# -*- 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 $(notdir $@)) ifdef BUILD_VERBOSE_LOG REPORT_BUILD_VERBOSE = $(REPORT_BUILD) else REPORT_BUILD_VERBOSE = endif endif EXEC = exec # ELOG prints out failed command when building silently (gmake -s). Pymake # prints out failed commands anyway, so ELOG just makes things worse by # forcing shell invocations. ifneq (,$(findstring -s, $(filter-out --%, $(MAKEFLAGS)))) ELOG := $(EXEC) sh $(BUILD_TOOLS)/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 += $(CPP_UNIT_TESTS) INCLUDES += -I$(ABS_DIST)/include/testing 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 # Don't build actual static library if a shared library is also built ifdef FORCE_SHARED_LIB # ... except when we really want one ifdef NO_EXPAND_LIBS LIBRARY := $(REAL_LIBRARY) else LIBRARY := $(REAL_LIBRARY).$(LIBS_DESC_SUFFIX) endif else # Only build actual library if it is installed in DIST/lib ifeq (,$(DIST_INSTALL)$(NO_EXPAND_LIBS)) LIBRARY := $(REAL_LIBRARY).$(LIBS_DESC_SUFFIX) else ifdef NO_EXPAND_LIBS LIBRARY := $(REAL_LIBRARY) else LIBRARY := $(REAL_LIBRARY) $(REAL_LIBRARY).$(LIBS_DESC_SUFFIX) endif endif endif endif # REAL_LIBRARY endif # LIBRARY ifndef HOST_LIBRARY ifdef HOST_LIBRARY_NAME HOST_LIBRARY := $(LIB_PREFIX)$(HOST_LIBRARY_NAME).$(LIB_SUFFIX) 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) ifndef GNU_CC # # Unless we're building SIMPLE_PROGRAMS, all C++ files share a PDB file per # directory. For parallel builds, this PDB file is shared and locked by # MSPDBSRV.EXE, starting with MSVC8 SP1. If you're using MSVC 7.1 or MSVC8 # without SP1, don't do parallel builds. # # The final PDB for libraries and programs is created by the linker and uses # a different name from the single PDB file created by the compiler. See # bug 462740. # ifdef SIMPLE_PROGRAMS COMPILE_PDB_FLAG ?= -Fd$(basename $(@F)).pdb else COMPILE_PDB_FLAG ?= -Fdgenerated.pdb -FS endif COMPILE_CFLAGS += $(COMPILE_PDB_FLAG) COMPILE_CXXFLAGS += $(COMPILE_PDB_FLAG) LINK_PDBFILE ?= $(basename $(@F)).pdb ifdef MOZ_DEBUG CODFILE=$(basename $(@F)).cod endif ifdef DEFFILE OS_LDFLAGS += -DEF:$(call normalizepath,$(DEFFILE)) EXTRA_DEPS += $(DEFFILE) endif else #!GNU_CC ifdef DEFFILE OS_LDFLAGS += $(call normalizepath,$(DEFFILE)) EXTRA_DEPS += $(DEFFILE) endif endif # !GNU_CC endif # WINNT ifeq (arm-Darwin,$(CPU_ARCH)-$(OS_TARGET)) ifdef PROGRAM MOZ_PROGRAM_LDFLAGS += -Wl,-rpath -Wl,@executable_path/Frameworks endif endif ifeq ($(HOST_OS_ARCH),WINNT) HOST_PDBFILE=$(basename $(@F)).pdb HOST_PDB_FLAG ?= -Fd$(HOST_PDBFILE) HOST_CFLAGS += $(HOST_PDB_FLAG) HOST_CXXFLAGS += $(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_LIBRARY) $(HOST_PROGRAM) $(HOST_SIMPLE_PROGRAMS) 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_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) \ $(EXE_DEF_FILE) 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 ifeq ($(OS_ARCH),NetBSD) ifneq (,$(filter arc cobalt hpcmips mipsco newsmips pmax sgimips,$(OS_TEST))) ifneq (,$(filter