blob: a81c981fbc701dee6a0a7d2f4dc6a49d74d10d3e [file] [log] [blame]
# Put some miscellaneous rules here
# Pick a reasonable string to use to identify files.
ifneq "" "$(filter eng.%,$(BUILD_NUMBER))"
# BUILD_NUMBER has a timestamp in it, which means that
# it will change every time. Pick a stable value.
FILE_NAME_TAG := eng.$(USER)
else
FILE_NAME_TAG := $(BUILD_NUMBER)
endif
# -----------------------------------------------------------------
# Define rules to copy PRODUCT_COPY_FILES defined by the product.
# PRODUCT_COPY_FILES contains words like <source file>:<dest file>.
# <dest file> is relative to $(PRODUCT_OUT), so it should look like,
# e.g., "system/etc/file.xml".
# The filter part means "only eval the copy-one-file rule if this
# src:dest pair is the first one to match the same dest"
#$(1): the src:dest pair
define check-product-copy-files
$(if $(filter %.apk, $(1)),$(error \
Prebuilt apk found in PRODUCT_COPY_FILES: $(1), use BUILD_PREBUILT instead!))
endef
unique_product_copy_files_destinations :=
$(foreach cf,$(PRODUCT_COPY_FILES), \
$(eval _src := $(call word-colon,1,$(cf))) \
$(eval _dest := $(call word-colon,2,$(cf))) \
$(call check-product-copy-files,$(cf)) \
$(if $(filter $(unique_product_copy_files_destinations),$(_dest)),, \
$(eval _fulldest := $(call append-path,$(PRODUCT_OUT),$(_dest))) \
$(eval $(call copy-one-file,$(_src),$(_fulldest))) \
$(eval ALL_DEFAULT_INSTALLED_MODULES += $(_fulldest)) \
$(eval unique_product_copy_files_destinations += $(_dest))))
unique_product_copy_files_destinations :=
# -----------------------------------------------------------------
# docs/index.html
gen := $(OUT_DOCS)/index.html
ALL_DOCS += $(gen)
$(gen): frameworks/base/docs/docs-redirect-index.html
@mkdir -p $(dir $@)
@cp -f $< $@
# -----------------------------------------------------------------
# default.prop
INSTALLED_DEFAULT_PROP_TARGET := $(TARGET_ROOT_OUT)/default.prop
ALL_DEFAULT_INSTALLED_MODULES += $(INSTALLED_DEFAULT_PROP_TARGET)
ADDITIONAL_DEFAULT_PROPERTIES := \
$(call collapse-pairs, $(ADDITIONAL_DEFAULT_PROPERTIES))
ADDITIONAL_DEFAULT_PROPERTIES += \
$(call collapse-pairs, $(PRODUCT_DEFAULT_PROPERTY_OVERRIDES))
ADDITIONAL_DEFAULT_PROPERTIES := $(call uniq-pairs-by-first-component, \
$(ADDITIONAL_DEFAULT_PROPERTIES),=)
$(INSTALLED_DEFAULT_PROP_TARGET):
@echo Target buildinfo: $@
@mkdir -p $(dir $@)
$(hide) echo "#" > $@; \
echo "# ADDITIONAL_DEFAULT_PROPERTIES" >> $@; \
echo "#" >> $@;
$(hide) $(foreach line,$(ADDITIONAL_DEFAULT_PROPERTIES), \
echo "$(line)" >> $@;)
build/tools/post_process_props.py $@
# -----------------------------------------------------------------
# build.prop
INSTALLED_BUILD_PROP_TARGET := $(TARGET_OUT)/build.prop
ALL_DEFAULT_INSTALLED_MODULES += $(INSTALLED_BUILD_PROP_TARGET)
ADDITIONAL_BUILD_PROPERTIES := \
$(call collapse-pairs, $(ADDITIONAL_BUILD_PROPERTIES))
ADDITIONAL_BUILD_PROPERTIES := $(call uniq-pairs-by-first-component, \
$(ADDITIONAL_BUILD_PROPERTIES),=)
# A list of arbitrary tags describing the build configuration.
# Force ":=" so we can use +=
BUILD_VERSION_TAGS := $(BUILD_VERSION_TAGS)
ifeq ($(TARGET_BUILD_TYPE),debug)
BUILD_VERSION_TAGS += debug
endif
# The "test-keys" tag marks builds signed with the old test keys,
# which are available in the SDK. "dev-keys" marks builds signed with
# non-default dev keys (usually private keys from a vendor directory).
# Both of these tags will be removed and replaced with "release-keys"
# when the target-files is signed in a post-build step.
ifeq ($(DEFAULT_SYSTEM_DEV_CERTIFICATE),build/target/product/security/testkey)
BUILD_VERSION_TAGS += test-keys
else
BUILD_VERSION_TAGS += dev-keys
endif
BUILD_VERSION_TAGS := $(subst $(space),$(comma),$(sort $(BUILD_VERSION_TAGS)))
# A human-readable string that descibes this build in detail.
build_desc := $(TARGET_PRODUCT)-$(TARGET_BUILD_VARIANT) $(PLATFORM_VERSION) $(BUILD_ID) $(BUILD_NUMBER) $(BUILD_VERSION_TAGS)
$(INSTALLED_BUILD_PROP_TARGET): PRIVATE_BUILD_DESC := $(build_desc)
# The string used to uniquely identify this build; used by the OTA server.
ifeq (,$(strip $(BUILD_FINGERPRINT)))
BUILD_FINGERPRINT := $(PRODUCT_BRAND)/$(TARGET_PRODUCT)/$(TARGET_DEVICE):$(PLATFORM_VERSION)/$(BUILD_ID)/$(BUILD_NUMBER):$(TARGET_BUILD_VARIANT)/$(BUILD_VERSION_TAGS)
endif
ifneq ($(words $(BUILD_FINGERPRINT)),1)
$(error BUILD_FINGERPRINT cannot contain spaces: "$(BUILD_FINGERPRINT)")
endif
# Display parameters shown under Settings -> About Phone
ifeq ($(TARGET_BUILD_VARIANT),user)
# User builds should show:
# release build number or branch.buld_number non-release builds
# Dev. branches should have DISPLAY_BUILD_NUMBER set
ifeq "true" "$(DISPLAY_BUILD_NUMBER)"
BUILD_DISPLAY_ID := $(BUILD_ID).$(BUILD_NUMBER)
else
BUILD_DISPLAY_ID := $(BUILD_ID)
endif
else
# Non-user builds should show detailed build information
BUILD_DISPLAY_ID := $(build_desc)
endif
# Whether there is default locale set in PRODUCT_PROPERTY_OVERRIDES
product_property_override_locale_language := $(strip \
$(patsubst ro.product.locale.language=%,%,\
$(filter ro.product.locale.language=%,$(PRODUCT_PROPERTY_OVERRIDES))))
product_property_overrides_locale_region := $(strip \
$(patsubst ro.product.locale.region=%,%,\
$(filter ro.product.locale.region=%,$(PRODUCT_PROPERTY_OVERRIDES))))
# Selects the first locale in the list given as the argument,
# and splits it into language and region, which each may be
# empty.
define default-locale
$(subst _, , $(firstword $(1)))
endef
# Selects the first locale in the list given as the argument
# and returns the language (or the region), if it's not set in PRODUCT_PROPERTY_OVERRIDES;
# Return empty string if it's already set in PRODUCT_PROPERTY_OVERRIDES.
define default-locale-language
$(if $(product_property_override_locale_language),,$(word 1, $(call default-locale, $(1))))
endef
define default-locale-region
$(if $(product_property_overrides_locale_region),,$(word 2, $(call default-locale, $(1))))
endef
BUILDINFO_SH := build/tools/buildinfo.sh
$(INSTALLED_BUILD_PROP_TARGET): $(BUILDINFO_SH) $(INTERNAL_BUILD_ID_MAKEFILE) $(BUILD_SYSTEM)/version_defaults.mk $(wildcard $(TARGET_DEVICE_DIR)/system.prop)
@echo Target buildinfo: $@
@mkdir -p $(dir $@)
$(hide) TARGET_BUILD_TYPE="$(TARGET_BUILD_VARIANT)" \
TARGET_DEVICE="$(TARGET_DEVICE)" \
PRODUCT_NAME="$(TARGET_PRODUCT)" \
PRODUCT_BRAND="$(PRODUCT_BRAND)" \
PRODUCT_DEFAULT_LANGUAGE="$(call default-locale-language,$(PRODUCT_LOCALES))" \
PRODUCT_DEFAULT_REGION="$(call default-locale-region,$(PRODUCT_LOCALES))" \
PRODUCT_DEFAULT_WIFI_CHANNELS="$(PRODUCT_DEFAULT_WIFI_CHANNELS)" \
PRODUCT_MODEL="$(PRODUCT_MODEL)" \
PRODUCT_MANUFACTURER="$(PRODUCT_MANUFACTURER)" \
PRIVATE_BUILD_DESC="$(PRIVATE_BUILD_DESC)" \
BUILD_ID="$(BUILD_ID)" \
BUILD_DISPLAY_ID="$(BUILD_DISPLAY_ID)" \
BUILD_NUMBER="$(BUILD_NUMBER)" \
PLATFORM_VERSION="$(PLATFORM_VERSION)" \
PLATFORM_SDK_VERSION="$(PLATFORM_SDK_VERSION)" \
PLATFORM_VERSION_CODENAME="$(PLATFORM_VERSION_CODENAME)" \
BUILD_VERSION_TAGS="$(BUILD_VERSION_TAGS)" \
TARGET_BOOTLOADER_BOARD_NAME="$(TARGET_BOOTLOADER_BOARD_NAME)" \
BUILD_FINGERPRINT="$(BUILD_FINGERPRINT)" \
TARGET_BOARD_PLATFORM="$(TARGET_BOARD_PLATFORM)" \
TARGET_CPU_ABI="$(TARGET_CPU_ABI)" \
TARGET_CPU_ABI2="$(TARGET_CPU_ABI2)" \
TARGET_AAPT_CHARACTERISTICS="$(TARGET_AAPT_CHARACTERISTICS)" \
bash $(BUILDINFO_SH) > $@
$(hide) if [ -f $(TARGET_DEVICE_DIR)/system.prop ]; then \
cat $(TARGET_DEVICE_DIR)/system.prop >> $@; \
fi
$(if $(ADDITIONAL_BUILD_PROPERTIES), \
$(hide) echo >> $@; \
echo "#" >> $@; \
echo "# ADDITIONAL_BUILD_PROPERTIES" >> $@; \
echo "#" >> $@; )
$(hide) $(foreach line,$(ADDITIONAL_BUILD_PROPERTIES), \
echo "$(line)" >> $@;)
