# Copyright 2014 The Rust Project Developers. See the COPYRIGHT # file at the top-level directory of this distribution and at # http://rust-lang.org/COPYRIGHT. # # Licensed under the Apache License, Version 2.0 or the MIT license # , at your # option. This file may not be copied, modified, or distributed # except according to those terms. ################################################################################ # Native libraries built as part of the rust build process # # This portion of the rust build system is meant to keep track of native # dependencies and how to build them. It is currently required that all native # dependencies are built as static libraries, as slinging around dynamic # libraries isn't exactly the most fun thing to do. # # This section should need minimal modification to add new libraries. The # relevant variables are: # # NATIVE_LIBS # This is a list of all native libraries which are built as part of the # build process. It will build all libraries into RT_OUTPUT_DIR with the # appropriate name of static library as dictated by the target platform # # NATIVE_DEPS_ # This is a list of files relative to the src/rt directory which are # needed to build the native library. Each file will be compiled to an # object file, and then all the object files will be assembled into an # archive (static library). The list contains files of any extension # # If adding a new library, you should update the NATIVE_LIBS list, and then list # the required files below it. The list of required files is a list of files # that's per-target so you're allowed to conditionally add files based on the # target. ################################################################################ NATIVE_LIBS := hoedown miniz rust_test_helpers # A macro to add a generic implementation of intrinsics iff a arch optimized implementation is not # already in the list. # $(1) is the target # $(2) is the intrinsic define ADD_INTRINSIC ifeq ($$(findstring X,$$(foreach intrinsic,$$(COMPRT_OBJS_$(1)),$$(if $$(findstring $(2),$$(intrinsic)),X,))),) COMPRT_OBJS_$(1) += $(2) endif endef # $(1) is the target triple define NATIVE_LIBRARIES NATIVE_DEPS_hoedown_$(1) := hoedown/src/autolink.c \ hoedown/src/buffer.c \ hoedown/src/document.c \ hoedown/src/escape.c \ hoedown/src/html.c \ hoedown/src/html_blocks.c \ hoedown/src/html_smartypants.c \ hoedown/src/stack.c \ hoedown/src/version.c NATIVE_DEPS_miniz_$(1) = miniz.c NATIVE_DEPS_rust_test_helpers_$(1) := rust_test_helpers.c ################################################################################ # You shouldn't find it that necessary to edit anything below this line. ################################################################################ # While we're defining the native libraries for each target, we define some # common rules used to build files for various targets. RT_OUTPUT_DIR_$(1) := $(1)/rt $$(RT_OUTPUT_DIR_$(1))/%.o: $(S)src/rt/%.c $$(MKFILE_DEPS) @mkdir -p $$(@D) @$$(call E, compile: $$@) $$(Q)$$(call CFG_COMPILE_C_$(1), $$@, \ $$(call CFG_CC_INCLUDE_$(1),$$(S)src/rt/hoedown/src) \ $$(call CFG_CC_INCLUDE_$(1),$$(S)src/rt) \ $$(RUNTIME_CFLAGS_$(1))) $$< $$(RT_OUTPUT_DIR_$(1))/%.o: $(S)src/rt/%.S $$(MKFILE_DEPS) \ $$(LLVM_CONFIG_$$(CFG_BUILD)) @mkdir -p $$(@D) @$$(call E, compile: $$@) $$(Q)$$(call CFG_ASSEMBLE_$(1),$$@,$$<) # On MSVC targets the compiler's default include path (e.g. where to find system # headers) is specified by the INCLUDE environment variable. This may not be set # so the ./configure script scraped the relevant values and this is the location # that we put them into cl.exe's environment. ifeq ($$(findstring msvc,$(1)),msvc) $$(RT_OUTPUT_DIR_$(1))/%.o: \ export INCLUDE := $$(CFG_MSVC_INCLUDE_PATH_$$(HOST_$(1))) $(1)/rustllvm/%.o: \ export INCLUDE := $$(CFG_MSVC_INCLUDE_PATH_$$(HOST_$(1))) endif endef $(foreach target,$(CFG_TARGET),$(eval $(call NATIVE_LIBRARIES,$(target)))) # A macro for devining how to build third party libraries listed above (based # on their dependencies). # # $(1) is the target # $(2) is the lib name define THIRD_PARTY_LIB OBJS_$(2)_$(1) := $$(NATIVE_DEPS_$(2)_$(1):%=$$(RT_OUTPUT_DIR_$(1))/%) OBJS_$(2)_$(1) := $$(OBJS_$(2)_$(1):.c=.o) OBJS_$(2)_$(1) := $$(OBJS_$(2)_$(1):.cpp=.o) OBJS_$(2)_$(1) := $$(OBJS_$(2)_$(1):.S=.o) NATIVE_$(2)_$(1) := $$(call CFG_STATIC_LIB_NAME_$(1),$(2)) $$(RT_OUTPUT_DIR_$(1))/$$(NATIVE_$(2)_$(1)): $$(OBJS_$(2)_$(1)) @$$(call E, link: $$@) $$(Q)$$(call CFG_CREATE_ARCHIVE_$(1),$$@) $$^ endef $(foreach target,$(CFG_TARGET), \ $(eval $(call RUNTIME_RULES,$(target)))) $(foreach lib,$(NATIVE_LIBS), \ $(foreach target,$(CFG_TARGET), \ $(eval $(call THIRD_PARTY_LIB,$(target),$(lib))))) ################################################################################ # Building third-party targets with external build systems # # This location is meant for dependencies which have external build systems. It # is still assumed that the output of each of these steps is a static library # in the correct location. ################################################################################ define DEF_THIRD_PARTY_TARGETS # $(1) is the target triple ifeq ($$(CFG_WINDOWSY_$(1)),1) # A bit of history here, this used to be --enable-lazy-lock added in #14006 # which was filed with jemalloc in jemalloc/jemalloc#83 which was also # reported to MinGW: http://sourceforge.net/p/mingw-w64/bugs/395/ # # When updating jemalloc to 4.0, however, it was found that binaries would # exit with the status code STATUS_RESOURCE_NOT_OWNED indicating that a thread # was unlocking a mutex it never locked. Disabling this "lazy lock" option # seems to fix the issue, but it was enabled by default for MinGW targets in # 13473c7 for jemalloc. # # As a result of all that, force disabling lazy lock on Windows, and after # reading some code it at least *appears* that the initialization of mutexes # is