core/product_config.mk - platform/build - Git at Google

 #
 # Copyright (C) 2008 The Android Open Source Project
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 #

 # ---------------------------------------------------------------
 # Generic functions
 # TODO: Move these to definitions.make once we're able to include
 # definitions.make before config.make.

 ###########################################################
 ## Return non-empty if $(1) is a C identifier; i.e., if it
 ## matches /^[a-zA-Z_][a-zA-Z0-9_]*$/.  We do this by first
 ## making sure that it isn't empty and doesn't start with
 ## a digit, then by removing each valid character.  If the
 ## final result is empty, then it was a valid C identifier.
 ##
 ## $(1): word to check
 ###########################################################

 _ici_digits := 0 1 2 3 4 5 6 7 8 9
 _ici_alphaunderscore := \
     a b c d e f g h i j k l m n o p q r s t u v w x y z \
     A B C D E F G H I J K L M N O P Q R S T U V W X Y Z _
 define is-c-identifier
 $(strip \
   $(if $(1), \
     $(if $(filter $(addsuffix %,$(_ici_digits)),$(1)), \
      , \
       $(eval w := $(1)) \
       $(foreach c,$(_ici_digits) $(_ici_alphaunderscore), \
         $(eval w := $(subst $(c),,$(w))) \
        ) \
       $(if $(w),,TRUE) \
       $(eval w :=) \
      ) \
    ) \
  )
 endef


 # ---------------------------------------------------------------
 # Provide "PRODUCT-<prodname>-<goal>" targets, which lets you build
 # a particular configuration without needing to set up the environment.
 #
 product_goals := $(strip $(filter PRODUCT-%,$(MAKECMDGOALS)))
 ifdef product_goals
   # Scrape the product and build names out of the goal,
   # which should be of the form PRODUCT-<productname>-<buildname>.
   #
   ifneq ($(words $(product_goals)),1)
     $(error Only one PRODUCT-* goal may be specified; saw "$(product_goals)")
   endif
   goal_name := $(product_goals)
   product_goals := $(patsubst PRODUCT-%,%,$(product_goals))
   product_goals := $(subst -, ,$(product_goals))
   ifneq ($(words $(product_goals)),2)
     $(error Bad PRODUCT-* goal "$(goal_name)")
   endif

   # The product they want
   TARGET_PRODUCT := $(word 1,$(product_goals))

   # The variant they want
   TARGET_BUILD_VARIANT := $(word 2,$(product_goals))

   # HACK HACK HACK
   # The build server wants to do make PRODUCT-dream-installclean
   # which really means TARGET_PRODUCT=dream make installclean.
   ifneq ($(filter-out eng user userdebug tests,$(TARGET_BUILD_VARIANT)),)
 	MAKECMDGOALS := $(MAKECMDGOALS) $(TARGET_BUILD_VARIANT)
 	TARGET_BUILD_VARIANT := eng
     default_goal_substitution :=
   else
     default_goal_substitution := $(DEFAULT_GOAL)
   endif
   # HACK HACK HACK

   # Hack to make the linux build servers use dexpreopt.
   # OSX is still a little flaky.  Most engineers don't use this
   # type of target ("make PRODUCT-blah-user"), so this should
   # only tend to happen when using buildbot.
   # TODO: remove this and fix the matching lines in build/core/main.mk
   # once dexpreopt works better on OSX.
   ifeq ($(TARGET_BUILD_VARIANT),user)
     WITH_DEXPREOPT_buildbot := true
   endif

   # Replace the PRODUCT-* goal with the build goal that it refers to.
   # Note that this will ensure that it appears in the same relative
   # position, in case it matters.
   #
   # Note that modifying this will not affect the goals that make will
   # attempt to build, but it's important because we inspect this value
   # in certain situations (like for "make sdk").
   #
   MAKECMDGOALS := $(patsubst $(goal_name),$(default_goal_substitution),$(MAKECMDGOALS))

   # Define a rule for the PRODUCT-* goal, and make it depend on the
   # patched-up command-line goals as well as any other goals that we
   # want to force.
   #
 .PHONY: $(goal_name)
 $(goal_name): $(MAKECMDGOALS)
 endif
 # else: Use the value set in the environment or buildspec.mk.