layout/%,$(relativesrcdir))) OS_CFLAGS += -Wa,-xgot OS_CXXFLAGS += -Wa,-xgot endif endif endif # # Linux: add -Bsymbolic flag for components # ifeq ($(OS_ARCH),Linux) ifdef LD_VERSION_SCRIPT EXTRA_DSO_LDOPTS += -Wl,--version-script,$(LD_VERSION_SCRIPT) EXTRA_DEPS += $(LD_VERSION_SCRIPT) endif endif ifdef SYMBOLS_FILE ifeq ($(OS_TARGET),WINNT) ifndef GNU_CC EXTRA_DSO_LDOPTS += -DEF:$(call normalizepath,$(SYMBOLS_FILE)) else EXTRA_DSO_LDOPTS += $(call normalizepath,$(SYMBOLS_FILE)) endif else ifdef GCC_USE_GNU_LD EXTRA_DSO_LDOPTS += -Wl,--version-script,$(SYMBOLS_FILE) else ifeq ($(OS_TARGET),Darwin) EXTRA_DSO_LDOPTS += -Wl,-exported_symbols_list,$(SYMBOLS_FILE) endif endif endif EXTRA_DEPS += $(SYMBOLS_FILE) endif # # GNU doesn't have path length limitation # ifeq ($(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)_$(OS_ARCH)) OUTOPTION = -Fo# eol else OUTOPTION = -o # eol endif # WINNT && !GNU_CC ifneq (,$(filter ml%,$(AS))) ASOUTOPTION = -Fo# eol else ASOUTOPTION = -o # eol endif ifeq (,$(CROSS_COMPILE)) HOST_OUTOPTION = $(OUTOPTION) else HOST_OUTOPTION = -o # eol 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 STATIC_LIB_DEP = $(if $(wildcard $(1).$(LIBS_DESC_SUFFIX)),$(1).$(LIBS_DESC_SUFFIX),$(1)) STATIC_LIBS_DEPS := $(foreach l,$(STATIC_LIBS),$(call STATIC_LIB_DEP,$(l))) # 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_LIBRARY) $(HOST_PROGRAM) $(HOST_SIMPLE_PROGRAMS) $(HOST_RUST_PROGRAMS) $(HOST_RUST_LIBRARY_FILE) target:: $(LIBRARY) $(SHARED_LIBRARY) $(PROGRAM) $(SIMPLE_PROGRAMS) $(RUST_LIBRARY_FILE) $(RUST_PROGRAMS) 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 ############################################## checkout: $(MAKE) -C $(topsrcdir) -f client.mk checkout clean clobber realclean clobber_all:: -$(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) # # PROGRAM = Foo # creates OBJS, links with LIBS to create Foo # $(PROGRAM): $(PROGOBJS) $(STATIC_LIBS_DEPS) $(EXTRA_DEPS) $(EXE_DEF_FILE) $(RESFILE) $(GLOBAL_DEPS) $(REPORT_BUILD) @$(RM) $@.manifest ifeq (_WINNT,$(GNU_CC)_$(OS_ARCH)) $(EXPAND_LINK) -NOLOGO -OUT:$@ -PDB:$(LINK_PDBFILE) $(WIN32_EXE_LDFLAGS) $(LDFLAGS) $(MOZ_PROGRAM_LDFLAGS) $(PROGOBJS) $(RESFILE) $(STATIC_LIBS) $(SHARED_LIBS) $(EXTRA_LIBS) $(OS_LIBS) ifdef MSMANIFEST_TOOL @if test -f $@.manifest; then \ if test -f '$(srcdir)/$@.manifest'; then \ echo 'Embedding manifest from $(srcdir)/$@.manifest and $@.manifest'; \ $(MT) -NOLOGO -MANIFEST '$(win_srcdir)/$@.manifest' $@.manifest -OUTPUTRESOURCE:$@\;1; \ else \ echo 'Embedding manifest from $@.manifest'; \ $(MT) -NOLOGO -MANIFEST $@.manifest -OUTPUTRESOURCE:$@\;1; \ fi; \ elif test -f '$(srcdir)/$@.manifest'; then \ echo 'Embedding manifest from $(srcdir)/$@.manifest'; \ $(MT) -NOLOGO -MANIFEST '$(win_srcdir)/$@.manifest' -OUTPUTRESOURCE:$@\;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 $(EXPAND_CCC) -o $@ $(CXXFLAGS) $(PROGOBJS) $(RESFILE) $(WIN32_EXE_LDFLAGS) $(LDFLAGS) $(WRAP_LDFLAGS) $(STATIC_LIBS) $(MOZ_PROGRAM_LDFLAGS) $(SHARED_LIBS) $(EXTRA_LIBS) $(OS_LIBS) $(BIN_FLAGS) $(EXE_DEF_FILE) $(call