$(hide) build/tools/post_process_props.py $@
build_desc :=
# -----------------------------------------------------------------
# sdk-build.prop
#
# There are certain things in build.prop that we don't want to
# ship with the sdk; remove them.
# This must be a list of entire property keys followed by
# "=" characters, without any internal spaces.
sdk_build_prop_remove := \
ro.build.user= \
ro.build.host= \
ro.product.brand= \
ro.product.manufacturer= \
ro.product.device=
# TODO: Remove this soon-to-be obsolete property
sdk_build_prop_remove += ro.build.product=
INSTALLED_SDK_BUILD_PROP_TARGET := $(PRODUCT_OUT)/sdk/sdk-build.prop
$(INSTALLED_SDK_BUILD_PROP_TARGET): $(INSTALLED_BUILD_PROP_TARGET)
@echo SDK buildinfo: $@
@mkdir -p $(dir $@)
$(hide) grep -v "$(subst $(space),\|,$(strip \
$(sdk_build_prop_remove)))" $< > $@.tmp
$(hide) for x in $(sdk_build_prop_remove); do \
echo "$$x"generic >> $@.tmp; done
$(hide) mv $@.tmp $@
# -----------------------------------------------------------------
# package stats
PACKAGE_STATS_FILE := $(PRODUCT_OUT)/package-stats.txt
PACKAGES_TO_STAT := \
$(sort $(filter $(TARGET_OUT)/% $(TARGET_OUT_DATA)/%, \
$(filter %.jar %.apk, $(ALL_DEFAULT_INSTALLED_MODULES))))
$(PACKAGE_STATS_FILE): $(PACKAGES_TO_STAT)
@echo Package stats: $@
@mkdir -p $(dir $@)
$(hide) rm -f $@
$(hide) build/tools/dump-package-stats $^ > $@
.PHONY: package-stats
package-stats: $(PACKAGE_STATS_FILE)
# -----------------------------------------------------------------
# Cert-to-package mapping. Used by the post-build signing tools.
name := $(TARGET_PRODUCT)
ifeq ($(TARGET_BUILD_TYPE),debug)
name := $(name)_debug
endif
name := $(name)-apkcerts-$(FILE_NAME_TAG)
intermediates := \
$(call intermediates-dir-for,PACKAGING,apkcerts)
APKCERTS_FILE := $(intermediates)/$(name).txt
# We don't need to really build all the modules.
# TODO: rebuild APKCERTS_FILE if any app change its cert.
$(APKCERTS_FILE):
@echo APK certs list: $@
@mkdir -p $(dir $@)
@rm -f $@
$(hide) $(foreach p,$(PACKAGES),\
$(if $(PACKAGES.$(p).EXTERNAL_KEY),\
echo 'name="$(p).apk" certificate="EXTERNAL" \
private_key=""' >> $@;,\
echo 'name="$(p).apk" certificate="$(PACKAGES.$(p).CERTIFICATE)" \
private_key="$(PACKAGES.$(p).PRIVATE_KEY)"' >> $@;))
# In case $(PACKAGES) is empty.
$(hide) touch $@
.PHONY: apkcerts-list
apkcerts-list: $(APKCERTS_FILE)
ifneq (,$(TARGET_BUILD_APPS))
$(call dist-for-goals, apps_only, $(APKCERTS_FILE):apkcerts.txt)
endif
# -----------------------------------------------------------------
# module info file
ifdef CREATE_MODULE_INFO_FILE
MODULE_INFO_FILE := $(PRODUCT_OUT)/module-info.txt
$(info Generating $(MODULE_INFO_FILE)...)
$(shell rm -f $(MODULE_INFO_FILE))
$(foreach m,$(ALL_MODULES), \
$(shell echo "NAME=\"$(m)\"" \
"PATH=\"$(strip $(ALL_MODULES.$(m).PATH))\"" \
"TAGS=\"$(strip $(filter-out _%,$(ALL_MODULES.$(m).TAGS)))\"" \
"BUILT=\"$(strip $(ALL_MODULES.$(m).BUILT))\"" \
"INSTALLED=\"$(strip $(ALL_MODULES.$(m).INSTALLED))\"" >> $(MODULE_INFO_FILE)))
endif
# -----------------------------------------------------------------
# The dev key is used to sign this package, and as the key required
# for future OTA packages installed by this system. Actual product
# deliverables will be re-signed by hand. We expect this file to
# exist with the suffixes ".x509.pem" and ".pk8".
DEFAULT_KEY_CERT_PAIR := $(DEFAULT_SYSTEM_DEV_CERTIFICATE)
# Rules that need to be present for the all targets, even
# if they don't do anything.
.PHONY: systemimage
systemimage:
# -----------------------------------------------------------------
.PHONY: event-log-tags
# Produce an event logs tag file for everything we know about, in order
# to properly allocate numbers. Then produce a file that's filtered
# for what's going to be installed.
all_event_log_tags_file := $(TARGET_OUT_COMMON_INTERMEDIATES)/all-event-log-tags.txt
# Include tags from all packages that we know about
all_event_log_tags_src := \
$(sort $(foreach m, $(ALL_MODULES), $(ALL_MODULES.$(m).EVENT_LOG_TAGS)))
$(all_event_log_tags_file): PRIVATE_SRC_FILES := $(all_event_log_tags_src)
$(all_event_log_tags_file): $(all_event_log_tags_src)
$(hide) mkdir -p $(dir $@)
$(hide) build/tools/merge-event-log-tags.py -o $@ $(PRIVATE_SRC_FILES)
event_log_tags_file := $(TARGET_OUT)/etc/event-log-tags
# Include tags from all packages included in this product, plus all
# tags that are part of the system (ie, not in a vendor/ or device/
# directory).
event_log_tags_src := \
$(sort $(foreach m,\
$(PRODUCTS.$(INTERNAL_PRODUCT).PRODUCT_PACKAGES) \
$(call module-names-for-tag-list,user), \
$(ALL_MODULES.$(m).EVENT_LOG_TAGS)) \
$(filter-out vendor/% device/% out/%,$(all_event_log_tags_src)))
$(event_log_tags_file): PRIVATE_SRC_FILES := $(event_log_tags_src)
$(event_log_tags_file): PRIVATE_MERGED_FILE := $(all_event_log_tags_file)
$(event_log_tags_file): $(event_log_tags_src) $(all_event_log_tags_file)
$(hide) mkdir -p $(dir $@)
$(hide) build/tools/merge-event-log-tags.py -o $@ -m $(PRIVATE_MERGED_FILE) $(PRIVATE_SRC_FILES)
event-log-tags: $(event_log_tags_file)
ALL_DEFAULT_INSTALLED_MODULES += $(event_log_tags_file)
# #################################################################
# Targets for boot/OS images
# #################################################################
# -----------------------------------------------------------------
# the ramdisk
INTERNAL_RAMDISK_FILES := $(filter $(TARGET_ROOT_OUT)/%, \
$(ALL_PREBUILT) \
$(ALL_COPIED_HEADERS) \
$(ALL_GENERATED_SOURCES) \
$(ALL_DEFAULT_INSTALLED_MODULES))
BUILT_RAMDISK_TARGET := $(PRODUCT_OUT)/ramdisk.img
# We just build this directly to the install location.
INSTALLED_RAMDISK_TARGET := $(BUILT_RAMDISK_TARGET)
$(INSTALLED_RAMDISK_TARGET): $(MKBOOTFS) $(INTERNAL_RAMDISK_FILES) | $(MINIGZIP)
$(call pretty,"Target ram disk: $@")
$(hide) $(MKBOOTFS) $(TARGET_ROOT_OUT) | $(MINIGZIP) > $@
ifneq ($(strip $(TARGET_NO_KERNEL)),true)
