freebsd-nq/share/mk/sys.mk

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# from: @(#)sys.mk 8.2 (Berkeley) 3/21/94
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# $FreeBSD$
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unix ?= We run FreeBSD, not UNIX.
.FreeBSD ?= true
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.if !defined(%POSIX)
#
# MACHINE_CPUARCH defines a collection of MACHINE_ARCH. Machines with
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# the same MACHINE_ARCH can run each other's binaries, so it necessarily
# has word size and endian swizzled in. However, support files for
# these machines often are shared amongst all combinations of size
# and/or endian. This is called MACHINE_CPU in NetBSD, but that's used
# for something different in FreeBSD.
#
MACHINE_CPUARCH=${MACHINE_ARCH:C/mips(n32|64)?(el)?/mips/:C/arm(v6)?(eb|hf)?/arm/:C/powerpc64/powerpc/:C/riscv64/riscv/}
.endif
# Some options we need now
__DEFAULT_NO_OPTIONS= \
DIRDEPS_BUILD \
DIRDEPS_CACHE
__DEFAULT_DEPENDENT_OPTIONS= \
AUTO_OBJ/DIRDEPS_BUILD \
META_MODE/DIRDEPS_BUILD \
STAGING/DIRDEPS_BUILD \
SYSROOT/DIRDEPS_BUILD
__ENV_ONLY_OPTIONS:= \
${__DEFAULT_NO_OPTIONS} \
${__DEFAULT_YES_OPTIONS} \
${__DEFAULT_DEPENDENT_OPTIONS:H}
# early include for customization
# see local.sys.mk below
# Not included when building in fmake compatibility mode (still needed
# for older system support)
.if defined(.PARSEDIR)
.sinclude <local.sys.env.mk>
.include <bsd.mkopt.mk>
# Disable MK_META_MODE with make -B
.if ${MK_META_MODE} == "yes" && defined(.MAKEFLAGS) && ${.MAKEFLAGS:M-B}
MK_META_MODE= no
.endif
.if ${MK_DIRDEPS_BUILD} == "yes"
.sinclude <meta.sys.mk>
.elif ${MK_META_MODE} == "yes"
# verbose will show .MAKE.META.PREFIX for each target.
META_MODE+= meta verbose
.if !defined(NO_META_MISSING)
META_MODE+= missing-meta=yes
.endif
# silent will hide command output if a .meta file is created.
.if !defined(NO_SILENT)
META_MODE+= silent=yes
.endif
.if !exists(/dev/filemon)
META_MODE+= nofilemon
.endif
# Require filemon data with bmake
.if empty(META_MODE:Mnofilemon)
META_MODE+= missing-filemon=yes
.endif
.endif
META_MODE?= normal
.export META_MODE
.MAKE.MODE?= ${META_MODE}
.if !empty(.MAKE.MODE:Mmeta) && !defined(NO_META_IGNORE_HOST)
# Ignore host file changes that will otherwise cause
# buildworld -> installworld -> buildworld to rebuild everything.
# Since the build is self-reliant and bootstraps everything it needs,
# this should not be a real problem for incremental builds.
# XXX: This relies on the existing host tools retaining ABI compatibility
# through upgrades since they won't be rebuilt on header/library changes.
# Note that these are prefix matching, so /lib matches /libexec.
.MAKE.META.IGNORE_PATHS+= \
${__MAKE_SHELL} \
/bin \
/lib \
/rescue \
/sbin \
/usr/bin \
/usr/include \
/usr/lib \
/usr/sbin \
/usr/share \
.endif
.if ${MK_AUTO_OBJ} == "yes"
# This needs to be done early - before .PATH is computed
# Don't do this for 'make showconfig' as it enables all options where meta mode
# is not expected.
.if !make(showconfig)
