_as: stage_as.$s stage_as.$s: .dirdep @${STAGE_AS_SCRIPT}; StageAs ${FLAGS.$@} ${STAGE_FILES_DIR.$s:U${STAGE_DIR.$s}:${STAGE_DIR_FILTER}} ${STAGE_AS.$s:@f@$f ${STAGE_AS_${f:tA}:U${STAGE_AS_${f:T}:U${f:T}}}@} @touch $@ +.endif +.if !target(.stage_as_and_symlink.$s) +.stage_as_and_symlink.$s: stage_as_and_symlink: stage_as_and_symlink.$s stage_as_and_symlink.$s: .dirdep @${STAGE_AS_SCRIPT}; StageAs ${FLAGS.$@} ${STAGE_FILES_DIR.$s:U${STAGE_DIR.$s}:${STAGE_DIR_FILTER}} ${STAGE_AS_AND_SYMLINK.$s:@f@$f ${STAGE_AS_${f:tA}:U${STAGE_AS_${f:T}:U${f:T}}}@} @${STAGE_LINKS_SCRIPT}; StageLinks -s ${STAGE_FILES_DIR.$s:U${STAGE_DIR.$s}:${STAGE_DIR_FILTER}} ${STAGE_AS_AND_SYMLINK.$s:@f@${STAGE_AS_${f:tA}:U${STAGE_AS_${f:T}:U${f:T}}} $f@} @touch $@ +.endif .endfor .endif CLEANFILES += ${STAGE_TARGETS} stage_incs stage_includes + +# this lot also only makes sense the first time... +.if !target(__${.PARSEFILE}__) +__${.PARSEFILE}__: # stage_*links usually needs to follow any others. # for non-jobs mode the order here matters staging: ${STAGE_TARGETS:N*_links} ${STAGE_TARGETS:M*_links} .if ${.MAKE.JOBS:U0} > 0 && ${STAGE_TARGETS:U:M*_links} != "" # the above isn't sufficient .for t in ${STAGE_TARGETS:N*links:O:u} .ORDER: $t stage_links .endfor .endif # generally we want staging to wait until everything else is done STAGING_WAIT ?= .WAIT .if ${.MAKE.LEVEL} > 0 all: ${STAGING_WAIT} staging .endif .if exists(${.PARSEDIR}/stage-install.sh) && !defined(STAGE_INSTALL) # this will run install(1) and then followup with .dirdep files. STAGE_INSTALL := sh ${.PARSEDIR:tA}/stage-install.sh INSTALL="${INSTALL}" OBJDIR=${.OBJDIR:tA} .endif # if ${INSTALL} gets run during 'all' assume it is for staging? .if ${.TARGETS:Nall} == "" && defined(STAGE_INSTALL) INSTALL := ${STAGE_INSTALL} .if target(beforeinstall) beforeinstall: .dirdep .endif .endif .NOPATH: ${STAGE_FILES} .if !empty(STAGE_TARGETS) .NOPATH: ${CLEANFILES} MK_STALE_STAGED?= no .if ${MK_STALE_STAGED} == "yes" all: stale_staged # get a list of paths that we have just staged # get a list of paths that we have previously staged to those same dirs # anything in the 2nd list but not the first is stale - remove it. stale_staged: staging .NOMETA @egrep '^[WL] .*${STAGE_OBJTOP}' /dev/null ${.MAKE.META.FILES:M*stage_*} | \ sed "/\.dirdep/d;s,.* '*\(${STAGE_OBJTOP}/[^ '][^ ']*\).*,\1," | \ sort > ${.TARGET}.staged1 @grep -l '${_dirdep}' /dev/null ${_STAGED_DIRS:M${STAGE_OBJTOP}*:O:u:@d@$d/*.dirdep@} | \ sed 's,\.dirdep,,' | sort > ${.TARGET}.staged2 @comm -13 ${.TARGET}.staged1 ${.TARGET}.staged2 > ${.TARGET}.stale @test ! -s ${.TARGET}.stale || { \ echo "Removing stale staged files..."; \ sed 's,.*,& &.dirdep,' ${.TARGET}.stale | xargs rm -f; } .endif .endif .endif Index: head/share/mk/meta2deps.py =================================================================== --- head/share/mk/meta2deps.py (revision 314808) +++ head/share/mk/meta2deps.py (revision 314809) @@ -1,721 +1,740 @@ #!/usr/bin/env python from __future__ import print_function """ This script parses each "meta" file and extracts the information needed to deduce build and src dependencies. It works much the same as the original shell script, but is *much* more efficient. The parsing work is handled by the class MetaFile. We only pay attention to a subset of the information in the "meta" files. Specifically: 'CWD' to initialize our notion. 'C' to track chdir(2) on a per process basis 'R' files read are what we really care about. directories read, provide a clue to resolving subsequent relative paths. That is if we cannot find them relative to 'cwd', we check relative to the last dir read. 'W' files opened for write or read-write, for filemon V3 and earlier. 'E' files executed. 