# -----------------------------------------------------------------
# the boot image, which is a collection of other images.
INTERNAL_BOOTIMAGE_ARGS := \
$(addprefix --second ,$(INSTALLED_2NDBOOTLOADER_TARGET)) \
--kernel $(INSTALLED_KERNEL_TARGET) \
--ramdisk $(INSTALLED_RAMDISK_TARGET)
INTERNAL_BOOTIMAGE_FILES := $(filter-out --%,$(INTERNAL_BOOTIMAGE_ARGS))
BOARD_KERNEL_CMDLINE := $(strip $(BOARD_KERNEL_CMDLINE))
ifdef BOARD_KERNEL_CMDLINE
INTERNAL_BOOTIMAGE_ARGS += --cmdline "$(BOARD_KERNEL_CMDLINE)"
endif
BOARD_KERNEL_BASE := $(strip $(BOARD_KERNEL_BASE))
ifdef BOARD_KERNEL_BASE
INTERNAL_BOOTIMAGE_ARGS += --base $(BOARD_KERNEL_BASE)
endif
BOARD_KERNEL_PAGESIZE := $(strip $(BOARD_KERNEL_PAGESIZE))
ifdef BOARD_KERNEL_PAGESIZE
INTERNAL_BOOTIMAGE_ARGS += --pagesize $(BOARD_KERNEL_PAGESIZE)
endif
INSTALLED_BOOTIMAGE_TARGET := $(PRODUCT_OUT)/boot.img
ifeq ($(TARGET_BOOTIMAGE_USE_EXT2),true)
tmp_dir_for_image := $(call intermediates-dir-for,EXECUTABLES,boot_img)/bootimg
INTERNAL_BOOTIMAGE_ARGS += --tmpdir $(tmp_dir_for_image)
INTERNAL_BOOTIMAGE_ARGS += --genext2fs $(MKEXT2IMG)
$(INSTALLED_BOOTIMAGE_TARGET): $(MKEXT2IMG) $(INTERNAL_BOOTIMAGE_FILES)
$(call pretty,"Target boot image: $@")
$(hide) $(MKEXT2BOOTIMG) $(INTERNAL_BOOTIMAGE_ARGS) --output $@
else # TARGET_BOOTIMAGE_USE_EXT2 != true
$(INSTALLED_BOOTIMAGE_TARGET): $(MKBOOTIMG) $(INTERNAL_BOOTIMAGE_FILES)
$(call pretty,"Target boot image: $@")
$(hide) $(MKBOOTIMG) $(INTERNAL_BOOTIMAGE_ARGS) --output $@
$(hide) $(call assert-max-image-size,$@,$(BOARD_BOOTIMAGE_PARTITION_SIZE),raw)
endif # TARGET_BOOTIMAGE_USE_EXT2
else # TARGET_NO_KERNEL
# HACK: The top-level targets depend on the bootimage. Not all targets
# can produce a bootimage, though, and emulator targets need the ramdisk
# instead. Fake it out by calling the ramdisk the bootimage.
# TODO: make the emulator use bootimages, and make mkbootimg accept
# kernel-less inputs.
INSTALLED_BOOTIMAGE_TARGET := $(INSTALLED_RAMDISK_TARGET)
endif
# -----------------------------------------------------------------
# NOTICE files
#
# This needs to be before the systemimage rules, because it adds to
# ALL_DEFAULT_INSTALLED_MODULES, which those use to pick which files
# go into the systemimage.
.PHONY: notice_files
# Create the rule to combine the files into text and html forms
# $(1) - Plain text output file
# $(2) - HTML output file
# $(3) - File title
# $(4) - Directory to use. Notice files are all $(4)/src. Other
# directories in there will be used for scratch
# $(5) - Dependencies for the output files
#
# The algorithm here is that we go collect a hash for each of the notice
# files and write the names of the files that match that hash. Then
# to generate the real files, we go print out all of the files and their
# hashes.
#
# These rules are fairly complex, so they depend on this makefile so if
# it changes, they'll run again.
#
# TODO: We could clean this up so that we just record the locations of the
# original notice files instead of making rules to copy them somwehere.
# Then we could traverse that without quite as much bash drama.
define combine-notice-files
$(1) $(2): PRIVATE_MESSAGE := $(3)
$(1) $(2) $(4)/hash-timestamp: PRIVATE_DIR := $(4)
$(4)/hash-timestamp: $(5) $(BUILD_SYSTEM)/Makefile
@echo Finding NOTICE files: $$@
$$(hide) rm -rf $$@ $$(PRIVATE_DIR)/hash
$$(hide) mkdir -p $$(PRIVATE_DIR)/hash
$$(hide) for file in $$$$(find $$(PRIVATE_DIR)/src -type f); do \
hash=$$$$($(MD5SUM) $$$$file | sed -e "s/ .*//"); \
hashfile=$$(PRIVATE_DIR)/hash/$$$$hash; \
echo $$$$file >> $$$$hashfile; \
done
$$(hide) touch $$@
$(1): $(4)/hash-timestamp
@echo Combining NOTICE files: $$@
$$(hide) mkdir -p $$(dir $$@)
$$(hide) echo $$(PRIVATE_MESSAGE) > $$@
$$(hide) find $$(PRIVATE_DIR)/hash -type f | xargs cat | sort | \
sed -e "s:$$(PRIVATE_DIR)/src\(.*\)\.txt: \1:" >> $$@
$$(hide) echo >> $$@
$$(hide) echo >> $$@
$$(hide) echo >> $$@
$$(hide) for hashfile in $$$$(find $$(PRIVATE_DIR)/hash -type f); do \
echo "============================================================"\
>> $$@; \
echo "Notices for file(s):" >> $$@; \
cat $$$$hashfile | sort | \
sed -e "s:$$(PRIVATE_DIR)/src\(.*\)\.txt: \1:" >> \
$$@; \
echo "------------------------------------------------------------"\
>> $$@; \
echo >> $$@; \
orig=$$$$(head -n 1 $$$$hashfile); \
cat $$$$orig >> $$@; \
echo >> $$@; \
echo >> $$@; \
echo >> $$@; \
done
$(2): $(4)/hash-timestamp
@echo Combining NOTICE files: $$@
$$(hide) mkdir -p $$(dir $$@)
$$(hide) echo "<html><head>" > $$@
$$(hide) echo "<style type=\"text/css\">" >> $$@
$$(hide) echo "body { padding: 0; font-family: sans-serif; }" >> $$@
$$(hide) echo ".same-license { background-color: #eeeeee; border-top: 20px solid white; padding: 10px; }" >> $$@
$$(hide) echo ".label { font-weight: bold; }" >> $$@
$$(hide) echo ".file-list { margin-left: 1em; font-color: blue; }" >> $$@
$$(hide) echo "</style>" >> $$@
$$(hide) echo "</head><body topmargin=\"0\" leftmargin=\"0\" rightmargin=\"0\" bottommargin=\"0\">" >> $$@
$$(hide) echo "<table cellpading=\"0\" cellspacing=\"0\" border=\"0\">" \
>> $$@
$$(hide) for hashfile in $$$$(find $$(PRIVATE_DIR)/hash -type f); do \
cat $$$$hashfile | sort | \
sed -e "s:$$(PRIVATE_DIR)/src\(.*\)\.txt: <a name=\"\1\"></a>:" >> \
$$@; \
echo "<tr><td class=\"same-license\">" >> $$@; \
echo "<div class=\"label\">Notices for file(s):</div>" >> $$@; \
echo "<div class=\"file-list\">" >> $$@; \
cat $$$$hashfile | sort | \
sed -e "s:$$(PRIVATE_DIR)/src\(.*\)\.txt: \1<br/>:" >> $$@; \
echo "</div><!-- file-list -->" >> $$@; \
echo >> $$@; \
orig=$$$$(head -n 1 $$$$hashfile); \
echo "<pre class=\"license-text\">" >> $$@; \
cat $$$$orig | sed -e "s/\&/\&amp;/g" | sed -e "s/</\&lt;/g" \
| sed -e "s/>/\&gt;/g" >> $$@; \
echo "</pre><!-- license-text -->" >> $$@; \
echo "</td></tr><!-- same-license -->" >> $$@; \
echo >> $$@; \
echo >> $$@; \
echo >> $$@; \
done
$$(hide) echo "</table>" >> $$@
$$(hide) echo "</body></html>" >> $$@
notice_files: $(1) $(2)
endef
# TODO These intermediate NOTICE.txt/NOTICE.html files should go into
# TARGET_OUT_NOTICE_FILES now that the notice files are gathered from
# the src subdirectory.
target_notice_file_txt := $(TARGET_OUT_INTERMEDIATES)/NOTICE.txt
target_notice_file_html := $(TARGET_OUT_INTERMEDIATES)/NOTICE.html
target_notice_file_html_gz := $(TARGET_OUT_INTERMEDIATES)/NOTICE.html.gz
tools_notice_file_txt := $(HOST_OUT_INTERMEDIATES)/NOTICE.txt
tools_notice_file_html := $(HOST_OUT_INTERMEDIATES)/NOTICE.html
kernel_notice_file := $(TARGET_OUT_NOTICE_FILES)/src/kernel.txt
$(eval $(call combine-notice-files, \
$(target_notice_file_txt), \
$(target_notice_file_html), \
"Notices for files contained in the filesystem images in this directory:", \
$(TARGET_OUT_NOTICE_FILES), \
$(ALL_DEFAULT_INSTALLED_MODULES) $(kernel_notice_file)))
$(eval $(call combine-notice-files, \
$(tools_notice_file_txt), \
$(tools_notice_file_html), \
"Notices for files contained in the tools directory:", \
$(HOST_OUT_NOTICE_FILES), \
$(ALL_DEFAULT_INSTALLED_MODULES)))
# Install the html file at /system/etc/NOTICE.html.gz.
# This is not ideal, but this is very late in the game, after a lot of
# the module processing has already been done -- in fact, we used the
# fact that all that has been done to get the list of modules that we
# need notice files for.
$(target_notice_file_html_gz): $(target_notice_file_html) | $(MINIGZIP)
$(hide) $(MINIGZIP) -9 < $< > $@
installed_notice_html_gz := $(TARGET_OUT)/etc/NOTICE.html.gz
$(installed_notice_html_gz): $(target_notice_file_html_gz) | $(ACP)
$(copy-file-to-target)
# if we've been run my mm, mmm, etc, don't reinstall this every time
ifeq ($(ONE_SHOT_MAKEFILE),)
ALL_DEFAULT_INSTALLED_MODULES += $(installed_notice_html_gz)
endif
# The kernel isn't really a module, so to get its module file in there, we
# make the target NOTICE files depend on this particular file too, which will
# then be in the right directory for the find in combine-notice-files to work.
$(kernel_notice_file): \
prebuilt/$(TARGET_PREBUILT_TAG)/kernel/LINUX_KERNEL_COPYING \
| $(ACP)
@echo Copying: $@
$(hide) mkdir -p $(dir $@)