.sinclude <auto.obj.mk>
.endif
.endif
.else # bmake
.include <bsd.mkopt.mk>
.endif
# If the special target .POSIX appears (without prerequisites or
# commands) before the first noncomment line in the makefile, make shall
# process the makefile as specified by the Posix 1003.2 specification.
# make(1) sets the special macro %POSIX in this case (to the actual
# value "1003.2", for what it's worth).
#
# The rules below use this macro to distinguish between Posix-compliant
# and default behaviour.
#
# This functionality is currently broken, since make(1) processes sys.mk
# before reading any other files, and consequently has no opportunity to
# set the %POSIX macro before we read this point.
.if defined(%POSIX)
.SUFFIXES: .o .c .y .l .a .sh .f
.else
.SUFFIXES: .out .a .ln .o .c .cc .cpp .cxx .C .m .F .f .e .r .y .l .S .asm .s .cl .p .h .sh
.endif
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AR ?= ar
.if defined(%POSIX)
ARFLAGS ?= -rv
.else
ARFLAGS ?= -crD
.endif
RANLIB ?= ranlib
.if !defined(%POSIX)
RANLIBFLAGS ?= -D
.endif
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AS ?= as
AFLAGS ?=
ACFLAGS ?=
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.if defined(%POSIX)
CC ?= c89
CFLAGS ?= -O
.else
CC ?= cc
.if ${MACHINE_CPUARCH} == "arm" || ${MACHINE_CPUARCH} == "mips"
CFLAGS ?= -O -pipe
.else
CFLAGS ?= -O2 -pipe
.endif
.if defined(NO_STRICT_ALIASING)
CFLAGS += -fno-strict-aliasing
.endif
.endif
PO_CFLAGS ?= ${CFLAGS}
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# cp(1) is used to copy source files to ${.OBJDIR}, make sure it can handle
# read-only files as non-root by passing -f.
CP ?= cp -f
CPP ?= cpp
Add support for the Compact C Type (CTF) conversions throughout FreeBSD's system makefiles. Note that the CTF conversion defaults to off. We may choose to change this default later if DTrace proves popular and people are prepared to wear the compilation performance impact of compiling with debug symbols all the time. Setting NO_CTF in the make args or user environment turns off CTF conversion. Even if we choose to default CTF generation to on later, we still need NO_CTF so that the buildworld process can bootstrap the tools without needlessly generating CTF data for temporary tools. Setting WITH_CTF in the make args or user environment (and _NOT_ in /etc/make.conf) is the only way to enable CTF data conversion. Nore that this can't be implemented the same way that the WITH_ and WITHOUT_ stuff is implemented throughout the buildworld because the CTF conversion needs to work when building a simple object without a Makefile, using the default rules in sys.mk. Typing 'make test.o' with no makefile and just a source file test.c should work. Also, typing 'make WITH_CTF=1 test.o without a makefile and just a source file test.c should work and produce an object with a CTF elf section. Typing 'make WITH_CTF=1 CFLAGS=-g test.o' without a makefile and just a source file test.c should produce an object with both a CTF elf section and the debug elf sections. In the FreeBSD build where more .mk files are used than just sys.mk which is included my make by default, the use of DEBUG_FLAGS is the correct way to enable a debug build. The important thing to note here is that it is the DEBUG_FLAGS setting that prevents libraries and programs from being stripped on installation. So, for the addition of CTF data conversion, setting DEBUG_FLAGS to contain -g, without NO_CTF, will cause the ctfconvert and ctfmerge build programs to be executed also with the -g arg so that debug symbols are retained rather than being removed after the CTF data elf section has been added. Add DTrace libraries to the list of libnames.
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# C Type Format data is required for DTrace
CTFFLAGS ?= -L VERSION
CTFCONVERT ?= ctfconvert
CTFMERGE ?= ctfmerge
Add support for the Compact C Type (CTF) conversions throughout FreeBSD's system makefiles. Note that the CTF conversion defaults to off. We may choose to change this default later if DTrace proves popular and people are prepared to wear the compilation performance impact of compiling with debug symbols all the time. Setting NO_CTF in the make args or user environment turns off CTF conversion. Even if we choose to default CTF generation to on later, we still need NO_CTF so that the buildworld process can bootstrap the tools without needlessly generating CTF data for temporary tools. Setting WITH_CTF in the make args or user environment (and _NOT_ in /etc/make.conf) is the only way to enable CTF data conversion. Nore that this can't be implemented the same way that the WITH_ and WITHOUT_ stuff is implemented throughout the buildworld because the CTF conversion needs to work when building a simple object without a Makefile, using the default rules in sys.mk. Typing 'make test.o' with no makefile and just a source file test.c should work. Also, typing 'make WITH_CTF=1 test.o without a makefile and just a source file test.c should work and produce an object with a CTF elf section. Typing 'make WITH_CTF=1 CFLAGS=-g test.o' without a makefile and just a source file test.c should produce an object with both a CTF elf section and the debug elf sections. In the FreeBSD build where more .mk files are used than just sys.mk which is included my make by default, the use of DEBUG_FLAGS is the correct way to enable a debug build. The important thing to note here is that it is the DEBUG_FLAGS setting that prevents libraries and programs from being stripped on installation. So, for the addition of CTF data conversion, setting DEBUG_FLAGS to contain -g, without NO_CTF, will cause the ctfconvert and ctfmerge build programs to be executed also with the -g arg so that debug symbols are retained rather than being removed after the CTF data elf section has been added. Add DTrace libraries to the list of libnames.