CHECK_BINARY,$@) 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) $(REPORT_BUILD) ifeq (_WINNT,$(GNU_CC)_$(HOST_OS_ARCH)) $(EXPAND_LIBS_EXEC) -- $(LINK) -NOLOGO -OUT:$@ -PDB:$(HOST_PDBFILE) $(HOST_OBJS) $(WIN32_EXE_LDFLAGS) $(HOST_LDFLAGS) $(HOST_LIBS) $(HOST_EXTRA_LIBS) ifdef MSMANIFEST_TOOL @if test -f $@.manifest; then \ if test -f '$(srcdir)/$@.manifest'; then \ echo 'Embedding manifest from $(srcdir)/$@.manifest and $@.manifest'; \ $(MT) -NOLOGO -MANIFEST '$(win_srcdir)/$@.manifest' $@.manifest -OUTPUTRESOURCE:$@\;1; \ else \ echo 'Embedding manifest from $@.manifest'; \ $(MT) -NOLOGO -MANIFEST $@.manifest -OUTPUTRESOURCE:$@\;1; \ fi; \ elif test -f '$(srcdir)/$@.manifest'; then \ echo 'Embedding manifest from $(srcdir)/$@.manifest'; \ $(MT) -NOLOGO -MANIFEST '$(win_srcdir)/$@.manifest' -OUTPUTRESOURCE:$@\;1; \ fi endif # MSVC with manifest tool else ifeq ($(HOST_CPP_PROG_LINK),1) $(EXPAND_LIBS_EXEC) -- $(HOST_CXX) -o $@ $(HOST_CXXFLAGS) $(HOST_LDFLAGS) $(HOST_PROGOBJS) $(HOST_LIBS) $(HOST_EXTRA_LIBS) else $(EXPAND_LIBS_EXEC) -- $(HOST_CC) -o $@ $(HOST_CFLAGS) $(HOST_LDFLAGS) $(HOST_PROGOBJS) $(HOST_LIBS) $(HOST_EXTRA_LIBS) endif # HOST_CPP_PROG_LINK endif ifndef CROSS_COMPILE $(call CHECK_STDCXX,$@) 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_DEPS) $(EXTRA_DEPS) $(GLOBAL_DEPS) $(REPORT_BUILD) ifeq (_WINNT,$(GNU_CC)_$(OS_ARCH)) $(EXPAND_LINK) -nologo -out:$@ -pdb:$(LINK_PDBFILE) $< $(WIN32_EXE_LDFLAGS) $(LDFLAGS) $(MOZ_PROGRAM_LDFLAGS) $(STATIC_LIBS) $(SHARED_LIBS) $(EXTRA_LIBS) $(OS_LIBS) ifdef MSMANIFEST_TOOL @if test -f $@.manifest; then \ $(MT) -NOLOGO -MANIFEST $@.manifest -OUTPUTRESOURCE:$@\;1; \ rm -f $@.manifest; \ fi endif # MSVC with manifest tool else $(EXPAND_CCC) $(CXXFLAGS) -o $@ $< $(WIN32_EXE_LDFLAGS) $(LDFLAGS) $(WRAP_LDFLAGS) $(STATIC_LIBS) $(MOZ_PROGRAM_LDFLAGS) $(SHARED_LIBS) $(EXTRA_LIBS) $(OS_LIBS) $(BIN_FLAGS) $(call CHECK_BINARY,$@) 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_%.$(OBJ_SUFFIX) $(HOST_LIBS) $(HOST_EXTRA_DEPS) $(GLOBAL_DEPS) $(REPORT_BUILD) ifeq (WINNT_,$(HOST_OS_ARCH)_$(GNU_CC)) $(EXPAND_LIBS_EXEC) -- $(LINK) -NOLOGO -OUT:$@ -PDB:$(HOST_PDBFILE) $< $(WIN32_EXE_LDFLAGS) $(HOST_LIBS) $(HOST_EXTRA_LIBS) else ifneq (,$(HOST_CPPSRCS)$(USE_HOST_CXX)) $(EXPAND_LIBS_EXEC) -- $(HOST_CXX) $(HOST_OUTOPTION)$@ $(HOST_CXXFLAGS) $(INCLUDES) $< $(HOST_LIBS) $(HOST_EXTRA_LIBS) else $(EXPAND_LIBS_EXEC) -- $(HOST_CC) $(HOST_OUTOPTION)$@ $(HOST_CFLAGS) $(INCLUDES) $< $(HOST_LIBS) $(HOST_EXTRA_LIBS) endif endif ifndef CROSS_COMPILE $(call CHECK_STDCXX,$@) endif $(filter %.$(LIB_SUFFIX),$(LIBRARY)): $(OBJS) $(STATIC_LIBS_DEPS) $(filter %.$(LIB_SUFFIX),$(EXTRA_LIBS)) $(EXTRA_DEPS) $(GLOBAL_DEPS) $(REPORT_BUILD) # Always remove both library and library descriptor $(RM) $(REAL_LIBRARY) $(REAL_LIBRARY).$(LIBS_DESC_SUFFIX) $(EXPAND_AR) $(AR_FLAGS) $(OBJS) $(STATIC_LIBS) $(filter %.$(LIB_SUFFIX),$(EXTRA_LIBS)) $(filter-out %.$(LIB_SUFFIX),$(LIBRARY)): $(filter %.