$(hide) $(ACP) $< $@
# -----------------------------------------------------------------
# Build a keystore with the authorized keys in it, used to verify the
# authenticity of downloaded OTA packages.
#
# This rule adds to ALL_DEFAULT_INSTALLED_MODULES, so it needs to come
# before the rules that use that variable to build the image.
ALL_DEFAULT_INSTALLED_MODULES += $(TARGET_OUT_ETC)/security/otacerts.zip
$(TARGET_OUT_ETC)/security/otacerts.zip: KEY_CERT_PAIR := $(DEFAULT_KEY_CERT_PAIR)
$(TARGET_OUT_ETC)/security/otacerts.zip: $(addsuffix .x509.pem,$(DEFAULT_KEY_CERT_PAIR))
$(hide) rm -f $@
$(hide) mkdir -p $(dir $@)
$(hide) zip -qj $@ $<
.PHONY: otacerts
otacerts: $(TARGET_OUT_ETC)/security/otacerts.zip
# #################################################################
# Targets for user images
# #################################################################
INTERNAL_USERIMAGES_EXT_VARIANT :=
ifeq ($(TARGET_USERIMAGES_USE_EXT2),true)
INTERNAL_USERIMAGES_USE_EXT := true
INTERNAL_USERIMAGES_EXT_VARIANT := ext2
else
ifeq ($(TARGET_USERIMAGES_USE_EXT3),true)
INTERNAL_USERIMAGES_USE_EXT := true
INTERNAL_USERIMAGES_EXT_VARIANT := ext3
else
ifeq ($(TARGET_USERIMAGES_USE_EXT4),true)
INTERNAL_USERIMAGES_USE_EXT := true
INTERNAL_USERIMAGES_EXT_VARIANT := ext4
endif
endif
endif
ifneq (true,$(TARGET_USERIMAGES_SPARSE_EXT_DISABLED))
INTERNAL_USERIMAGES_SPARSE_EXT_FLAG := -s
endif
ifeq ($(INTERNAL_USERIMAGES_USE_EXT),true)
INTERNAL_USERIMAGES_DEPS := $(MKEXTUSERIMG) $(MAKE_EXT4FS)
INTERNAL_USERIMAGES_BINARY_PATHS := $(sort $(dir $(INTERNAL_USERIMAGES_DEPS)))
# $(1): src directory
# $(2): output file
# $(3): mount point
# $(4): ext variant (ext2, ext3, ext4)
# $(5): size of the partition
define build-userimage-ext-target
@mkdir -p $(dir $(2))
$(hide) PATH=$(foreach p,$(INTERNAL_USERIMAGES_BINARY_PATHS),$(p):)$$PATH \
$(MKEXTUSERIMG) $(INTERNAL_USERIMAGES_SPARSE_EXT_FLAG) $(1) $(2) $(4) $(3) $(5)
endef
else
INTERNAL_USERIMAGES_DEPS := $(MKYAFFS2)
endif
# -----------------------------------------------------------------
# Recovery image
# If neither TARGET_NO_KERNEL nor TARGET_NO_RECOVERY are true
ifeq (,$(filter true, $(TARGET_NO_KERNEL) $(TARGET_NO_RECOVERY) $(BUILD_TINY_ANDROID)))
INSTALLED_RECOVERYIMAGE_TARGET := $(PRODUCT_OUT)/recovery.img
recovery_initrc := $(call include-path-for, recovery)/etc/init.rc
recovery_kernel := $(INSTALLED_KERNEL_TARGET) # same as a non-recovery system
recovery_ramdisk := $(PRODUCT_OUT)/ramdisk-recovery.img
recovery_build_prop := $(INSTALLED_BUILD_PROP_TARGET)
recovery_binary := $(call intermediates-dir-for,EXECUTABLES,recovery)/recovery
recovery_resources_common := $(call include-path-for, recovery)/res
recovery_resources_private := $(strip $(wildcard $(TARGET_DEVICE_DIR)/recovery/res))
recovery_resource_deps := $(shell find $(recovery_resources_common) \
$(recovery_resources_private) -type f)
recovery_fstab := $(strip $(wildcard $(TARGET_DEVICE_DIR)/recovery.fstab))
ifeq ($(recovery_resources_private),)
$(info No private recovery resources for TARGET_DEVICE $(TARGET_DEVICE))
endif
ifeq ($(recovery_fstab),)
$(info No recovery.fstab for TARGET_DEVICE $(TARGET_DEVICE))
endif
INTERNAL_RECOVERYIMAGE_ARGS := \
$(addprefix --second ,$(INSTALLED_2NDBOOTLOADER_TARGET)) \
--kernel $(recovery_kernel) \
--ramdisk $(recovery_ramdisk)
# Assumes this has already been stripped
ifdef BOARD_KERNEL_CMDLINE
INTERNAL_RECOVERYIMAGE_ARGS += --cmdline "$(BOARD_KERNEL_CMDLINE)"
endif
ifdef BOARD_KERNEL_BASE
INTERNAL_RECOVERYIMAGE_ARGS += --base $(BOARD_KERNEL_BASE)
endif
BOARD_KERNEL_PAGESIZE := $(strip $(BOARD_KERNEL_PAGESIZE))
ifdef BOARD_KERNEL_PAGESIZE
INTERNAL_RECOVERYIMAGE_ARGS += --pagesize $(BOARD_KERNEL_PAGESIZE)
endif
# Keys authorized to sign OTA packages this build will accept. The
# build always uses dev-keys for this; release packaging tools will
# substitute other keys for this one.
OTA_PUBLIC_KEYS := $(DEFAULT_SYSTEM_DEV_CERTIFICATE).x509.pem
# Generate a file containing the keys that will be read by the
# recovery binary.
RECOVERY_INSTALL_OTA_KEYS := \
$(call intermediates-dir-for,PACKAGING,ota_keys)/keys
DUMPKEY_JAR := $(HOST_OUT_JAVA_LIBRARIES)/dumpkey.jar
$(RECOVERY_INSTALL_OTA_KEYS): PRIVATE_OTA_PUBLIC_KEYS := $(OTA_PUBLIC_KEYS)
$(RECOVERY_INSTALL_OTA_KEYS): extra_keys := $(patsubst %,%.x509.pem,$(PRODUCT_EXTRA_RECOVERY_KEYS))
$(RECOVERY_INSTALL_OTA_KEYS): $(OTA_PUBLIC_KEYS) $(DUMPKEY_JAR) $(extra_keys)
@echo "DumpPublicKey: $@ <= $(PRIVATE_OTA_PUBLIC_KEYS) $(extra_keys)"
@rm -rf $@
@mkdir -p $(dir $@)
java -jar $(DUMPKEY_JAR) $(PRIVATE_OTA_PUBLIC_KEYS) $(extra_keys) > $@
$(INSTALLED_RECOVERYIMAGE_TARGET): $(MKBOOTFS) $(MKBOOTIMG) $(MINIGZIP) \
$(INSTALLED_RAMDISK_TARGET) \
$(INSTALLED_BOOTIMAGE_TARGET) \
$(recovery_binary) \
$(recovery_initrc) $(recovery_kernel) \
$(INSTALLED_2NDBOOTLOADER_TARGET) \
$(recovery_build_prop) $(recovery_resource_deps) \
$(recovery_fstab) \
$(RECOVERY_INSTALL_OTA_KEYS)
@echo ----- Making recovery image ------
rm -rf $(TARGET_RECOVERY_OUT)
mkdir -p $(TARGET_RECOVERY_OUT)
mkdir -p $(TARGET_RECOVERY_ROOT_OUT)
mkdir -p $(TARGET_RECOVERY_ROOT_OUT)/etc
mkdir -p $(TARGET_RECOVERY_ROOT_OUT)/tmp
echo Copying baseline ramdisk...
cp -R $(TARGET_ROOT_OUT) $(TARGET_RECOVERY_OUT)
rm $(TARGET_RECOVERY_ROOT_OUT)/init*.rc
echo Modifying ramdisk contents...
cp -f $(recovery_initrc) $(TARGET_RECOVERY_ROOT_OUT)/
cp -f $(recovery_binary) $(TARGET_RECOVERY_ROOT_OUT)/sbin/
cp -rf $(recovery_resources_common) $(TARGET_RECOVERY_ROOT_OUT)/
$(foreach item,$(recovery_resources_private), \
cp -rf $(item) $(TARGET_RECOVERY_ROOT_OUT)/)
$(foreach item,$(recovery_fstab), \
cp -f $(item) $(TARGET_RECOVERY_ROOT_OUT)/etc/recovery.fstab)
cp $(RECOVERY_INSTALL_OTA_KEYS) $(TARGET_RECOVERY_ROOT_OUT)/res/keys
cat $(INSTALLED_DEFAULT_PROP_TARGET) $(recovery_build_prop) \
> $(TARGET_RECOVERY_ROOT_OUT)/default.prop
$(MKBOOTFS) $(TARGET_RECOVERY_ROOT_OUT) | $(MINIGZIP) > $(recovery_ramdisk)
$(MKBOOTIMG) $(INTERNAL_RECOVERYIMAGE_ARGS) --output $@
@echo ----- Made recovery image -------- $@
$(hide) $(call assert-max-image-size,$@,$(BOARD_RECOVERYIMAGE_PARTITION_SIZE),raw)
else
INSTALLED_RECOVERYIMAGE_TARGET :=
endif
.PHONY: recoveryimage
recoveryimage: $(INSTALLED_RECOVERYIMAGE_TARGET)
ifneq ($(BOARD_NAND_PAGE_SIZE),)
mkyaffs2_extra_flags := -c $(BOARD_NAND_PAGE_SIZE)
else
mkyaffs2_extra_flags :=
BOARD_NAND_PAGE_SIZE := 2048
endif
ifneq ($(BOARD_NAND_SPARE_SIZE),)
mkyaffs2_extra_flags += -s $(BOARD_NAND_SPARE_SIZE)
else
BOARD_NAND_SPARE_SIZE := 64
endif
# -----------------------------------------------------------------
# system image
#
INTERNAL_SYSTEMIMAGE_FILES := $(filter $(TARGET_OUT)/%, \
$(ALL_PREBUILT) \
$(ALL_COPIED_HEADERS) \
$(ALL_GENERATED_SOURCES) \
$(ALL_DEFAULT_INSTALLED_MODULES))
FULL_SYSTEMIMAGE_DEPS := $(INTERNAL_SYSTEMIMAGE_FILES) $(INTERNAL_USERIMAGES_DEPS)
