# Put some miscellaneous rules here # HACK: clear LOCAL_PATH from including last build target before calling # intermedites-dir-for LOCAL_PATH := $(BUILD_SYSTEM) # ----------------------------------------------------------------- # Define rules to copy PRODUCT_COPY_FILES defined by the product. # PRODUCT_COPY_FILES contains words like :[:]. # 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 #$(2): the dest define check-product-copy-files $(if $(filter-out $(TARGET_COPY_OUT_SYSTEM_OTHER)/%,$(2)), \ $(if $(filter %.apk, $(2)),$(error \ Prebuilt apk found in PRODUCT_COPY_FILES: $(1), use BUILD_PREBUILT instead!))) \ $(if $(filter true,$(BUILD_BROKEN_VINTF_PRODUCT_COPY_FILES)),, \ $(if $(filter $(TARGET_COPY_OUT_SYSTEM)/etc/vintf/% \ $(TARGET_COPY_OUT_SYSTEM)/manifest.xml \ $(TARGET_COPY_OUT_SYSTEM)/compatibility_matrix.xml,$(2)), \ $(error VINTF metadata found in PRODUCT_COPY_FILES: $(1), use vintf_fragments instead!)) \ $(if $(filter $(TARGET_COPY_OUT_PRODUCT)/etc/vintf/%,$(2)), \ $(error VINTF metadata found in PRODUCT_COPY_FILES: $(1), \ use PRODUCT_MANIFEST_FILES / DEVICE_PRODUCT_COMPATIBILITY_MATRIX_FILE / vintf_compatibility_matrix / vintf_fragments instead!)) \ $(if $(filter $(TARGET_COPY_OUT_SYSTEM_EXT)/etc/vintf/%,$(2)), \ $(error VINTF metadata found in PRODUCT_COPY_FILES: $(1), \ use vintf_compatibility_matrix / vintf_fragments instead!)) \ $(if $(filter $(TARGET_COPY_OUT_VENDOR)/etc/vintf/% \ $(TARGET_COPY_OUT_VENDOR)/manifest.xml \ $(TARGET_COPY_OUT_VENDOR)/compatibility_matrix.xml,$(2)), \ $(error VINTF metadata found in PRODUCT_COPY_FILES: $(1), \ use DEVICE_MANIFEST_FILE / DEVICE_MATRIX_FILE / vintf_compatibility_matrix / vintf_fragments instead!)) \ $(if $(filter $(TARGET_COPY_OUT_ODM)/etc/vintf/% \ $(TARGET_COPY_OUT_ODM)/etc/manifest%,$(2)), \ $(error VINTF metadata found in PRODUCT_COPY_FILES: $(1), \ use ODM_MANIFEST_FILES / vintf_fragments instead!)) \ ) endef # Phony target to check PRODUCT_COPY_FILES copy pairs don't contain ELF files .PHONY: check-elf-prebuilt-product-copy-files check-elf-prebuilt-product-copy-files: check_elf_prebuilt_product_copy_files := true ifneq (,$(filter true,$(BUILD_BROKEN_ELF_PREBUILT_PRODUCT_COPY_FILES))) check_elf_prebuilt_product_copy_files := endif check_elf_prebuilt_product_copy_files_hint := \ found ELF prebuilt in PRODUCT_COPY_FILES, use cc_prebuilt_binary / cc_prebuilt_library_shared instead. # filter out the duplicate : pairs. unique_product_copy_files_pairs := # Filter out list PRODUCT_COPY_FILES_EXCLUDED from list PRODUCT_COPY_FILES $(foreach cf,$(filter-out $(PRODUCT_COPY_FILES_EXCLUDED), $(PRODUCT_COPY_FILES)), \ $(if $(filter $(unique_product_copy_files_pairs),$(cf)),,\ $(eval unique_product_copy_files_pairs += $(cf)))) unique_product_copy_files_destinations := product_copy_files_ignored := $(foreach cf,$(unique_product_copy_files_pairs), \ $(eval _src := $(call word-colon,1,$(cf))) \ $(eval _dest := $(call word-colon,2,$(cf))) \ $(call check-product-copy-files,$(cf),$(_dest)) \ $(if $(filter $(unique_product_copy_files_destinations),$(_dest)), \ $(eval product_copy_files_ignored += $(cf)), \ $(eval _fulldest := $(call append-path,$(PRODUCT_OUT),$(_dest))) \ $(if $(filter %.xml,$(_dest)),\ $(eval $(call copy-xml-file-checked,$(_src),$(_fulldest))),\ $(if $(and $(filter %.jar,$(_dest)),$(filter $(basename $(notdir $(_dest))),$(PRODUCT_LOADED_BY_PRIVILEGED_MODULES))),\ $(eval $(call copy-and-uncompress-dexs,$(_src),$(_fulldest))), \ $(if $(filter init%rc,$(notdir $(_dest)))$(filter %/etc/init,$(dir $(_dest))),\ $(eval $(call copy-init-script-file-checked,$(_src),$(_fulldest))),\ $(if $(and $(filter true,$(check_elf_prebuilt_product_copy_files)), \ $(filter bin lib lib64,$(subst /,$(space),$(_dest)))), \ $(eval $(call copy-non-elf-file-checked,$(_src),$(_fulldest),$(check_elf_prebuilt_product_copy_files_hint))), \ $(eval $(call copy-one-file,$(_src),$(_fulldest))))))) \ $(eval unique_product_copy_files_destinations += $(_dest)))) # Dump a list of overriden (and ignored PRODUCT_COPY_FILES entries) pcf_ignored_file := $(PRODUCT_OUT)/product_copy_files_ignored.txt $(pcf_ignored_file): PRIVATE_IGNORED := $(sort $(product_copy_files_ignored)) $(pcf_ignored_file): echo "$(PRIVATE_IGNORED)" | tr " " "\n" >$@ $(call dist-for-goals,droidcore-unbundled,$(pcf_ignored_file):logs/$(notdir $(pcf_ignored_file))) pcf_ignored_file := product_copy_files_ignored := unique_product_copy_files_pairs := unique_product_copy_files_destinations := # ----------------------------------------------------------------- # Returns the max allowed size for an image suitable for hash verification # (e.g., boot.img, recovery.img, etc). # The value 69632 derives from MAX_VBMETA_SIZE + MAX_FOOTER_SIZE in $(AVBTOOL). # $(1): partition size to flash the image define get-hash-image-max-size $(if $(1), \ $(if $(filter true,$(BOARD_AVB_ENABLE)), \ $(eval _hash_meta_size := 69632), \ $(eval _hash_meta_size := 0)) \ $(1)-$(_hash_meta_size)) endef # ----------------------------------------------------------------- # Define rules to copy headers defined in copy_headers.mk # If more than one makefile declared a header, print a warning, # then copy the last one defined. This matches the previous make # behavior. has_dup_copy_headers := $(foreach dest,$(ALL_COPIED_HEADERS), \ $(eval _srcs := $(ALL_COPIED_HEADERS.$(dest).SRC)) \ $(eval _src := $(lastword $(_srcs))) \ $(if $(call streq,$(_src),$(_srcs)),, \ $(warning Duplicate header copy: $(dest)) \ $(warning _ Using $(_src)) \ $(warning __ from $(lastword $(ALL_COPIED_HEADERS.$(dest).MAKEFILE))) \ $(eval _makefiles := $$(wordlist 1,$(call int_subtract,$(words $(ALL_COPIED_HEADERS.$(dest).MAKEFILE)),1),$$(ALL_COPIED_HEADERS.$$(dest).MAKEFILE))) \ $(foreach src,$(wordlist 1,$(call int_subtract,$(words $(_srcs)),1),$(_srcs)), \ $(warning _ Ignoring $(src)) \ $(warning __ from $(firstword $(_makefiles))) \ $(eval _makefiles := $$(wordlist 2,9999,$$(_makefiles)))) \ $(eval has_dup_copy_headers := true)) \ $(eval $(call copy-one-header,$(_src),$(dest)))) all_copied_headers: $(ALL_COPIED_HEADERS) ifdef has_dup_copy_headers has_dup_copy_headers := $(error duplicate header copies are no longer allowed. For more information about headers, see: https://android.googlesource.com/platform/build/soong/+/master/docs/best_practices.md#headers) endif $(file >$(PRODUCT_OUT)/.copied_headers_list,$(TARGET_OUT_HEADERS) $(ALL_COPIED_HEADERS)) # ----------------------------------------------------------------- # docs/index.html ifeq (,$(TARGET_BUILD_UNBUNDLED)) gen := $(OUT_DOCS)/index.html ALL_DOCS += $(gen) $(gen): frameworks/base/docs/docs-redirect-index.html @mkdir -p $(dir $@) @cp -f $< $@ endif ndk_doxygen_out := $(OUT_NDK_DOCS) ndk_headers := $(SOONG_OUT_DIR)/ndk/sysroot/usr/include ndk_docs_src_dir := frameworks/native/docs ndk_doxyfile := $(ndk_docs_src_dir)/Doxyfile ifneq ($(wildcard $(ndk_docs_src_dir)),) ndk_docs_srcs := $(addprefix $(ndk_docs_src_dir)/,\ $(call find-files-in-subdirs,$(ndk_docs_src_dir),"*",.)) $(ndk_doxygen_out)/index.html: $(ndk_docs_srcs) $(SOONG_OUT_DIR)/ndk.timestamp @mkdir -p $(ndk_doxygen_out) @echo "Generating NDK docs to $(ndk_doxygen_out)" @( cat $(ndk_doxyfile); \ echo "INPUT=$(ndk_headers)"; \ echo "HTML_OUTPUT=$(ndk_doxygen_out)" \ ) | doxygen - # Note: Not a part of the docs target because we don't have doxygen available. # You can run this target locally if you have doxygen installed. ndk-docs: $(ndk_doxygen_out)/index.html .PHONY: ndk-docs endif $(call dist-for-goals,sdk,$(API_FINGERPRINT)) INSTALLED_RECOVERYIMAGE_TARGET := # Build recovery image if # BUILDING_RECOVERY_IMAGE && !BOARD_USES_RECOVERY_AS_BOOT && !BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT. # If BOARD_USES_RECOVERY_AS_BOOT is true, leave empty because INSTALLED_BOOTIMAGE_TARGET is built # with