gecko-dev/config/rules.mk
Nathan Froyd 0839a1bd24 Bug 1542746 - remove code for frontend-based PGO instrumentation; r=dmajor
We're moving to IR-level PGO instrumentation for clang-cl.  We've also
moved to using static linker ordering files, which was the primary
application of the previous style of PGO instrumentation.  We therefore
we no longer need this code.

Differential Revision: https://phabricator.services.mozilla.com/D31134

--HG--
extra : moz-landing-system : lando
2019-05-24 20:00:38 +00:00

1337 lines
44 KiB
Makefile

# -*- makefile -*-
# vim:set ts=8 sw=8 sts=8 noet:
#
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this file,
# You can obtain one at http://mozilla.org/MPL/2.0/.
#
ifndef topsrcdir
$(error topsrcdir was not set))
endif
# Define an include-at-most-once flag
ifdef INCLUDED_RULES_MK
$(error Do not include rules.mk twice!)
endif
INCLUDED_RULES_MK = 1
ifndef INCLUDED_CONFIG_MK
include $(topsrcdir)/config/config.mk
endif
ifndef INCLUDED_VERSION_MK
include $(MOZILLA_DIR)/config/version.mk
endif
USE_AUTOTARGETS_MK = 1
include $(MOZILLA_DIR)/config/makefiles/makeutils.mk
ifdef REBUILD_CHECK
REPORT_BUILD = $(info $(shell $(PYTHON) $(MOZILLA_DIR)/config/rebuild_check.py $@ $^))
REPORT_BUILD_VERBOSE = $(REPORT_BUILD)
else
REPORT_BUILD = $(info $(relativesrcdir)/$(notdir $@))
ifdef BUILD_VERBOSE_LOG
REPORT_BUILD_VERBOSE = $(REPORT_BUILD)
else
REPORT_BUILD_VERBOSE = $(call BUILDSTATUS,BUILD_VERBOSE $(relativesrcdir))
endif
endif
EXEC = exec
# ELOG prints out failed command when building silently (gmake -s). Pymake
# prints out failed commands anyway, so ELOG just makes things worse by
# forcing shell invocations.
ifneq (,$(findstring -s, $(filter-out --%, $(MAKEFLAGS))))
ELOG := $(EXEC) sh $(MOZILLA_DIR)/build/unix/print-failed-commands.sh
else
ELOG :=
endif # -s
_VPATH_SRCS = $(abspath $<)
################################################################################
# Testing frameworks support
################################################################################
testxpcobjdir = $(DEPTH)/_tests/xpcshell
ifdef ENABLE_TESTS
ifdef CPP_UNIT_TESTS
ifdef COMPILE_ENVIRONMENT
# Compile the tests to $(DIST)/bin. Make lots of niceties available by default
# through TestHarness.h, by modifying the list of includes and the libs against
# which stuff links.
SIMPLE_PROGRAMS += $(CPP_UNIT_TESTS)
ifndef MOZ_PROFILE_GENERATE
CPP_UNIT_TESTS_FILES = $(CPP_UNIT_TESTS)
CPP_UNIT_TESTS_DEST = $(DIST)/cppunittests
CPP_UNIT_TESTS_TARGET = target
INSTALL_TARGETS += CPP_UNIT_TESTS
endif
run-cppunittests::
@$(PYTHON) $(MOZILLA_DIR)/testing/runcppunittests.py --xre-path=$(DIST)/bin --symbols-path=$(DIST)/crashreporter-symbols $(CPP_UNIT_TESTS)
cppunittests-remote:
$(PYTHON) -u $(MOZILLA_DIR)/testing/remotecppunittests.py \
--xre-path=$(DEPTH)/dist/bin \
--localLib=$(DEPTH)/dist/$(MOZ_APP_NAME) \
--deviceIP=${TEST_DEVICE} \
$(CPP_UNIT_TESTS) $(EXTRA_TEST_ARGS); \
endif # COMPILE_ENVIRONMENT
endif # CPP_UNIT_TESTS
endif # ENABLE_TESTS
#
# Library rules
#
# If FORCE_STATIC_LIB is set, build a static library.
# Otherwise, build a shared library.
#
ifndef LIBRARY
ifdef REAL_LIBRARY
ifdef NO_EXPAND_LIBS
# Only build actual library if it is requested.
LIBRARY := $(REAL_LIBRARY)
endif
endif
endif
ifdef FORCE_SHARED_LIB
ifdef MKSHLIB
ifdef LIB_IS_C_ONLY
MKSHLIB = $(MKCSHLIB)
endif
EMBED_MANIFEST_AT=2
endif # MKSHLIB
endif # FORCE_SHARED_LIB
ifeq ($(OS_ARCH),WINNT)
#
# This next line captures both the default (non-MOZ_COPY_PDBS)
# case as well as the MOZ_COPY_PDBS-for-mingwclang case.
#
# For the default case, placing the pdb in the build
# directory is needed.
#
# For the MOZ_COPY_PDBS, non-mingwclang case - we need to
# build the pdb next to the executable (handled in the if
# statement immediately below.)
#
# For the MOZ_COPY_PDBS, mingwclang case - we also need to
# build the pdb next to the executable, but this macro doesn't
# work for jsapi-tests which is a little special, so we specify
# the output directory below with MOZ_PROGRAM_LDFLAGS.
#
LINK_PDBFILE ?= $(basename $(@F)).pdb
ifdef MOZ_COPY_PDBS
ifneq ($(CC_TYPE),clang)
LINK_PDBFILE = $(basename $@).pdb
endif
endif
ifndef GNU_CC
ifdef SIMPLE_PROGRAMS
COMPILE_PDB_FLAG ?= -Fd$(basename $(@F)).pdb
COMPILE_CFLAGS += $(COMPILE_PDB_FLAG)
COMPILE_CXXFLAGS += $(COMPILE_PDB_FLAG)
endif
ifdef MOZ_DEBUG
CODFILE=$(basename $(@F)).cod
endif
endif # !GNU_CC
endif # WINNT
ifeq (arm-Darwin,$(CPU_ARCH)-$(OS_TARGET))
ifdef PROGRAM
MOZ_PROGRAM_LDFLAGS += -Wl,-rpath -Wl,@executable_path/Frameworks
endif
endif
ifeq ($(OS_ARCH),WINNT)
ifeq ($(CC_TYPE),clang)
MOZ_PROGRAM_LDFLAGS += -Wl,-pdb,$(dir $@)/$(LINK_PDBFILE)
endif
endif
ifeq ($(HOST_OS_ARCH),WINNT)
HOST_PDBFILE=$(basename $(@F)).pdb
HOST_PDB_FLAG ?= -Fd$(HOST_PDBFILE)
HOST_C_LDFLAGS += $(HOST_PDB_FLAG)
HOST_CXX_LDFLAGS += $(HOST_PDB_FLAG)
endif