otherwise ok in jemalloc, so shouldn't cause problems hopefully... # # tl;dr: make windows behave like other platforms by disabling lazy locking, # but requires passing an option due to a historical default with # jemalloc. JEMALLOC_ARGS_$(1) := --disable-lazy-lock else ifeq ($(OSTYPE_$(1)), apple-ios) JEMALLOC_ARGS_$(1) := --disable-tls else ifeq ($(findstring android, $(OSTYPE_$(1))), android) # We force android to have prefixed symbols because apparently replacement of # the libc allocator doesn't quite work. When this was tested (unprefixed # symbols), it was found that the `realpath` function in libc would allocate # with libc malloc (not jemalloc malloc), and then the standard library would # free with jemalloc free, causing a segfault. # # If the test suite passes, however, without symbol prefixes then we should be # good to go! JEMALLOC_ARGS_$(1) := --disable-tls --with-jemalloc-prefix=je_ else ifeq ($(findstring dragonfly, $(OSTYPE_$(1))), dragonfly) JEMALLOC_ARGS_$(1) := --with-jemalloc-prefix=je_ endif ifdef CFG_ENABLE_DEBUG_JEMALLOC JEMALLOC_ARGS_$(1) += --enable-debug --enable-fill endif ################################################################################ # jemalloc ################################################################################ ifdef CFG_ENABLE_FAST_MAKE JEMALLOC_DEPS := $(S)/.gitmodules else JEMALLOC_DEPS := $(wildcard \ $(S)src/jemalloc/* \ $(S)src/jemalloc/*/* \ $(S)src/jemalloc/*/*/* \ $(S)src/jemalloc/*/*/*/*) endif # See #17183 for details, this file is touched during the build process so we # don't want to consider it as a dependency. JEMALLOC_DEPS := $(filter-out $(S)src/jemalloc/VERSION,$(JEMALLOC_DEPS)) JEMALLOC_NAME_$(1) := $$(call CFG_STATIC_LIB_NAME_$(1),jemalloc) ifeq ($$(CFG_WINDOWSY_$(1)),1) JEMALLOC_REAL_NAME_$(1) := $$(call CFG_STATIC_LIB_NAME_$(1),jemalloc_s) else JEMALLOC_REAL_NAME_$(1) := $$(call CFG_STATIC_LIB_NAME_$(1),jemalloc_pic) endif JEMALLOC_LIB_$(1) := $$(RT_OUTPUT_DIR_$(1))/$$(JEMALLOC_NAME_$(1)) JEMALLOC_BUILD_DIR_$(1) := $$(RT_OUTPUT_DIR_$(1))/jemalloc JEMALLOC_LOCAL_$(1) := $$(JEMALLOC_BUILD_DIR_$(1))/lib/$$(JEMALLOC_REAL_NAME_$(1)) $$(JEMALLOC_LOCAL_$(1)): $$(JEMALLOC_DEPS) $$(MKFILE_DEPS) @$$(call E, make: jemalloc) cd "$$(JEMALLOC_BUILD_DIR_$(1))"; "$(S)src/jemalloc/configure" \ $$(JEMALLOC_ARGS_$(1)) $(CFG_JEMALLOC_FLAGS) \ --build=$$(CFG_GNU_TRIPLE_$(CFG_BUILD)) --host=$$(CFG_GNU_TRIPLE_$(1)) \ CC="$$(CC_$(1)) $$(CFG_JEMALLOC_CFLAGS_$(1))" \ AR="$$(AR_$(1))" \ RANLIB="$$(AR_$(1)) s" \ CPPFLAGS="-I $(S)src/rt/" \ EXTRA_CFLAGS="-g1 -ffunction-sections -fdata-sections" $$(Q)$$(MAKE) -C "$$(JEMALLOC_BUILD_DIR_$(1))" build_lib_static ifeq ($(1),$$(CFG_BUILD)) ifneq ($$(CFG_JEMALLOC_ROOT),) $$(JEMALLOC_LIB_$(1)): $$(CFG_JEMALLOC_ROOT)/libjemalloc_pic.a @$$(call E, copy: jemalloc) $$(Q)cp $$< $$@ else $$(JEMALLOC_LIB_$(1)): $$(JEMALLOC_LOCAL_$(1)) $$(Q)cp $$< $$@ endif else $$(JEMALLOC_LIB_$(1)): $$(JEMALLOC_LOCAL_$(1)) $$(Q)cp $$< $$@ endif ################################################################################ # compiler-rt ################################################################################ # Everything below is a manual compilation of compiler-rt, disregarding its # build system. See comments in `src/bootstrap/native.rs` for more information. COMPRT_NAME_$(1) := $$(call CFG_STATIC_LIB_NAME_$(1),compiler-rt) COMPRT_LIB_$(1) := $$(RT_OUTPUT_DIR_$(1))/$$(COMPRT_NAME_$(1)) COMPRT_BUILD_DIR_$(1) := $$(RT_OUTPUT_DIR_$(1))/compiler-rt # We must avoid compiling both a generic implementation (e.g. `floatdidf.c) and an arch optimized # implementation (e.g. `x86_64/floatdidf.S) of the same symbol (e.g. `floatdidf) because that causes # linker errors. To avoid that, we first add all the arch optimized implementations and then add the # generic implementations if and only if its arch optimized version is not already in the list. This # last part is handled by the ADD_INTRINSIC macro. COMPRT_OBJS_$(1) := ifeq ($$(findstring msvc,$(1)),) ifeq ($$(findstring x86_64,$(1)),x86_64) COMPRT_OBJS_$(1) += \ x86_64/chkstk.o \ x86_64/chkstk2.o \ x86_64/floatdidf.o \ x86_64/floatdisf.o \ x86_64/floatdixf.o \ x86_64/floatundidf.o \ x86_64/floatundisf.o \ x86_64/floatundixf.o endif ifeq ($$(findstring i686,$$(patsubts i%86,i686,$(1))),i686) COMPRT_OBJS_$(1) += \ i386/ashldi3.o \ i386/ashrdi3.o \ i386/chkstk.o \ i386/chkstk2.o \ i386/divdi3.o \ i386/floatdidf.o \ i386/floatdisf.o \ i386/floatdixf.o \ i386/floatundidf.o \ i386/floatundisf.o \ i386/floatundixf.o \ i386/lshrdi3.o \ i386/moddi3.o \ i386/muldi3.o \ i386/udivdi3.o \ i386/umoddi3.o endif else ifeq ($$(findstring x86_64,$(1)),x86_64) COMPRT_OBJS_$(1) += \ x86_64/floatdidf.o \ x86_64/floatdisf.o \ x86_64/floatdixf.o endif endif # Generic ARM sources, nothing compiles on iOS though ifeq ($$(findstring arm,$(1)),arm) ifeq ($$(findstring ios,$(1)),) COMPRT_OBJS_$(1) += \ arm/aeabi_cdcmp.o \ arm/aeabi_cdcmpeq_check_nan.o \ arm/aeabi_cfcmp.o \ arm/aeabi_cfcmpeq_check_nan.o \ arm/aeabi_dcmp.o \ arm/aeabi_div0.o \ arm/aeabi_drsub.o \ arm/aeabi_fcmp.o \ arm/aeabi_frsub.o \ arm/aeabi_idivmod.o \ arm/aeabi_ldivmod.o \ arm/aeabi_memcmp.o \ arm/aeabi_memcpy.o \ arm/aeabi_memmove.o \ arm/aeabi_memset.o \ arm/aeabi_uidivmod.o \ arm/aeabi_uldivmod.o \ arm/bswapdi2.o \ arm/bswapsi2.o \ arm/clzdi2.o \ arm/clzsi2.o \ arm/comparesf2.o \ arm/divmodsi4.o \ arm/divsi3.o \ arm/modsi3.o \ arm/switch16.o \ arm/switch32.o \ arm/switch8.o \ arm/switchu8.o \ arm/sync_synchronize.o \ arm/udivmodsi4.o \ arm/udivsi3.o \ arm/umodsi3.o endif endif # Thumb sources ifeq ($$(findstring armv7,$(1)),armv7) COMPRT_OBJS_$(1) += \ arm/sync_fetch_and_add_4.o \ arm/sync_fetch_and_add_8.o \ arm/sync_fetch_and_and_4.o \ arm/sync_fetch_and_and_8.o \ arm/sync_fetch_and_max_4.o \ arm/sync_fetch_and_max_8.o \ arm/sync_fetch_and_min_4.o \ arm/sync_fetch_and_min_8.o \ arm/sync_fetch_and_nand_4.o \ arm/sync_fetch_and_nand_8.o \ arm/sync_fetch_and_or_4.o \ arm/sync_fetch_and_or_8.o \ arm/sync_fetch_and_sub_4.o \ arm/sync_fetch_and_sub_8.o \ arm/sync_fetch_and_umax_4.o \ arm/sync_fetch_and_umax_8.o \ arm/sync_fetch_and_umin_4.o \ arm/sync_fetch_and_umin_8.o \ arm/sync_fetch_and_xor_4.o \ arm/sync_fetch_and_xor_8.o endif # VFP sources ifeq ($$(findstring eabihf,$(1)),eabihf) COMPRT_OBJS_$(1) += \ arm/adddf3vfp.o \ arm/addsf3vfp.o \ arm/divdf3vfp.o \ arm/divsf3vfp.o \ arm/eqdf2vfp.o \ arm/eqsf2vfp.o \ arm/extendsfdf2vfp.o \ arm/fixdfsivfp.o \ arm/fixsfsivfp.o \ arm/fixunsdfsivfp.o \ arm/fixunssfsivfp.o \ arm/floatsidfvfp.o \ arm/floatsisfvfp.o \ arm/floatunssidfvfp.o \ arm/floatunssisfvfp.o \ arm/gedf2vfp.o \ arm/gesf2vfp.o \ arm/gtdf2vfp.o \ arm/gtsf2vfp.o \ arm/ledf2vfp.o \ arm/lesf2vfp.o \ arm/ltdf2vfp.o \ arm/ltsf2vfp.o \ arm/muldf3vfp.o \ arm/mulsf3vfp.o \ arm/negdf2vfp.o \ arm/negsf2vfp.o \ arm/nedf2vfp.o \ arm/nesf2vfp.o \ arm/restore_vfp_d8_d15_regs.o \ arm/save_vfp_d8_d15_regs.o \ arm/subdf3vfp.o \ arm/subsf3vfp.o \ arm/truncdfsf2vfp.o \ arm/unorddf2vfp.o \ arm/unordsf2vfp.o endif $(foreach intrinsic,absvdi2.o \ absvsi2.o \ adddf3.o \ addsf3.o \ addvdi3.o \ addvsi3.o \ apple_versioning.o \ ashldi3.o \ ashrdi3.o \ clear_cache.o \ clzdi2.o \ clzsi2.o \ cmpdi2.o \ comparedf2.o \ comparesf2.o \ ctzdi2.o \ ctzsi2.o \ divdc3.o \ divdf3.o \ divdi3.o \ divmoddi4.o \ divmodsi4.o \ divsc3.o \ divsf3.o \ divsi3.o \ divxc3.o \ extendsfdf2.o \ extendhfsf2.o \ ffsdi2.o \ fixdfdi.o \ fixdfsi.o \ fixsfdi.o \ fixsfsi.o \ fixunsdfdi.o \ fixunsdfsi.o \ fixunssfdi.o \ fixunssfsi.o \ fixunsxfdi.o \ fixunsxfsi.o \ fixxfdi.o \ floatdidf.o \ floatdisf.o \ floatdixf.o \ floatsidf.o \ floatsisf.o \ floatundidf.o \ floatundisf.o \ floatundixf.o \ floatunsidf.o \ floatunsisf.o \ int_util.o \ lshrdi3.o \ moddi3.o \ modsi3.o \ muldc3.o \ muldf3.o \ muldi3.o \ mulodi4.o \ mulosi4.o \ muloti4.o \ mulsc3.o \ mulsf3.o \ mulvdi3.o \ mulvsi3.o \ mulxc3.o \ negdf2.o \ negdi2.o \ negsf2.o \ negvdi2.o \ negvsi2.o \ paritydi2.o \ paritysi2.o \ popcountdi2.o \ popcountsi2.o \ powidf2.o \ powisf2.o \ powixf2.o \ subdf3.o \ subsf3.o \ subvdi3.o \ subvsi3.o \ truncdfhf2.o \ truncdfsf2.o \ truncsfhf2.o \ ucmpdi2.o \ udivdi3.o \ udivmoddi4.o \ udivmodsi4.o \ udivsi3.o \ umoddi3.o \ umodsi3.o, $(call ADD_INTRINSIC,$(1),$(intrinsic))) ifeq ($$(findstring ios,$(1)),) $(foreach intrinsic,absvti2.o \ addtf3.o \ addvti3.o \ ashlti3.o \ ashrti3.o \ clzti2.o \ cmpti2.o \ ctzti2.o \ divtf3.o \ divti3.o \ ffsti2.o \ fixdfti.o \ fixsfti.o \ fixunsdfti.o \ fixunssfti.o \ fixunsxfti.o \ fixxfti.o \ floattidf.o \ floattisf.o \ floattixf.o \ floatuntidf.o \ floatuntisf.o \ floatuntixf.o \ lshrti3.o \ modti3.o \ multf3.o \ multi3.o \ mulvti3.o \ negti2.o \ negvti2.o \ parityti2.o \ popcountti2.o \ powitf2.o \ subtf3.o \ subvti3.o \ trampoline_setup.o \ ucmpti2.o \ udivmodti4.o \ udivti3.o \ umodti3.o, $(call ADD_INTRINSIC,$(1),$(intrinsic))) endif