recovery resources. # If BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT is true, leave empty to build recovery resources # but not the final recovery image. ifdef BUILDING_RECOVERY_IMAGE ifneq ($(BOARD_USES_RECOVERY_AS_BOOT),true) ifneq ($(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT),true) INSTALLED_RECOVERYIMAGE_TARGET := $(PRODUCT_OUT)/recovery.img endif endif endif include $(BUILD_SYSTEM)/sysprop.mk # ---------------------------------------------------------------- # ----------------------------------------------------------------- # 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 $@ # ----------------------------------------------------------------- # declare recovery ramdisk files ifeq ($(BUILDING_RECOVERY_IMAGE),true) INTERNAL_RECOVERY_RAMDISK_FILES_TIMESTAMP := $(call intermediates-dir-for,PACKAGING,recovery)/ramdisk_files-timestamp endif # ----------------------------------------------------------------- # Declare vendor ramdisk fragments INTERNAL_VENDOR_RAMDISK_FRAGMENTS := ifeq (true,$(BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT)) ifneq (,$(filter recovery,$(BOARD_VENDOR_RAMDISK_FRAGMENTS))) $(error BOARD_VENDOR_RAMDISK_FRAGMENTS must not contain "recovery" if \ BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT is set) endif INTERNAL_VENDOR_RAMDISK_FRAGMENTS += recovery VENDOR_RAMDISK_FRAGMENT.recovery.STAGING_DIR := $(TARGET_RECOVERY_ROOT_OUT) VENDOR_RAMDISK_FRAGMENT.recovery.FILES := $(INTERNAL_RECOVERY_RAMDISK_FILES_TIMESTAMP) BOARD_VENDOR_RAMDISK_FRAGMENT.recovery.MKBOOTIMG_ARGS += --ramdisk_type RECOVERY .KATI_READONLY := VENDOR_RAMDISK_FRAGMENT.recovery.STAGING_DIR endif # Validation check and assign default --ramdisk_type. $(foreach vendor_ramdisk_fragment,$(BOARD_VENDOR_RAMDISK_FRAGMENTS), \ $(if $(and $(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).KERNEL_MODULE_DIRS), \ $(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).PREBUILT)), \ $(error Must not specify KERNEL_MODULE_DIRS for prebuilt vendor ramdisk fragment "$(vendor_ramdisk_fragment)": $(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).KERNEL_MODULE_DIRS))) \ $(eval VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).STAGING_DIR := $(call intermediates-dir-for,PACKAGING,vendor_ramdisk_fragment-stage-$(vendor_ramdisk_fragment))) \ $(eval VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).FILES :=) \ $(if $(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).KERNEL_MODULE_DIRS), \ $(if $(filter --ramdisk_type,$(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).MKBOOTIMG_ARGS)),, \ $(eval BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).MKBOOTIMG_ARGS += --ramdisk_type DLKM))) \ ) # Create the "kernel module directory" to "vendor ramdisk fragment" inverse mapping. $(foreach vendor_ramdisk_fragment,$(BOARD_VENDOR_RAMDISK_FRAGMENTS), \ $(foreach kmd,$(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).KERNEL_MODULE_DIRS), \ $(eval kmd_vrf := KERNEL_MODULE_DIR_VENDOR_RAMDISK_FRAGMENT_$(kmd)) \ $(if $($(kmd_vrf)),$(error Kernel module directory "$(kmd)" belongs to multiple vendor ramdisk fragments: "$($(kmd_vrf))" "$(vendor_ramdisk_fragment)", each kernel module directory should belong to exactly one or none vendor ramdisk fragment)) \ $(eval $(kmd_vrf) := $(vendor_ramdisk_fragment)) \ ) \ ) INTERNAL_VENDOR_RAMDISK_FRAGMENTS += $(BOARD_VENDOR_RAMDISK_FRAGMENTS) # Strip the list in case of any whitespace. INTERNAL_VENDOR_RAMDISK_FRAGMENTS := \ $(strip $(INTERNAL_VENDOR_RAMDISK_FRAGMENTS)) # Assign --ramdisk_name for each vendor ramdisk fragment. $(foreach vendor_ramdisk_fragment,$(INTERNAL_VENDOR_RAMDISK_FRAGMENTS), \ $(if $(filter --ramdisk_name,$(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).MKBOOTIMG_ARGS)), \ $(error Must not specify --ramdisk_name for vendor ramdisk fragment: $(vendor_ramdisk_fragment))) \ $(eval BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).MKBOOTIMG_ARGS += --ramdisk_name $(vendor_ramdisk_fragment)) \ $(eval .KATI_READONLY := BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).MKBOOTIMG_ARGS) \ ) # ----------------------------------------------------------------- # kernel modules # Depmod requires a well-formed kernel version so 0.0 is used as a placeholder. DEPMOD_STAGING_SUBDIR :=$= lib/modules/0.0 define copy-and-strip-kernel-module $(2): $(1) $(LLVM_STRIP) -o $(2) --strip-debug $(1) endef # $(1): modules list # $(2): output dir # $(3): mount point # $(4): staging dir # $(5): module load list # $(6): module load list filename # $(7): module archive # $(8): staging dir for stripped modules # $(9): module directory name # Returns a list of src:dest pairs to install the modules using copy-many-files. define build-image-kernel-modules $(if $(9), \ $(eval _dir := $(9)/), \ $(eval _dir :=)) \ $(foreach module,$(1), \ $(eval _src := $(module)) \ $(if $(8), \ $(eval _src := $(8)/$(notdir $(module))) \ $(eval $(call copy-and-strip-kernel-module,$(module),$(_src)))) \ $(_src):$(2)/lib/modules/$(_dir)$(notdir $(module))) \ $(eval $(call build-image-kernel-modules-depmod,$(1),$(3),$(4),$(5),$(6),$(7),$(2),$(9))) \ $(4)/$(DEPMOD_STAGING_SUBDIR)/modules.dep:$(2)/lib/modules/$(_dir)modules.dep \ $(4)/$(DEPMOD_STAGING_SUBDIR)/modules.alias:$(2)/lib/modules/$(_dir)modules.alias \ $(4)/$(DEPMOD_STAGING_SUBDIR)/modules.softdep:$(2)/lib/modules/$(_dir)modules.softdep \ $(4)/$(DEPMOD_STAGING_SUBDIR)/$(6):$(2)/lib/modules/$(_dir)$(6) endef # $(1): modules list # $(2): mount point # $(3): staging dir # $(4): module load list # $(5): module load list filename # $(6): module archive # $(7): output dir # $(8): module directory name # TODO(b/144844424): If a module archive is being used, this step (which # generates obj/PACKAGING/.../modules.dep) also unzips the module archive into # the output directory. This should be moved to a module with a # LOCAL_POST_INSTALL_CMD so that if modules.dep is removed from the output dir, # the archive modules are restored along with modules.dep. define build-image-kernel-modules-depmod $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: .KATI_IMPLICIT_OUTPUTS := $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.alias $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.softdep $(3)/$(DEPMOD_STAGING_SUBDIR)/$(5) $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: $(DEPMOD) $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: PRIVATE_MODULES := $(1) $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: PRIVATE_MOUNT_POINT := $(2) $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: PRIVATE_MODULE_DIR := $(3)/$(DEPMOD_STAGING_SUBDIR)/$(2)/lib/modules/$(8) $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: PRIVATE_STAGING_DIR := $(3) $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: PRIVATE_LOAD_MODULES := $(4) $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: PRIVATE_LOAD_FILE := $(3)/$(DEPMOD_STAGING_SUBDIR)/$(5) $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: PRIVATE_MODULE_ARCHIVE := $(6) $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: PRIVATE_OUTPUT_DIR := $(7) $(3)/$(DEPMOD_STAGING_SUBDIR)/modules.dep: $(1) $(6) @echo depmod $$(PRIVATE_STAGING_DIR) rm -rf $$(PRIVATE_STAGING_DIR) mkdir -p $$(PRIVATE_MODULE_DIR) $(if $(6),\ unzip -qoDD -d $$(PRIVATE_MODULE_DIR) $$(PRIVATE_MODULE_ARCHIVE); \ mkdir -p $$(PRIVATE_OUTPUT_DIR)/lib; \ cp -r $(3)/$(DEPMOD_STAGING_SUBDIR)/$(2)/lib/modules $$(PRIVATE_OUTPUT_DIR)/lib/; \ find $$(PRIVATE_MODULE_DIR) -type f -name *.ko | xargs basename -a > $$(PRIVATE_LOAD_FILE); \ ) $(if $(1),\ cp $$(PRIVATE_MODULES) $$(PRIVATE_MODULE_DIR)/; \ for MODULE in $$(PRIVATE_LOAD_MODULES); do \ basename $$$$MODULE >> $$(PRIVATE_LOAD_FILE); \ done; \ ) $(DEPMOD) -b $$(PRIVATE_STAGING_DIR) 0.0 # Turn paths in modules.dep into absolute paths sed -i.tmp -e 's|\([^: ]*lib/modules/[^: ]*\)|/\1|g' $$(PRIVATE_STAGING_DIR)/$$(DEPMOD_STAGING_SUBDIR)/modules.dep touch $$(PRIVATE_LOAD_FILE) endef # $(1): staging dir # $(2): modules list # $(3): module load list # $(4): module load list filename # $(5): output dir define module-load-list-copy-paths $(eval $(call build-image-module-load-list,$(1),$(2),$(3),$(4))) \ $(1)/$(DEPMOD_STAGING_SUBDIR)/$(4):$(5)/lib/modules/$(4) endef # $(1): staging dir # $(2): modules list # $(3): module load list # $(4): module load list filename define build-image-module-load-list $(1)/$(DEPMOD_STAGING_SUBDIR)/$(4): PRIVATE_LOAD_MODULES := $(3) $(1)/$(DEPMOD_STAGING_SUBDIR)/$(4): $(2) @echo load-list $$(@) @echo '$$(strip $$(notdir $$(PRIVATE_LOAD_MODULES)))' | tr ' ' '\n' > $$(@) endef # $(1): source options file # $(2): destination pathname # Returns a build rule that checks the syntax of and installs a kernel modules # options file. Strip and squeeze any extra space and blank lines. # For use via $(eval). define build-image-kernel-modules-options-file $(2): $(1) @echo "libmodprobe options $$(@)" $(hide) mkdir -p "$$(dir $$@)" $(hide) rm -f "$$@" $(hide) awk <"$$<" >"$$@" \ '/^#/ { print; next } \ NF == 0 { next } \ NF < 2 || $$$$1 != "options" \ { print "Invalid options line " FNR ": " $$$$0 >"/dev/stderr"; \ exit_status = 1; next } \ { $$$$1 = $$$$1; print } \ END { exit exit_status }' endef # $(1): source blocklist file # $(2): destination pathname # Returns a build rule that checks the syntax of and installs a kernel modules # blocklist file. Strip and squeeze any extra space and blank lines. # For use via $(eval). define build-image-kernel-modules-blocklist-file $(2): $(1) @echo "libmodprobe blocklist $$(@)" $(hide) mkdir -p "$$(dir $$@)" $(hide) rm -f "$$@" $(hide) awk <"$$<" >"$$@" \ '/^#/ { print; next } \ NF == 0 { next } \ NF != 2 || $$$$1 != "blocklist" \ { print "Invalid blocklist line " FNR ": " $$$$0 >"/dev/stderr"; \ exit_status = 1; next } \ { $$$$1 = $$$$1; print } \ END { exit exit_status }' endef # $(1): image name # $(2): build output directory (TARGET_OUT_VENDOR, TARGET_RECOVERY_ROOT_OUT, etc) # $(3): mount point # $(4): module load filename # $(5): stripped staging directory # $(6): kernel module directory name (top is an out of band value for no directory) define build-image-kernel-modules-dir $(if $(filter top,$(6)),\ $(eval _kver :=)$(eval _sep :=),\ $(eval _kver := $(6))$(eval _sep :=_))\ $(if $(5),\ $(eval _stripped_staging_dir := $(5)$(_sep)$(_kver)),\ $(eval _stripped_staging_dir :=))\ $(if $(strip $(BOARD_$(1)_KERNEL_MODULES$(_sep)$(_kver))$(BOARD_$(1)_KERNEL_MODULES_ARCHIVE$(_sep)$(_kver))),\ $(if $(BOARD_$(1)_KERNEL_MODULES_LOAD$(_sep)$(_kver)),,\ $(eval BOARD_$(1)_KERNEL_MODULES_LOAD$(_sep)$(_kver) := $(BOARD_$(1)_KERNEL_MODULES$(_sep)$(_kver)))) \ $(call copy-many-files,$(call build-image-kernel-modules,$(BOARD_$(1)_KERNEL_MODULES$(_sep)$(_kver)),$(2),$(3),$(call intermediates-dir-for,PACKAGING,depmod_$(1)$(_sep)$(_kver)),$(BOARD_$(1)_KERNEL_MODULES_LOAD$(_sep)$(_kver)),$(4),$(BOARD_$(1)_KERNEL_MODULES_ARCHIVE$(_sep)$(_kver)),$(_stripped_staging_dir),$(_kver)))) \ $(if $(_kver), \ $(eval _dir := $(_kver)/), \ $(eval _dir :=)) \ $(if $(BOARD_$(1)_KERNEL_MODULES_OPTIONS_FILE$(_sep)$(_kver)), \ $(eval $(call build-image-kernel-modules-options-file, \ $(BOARD_$(1)_KERNEL_MODULES_OPTIONS_FILE$(_sep)$(_kver)), \ $(2)/lib/modules/$(_dir)modules.options)) \ $(2)/lib/modules/$(_dir)modules.options) \ $(if $(BOARD_$(1)_KERNEL_MODULES_BLOCKLIST_FILE$(_sep)$(_kver)), \ $(eval $(call build-image-kernel-modules-blocklist-file, \ $(BOARD_$(1)_KERNEL_MODULES_BLOCKLIST_FILE$(_sep)$(_kver)), \ $(2)/lib/modules/$(_dir)modules.blocklist)) \ $(2)/lib/modules/$(_dir)modules.blocklist) endef # $(1): kernel module directory name (top is an out of band value for no directory) define build-recovery-as-boot-load $(if $(filter top,$(1)),\ $(eval _kver :=)$(eval _sep :=),\ $(eval _kver := $(1))$(eval _sep :=_))\ $(if $(BOARD_GENERIC_RAMDISK_KERNEL_MODULES_LOAD$(_sep)$(_kver)),\ $(call copy-many-files,$(call module-load-list-copy-paths,$(call intermediates-dir-for,PACKAGING,ramdisk_module_list$(_sep)$(_kver)),$(BOARD_GENERIC_RAMDISK_KERNEL_MODULES$(_sep)$(_kver)),$(BOARD_GENERIC_RAMDISK_KERNEL_MODULES_LOAD$(_sep)$(_kver)),modules.load,$(TARGET_RECOVERY_ROOT_OUT)))) endef # $(1): kernel module directory name (top is an out of band value for no directory) define build-vendor-ramdisk-recovery-load $(if $(filter top,$(1)),\ $(eval _kver :=)$(eval _sep :=),\ $(eval _kver := $(1))$(eval _sep :=_))\ $(if $(BOARD_VENDOR_RAMDISK_RECOVERY_KERNEL_MODULES_LOAD$(_sep)$(_kver)),\ $(call copy-many-files,$(call module-load-list-copy-paths,$(call intermediates-dir-for,PACKAGING,vendor_ramdisk_recovery_module_list$(_sep)$(_kver)),$(BOARD_VENDOR_RAMDISK_KERNEL_MODULES$(_sep)$(_kver)),$(BOARD_VENDOR_RAMDISK_RECOVERY_KERNEL_MODULES_LOAD$(_sep)$(_kver)),modules.load.recovery,$(TARGET_VENDOR_RAMDISK_OUT)))) endef # $(1): kernel module directory name (top is an out of band value for no directory) define build-vendor-charger-load $(if $(filter top,$(1)),\ $(eval _kver :=)$(eval _sep :=),\ $(eval _kver := $(1))$(eval _sep :=_))\ $(if $(BOARD_VENDOR_CHARGER_KERNEL_MODULES_LOAD$(_sep)$(_kver)),\ $(call copy-many-files,$(call module-load-list-copy-paths,$(call intermediates-dir-for,PACKAGING,vendor_charger_module_list$(_sep)$(_kver)),$(BOARD_VENDOR_CHARGER_KERNEL_MODULES$(_sep)$(_kver)),$(BOARD_VENDOR_CHARGER_KERNEL_MODULES_LOAD$(_sep)$(_kver)),modules.load.charger,$(TARGET_OUT_VENDOR)))) endef ifneq ($(BUILDING_VENDOR_BOOT_IMAGE),true) # If there is no vendor boot partition, store vendor ramdisk kernel modules in the # boot ramdisk. BOARD_GENERIC_RAMDISK_KERNEL_MODULES += $(BOARD_VENDOR_RAMDISK_KERNEL_MODULES) BOARD_GENERIC_RAMDISK_KERNEL_MODULES_LOAD += $(BOARD_VENDOR_RAMDISK_KERNEL_MODULES_LOAD) endif ifeq ($(BOARD_GENERIC_RAMDISK_KERNEL_MODULES_LOAD),) BOARD_GENERIC_RAMDISK_KERNEL_MODULES_LOAD := $(BOARD_GENERIC_RAMDISK_KERNEL_MODULES) endif ifneq ($(strip $(BOARD_GENERIC_RAMDISK_KERNEL_MODULES)),) ifeq ($(BOARD_USES_RECOVERY_AS_BOOT), true) BOARD_RECOVERY_KERNEL_MODULES += $(BOARD_GENERIC_RAMDISK_KERNEL_MODULES) endif endif ifneq ($(BOARD_DO_NOT_STRIP_VENDOR_MODULES),true) VENDOR_STRIPPED_MODULE_STAGING_DIR := $(call intermediates-dir-for,PACKAGING,depmod_vendor_stripped) else VENDOR_STRIPPED_MODULE_STAGING_DIR := endif ifneq ($(BOARD_DO_NOT_STRIP_VENDOR_RAMDISK_MODULES),true) VENDOR_RAMDISK_STRIPPED_MODULE_STAGING_DIR := $(call intermediates-dir-for,PACKAGING,depmod_vendor_ramdisk_stripped) else VENDOR_RAMDISK_STRIPPED_MODULE_STAGING_DIR := endif BOARD_KERNEL_MODULE_DIRS += top $(foreach kmd,$(BOARD_KERNEL_MODULE_DIRS), \ $(eval ALL_DEFAULT_INSTALLED_MODULES += $(call build-image-kernel-modules-dir,RECOVERY,$(TARGET_RECOVERY_ROOT_OUT),,modules.load.recovery,,$(kmd))) \ $(eval vendor_ramdisk_fragment := $(KERNEL_MODULE_DIR_VENDOR_RAMDISK_FRAGMENT_$(kmd))) \ $(if $(vendor_ramdisk_fragment), \ $(eval output_dir := $(VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).STAGING_DIR)) \ $(eval result_var := VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).FILES) \ $(eval ### else ###), \ $(eval output_dir := $(TARGET_VENDOR_RAMDISK_OUT)) \ $(eval result_var := ALL_DEFAULT_INSTALLED_MODULES)) \ $(eval $(result_var) += $(call build-image-kernel-modules-dir,VENDOR_RAMDISK,$(output_dir),,modules.load,$(VENDOR_RAMDISK_STRIPPED_MODULE_STAGING_DIR),$(kmd))) \ $(eval ALL_DEFAULT_INSTALLED_MODULES += $(call build-vendor-ramdisk-recovery-load,$(kmd))) \ $(eval ALL_DEFAULT_INSTALLED_MODULES += $(call build-image-kernel-modules-dir,VENDOR,$(if $(filter true,$(BOARD_USES_VENDOR_DLKMIMAGE)),$(TARGET_OUT_VENDOR_DLKM),$(TARGET_OUT_VENDOR)),vendor,modules.load,$(VENDOR_STRIPPED_MODULE_STAGING_DIR),$(kmd))) \ $(eval ALL_DEFAULT_INSTALLED_MODULES += $(call build-vendor-charger-load,$(kmd))) \ $(eval ALL_DEFAULT_INSTALLED_MODULES += $(call build-image-kernel-modules-dir,ODM,$(if $(filter true,$(BOARD_USES_ODM_DLKMIMAGE)),$(TARGET_OUT_ODM_DLKM),$(TARGET_OUT_ODM)),odm,modules.load,,$(kmd))) \ $(if $(filter true,$(BOARD_USES_RECOVERY_AS_BOOT)),\ $(eval ALL_DEFAULT_INSTALLED_MODULES += $(call build-recovery-as-boot-load,$(kmd))),\ $(eval ALL_DEFAULT_INSTALLED_MODULES += $(call build-image-kernel-modules-dir,GENERIC_RAMDISK,$(TARGET_RAMDISK_OUT),,modules.load,,$(kmd))))) # ----------------------------------------------------------------- # Cert-to-package mapping. Used by the post-build signing tools. # Use a macro to add newline to each echo command # $1 stem name of the package # $2 certificate # $3 private key # $4 compressed # $5 partition tag # $6 output file define _apkcerts_write_line $(hide) echo -n 'name="$(1).apk" certificate="$2" private_key="$3"' >> $6 $(if $(4), $(hide) echo -n ' compressed="$4"' >> $6) $(if $(5), $(hide) echo -n ' partition="$5"' >> $6) $(hide) echo '' >> $6 endef # ----------------------------------------------------------------- # Merge an individual apkcerts output into the final apkcerts.txt output. # Use a macro to make it compatible with _apkcerts_write_line # $1 apkcerts file to be merged # $2 output file define _apkcerts_merge $(hide) cat $1 >> $2 endef 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 all_apkcerts_files := $(sort $(foreach p,$(PACKAGES),$(PACKAGES.$(p).APKCERTS_FILE))) $(APKCERTS_FILE): $(all_apkcerts_files) # 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 $@ $(foreach p,$(sort $(PACKAGES)),\ $(if $(PACKAGES.$(p).APKCERTS_FILE),\ $(call _apkcerts_merge,$(PACKAGES.$(p).APKCERTS_FILE), $@),\ $(if $(PACKAGES.$(p).EXTERNAL_KEY),\ $(call _apkcerts_write_line,$(PACKAGES.$(p).STEM),EXTERNAL,,$(PACKAGES.$(p).COMPRESSED),$(PACKAGES.$(p).PARTITION),$@),\ $(call _apkcerts_write_line,$(PACKAGES.$(p).STEM),$(PACKAGES.$(p).CERTIFICATE),$(PACKAGES.$(p).PRIVATE_KEY),$(PACKAGES.$(p).COMPRESSED),$(PACKAGES.$(p).PARTITION),$@)))) # In case value of 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) $(call dist-for-goals, apps_only, $(SOONG_APEX_KEYS_FILE):apexkeys.txt) endif # ----------------------------------------------------------------- # build system stats BUILD_SYSTEM_STATS := $(PRODUCT_OUT)/build_system_stats.txt $(BUILD_SYSTEM_STATS): @rm -f $@ @$(foreach s,$(STATS.MODULE_TYPE),echo "modules_type_make,$(s),$(words $(STATS.MODULE_TYPE.$(s)))" >>$@;) @$(foreach s,$(STATS.SOONG_MODULE_TYPE),echo "modules_type_soong,$(s),$(STATS.SOONG_MODULE_TYPE.$(s))" >>$@;) $(call dist-for-goals,droidcore-unbundled,$(BUILD_SYSTEM_STATS)) # ----------------------------------------------------------------- # build /product/etc/security/avb/system_other.avbpubkey if needed ifdef BUILDING_SYSTEM_OTHER_IMAGE ifeq ($(BOARD_AVB_ENABLE),true) INSTALLED_PRODUCT_SYSTEM_OTHER_AVBKEY_TARGET := $(TARGET_OUT_PRODUCT_ETC)/security/avb/system_other.avbpubkey ALL_DEFAULT_INSTALLED_MODULES += $(INSTALLED_PRODUCT_SYSTEM_OTHER_AVBKEY_TARGET) endif # BOARD_AVB_ENABLE endif # BUILDING_SYSTEM_OTHER_IMAGE # ----------------------------------------------------------------- # Modules ready to be converted to Soong, ordered by how many # modules depend on them. SOONG_CONV := $(sort $(SOONG_CONV)) SOONG_CONV_DATA := $(call intermediates-dir-for,PACKAGING,soong_conversion)/soong_conv_data $(SOONG_CONV_DATA): @rm -f $@ @$(foreach s,$(SOONG_CONV),echo "$(s),$(SOONG_CONV.$(s).TYPE),$(sort $(SOONG_CONV.$(s).PROBLEMS)),$(sort $(filter-out $(SOONG_ALREADY_CONV),$(SOONG_CONV.$(s).DEPS))),$(sort $(SOONG_CONV.$(s).MAKEFILES)),$(sort $(SOONG_CONV.$(s).INSTALLED))" >>$@;) SOONG_TO_CONVERT_SCRIPT := build/make/tools/soong_to_convert.py SOONG_TO_CONVERT := $(PRODUCT_OUT)/soong_to_convert.txt $(SOONG_TO_CONVERT): $(SOONG_CONV_DATA) $(SOONG_TO_CONVERT_SCRIPT) @rm -f $@ $(hide) $(SOONG_TO_CONVERT_SCRIPT) $< >$@ $(call dist-for-goals,droidcore-unbundled,$(SOONG_TO_CONVERT)) MK2BP_CATALOG_SCRIPT := build/make/tools/mk2bp_catalog.py MK2BP_REMAINING_HTML := $(PRODUCT_OUT)/mk2bp_remaining.html $(MK2BP_REMAINING_HTML): PRIVATE_CODE_SEARCH_BASE_URL := "https://cs.android.com/android/platform/superproject/+/master:" $(MK2BP_REMAINING_HTML): $(SOONG_CONV_DATA) $(MK2BP_CATALOG_SCRIPT) @rm -f $@ $(hide) $(MK2BP_CATALOG_SCRIPT) \ --device=$(TARGET_DEVICE) \ --title="Remaining Android.mk files for $(TARGET_DEVICE)-$(TARGET_BUILD_VARIANT)" \ --codesearch=$(PRIVATE_CODE_SEARCH_BASE_URL) \ --out_dir="$(OUT_DIR)" \ --mode=html \ > $@ $(call dist-for-goals,droidcore-unbundled,$(MK2BP_REMAINING_HTML)) MK2BP_REMAINING_CSV := $(PRODUCT_OUT)/mk2bp_remaining.csv $(MK2BP_REMAINING_CSV): $(SOONG_CONV_DATA) $(MK2BP_CATALOG_SCRIPT) @rm -f $@ $(hide) $(MK2BP_CATALOG_SCRIPT) \ --device=$(TARGET_DEVICE) \ --out_dir="$(OUT_DIR)" \ --mode=csv \ > $@ $(call dist-for-goals,droidcore-unbundled,$(MK2BP_REMAINING_CSV)) # ----------------------------------------------------------------- # Modules use -Wno-error, or added default -Wall -Werror WALL_WERROR := $(PRODUCT_OUT)/wall_werror.txt $(WALL_WERROR): @rm -f $@ echo "# Modules using -Wno-error" >> $@ for m in $(sort $(SOONG_MODULES_USING_WNO_ERROR) $(MODULES_USING_WNO_ERROR)); do echo $$m >> $@; done echo "# Modules added default -Wall" >> $@ for m in $(sort $(SOONG_MODULES_ADDED_WALL) $(MODULES_ADDED_WALL)); do echo $$m >> $@; done $(call dist-for-goals,droidcore-unbundled,$(WALL_WERROR)) # ----------------------------------------------------------------- # C/C++ flag information for modules $(call dist-for-goals,droidcore-unbundled,$(SOONG_MODULES_CFLAG_ARTIFACTS)) # ----------------------------------------------------------------- # Modules missing profile files PGO_PROFILE_MISSING := $(PRODUCT_OUT)/pgo_profile_file_missing.txt $(PGO_PROFILE_MISSING): @rm -f $@ echo "# Modules missing PGO profile files" >> $@ for m in $(SOONG_MODULES_MISSING_PGO_PROFILE_FILE); do echo $$m >> $@; done $(call dist-for-goals,droidcore,$(PGO_PROFILE_MISSING)) CERTIFICATE_VIOLATION_MODULES_FILENAME := $(PRODUCT_OUT)/certificate_violation_modules.txt $(CERTIFICATE_VIOLATION_MODULES_FILENAME): rm -f $@ $(foreach m,$(sort $(CERTIFICATE_VIOLATION_MODULES)), echo $(m) >> $@;) $(call dist-for-goals,droidcore,$(CERTIFICATE_VIOLATION_MODULES_FILENAME)) # ----------------------------------------------------------------- # 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 := $(strip $(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 event_log_tags_file := $(TARGET_OUT)/etc/event-log-tags # 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) $(MERGETAGS) build/make/tools/event_log_tags.py $(hide) mkdir -p $(dir $@) $(hide) $(MERGETAGS) -o $@ $(PRIVATE_SRC_FILES) # 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,\ $(call resolve-bitness-for-modules,TARGET,$(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) $(MERGETAGS) build/make/tools/event_log_tags.py $(hide) mkdir -p $(dir $@) $(hide) $(MERGETAGS) -o $@ -m $(PRIVATE_MERGED_FILE) $(PRIVATE_SRC_FILES) event-log-tags: $(event_log_tags_file) ALL_DEFAULT_INSTALLED_MODULES += $(event_log_tags_file) # ################################################################# # Targets for boot/OS images # ################################################################# ifneq ($(strip $(TARGET_NO_BOOTLOADER)),true) INSTALLED_BOOTLOADER_MODULE := $(PRODUCT_OUT)/bootloader ifdef BOARD_PREBUILT_BOOTLOADER $(eval $(call copy-one-file,$(BOARD_PREBUILT_BOOTLOADER),$(INSTALLED_BOOTLOADER_MODULE))) $(call dist-for-goals,dist_files,$(INSTALLED_BOOTLOADER_MODULE)) endif # BOARD_PREBUILT_BOOTLOADER ifeq ($(strip $(TARGET_BOOTLOADER_IS_2ND)),true) INSTALLED_2NDBOOTLOADER_TARGET := $(PRODUCT_OUT)/2ndbootloader else INSTALLED_2NDBOOTLOADER_TARGET := endif else