# Don't build SIMPLE_PROGRAMS during the MOZ_PROFILE_GENERATE pass, and do not
# attempt to install them
ifdef MOZ_PROFILE_GENERATE
$(foreach category,$(INSTALL_TARGETS),\
$(eval $(category)_FILES := $(foreach file,$($(category)_FILES),$(if $(filter $(SIMPLE_PROGRAMS),$(notdir $(file))),,$(file)))))
SIMPLE_PROGRAMS :=
endif
ifdef COMPILE_ENVIRONMENT
ifndef TARGETS
TARGETS = $(LIBRARY) $(SHARED_LIBRARY) $(PROGRAM) $(SIMPLE_PROGRAMS) $(HOST_PROGRAM) $(HOST_SIMPLE_PROGRAMS) $(HOST_SHARED_LIBRARY)
endif
COBJS = $(notdir $(CSRCS:.c=.$(OBJ_SUFFIX)))
SOBJS = $(notdir $(SSRCS:.S=.$(OBJ_SUFFIX)))
# CPPSRCS can have different extensions (eg: .cpp, .cc)
CPPOBJS = $(notdir $(addsuffix .$(OBJ_SUFFIX),$(basename $(CPPSRCS))))
CMOBJS = $(notdir $(CMSRCS:.m=.$(OBJ_SUFFIX)))
CMMOBJS = $(notdir $(CMMSRCS:.mm=.$(OBJ_SUFFIX)))
# ASFILES can have different extensions (.s, .asm)
ASOBJS = $(notdir $(addsuffix .$(OBJ_SUFFIX),$(basename $(ASFILES))))
RS_STATICLIB_CRATE_OBJ = $(addprefix lib,$(notdir $(RS_STATICLIB_CRATE_SRC:.rs=.$(LIB_SUFFIX))))
ifndef OBJS
_OBJS = $(COBJS) $(SOBJS) $(CPPOBJS) $(CMOBJS) $(CMMOBJS) $(ASOBJS)
OBJS = $(strip $(_OBJS))
endif
HOST_COBJS = $(addprefix host_,$(notdir $(HOST_CSRCS:.c=.$(_OBJ_SUFFIX))))
# HOST_CPPOBJS can have different extensions (eg: .cpp, .cc)
HOST_CPPOBJS = $(addprefix host_,$(notdir $(addsuffix .$(_OBJ_SUFFIX),$(basename $(HOST_CPPSRCS)))))
HOST_CMOBJS = $(addprefix host_,$(notdir $(HOST_CMSRCS:.m=.$(_OBJ_SUFFIX))))
HOST_CMMOBJS = $(addprefix host_,$(notdir $(HOST_CMMSRCS:.mm=.$(_OBJ_SUFFIX))))
ifndef HOST_OBJS
_HOST_OBJS = $(HOST_COBJS) $(HOST_CPPOBJS) $(HOST_CMOBJS) $(HOST_CMMOBJS)
HOST_OBJS = $(strip $(_HOST_OBJS))
endif
else
LIBRARY :=
SHARED_LIBRARY :=
IMPORT_LIBRARY :=
REAL_LIBRARY :=
PROGRAM :=
SIMPLE_PROGRAMS :=
HOST_SHARED_LIBRARY :=
HOST_PROGRAM :=
HOST_SIMPLE_PROGRAMS :=
endif
ALL_TRASH = \
$(GARBAGE) $(TARGETS) $(OBJS) $(PROGOBJS) LOGS TAGS a.out \
$(filter-out $(ASFILES),$(OBJS:.$(OBJ_SUFFIX)=.s)) $(OBJS:.$(OBJ_SUFFIX)=.ii) \
$(OBJS:.$(OBJ_SUFFIX)=.i) $(OBJS:.$(OBJ_SUFFIX)=.i_o) \
$(HOST_PROGOBJS) $(HOST_OBJS) $(IMPORT_LIBRARY) \
so_locations _gen _stubs $(wildcard *.res) $(wildcard *.RES) \
$(wildcard *.pdb) $(CODFILE) $(IMPORT_LIBRARY) \
$(SHARED_LIBRARY:$(DLL_SUFFIX)=.exp) $(wildcard *.ilk) \
$(PROGRAM:$(BIN_SUFFIX)=.exp) $(SIMPLE_PROGRAMS:$(BIN_SUFFIX)=.exp) \
$(PROGRAM:$(BIN_SUFFIX)=.lib) $(SIMPLE_PROGRAMS:$(BIN_SUFFIX)=.lib) \
$(SIMPLE_PROGRAMS:$(BIN_SUFFIX)=.$(OBJ_SUFFIX)) \
$(wildcard gts_tmp_*) $(LIBRARY:%.a=.%.timestamp)
ALL_TRASH_DIRS = \
$(GARBAGE_DIRS) /no-such-file
ifdef QTDIR
GARBAGE += $(MOCSRCS)
endif
ifdef SIMPLE_PROGRAMS
GARBAGE += $(SIMPLE_PROGRAMS:%=%.$(OBJ_SUFFIX))
endif
ifdef HOST_SIMPLE_PROGRAMS
GARBAGE += $(HOST_SIMPLE_PROGRAMS:%=%.$(_OBJ_SUFFIX))
endif
ifdef MACH
ifndef NO_BUILDSTATUS_MESSAGES
define BUILDSTATUS
@echo 'BUILDSTATUS $1'
endef
endif
endif
define SUBMAKE # $(call SUBMAKE,target,directory,static)
+@$(MAKE) $(if $(2),-C $(2)) $(1)
endef # The extra line is important here! don't delete it
define TIER_DIR_SUBMAKE
$(call SUBMAKE,$(4),$(3),$(5))
endef # Ths empty line is important.
ifneq (,$(strip $(DIRS)))
LOOP_OVER_DIRS = \
$(foreach dir,$(DIRS),$(call SUBMAKE,$@,$(dir)))
endif
#
# Now we can differentiate between objects used to build a library, and
# objects used to build an executable in the same directory.
#
ifndef PROGOBJS
PROGOBJS = $(OBJS)
endif
ifndef HOST_PROGOBJS
HOST_PROGOBJS = $(HOST_OBJS)
endif
GARBAGE_DIRS += $(wildcard $(CURDIR)/$(MDDEPDIR))
#
# Tags: emacs (etags), vi (ctags)
# TAG_PROGRAM := ctags -L -
#
TAG_PROGRAM = xargs etags -a
#
# Turn on C++ linking if we have any .cpp or .mm files
# (moved this from config.mk so that config.mk can be included
# before the CPPSRCS are defined)
#
ifneq ($(HOST_CPPSRCS)$(HOST_CMMSRCS),)
HOST_CPP_PROG_LINK = 1
endif
#
# MacOS X specific stuff
#
ifeq ($(OS_ARCH),Darwin)
ifdef SHARED_LIBRARY
ifdef MOZ_IOS
_LOADER_PATH := @rpath
else
_LOADER_PATH := @executable_path
endif
EXTRA_DSO_LDOPTS += -dynamiclib -install_name $(_LOADER_PATH)/$(SHARED_LIBRARY) -compatibility_version 1 -current_version 1 -single_module
endif
endif
#
# GNU doesn't have path length limitation
#
ifeq ($(OS_ARCH),GNU)
OS_CPPFLAGS += -DPATH_MAX=1024 -DMAXPATHLEN=1024
endif
#
# MINGW32
#
ifeq ($(OS_ARCH),WINNT)
ifdef GNU_CC
DSO_LDOPTS += -Wl,--out-implib -Wl,$(IMPORT_LIBRARY)
endif
endif
ifeq ($(USE_TVFS),1)
IFLAGS1 = -rb
IFLAGS2 = -rb
else
IFLAGS1 = -m 644
IFLAGS2 = -m 755
endif
ifeq (_WINNT,$(GNU_CC)_$(OS_ARCH))
OUTOPTION = -Fo# eol
else
OUTOPTION = -o # eol
endif # WINNT && !GNU_CC
ifeq (,$(CROSS_COMPILE))
HOST_OUTOPTION = $(OUTOPTION)
else
# Windows-to-Windows cross compiles should always use MSVC-style options for
# host compiles.
ifeq (WINNT_WINNT,$(HOST_OS_ARCH)_$(OS_ARCH))
ifneq (,$(filter-out clang-cl,$(HOST_CC_TYPE)))
$(error MSVC-style compilers should be used for host compilations!)