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.if defined(CFLAGS) && (${CFLAGS:M-g} != "")
CTFFLAGS += -g
.endif
CXX ?= c++
CXXFLAGS ?= ${CFLAGS:N-std=*:N-Wnested-externs:N-W*-prototypes:N-Wno-pointer-sign:N-Wold-style-definition}
PO_CXXFLAGS ?= ${CXXFLAGS}
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DTRACE ?= dtrace
DTRACEFLAGS ?= -C -x nolibs
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.if empty(.MAKEFLAGS:M-s)
ECHO ?= echo
ECHODIR ?= echo
.else
ECHO ?= true
.if ${.MAKEFLAGS:M-s} == "-s"
ECHODIR ?= echo
.else
ECHODIR ?= true
.endif
.endif
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.if ${.MAKEFLAGS:M-N}
# bmake -N is supposed to skip executing anything but it does not skip
# exeucting '+' commands. The '+' feature is used where .MAKE
# is not safe for the entire target. -N is intended to skip building sub-makes
# so it executing '+' commands is not right. Work around the bug by not
# setting '+' when -N is used.
_+_ ?=
.else
_+_ ?= +
.endif
.if defined(%POSIX)
FC ?= fort77
FFLAGS ?= -O 1
.else
FC ?= f77
FFLAGS ?= -O
.endif
EFLAGS ?=
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INSTALL ?= install
LEX ?= lex
LFLAGS ?=
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LD ?= ld
LDFLAGS ?= # LDFLAGS is for CC,
_LDFLAGS = ${LDFLAGS:S/-Wl,//g} # strip -Wl, for LD
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LINT ?= lint
LINTFLAGS ?= -cghapbx
LINTKERNFLAGS ?= ${LINTFLAGS}
LINTOBJFLAGS ?= -cghapbxu -i
LINTOBJKERNFLAGS?= ${LINTOBJFLAGS}
LINTLIBFLAGS ?= -cghapbxu -C ${LIB}
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MAKE ?= make
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.if !defined(%POSIX)
NM ?= nm
NMFLAGS ?=
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OBJC ?= cc
OBJCFLAGS ?= ${OBJCINCLUDES} ${CFLAGS} -Wno-import
OBJCOPY ?= objcopy
OBJDUMP ?= objdump
PC ?= pc
PFLAGS ?=
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RC ?= f77
RFLAGS ?=
.endif
SHELL ?= sh
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.if !defined(%POSIX)
SIZE ?= size
.endif
YACC ?= yacc
.if defined(%POSIX)
YFLAGS ?=
.else
YFLAGS ?= -d
.endif
.if defined(%POSIX)