'L' files linked 'V' the filemon version, this record is used as a clue that we have reached the interesting bit. """ """ RCSid: $FreeBSD$ - $Id: meta2deps.py,v 1.22 2016/12/12 19:07:42 sjg Exp $ + $Id: meta2deps.py,v 1.24 2017/02/08 22:17:10 sjg Exp $ Copyright (c) 2011-2013, Juniper Networks, Inc. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. """ import os, re, sys def getv(dict, key, d=None): """Lookup key in dict and return value or the supplied default.""" if key in dict: return dict[key] return d def resolve(path, cwd, last_dir=None, debug=0, debug_out=sys.stderr): """ Return an absolute path, resolving via cwd or last_dir if needed. """ if path.endswith('/.'): path = path[0:-2] if len(path) > 0 and path[0] == '/': return path if path == '.': return cwd if path.startswith('./'): return cwd + path[1:] if last_dir == cwd: last_dir = None for d in [last_dir, cwd]: if not d: continue p = '/'.join([d,path]) if debug > 2: print("looking for:", p, end=' ', file=debug_out) if not os.path.exists(p): if debug > 2: print("nope", file=debug_out) p = None continue if debug > 2: print("found:", p, file=debug_out) return p return None +def cleanpath(path): + """cleanup path without using realpath(3)""" + if path.startswith('/'): + r = '/' + else: + r = '' + p = [] + w = path.split('/') + for d in w: + if not d or d == '.': + continue + if d == '..': + p.pop() + continue + p.append(d) + + return r + '/'.join(p) + def abspath(path, cwd, last_dir=None, debug=0, debug_out=sys.stderr): """ Return an absolute path, resolving via cwd or last_dir if needed. - this gets called a lot, so we try to avoid calling realpath - until we know we have something. + this gets called a lot, so we try to avoid calling realpath. """ rpath = resolve(path, cwd, last_dir, debug, debug_out) if rpath: path = rpath if (path.find('/') < 0 or path.find('./') > 0 or - path.endswith('/..') or - os.path.islink(path)): - return os.path.realpath(path) + path.endswith('/..')): + path = cleanpath(path) return path def sort_unique(list, cmp=None, key=None, reverse=False): list.sort(cmp, key, reverse) nl = [] le = None for e in list: if e == le: continue + le = e nl.append(e) return nl def add_trims(x): return ['/' + x + '/', '/' + x, x + '/', x] class MetaFile: """class to parse meta files generated by bmake.""" conf = None dirdep_re = None host_target = None srctops = [] objroots = [] excludes = [] seen = {} obj_deps = [] src_deps = [] file_deps = [] def __init__(self, name, conf={}): """if name is set we will parse it now. conf can have the follwing keys: SRCTOPS list of tops of the src tree(s). CURDIR the src directory 'bmake' was run from. RELDIR the relative path from SRCTOP to CURDIR MACHINE the machine we built for. set to 'none' if we are not cross-building. More specifically if machine cannot be deduced from objdirs. TARGET_SPEC Sometimes MACHINE isn't enough. HOST_TARGET when we build for the pseudo machine 'host' the object tree uses HOST_TARGET rather than MACHINE. OBJROOTS a list of the common prefix for all obj dirs it might end in '/' or '-'. DPDEPS names an optional file to which per file dependencies will be appended. For example if 'some/path/foo.h' is read from SRCTOP then 'DPDEPS_some/path/foo.h +=' "RELDIR" is output. This can allow 'bmake' to learn all the dirs within the tree that depend on 'foo.h' EXCLUDES A list of paths to ignore. ccache(1) can otherwise be trouble. debug desired debug level debug_out open file to send debug output to (sys.stderr) """ self.name = name self.debug = getv(conf, 'debug', 0) self.debug_out = getv(conf, 'debug_out', sys.stderr) self.machine = getv(conf, 'MACHINE', '') self.machine_arch = getv(conf, 'MACHINE_ARCH', '') self.target_spec = getv(conf, 'TARGET_SPEC', '') self.curdir = getv(conf, 'CURDIR') self.reldir = getv(conf, 'RELDIR') self.dpdeps = getv(conf, 'DPDEPS') self.line = 0 if not self.conf: # some of the steps below we want to do