endif
HOST_OUTOPTION = -Fo# eol
else
HOST_OUTOPTION = -o # eol
endif
endif
################################################################################
# Ensure the build config is up to date. This is done automatically when builds
# are performed through |mach build|. The check here is to catch people not
# using mach. If we ever enforce builds through mach, this code can be removed.
ifndef MOZBUILD_BACKEND_CHECKED
ifndef MACH
ifndef TOPLEVEL_BUILD
BUILD_BACKEND_FILES := $(addprefix $(DEPTH)/backend.,$(addsuffix Backend,$(BUILD_BACKENDS)))
$(DEPTH)/backend.%Backend:
$(error Build configuration changed. Build with |mach build| or run |mach build-backend| to regenerate build config)
define build_backend_rule
$(1): $$(shell cat $(1).in)
endef
$(foreach file,$(BUILD_BACKEND_FILES),$(eval $(call build_backend_rule,$(file))))
default:: $(BUILD_BACKEND_FILES)
export MOZBUILD_BACKEND_CHECKED=1
endif
endif
endif
# The root makefile doesn't want to do a plain export/libs, because
# of the tiers and because of libxul. Suppress the default rules in favor
# of something else. Makefiles which use this var *must* provide a sensible
# default rule before including rules.mk
default all::
$(foreach tier,$(TIERS),$(call SUBMAKE,$(tier)))
ifeq ($(findstring s,$(filter-out --%, $(MAKEFLAGS))),)
ECHO := echo
QUIET :=
else
ECHO := true
QUIET := -q
endif
# Do everything from scratch
everything::
$(MAKE) clean
$(MAKE) all
# Dependencies which, if modified, should cause everything to rebuild
GLOBAL_DEPS += Makefile $(addprefix $(DEPTH)/config/,$(INCLUDED_AUTOCONF_MK)) $(MOZILLA_DIR)/config/config.mk
##############################################
ifdef COMPILE_ENVIRONMENT
OBJ_TARGETS = $(OBJS) $(PROGOBJS) $(HOST_OBJS) $(HOST_PROGOBJS)
compile:: host target
host:: $(HOST_OBJS) $(HOST_PROGRAM) $(HOST_SIMPLE_PROGRAMS) $(HOST_RUST_PROGRAMS) $(HOST_RUST_LIBRARY_FILE) $(HOST_SHARED_LIBRARY)
target:: $(filter-out $(MOZBUILD_NON_DEFAULT_TARGETS),$(LIBRARY) $(SHARED_LIBRARY) $(PROGRAM) $(SIMPLE_PROGRAMS) $(RUST_LIBRARY_FILE) $(RUST_PROGRAMS))
ifndef LIBRARY
ifdef OBJS
target:: $(OBJS)
endif
endif
syms::
include $(MOZILLA_DIR)/config/makefiles/target_binaries.mk
endif
##############################################
ifneq (1,$(NO_PROFILE_GUIDED_OPTIMIZE))
ifdef MOZ_PROFILE_USE
ifeq ($(OS_ARCH)_$(GNU_CC), WINNT_)
# When building with PGO, we have to make sure to re-link
# in the MOZ_PROFILE_USE phase if we linked in the
# MOZ_PROFILE_GENERATE phase. We'll touch this pgo.relink
# file in the link rule in the GENERATE phase to indicate
# that we need a relink.
ifdef SHARED_LIBRARY
$(SHARED_LIBRARY): pgo.relink
endif
ifdef PROGRAM
$(PROGRAM): pgo.relink
endif
# In the second pass, we need to merge the pgc files into the pgd file.
# The compiler would do this for us automatically if they were in the right
# place, but they're in dist/bin.
ifneq (,$(SHARED_LIBRARY)$(PROGRAM))
export::
ifdef PROGRAM
$(PYTHON) $(MOZILLA_DIR)/build/win32/pgomerge.py \
$(PROGRAM:$(BIN_SUFFIX)=) $(DIST)/bin
endif
ifdef SHARED_LIBRARY
$(PYTHON) $(MOZILLA_DIR)/build/win32/pgomerge.py \
$(patsubst $(DLL_PREFIX)%$(DLL_SUFFIX),%,$(SHARED_LIBRARY)) $(DIST)/bin
endif
endif # SHARED_LIBRARY || PROGRAM
endif # WINNT_
endif # MOZ_PROFILE_USE
ifdef MOZ_PROFILE_GENERATE
# Clean up profiling data during PROFILE_GENERATE phase
export::
ifeq ($(OS_ARCH)_$(GNU_CC), WINNT_)
$(foreach pgd,$(wildcard *.pgd),pgomgr -clear $(pgd);)
else
ifdef GNU_CC
-$(RM) *.gcda
endif
endif
endif
ifneq (,$(MOZ_PROFILE_GENERATE)$(MOZ_PROFILE_USE))
ifneq (,$(filter target,$(MAKECMDGOALS)))
ifdef GNU_CC
# Force rebuilding libraries and programs in both passes because each
# pass uses different object files.
$(PROGRAM) $(SHARED_LIBRARY) $(LIBRARY): FORCE
endif
endif
endif
endif # NO_PROFILE_GUIDED_OPTIMIZE
##############################################
clean clobber realclean clobber_all::
-$(RM) $(ALL_TRASH)
-$(RM) -r $(ALL_TRASH_DIRS)
clean clobber realclean clobber_all distclean::
$(foreach dir,$(DIRS),-$(call SUBMAKE,$@,$(dir)))
distclean::
-$(RM) -r $(ALL_TRASH_DIRS)
-$(RM) $(ALL_TRASH) \
Makefile .HSancillary \
$(wildcard *.$(OBJ_SUFFIX)) $(wildcard *.ho) $(wildcard host_*.o*) \
$(wildcard *.$(LIB_SUFFIX)) $(wildcard *$(DLL_SUFFIX)) \
$(wildcard *.$(IMPORT_LIB_SUFFIX))
alltags:
$(RM) TAGS
find $(topsrcdir) -name dist -prune -o \( -name '*.[hc]' -o -name '*.cp' -o -name '*.cpp' -o -name '*.idl' \) -print | $(TAG_PROGRAM)
define EXPAND_CC_OR_CXX
$(if $(PROG_IS_C_ONLY_$(1)),$(CC),$(CCC))
endef
#
# PROGRAM = Foo
# creates OBJS, links with LIBS to create Foo
#
$(PROGRAM): $(PROGOBJS) $(STATIC_LIBS) $(RUST_STATIC_LIB) $(EXTRA_DEPS) $(RESFILE) $(GLOBAL_DEPS) $(call mkdir_deps,$(FINAL_TARGET))
$(REPORT_BUILD)
@$(RM) $@.manifest
ifeq (_WINNT,$(GNU_CC)_$(OS_ARCH))
$(LINKER) -NOLOGO -OUT:$@ -PDB:$(LINK_PDBFILE) -IMPLIB:$(basename $(@F)).lib $(WIN32_EXE_LDFLAGS) $(LDFLAGS) $(MOZ_PROGRAM_LDFLAGS) $($(notdir $@)_$(OBJS_VAR_SUFFIX)) $(RESFILE) $(STATIC_LIBS) $(RUST_STATIC_LIB) $(SHARED_LIBS) $(OS_LIBS)
ifdef MSMANIFEST_TOOL
@if test -f $@.manifest; then \
if test -f '$(srcdir)/$(notdir $@).manifest'; then \
echo 'Embedding manifest from $(srcdir_rel)/$(notdir $@).manifest and $@.manifest'; \
$(MT) -NOLOGO -MANIFEST '$(srcdir_rel)/$(notdir $@).manifest' $@.manifest -OUTPUTRESOURCE:$@\;1; \
else \
echo 'Embedding manifest from $@.manifest'; \
$(MT) -NOLOGO -MANIFEST $@.manifest -OUTPUTRESOURCE:$@\;1; \
fi; \
elif test -f '$(srcdir)/$(notdir $@).manifest'; then \
echo 'Embedding manifest from $(srcdir_rel)/$(notdir $@).manifest'; \
$(MT) -NOLOGO -MANIFEST '$(srcdir_rel)/$(notdir $@).manifest' -OUTPUTRESOURCE:$@\;1; \
fi
endif # MSVC with manifest tool
ifdef MOZ_PROFILE_GENERATE
# touch it a few seconds into the future to work around FAT's
# 2-second granularity
touch -t `date +%Y%m%d%H%M.%S -d 'now+5seconds'` pgo.relink
endif
else # !WINNT || GNU_CC
$(call EXPAND_CC_OR_CXX,$@) -o $@ $(COMPUTED_CXX_LDFLAGS) $(PGO_CFLAGS) $($(notdir $@)_$(OBJS_VAR_SUFFIX)) $(RESFILE) $(WIN32_EXE_LDFLAGS) $(LDFLAGS) $(STATIC_LIBS) $(RUST_STATIC_LIB) $(MOZ_PROGRAM_LDFLAGS) $(SHARED_LIBS) $(OS_LIBS)
$(call py_action,check_binary,--target $@)
endif # WINNT && !GNU_CC
ifdef ENABLE_STRIP
$(STRIP) $(STRIP_FLAGS) $@
endif
ifdef MOZ_POST_PROGRAM_COMMAND
$(MOZ_POST_PROGRAM_COMMAND) $@
endif
$(HOST_PROGRAM): $(HOST_PROGOBJS) $(HOST_LIBS) $(HOST_EXTRA_DEPS) $(GLOBAL_DEPS) $(call mkdir_deps,$(DEPTH)/dist/host/bin)
$(REPORT_BUILD)
ifeq (_WINNT,$(GNU_CC)_$(HOST_OS_ARCH))
$(HOST_LINKER) -NOLOGO -OUT:$@ -PDB:$(HOST_PDBFILE) $($(notdir $@)_OBJS) $(WIN32_EXE_LDFLAGS) $(HOST_LDFLAGS) $(HOST_LINKER_LIBPATHS) $(HOST_LIBS) $(HOST_EXTRA_LIBS)
ifdef MSMANIFEST_TOOL
@if test -f $@.manifest; then \
if test -f '$(srcdir)/$(notdir $@).manifest'; then \
echo 'Embedding manifest from $(srcdir_rel)/$(notdir $@).manifest and $@.manifest'; \
$(MT) -NOLOGO -MANIFEST '$(srcdir_rel)/$(notdir $@).manifest' $@.manifest -OUTPUTRESOURCE:$@\;1; \
else \
echo 'Embedding manifest from $@.manifest'; \
$(MT) -NOLOGO -MANIFEST $@.manifest -OUTPUTRESOURCE:$@\;1; \
fi; \
elif test -f '$(srcdir)/$(notdir $@).manifest'; then \
echo 'Embedding manifest from $(srcdir_rel)/$(notdir $@).manifest'; \
$(MT) -NOLOGO -MANIFEST '$(srcdir_rel)/$(notdir $@).manifest' -OUTPUTRESOURCE:$@\;1; \
fi
endif # MSVC with manifest tool
else
ifeq ($(HOST_CPP_PROG_LINK),1)
$(HOST_CXX) -o $@ $(HOST_CXX_LDFLAGS) $(HOST_LDFLAGS) $($(notdir $@)_OBJS) $(HOST_LIBS) $(HOST_EXTRA_LIBS)
else
$(HOST_CC) -o $@ $(HOST_C_LDFLAGS) $(HOST_LDFLAGS) $($(notdir $@)_OBJS) $(HOST_LIBS) $(HOST_EXTRA_LIBS)
endif # HOST_CPP_PROG_LINK
endif
ifndef CROSS_COMPILE
$(call py_action,check_binary,--host $@)
