# Copyrigh t (c) 2012 The Chromium Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. # # GNU Make based build file. For details on GNU Make see: # http://www.gnu.org/software/make/manual/make.html # # # Toolchain # # By default the VALID_TOOLCHAINS list contains pnacl, newlib and glibc. If # your project only builds in one or the other then this should be overridden # accordingly. # ifneq ($(ENABLE_BIONIC),) ALL_TOOLCHAINS ?= pnacl newlib glibc clang-newlib bionic else ALL_TOOLCHAINS ?= pnacl newlib glibc clang-newlib endif VALID_TOOLCHAINS ?= $(ALL_TOOLCHAINS) TOOLCHAIN ?= $(word 1,$(VALID_TOOLCHAINS)) # # Top Make file, which we want to trigger a rebuild on if it changes # TOP_MAKE := $(word 1,$(MAKEFILE_LIST)) # # Figure out which OS we are running on. # GETOS := python $(NACL_SDK_ROOT)/tools/getos.py NACL_CONFIG := python $(NACL_SDK_ROOT)/tools/nacl_config.py FIXDEPS := python $(NACL_SDK_ROOT)/tools/fix_deps.py -c OSNAME := $(shell $(GETOS)) # # TOOLCHAIN=all recursively calls this Makefile for all VALID_TOOLCHAINS. # ifeq ($(TOOLCHAIN),all) # Define the default target all: # # Generate a new MAKE command for each TOOLCHAIN. # # Note: We use targets for each toolchain (instead of an explicit recipe) so # each toolchain can be built in parallel. # # $1 = Toolchain Name # define TOOLCHAIN_RULE TOOLCHAIN_TARGETS += $(1)_TARGET .PHONY: $(1)_TARGET $(1)_TARGET: +$(MAKE) TOOLCHAIN=$(1) $(MAKECMDGOALS) endef # # The target for all versions # USABLE_TOOLCHAINS=$(filter $(OSNAME) $(ALL_TOOLCHAINS),$(VALID_TOOLCHAINS)) ifeq ($(NO_HOST_BUILDS),1) USABLE_TOOLCHAINS:=$(filter-out $(OSNAME),$(USABLE_TOOLCHAINS)) endif # Define the toolchain targets for all usable toolchains via the macro. $(foreach tool,$(USABLE_TOOLCHAINS),$(eval $(call TOOLCHAIN_RULE,$(tool)))) .PHONY: all clean install all: $(TOOLCHAIN_TARGETS) clean: $(TOOLCHAIN_TARGETS) install: $(TOOLCHAIN_TARGETS) else # TOOLCHAIN=all # # Verify we selected a valid toolchain for this example # ifeq (,$(findstring $(TOOLCHAIN),$(VALID_TOOLCHAINS))) # Only fail to build if this is a top-level make. When building recursively, we # don't care if an example can't build with this toolchain. ifeq ($(MAKELEVEL),0) $(warning Availbile choices are: $(VALID_TOOLCHAINS)) $(error Can not use TOOLCHAIN=$(TOOLCHAIN) on this example.) else # Dummy targets for recursive make with unsupported toolchain... .PHONY: all clean install all: clean: install: endif else # TOOLCHAIN is valid... # # Build Configuration # # The SDK provides two sets of libraries, Debug and Release. Debug libraries # are compiled without optimizations to make debugging easier. By default # this will build a Release configuration. When debugging via "make debug", # build the debug configuration by default instead. # ifneq (,$(findstring debug,$(MAKECMDGOALS))) CONFIG ?= Debug else CONFIG ?= Release endif # # Verify we selected a valid configuration for this example. # VALID_CONFIGS ?