# -----------------------------------------------------------------
# installed file list
# Depending on anything that $(BUILT_SYSTEMIMAGE) depends on.
# We put installed-files.txt ahead of image itself in the dependency graph
# so that we can get the size stat even if the build fails due to too large
# system image.
INSTALLED_FILES_FILE := $(PRODUCT_OUT)/installed-files.txt
$(INSTALLED_FILES_FILE): $(FULL_SYSTEMIMAGE_DEPS)
@echo Installed file list: $@
@mkdir -p $(dir $@)
@rm -f $@
$(hide) build/tools/fileslist.py $(TARGET_OUT) > $@
.PHONY: installed-file-list
installed-file-list: $(INSTALLED_FILES_FILE)
ifneq ($(filter sdk win_sdk,$(MAKECMDGOALS)),)
$(call dist-for-goals, sdk win_sdk, $(INSTALLED_FILES_FILE))
endif
ifneq ($(filter sdk_addon,$(MAKECMDGOALS)),)
$(call dist-for-goals, sdk_addon, $(INSTALLED_FILES_FILE))
endif
systemimage_intermediates := \
$(call intermediates-dir-for,PACKAGING,systemimage)
BUILT_SYSTEMIMAGE := $(systemimage_intermediates)/system.img
ifeq ($(INTERNAL_USERIMAGES_USE_EXT),true)
## generate an ext image
# $(1): output file
define build-systemimage-target
@echo "Target system fs image: $(1)"
$(call build-userimage-ext-target,$(TARGET_OUT),$(1),system,$(INTERNAL_USERIMAGES_EXT_VARIANT),$(BOARD_SYSTEMIMAGE_PARTITION_SIZE))
endef
else # INTERNAL_USERIMAGES_USE_EXT != true
## generate a yaffs2 image
# $(1): output file
define build-systemimage-target
@echo "Target system fs image: $(1)"
@mkdir -p $(dir $(1))
$(hide) $(MKYAFFS2) -f $(mkyaffs2_extra_flags) $(TARGET_OUT) $(1)
endef
endif # INTERNAL_USERIMAGES_USE_EXT
$(BUILT_SYSTEMIMAGE): $(FULL_SYSTEMIMAGE_DEPS) $(INSTALLED_FILES_FILE)
$(call build-systemimage-target,$@)
INSTALLED_SYSTEMIMAGE := $(PRODUCT_OUT)/system.img
SYSTEMIMAGE_SOURCE_DIR := $(TARGET_OUT)
# The system partition needs room for the recovery image as well. We
# now store the recovery image as a binary patch using the boot image
# as the source (since they are very similar). Generate the patch so
# we can see how big it's going to be, and include that in the system
# image size check calculation.
ifneq ($(INSTALLED_RECOVERYIMAGE_TARGET),)
intermediates := $(call intermediates-dir-for,PACKAGING,recovery_patch)
RECOVERY_FROM_BOOT_PATCH := $(intermediates)/recovery_from_boot.p
$(RECOVERY_FROM_BOOT_PATCH): $(INSTALLED_RECOVERYIMAGE_TARGET) \
$(INSTALLED_BOOTIMAGE_TARGET) \
$(HOST_OUT_EXECUTABLES)/imgdiff \
$(HOST_OUT_EXECUTABLES)/bsdiff
@echo "Construct recovery from boot"
mkdir -p $(dir $@)
PATH=$(HOST_OUT_EXECUTABLES):$$PATH $(HOST_OUT_EXECUTABLES)/imgdiff $(INSTALLED_BOOTIMAGE_TARGET) $(INSTALLED_RECOVERYIMAGE_TARGET) $@
endif
$(INSTALLED_SYSTEMIMAGE): $(BUILT_SYSTEMIMAGE) $(RECOVERY_FROM_BOOT_PATCH) | $(ACP)
@echo "Install system fs image: $@"
$(copy-file-to-target)
$(hide) $(call assert-max-image-size,$@ $(RECOVERY_FROM_BOOT_PATCH),$(BOARD_SYSTEMIMAGE_PARTITION_SIZE),yaffs)
systemimage: $(INSTALLED_SYSTEMIMAGE)
.PHONY: systemimage-nodeps snod
systemimage-nodeps snod: $(filter-out systemimage-nodeps snod,$(MAKECMDGOALS)) \
| $(INTERNAL_USERIMAGES_DEPS)
@echo "make $@: ignoring dependencies"
$(call build-systemimage-target,$(INSTALLED_SYSTEMIMAGE))
$(hide) $(call assert-max-image-size,$(INSTALLED_SYSTEMIMAGE),$(BOARD_SYSTEMIMAGE_PARTITION_SIZE),yaffs)
#######
## system tarball
define build-systemtarball-target
$(call pretty,"Target system fs tarball: $(INSTALLED_SYSTEMTARBALL_TARGET)")
$(MKTARBALL) $(FS_GET_STATS) \
$(PRODUCT_OUT) system $(PRIVATE_SYSTEM_TAR) \
$(INSTALLED_SYSTEMTARBALL_TARGET)
endef
ifndef SYSTEM_TARBALL_FORMAT
SYSTEM_TARBALL_FORMAT := bz2
endif
system_tar := $(PRODUCT_OUT)/system.tar
INSTALLED_SYSTEMTARBALL_TARGET := $(system_tar).$(SYSTEM_TARBALL_FORMAT)
$(INSTALLED_SYSTEMTARBALL_TARGET): PRIVATE_SYSTEM_TAR := $(system_tar)
$(INSTALLED_SYSTEMTARBALL_TARGET): $(FS_GET_STATS) $(INTERNAL_SYSTEMIMAGE_FILES)
$(build-systemtarball-target)
.PHONY: systemtarball-nodeps
systemtarball-nodeps: $(FS_GET_STATS) \
$(filter-out systemtarball-nodeps stnod,$(MAKECMDGOALS))
$(build-systemtarball-target)
.PHONY: stnod
stnod: systemtarball-nodeps
#######
## boot tarball
define build-boottarball-target
$(hide) echo "Target boot fs tarball: $(INSTALLED_BOOTTARBALL_TARGET)"
$(hide) mkdir -p $(PRODUCT_OUT)/boot
$(hide) cp -f $(INTERNAL_BOOTIMAGE_FILES) $(PRODUCT_OUT)/boot/.
$(hide) echo $(BOARD_KERNEL_CMDLINE) > $(PRODUCT_OUT)/boot/cmdline
$(hide) $(MKTARBALL) $(FS_GET_STATS) \
$(PRODUCT_OUT) boot $(PRIVATE_BOOT_TAR) \
$(INSTALLED_BOOTTARBALL_TARGET)
endef
ifndef BOOT_TARBALL_FORMAT
BOOT_TARBALL_FORMAT := bz2
endif
boot_tar := $(PRODUCT_OUT)/boot.tar
INSTALLED_BOOTTARBALL_TARGET := $(boot_tar).$(BOOT_TARBALL_FORMAT)
$(INSTALLED_BOOTTARBALL_TARGET): PRIVATE_BOOT_TAR := $(boot_tar)
$(INSTALLED_BOOTTARBALL_TARGET): $(FS_GET_STATS) $(INTERNAL_BOOTIMAGE_FILES)
$(build-boottarball-target)
.PHONY: boottarball-nodeps btnod
boottarball-nodeps btnod: $(FS_GET_STATS) \
$(filter-out boottarball-nodeps btnod,$(MAKECMDGOALS))
$(build-boottarball-target)
# -----------------------------------------------------------------
# data partition image
INTERNAL_USERDATAIMAGE_FILES := \
$(filter $(TARGET_OUT_DATA)/%,$(ALL_DEFAULT_INSTALLED_MODULES))
ifeq ($(INTERNAL_USERIMAGES_USE_EXT),true)
## Generate an ext2 image
define build-userdataimage-target
$(call pretty,"Target userdata fs image: $(INSTALLED_USERDATAIMAGE_TARGET)")
@mkdir -p $(TARGET_OUT_DATA)
$(call build-userimage-ext-target,$(TARGET_OUT_DATA),$(INSTALLED_USERDATAIMAGE_TARGET),data,$(INTERNAL_USERIMAGES_EXT_VARIANT),$(BOARD_USERDATAIMAGE_PARTITION_SIZE))
$(hide) $(call assert-max-image-size,$(INSTALLED_USERDATAIMAGE_TARGET),$(BOARD_USERDATAIMAGE_PARTITION_SIZE),yaffs)
endef
else # INTERNAL_USERIMAGES_USE_EXT != true
## Generate a yaffs2 image
define build-userdataimage-target
$(call pretty,"Target userdata fs image: $(INSTALLED_USERDATAIMAGE_TARGET)")
@mkdir -p $(TARGET_OUT_DATA)
$(hide) $(MKYAFFS2) -f $(mkyaffs2_extra_flags) $(TARGET_OUT_DATA) $(INSTALLED_USERDATAIMAGE_TARGET)
$(hide) $(call assert-max-image-size,$(INSTALLED_USERDATAIMAGE_TARGET),$(BOARD_USERDATAIMAGE_PARTITION_SIZE),yaffs)