INSTALLED_BOOTLOADER_MODULE := INSTALLED_2NDBOOTLOADER_TARGET := endif # TARGET_NO_BOOTLOADER ifneq ($(strip $(TARGET_NO_KERNEL)),true) ifneq ($(strip $(BOARD_KERNEL_BINARIES)),) INSTALLED_KERNEL_TARGET := $(foreach k,$(BOARD_KERNEL_BINARIES), \ $(PRODUCT_OUT)/$(k)) else INSTALLED_KERNEL_TARGET := $(PRODUCT_OUT)/kernel endif else INSTALLED_KERNEL_TARGET := endif # ----------------------------------------------------------------- # the root dir INTERNAL_ROOT_FILES := $(filter $(TARGET_ROOT_OUT)/%, \ $(ALL_GENERATED_SOURCES) \ $(ALL_DEFAULT_INSTALLED_MODULES)) INSTALLED_FILES_FILE_ROOT := $(PRODUCT_OUT)/installed-files-root.txt INSTALLED_FILES_JSON_ROOT := $(INSTALLED_FILES_FILE_ROOT:.txt=.json) $(INSTALLED_FILES_FILE_ROOT): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_ROOT) $(INSTALLED_FILES_FILE_ROOT) : $(INTERNAL_ROOT_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_ROOT_OUT) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ $(call dist-for-goals, sdk win_sdk sdk_addon, $(INSTALLED_FILES_FILE_ROOT)) #------------------------------------------------------------------ # dtb ifdef BOARD_INCLUDE_DTB_IN_BOOTIMG INSTALLED_DTBIMAGE_TARGET := $(PRODUCT_OUT)/dtb.img ifdef BOARD_PREBUILT_DTBIMAGE_DIR $(INSTALLED_DTBIMAGE_TARGET) : $(sort $(wildcard $(BOARD_PREBUILT_DTBIMAGE_DIR)/*.dtb)) cat $^ > $@ endif endif # ----------------------------------------------------------------- # the ramdisk ifdef BUILDING_RAMDISK_IMAGE INTERNAL_RAMDISK_FILES := $(filter $(TARGET_RAMDISK_OUT)/%, \ $(ALL_GENERATED_SOURCES) \ $(ALL_DEFAULT_INSTALLED_MODULES)) INSTALLED_FILES_FILE_RAMDISK := $(PRODUCT_OUT)/installed-files-ramdisk.txt INSTALLED_FILES_JSON_RAMDISK := $(INSTALLED_FILES_FILE_RAMDISK:.txt=.json) $(INSTALLED_FILES_FILE_RAMDISK): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_RAMDISK) $(INSTALLED_FILES_FILE_RAMDISK) : $(INTERNAL_RAMDISK_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(TARGET_RAMDISK_OUT) mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_RAMDISK_OUT) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ $(call dist-for-goals, sdk win_sdk sdk_addon, $(INSTALLED_FILES_FILE_RAMDISK)) BUILT_RAMDISK_TARGET := $(PRODUCT_OUT)/ramdisk.img ifeq ($(BOARD_RAMDISK_USE_LZ4),true) # -l enables the legacy format used by the Linux kernel COMPRESSION_COMMAND_DEPS := $(LZ4) COMPRESSION_COMMAND := $(LZ4) -l -12 --favor-decSpeed RAMDISK_EXT := .lz4 else COMPRESSION_COMMAND_DEPS := $(MINIGZIP) COMPRESSION_COMMAND := $(MINIGZIP) RAMDISK_EXT := .gz endif # We just build this directly to the install location. INSTALLED_RAMDISK_TARGET := $(BUILT_RAMDISK_TARGET) $(INSTALLED_RAMDISK_TARGET): $(MKBOOTFS) $(INTERNAL_RAMDISK_FILES) $(INSTALLED_FILES_FILE_RAMDISK) | $(COMPRESSION_COMMAND_DEPS) $(call pretty,"Target ramdisk: $@") $(hide) $(MKBOOTFS) -d $(TARGET_OUT) $(TARGET_RAMDISK_OUT) | $(COMPRESSION_COMMAND) > $@ .PHONY: ramdisk-nodeps ramdisk-nodeps: $(MKBOOTFS) | $(COMPRESSION_COMMAND_DEPS) @echo "make $@: ignoring dependencies" $(hide) $(MKBOOTFS) -d $(TARGET_OUT) $(TARGET_RAMDISK_OUT) | $(COMPRESSION_COMMAND) > $(INSTALLED_RAMDISK_TARGET) endif # BUILDING_RAMDISK_IMAGE # ----------------------------------------------------------------- # the boot image, which is a collection of other images. # This is defined here since we may be building recovery as boot # below and only want to define this once ifneq ($(strip $(BOARD_KERNEL_BINARIES)),) BUILT_BOOTIMAGE_TARGET := $(foreach k,$(subst kernel,boot,$(BOARD_KERNEL_BINARIES)), $(PRODUCT_OUT)/$(k).img) else BUILT_BOOTIMAGE_TARGET := $(PRODUCT_OUT)/boot.img endif INTERNAL_PREBUILT_BOOTIMAGE := my_installed_prebuilt_gki_apex := $(strip $(foreach package,$(PRODUCT_PACKAGES),$(if $(ALL_MODULES.$(package).EXTRACTED_BOOT_IMAGE),$(package)))) ifdef my_installed_prebuilt_gki_apex ifneq (1,$(words $(my_installed_prebuilt_gki_apex))) # len(my_installed_prebuilt_gki_apex) > 1 $(error More than one prebuilt GKI APEXes are installed: $(my_installed_prebuilt_gki_apex)) endif # len(my_installed_prebuilt_gki_apex) > 1 ifdef BOARD_PREBUILT_BOOTIMAGE $(error Must not define BOARD_PREBUILT_BOOTIMAGE because a prebuilt GKI APEX is installed: $(my_installed_prebuilt_gki_apex)) endif # BOARD_PREBUILT_BOOTIMAGE defined my_apex_extracted_boot_image := $(ALL_MODULES.$(my_installed_prebuilt_gki_apex).EXTRACTED_BOOT_IMAGE) INSTALLED_BOOTIMAGE_TARGET := $(PRODUCT_OUT)/boot.img $(eval $(call copy-one-file,$(my_apex_extracted_boot_image),$(INSTALLED_BOOTIMAGE_TARGET))) INTERNAL_PREBUILT_BOOTIMAGE := $(my_apex_extracted_boot_image) else # my_installed_prebuilt_gki_apex not defined # $1: boot image target # returns the kernel used to make the bootimage define bootimage-to-kernel $(if $(BOARD_KERNEL_BINARIES),\ $(PRODUCT_OUT)/$(subst .img,,$(subst boot,kernel,$(notdir $(1)))),\ $(INSTALLED_KERNEL_TARGET)) endef ifdef BOARD_BOOTIMAGE_PARTITION_SIZE BOARD_KERNEL_BOOTIMAGE_PARTITION_SIZE := $(BOARD_BOOTIMAGE_PARTITION_SIZE) endif # $1: boot image file name # $2: boot image variant (boot, boot-debug, boot-test-harness) define get-bootimage-partition-size $(BOARD_$(call to-upper,$(subst .img,,$(subst $(2),kernel,$(notdir $(1)))))_BOOTIMAGE_PARTITION_SIZE) endef ifneq ($(strip $(TARGET_NO_KERNEL)),true) INTERNAL_BOOTIMAGE_ARGS := \ $(addprefix --second ,$(INSTALLED_2NDBOOTLOADER_TARGET)) ifneq ($(BOARD_BUILD_SYSTEM_ROOT_IMAGE),true) INTERNAL_BOOTIMAGE_ARGS += --ramdisk $(INSTALLED_RAMDISK_TARGET) endif ifndef BUILDING_VENDOR_BOOT_IMAGE ifdef BOARD_INCLUDE_DTB_IN_BOOTIMG INTERNAL_BOOTIMAGE_ARGS += --dtb $(INSTALLED_DTBIMAGE_TARGET) endif endif INTERNAL_BOOTIMAGE_FILES := $(filter-out --%,$(INTERNAL_BOOTIMAGE_ARGS)) ifeq ($(PRODUCT_SUPPORTS_VERITY),true) ifeq ($(BOARD_BUILD_SYSTEM_ROOT_IMAGE),true) VERITY_KEYID := veritykeyid=id:`openssl x509 -in $(PRODUCT_VERITY_SIGNING_KEY).x509.pem -text \ | grep keyid | sed 's/://g' | tr -d '[:space:]' | tr '[:upper:]' '[:lower:]' | sed 's/keyid//g'` endif endif INTERNAL_KERNEL_CMDLINE := $(strip $(INTERNAL_KERNEL_CMDLINE) buildvariant=$(TARGET_BUILD_VARIANT) $(VERITY_KEYID)) # kernel cmdline/base/pagesize in boot. # - If using GKI, use GENERIC_KERNEL_CMDLINE. Remove kernel base and pagesize because they are # device-specific. # - If not using GKI: # - If building vendor_boot, INTERNAL_KERNEL_CMDLINE, base and pagesize goes in vendor_boot. # - Otherwise, put them in boot. ifeq (true,$(BOARD_USES_GENERIC_KERNEL_IMAGE)) ifdef GENERIC_KERNEL_CMDLINE INTERNAL_BOOTIMAGE_ARGS += --cmdline "$(GENERIC_KERNEL_CMDLINE)" endif else ifndef BUILDING_VENDOR_BOOT_IMAGE # && BOARD_USES_GENERIC_KERNEL_IMAGE != true ifdef INTERNAL_KERNEL_CMDLINE INTERNAL_BOOTIMAGE_ARGS += --cmdline "$(INTERNAL_KERNEL_CMDLINE)" endif ifdef BOARD_KERNEL_BASE INTERNAL_BOOTIMAGE_ARGS += --base $(BOARD_KERNEL_BASE) endif ifdef BOARD_KERNEL_PAGESIZE INTERNAL_BOOTIMAGE_ARGS += --pagesize $(BOARD_KERNEL_PAGESIZE) endif endif # BUILDING_VENDOR_BOOT_IMAGE == "" && BOARD_USES_GENERIC_KERNEL_IMAGE != true INTERNAL_MKBOOTIMG_VERSION_ARGS := \ --os_version $(PLATFORM_VERSION_LAST_STABLE) \ --os_patch_level $(PLATFORM_SECURITY_PATCH) ifdef BOARD_GKI_SIGNING_KEY_PATH ifndef BOARD_GKI_SIGNING_ALGORITHM $(error BOARD_GKI_SIGNING_ALGORITHM should be defined with BOARD_GKI_SIGNING_KEY_PATH) endif INTERNAL_MKBOOTIMG_GKI_SINGING_ARGS := \ --gki_signing_key $(BOARD_GKI_SIGNING_KEY_PATH) \ --gki_signing_algorithm $(BOARD_GKI_SIGNING_ALGORITHM) \ --gki_signing_avbtool_path $(AVBTOOL) endif # Using double quote to pass BOARD_GKI_SIGNING_SIGNATURE_ARGS as a single string # to MKBOOTIMG, although it may contain multiple args. ifdef BOARD_GKI_SIGNING_SIGNATURE_ARGS INTERNAL_MKBOOTIMG_GKI_SINGING_ARGS += \ --gki_signing_signature_args "$(BOARD_GKI_SIGNING_SIGNATURE_ARGS)" endif # Define these only if we are building boot ifdef BUILDING_BOOT_IMAGE INSTALLED_BOOTIMAGE_TARGET := $(BUILT_BOOTIMAGE_TARGET) ifeq ($(TARGET_BOOTIMAGE_USE_EXT2),true) $(error TARGET_BOOTIMAGE_USE_EXT2 is not supported anymore) endif # TARGET_BOOTIMAGE_USE_EXT2 $(foreach b,$(INSTALLED_BOOTIMAGE_TARGET), $(eval $(call add-dependency,$(b),$(call bootimage-to-kernel,$(b))))) ifeq (true,$(BOARD_AVB_ENABLE)) # $1: boot image target define build_boot_board_avb_enabled $(MKBOOTIMG) --kernel $(call bootimage-to-kernel,$(1)) $(INTERNAL_BOOTIMAGE_ARGS) $(INTERNAL_MKBOOTIMG_VERSION_ARGS) \ $(INTERNAL_MKBOOTIMG_GKI_SINGING_ARGS) $(BOARD_MKBOOTIMG_ARGS) --output $(1) $(call assert-max-image-size,$(1),$(call get-hash-image-max-size,$(call get-bootimage-partition-size,$(1),boot))) $(AVBTOOL) add_hash_footer \ --image $(1) \ --partition_size $(call get-bootimage-partition-size,$(1),boot) \ --partition_name boot $(INTERNAL_AVB_BOOT_SIGNING_ARGS) \ $(BOARD_AVB_BOOT_ADD_HASH_FOOTER_ARGS) endef $(INSTALLED_BOOTIMAGE_TARGET): $(MKBOOTIMG) $(AVBTOOL) $(INTERNAL_BOOTIMAGE_FILES) $(BOARD_AVB_BOOT_KEY_PATH) $(BOARD_GKI_SIGNING_KEY_PATH) $(call pretty,"Target boot image: $@") $(call build_boot_board_avb_enabled,$@) .PHONY: bootimage-nodeps bootimage-nodeps: $(MKBOOTIMG) $(AVBTOOL) $(BOARD_AVB_BOOT_KEY_PATH) $(BOARD_GKI_SIGNING_KEY_PATH) @echo "make $@: ignoring dependencies" $(foreach b,$(INSTALLED_BOOTIMAGE_TARGET),$(call build_boot_board_avb_enabled,$(b))) else ifeq (true,$(PRODUCT_SUPPORTS_BOOT_SIGNER)) # BOARD_AVB_ENABLE != true # $1: boot image target define build_boot_supports_boot_signer $(MKBOOTIMG) --kernel $(call bootimage-to-kernel,$(1)) $(INTERNAL_BOOTIMAGE_ARGS) $(INTERNAL_MKBOOTIMG_VERSION_ARGS) $(BOARD_MKBOOTIMG_ARGS) --output $(1) $(BOOT_SIGNER) /boot $@ $(PRODUCT_VERITY_SIGNING_KEY).pk8 $(PRODUCT_VERITY_SIGNING_KEY).x509.pem $(1) $(call assert-max-image-size,$(1),$(call get-bootimage-partition-size,$(1),boot)) endef $(INSTALLED_BOOTIMAGE_TARGET): $(MKBOOTIMG) $(INTERNAL_BOOTIMAGE_FILES) $(BOOT_SIGNER) $(call pretty,"Target boot image: $@") $(call build_boot_supports_boot_signer,$@) .PHONY: bootimage-nodeps bootimage-nodeps: $(MKBOOTIMG) $(BOOT_SIGNER) @echo "make $@: ignoring dependencies" $(foreach b,$(INSTALLED_BOOTIMAGE_TARGET),$(call build_boot_supports_boot_signer,$(b))) else ifeq (true,$(PRODUCT_SUPPORTS_VBOOT)) # PRODUCT_SUPPORTS_BOOT_SIGNER != true # $1: boot image target define build_boot_supports_vboot $(MKBOOTIMG) --kernel $(call bootimage-to-kernel,$(1)) $(INTERNAL_BOOTIMAGE_ARGS) $(INTERNAL_MKBOOTIMG_VERSION_ARGS) $(BOARD_MKBOOTIMG_ARGS) --output $(1).unsigned $(VBOOT_SIGNER) $(FUTILITY) $(1).unsigned $(PRODUCT_VBOOT_SIGNING_KEY).vbpubk $(PRODUCT_VBOOT_SIGNING_KEY).vbprivk $(PRODUCT_VBOOT_SIGNING_SUBKEY).vbprivk $(1).keyblock $(1) $(call assert-max-image-size,$(1),$(call get-bootimage-partition-size,$(1),boot)) endef $(INSTALLED_BOOTIMAGE_TARGET): $(MKBOOTIMG) $(INTERNAL_BOOTIMAGE_FILES) $(VBOOT_SIGNER) $(FUTILITY) $(call pretty,"Target boot image: $@") $(call build_boot_supports_vboot,$@) .PHONY: bootimage-nodeps bootimage-nodeps: $(MKBOOTIMG) $(VBOOT_SIGNER) $(FUTILITY) @echo "make $@: ignoring dependencies" $(foreach b,$(INSTALLED_BOOTIMAGE_TARGET),$(call build_boot_supports_vboot,$(b))) else # PRODUCT_SUPPORTS_VBOOT != true # $1: boot image target define build_boot_novboot $(MKBOOTIMG) --kernel $(call bootimage-to-kernel,$(1)) $(INTERNAL_BOOTIMAGE_ARGS) $(INTERNAL_MKBOOTIMG_VERSION_ARGS) $(BOARD_MKBOOTIMG_ARGS) --output $(1) $(call assert-max-image-size,$1,$(call get-bootimage-partition-size,$(1),boot)) endef $(INSTALLED_BOOTIMAGE_TARGET): $(MKBOOTIMG) $(INTERNAL_BOOTIMAGE_FILES) $(call pretty,"Target boot image: $@") $(call build_boot_novboot,$@) .PHONY: bootimage-nodeps bootimage-nodeps: $(MKBOOTIMG) @echo "make $@: ignoring dependencies" $(foreach b,$(INSTALLED_BOOTIMAGE_TARGET),$(call build_boot_novboot,$(b))) endif # BOARD_AVB_ENABLE endif # BUILDING_BOOT_IMAGE else # TARGET_NO_KERNEL == "true" ifdef BOARD_PREBUILT_BOOTIMAGE INTERNAL_PREBUILT_BOOTIMAGE := $(BOARD_PREBUILT_BOOTIMAGE) INSTALLED_BOOTIMAGE_TARGET := $(PRODUCT_OUT)/boot.img ifeq ($(BOARD_AVB_ENABLE),true) $(INSTALLED_BOOTIMAGE_TARGET): $(INTERNAL_PREBUILT_BOOTIMAGE) $(AVBTOOL) $(BOARD_AVB_BOOT_KEY_PATH) cp $(INTERNAL_PREBUILT_BOOTIMAGE) $@ $(AVBTOOL) add_hash_footer \ --image $@ \ --partition_size $(BOARD_BOOTIMAGE_PARTITION_SIZE) \ --partition_name boot $(INTERNAL_AVB_BOOT_SIGNING_ARGS) \ $(BOARD_AVB_BOOT_ADD_HASH_FOOTER_ARGS) else $(INSTALLED_BOOTIMAGE_TARGET): $(INTERNAL_PREBUILT_BOOTIMAGE) cp $(INTERNAL_PREBUILT_BOOTIMAGE) $@ endif # BOARD_AVB_ENABLE else # BOARD_PREBUILT_BOOTIMAGE not defined INSTALLED_BOOTIMAGE_TARGET := endif # BOARD_PREBUILT_BOOTIMAGE endif # TARGET_NO_KERNEL endif # my_installed_prebuilt_gki_apex not defined my_apex_extracted_boot_image := my_installed_prebuilt_gki_apex := # ----------------------------------------------------------------- # vendor boot image ifeq ($(BUILDING_VENDOR_BOOT_IMAGE),true) ifeq ($(PRODUCT_SUPPORTS_VERITY),true) $(error vboot 1.0 does not support vendor_boot partition) endif INTERNAL_VENDOR_RAMDISK_FILES := $(filter $(TARGET_VENDOR_RAMDISK_OUT)/%, \ $(ALL_GENERATED_SOURCES) \ $(ALL_DEFAULT_INSTALLED_MODULES)) INTERNAL_VENDOR_RAMDISK_TARGET := $(call intermediates-dir-for,PACKAGING,vendor_boot)/vendor_ramdisk.cpio$(RAMDISK_EXT) # Exclude recovery files in the default vendor ramdisk if including a standalone # recovery ramdisk in vendor_boot. ifeq (true,$(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT)) ifneq (true,$(BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT)) $(INTERNAL_VENDOR_RAMDISK_TARGET): $(INTERNAL_RECOVERY_RAMDISK_FILES_TIMESTAMP) $(INTERNAL_VENDOR_RAMDISK_TARGET): PRIVATE_ADDITIONAL_DIR := $(TARGET_RECOVERY_ROOT_OUT) endif endif $(INTERNAL_VENDOR_RAMDISK_TARGET): $(MKBOOTFS) $(INTERNAL_VENDOR_RAMDISK_FILES) | $(COMPRESSION_COMMAND_DEPS) $(MKBOOTFS) -d $(TARGET_OUT) $(TARGET_VENDOR_RAMDISK_OUT) $(PRIVATE_ADDITIONAL_DIR) | $(COMPRESSION_COMMAND) > $@ ifeq (true,$(BOARD_BUILD_VENDOR_RAMDISK_IMAGE)) INSTALLED_VENDOR_RAMDISK_TARGET := $(PRODUCT_OUT)/vendor_ramdisk.img $(INSTALLED_VENDOR_RAMDISK_TARGET): $(INTERNAL_VENDOR_RAMDISK_TARGET) $(call pretty,"Target vendor ramdisk: $@") $(copy-file-to-target) endif INSTALLED_FILES_FILE_VENDOR_RAMDISK := $(PRODUCT_OUT)/installed-files-vendor-ramdisk.txt INSTALLED_FILES_JSON_VENDOR_RAMDISK := $(INSTALLED_FILES_FILE_VENDOR_RAMDISK:.txt=.json) $(INSTALLED_FILES_FILE_VENDOR_RAMDISK): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_VENDOR_RAMDISK) $(INSTALLED_FILES_FILE_VENDOR_RAMDISK): $(INTERNAL_VENDOR_RAMDISK_TARGET) $(INSTALLED_FILES_FILE_VENDOR_RAMDISK): $(INTERNAL_VENDOR_RAMDISK_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_VENDOR_RAMDISK_OUT) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ ifdef BOARD_INCLUDE_DTB_IN_BOOTIMG INTERNAL_VENDOR_BOOTIMAGE_ARGS += --dtb $(INSTALLED_DTBIMAGE_TARGET) endif ifdef BOARD_KERNEL_BASE INTERNAL_VENDOR_BOOTIMAGE_ARGS += --base $(BOARD_KERNEL_BASE) endif ifdef BOARD_KERNEL_PAGESIZE INTERNAL_VENDOR_BOOTIMAGE_ARGS += --pagesize $(BOARD_KERNEL_PAGESIZE) endif ifdef INTERNAL_KERNEL_CMDLINE INTERNAL_VENDOR_BOOTIMAGE_ARGS += --vendor_cmdline "$(INTERNAL_KERNEL_CMDLINE)" endif ifdef INTERNAL_BOOTCONFIG INTERNAL_VENDOR_BOOTCONFIG_TARGET := $(PRODUCT_OUT)/vendor-bootconfig.img $(INTERNAL_VENDOR_BOOTCONFIG_TARGET): rm -f $@ $(foreach param,$(INTERNAL_BOOTCONFIG), \ printf "%s\n" $(param) >> $@;) INTERNAL_VENDOR_BOOTIMAGE_ARGS += --vendor_bootconfig $(INTERNAL_VENDOR_BOOTCONFIG_TARGET) endif # $(1): Build target name # $(2): Staging dir to be compressed # $(3): Build dependencies define build-vendor-ramdisk-fragment-target $(1): $(3) $(MKBOOTFS) | $(COMPRESSION_COMMAND_DEPS) $(MKBOOTFS) -d $(TARGET_OUT) $(2) | $(COMPRESSION_COMMAND) > $$@ endef # $(1): Ramdisk name define build-vendor-ramdisk-fragment $(strip \ $(eval build_target := $(call intermediates-dir-for,PACKAGING,vendor_ramdisk_fragments)/$(1).cpio$(RAMDISK_EXT)) \ $(eval $(call build-vendor-ramdisk-fragment-target,$(build_target),$(VENDOR_RAMDISK_FRAGMENT.