# Posix 1003.2 mandated rules
#
# Quoted directly from the Posix 1003.2 draft, only the macros
# $@, $< and $* have been replaced by ${.TARGET}, ${.IMPSRC}, and
# ${.PREFIX}, resp.
# SINGLE SUFFIX RULES
.c:
${CC} ${CFLAGS} ${LDFLAGS} -o ${.TARGET} ${.IMPSRC}
.f:
${FC} ${FFLAGS} ${LDFLAGS} -o ${.TARGET} ${.IMPSRC}
.sh:
cp -f ${.IMPSRC} ${.TARGET}
chmod a+x ${.TARGET}
# DOUBLE SUFFIX RULES
.c.o:
${CC} ${CFLAGS} -c ${.IMPSRC}
.f.o:
${FC} ${FFLAGS} -c ${.IMPSRC}
.y.o:
${YACC} ${YFLAGS} ${.IMPSRC}
${CC} ${CFLAGS} -c y.tab.c
rm -f y.tab.c
mv y.tab.o ${.TARGET}
.l.o:
${LEX} ${LFLAGS} ${.IMPSRC}
${CC} ${CFLAGS} -c lex.yy.c
rm -f lex.yy.c
mv lex.yy.o ${.TARGET}
.y.c:
${YACC} ${YFLAGS} ${.IMPSRC}
mv y.tab.c ${.TARGET}
.l.c:
${LEX} ${LFLAGS} ${.IMPSRC}
mv lex.yy.c ${.TARGET}
.c.a:
${CC} ${CFLAGS} -c ${.IMPSRC}
${AR} ${ARFLAGS} ${.TARGET} ${.PREFIX}.o
rm -f ${.PREFIX}.o
.f.a:
${FC} ${FFLAGS} -c ${.IMPSRC}
${AR} ${ARFLAGS} ${.TARGET} ${.PREFIX}.o
rm -f ${.PREFIX}.o
.else
# non-Posix rule set
.sh:
cp -f ${.IMPSRC} ${.TARGET}
chmod a+x ${.TARGET}
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.c.ln:
${LINT} ${LINTOBJFLAGS} ${CFLAGS:M-[DIU]*} ${.IMPSRC} || \
touch ${.TARGET}
.cc.ln .C.ln .cpp.ln .cxx.ln:
${LINT} ${LINTOBJFLAGS} ${CXXFLAGS:M-[DIU]*} ${.IMPSRC} || \
touch ${.TARGET}
.c:
${CC} ${CFLAGS} ${LDFLAGS} ${.IMPSRC} ${LDLIBS} -o ${.TARGET}
${CTFCONVERT_CMD}
.c.o:
${CC} ${CFLAGS} -c ${.IMPSRC} -o ${.TARGET}
${CTFCONVERT_CMD}
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.cc .cpp .cxx .C:
${CXX} ${CXXFLAGS} ${LDFLAGS} ${.IMPSRC} ${LDLIBS} -o ${.TARGET}
.cc.o .cpp.o .cxx.o .C.o:
${CXX} ${CXXFLAGS} -c ${.IMPSRC} -o ${.TARGET}
.m.o:
${OBJC} ${OBJCFLAGS} -c ${.IMPSRC} -o ${.TARGET}
${CTFCONVERT_CMD}
.p.o:
${PC} ${PFLAGS} -c ${.IMPSRC} -o ${.TARGET}
${CTFCONVERT_CMD}
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.e .r .F .f:
${FC} ${RFLAGS} ${EFLAGS} ${FFLAGS} ${LDFLAGS} ${.IMPSRC} ${LDLIBS} \
-o ${.TARGET}
.e.o .r.o .F.o .f.o:
${FC} ${RFLAGS} ${EFLAGS} ${FFLAGS} -c ${.IMPSRC} -o ${.TARGET}
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.S.o:
Add built-in ccache build support via WITH_CCACHE_BUILD option. ccache is mostly beneficial for frequent builds where -DNO_CLEAN is not used to achieve a safe pseudo-incremental build. This is explained in more detail upstream [1] [2]. It incurs about a 20%-28% hit to populate the cache, but with a full cache saves 30-50% in build times. When combined with the WITH_FAST_DEPEND feature it saves up to 65% since ccache does cache the resulting dependency file, which it does not do when using mkdep(1)/'CC -E'. Stats are provided at the end of this message. This removes the need to modify /etc/make.conf with the CC:= and CXX:= lines which conflicted with external compiler support [3] (causing the bootstrap compiler to not be built which lead to obscure failures [4]), incorrectly invoked ccache in various stages, required CCACHE_CPP2 to avoid Clang errors with parenthesis, and did not work with META_MODE. The option name was picked to match the existing option in ports. This feature is available for both in-src and out-of-src builds that use /usr/share/mk. Linking, assembly compiles, and pre-processing avoid using ccache since it is only overhead. ccache does nothing special in these modes, although there is no harm in calling it for them. CCACHE_COMPILERCHECK is set to 'content' when using the in-tree bootstrap compiler to hash the content of the compiler binary to determine if it should be a cache miss. For external compilers the 'mtime' option is used as it is more efficient and likely to be correct. Future work may optimize the 'content' check using the same checks as whether a bootstrap compiler is needed to be