endif
#
# This is an attempt to support generation of multiple binaries
# in one directory, it assumes everything to compile Foo is in
# Foo.o (from either Foo.c or Foo.cpp).
#
# SIMPLE_PROGRAMS = Foo Bar
# creates Foo.o Bar.o, links with LIBS to create Foo, Bar.
#
$(SIMPLE_PROGRAMS): %$(BIN_SUFFIX): %.$(OBJ_SUFFIX) $(STATIC_LIBS) $(EXTRA_DEPS) $(GLOBAL_DEPS)
$(REPORT_BUILD)
ifeq (_WINNT,$(GNU_CC)_$(OS_ARCH))
$(LINKER) -nologo -out:$@ -pdb:$(LINK_PDBFILE) $($@_$(OBJS_VAR_SUFFIX)) $(WIN32_EXE_LDFLAGS) $(LDFLAGS) $(MOZ_PROGRAM_LDFLAGS) $(STATIC_LIBS) $(SHARED_LIBS) $(OS_LIBS)
ifdef MSMANIFEST_TOOL
@if test -f $@.manifest; then \
$(MT) -NOLOGO -MANIFEST $@.manifest -OUTPUTRESOURCE:$@\;1; \
rm -f $@.manifest; \
elif test -f '$(srcdir)/$(notdir $@).manifest'; then \
$(MT) -NOLOGO -MANIFEST '$(srcdir_rel)/$(notdir $@).manifest' -OUTPUTRESOURCE:$@\;1; \
fi
endif # MSVC with manifest tool
else
$(call EXPAND_CC_OR_CXX,$@) $(COMPUTED_CXX_LDFLAGS) $(PGO_CFLAGS) -o $@ $($@_$(OBJS_VAR_SUFFIX)) $(WIN32_EXE_LDFLAGS) $(LDFLAGS) $(STATIC_LIBS) $(MOZ_PROGRAM_LDFLAGS) $(SHARED_LIBS) $(OS_LIBS)
$(call py_action,check_binary,--target $@)
endif # WINNT && !GNU_CC
ifdef ENABLE_STRIP
$(STRIP) $(STRIP_FLAGS) $@
endif
ifdef MOZ_POST_PROGRAM_COMMAND
$(MOZ_POST_PROGRAM_COMMAND) $@
endif
$(HOST_SIMPLE_PROGRAMS): host_%$(HOST_BIN_SUFFIX): $(HOST_LIBS) $(HOST_EXTRA_DEPS) $(GLOBAL_DEPS)
$(REPORT_BUILD)
ifeq (WINNT_,$(HOST_OS_ARCH)_$(GNU_CC))
$(HOST_LINKER) -NOLOGO -OUT:$@ -PDB:$(HOST_PDBFILE) $($(notdir $@)_OBJS) $(WIN32_EXE_LDFLAGS) $(HOST_LDFLAGS) $(HOST_LINKER_LIBPATHS) $(HOST_LIBS) $(HOST_EXTRA_LIBS)
else
ifneq (,$(HOST_CPPSRCS)$(USE_HOST_CXX))
$(HOST_CXX) $(HOST_OUTOPTION)$@ $(HOST_CXX_LDFLAGS) $($(notdir $@)_OBJS) $(HOST_LIBS) $(HOST_EXTRA_LIBS)
else
$(HOST_CC) $(HOST_OUTOPTION)$@ $(HOST_C_LDFLAGS) $($(notdir $@)_OBJS) $(HOST_LIBS) $(HOST_EXTRA_LIBS)
endif
endif
ifndef CROSS_COMPILE
$(call py_action,check_binary,--host $@)
endif
$(LIBRARY): $(OBJS) $(STATIC_LIBS) $(EXTRA_DEPS) $(GLOBAL_DEPS)
$(REPORT_BUILD)
$(RM) $(REAL_LIBRARY)
$(AR) $(AR_FLAGS) $($@_$(OBJS_VAR_SUFFIX))
ifeq ($(OS_ARCH),WINNT)
# Import libraries are created by the rules creating shared libraries.
# The rules to copy them to $(DIST)/lib depend on $(IMPORT_LIBRARY),
# but make will happily consider the import library before it is refreshed
# when rebuilding the corresponding shared library. Defining an empty recipe
# for import libraries forces make to wait for the shared library recipe to
# have run before considering other targets that depend on the import library.
# See bug 795204.
$(IMPORT_LIBRARY): $(SHARED_LIBRARY) ;
endif
$(HOST_SHARED_LIBRARY): Makefile
$(REPORT_BUILD)
$(RM) $@
ifneq (,$(filter clang-cl,$(HOST_CC_TYPE)))
$(HOST_LINKER) -NOLOGO -DLL -OUT:$@ $($(notdir $@)_OBJS) $(HOST_CXX_LDFLAGS) $(HOST_LDFLAGS) $(HOST_LINKER_LIBPATHS) $(HOST_LIBS) $(HOST_EXTRA_LIBS)
else
$(HOST_CXX) $(HOST_OUTOPTION)$@ $($(notdir $@)_OBJS) $(HOST_CXX_LDFLAGS) $(HOST_LDFLAGS) $(HOST_LIBS) $(HOST_EXTRA_LIBS)