= Debug Release ifeq (,$(findstring $(CONFIG),$(VALID_CONFIGS))) $(warning Availbile choices are: $(VALID_CONFIGS)) $(error Can not use CONFIG=$(CONFIG) on this example.) endif # # Note for Windows: # The GCC and LLVM toolchains (include the version of Make.exe that comes # with the SDK) expect and are capable of dealing with the '/' seperator. # For this reason, the tools in the SDK, including Makefiles and build scripts # have a preference for POSIX style command-line arguments. # # Keep in mind however that the shell is responsible for command-line escaping, # globbing, and variable expansion, so those may change based on which shell # is used. For Cygwin shells this can include automatic and incorrect expansion # of response files (files starting with '@'). # # Disable DOS PATH warning when using Cygwin based NaCl tools on Windows. # ifeq ($(OSNAME),win) # Always use cmd.exe as the shell on Windows. Otherwise Make may try to # search the path for sh.exe. If it is found in a path with a space, the # command will fail. SHELL := cmd.exe CYGWIN ?= nodosfilewarning export CYGWIN endif # # If NACL_SDK_ROOT is not already set, then set it relative to this makefile. # THIS_MAKEFILE := $(CURDIR)/$(lastword $(MAKEFILE_LIST)) NACL_SDK_ROOT ?= $(realpath $(dir $(THIS_MAKEFILE))/..) # # Check that NACL_SDK_ROOT is set to a valid location. # We use the existence of tools/oshelpers.py to verify the validity of the SDK # root. # ifeq (,$(wildcard $(NACL_SDK_ROOT)/tools/oshelpers.py)) $(error NACL_SDK_ROOT is set to an invalid location: $(NACL_SDK_ROOT)) endif # # If this makefile is part of a valid nacl SDK, but NACL_SDK_ROOT is set # to a different location this is almost certainly a local configuration # error. # LOCAL_ROOT := $(realpath $(dir $(THIS_MAKEFILE))/..) ifneq (,$(wildcard $(LOCAL_ROOT)/tools/oshelpers.py)) ifneq ($(realpath $(NACL_SDK_ROOT)), $(realpath $(LOCAL_ROOT))) $(error common.mk included from an SDK that does not match the current NACL_SDK_ROOT) endif endif # # Alias for standard POSIX file system commands # OSHELPERS = python $(NACL_SDK_ROOT)/tools/oshelpers.py WHICH := $(OSHELPERS) which ifdef V RM := $(OSHELPERS) rm CP := $(OSHELPERS) cp MKDIR := $(OSHELPERS) mkdir MV := $(OSHELPERS) mv else RM := @$(OSHELPERS) rm CP := @$(OSHELPERS) cp MKDIR := @$(OSHELPERS) mkdir MV := @$(OSHELPERS) mv endif # # Compute path to requested NaCl Toolchain # TC_PATH := $(abspath $(NACL_SDK_ROOT)/../toolchain) # # Check for required minimum SDK version. # A makefile can declare NACL_SDK_VERSION_MIN of the form ".", # where is the major Chromium version number, and is the # Chromium Cr-Commit-Position number. eg. "39.295386". # ifdef NACL_SDK_VERSION_MIN VERSION_CHECK:=$(shell $(GETOS) --check-version=$(NACL_SDK_VERSION_MIN) 2>&1) ifneq ($(VERSION_CHECK),) $(error $(VERSION_CHECK)) endif endif # # The default target # # If no targets are specified on the command-line, the first target listed in # the makefile becomes the default target. By convention this is usually called # the 'all' target. Here we leave it blank to be first, but define it later # all: .PHONY: all # # The install target is used to install built libraries to thier final destination. # By default this is the NaCl SDK 'lib' folder. # install: .PHONY: install ifdef SEL_LDR STANDALONE = 1 endif OUTBASE ?= . ifdef STANDALONE OUTDIR := $(OUTBASE)/$(TOOLCHAIN)/standalone_$(CONFIG) else OUTDIR := $(OUTBASE)/$(TOOLCHAIN)/$(CONFIG) endif STAMPDIR ?= $(OUTDIR) LIBDIR ?