endef
endif # INTERNAL_USERIMAGES_USE_EXT
BUILT_USERDATAIMAGE_TARGET := $(PRODUCT_OUT)/userdata.img
# We just build this directly to the install location.
INSTALLED_USERDATAIMAGE_TARGET := $(BUILT_USERDATAIMAGE_TARGET)
$(INSTALLED_USERDATAIMAGE_TARGET): $(INTERNAL_USERIMAGES_DEPS) \
$(INTERNAL_USERDATAIMAGE_FILES)
$(build-userdataimage-target)
.PHONY: userdataimage-nodeps
userdataimage-nodeps: | $(INTERNAL_USERIMAGES_DEPS)
$(build-userdataimage-target)
#######
## data partition tarball
define build-userdatatarball-target
$(call pretty,"Target userdata fs tarball: " \
"$(INSTALLED_USERDATATARBALL_TARGET)")
$(MKTARBALL) $(FS_GET_STATS) \
$(PRODUCT_OUT) data $(PRIVATE_USERDATA_TAR) \
$(INSTALLED_USERDATATARBALL_TARGET)
endef
userdata_tar := $(PRODUCT_OUT)/userdata.tar
INSTALLED_USERDATATARBALL_TARGET := $(userdata_tar).bz2
$(INSTALLED_USERDATATARBALL_TARGET): PRIVATE_USERDATA_TAR := $(userdata_tar)
$(INSTALLED_USERDATATARBALL_TARGET): $(FS_GET_STATS) $(INTERNAL_USERDATAIMAGE_FILES)
$(build-userdatatarball-target)
.PHONY: userdatatarball-nodeps
userdatatarball-nodeps: $(FS_GET_STATS)
$(build-userdatatarball-target)
# -----------------------------------------------------------------
# bring in the installer image generation defines if necessary
ifeq ($(TARGET_USE_DISKINSTALLER),true)
include bootable/diskinstaller/config.mk
endif
# -----------------------------------------------------------------
# host tools needed to build OTA packages
OTATOOLS := $(HOST_OUT_EXECUTABLES)/minigzip \
$(HOST_OUT_EXECUTABLES)/mkbootfs \
$(HOST_OUT_EXECUTABLES)/mkbootimg \
$(HOST_OUT_EXECUTABLES)/fs_config \
$(HOST_OUT_EXECUTABLES)/mkyaffs2image \
$(HOST_OUT_EXECUTABLES)/zipalign \
$(HOST_OUT_EXECUTABLES)/aapt \
$(HOST_OUT_EXECUTABLES)/bsdiff \
$(HOST_OUT_EXECUTABLES)/imgdiff \
$(HOST_OUT_JAVA_LIBRARIES)/dumpkey.jar \
$(HOST_OUT_JAVA_LIBRARIES)/signapk.jar \
$(HOST_OUT_EXECUTABLES)/mkuserimg.sh \
$(HOST_OUT_EXECUTABLES)/genext2fs \
$(HOST_OUT_EXECUTABLES)/tune2fs \
$(HOST_OUT_EXECUTABLES)/e2fsck \
$(HOST_OUT_EXECUTABLES)/make_ext4fs
.PHONY: otatools
otatools: $(OTATOOLS)
# -----------------------------------------------------------------
# A zip of the directories that map to the target filesystem.
# This zip can be used to create an OTA package or filesystem image
# as a post-build step.
#
name := $(TARGET_PRODUCT)
ifeq ($(TARGET_BUILD_TYPE),debug)
name := $(name)_debug
endif
name := $(name)-target_files-$(FILE_NAME_TAG)
intermediates := $(call intermediates-dir-for,PACKAGING,target_files)
BUILT_TARGET_FILES_PACKAGE := $(intermediates)/$(name).zip
$(BUILT_TARGET_FILES_PACKAGE): intermediates := $(intermediates)
$(BUILT_TARGET_FILES_PACKAGE): \
zip_root := $(intermediates)/$(name)
# $(1): Directory to copy
# $(2): Location to copy it to
# The "ls -A" is to prevent "acp s/* d" from failing if s is empty.
define package_files-copy-root
if [ -d "$(strip $(1))" -a "$$(ls -A $(1))" ]; then \
mkdir -p $(2) && \
$(ACP) -rd $(strip $(1))/* $(2); \
fi
endef
built_ota_tools := \
$(call intermediates-dir-for,EXECUTABLES,applypatch)/applypatch \
$(call intermediates-dir-for,EXECUTABLES,applypatch_static)/applypatch_static \
$(call intermediates-dir-for,EXECUTABLES,check_prereq)/check_prereq \
$(call intermediates-dir-for,EXECUTABLES,sqlite3)/sqlite3 \
$(call intermediates-dir-for,EXECUTABLES,updater)/updater
$(BUILT_TARGET_FILES_PACKAGE): PRIVATE_OTA_TOOLS := $(built_ota_tools)
$(BUILT_TARGET_FILES_PACKAGE): PRIVATE_RECOVERY_API_VERSION := $(RECOVERY_API_VERSION)
ifeq ($(TARGET_RELEASETOOLS_EXTENSIONS),)
# default to common dir for device vendor
$(BUILT_TARGET_FILES_PACKAGE): tool_extensions := $(TARGET_DEVICE_DIR)/../common
else
$(BUILT_TARGET_FILES_PACKAGE): tool_extensions := $(TARGET_RELEASETOOLS_EXTENSIONS)
endif
# Depending on the various images guarantees that the underlying
# directories are up-to-date.
$(BUILT_TARGET_FILES_PACKAGE): \
$(INSTALLED_BOOTIMAGE_TARGET) \
$(INSTALLED_RADIOIMAGE_TARGET) \
$(INSTALLED_RECOVERYIMAGE_TARGET) \
$(INSTALLED_SYSTEMIMAGE) \
$(INSTALLED_USERDATAIMAGE_TARGET) \
$(INSTALLED_ANDROID_INFO_TXT_TARGET) \
$(built_ota_tools) \
$(APKCERTS_FILE) \
$(HOST_OUT_EXECUTABLES)/fs_config \
| $(ACP)
@echo "Package target files: $@"
$(hide) rm -rf $@ $(zip_root)
$(hide) mkdir -p $(dir $@) $(zip_root)
@# Components of the recovery image
$(hide) mkdir -p $(zip_root)/RECOVERY
$(hide) $(call package_files-copy-root, \
$(TARGET_RECOVERY_ROOT_OUT),$(zip_root)/RECOVERY/RAMDISK)
ifdef INSTALLED_KERNEL_TARGET
$(hide) $(ACP) $(INSTALLED_KERNEL_TARGET) $(zip_root)/RECOVERY/kernel
endif
ifdef INSTALLED_2NDBOOTLOADER_TARGET
$(hide) $(ACP) \
$(INSTALLED_2NDBOOTLOADER_TARGET) $(zip_root)/RECOVERY/second
endif
ifdef BOARD_KERNEL_CMDLINE
$(hide) echo "$(BOARD_KERNEL_CMDLINE)" > $(zip_root)/RECOVERY/cmdline
endif
ifdef BOARD_KERNEL_BASE
$(hide) echo "$(BOARD_KERNEL_BASE)" > $(zip_root)/RECOVERY/base
endif
ifdef BOARD_KERNEL_PAGESIZE
$(hide) echo "$(BOARD_KERNEL_PAGESIZE)" > $(zip_root)/RECOVERY/pagesize
endif
@# Components of the boot image
$(hide) mkdir -p $(zip_root)/BOOT
$(hide) $(call package_files-copy-root, \
$(TARGET_ROOT_OUT),$(zip_root)/BOOT/RAMDISK)
ifdef INSTALLED_KERNEL_TARGET
$(hide) $(ACP) $(INSTALLED_KERNEL_TARGET) $(zip_root)/BOOT/kernel
endif
ifdef INSTALLED_2NDBOOTLOADER_TARGET
$(hide) $(ACP) \
$(INSTALLED_2NDBOOTLOADER_TARGET) $(zip_root)/BOOT/second
endif
ifdef BOARD_KERNEL_CMDLINE
$(hide) echo "$(BOARD_KERNEL_CMDLINE)" > $(zip_root)/BOOT/cmdline
endif
ifdef BOARD_KERNEL_BASE
$(hide) echo "$(BOARD_KERNEL_BASE)" > $(zip_root)/BOOT/base
endif
ifdef BOARD_KERNEL_PAGESIZE
$(hide) echo "$(BOARD_KERNEL_PAGESIZE)" > $(zip_root)/BOOT/pagesize
endif
$(hide) $(foreach t,$(INSTALLED_RADIOIMAGE_TARGET),\
mkdir -p $(zip_root)/RADIO; \
$(ACP) $(t) $(zip_root)/RADIO/$(notdir $(t));)
@# Contents of the system image
$(hide) $(call package_files-copy-root, \
$(SYSTEMIMAGE_SOURCE_DIR),$(zip_root)/SYSTEM)
@# Contents of the data image
$(hide) $(call package_files-copy-root, \
$(TARGET_OUT_DATA),$(zip_root)/DATA)
@# Extra contents of the OTA package
$(hide) mkdir -p $(zip_root)/OTA/bin
$(hide) $(ACP) $(INSTALLED_ANDROID_INFO_TXT_TARGET) $(zip_root)/OTA/
$(hide) $(ACP) $(PRIVATE_OTA_TOOLS) $(zip_root)/OTA/bin/
@# Files that do not end up in any images, but are necessary to
@# build them.