 # ---------------------------------------------------------------
 # Include the product definitions.
 # We need to do this to translate TARGET_PRODUCT into its
 # underlying TARGET_DEVICE before we start defining any rules.
 #
 include $(BUILD_SYSTEM)/node_fns.mk
 include $(BUILD_SYSTEM)/product.mk
 include $(BUILD_SYSTEM)/device.mk

 # Read in all of the product definitions specified by the AndroidProducts.mk
 # files in the tree.
 #
 #TODO: when we start allowing direct pointers to product files,
 #    guarantee that they're in this list.
 $(call import-products, $(get-all-product-makefiles))
 $(check-all-products)
 #$(dump-products)
 #$(error done)

 # Convert a short name like "sooner" into the path to the product
 # file defining that product.
 #
 INTERNAL_PRODUCT := $(call resolve-short-product-name, $(TARGET_PRODUCT))
 #$(error TARGET_PRODUCT $(TARGET_PRODUCT) --> $(INTERNAL_PRODUCT))

 # Find the device that this product maps to.
 TARGET_DEVICE := $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_DEVICE)

 # Figure out which resoure configuration options to use for this
 # product.
 PRODUCT_LOCALES := $(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_LOCALES))
 # TODO: also keep track of things like "port", "land" in product files.

 # Assemble the list of options.
 PRODUCT_AAPT_CONFIG := $(PRODUCT_LOCALES)

 # Convert spaces to commas.
 comma := ,
 PRODUCT_AAPT_CONFIG := \
 	$(subst $(space),$(comma),$(strip $(PRODUCT_AAPT_CONFIG)))

 PRODUCT_BRAND := $(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_BRAND))

 PRODUCT_MODEL := $(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_MODEL))
 ifndef PRODUCT_MODEL
   PRODUCT_MODEL := $(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_NAME))
 endif

 PRODUCT_MANUFACTURER := \
 	$(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_MANUFACTURER))
 ifndef PRODUCT_MANUFACTURER
   PRODUCT_MANUFACTURER := unknown
 endif

 # Which policy should this product use
 PRODUCT_POLICY := $(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_POLICY))

 # A list of words like <source path>:<destination path>.  The file at
 # the source path should be copied to the destination path when building
 # this product.  <destination path> is relative to $(PRODUCT_OUT), so
 # it should look like, e.g., "system/etc/file.xml".  The rules
 # for these copy steps are defined in config/Makefile.
 PRODUCT_COPY_FILES := \
 	$(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_COPY_FILES))

 # A list of property assignments, like "key = value", with zero or more
 # whitespace characters on either side of the '='.
 PRODUCT_PROPERTY_OVERRIDES := \
 	$(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_PROPERTY_OVERRIDES))

 # Should we use the default resources or add any product specific overlays
 PRODUCT_PACKAGE_OVERLAYS := \
 	$(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_PACKAGE_OVERLAYS))

 # Add the product-defined properties to the build properties.
 ADDITIONAL_BUILD_PROPERTIES := \
 	$(ADDITIONAL_BUILD_PROPERTIES) \
 	$(PRODUCT_PROPERTY_OVERRIDES)

 # Get the list of OTA public keys for the product.
 OTA_PUBLIC_KEYS := \
 	$(sort \
 	    $(OTA_PUBLIC_KEYS) \
 	    $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_OTA_PUBLIC_KEYS) \
 	 )

 # HACK: Not all products define OTA keys yet, and the -user build
 # will fail if no keys are defined.
 # TODO: Let a product opt out of needing OTA keys, and stop defaulting to
 #       the test key as soon as possible.
 ifeq (,$(strip $(OTA_PUBLIC_KEYS)))
   ifeq (,$(CALLED_FROM_SETUP))
     $(warning WARNING: adding test OTA key)
   endif
   OTA_PUBLIC_KEYS := $(SRC_TARGET_DIR)/product/security/testkey.x509.pem
 endif

 # ---------------------------------------------------------------
 # Force the simulator to be the simulator, and make BUILD_TYPE
 # default to debug.
 ifeq ($(TARGET_PRODUCT),sim)
   TARGET_SIMULATOR := true
   ifeq (,$(strip $(TARGET_BUILD_TYPE)))
     TARGET_BUILD_TYPE := debug
   endif
   # dexpreopt doesn't work when building the simulator
   DISABLE_DEXPREOPT := true
 endif
	#
	# Copyright (C) 2008 The Android Open Source Project
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#

	# ---------------------------------------------------------------
	# Generic functions
	# TODO: Move these to definitions.make once we're able to include
	# definitions.make before config.make.