endif
# On Darwin (Mac OS X), dwarf2 debugging uses debug info left in .o files,
# so instead of deleting .o files after repacking them into a dylib, we make
# symlinks back to the originals. The symlinks are a no-op for stabs debugging,
# so no need to conditionalize on OS version or debugging format.
$(SHARED_LIBRARY): $(OBJS) $(RESFILE) $(RUST_STATIC_LIB) $(STATIC_LIBS) $(EXTRA_DEPS) $(GLOBAL_DEPS)
$(REPORT_BUILD)
ifndef INCREMENTAL_LINKER
$(RM) $@
endif
$(MKSHLIB) $($@_$(OBJS_VAR_SUFFIX)) $(RESFILE) $(LDFLAGS) $(STATIC_LIBS) $(RUST_STATIC_LIB) $(SHARED_LIBS) $(EXTRA_DSO_LDOPTS) $(MOZ_GLUE_LDFLAGS) $(OS_LIBS)
$(call py_action,check_binary,--target $@)
ifeq (_WINNT,$(GNU_CC)_$(OS_ARCH))
ifdef MSMANIFEST_TOOL
ifdef EMBED_MANIFEST_AT
@if test -f $@.manifest; then \
if test -f '$(srcdir)/$@.manifest'; then \
echo 'Embedding manifest from $(srcdir_rel)/$@.manifest and $@.manifest'; \
$(MT) -NOLOGO -MANIFEST '$(srcdir_rel)/$@.manifest' $@.manifest -OUTPUTRESOURCE:$@\;$(EMBED_MANIFEST_AT); \
else \
echo 'Embedding manifest from $@.manifest'; \
$(MT) -NOLOGO -MANIFEST $@.manifest -OUTPUTRESOURCE:$@\;$(EMBED_MANIFEST_AT); \
fi; \
elif test -f '$(srcdir)/$@.manifest'; then \
echo 'Embedding manifest from $(srcdir_rel)/$@.manifest'; \
$(MT) -NOLOGO -MANIFEST '$(srcdir_rel)/$@.manifest' -OUTPUTRESOURCE:$@\;$(EMBED_MANIFEST_AT); \
fi
endif # EMBED_MANIFEST_AT
endif # MSVC with manifest tool
ifdef MOZ_PROFILE_GENERATE
touch -t `date +%Y%m%d%H%M.%S -d 'now+5seconds'` pgo.relink
endif
endif # WINNT && !GCC
chmod +x $@
ifdef ENABLE_STRIP
$(STRIP) $(STRIP_FLAGS) $@
endif
# The object file is in the current directory, and the source file can be any
# relative path. This macro adds the dependency obj: src for each source file.
# This dependency must be first for the $< flag to work correctly, and the
# rules that have commands for these targets must not list any other
# prerequisites, or they will override the $< variable.
define src_objdep
$(basename $3$(notdir $1)).$2: $1 $$(call mkdir_deps,$$(MDDEPDIR))
endef
$(foreach f,$(CSRCS) $(SSRCS) $(CPPSRCS) $(CMSRCS) $(CMMSRCS) $(ASFILES),$(eval $(call src_objdep,$(f),$(OBJ_SUFFIX))))
$(foreach f,$(HOST_CSRCS) $(HOST_CPPSRCS) $(HOST_CMSRCS) $(HOST_CMMSRCS),$(eval $(call src_objdep,$(f),$(_OBJ_SUFFIX),host_)))
# The Rust compiler only outputs library objects, and so we need different
# mangling to generate dependency rules for it.
mk_global_crate_libname = $(basename lib$(notdir $1)).$(LIB_SUFFIX)
crate_src_libdep = $(call mk_global_crate_libname,$1): $1 $$(call mkdir_deps,$$(MDDEPDIR))
$(foreach f,$(RS_STATICLIB_CRATE_SRC),$(eval $(call crate_src_libdep,$(f))))
$(OBJS) $(HOST_OBJS) $(PROGOBJS) $(HOST_PROGOBJS): $(GLOBAL_DEPS)
# Rules for building native targets must come first because of the host_ prefix
$(HOST_COBJS):
$(REPORT_BUILD_VERBOSE)
$(ELOG) $(HOST_CC) $(HOST_OUTOPTION)$@ -c $(HOST_CPPFLAGS) $(HOST_CFLAGS) $(NSPR_CFLAGS) $(_VPATH_SRCS)
$(HOST_CPPOBJS):
$(REPORT_BUILD_VERBOSE)
$(call BUILDSTATUS,OBJECT_FILE $@)
$(ELOG) $(HOST_CXX) $(HOST_OUTOPTION)$@ -c $(HOST_CPPFLAGS) $(HOST_CXXFLAGS) $(NSPR_CFLAGS) $(_VPATH_SRCS)
$(HOST_CMOBJS):
$(REPORT_BUILD_VERBOSE)
$(ELOG) $(HOST_CC) $(HOST_OUTOPTION)$@ -c $(HOST_CPPFLAGS) $(HOST_CFLAGS) $(HOST_CMFLAGS) $(NSPR_CFLAGS) $(_VPATH_SRCS)
$(HOST_CMMOBJS):
$(REPORT_BUILD_VERBOSE)
$(ELOG) $(HOST_CXX) $(HOST_OUTOPTION)$@ -c $(HOST_CPPFLAGS) $(HOST_CXXFLAGS) $(HOST_CMMFLAGS) $(NSPR_CFLAGS) $(_VPATH_SRCS)
$(COBJS):
$(REPORT_BUILD_VERBOSE)
$(ELOG) $(CC) $(OUTOPTION)$@ -c $(COMPILE_CFLAGS) $($(notdir $<)_FLAGS) $(_VPATH_SRCS)
# DEFINES and ACDEFINES are needed here to enable conditional compilation of Q_OBJECTs:
# 'moc' only knows about #defines it gets on the command line (-D...), not in
# included headers like mozilla-config.h
$(filter moc_%.cpp,$(CPPSRCS)): moc_%.cpp: %.h
$(REPORT_BUILD_VERBOSE)
$(ELOG) $(MOC) $(DEFINES) $(ACDEFINES) $< $(OUTOPTION)$@
$(filter moc_%.cc,$(CPPSRCS)): moc_%.cc: %.cc
$(REPORT_BUILD_VERBOSE)
$(ELOG) $(MOC) $(DEFINES) $(ACDEFINES) $(_VPATH_SRCS:.cc=.h) $(OUTOPTION)$@
$(filter qrc_%.cpp,$(CPPSRCS)): qrc_%.cpp: %.qrc
$(REPORT_BUILD_VERBOSE)
$(ELOG) $(RCC) -name $* $< $(OUTOPTION)$@
ifdef ASFILES
# The AS_DASH_C_FLAG is needed cause not all assemblers (Solaris) accept
# a '-c' flag.
$(ASOBJS):
$(REPORT_BUILD_VERBOSE)
$(AS) $(ASOUTOPTION)$@ $(ASFLAGS) $($(notdir $<)_FLAGS) $(AS_DASH_C_FLAG) $(_VPATH_SRCS)
endif
define syms_template
syms:: $(2)
$(2): $(1)
ifdef MOZ_CRASHREPORTER
$$(call py_action,dumpsymbols,$$(abspath $$<) $$(abspath $$@) $$(DUMP_SYMBOLS_FLAGS))
endif
endef
ifndef MOZ_PROFILE_GENERATE
ifneq (,$(filter $(DIST)/bin%,$(FINAL_TARGET)))
DUMP_SYMS_TARGETS := $(SHARED_LIBRARY) $(PROGRAM) $(SIMPLE_PROGRAMS)
endif
endif
ifdef MOZ_AUTOMATION
ifeq (,$(filter 1,$(MOZ_AUTOMATION_BUILD_SYMBOLS)))
DUMP_SYMS_TARGETS :=
endif
endif
ifdef MOZ_COPY_PDBS
MAIN_PDB_FILES = $(addsuffix .pdb,$(basename $(DUMP_SYMS_TARGETS)))
MAIN_PDB_DEST ?= $(FINAL_TARGET)
MAIN_PDB_TARGET = syms
INSTALL_TARGETS += MAIN_PDB
ifdef CPP_UNIT_TESTS
CPP_UNIT_TESTS_PDB_FILES = $(addsuffix .pdb,$(basename $(CPP_UNIT_TESTS)))
CPP_UNIT_TESTS_PDB_DEST = $(DIST)/cppunittests
CPP_UNIT_TESTS_PDB_TARGET = syms
INSTALL_TARGETS += CPP_UNIT_TESTS_PDB
endif
else ifdef MOZ_CRASHREPORTER
$(foreach file,$(DUMP_SYMS_TARGETS),$(eval $(call syms_template,$(file),$(notdir $(file))_syms.track)))
endif
ifneq (,$(RUST_TESTS)$(RUST_LIBRARY_FILE)$(HOST_RUST_LIBRARY_FILE)$(RUST_PROGRAMS)$(HOST_RUST_PROGRAMS))
include $(MOZILLA_DIR)/config/makefiles/rust.mk
endif
$(SOBJS):
$(REPORT_BUILD)
$(AS) $(ASOUTOPTION)$@ $(SFLAGS) $($(notdir $<)_FLAGS) -c $<
$(CPPOBJS):
$(REPORT_BUILD_VERBOSE)
$(call BUILDSTATUS,OBJECT_FILE $@)
$(ELOG) $(CCC) $(OUTOPTION)$@ -c $(COMPILE_CXXFLAGS) $($(notdir $<)_FLAGS) $(_VPATH_SRCS)
$(CMMOBJS):
$(REPORT_BUILD_VERBOSE)
$(ELOG) $(CCC) -o $@ -c $(COMPILE_CXXFLAGS) $(COMPILE_CMMFLAGS) $($(notdir $<)_FLAGS) $(_VPATH_SRCS)