$(LIB_SUFFIX),$(LIBRARY)) $(OBJS) $(STATIC_LIBS_DEPS) $(filter %.$(LIB_SUFFIX),$(EXTRA_LIBS)) $(EXTRA_DEPS) $(GLOBAL_DEPS) # When we only build a library descriptor, blow out any existing library $(REPORT_BUILD) $(if $(filter %.$(LIB_SUFFIX),$(LIBRARY)),,$(RM) $(REAL_LIBRARY)) $(EXPAND_LIBS_GEN) -o $@ $(OBJS) $(STATIC_LIBS) $(filter %.$(LIB_SUFFIX),$(EXTRA_LIBS)) ifeq ($(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_LIBRARY): $(HOST_OBJS) Makefile $(REPORT_BUILD) $(RM) $@ $(EXPAND_LIBS_EXEC) --extract -- $(HOST_AR) $(HOST_AR_FLAGS) $(HOST_OBJS) # 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_FOR_SHARED_LIB) $(STATIC_LIBS_DEPS) $(EXTRA_DEPS) $(GLOBAL_DEPS) $(REPORT_BUILD) ifndef INCREMENTAL_LINKER $(RM) $@ endif $(EXPAND_MKSHLIB) $(SHLIB_LDSTARTFILE) $(OBJS) $(SUB_SHLOBJS) $(RESFILE) $(LDFLAGS) $(WRAP_LDFLAGS) $(STATIC_LIBS) $(RUST_STATIC_LIB_FOR_SHARED_LIB) $(SHARED_LIBS) $(EXTRA_DSO_LDOPTS) $(MOZ_GLUE_LDFLAGS) $(EXTRA_LIBS) $(OS_LIBS) $(SHLIB_LDENDFILE) $(call CHECK_BINARY,$@) 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 $(srcdir)/$@.manifest and $@.manifest'; \ $(MT) -NOLOGO -MANIFEST '$(win_srcdir)/$@.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 $(srcdir)/$@.manifest'; \ $(MT) -NOLOGO -MANIFEST '$(win_srcdir)/$@.manifest' -OUTPUTRESOURCE:$@\;$(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 $2$(notdir $1)).$(OBJ_SUFFIX): $1 $$(call mkdir_deps,$$(MDDEPDIR)) endef $(foreach f,$(CSRCS) $(SSRCS) $(CPPSRCS) $(CMSRCS) $(CMMSRCS) $(ASFILES),$(eval $(call src_objdep,$(f)))) $(foreach f,$(HOST_CSRCS) $(HOST_CPPSRCS) $(HOST_CMSRCS) $(HOST_CMMSRCS),$(eval $(call src_objdep,$(f),host_))) # The Rust compiler only outputs library objects, and so we need different # mangling to generate dependency rules for it. mk_libname = $(basename lib$(notdir $1)).rlib src_libdep = $(call mk_libname,$1): $1 $$(call mkdir_deps,$$(MDDEPDIR)) mk_global_crate_libname = $(basename lib$(notdir $1)).$(LIB_SUFFIX) crate_src_libdep = $(call mk_global_crate_libname,$1): $1 $$(call mkdir_deps,$$(MDDEPDIR)) $(foreach f,$(RSSRCS),$(eval $(call src_libdep,$(f)))) $(foreach f,$(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) $(INCLUDES) $(NSPR_CFLAGS) $(_VPATH_SRCS) $(HOST_CPPOBJS): $(REPORT_BUILD_VERBOSE) $(call BUILDSTATUS,OBJECT_FILE $@) $(ELOG) $(HOST_CXX) $(HOST_OUTOPTION)$@ -c $(HOST_CPPFLAGS) $(HOST_CXXFLAGS) $(INCLUDES) $(NSPR_CFLAGS) $(_VPATH_SRCS) $(HOST_CMOBJS): $(REPORT_BUILD_VERBOSE) $(ELOG) $(HOST_CC) $(HOST_OUTOPTION)$@ -c $(HOST_CPPFLAGS) $(HOST_CFLAGS) $(HOST_CMFLAGS) $(INCLUDES) $(NSPR_CFLAGS) $(_VPATH_SRCS) $(HOST_CMMOBJS): $(REPORT_BUILD_VERBOSE) $(ELOG) $(HOST_CXX) $(HOST_OUTOPTION)$@ -c $(HOST_CPPFLAGS) $(HOST_CXXFLAGS) $(HOST_CMMFLAGS) $(INCLUDES) $(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) $$(call py_action,dumpsymbols,$$(abspath $$<) $$(abspath $$@)) 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 $(foreach file,$(DUMP_SYMS_TARGETS),$(eval $(call syms_template,$(file),$(file)_syms.track))) cargo_host_flag := --target=$(RUST_HOST_TARGET) cargo_target_flag := --target=$(RUST_TARGET) # Permit users to pass flags to cargo from their mozconfigs (e.g. --color=always). cargo_build_flags = $(CARGOFLAGS) ifndef MOZ_DEBUG_RUST cargo_build_flags += --release endif cargo_build_flags += --frozen cargo_build_flags += --manifest-path $(CARGO_FILE) ifdef BUILD_VERBOSE_LOG cargo_build_flags += --verbose else ifdef MOZ_AUTOMATION cargo_build_flags += --verbose endif # MOZ_AUTOMATION endif # BUILD_VERBOSE_LOG # Enable color output if original stdout was a TTY and color settings # aren't already present. This essentially restores the default behavior # of cargo when running via `mach`. ifdef MACH_STDOUT_ISATTY ifeq (,$(findstring --color,$(cargo_build_flags))) cargo_build_flags += --color=always endif endif # Cargo currently supports only two interesting profiles for building: # development and release. Those map (roughly) to --enable-debug and # --disable-debug in Gecko, respectively, but there's another axis that we'd # like to support: --{disable,enable}-optimize. Since that would be four # choices, and Cargo only supports two, we choose to enable various # optimization levels in our Cargo.toml files all the time, and override the # optimization level here, if necessary. (The Cargo.toml files already # specify debug-assertions appropriately for --{disable,enable}-debug.) default_rustflags = ifndef MOZ_OPTIMIZE default_rustflags = -C opt-level=0 # Unfortunately, -C opt-level=0 implies -C debug-assertions, so we need # to explicitly disable them when MOZ_DEBUG_RUST is not set. ifndef MOZ_DEBUG_RUST default_rustflags += -C debug-assertions=no endif endif rustflags_override = RUSTFLAGS='$(default_rustflags) $(RUSTFLAGS)' ifdef MOZ_MSVCBITS # If we are building a MozillaBuild shell, we want to clear out the # vcvars.bat environment variables for cargo builds. This is because # a 32-bit MozillaBuild shell on a 64-bit machine will try to use # the 32-bit compiler/linker for everything, while cargo/rustc wants # to use the 64-bit linker for build.rs scripts. This conflict results # in a build failure (see bug 1350001). So we clear out the environment # variables that are actually relevant to 32- vs 64-bit builds. environment_cleaner = -u VCINSTALLDIR PATH='' LIB='' LIBPATH='' # The servo build needs to know where python is, and we're removing the PATH # so we tell it explicitly via the PYTHON env var. environment_cleaner += PYTHON='$(shell which $(PYTHON))' else environment_cleaner = endif rust_unlock_unstable = ifdef MOZ_RUST_SIMD rust_unlock_unstable += RUSTC_BOOTSTRAP=1 endif ifdef MOZ_USING_SCCACHE sccache_wrap := RUSTC_WRAPPER='$(CCACHE)' endif # XXX hack to work around dsymutil failing on cross-OSX builds (bug 1380381) ifeq ($(HOST_OS_ARCH)-$(OS_ARCH),Linux-Darwin) default_rustflags += -C debuginfo=1 else default_rustflags += -C debuginfo=2 endif # We use the + prefix to pass down the jobserver fds to cargo, but we # don't use the prefix when make -n is used, so that cargo doesn't run # in that case) define RUN_CARGO $(if $(findstring n,$(filter-out --%, $(MAKEFLAGS))),,+)env $(environment_cleaner) $(rust_unlock_unstable) $(rustflags_override) $(sccache_wrap) \ CARGO_TARGET_DIR=$(CARGO_TARGET_DIR) \ RUSTC=$(RUSTC) \ MOZ_SRC=$(topsrcdir) \ MOZ_DIST=$(ABS_DIST) \ LIBCLANG_PATH="$(MOZ_LIBCLANG_PATH)" \ CLANG_PATH="$(MOZ_CLANG_PATH)" \ PKG_CONFIG_ALLOW_CROSS=1 \ RUST_BACKTRACE=1 \ MOZ_TOPOBJDIR=$(topobjdir) \ $(2) \ $(CARGO) $(1) $(cargo_build_flags) endef # This function is intended to be called by: # # $(call CARGO_BUILD,EXTRA_ENV_VAR1=X EXTRA_ENV_VAR2=Y ...) # # but, given the idiosyncracies of make, can also be called without arguments: # # $(call CARGO_BUILD) define CARGO_BUILD $(call RUN_CARGO,build,$(1)) endef define CARGO_CHECK $(call RUN_CARGO,check,$(1)) endef cargo_linker_env_var := CARGO_TARGET_$(RUST_TARGET_ENV_NAME)_LINKER # Don't define a custom linker on Windows, as it's difficult to have a # non-binary file that will get executed correctly by Cargo. We don't # have to worry about a cross-compiling (besides x86-64 -> x86, which # already works with the current setup) setup on Windows, and we don't # have to pass in any special linker options on Windows. ifneq (WINNT,$(OS_ARCH)) # Defining all of this for ASan/TSan builds results in crashes while running # some crates's build scripts (!), so disable it for now. ifndef MOZ_ASAN ifndef MOZ_TSAN # Cargo needs the same linker flags as the C/C++ compiler, # but not the final libraries. Filter those out because they # cause problems on macOS 10.7; see bug 1365993 for details. target_cargo_env_vars := \ MOZ_CARGO_WRAP_LDFLAGS="$(filter-out -framework Cocoa -lobjc AudioToolbox ExceptionHandling,$(LDFLAGS))" \ MOZ_CARGO_WRAP_LD="$(CC)" \ $(cargo_linker_env_var)=$(topsrcdir)/build/cargo-linker endif # MOZ_TSAN endif # MOZ_ASAN endif # ifneq WINNT ifdef RUST_LIBRARY_FILE ifdef RUST_LIBRARY_FEATURES rust_features_flag := --features "$(RUST_LIBRARY_FEATURES)" endif # Assume any system libraries rustc links against are already in the target's LIBS. # # We need to run cargo unconditionally, because cargo is the only thing that # has full visibility into how changes in Rust sources might affect the final # build. force-cargo-library-build: $(REPORT_BUILD) $(call CARGO_BUILD,$(target_cargo_env_vars)) --lib $(cargo_target_flag) $(rust_features_flag) $(RUST_LIBRARY_FILE): force-cargo-library-build force-cargo-library-check: $(call CARGO_CHECK,$(target_cargo_env_vars)) --lib $(cargo_target_flag) $(rust_features_flag) else force-cargo-library-check: @true endif # RUST_LIBRARY_FILE ifdef HOST_RUST_LIBRARY_FILE ifdef HOST_RUST_LIBRARY_FEATURES host_rust_features_flag := --features "$(HOST_RUST_LIBRARY_FEATURES)" endif force-cargo-host-library-build: $(REPORT_BUILD) $(call CARGO_BUILD) --lib $(cargo_host_flag) $(host_rust_features_flag) $(HOST_RUST_LIBRARY_FILE): force-cargo-host-library-build force-cargo-host-library-check: $(call CARGO_CHECK) --lib $(cargo_host_flag) $(host_rust_features_flag) else