built. The CCACHE_CPP2 pessimization is currently default in our devel/ccache port due to Clang requiring it. Clang's -Wparentheses-equality, -Wtautological-compare, and -Wself-assign warnings do not mix well with compiling already-pre-processed code that may have expanded macros that trigger the warnings. GCC has so far not had this issue so it is allowed to disable the CCACHE_CPP2 default in our port. Sharing a cache between multiple checkouts, or systems, is explained in the ccache manual. Sharing a cache over NFS would likely not be worth it, but syncing cache directories between systems may be useful for an organization. There is also a memcached backend available [5]. Due to using an object directory outside of the source directory though you will need to ensure that both are in the same prefix and all users use the same layout. A possible working layout is as follows: Source: /some/prefix/src1 Source: /some/prefix/src2 Source: /some/prefix/src3 Objdir: /some/prefix/obj Environment: CCACHE_BASEDIR='${SRCTOP:H}' MAKEOBJDIRPREFIX='${SRCTOP:H}/obj' This will use src*/../obj as the MAKEOBJDIRPREFIX and tells ccache to replace all absolute paths to be relative. Using something like this is required due to -I and -o flags containing both SRC and OBJDIR absolute paths that ccache adds into its hash for the object without CCACHE_BASEDIR. distcc can be hooked into by setting CCACHE_PREFIX=/usr/local/bin/distcc. I have not personally tested this and assume it will not mix well with using the bootstrap compiler. The cache from buildworld can be reused in a subdir by first running 'make buildenv' (from r290424). Note that the cache is currently different depending on whether -j is used or not due to ccache enabling -fdiagnostics-color automatically if stderr is a TTY, which bmake only does if not using -j. The system I used for testing was: WITNESS Build options: -j20 WITH_LLDB=yes WITH_DEBUG_FILES=yes WITH_CCACHE_BUILD=yes DISK: ZFS 3-way mirror with very slow disks using SSD l2arc/log. The arc was fully populated with src tree files and ccache objects. RAM: 76GiB CPU: Intel(R) Xeon(R) CPU L5520 @2.27GHz 2 package(s) x 4 core(s) x 2 SMT threads = hw.ncpu=16 The WITH_FAST_DEPEND feature was used for comparison here as well to show the dramatic time savings with a full cache. buildworld: x buildworld-before + buildworld-ccache-empty * buildworld-ccache-full % buildworld-ccache-full-fastdep # buildworld-fastdep +-------------------------------------------------------------------------------+ |% * # +| |% * # +| |% * # xxx +| | |A | | A| | A | |A | | A | +-------------------------------------------------------------------------------+ N Min Max Median Avg Stddev x 3 3744.13 3794.31 3752.25 3763.5633 26.935139 + 3 4519 4525.04 4520.73 4521.59 3.1104823 Difference at 95.0% confidence 758.027 +/- 43.4565 20.1412% +/- 1.15466% (Student's t, pooled s = 19.1726) * 3 1823.08 1827.2 1825.62 1825.3 2.0785572 Difference at 95.0% confidence -1938.26 +/- 43.298 -51.5007% +/- 1.15045% (Student's t, pooled s = 19.1026) % 3 1266.96 1279.37 1270.47 1272.2667 6.3971113 Difference at 95.0% confidence -2491.3 +/- 44.3704 -66.1952% +/- 1.17895% (Student's t, pooled s = 19.5758) # 3 3153.34 3155.16 3154.2 3154.2333 0.91045776 Difference at 95.0% confidence -609.33 +/- 43.1943 -16.1902% +/- 1.1477% (Student's t, pooled s = 19.0569) buildkernel: x buildkernel-before + buildkernel-ccache-empty * buildkernel-ccache-empty-fastdep % buildkernel-ccache-full # buildkernel-ccache-full-fastdep @ buildkernel-fastdep +-------------------------------------------------------------------------------+ |# @ % * | |# @ % * x + | |# @ % * xx ++| | MA | | MA| | A | | A | |A | | A | +-------------------------------------------------------------------------------+ N Min Max Median Avg Stddev x 3 571.57 573.94 571.79 572.43333 1.3094401 + 3 727.97 731.91 728.06 729.31333 2.2492295 Difference at 95.0% confidence 156.88 +/- 4.17129 27.4058% +/- 0.728695% (Student's t, pooled s = 1.84034) * 3 527.1 528.29 528.08 527.82333 0.63516402 Difference at 95.0% confidence -44.61 +/- 2.33254 -7.79305% +/- 0.407478% (Student's t, pooled s = 1.02909) % 3 400.4 401.05 400.62 400.69 0.3306055 Difference at 95.0% confidence -171.743 +/- 2.16453 -30.0023% +/- 0.378128% (Student's t, pooled s = 0.954969) # 3 201.94 203.34 202.28 202.52 0.73020545 Difference at 95.0% confidence -369.913 +/- 2.40293 -64.6212% +/- 0.419774% (Student's t, pooled s = 1.06015) @ 3 369.12 370.57 369.3 369.66333 0.79033748 Difference at 95.0% confidence -202.77 +/- 2.45131 -35.4225% +/- 0.428227% (Student's t, pooled s = 1.0815) [1] https://ccache.samba.org/performance.html [2] http://www.mail-archive.com/ccache@lists.samba.org/msg00576.html [3] https://reviews.freebsd.org/D3484 [5] https://github.com/jrosdahl/ccache/pull/30 PR: 182944 [4] MFC after: 3 weeks Sponsored by: EMC / Isilon Storage Division Relnotes: yes
2015-11-08 00:50:18 +00:00
${CC:N${CCACHE_BIN}} ${CFLAGS} ${ACFLAGS} -c ${.IMPSRC} -o ${.TARGET}
${CTFCONVERT_CMD}
.asm.o:
Add built-in ccache build support via WITH_CCACHE_BUILD option. ccache is mostly beneficial for frequent builds where -DNO_CLEAN is not used to achieve a safe pseudo-incremental build. This is explained in more detail upstream [1] [2]. It incurs about a 20%-28% hit to populate the cache, but with a full cache saves 30-50% in build times. When combined with the WITH_FAST_DEPEND feature it saves up to 65% since ccache does cache the resulting dependency file, which it does not do when using mkdep(1)/'CC -E'. Stats are provided at the end of this message. This removes the need to modify /etc/make.conf with the CC:= and CXX:= lines which conflicted with external compiler support [3] (causing the bootstrap compiler to not be built which lead to obscure failures [4]), incorrectly invoked ccache in various stages, required CCACHE_CPP2 to avoid Clang errors with parenthesis, and did not work with META_MODE. The option name was picked to match the existing option in ports. This feature is available for both in-src and out-of-src builds that use /usr/share/mk. Linking, assembly compiles, and pre-processing avoid using ccache since it is only overhead. ccache does nothing special in these modes, although there is no harm in calling it for them. CCACHE_COMPILERCHECK is set to 'content' when using the in-tree bootstrap compiler to hash the content of the compiler binary to determine if it should be a cache miss. For external compilers the 'mtime' option is used as it is more efficient and likely to be correct. Future work may optimize the 'content' check using the same checks as whether a bootstrap compiler is needed to be built. The CCACHE_CPP2 pessimization is currently default in our devel/ccache port due to Clang requiring it. Clang's -Wparentheses-equality, -Wtautological-compare, and -Wself-assign warnings do not mix well with compiling already-pre-processed code that may have expanded macros that trigger the warnings. GCC has so far not had this issue so it is allowed to disable the CCACHE_CPP2 default in our port. Sharing a cache between multiple checkouts, or systems, is explained in the ccache manual. Sharing a cache over NFS would likely not be worth it, but syncing cache directories between systems may be useful for an organization. There is also a memcached backend available [5]. Due to using an object directory outside of the source directory though you will need to ensure that both