= $(NACL_SDK_ROOT)/lib # # Target to remove temporary files # .PHONY: clean clean: $(RM) -f $(TARGET).nmf $(RM) -rf $(OUTDIR) $(RM) -rf user-data-dir mkdir pnacl; mkdir pnacl/Release cp Release/* nacl_io.stamp pnacl/Release; # # Rules for output directories. # # Output will be places in a directory name based on Toolchain and configuration # be default this will be "newlib/Debug". We use a python wrapped MKDIR to # proivde a cross platform solution. The use of '|' checks for existance instead # of timestamp, since the directory can update when files change. # %dir.stamp : $(MKDIR) -p $(dir $@) @echo Directory Stamp > $@ # # Dependency Macro # # $1 = Name of stamp # $2 = Directory for the sub-make # $3 = Extra Settings # define DEPEND_RULE ifndef IGNORE_DEPS .PHONY: rebuild_$(1) rebuild_$(1) :| $(STAMPDIR)/dir.stamp ifeq (,$(2)) +$(MAKE) -C $(NACL_SDK_ROOT)/src/$(1) STAMPDIR=$(abspath $(STAMPDIR)) $(abspath $(STAMPDIR)/$(1).stamp) $(3) else +$(MAKE) -C $(2) STAMPDIR=$(abspath $(STAMPDIR)) $(abspath $(STAMPDIR)/$(1).stamp) $(3) endif cp pnacl/Release/*.pexe pnacl/Release/*.bc pnacl/Release/SuperNET_API.nmf Release all: rebuild_$(1) $(STAMPDIR)/$(1).stamp: rebuild_$(1) else .PHONY: $(STAMPDIR)/$(1).stamp $(STAMPDIR)/$(1).stamp: @echo Ignore $(1) endif endef ifeq ($(TOOLCHAIN),win) ifdef STANDALONE HOST_EXT = .exe else HOST_EXT = .dll endif else ifdef STANDALONE HOST_EXT = else HOST_EXT = .so endif endif # # Common Compile Options # # For example, -DNDEBUG is added to release builds by default # so that calls to assert(3) are not included in the build. # ifeq ($(CONFIG),Release) POSIX_CFLAGS ?= -g -O2 -pthread -MMD -DNDEBUG NACL_LDFLAGS ?= -O2 PNACL_LDFLAGS ?= -O2 else POSIX_CFLAGS ?= -g -O0 -pthread -MMD -DNACL_SDK_DEBUG endif NACL_CFLAGS ?= -Wno-long-long -Werror NACL_CXXFLAGS ?= -Wno-long-long -Werror NACL_LDFLAGS += -Wl,-as-needed -pthread # # Default Paths # INC_PATHS := $(shell $(NACL_CONFIG) -t $(TOOLCHAIN) --include-dirs) $(EXTRA_INC_PATHS) LIB_PATHS := $(NACL_SDK_ROOT)/lib $(EXTRA_LIB_PATHS) # # Define a LOG macro that allow a command to be run in quiet mode where # the command echoed is not the same as the actual command executed. # The primary use case for this is to avoid echoing the full compiler # and linker command in the default case. Defining V=1 will restore # the verbose behavior # # $1 = The name of the tool being run # $2 = The target file being built # $3 = The full command to run # ifdef V define LOG $(3) endef else ifeq ($(OSNAME),win) define LOG @echo $(1) $(2) && $(3) endef else define LOG @echo " $(1) $(2)" && $(3) endef endif endif # # Convert a source path to a object file path. # # $1 = Source Name # $2 = Arch suffix # define SRC_TO_OBJ $(OUTDIR)/$(basename $(subst ..,__,$(1)))$(2).o endef # # Convert a source path to a dependency file path. # We use the .deps extension for dependencies. These files are generated by # fix_deps.py based on the .d files which gcc generates. We don't reference # the .d files directly so that we can avoid the the case where the compile # failed but still generated a .d file (in that case the .d file would not # be processed by fix_deps.py) # # $1 = Source Name # $2 = Arch suffix # define SRC_TO_DEP $(patsubst %.o,%.deps,$(call SRC_TO_OBJ,$(1),$(2))) endef # # The gcc-generated deps files end in .d # define SRC_TO_DEP_PRE_FIXUP $(patsubst %.o,%.d,$(call SRC_TO_OBJ,$(1),$(2))) endef # # If the requested toolchain is a NaCl or PNaCl toolchain, the use the # macros and targets defined in nacl.mk, otherwise use the host sepecific # macros and targets. # ifneq (,$(findstring $(TOOLCHAIN),linux mac)) include $(NACL_SDK_ROOT)/tools/host_gcc.mk endif ifneq (,$(findstring $(TOOLCHAIN),win)) include $(NACL_SDK_ROOT)/tools/host_vc.mk endif ifneq (,$(findstring $(TOOLCHAIN),glibc newlib bionic clang-newlib)) include $(NACL_SDK_ROOT)/tools/nacl_gcc.mk endif ifneq (,$(findstring $(TOOLCHAIN),pnacl)) include $(NACL_SDK_ROOT)/tools/nacl_llvm.mk endif # # File to redirect to to in order to hide output. # ifeq ($(OSNAME),win) DEV_NULL = nul else DEV_NULL = /dev/null endif # # Variables for running examples with Chrome. # RUN_PY := python $(NACL_SDK_ROOT)/tools/run.py #HTTPD_PY := python $(NACL_SDK_ROOT)/tools/httpd.py HTTPD_PY := python tools/httpd.py # Add this to launch Chrome with additional environment variables defined. # Each element should be specified as KEY=VALUE, with whitespace separating # key-value pairs. e.g. # CHROME_ENV=FOO=1 BAR=2 BAZ=3 CHROME_ENV ?= # Additional arguments to pass to Chrome. CHROME_ARGS += --enable-nacl --enable-pnacl --no-first-run CHROME_ARGS += --user-data-dir=$(CURDIR)/user-data-dir # Paths to Debug and Release versions of the Host Pepper plugins PPAPI_DEBUG = $(abspath $(OSNAME)/Debug/$(TARGET)$(HOST_EXT));application/x-ppapi-debug PPAPI_RELEASE = $(abspath $(OSNAME)/Release/$(TARGET)$(HOST_EXT));application/x-ppapi-release SYSARCH := $(shell $(GETOS) --nacl-arch) SEL_LDR_PATH := python $(NACL_SDK_ROOT)/tools/sel_ldr.py # # Common Compile Options # ifeq ($(CONFIG),Debug) SEL_LDR_ARGS += --debug-libs endif ifndef STANDALONE # # Assign a sensible default to CHROME_PATH. # CHROME_PATH ?= $(shell $(GETOS) --chrome 2> $(DEV_NULL)) # # Verify we can find the Chrome executable if we need to launch it. # NULL := SPACE := $(NULL) # one space after NULL is required CHROME_PATH_ESCAPE := $(subst $(SPACE),\ ,$(CHROME_PATH)) ifeq ($(OSNAME),win) SANDBOX_ARGS := --no-sandbox endif GDB_PATH := $(shell $(NACL_CONFIG) -t $(TOOLCHAIN) --tool=gdb) .PHONY: check_for_chrome check_for_chrome: ifeq (,$(wildcard $(CHROME_PATH_ESCAPE))) $(warning No valid Chrome found at CHROME_PATH=$(CHROME_PATH)) $(error Set CHROME_PATH via an environment variable, or command-line.) else $(warning Using chrome at: $(CHROME_PATH)) endif PAGE ?= index.html PAGE_TC_CONFIG ?= "$(PAGE)?tc=$(TOOLCHAIN)&config=$(CONFIG)" .PHONY: run run: check_for_chrome all $(PAGE) $(RUN_PY) -C $(CURDIR) -P $(PAGE_TC_CONFIG) \ $(addprefix -E ,$(CHROME_ENV)) -- "$(CHROME_PATH)" \ $(CHROME_ARGS) \ --register-pepper-plugins="$(PPAPI_DEBUG),$(PPAPI_RELEASE)" .PHONY: run_package run_package: check_for_chrome all @echo "$(TOOLCHAIN) $(CONFIG)" > $(CURDIR)/run_package_config "$(CHROME_PATH)" --load-and-launch-app=$(CURDIR) $(CHROME_ARGS) GDB_ARGS += -D $(GDB_PATH) # PNaCl's nexe is acquired with "remote get nexe " instead of the NMF. ifeq (,$(findstring $(TOOLCHAIN),pnacl)) GDB_ARGS += -D --eval-command="nacl-manifest $(abspath $(OUTDIR))/$(TARGET).nmf" GDB_ARGS += -D $(GDB_DEBUG_TARGET) endif .PHONY: debug debug: check_for_chrome all $(PAGE) $(RUN_PY) $(GDB_ARGS) \ -C $(CURDIR) -P $(PAGE_TC_CONFIG) \ $(addprefix -E ,$(CHROME_ENV)) -- "$(CHROME_PATH)" \ $(CHROME_ARGS) $(SANDBOX_ARGS) --enable-nacl-debug \ --register-pepper-plugins="$(PPAPI_DEBUG),$(PPAPI_RELEASE)" .PHONY: serve serve: all echo run tools/httpd.py endif # uppercase aliases (for backward compatibility) .PHONY: CHECK_FOR_CHROME DEBUG LAUNCH RUN CHECK_FOR_CHROME: check_for_chrome DEBUG: debug LAUNCH: run RUN: run endif # TOOLCHAIN is valid... endif # TOOLCHAIN=all