force-cargo-host-library-check: @true endif # HOST_RUST_LIBRARY_FILE ifdef RUST_PROGRAMS force-cargo-program-build: $(REPORT_BUILD) $(call CARGO_BUILD,$(target_cargo_env_vars)) $(addprefix --bin ,$(RUST_CARGO_PROGRAMS)) $(cargo_target_flag) $(RUST_PROGRAMS): force-cargo-program-build force-cargo-program-check: $(call CARGO_CHECK,$(target_cargo_env_vars)) $(addprefix --bin ,$(RUST_CARGO_PROGRAMS)) $(cargo_target_flag) else force-cargo-program-check: @true endif # RUST_PROGRAMS ifdef HOST_RUST_PROGRAMS force-cargo-host-program-build: $(REPORT_BUILD) $(call CARGO_BUILD) $(addprefix --bin ,$(HOST_RUST_CARGO_PROGRAMS)) $(cargo_host_flag) $(HOST_RUST_PROGRAMS): force-cargo-host-program-build force-cargo-host-program-check: $(REPORT_BUILD) $(call CARGO_CHECK) $(addprefix --bin ,$(HOST_RUST_CARGO_PROGRAMS)) $(cargo_host_flag) else force-cargo-host-program-check: @true endif # HOST_RUST_PROGRAMS $(SOBJS): $(REPORT_BUILD) $(AS) -o $@ $(DEFINES) $(ASFLAGS) $($(notdir $<)_FLAGS) $(LOCAL_INCLUDES) -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 = $(1) endif ############################################################################### # Java rules ############################################################################### ifneq (,$(JAVAFILES)$(ANDROID_RESFILES)$(ANDROID_APKNAME)$(JAVA_JAR_TARGETS)) include $(MOZILLA_DIR)/config/makefiles/java-build.mk endif ############################################################################### # Bunch of things that extend the 'export' rule (in order): ############################################################################### ifneq ($(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 ############################################################################# -include $(topsrcdir)/$(MOZ_BUILD_APP)/app-rules.mk -include $(MY_RULES) # # Generate Emacs tags in a file named TAGS if ETAGS was set in $(MY_CONFIG) # or in $(MY_RULES) # ifdef ETAGS ifneq ($(CSRCS)$(CPPSRCS)$(HEADERS),) all:: TAGS TAGS:: $(CSRCS) $(CPPSRCS) $(HEADERS) $(ETAGS) $(CSRCS) $(CPPSRCS) $(HEADERS) endif 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 (like FOO, above), then we consult the # following make variables to see what to do: # # - 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. # # - _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). # # - _FLAGS lists flags to pass to mozbuild.action.preprocessor, in addition # to the usual bunch. Setting this variable is optional. # # - _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. # # - _KEEP_PATH may be set to 1 to indicate the paths given in are to be # kept under _PATH. That is, if is bar/baz/qux.h.in and _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 checkout 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) PURGECACHES_DIRS ?= $(DIST)/bin PURGECACHES_FILES = $(addsuffix /.purgecaches,$(PURGECACHES_DIRS)) default all:: $(PURGECACHES_FILES) $(PURGECACHES_FILES): if test -d $(@D) ; then touch $@ ; fi .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