are in the same prefix and all users use the same layout. A possible working layout is as follows: Source: /some/prefix/src1 Source: /some/prefix/src2 Source: /some/prefix/src3 Objdir: /some/prefix/obj Environment: CCACHE_BASEDIR='${SRCTOP:H}' MAKEOBJDIRPREFIX='${SRCTOP:H}/obj' This will use src*/../obj as the MAKEOBJDIRPREFIX and tells ccache to replace all absolute paths to be relative. Using something like this is required due to -I and -o flags containing both SRC and OBJDIR absolute paths that ccache adds into its hash for the object without CCACHE_BASEDIR. distcc can be hooked into by setting CCACHE_PREFIX=/usr/local/bin/distcc. I have not personally tested this and assume it will not mix well with using the bootstrap compiler. The cache from buildworld can be reused in a subdir by first running 'make buildenv' (from r290424). Note that the cache is currently different depending on whether -j is used or not due to ccache enabling -fdiagnostics-color automatically if stderr is a TTY, which bmake only does if not using -j. The system I used for testing was: WITNESS Build options: -j20 WITH_LLDB=yes WITH_DEBUG_FILES=yes WITH_CCACHE_BUILD=yes DISK: ZFS 3-way mirror with very slow disks using SSD l2arc/log. The arc was fully populated with src tree files and ccache objects. RAM: 76GiB CPU: Intel(R) Xeon(R) CPU L5520 @2.27GHz 2 package(s) x 4 core(s) x 2 SMT threads = hw.ncpu=16 The WITH_FAST_DEPEND feature was used for comparison here as well to show the dramatic time savings with a full cache. buildworld: x buildworld-before + buildworld-ccache-empty * buildworld-ccache-full % buildworld-ccache-full-fastdep # buildworld-fastdep +-------------------------------------------------------------------------------+ |% * # +| |% * # +| |% * # xxx +| | |A | | A| | A | |A | | A | +-------------------------------------------------------------------------------+ N Min Max Median Avg Stddev x 3 3744.13 3794.31 3752.25 3763.5633 26.935139 + 3 4519 4525.04 4520.73 4521.59 3.1104823 Difference at 95.0% confidence 758.027 +/- 43.4565 20.1412% +/- 1.15466% (Student's t, pooled s = 19.1726) * 3 1823.08 1827.2 1825.62 1825.3 2.0785572 Difference at 95.0% confidence -1938.26 +/- 43.298 -51.5007% +/- 1.15045% (Student's t, pooled s = 19.1026) % 3 1266.96 1279.37 1270.47 1272.2667 6.3971113 Difference at 95.0% confidence -2491.3 +/- 44.3704 -66.1952% +/- 1.17895% (Student's t, pooled s = 19.5758) # 3 3153.34 3155.16 3154.2 3154.2333 0.91045776 Difference at 95.0% confidence -609.33 +/- 43.1943 -16.1902% +/- 1.1477% (Student's t, pooled s = 19.0569) buildkernel: x buildkernel-before + buildkernel-ccache-empty * buildkernel-ccache-empty-fastdep % buildkernel-ccache-full # buildkernel-ccache-full-fastdep @ buildkernel-fastdep +-------------------------------------------------------------------------------+ |# @ % * | |# @ % * x + | |# @ % * xx ++| | MA | | MA| | A | | A | |A | | A | +-------------------------------------------------------------------------------+ N Min Max Median Avg Stddev x 3 571.57 573.94 571.79 572.43333 1.3094401 + 3 727.97 731.91 728.06 729.31333 2.2492295 Difference at 95.0% confidence 156.88 +/- 4.17129 27.4058% +/- 0.728695% (Student's t, pooled s = 1.84034) * 3 527.1 528.29 528.08 527.82333 0.63516402 Difference at 95.0% confidence -44.61 +/- 2.33254 -7.79305% +/- 0.407478% (Student's t, pooled s = 1.02909) % 3 400.4 401.05 400.62 400.69 0.3306055 Difference at 95.0% confidence -171.743 +/- 2.16453 -30.0023% +/- 0.378128% (Student's t, pooled s = 0.954969) # 3 201.94 203.34 202.28 202.52 0.73020545 Difference at 95.0% confidence -369.913 +/- 2.40293 -64.6212% +/- 0.419774% (Student's t, pooled s = 1.06015) @ 3 369.12 370.57 369.3 369.66333 0.79033748 Difference at 95.0% confidence -202.77 +/- 2.45131 -35.4225% +/- 0.428227% (Student's t, pooled s = 1.0815) [1] https://ccache.samba.org/performance.html [2] http://www.mail-archive.com/ccache@lists.samba.org/msg00576.html [3] https://reviews.freebsd.org/D3484 [5] https://github.com/jrosdahl/ccache/pull/30 PR: 182944 [4] MFC after: 3 weeks Sponsored by: EMC / Isilon Storage Division Relnotes: yes