	###########################################################
	## Return non-empty if $(1) is a C identifier; i.e., if it
	## matches /^[a-zA-Z_][a-zA-Z0-9_]*$/. We do this by first
	## making sure that it isn't empty and doesn't start with
	## a digit, then by removing each valid character. If the
	## final result is empty, then it was a valid C identifier.
	##
	## $(1): word to check
	###########################################################

	_ici_digits := 0 1 2 3 4 5 6 7 8 9
	_ici_alphaunderscore := \
	a b c d e f g h i j k l m n o p q r s t u v w x y z \
	A B C D E F G H I J K L M N O P Q R S T U V W X Y Z _
	define is-c-identifier
	$(strip \
	$(if $(1), \
	$(if $(filter $(addsuffix %,$(_ici_digits)),$(1)), \
	, \
	$(eval w := $(1)) \
	$(foreach c,$(_ici_digits) $(_ici_alphaunderscore), \
	$(eval w := $(subst $(c),,$(w))) \
	) \
	$(if $(w),,TRUE) \
	$(eval w :=) \
	) \
	) \
	)
	endef


	# ---------------------------------------------------------------
	# Provide "PRODUCT-<prodname>-<goal>" targets, which lets you build
	# a particular configuration without needing to set up the environment.
	#
	product_goals := $(strip $(filter PRODUCT-%,$(MAKECMDGOALS)))
	ifdef product_goals
	# Scrape the product and build names out of the goal,
	# which should be of the form PRODUCT-<productname>-<buildname>.
	#
	ifneq ($(words $(product_goals)),1)
	$(error Only one PRODUCT-* goal may be specified; saw "$(product_goals)")
	endif
	goal_name := $(product_goals)
	product_goals := $(patsubst PRODUCT-%,%,$(product_goals))
	product_goals := $(subst -, ,$(product_goals))
	ifneq ($(words $(product_goals)),2)
	$(error Bad PRODUCT-* goal "$(goal_name)")
	endif

	# The product they want
	TARGET_PRODUCT := $(word 1,$(product_goals))

	# The variant they want
	TARGET_BUILD_VARIANT := $(word 2,$(product_goals))

	# HACK HACK HACK
	# The build server wants to do make PRODUCT-dream-installclean
	# which really means TARGET_PRODUCT=dream make installclean.
	ifneq ($(filter-out eng user userdebug tests,$(TARGET_BUILD_VARIANT)),)
	MAKECMDGOALS := $(MAKECMDGOALS) $(TARGET_BUILD_VARIANT)
	TARGET_BUILD_VARIANT := eng
	default_goal_substitution :=
	else
	default_goal_substitution := $(DEFAULT_GOAL)
	endif
	# HACK HACK HACK

	# Hack to make the linux build servers use dexpreopt.
	# OSX is still a little flaky. Most engineers don't use this
	# type of target ("make PRODUCT-blah-user"), so this should
	# only tend to happen when using buildbot.
	# TODO: remove this and fix the matching lines in build/core/main.mk
	# once dexpreopt works better on OSX.
	ifeq ($(TARGET_BUILD_VARIANT),user)
	WITH_DEXPREOPT_buildbot := true
	endif

	# Replace the PRODUCT-* goal with the build goal that it refers to.
	# Note that this will ensure that it appears in the same relative
	# position, in case it matters.
	#
	# Note that modifying this will not affect the goals that make will
	# attempt to build, but it's important because we inspect this value
	# in certain situations (like for "make sdk").
	#
	MAKECMDGOALS := $(patsubst $(goal_name),$(default_goal_substitution),$(MAKECMDGOALS))

	# Define a rule for the PRODUCT-* goal, and make it depend on the
	# patched-up command-line goals as well as any other goals that we
	# want to force.
	#
	.PHONY: $(goal_name)
	$(goal_name): $(MAKECMDGOALS)
	endif
	# else: Use the value set in the environment or buildspec.mk.