only once self.conf = conf self.host_target = getv(conf, 'HOST_TARGET') for srctop in getv(conf, 'SRCTOPS', []): if srctop[-1] != '/': srctop += '/' if not srctop in self.srctops: self.srctops.append(srctop) _srctop = os.path.realpath(srctop) if _srctop[-1] != '/': _srctop += '/' if not _srctop in self.srctops: self.srctops.append(_srctop) trim_list = add_trims(self.machine) if self.machine == 'host': trim_list += add_trims(self.host_target) if self.target_spec: trim_list += add_trims(self.target_spec) for objroot in getv(conf, 'OBJROOTS', []): for e in trim_list: if objroot.endswith(e): # this is not what we want - fix it objroot = objroot[0:-len(e)] if objroot[-1] != '/': objroot += '/' if not objroot in self.objroots: self.objroots.append(objroot) _objroot = os.path.realpath(objroot) if objroot[-1] == '/': _objroot += '/' if not _objroot in self.objroots: self.objroots.append(_objroot) # we want the longest match self.srctops.sort(reverse=True) self.objroots.sort(reverse=True) self.excludes = getv(conf, 'EXCLUDES', []) if self.debug: print("host_target=", self.host_target, file=self.debug_out) print("srctops=", self.srctops, file=self.debug_out) print("objroots=", self.objroots, file=self.debug_out) print("excludes=", self.excludes, file=self.debug_out) self.dirdep_re = re.compile(r'([^/]+)/(.+)') if self.dpdeps and not self.reldir: if self.debug: print("need reldir:", end=' ', file=self.debug_out) if self.curdir: srctop = self.find_top(self.curdir, self.srctops) if srctop: self.reldir = self.curdir.replace(srctop,'') if self.debug: print(self.reldir, file=self.debug_out) if not self.reldir: self.dpdeps = None # we cannot do it? self.cwd = os.getcwd() # make sure this is initialized self.last_dir = self.cwd if name: self.try_parse() def reset(self): """reset state if we are being passed meta files from multiple directories.""" self.seen = {} self.obj_deps = [] self.src_deps = [] self.file_deps = [] def dirdeps(self, sep='\n'): """return DIRDEPS""" return sep.strip() + sep.join(self.obj_deps) def src_dirdeps(self, sep='\n'): """return SRC_DIRDEPS""" return sep.strip() + sep.join(self.src_deps) def file_depends(self, out=None): """Append DPDEPS_${file} += ${RELDIR} for each file we saw, to the output file.""" if not self.reldir: return None for f in sort_unique(self.file_deps): print('DPDEPS_%s += %s' % (f, self.reldir), file=out) # these entries provide for reverse DIRDEPS lookup for f in self.obj_deps: print('DEPDIRS_%s += %s' % (f, self.reldir), file=out) def seenit(self, dir): """rememer that we have seen dir.""" self.seen[dir] = 1 def add(self, list, data, clue=''): """add data to list if it isn't already there.""" if data not in list: list.append(data) if self.debug: print("%s: %sAdd: %s" % (self.name, clue, data), file=self.debug_out) def find_top(self, path, list): """the logical tree may be split across multiple trees""" for top in list: if path.startswith(top): if self.debug > 2: print("found in", top, file=self.debug_out) return top return None def find_obj(self, objroot, dir, path, input): """return path within objroot, taking care of .dirdep files""" ddep = None for ddepf in [path + '.dirdep', dir + '/.dirdep']: if not ddep and os.path.exists(ddepf): ddep = open(ddepf, 'r').readline().strip('# \n') if self.debug > 1: print("found %s: %s\n" % (ddepf, ddep), file=self.debug_out) if ddep.endswith(self.machine): ddep = ddep[0:-(1+len(self.machine))] elif self.target_spec and ddep.endswith(self.target_spec): ddep = ddep[0:-(1+len(self.target_spec))] if not ddep: # no .dirdeps, so remember that we've seen the raw input self.seenit(input) self.seenit(dir) if self.machine == 'none': if dir.startswith(objroot): return dir.replace(objroot,'') return None m = self.dirdep_re.match(dir.replace(objroot,'')) if m: ddep = m.group(2) dmachine = m.group(1) if dmachine != self.machine: if not (self.machine == 'host' and dmachine == self.host_target): if self.debug > 2: print("adding .