2015-11-08 00:50:18 +00:00
${CC:N${CCACHE_BIN}} -x assembler-with-cpp ${CFLAGS} ${ACFLAGS} -c ${.IMPSRC} \
-o ${.TARGET}
${CTFCONVERT_CMD}
.s.o:
${AS} ${AFLAGS} -o ${.TARGET} ${.IMPSRC}
${CTFCONVERT_CMD}
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# XXX not -j safe
.y.o:
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${YACC} ${YFLAGS} ${.IMPSRC}
${CC} ${CFLAGS} -c y.tab.c -o ${.TARGET}
rm -f y.tab.c
${CTFCONVERT_CMD}
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.l.o:
${LEX} -t ${LFLAGS} ${.IMPSRC} > ${.PREFIX}.tmp.c
${CC} ${CFLAGS} -c ${.PREFIX}.tmp.c -o ${.TARGET}
rm -f ${.PREFIX}.tmp.c
${CTFCONVERT_CMD}
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# XXX not -j safe
.y.c:
${YACC} ${YFLAGS} ${.IMPSRC}
mv y.tab.c ${.TARGET}
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.l.c:
${LEX} -t ${LFLAGS} ${.IMPSRC} > ${.TARGET}
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.s.out .c.out .o.out:
${CC} ${CFLAGS} ${LDFLAGS} ${.IMPSRC} ${LDLIBS} -o ${.TARGET}
${CTFCONVERT_CMD}
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.f.out .F.out .r.out .e.out:
${FC} ${EFLAGS} ${RFLAGS} ${FFLAGS} ${LDFLAGS} ${.IMPSRC} \
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${LDLIBS} -o ${.TARGET}
rm -f ${.PREFIX}.o
${CTFCONVERT_CMD}
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# XXX not -j safe
.y.out:
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${YACC} ${YFLAGS} ${.IMPSRC}
${CC} ${CFLAGS} ${LDFLAGS} y.tab.c ${LDLIBS} -ly -o ${.TARGET}
rm -f y.tab.c
${CTFCONVERT_CMD}
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.l.out:
${LEX} -t ${LFLAGS} ${.IMPSRC} > ${.PREFIX}.tmp.c
${CC} ${CFLAGS} ${LDFLAGS} ${.PREFIX}.tmp.c ${LDLIBS} -ll -o ${.TARGET}
rm -f ${.PREFIX}.tmp.c
${CTFCONVERT_CMD}
# Pull in global settings.
__MAKE_CONF?=/etc/make.conf
.if exists(${__MAKE_CONF})
.include "${__MAKE_CONF}"
.endif
# late include for customization
.sinclude <local.sys.mk>
.if defined(META_MODE)
META_MODE:= ${META_MODE:O:u}
.endif
.if defined(__MAKE_SHELL) && !empty(__MAKE_SHELL)
SHELL= ${__MAKE_SHELL}
.SHELL: path=${__MAKE_SHELL}
.endif
# Tell bmake to expand -V VAR by default
.MAKE.EXPAND_VARIABLES= yes
# Tell bmake the makefile preference
.MAKE.MAKEFILE_PREFERENCE= BSDmakefile makefile Makefile
# Tell bmake to always pass job tokens, regardless of target depending on
# .MAKE or looking like ${MAKE}/${.MAKE}/$(MAKE)/$(.MAKE)/make.
.MAKE.ALWAYS_PASS_JOB_QUEUE= yes
# By default bmake does *not* use set -e
# when running target scripts, this is a problem for many makefiles here.
# So define a shell that will do what FreeBSD expects.
.ifndef WITHOUT_SHELL_ERRCTL
__MAKE_SHELL?=/bin/sh
.SHELL: name=sh \
quiet="set -" echo="set -v" filter="set -" \
hasErrCtl=yes check="set -e" ignore="set +e" \
echoFlag=v errFlag=e \
path=${__MAKE_SHELL}
.endif
# Hack for ports compatibility. Historically, ports makefiles have
# assumed they can examine MACHINE_CPU without including anything
# because this was automatically included in sys.mk. For /usr/src,
# this file has moved to being included from bsd.opts.mk. Until all
# the ports files are modernized, and a reasonable transition
# period has passed, include it while we're in a ports tree here
# to preserve historic behavior.
.if exists(${.CURDIR}/../../Mk/bsd.port.mk)
.include <bsd.cpu.mk>
.endif
.endif # ! Posix