ifeq ($$(findstring apple,$(1)),apple) $(foreach intrinsic,atomic_flag_clear.o \ atomic_flag_clear_explicit.o \ atomic_flag_test_and_set.o \ atomic_flag_test_and_set_explicit.o \ atomic_signal_fence.o \ atomic_thread_fence.o, $(call ADD_INTRINSIC,$(1),$(intrinsic))) endif ifeq ($$(findstring windows,$(1)),) $(call ADD_INTRINSIC,$(1),emutls.o) endif ifeq ($$(findstring msvc,$(1)),) ifeq ($$(findstring freebsd,$(1)),) $(call ADD_INTRINSIC,$(1),gcc_personality_v0.o) endif endif ifeq ($$(findstring aarch64,$(1)),aarch64) $(foreach intrinsic,comparetf2.o \ extenddftf2.o \ extendsftf2.o \ fixtfdi.o \ fixtfsi.o \ fixtfti.o \ fixunstfdi.o \ fixunstfsi.o \ fixunstfti.o \ floatditf.o \ floatsitf.o \ floatunditf.o \ floatunsitf.o \ multc3.o \ trunctfdf2.o \ trunctfsf2.o, $(call ADD_INTRINSIC,$(1),$(intrinsic))) endif ifeq ($$(findstring msvc,$(1)),msvc) $$(COMPRT_BUILD_DIR_$(1))/%.o: CFLAGS += -Zl -D__func__=__FUNCTION__ else $$(COMPRT_BUILD_DIR_$(1))/%.o: CFLAGS += -fno-builtin -fvisibility=hidden \ -fomit-frame-pointer -ffreestanding endif COMPRT_OBJS_$(1) := $$(COMPRT_OBJS_$(1):%=$$(COMPRT_BUILD_DIR_$(1))/%) $$(COMPRT_BUILD_DIR_$(1))/%.o: $(S)src/compiler-rt/lib/builtins/%.c @mkdir -p $$(@D) @$$(call E, compile: $$@) $$(Q)$$(call CFG_COMPILE_C_$(1),$$@,$$<) $$(COMPRT_BUILD_DIR_$(1))/%.o: $(S)src/compiler-rt/lib/builtins/%.S \ $$(LLVM_CONFIG_$$(CFG_BUILD)) @mkdir -p $$(@D) @$$(call E, compile: $$@) $$(Q)$$(call CFG_ASSEMBLE_$(1),$$@,$$<) ifeq ($$(findstring msvc,$(1)),msvc) $$(COMPRT_BUILD_DIR_$(1))/%.o: \ export INCLUDE := $$(CFG_MSVC_INCLUDE_PATH_$$(HOST_$(1))) endif ifeq ($$(findstring emscripten,$(1)),emscripten) # FIXME: emscripten doesn't use compiler-rt and can't build it without # further hacks COMPRT_OBJS_$(1) := endif $$(COMPRT_LIB_$(1)): $$(COMPRT_OBJS_$(1)) @$$(call E, link: $$@) $$(Q)$$(call CFG_CREATE_ARCHIVE_$(1),$$@) $$^ ################################################################################ # libbacktrace # # We use libbacktrace on linux to get symbols in backtraces, but only on linux. # Elsewhere we use other system utilities, so this library is only built on # linux. ################################################################################ BACKTRACE_NAME_$(1) := $$(call CFG_STATIC_LIB_NAME_$(1),backtrace) BACKTRACE_LIB_$(1) := $$(RT_OUTPUT_DIR_$(1))/$$(BACKTRACE_NAME_$(1)) BACKTRACE_BUILD_DIR_$(1) := $$(RT_OUTPUT_DIR_$(1))/libbacktrace # We don't use this on platforms that aren't linux-based (with the exception of # msys2/mingw builds on windows, which use it to read the dwarf debug # information) so just make the file available, the compilation of libstd won't # actually build it. ifeq ($$(findstring darwin,$$(OSTYPE_$(1))),darwin) # See comment above $$(BACKTRACE_LIB_$(1)): touch $$@ else ifeq ($$(findstring ios,$$(OSTYPE_$(1))),ios) # See comment above $$(BACKTRACE_LIB_$(1)): touch $$@ else ifeq ($$(findstring msvc,$(1)),msvc) # See comment above $$(BACKTRACE_LIB_$(1)): touch $$@ else ifeq ($$(findstring emscripten,$(1)),emscripten) # FIXME: libbacktrace doesn't understand the emscripten triple $$(BACKTRACE_LIB_$(1)): touch $$@ else ifdef CFG_ENABLE_FAST_MAKE BACKTRACE_DEPS := $(S)/.gitmodules else BACKTRACE_DEPS := $(wildcard $(S)src/libbacktrace/*) endif # We need to export CFLAGS because otherwise it doesn't pick up cross compile # builds. If libbacktrace doesn't realize this, it will attempt to read 64-bit # elf headers when compiled for a 32-bit system, yielding blank backtraces. # # This also removes the -Werror flag specifically to prevent errors during # configuration. # # Down below you'll also see echos into the config.h generated by the # ./configure script. This is done to force libbacktrace to *not* use the # atomic/sync functionality because it pulls in unnecessary dependencies and we # never use it anyway. # # We also use `env PWD=` to clear the PWD environment variable, and then # execute the command in a new shell. This is necessary to workaround a # buildbot/msys2 bug: the shell is launched with PWD set to a windows-style path, # which results in all further uses of `pwd` also printing a windows-style path, # which breaks libbacktrace's configure script. Clearing PWD within the same # shell is not sufficient. $$(BACKTRACE_BUILD_DIR_$(1))/Makefile: $$(BACKTRACE_DEPS) $$(MKFILE_DEPS) @$$(call E, configure: libbacktrace for $(1)) $$(Q)rm -rf $$(BACKTRACE_BUILD_DIR_$(1)) $$(Q)mkdir -p $$(BACKTRACE_BUILD_DIR_$(1)) $$(Q)(cd $$(BACKTRACE_BUILD_DIR_$(1)) && env \ PWD= \ CC="$$(CC_$(1))" \ AR="$$(AR_$(1))" \ RANLIB="$$(AR_$(1)) s" \ CFLAGS="$$(CFG_GCCISH_CFLAGS_$(1)) -Wno-error -fno-stack-protector" \ $(S)src/libbacktrace/configure --build=$(CFG_GNU_TRIPLE_$(CFG_BUILD)) --host=$(CFG_GNU_TRIPLE_$(1))) $$(Q)echo '#undef HAVE_ATOMIC_FUNCTIONS' >> \ $$(BACKTRACE_BUILD_DIR_$(1))/config.h $$(Q)echo '#undef HAVE_SYNC_FUNCTIONS' >> \ $$(BACKTRACE_BUILD_DIR_$(1))/config.h $$(BACKTRACE_LIB_$(1)): $$(BACKTRACE_BUILD_DIR_$(1))/Makefile $$(MKFILE_DEPS) @$$(call E, make: libbacktrace) $$(Q)$$(MAKE) -C $$(BACKTRACE_BUILD_DIR_$(1)) \ INCDIR=$(S)src/libbacktrace $$(Q)cp $$(BACKTRACE_BUILD_DIR_$(1))/.libs/libbacktrace.a $$@ endif ################################################################################ # libc/libunwind for musl # # When we're building a musl-like target we're going to link libc/libunwind # statically into the standard library and liblibc, so we need to make sure # they're in a location that we can find ################################################################################ ifeq ($$(findstring musl,$(1)),musl) $$(RT_OUTPUT_DIR_$(1))/%: $$(CFG_MUSL_ROOT)/lib/% cp $$^ $$@ else # Ask gcc where it is $$(RT_OUTPUT_DIR_$(1))/%: cp $$(shell $$(CC_$(1)) -print-file-name=$$(@F)) $$@ endif endef # Instantiate template for all stages/targets $(foreach target,$(CFG_TARGET), \ $(eval $(call DEF_THIRD_PARTY_TARGETS,$(target))))