	# ---------------------------------------------------------------
	# Include the product definitions.
	# We need to do this to translate TARGET_PRODUCT into its
	# underlying TARGET_DEVICE before we start defining any rules.
	#
	include $(BUILD_SYSTEM)/node_fns.mk
	include $(BUILD_SYSTEM)/product.mk
	include $(BUILD_SYSTEM)/device.mk

	# Read in all of the product definitions specified by the AndroidProducts.mk
	# files in the tree.
	#
	#TODO: when we start allowing direct pointers to product files,
	# guarantee that they're in this list.
	$(call import-products, $(get-all-product-makefiles))
	$(check-all-products)
	#$(dump-products)
	#$(error done)

	# Convert a short name like "sooner" into the path to the product
	# file defining that product.
	#
	INTERNAL_PRODUCT := $(call resolve-short-product-name, $(TARGET_PRODUCT))
	#$(error TARGET_PRODUCT $(TARGET_PRODUCT) --> $(INTERNAL_PRODUCT))

	# Find the device that this product maps to.
	TARGET_DEVICE := $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_DEVICE)

	# Figure out which resoure configuration options to use for this
	# product.
	PRODUCT_LOCALES := $(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_LOCALES))
	# TODO: also keep track of things like "port", "land" in product files.

	# Assemble the list of options.
	PRODUCT_AAPT_CONFIG := $(PRODUCT_LOCALES)

	# Convert spaces to commas.
	comma := ,
	PRODUCT_AAPT_CONFIG := \
	$(subst $(space),$(comma),$(strip $(PRODUCT_AAPT_CONFIG)))

	PRODUCT_BRAND := $(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_BRAND))

	PRODUCT_MODEL := $(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_MODEL))
	ifndef PRODUCT_MODEL
	PRODUCT_MODEL := $(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_NAME))
	endif

	PRODUCT_MANUFACTURER := \
	$(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_MANUFACTURER))
	ifndef PRODUCT_MANUFACTURER
	PRODUCT_MANUFACTURER := unknown
	endif

	# Which policy should this product use
	PRODUCT_POLICY := $(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_POLICY))

	# A list of words like <source path>:<destination path>. The file at
	# the source path should be copied to the destination path when building
	# this product. <destination path> is relative to $(PRODUCT_OUT), so
	# it should look like, e.g., "system/etc/file.xml". The rules
	# for these copy steps are defined in config/Makefile.
	PRODUCT_COPY_FILES := \
	$(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_COPY_FILES))

	# A list of property assignments, like "key = value", with zero or more
	# whitespace characters on either side of the '='.
	PRODUCT_PROPERTY_OVERRIDES := \
	$(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_PROPERTY_OVERRIDES))

	# Should we use the default resources or add any product specific overlays
	PRODUCT_PACKAGE_OVERLAYS := \
	$(strip $(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_PACKAGE_OVERLAYS))

	# Add the product-defined properties to the build properties.
	ADDITIONAL_BUILD_PROPERTIES := \
	$(ADDITIONAL_BUILD_PROPERTIES) \
	$(PRODUCT_PROPERTY_OVERRIDES)

	# Get the list of OTA public keys for the product.
	OTA_PUBLIC_KEYS := \
	$(sort \
	$(OTA_PUBLIC_KEYS) \
	$(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_OTA_PUBLIC_KEYS) \
	)

	# HACK: Not all products define OTA keys yet, and the -user build
	# will fail if no keys are defined.
	# TODO: Let a product opt out of needing OTA keys, and stop defaulting to
	# the test key as soon as possible.
	ifeq (,$(strip $(OTA_PUBLIC_KEYS)))
	ifeq (,$(CALLED_FROM_SETUP))
	$(warning WARNING: adding test OTA key)
	endif
	OTA_PUBLIC_KEYS := $(SRC_TARGET_DIR)/product/security/testkey.x509.pem
	endif

	# ---------------------------------------------------------------
	# Force the simulator to be the simulator, and make BUILD_TYPE
	# default to debug.
	ifeq ($(TARGET_PRODUCT),sim)
	TARGET_SIMULATOR := true
	ifeq (,$(strip $(TARGET_BUILD_TYPE)))
	TARGET_BUILD_TYPE := debug
	endif
	# dexpreopt doesn't work when building the simulator
	DISABLE_DEXPREOPT := true
	endif