$(CMOBJS):
$(REPORT_BUILD_VERBOSE)
$(ELOG) $(CC) -o $@ -c $(COMPILE_CFLAGS) $(COMPILE_CMFLAGS) $($(notdir $<)_FLAGS) $(_VPATH_SRCS)
$(filter %.s,$(CPPSRCS:%.cpp=%.s)): %.s: %.cpp $(call mkdir_deps,$(MDDEPDIR))
$(REPORT_BUILD_VERBOSE)
$(CCC) -S $(COMPILE_CXXFLAGS) $($(notdir $<)_FLAGS) $(_VPATH_SRCS)
$(filter %.s,$(CPPSRCS:%.cc=%.s)): %.s: %.cc $(call mkdir_deps,$(MDDEPDIR))
$(REPORT_BUILD_VERBOSE)
$(CCC) -S $(COMPILE_CXXFLAGS) $($(notdir $<)_FLAGS) $(_VPATH_SRCS)
$(filter %.s,$(CPPSRCS:%.cxx=%.s)): %.s: %.cpp $(call mkdir_deps,$(MDDEPDIR))
$(REPORT_BUILD_VERBOSE)
$(CCC) -S $(COMPILE_CXXFLAGS) $($(notdir $<)_FLAGS) $(_VPATH_SRCS)
$(filter %.s,$(CSRCS:%.c=%.s)): %.s: %.c $(call mkdir_deps,$(MDDEPDIR))
$(REPORT_BUILD_VERBOSE)
$(CC) -S $(COMPILE_CFLAGS) $($(notdir $<)_FLAGS) $(_VPATH_SRCS)
ifneq (,$(filter %.i,$(MAKECMDGOALS)))
# Call as $(call _group_srcs,extension,$(SRCS)) - this will create a list
# of the full sources, as well as the $(notdir) version. So:
# foo.cpp sub/bar.cpp
# becomes:
# foo.cpp sub/bar.cpp bar.cpp
#
# This way we can match both 'make sub/bar.i' and 'make bar.i'
_group_srcs = $(sort $(patsubst %.$1,%.i,$(filter %.$1,$2 $(notdir $2))))
define PREPROCESS_RULES
_PREPROCESSED_$1_FILES := $$(call _group_srcs,$1,$$($2))
# Make preprocessed files PHONY so they are always executed, since they are
# manual targets and we don't necessarily write to $@.
.PHONY: $$(_PREPROCESSED_$1_FILES)
# Hack up VPATH so we can reach the sources. Eg: 'make Parser.i' may need to
# reach $(srcdir)/frontend/Parser.i
vpath %.$1 $$(addprefix $$(srcdir)/,$$(sort $$(dir $$($2))))
vpath %.$1 $$(addprefix $$(CURDIR)/,$$(sort $$(dir $$($2))))
$$(_PREPROCESSED_$1_FILES): _DEPEND_CFLAGS=
$$(_PREPROCESSED_$1_FILES): %.i: %.$1
$$(REPORT_BUILD_VERBOSE)
$$(addprefix $$(MKDIR) -p ,$$(filter-out .,$$(@D)))
$$($3) -C $$(PREPROCESS_OPTION)$$@ $(foreach var,$4,$$($(var))) $$($$(notdir $$<)_FLAGS) $$(_VPATH_SRCS)
endef
$(eval $(call PREPROCESS_RULES,cpp,CPPSRCS,CCC,COMPILE_CXXFLAGS))
$(eval $(call PREPROCESS_RULES,cc,CPPSRCS,CCC,COMPILE_CXXFLAGS))
$(eval $(call PREPROCESS_RULES,cxx,CPPSRCS,CCC,COMPILE_CXXFLAGS))
$(eval $(call PREPROCESS_RULES,c,CSRCS,CC,COMPILE_CFLAGS))
$(eval $(call PREPROCESS_RULES,mm,CMMSRCS,CCC,COMPILE_CXXFLAGS COMPILE_CMMFLAGS))
# Default to pre-processing the actual unified file. This can be overridden
# at the command-line to pre-process only the individual source file.
PP_UNIFIED ?= 1
# PP_REINVOKE gets set on the sub-make to prevent us from going in an
# infinite loop if the filename doesn't exist in the unified source files.
ifndef PP_REINVOKE
MATCH_cpp = \(cpp\|cc|cxx\)
UPPER_c = C
UPPER_cpp = CPP
UPPER_mm = CMM
# When building with PP_UNIFIED=0, we also have to look in the Unified files to
# find a matching pathname.
_get_all_sources = $1 $(if $(filter Unified%,$1),$(shell sed -n 's/\#include "\(.*\)"$$/\1/p' $(filter Unified%,$1)))
all_cpp_sources := $(call _get_all_sources,$(CPPSRCS))
all_mm_sources := $(call _get_all_sources,$(CMMSRCS))
all_c_sources := $(call _get_all_sources,$(CSRCS))
all_sources := $(all_cpp_sources) $(all_cmm_sources) $(all_c_sources)
# The catch-all %.i rule runs when we pass in a .i filename that doesn't match
# one of the *SRCS variables. The two code paths depend on whether or not
# we are requesting a unified file (PP_UNIFIED=1, the default) or not:
#
# PP_UNIFIED=1:
# - Look for it in any of the Unified files, and re-exec make with
# Unified_foo0.i as the target. This gets us the full unified preprocessed
# file.
#
# PP_UNIFIED=0:
# - If the .i filename is in *SRCS, or in a Unified filename, then we re-exec
# make with that filename as the target. The *SRCS variables are modified
# to have the Unified sources appended to them so that the static pattern
# rules will match.
%.i: FORCE
ifeq ($(PP_UNIFIED),1)
@$(MAKE) PP_REINVOKE=1 \
$(or $(addsuffix .i, \
$(foreach type,c cpp mm, \
$(if $(filter Unified%,$($(UPPER_$(type))SRCS)), \
$(shell grep -l '#include "\(.*/\)\?$(basename $@).$(or $(MATCH_$(type)),$(type))"' Unified*.$(type) | sed 's/\.$(type)$$//') \
))),$(error "File not found for preprocessing: $@"))
else
@$(MAKE) PP_REINVOKE=1 $@ \
$(foreach type,c cpp mm,$(UPPER_$(type))SRCS="$(all_$(type)_sources)")
endif
endif
endif
$(RESFILE): %.res: %.rc
$(REPORT_BUILD)
@echo Creating Resource file: $@
ifdef GNU_CC
$(RC) $(RCFLAGS) $(filter-out -U%,$(DEFINES)) $(INCLUDES:-I%=--include-dir %) $(OUTOPTION)$@ $(_VPATH_SRCS)
else
$(RC) $(RCFLAGS) -r $(DEFINES) $(INCLUDES) $(OUTOPTION)$@ $(_VPATH_SRCS)
endif
# Cancel GNU make built-in implicit rules
MAKEFLAGS += -r
ifneq (,$(filter WINNT,$(OS_ARCH)))
SEP := ;
else
SEP := :
endif
EMPTY :=
SPACE := $(EMPTY) $(EMPTY)
# MSYS has its own special path form, but javac expects the source and class
# paths to be in the DOS form (i.e. e:/builds/...). This function does the
# appropriate conversion on Windows, but is a noop on other systems.
ifeq ($(HOST_OS_ARCH),WINNT)
# We use 'pwd -W' to get DOS form of the path. However, since the given path
# could be a file or a non-existent path, we cannot call 'pwd -W' directly
# on the path. Instead, we extract the root path (i.e. "c:/"), call 'pwd -W'
# on it, then merge with the rest of the path.
root-path = $(shell echo $(1) | sed -e 's|\(/[^/]*\)/\?\(.*\)|\1|')
non-root-path = $(shell echo $(1) | sed -e 's|\(/[^/]*\)/\?\(.*\)|\2|')
normalizepath = $(foreach p,$(1),$(if $(filter /%,$(1)),$(patsubst %/,%,$(shell cd $(call root-path,$(1)) && pwd -W))/$(call non-root-path,$(1)),$(1)))
else
normalizepath = $(1)
endif
###############################################################################
# Bunch of things that extend the 'export' rule (in order):
###############################################################################
ifneq ($(XPI_NAME),)
$(FINAL_TARGET):
$(NSINSTALL) -D $@
export:: $(FINAL_TARGET)