$(hide) mkdir -p $(zip_root)/META
$(hide) $(ACP) $(APKCERTS_FILE) $(zip_root)/META/apkcerts.txt
$(hide) echo "$(PRODUCT_OTA_PUBLIC_KEYS)" > $(zip_root)/META/otakeys.txt
$(hide) echo "recovery_api_version=$(PRIVATE_RECOVERY_API_VERSION)" > $(zip_root)/META/misc_info.txt
ifdef BOARD_FLASH_BLOCK_SIZE
$(hide) echo "blocksize=$(BOARD_FLASH_BLOCK_SIZE)" >> $(zip_root)/META/misc_info.txt
endif
ifdef BOARD_BOOTIMAGE_PARTITION_SIZE
$(hide) echo "boot_size=$(BOARD_BOOTIMAGE_PARTITION_SIZE)" >> $(zip_root)/META/misc_info.txt
endif
ifdef BOARD_RECOVERYIMAGE_PARTITION_SIZE
$(hide) echo "recovery_size=$(BOARD_RECOVERYIMAGE_PARTITION_SIZE)" >> $(zip_root)/META/misc_info.txt
endif
ifdef BOARD_SYSTEMIMAGE_PARTITION_SIZE
$(hide) echo "system_size=$(BOARD_SYSTEMIMAGE_PARTITION_SIZE)" >> $(zip_root)/META/misc_info.txt
endif
ifdef BOARD_USERDATAIMAGE_PARTITION_SIZE
$(hide) echo "userdata_size=$(BOARD_USERDATAIMAGE_PARTITION_SIZE)" >> $(zip_root)/META/misc_info.txt
endif
$(hide) echo "tool_extensions=$(tool_extensions)" >> $(zip_root)/META/misc_info.txt
ifdef mkyaffs2_extra_flags
$(hide) echo "mkyaffs2_extra_flags=$(mkyaffs2_extra_flags)" >> $(zip_root)/META/misc_info.txt
endif
ifdef INTERNAL_USERIMAGES_SPARSE_EXT_FLAG
$(hide) echo "extfs_sparse_flag=$(INTERNAL_USERIMAGES_SPARSE_EXT_FLAG)" >> $(zip_root)/META/misc_info.txt
endif
$(hide) echo "default_system_dev_certificate=$(DEFAULT_SYSTEM_DEV_CERTIFICATE)" >> $(zip_root)/META/misc_info.txt
ifdef PRODUCT_EXTRA_RECOVERY_KEYS
$(hide) echo "extra_recovery_keys=$(PRODUCT_EXTRA_RECOVERY_KEYS)" >> $(zip_root)/META/misc_info.txt
endif
@# Zip everything up, preserving symlinks
$(hide) (cd $(zip_root) && zip -qry ../$(notdir $@) .)
@# Run fs_config on all the system, boot ramdisk, and recovery ramdisk files in the zip, and save the output
$(hide) zipinfo -1 $@ | awk 'BEGIN { FS="SYSTEM/" } /^SYSTEM\// {print "system/" $$2}' | $(HOST_OUT_EXECUTABLES)/fs_config > $(zip_root)/META/filesystem_config.txt
$(hide) zipinfo -1 $@ | awk 'BEGIN { FS="BOOT/RAMDISK/" } /^BOOT\/RAMDISK\// {print $$2}' | $(HOST_OUT_EXECUTABLES)/fs_config > $(zip_root)/META/boot_filesystem_config.txt
$(hide) zipinfo -1 $@ | awk 'BEGIN { FS="RECOVERY/RAMDISK/" } /^RECOVERY\/RAMDISK\// {print $$2}' | $(HOST_OUT_EXECUTABLES)/fs_config > $(zip_root)/META/recovery_filesystem_config.txt
$(hide) (cd $(zip_root) && zip -q ../$(notdir $@) META/*filesystem_config.txt)
target-files-package: $(BUILT_TARGET_FILES_PACKAGE)
ifneq ($(TARGET_PRODUCT),sdk)
ifeq ($(filter generic%,$(TARGET_DEVICE)),)
ifneq ($(TARGET_NO_KERNEL),true)
ifneq ($(recovery_fstab),)
# -----------------------------------------------------------------
# OTA update package
name := $(TARGET_PRODUCT)
ifeq ($(TARGET_BUILD_TYPE),debug)
name := $(name)_debug
endif
name := $(name)-ota-$(FILE_NAME_TAG)
INTERNAL_OTA_PACKAGE_TARGET := $(PRODUCT_OUT)/$(name).zip
$(INTERNAL_OTA_PACKAGE_TARGET): KEY_CERT_PAIR := $(DEFAULT_KEY_CERT_PAIR)
$(INTERNAL_OTA_PACKAGE_TARGET): $(BUILT_TARGET_FILES_PACKAGE) $(OTATOOLS)
@echo "Package OTA: $@"
$(hide) ./build/tools/releasetools/ota_from_target_files -v \
-p $(HOST_OUT) \
-k $(KEY_CERT_PAIR) \
$(BUILT_TARGET_FILES_PACKAGE) $@
.PHONY: otapackage
otapackage: $(INTERNAL_OTA_PACKAGE_TARGET)
# -----------------------------------------------------------------
# The update package
name := $(TARGET_PRODUCT)
ifeq ($(TARGET_BUILD_TYPE),debug)
name := $(name)_debug
endif
name := $(name)-img-$(FILE_NAME_TAG)
INTERNAL_UPDATE_PACKAGE_TARGET := $(PRODUCT_OUT)/$(name).zip
ifeq ($(TARGET_RELEASETOOLS_EXTENSIONS),)
# default to common dir for device vendor
$(INTERNAL_UPDATE_PACKAGE_TARGET): extensions := $(TARGET_DEVICE_DIR)/../common
else
$(INTERNAL_UPDATE_PACKAGE_TARGET): extensions := $(TARGET_RELEASETOOLS_EXTENSIONS)
endif
$(INTERNAL_UPDATE_PACKAGE_TARGET): $(BUILT_TARGET_FILES_PACKAGE) $(OTATOOLS)
@echo "Package: $@"
$(hide) ./build/tools/releasetools/img_from_target_files -v \
-s $(extensions) \
-p $(HOST_OUT) \
$(BUILT_TARGET_FILES_PACKAGE) $@
.PHONY: updatepackage
updatepackage: $(INTERNAL_UPDATE_PACKAGE_TARGET)
endif # recovery_fstab is defined
endif # TARGET_NO_KERNEL != true
endif # TARGET_DEVICE != generic*
endif # TARGET_PRODUCT != sdk
# -----------------------------------------------------------------
# A zip of the tests that are built when running "make tests".
# This is very similar to BUILT_TARGET_FILES_PACKAGE, but we
# only grab SYSTEM and DATA, and it's called "*-tests-*.zip".
#
name := $(TARGET_PRODUCT)
ifeq ($(TARGET_BUILD_TYPE),debug)
name := $(name)_debug
endif
name := $(name)-tests-$(FILE_NAME_TAG)
intermediates := $(call intermediates-dir-for,PACKAGING,tests_zip)
BUILT_TESTS_ZIP_PACKAGE := $(intermediates)/$(name).zip
$(BUILT_TESTS_ZIP_PACKAGE): intermediates := $(intermediates)
$(BUILT_TESTS_ZIP_PACKAGE): zip_root := $(intermediates)/$(name)
# Depending on the images guarantees that the underlying
# directories are up-to-date.
$(BUILT_TESTS_ZIP_PACKAGE): \
$(BUILT_SYSTEMIMAGE) \
$(INSTALLED_USERDATAIMAGE_TARGET) \
| $(ACP)
@echo "Package test files: $@"
$(hide) rm -rf $@ $(zip_root)
$(hide) mkdir -p $(dir $@) $(zip_root)
@# Some parts of the system image
$(hide) $(call package_files-copy-root, \
$(SYSTEMIMAGE_SOURCE_DIR)/xbin,$(zip_root)/SYSTEM/xbin)
$(hide) $(call package_files-copy-root, \
$(SYSTEMIMAGE_SOURCE_DIR)/lib,$(zip_root)/SYSTEM/lib)
$(hide) $(call package_files-copy-root, \
$(SYSTEMIMAGE_SOURCE_DIR)/framework, \
$(zip_root)/SYSTEM/framework)
$(hide) $(ACP) $(SYSTEMIMAGE_SOURCE_DIR)/build.prop $(zip_root)/SYSTEM
@# Contents of the data image
$(hide) $(call package_files-copy-root, \
$(TARGET_OUT_DATA),$(zip_root)/DATA)
$(hide) (cd $(zip_root) && zip -qry ../$(notdir $@) .)
.PHONY: tests-zip-package
tests-zip-package: $(BUILT_TESTS_ZIP_PACKAGE)
# Target needed by tests build
.PHONY: tests-build-target
tests-build-target: $(BUILT_TESTS_ZIP_PACKAGE) \
$(BUILT_USERDATAIMAGE_TARGET)
ifneq (,$(filter $(MAKECMDGOALS),tests-build-target))
$(call dist-for-goals, tests-build-target, \
$(BUILT_TESTS_ZIP_PACKAGE) \
$(BUILT_USERDATAIMAGE_TARGET))
endif
# -----------------------------------------------------------------
# A zip of the symbols directory. Keep the full paths to make it
# more obvious where these files came from.
#
name := $(TARGET_PRODUCT)
ifeq ($(TARGET_BUILD_TYPE),debug)
name := $(name)_debug
endif
name := $(name)-symbols-$(FILE_NAME_TAG)
SYMBOLS_ZIP := $(PRODUCT_OUT)/$(name).zip
$(SYMBOLS_ZIP): $(INSTALLED_SYSTEMIMAGE) $(INSTALLED_BOOTIMAGE_TARGET)
@echo "Package symbols: $@"
$(hide) rm -rf $@
$(hide) mkdir -p $(dir $@)
$(hide) zip -qr $@ $(TARGET_OUT_UNSTRIPPED)
# -----------------------------------------------------------------
# A zip of the Android Apps. Not keeping full path so that we don't
# include product names when distributing
#
name := $(TARGET_PRODUCT)
ifeq ($(TARGET_BUILD_TYPE),debug)
name := $(name)_debug
endif
name := $(name)-apps-$(FILE_NAME_TAG)
APPS_ZIP := $(PRODUCT_OUT)/$(name).zip
$(APPS_ZIP): $(INSTALLED_SYSTEMIMAGE)
@echo "Package apps: $@"
$(hide) rm -rf $@
$(hide) mkdir -p $(dir $@)
$(hide) zip -qj $@ $(TARGET_OUT_APPS)/*
#------------------------------------------------------------------
# A zip of emma code coverage meta files. Generated for fully emma
# instrumented build.
#
EMMA_META_ZIP := $(PRODUCT_OUT)/emma_meta.zip
$(EMMA_META_ZIP): $(INSTALLED_SYSTEMIMAGE)
@echo "Collecting Emma coverage meta files."