%s to %s" % (dmachine, ddep), file=self.debug_out) ddep += '.' + dmachine return ddep def try_parse(self, name=None, file=None): """give file and line number causing exception""" try: self.parse(name, file) except: # give a useful clue print('{}:{}: '.format(self.name, self.line), end=' ', file=sys.stderr) raise def parse(self, name=None, file=None): """A meta file looks like: # Meta data file "path" CMD "command-line" CWD "cwd" TARGET "target" -- command output -- -- filemon acquired metadata -- # buildmon version 3 V 3 C "pid" "cwd" E "pid" "path" F "pid" "child" R "pid" "path" W "pid" "path" X "pid" "status" D "pid" "path" L "pid" "src" "target" M "pid" "old" "new" S "pid" "path" # Bye bye We go to some effort to avoid processing a dependency more than once. Of the above record types only C,E,F,L,R,V and W are of interest. """ version = 0 # unknown if name: self.name = name; if file: f = file cwd = self.last_dir = self.cwd else: f = open(self.name, 'r') skip = True pid_cwd = {} pid_last_dir = {} last_pid = 0 self.line = 0 if self.curdir: self.seenit(self.curdir) # we ignore this interesting = 'CEFLRV' for line in f: self.line += 1 # ignore anything we don't care about if not line[0] in interesting: continue if self.debug > 2: print("input:", line, end=' ', file=self.debug_out) w = line.split() if skip: if w[0] == 'V': skip = False version = int(w[1]) """ if version < 4: # we cannot ignore 'W' records # as they may be 'rw' interesting += 'W' """ elif w[0] == 'CWD': self.cwd = cwd = self.last_dir = w[1] self.seenit(cwd) # ignore this if self.debug: print("%s: CWD=%s" % (self.name, cwd), file=self.debug_out) continue pid = int(w[1]) if pid != last_pid: if last_pid: pid_last_dir[last_pid] = self.last_dir cwd = getv(pid_cwd, pid, self.cwd) self.last_dir = getv(pid_last_dir, pid, self.cwd) last_pid = pid # process operations if w[0] == 'F': npid = int(w[2]) pid_cwd[npid] = cwd pid_last_dir[npid] = cwd last_pid = npid continue elif w[0] == 'C': cwd = abspath(w[2], cwd, None, self.debug, self.debug_out) if cwd.endswith('/.'): cwd = cwd[0:-2] self.last_dir = pid_last_dir[pid] = cwd pid_cwd[pid] = cwd if self.debug > 1: print("cwd=", cwd, file=self.debug_out) continue if w[2] in self.seen: if self.debug > 2: print("seen:", w[2], file=self.debug_out) continue # file operations if w[0] in 'ML': # these are special, tread src as read and # target as write self.parse_path(w[1].strip("'"), cwd, 'R', w) self.parse_path(w[2].strip("'"), cwd, 'W', w) continue elif w[0] in 'ERWS': path = w[2] self.parse_path(path, cwd, w[0], w) if not file: f.close() def parse_path(self, path, cwd, op=None, w=[]): """look at a path for the op specified""" if not op: op = w[0] # we are never interested in .dirdep files as dependencies if path.endswith('.dirdep'): return for p in self.excludes: if p and path.startswith(p): if self.debug > 2: print("exclude:", p, path, file=self.debug_out) return # we don't want to resolve the last component if it is # a symlink path = resolve(path, cwd, self.last_dir, self.debug, self.debug_out) if not path: return dir,base = os.path.split(path) if dir in self.seen: if self.debug > 2: print("seen:", dir, file=self.debug_out) return # we can have a path in an objdir which is a link # to the src dir, we may need to add dependencies for each rdir = dir dir = abspath(dir, cwd, self.last_dir, self.debug, self.debug_out) if rdir == dir or rdir.find('./') > 0: rdir = None + if os.path.islink(dir): + rdir = os.path.realpath(dir) # now put path back together path = '/'.join([dir,base]) if self.debug > 1: print("raw=%s rdir=%s dir=%s path=%s" % (w[2], rdir, dir, path), file=self.debug_out) if op in 'RWS': if path in [self.last_dir, cwd, self.cwd, self.curdir]: if self.debug > 1: print("skipping:", path, file=self.debug_out) return if os.path.isdir(path): if op in 'RW': self.last_dir = path; if self.debug > 1: print("ldir=", self.last_dir, file=self.debug_out) return if op in 'ERW': # finally, we get down to it if dir == self.cwd or dir == self.curdir: return srctop = self.find_top(path, self.srctops) if srctop: if self.dpdeps: self.add(self.file_deps, path.replace(srctop,''), 'file') self.add(self.src_deps, dir.replace(srctop,''), 'src') self.seenit(w[2]) self.seenit(dir) if rdir and not rdir.startswith(srctop): dir = rdir # for below rdir = None else: return objroot = None for dir in [dir,rdir]: if not dir: continue objroot = self.find_top(dir, self.objroots) if objroot: break if objroot: ddep = self.find_obj(objroot, dir, path, w[2]) if ddep: self.add(self.obj_deps, ddep, 'obj') if self.dpdeps and objroot.endswith('/stage/'): sp = '/'.join(path.replace(objroot,'').split('/')[1:]) self.add(self.file_deps, sp, 'file') else: # don't waste time looking again self.seenit(w[2]) self.seenit(dir) def main(argv, klass=MetaFile, xopts='', xoptf=None): """Simple driver for class MetaFile. Usage: script [options] [key=value ...] "meta" ... Options and key=value pairs contribute to the dictionary passed to MetaFile. -S "SRCTOP" add "SRCTOP" to the "SRCTOPS" list. -C "CURDIR" -O "OBJROOT" add "OBJROOT" to the "OBJROOTS" list. -m "MACHINE" -a "MACHINE_ARCH" -H "HOST_TARGET" -D "DPDEPS" -d bumps debug level """ import getopt # import Psyco if we can # it can speed things up quite a bit have_psyco = 0 try: import psyco psyco.full() have_psyco = 1 except: pass conf = { 'SRCTOPS': [], 'OBJROOTS': [], 'EXCLUDES': [], } try: machine = os.environ['MACHINE'] if machine: conf['MACHINE'] = machine machine_arch = os.environ['MACHINE_ARCH'] if machine_arch: conf['MACHINE_ARCH'] = machine_arch srctop = os.environ['SB_SRC'] if srctop: conf['SRCTOPS'].append(srctop) objroot = os.environ['SB_OBJROOT'] if objroot: conf['OBJROOTS'].append(objroot) except: pass debug = 0 output = True opts, args = getopt.getopt(argv[1:], 'a:dS:C:O:R:m:D:H:qT:X:' + xopts) for o, a in opts: if o == '-a': conf['MACHINE_ARCH'] = a elif o == '-d': debug += 1 elif o == '-q': output = False elif o == '-H': conf['HOST_TARGET'] = a elif o == '-S': if a not in conf['SRCTOPS']: conf['SRCTOPS'].append(a) elif o == '-C': conf['CURDIR'] = a elif o == '-O': if a not in conf['OBJROOTS']: conf['OBJROOTS'].append(a) elif o == '-R': conf['RELDIR'] = a elif o == '-D': conf['DPDEPS'] = a elif o == '-m': conf['MACHINE'] = a elif o == '-T': conf['TARGET_SPEC'] = a elif o == '-X': if a not in conf['EXCLUDES']: conf['EXCLUDES'].append(a) elif xoptf: xoptf(o, a, conf) conf['debug'] = debug # get any var=val assignments eaten = [] for a in args: if a.find('=') > 0: k,v = a.split('=') if k in ['SRCTOP','OBJROOT','SRCTOPS','OBJROOTS']: if k == 'SRCTOP': k = 'SRCTOPS' elif k == 'OBJROOT': k = 'OBJROOTS' if v not in conf[k]: conf[k].append(v) else: conf[k] = v eaten.append(a) continue break for a in eaten: args.remove(a) debug_out = getv(conf, 'debug_out', sys.stderr) if debug: print("config:", file=debug_out) print("psyco=", have_psyco, file=debug_out) for k,v in list(conf.items()): print("%s=%s" % (k,v), file=debug_out) m = None for a in args: if a.endswith('.meta'): if not os.path.exists(a): continue m = klass(a, conf) elif a.startswith('@'): # there can actually multiple files per line for line in open(a[1:]): for f in line.strip().split(): if not os.path.exists(f): continue m = klass(f, conf) if output and m: print(m.dirdeps()) print(m.src_dirdeps('\nsrc:')) dpdeps = getv(conf, 'DPDEPS') if dpdeps: m.file_depends(open(dpdeps, 'wb')) return m if __name__ == '__main__': try: main(sys.argv) except: # yes, this goes to stdout print("ERROR: ", sys.exc_info()[1]) raise