endif
################################################################################
# The default location for prefs is the gre prefs directory.
# PREF_DIR is used for L10N_PREF_JS_EXPORTS in various locales/ directories.
PREF_DIR = defaults/pref
# If DIST_SUBDIR is defined it indicates that app and gre dirs are
# different and that we are building app related resources. Hence,
# PREF_DIR should point to the app prefs location.
ifneq (,$(DIST_SUBDIR)$(XPI_NAME))
PREF_DIR = defaults/preferences
endif
################################################################################
# CHROME PACKAGING
chrome::
$(MAKE) realchrome
$(LOOP_OVER_DIRS)
$(FINAL_TARGET)/chrome: $(call mkdir_deps,$(FINAL_TARGET)/chrome)
ifneq (,$(JAR_MANIFEST))
ifndef NO_DIST_INSTALL
ifdef XPI_NAME
ifdef XPI_ROOT_APPID
# For add-on packaging we may specify that an application
# sub-dir should be added to the root chrome manifest with
# a specific application id.
MAKE_JARS_FLAGS += --root-manifest-entry-appid='$(XPI_ROOT_APPID)'
endif
# if DIST_SUBDIR is defined but XPI_ROOT_APPID is not there's
# no way langpacks will get packaged right, so error out.
ifneq (,$(DIST_SUBDIR))
ifndef XPI_ROOT_APPID
$(error XPI_ROOT_APPID is not defined - langpacks will break.)
endif
endif
endif
libs realchrome:: $(FINAL_TARGET)/chrome
$(call py_action,jar_maker,\
$(QUIET) -d $(FINAL_TARGET) \
$(MAKE_JARS_FLAGS) $(DEFINES) $(ACDEFINES) \
$(JAR_MANIFEST))
endif
endif
# When you move this out of the tools tier, please remove the corresponding
# hacks in recursivemake.py that check if Makefile.in sets the variable.
ifneq ($(XPI_PKGNAME),)
tools realchrome::
ifdef STRIP_XPI
ifndef MOZ_DEBUG
@echo 'Stripping $(XPI_PKGNAME) package directory...'
@echo $(FINAL_TARGET)
@cd $(FINAL_TARGET) && find . ! -type d \
! -name '*.js' \
! -name '*.xpt' \
! -name '*.gif' \
! -name '*.jpg' \
! -name '*.png' \
! -name '*.xpm' \
! -name '*.txt' \
! -name '*.rdf' \
! -name '*.sh' \
! -name '*.properties' \
! -name '*.dtd' \
! -name '*.html' \
! -name '*.xul' \
! -name '*.css' \
! -name '*.xml' \
! -name '*.jar' \
! -name '*.dat' \
! -name '*.tbl' \
! -name '*.src' \
! -name '*.reg' \
$(PLATFORM_EXCLUDE_LIST) \
-exec $(STRIP) $(STRIP_FLAGS) {} >/dev/null 2>&1 \;
endif
endif
@echo 'Packaging $(XPI_PKGNAME).xpi...'
$(call py_action,zip,-C $(FINAL_TARGET) ../$(XPI_PKGNAME).xpi '*')
endif
# See comment above about moving this out of the tools tier.
ifdef INSTALL_EXTENSION_ID
ifndef XPI_NAME
$(error XPI_NAME must be set for INSTALL_EXTENSION_ID)
endif
tools::
$(RM) -r '$(DIST)/bin/distribution$(DIST_SUBDIR:%=/%)/extensions/$(INSTALL_EXTENSION_ID)'
$(NSINSTALL) -D '$(DIST)/bin/distribution$(DIST_SUBDIR:%=/%)/extensions/$(INSTALL_EXTENSION_ID)'
$(call copy_dir,$(FINAL_TARGET),$(DIST)/bin/distribution$(DIST_SUBDIR:%=/%)/extensions/$(INSTALL_EXTENSION_ID))
endif
#############################################################################
# MDDEPDIR is the subdirectory where all the dependency files are placed.
# This uses a make rule (instead of a macro) to support parallel
# builds (-jN). If this were done in the LOOP_OVER_DIRS macro, two
# processes could simultaneously try to create the same directory.
#
# We use $(CURDIR) in the rule's target to ensure that we don't find
# a dependency directory in the source tree via VPATH (perhaps from
# a previous build in the source tree) and thus neglect to create a
# dependency directory in the object directory, where we really need
# it.
ifneq (,$(filter-out all chrome default export realchrome clean clobber clobber_all distclean realclean,$(MAKECMDGOALS)))
MDDEPEND_FILES := $(strip $(wildcard $(addprefix $(MDDEPDIR)/,$(addsuffix .pp,$(notdir $(sort $(OBJS) $(PROGOBJS) $(HOST_OBJS) $(HOST_PROGOBJS)))))))
ifneq (,$(MDDEPEND_FILES))
-include $(MDDEPEND_FILES)
endif
endif
MDDEPEND_FILES := $(strip $(wildcard $(addprefix $(MDDEPDIR)/,$(EXTRA_MDDEPEND_FILES))))
ifneq (,$(MDDEPEND_FILES))
-include $(MDDEPEND_FILES)
endif
################################################################################
# Install/copy rules
#
# The INSTALL_TARGETS variable contains a list of all install target
# categories. Each category defines a list of files and executables, and an
# install destination,
#
# FOO_FILES := foo bar
# FOO_EXECUTABLES := baz
# FOO_DEST := target_path
# INSTALL_TARGETS += FOO
#
# Additionally, a FOO_TARGET variable may be added to indicate the target for
# which the files and executables are installed. Default is "libs".
#
# Finally, a FOO_KEEP_PATH variable may be set to 1 to indicate the paths given
# in FOO_FILES/FOO_EXECUTABLES are to be kept at the destination. That is,
# if FOO_FILES is bar/baz/qux.h, and FOO_DEST is $(DIST)/include, the installed
# file would be $(DIST)/include/bar/baz/qux.h instead of $(DIST)/include/qux.h
# If we're using binary nsinstall and it's not built yet, fallback to python nsinstall.
ifneq (,$(filter $(DEPTH)/config/nsinstall$(HOST_BIN_SUFFIX),$(install_cmd)))
ifeq (,$(wildcard $(DEPTH)/config/nsinstall$(HOST_BIN_SUFFIX)))
nsinstall_is_usable = $(if $(wildcard $(DEPTH)/config/nsinstall$(HOST_BIN_SUFFIX)),yes)
define install_cmd_override
$(1): install_cmd = $$(if $$(nsinstall_is_usable),$$(INSTALL),$$(NSINSTALL_PY) -t) $$(1)
endef
endif
endif
install_target_tier = $(or $($(1)_TARGET),libs)
INSTALL_TARGETS_TIERS := $(sort $(foreach category,$(INSTALL_TARGETS),$(call install_target_tier,$(category))))
install_target_result = $($(1)_DEST:%/=%)/$(if $($(1)_KEEP_PATH),$(2),$(notdir $(2)))
install_target_files = $(foreach file,$($(1)_FILES),$(call install_target_result,$(category),$(file)))
install_target_executables = $(foreach file,$($(1)_EXECUTABLES),$(call install_target_result,$(category),$(file)))