$(hide) find $(TARGET_COMMON_OUT_ROOT) -name "coverage.em" | \
zip -@ -q $@
# -----------------------------------------------------------------
# dalvik something
.PHONY: dalvikfiles
dalvikfiles: $(INTERNAL_DALVIK_MODULES)
# -----------------------------------------------------------------
# The emulator package
INTERNAL_EMULATOR_PACKAGE_FILES += \
$(HOST_OUT_EXECUTABLES)/emulator$(HOST_EXECUTABLE_SUFFIX) \
prebuilt/android-$(TARGET_ARCH)/kernel/kernel-qemu \
$(INSTALLED_RAMDISK_TARGET) \
$(INSTALLED_SYSTEMIMAGE) \
$(INSTALLED_USERDATAIMAGE_TARGET)
name := $(TARGET_PRODUCT)-emulator-$(FILE_NAME_TAG)
INTERNAL_EMULATOR_PACKAGE_TARGET := $(PRODUCT_OUT)/$(name).zip
$(INTERNAL_EMULATOR_PACKAGE_TARGET): $(INTERNAL_EMULATOR_PACKAGE_FILES)
@echo "Package: $@"
$(hide) zip -qj $@ $(INTERNAL_EMULATOR_PACKAGE_FILES)
# -----------------------------------------------------------------
# The pdk package (Platform Development Kit)
ifneq (,$(filter pdk,$(MAKECMDGOALS)))
include development/pdk/Pdk.mk
endif
# -----------------------------------------------------------------
# The SDK
# The SDK includes host-specific components, so it belongs under HOST_OUT.
sdk_dir := $(HOST_OUT)/sdk
# Build a name that looks like:
#
# linux-x86 --> android-sdk_12345_linux-x86
# darwin-x86 --> android-sdk_12345_mac-x86
# windows-x86 --> android-sdk_12345_windows
#
sdk_name := android-sdk_$(FILE_NAME_TAG)
ifeq ($(HOST_OS),darwin)
INTERNAL_SDK_HOST_OS_NAME := mac
else
INTERNAL_SDK_HOST_OS_NAME := $(HOST_OS)
endif
ifneq ($(HOST_OS),windows)
INTERNAL_SDK_HOST_OS_NAME := $(INTERNAL_SDK_HOST_OS_NAME)-$(HOST_ARCH)
endif
sdk_name := $(sdk_name)_$(INTERNAL_SDK_HOST_OS_NAME)
sdk_dep_file := $(sdk_dir)/sdk_deps.mk
ATREE_FILES :=
-include $(sdk_dep_file)
# if we don't have a real list, then use "everything"
ifeq ($(strip $(ATREE_FILES)),)
ATREE_FILES := \
$(ALL_PREBUILT) \
$(ALL_COPIED_HEADERS) \
$(ALL_GENERATED_SOURCES) \
$(ALL_DEFAULT_INSTALLED_MODULES) \
$(INSTALLED_RAMDISK_TARGET) \
$(ALL_DOCS) \
$(ALL_SDK_FILES)
endif
atree_dir := development/build
# sdk/build/tools.atree contains the generic rules, while
#
# sdk/build/tools.$(TARGET_ARCH).atree contains target-specific rules
# the latter is optional.
#
sdk_tools_atree_files := sdk/build/tools.atree
ifneq (,$(strip $(wildcard sdk/build/tools.$(TARGET_ARCH).atree)))
sdk_tools_atree_files += sdk/build/tools.$(TARGET_ARCH).atree
endif
sdk_atree_files := \
$(atree_dir)/sdk.exclude.atree \
$(atree_dir)/sdk.atree \
$(atree_dir)/sdk-$(HOST_OS)-$(HOST_ARCH).atree \
$(sdk_tools_atree_files)
# development/build/sdk-android-<abi>.atree is used to differentiate
# between architecture models (e.g. ARMv5TE versus ARMv7) when copying
# files like the kernel image. We use TARGET_CPU_ABI because we don't
# have a better way to distinguish between CPU models.
ifneq (,$(strip $(wildcard $(atree_dir)/sdk-android-$(TARGET_CPU_ABI).atree)))
sdk_atree_files += $(atree_dir)/sdk-android-$(TARGET_CPU_ABI).atree
endif
deps := \
$(target_notice_file_txt) \
$(tools_notice_file_txt) \
$(OUT_DOCS)/offline-sdk-timestamp \
$(SYMBOLS_ZIP) \
$(INSTALLED_SYSTEMIMAGE) \
$(INSTALLED_USERDATAIMAGE_TARGET) \
$(INSTALLED_RAMDISK_TARGET) \
$(INSTALLED_SDK_BUILD_PROP_TARGET) \
$(INSTALLED_BUILD_PROP_TARGET) \
$(ATREE_FILES) \
$(atree_dir)/sdk.atree \
$(sdk_tools_atree_files) \
$(HOST_OUT_EXECUTABLES)/atree \
$(HOST_OUT_EXECUTABLES)/line_endings
INTERNAL_SDK_TARGET := $(sdk_dir)/$(sdk_name).zip
$(INTERNAL_SDK_TARGET): PRIVATE_NAME := $(sdk_name)
$(INTERNAL_SDK_TARGET): PRIVATE_DIR := $(sdk_dir)/$(sdk_name)
$(INTERNAL_SDK_TARGET): PRIVATE_DEP_FILE := $(sdk_dep_file)
$(INTERNAL_SDK_TARGET): PRIVATE_INPUT_FILES := $(sdk_atree_files)
# Set SDK_GNU_ERROR to non-empty to fail when a GNU target is built.
#
#SDK_GNU_ERROR := true
$(INTERNAL_SDK_TARGET): $(deps)
@echo "Package SDK: $@"
$(hide) rm -rf $(PRIVATE_DIR) $@
$(hide) for f in $(target_gnu_MODULES); do \
if [ -f $$f ]; then \
echo SDK: $(if $(SDK_GNU_ERROR),ERROR:,warning:) \
including GNU target $$f >&2; \
FAIL=$(SDK_GNU_ERROR); \
fi; \
done; \
if [ $$FAIL ]; then exit 1; fi
$(hide) ( \
$(HOST_OUT_EXECUTABLES)/atree \
$(addprefix -f ,$(PRIVATE_INPUT_FILES)) \
-m $(PRIVATE_DEP_FILE) \
-I . \
-I $(PRODUCT_OUT) \
-I $(HOST_OUT) \
-I $(TARGET_COMMON_OUT_ROOT) \
-v "PLATFORM_NAME=android-$(PLATFORM_VERSION)" \
-v "OUT_DIR=$(OUT_DIR)" \
-v "TARGET_ARCH=$(TARGET_ARCH)" \
-v "TARGET_CPU_ABI=$(TARGET_CPU_ABI)" \
-v "DLL_EXTENSION=$(HOST_SHLIB_SUFFIX)" \
-o $(PRIVATE_DIR) && \
cp -f $(target_notice_file_txt) \
$(PRIVATE_DIR)/system-images/android-$(PLATFORM_VERSION)/$(TARGET_CPU_ABI)/NOTICE.txt && \
cp -f $(tools_notice_file_txt) $(PRIVATE_DIR)/tools/NOTICE.txt && \
cp -f $(tools_notice_file_txt) $(PRIVATE_DIR)/platform-tools/NOTICE.txt && \
HOST_OUT_EXECUTABLES=$(HOST_OUT_EXECUTABLES) HOST_OS=$(HOST_OS) \
development/build/tools/sdk_clean.sh $(PRIVATE_DIR) && \
chmod -R ug+rwX $(PRIVATE_DIR) && \
cd $(dir $@) && zip -rq $(notdir $@) $(PRIVATE_NAME) \
) || ( rm -rf $(PRIVATE_DIR) $@ && exit 44 )
# Is a Windows SDK requested? If so, we need some definitions from here
# in order to find the Linux SDK used to create the Windows one.
MAIN_SDK_NAME := $(sdk_name)
MAIN_SDK_DIR := $(sdk_dir)
MAIN_SDK_ZIP := $(INTERNAL_SDK_TARGET)
ifneq ($(filter win_sdk,$(MAKECMDGOALS)),)
include $(TOPDIR)development/build/tools/windows_sdk.mk
endif
# -----------------------------------------------------------------
# Findbugs
INTERNAL_FINDBUGS_XML_TARGET := $(PRODUCT_OUT)/findbugs.xml
INTERNAL_FINDBUGS_HTML_TARGET := $(PRODUCT_OUT)/findbugs.html
$(INTERNAL_FINDBUGS_XML_TARGET): $(ALL_FINDBUGS_FILES)
@echo UnionBugs: $@
$(hide) prebuilt/common/findbugs/bin/unionBugs $(ALL_FINDBUGS_FILES) \
> $@
$(INTERNAL_FINDBUGS_HTML_TARGET): $(INTERNAL_FINDBUGS_XML_TARGET)
@echo ConvertXmlToText: $@
$(hide) prebuilt/common/findbugs/bin/convertXmlToText -html:fancy.xsl \
$(INTERNAL_FINDBUGS_XML_TARGET) > $@
# -----------------------------------------------------------------
# Findbugs
# -----------------------------------------------------------------
# These are some additional build tasks that need to be run.
include $(sort $(wildcard $(BUILD_SYSTEM)/tasks/*.mk))
-include $(sort $(wildcard vendor/*/build/tasks/*.mk))
# -----------------------------------------------------------------
# Create SDK repository packages. Must be done after tasks/* since
# we need the addon rules defined.
ifneq ($(sdk_repo_goal),)
include $(TOPDIR)development/build/tools/sdk_repo.mk
endif