# Work around a GNU make 3.81 bug where it gives $< the wrong value.
# See details in bug 934864.
define create_dependency
$(1): $(2)
$(1): $(2)
endef
define install_target_template
$(call install_cmd_override,$(2))
$(call create_dependency,$(2),$(1))
endef
$(foreach category,$(INSTALL_TARGETS),\
$(if $($(category)_DEST),,$(error Missing $(category)_DEST)) \
$(foreach tier,$(call install_target_tier,$(category)),\
$(eval INSTALL_TARGETS_FILES_$(tier) += $(call install_target_files,$(category))) \
$(eval INSTALL_TARGETS_EXECUTABLES_$(tier) += $(call install_target_executables,$(category))) \
) \
$(foreach file,$($(category)_FILES) $($(category)_EXECUTABLES), \
$(eval $(call install_target_template,$(file),$(call install_target_result,$(category),$(file)))) \
) \
)
$(foreach tier,$(INSTALL_TARGETS_TIERS), \
$(eval $(tier):: $(INSTALL_TARGETS_FILES_$(tier)) $(INSTALL_TARGETS_EXECUTABLES_$(tier))) \
)
install_targets_sanity = $(if $(filter-out $(notdir $@),$(notdir $(<))),$(error Looks like $@ has an unexpected dependency on $< which breaks INSTALL_TARGETS))
$(sort $(foreach tier,$(INSTALL_TARGETS_TIERS),$(INSTALL_TARGETS_FILES_$(tier)))):
$(install_targets_sanity)
$(call install_cmd,$(IFLAGS1) '$<' '$(@D)')
$(sort $(foreach tier,$(INSTALL_TARGETS_TIERS),$(INSTALL_TARGETS_EXECUTABLES_$(tier)))):
$(install_targets_sanity)
$(call install_cmd,$(IFLAGS2) '$<' '$(@D)')
################################################################################
# Preprocessing rules
#
# The PP_TARGETS variable contains a list of all preprocessing target
# categories. Each category has associated variables listing input files, the
# output directory, extra preprocessor flags, and so on. For example:
#
# FOO := input-file
# FOO_PATH := target-directory
# FOO_FLAGS := -Dsome_flag
# PP_TARGETS += FOO
#
# If PP_TARGETS lists a category name <C> (like FOO, above), then we consult the
# following make variables to see what to do:
#
# - <C> lists input files to be preprocessed with mozbuild.action.preprocessor.
# We search VPATH for the names given here. If an input file name ends in
# '.in', that suffix is omitted from the output file name.
#
# - <C>_PATH names the directory in which to place the preprocessed output
# files. We create this directory if it does not already exist. Setting
# this variable is optional; if unset, we install the files in $(CURDIR).
#
# - <C>_FLAGS lists flags to pass to mozbuild.action.preprocessor, in addition
# to the usual bunch. Setting this variable is optional.
#
# - <C>_TARGET names the 'make' target that should depend on creating the output
# files. Setting this variable is optional; if unset, we preprocess the
# files for the 'libs' target.
#
# - <C>_KEEP_PATH may be set to 1 to indicate the paths given in <C> are to be
# kept under <C>_PATH. That is, if <C> is bar/baz/qux.h.in and <C>_PATH is
# $(DIST)/include, the preprocessed file would be $(DIST)/include/bar/baz/qux.h
# instead of $(DIST)/include/qux.h.
pp_target_tier = $(or $($(1)_TARGET),libs)
PP_TARGETS_TIERS := $(sort $(foreach category,$(PP_TARGETS),$(call pp_target_tier,$(category))))
pp_target_result = $(or $($(1)_PATH:%/=%),$(CURDIR))/$(if $($(1)_KEEP_PATH),$(2:.in=),$(notdir $(2:.in=)))
pp_target_results = $(foreach file,$($(1)),$(call pp_target_result,$(category),$(file)))
$(foreach category,$(PP_TARGETS), \
$(foreach tier,$(call pp_target_tier,$(category)), \
$(eval PP_TARGETS_RESULTS_$(tier) += $(call pp_target_results,$(category))) \
) \
$(foreach file,$($(category)), \
$(eval $(call create_dependency,$(call pp_target_result,$(category),$(file)), \
$(file) $(GLOBAL_DEPS))) \
) \
$(eval $(call pp_target_results,$(category)): PP_TARGET_FLAGS=$($(category)_FLAGS)) \
)
$(foreach tier,$(PP_TARGETS_TIERS), \
$(eval $(tier):: $(PP_TARGETS_RESULTS_$(tier))) \
)
PP_TARGETS_ALL_RESULTS := $(sort $(foreach tier,$(PP_TARGETS_TIERS),$(PP_TARGETS_RESULTS_$(tier))))
$(PP_TARGETS_ALL_RESULTS):
$(if $(filter-out $(notdir $@),$(notdir $(<:.in=))),$(error Looks like $@ has an unexpected dependency on $< which breaks PP_TARGETS))
$(RM) '$@'
$(call py_action,preprocessor,--depend $(MDDEPDIR)/$(@F).pp $(PP_TARGET_FLAGS) $(DEFINES) $(ACDEFINES) '$<' -o '$@')
$(filter %.css,$(PP_TARGETS_ALL_RESULTS)): PP_TARGET_FLAGS+=--marker %
# The depfile is based on the filename, and we don't want conflicts. So check
# there's only one occurrence of any given filename in PP_TARGETS_ALL_RESULTS.
PP_TARGETS_ALL_RESULT_NAMES := $(notdir $(PP_TARGETS_ALL_RESULTS))
$(foreach file,$(sort $(PP_TARGETS_ALL_RESULT_NAMES)), \
$(if $(filter-out 1,$(words $(filter $(file),$(PP_TARGETS_ALL_RESULT_NAMES)))), \
$(error Multiple preprocessing rules are creating a $(file) file) \
) \
)
ifneq (,$(filter $(PP_TARGETS_TIERS) $(PP_TARGETS_ALL_RESULTS),$(MAKECMDGOALS)))
# If the depfile for a preprocessed file doesn't exist, add a dep to force
# re-preprocessing.
$(foreach file,$(PP_TARGETS_ALL_RESULTS), \
$(if $(wildcard $(MDDEPDIR)/$(notdir $(file)).pp), \
, \
$(eval $(file): FORCE) \
) \
)
MDDEPEND_FILES := $(strip $(wildcard $(addprefix $(MDDEPDIR)/,$(addsuffix .pp,$(notdir $(PP_TARGETS_ALL_RESULTS))))))
ifneq (,$(MDDEPEND_FILES))
-include $(MDDEPEND_FILES)
endif
endif
# Pull in non-recursive targets if this is a partial tree build.
ifndef TOPLEVEL_BUILD
include $(MOZILLA_DIR)/config/makefiles/nonrecursive.mk
endif
################################################################################
# Special gmake rules.
################################################################################
#
# Re-define the list of default suffixes, so gmake won't have to churn through
# hundreds of built-in suffix rules for stuff we don't need.
#
.SUFFIXES:
#
# Fake targets. Always run these rules, even if a file/directory with that
# name already exists.
#
.PHONY: all alltags boot chrome realchrome clean clobber clobber_all export install libs makefiles realclean run_apprunner tools $(DIRS) FORCE
# Used as a dependency to force targets to rebuild
FORCE:
# Delete target if error occurs when building target
.DELETE_ON_ERROR:
tags: TAGS
TAGS: $(CSRCS) $(CPPSRCS) $(wildcard *.h)
-etags $(CSRCS) $(CPPSRCS) $(wildcard *.h)
$(LOOP_OVER_DIRS)
ifndef INCLUDED_DEBUGMAKE_MK #{
## Only parse when an echo* or show* target is requested
ifneq (,$(call isTargetStem,echo,show))
include $(MOZILLA_DIR)/config/makefiles/debugmake.mk
endif #}
endif #}
documentation:
@cd $(DEPTH)
$(DOXYGEN) $(DEPTH)/config/doxygen.cfg
FREEZE_VARIABLES = \
CSRCS \
CPPSRCS \
EXPORTS \
DIRS \
LIBRARY \
MODULE \
$(NULL)
$(foreach var,$(FREEZE_VARIABLES),$(eval $(var)_FROZEN := '$($(var))'))
CHECK_FROZEN_VARIABLES = $(foreach var,$(FREEZE_VARIABLES), \
$(if $(subst $($(var)_FROZEN),,'$($(var))'),$(error Makefile variable '$(var)' changed value after including rules.mk. Was $($(var)_FROZEN), now $($(var)).)))
libs export::
$(CHECK_FROZEN_VARIABLES)
.DEFAULT_GOAL := $(or $(OVERRIDE_DEFAULT_GOAL),default)
#############################################################################
# Derived targets and dependencies
include $(MOZILLA_DIR)/config/makefiles/autotargets.mk
ifneq ($(NULL),$(AUTO_DEPS))
default all libs tools export:: $(AUTO_DEPS)
endif