$(1).STAGING_DIR),$(VENDOR_RAMDISK_FRAGMENT.$(1).FILES))) \ $(build_target) \ ) endef # $(1): Ramdisk name # $(2): Prebuilt file path define build-prebuilt-vendor-ramdisk-fragment $(strip \ $(eval build_target := $(call intermediates-dir-for,PACKAGING,prebuilt_vendor_ramdisk_fragments)/$(1)) \ $(eval $(call copy-one-file,$(2),$(build_target))) \ $(build_target) \ ) endef INTERNAL_VENDOR_RAMDISK_FRAGMENT_TARGETS := INTERNAL_VENDOR_RAMDISK_FRAGMENT_ARGS := $(foreach vendor_ramdisk_fragment,$(INTERNAL_VENDOR_RAMDISK_FRAGMENTS), \ $(eval prebuilt_vendor_ramdisk_fragment_file := $(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).PREBUILT)) \ $(if $(prebuilt_vendor_ramdisk_fragment_file), \ $(eval vendor_ramdisk_fragment_target := $(call build-prebuilt-vendor-ramdisk-fragment,$(vendor_ramdisk_fragment),$(prebuilt_vendor_ramdisk_fragment_file))) \ $(eval ### else ###), \ $(eval vendor_ramdisk_fragment_target := $(call build-vendor-ramdisk-fragment,$(vendor_ramdisk_fragment)))) \ $(eval INTERNAL_VENDOR_RAMDISK_FRAGMENT_TARGETS += $(vendor_ramdisk_fragment_target)) \ $(eval INTERNAL_VENDOR_RAMDISK_FRAGMENT_ARGS += $(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).MKBOOTIMG_ARGS) --vendor_ramdisk_fragment $(vendor_ramdisk_fragment_target)) \ ) INSTALLED_VENDOR_BOOTIMAGE_TARGET := $(PRODUCT_OUT)/vendor_boot.img $(INSTALLED_VENDOR_BOOTIMAGE_TARGET): $(MKBOOTIMG) $(INTERNAL_VENDOR_RAMDISK_TARGET) $(INSTALLED_DTBIMAGE_TARGET) $(INSTALLED_VENDOR_BOOTIMAGE_TARGET): $(INTERNAL_VENDOR_RAMDISK_FRAGMENT_TARGETS) $(INTERNAL_VENDOR_BOOTCONFIG_TARGET) ifeq ($(BOARD_AVB_ENABLE),true) $(INSTALLED_VENDOR_BOOTIMAGE_TARGET): $(AVBTOOL) $(BOARD_AVB_VENDOR_BOOTIMAGE_KEY_PATH) $(call pretty,"Target vendor_boot image: $@") $(MKBOOTIMG) $(INTERNAL_VENDOR_BOOTIMAGE_ARGS) $(BOARD_MKBOOTIMG_ARGS) --vendor_ramdisk $(INTERNAL_VENDOR_RAMDISK_TARGET) $(INTERNAL_VENDOR_RAMDISK_FRAGMENT_ARGS) --vendor_boot $@ $(call assert-max-image-size,$@,$(BOARD_VENDOR_BOOTIMAGE_PARTITION_SIZE)) $(AVBTOOL) add_hash_footer \ --image $@ \ --partition_size $(BOARD_VENDOR_BOOTIMAGE_PARTITION_SIZE) \ --partition_name vendor_boot $(INTERNAL_AVB_VENDOR_BOOT_SIGNING_ARGS) \ $(BOARD_AVB_VENDOR_BOOT_ADD_HASH_FOOTER_ARGS) else $(INSTALLED_VENDOR_BOOTIMAGE_TARGET): $(call pretty,"Target vendor_boot image: $@") $(MKBOOTIMG) $(INTERNAL_VENDOR_BOOTIMAGE_ARGS) $(BOARD_MKBOOTIMG_ARGS) --vendor_ramdisk $(INTERNAL_VENDOR_RAMDISK_TARGET) $(INTERNAL_VENDOR_RAMDISK_FRAGMENT_ARGS) --vendor_boot $@ $(call assert-max-image-size,$@,$(BOARD_VENDOR_BOOTIMAGE_PARTITION_SIZE)) endif endif # BUILDING_VENDOR_BOOT_IMAGE # ----------------------------------------------------------------- # NOTICE files # # We are required to publish the licenses for all code under BSD, GPL and # Apache licenses (and possibly other more exotic ones as well). We err on the # side of caution, so the licenses for other third-party code are included here # too. # # 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/xml forms # $(1) - xml_excluded_system_product_odm_vendor_dlkm_odm_dlkm| # xml_excluded_vendor_product_odm_vendor_dlkm_odm_dlkm| # xml_product|xml_odm|xml_system_ext|xml_system|xml_vendor_dlkm| # xml_odm_dlkm|html # $(2) - Plain text output file # $(3) - HTML/XML output file # $(4) - File title # $(5) - Directory to use. Notice files are all $(5)/src. Other # directories in there will be used for scratch # $(6) - Dependencies for the output files # $(7) - Directories to exclude # # 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 $(2): PRIVATE_MESSAGE := $(4) $(2): PRIVATE_DIR := $(5) $(2): .KATI_IMPLICIT_OUTPUTS := $(3) $(2): $(6) $(BUILD_SYSTEM)/Makefile build/make/tools/generate-notice-files.py build/make/tools/generate-notice-files.py --text-output $(2) $(foreach xdir, $(7), -e $(xdir) )\ $(if $(filter $(1),xml_excluded_vendor_product_odm_vendor_dlkm_odm_dlkm),-e vendor -e product -e system_ext -e odm -e vendor_dlkm -e odm_dlkm --xml-output, \ $(if $(filter $(1),xml_excluded_system_product_odm_vendor_dlkm_odm_dlkm),-e system -e product -e system_ext -e odm -e vendor_dlkm -e odm_dlkm --xml-output, \ $(if $(filter $(1),xml_product),-i product --xml-output, \ $(if $(filter $(1),xml_system_ext),-i system_ext --xml-output, \ $(if $(filter $(1),xml_system),-i system --xml-output, \ $(if $(filter $(1),xml_odm),-i odm --xml-output, \ $(if $(filter $(1),xml_vendor_dlkm),-i vendor_dlkm --xml-output, \ $(if $(filter $(1),xml_odm_dlkm),-i odm_dlkm --xml-output, \ --html-output)))))))) $(3) \ -t $$(PRIVATE_MESSAGE) $$(foreach dir,$$(sort $$(PRIVATE_DIR)), -s $$(dir)/src) notice_files: $(2) $(3) endef # Notice file logic isn't relevant for TARGET_BUILD_APPS ifndef TARGET_BUILD_APPS # 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 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 winpthreads_notice_file := $(TARGET_OUT_NOTICE_FILES)/src/winpthreads.txt # Some targets get included under $(PRODUCT_OUT) for debug symbols or other # reasons--not to be flashed onto any device. Targets under these directories # need no associated notice file on the device UI. exclude_target_dirs := apex # TODO(b/69865032): Make PRODUCT_NOTICE_SPLIT the default behavior. ifneq ($(PRODUCT_NOTICE_SPLIT),true) target_notice_file_html := $(TARGET_OUT_INTERMEDIATES)/NOTICE.html target_notice_file_html_gz := $(TARGET_OUT_INTERMEDIATES)/NOTICE.html.gz installed_notice_html_or_xml_gz := $(TARGET_OUT)/etc/NOTICE.html.gz $(eval $(call combine-notice-files, html, \ $(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), \ $(exclude_target_dirs))) $(target_notice_file_html_gz): $(target_notice_file_html) | $(MINIGZIP) $(hide) $(MINIGZIP) -9 < $< > $@ $(installed_notice_html_or_xml_gz): $(target_notice_file_html_gz) $(copy-file-to-target) else target_notice_file_xml := $(TARGET_OUT_INTERMEDIATES)/NOTICE.xml target_notice_file_xml_gz := $(TARGET_OUT_INTERMEDIATES)/NOTICE.xml.gz installed_notice_html_or_xml_gz := $(TARGET_OUT)/etc/NOTICE.xml.gz target_vendor_notice_file_txt := $(TARGET_OUT_INTERMEDIATES)/NOTICE_VENDOR.txt target_vendor_notice_file_xml := $(TARGET_OUT_INTERMEDIATES)/NOTICE_VENDOR.xml target_vendor_notice_file_xml_gz := $(TARGET_OUT_INTERMEDIATES)/NOTICE_VENDOR.xml.gz installed_vendor_notice_xml_gz := $(TARGET_OUT_VENDOR)/etc/NOTICE.xml.gz target_product_notice_file_txt := $(TARGET_OUT_INTERMEDIATES)/NOTICE_PRODUCT.txt target_product_notice_file_xml := $(TARGET_OUT_INTERMEDIATES)/NOTICE_PRODUCT.xml target_product_notice_file_xml_gz := $(TARGET_OUT_INTERMEDIATES)/NOTICE_PRODUCT.xml.gz installed_product_notice_xml_gz := $(TARGET_OUT_PRODUCT)/etc/NOTICE.xml.gz target_system_ext_notice_file_txt := $(TARGET_OUT_INTERMEDIATES)/NOTICE_SYSTEM_EXT.txt target_system_ext_notice_file_xml := $(TARGET_OUT_INTERMEDIATES)/NOTICE_SYSTEM_EXT.xml target_system_ext_notice_file_xml_gz := $(TARGET_OUT_INTERMEDIATES)/NOTICE_SYSTEM_EXT.xml.gz installed_system_ext_notice_xml_gz := $(TARGET_OUT_SYSTEM_EXT)/etc/NOTICE.xml.gz target_odm_notice_file_txt := $(TARGET_OUT_INTERMEDIATES)/NOTICE_ODM.txt target_odm_notice_file_xml := $(TARGET_OUT_INTERMEDIATES)/NOTICE_ODM.xml target_odm_notice_file_xml_gz := $(TARGET_OUT_INTERMEDIATES)/NOTICE_ODM.xml.gz installed_odm_notice_xml_gz := $(TARGET_OUT_ODM)/etc/NOTICE.xml.gz target_vendor_dlkm_notice_file_txt := $(TARGET_OUT_INTERMEDIATES)/NOTICE_VENDOR_DLKM.txt target_vendor_dlkm_notice_file_xml := $(TARGET_OUT_INTERMEDIATES)/NOTICE_VENDOR_DLKM.xml target_vendor_dlkm_notice_file_xml_gz := $(TARGET_OUT_INTERMEDIATES)/NOTICE_VENDOR_DLKM.xml.gz installed_vendor_dlkm_notice_xml_gz := $(TARGET_OUT_VENDOR_DLKM)/etc/NOTICE.xml.gz target_odm_dlkm_notice_file_txt := $(TARGET_OUT_INTERMEDIATES)/NOTICE_ODM_DLKM.txt target_odm_dlkm_notice_file_xml := $(TARGET_OUT_INTERMEDIATES)/NOTICE_ODM_DLKM.xml target_odm_dlkm_notice_file_xml_gz := $(TARGET_OUT_INTERMEDIATES)/NOTICE_ODM_DLKM.xml.gz installed_odm_dlkm_notice_xml_gz := $(TARGET_OUT_ODM_DLKM)/etc/NOTICE.xml.gz # Notice files are copied to TARGET_OUT_NOTICE_FILES as a side-effect of their module # being built. A notice xml file must depend on all modules that could potentially # install a license file relevant to it. license_modules := $(ALL_DEFAULT_INSTALLED_MODULES) $(kernel_notice_file) # Only files copied to a system image need system image notices. license_modules := $(filter $(PRODUCT_OUT)/%,$(license_modules)) # Phonys/fakes don't have notice files (though their deps might) license_modules := $(filter-out $(TARGET_OUT_FAKE)/%,$(license_modules)) # testcases are not relevant to the system image. license_modules := $(filter-out $(TARGET_OUT_TESTCASES)/%,$(license_modules)) # filesystem images: system, vendor, product, system_ext, odm, vendor_dlkm, and odm_dlkm license_modules_system := $(filter $(TARGET_OUT)/%,$(license_modules)) # system_other is relevant to system partition. license_modules_system += $(filter $(TARGET_OUT_SYSTEM_OTHER)/%,$(license_modules)) license_modules_vendor := $(filter $(TARGET_OUT_VENDOR)/%,$(license_modules)) license_modules_product := $(filter $(TARGET_OUT_PRODUCT)/%,$(license_modules)) license_modules_system_ext := $(filter $(TARGET_OUT_SYSTEM_EXT)/%,$(license_modules)) license_modules_odm := $(filter $(TARGET_OUT_ODM)/%,$(license_modules)) license_modules_vendor_dlkm := $(filter $(TARGET_OUT_VENDOR_DLKM)/%,$(license_modules)) license_modules_odm_dlkm := $(filter $(TARGET_OUT_ODM_DLKM)/%,$(license_modules)) license_modules_agg := $(license_modules_system) \ $(license_modules_vendor) \ $(license_modules_product) \ $(license_modules_system_ext) \ $(license_modules_odm) \ $(license_modules_vendor_dlkm) \ $(license_modules_odm_dlkm) # targets used for debug symbols only and do not get copied to the device license_modules_symbols_only := $(filter $(PRODUCT_OUT)/apex/%,$(license_modules)) license_modules_rest := $(filter-out $(license_modules_agg),$(license_modules)) license_modules_rest := $(filter-out $(license_modules_symbols_only),$(license_modules_rest)) # Identify the other targets we expect to have notices for: # targets copied to the device but are not readable by the UI (e.g. must boot # into a different partition to read or don't have an associated /etc # directory) must have their notices built somewhere readable. license_modules_rehomed := $(filter-out $(PRODUCT_OUT)/%/%,$(license_modules_rest)) # files in root have no /etc license_modules_rehomed += $(filter $(PRODUCT_OUT)/recovery/%,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/root/%,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/data/%,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/ramdisk/%,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/debug_ramdisk/%,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/vendor_ramdisk/%,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/persist/%,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/persist.img,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/system_other/%,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/kernel%,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/%.img,$(license_modules_rest)) license_modules_rehomed += $(filter $(PRODUCT_OUT)/%.bin,$(license_modules_rest)) # after removing targets in system images, targets reported in system images, and # targets used for debug symbols that do not need notices, nothing must remain. license_modules_rest := $(filter-out $(license_modules_rehomed),$(license_modules_rest)) $(call maybe-print-list-and-error, $(license_modules_rest), \ "Targets added under $(PRODUCT_OUT)/ unaccounted for notice handling.") # If we are building in a configuration that includes a prebuilt vendor.img, we can't # update its notice file, so include those notices in the system partition instead ifdef BOARD_PREBUILT_VENDORIMAGE license_modules_system += $(license_modules_rehomed) system_xml_directories := xml_excluded_vendor_product_odm_vendor_dlkm_odm_dlkm system_notice_file_message := "Notices for files contained in all filesystem images except vendor/system_ext/product/odm/vendor_dlkm/odm_dlkm in this directory:" else license_modules_vendor += $(license_modules_rehomed) system_xml_directories := xml_system system_notice_file_message := "Notices for files contained in the system filesystem image in this directory:" endif $(eval $(call combine-notice-files, $(system_xml_directories), \ $(target_notice_file_txt), \ $(target_notice_file_xml), \ $(system_notice_file_message), \ $(TARGET_OUT_NOTICE_FILES), \ $(license_modules_system), \ $(exclude_target_dirs))) $(eval $(call combine-notice-files, xml_excluded_system_product_odm_vendor_dlkm_odm_dlkm, \ $(target_vendor_notice_file_txt), \ $(target_vendor_notice_file_xml), \ "Notices for files contained in all filesystem images except system/system_ext/product/odm/vendor_dlkm/odm_dlkm in this directory:", \ $(TARGET_OUT_NOTICE_FILES), \ $(license_modules_vendor), \ $(exclude_target_dirs))) $(eval $(call combine-notice-files, xml_product, \ $(target_product_notice_file_txt), \ $(target_product_notice_file_xml), \ "Notices for files contained in the product filesystem image in this directory:", \ $(TARGET_OUT_NOTICE_FILES), \ $(license_modules_product), \ $(exclude_target_dirs))) $(eval $(call combine-notice-files, xml_system_ext, \ $(target_system_ext_notice_file_txt), \ $(target_system_ext_notice_file_xml), \ "Notices for files contained in the system_ext filesystem image in this directory:", \ $(TARGET_OUT_NOTICE_FILES), \ $(license_modules_system_ext), \ $(exclude_target_dirs))) $(eval $(call combine-notice-files, xml_odm, \ $(target_odm_notice_file_txt), \ $(target_odm_notice_file_xml), \ "Notices for files contained in the odm filesystem image in this directory:", \ $(TARGET_OUT_NOTICE_FILES), \ $(license_modules_odm), \ $(exclude_target_dirs))) $(eval $(call combine-notice-files, xml_vendor_dlkm, \ $(target_vendor_dlkm_notice_file_txt), \ $(target_vendor_dlkm_notice_file_xml), \ "Notices for files contained in the vendor_dlkm filesystem image in this directory:", \ $(TARGET_OUT_NOTICE_FILES), \ $(license_modules_vendor_dlkm), \ $(exclude_target_dirs))) $(eval $(call combine-notice-files, xml_odm_dlkm, \ $(target_odm_dlkm_notice_file_txt), \ $(target_odm_dlkm_notice_file_xml), \ "Notices for files contained in the odm_dlkm filesystem image in this directory:", \ $(TARGET_OUT_NOTICE_FILES), \ $(license_modules_odm_dlkm), \ $(exclude_target_dirs))) $(target_notice_file_xml_gz): $(target_notice_file_xml) | $(MINIGZIP) $(hide) $(MINIGZIP) -9 < $< > $@ $(target_vendor_notice_file_xml_gz): $(target_vendor_notice_file_xml) | $(MINIGZIP) $(hide) $(MINIGZIP) -9 < $< > $@ $(target_product_notice_file_xml_gz): $(target_product_notice_file_xml) | $(MINIGZIP) $(hide) $(MINIGZIP) -9 < $< > $@ $(target_system_ext_notice_file_xml_gz): $(target_system_ext_notice_file_xml) | $(MINIGZIP) $(hide) $(MINIGZIP) -9 < $< > $@ $(target_odm_notice_file_xml_gz): $(target_odm_notice_file_xml) | $(MINIGZIP) $(hide) $(MINIGZIP) -9 < $< > $@ $(target_vendor_dlkm_notice_file_xml_gz): $(target_vendor_dlkm_notice_file_xml) | $(MINIGZIP) $(hide) $(MINIGZIP) -9 < $< > $@ $(target_odm_dlkm_notice_file_xml_gz): $(target_odm_dlkm_notice_file_xml) | $(MINIGZIP) $(hide) $(MINIGZIP) -9 < $< > $@ $(installed_notice_html_or_xml_gz): $(target_notice_file_xml_gz) $(copy-file-to-target) $(installed_vendor_notice_xml_gz): $(target_vendor_notice_file_xml_gz) $(copy-file-to-target) $(installed_product_notice_xml_gz): $(target_product_notice_file_xml_gz) $(copy-file-to-target) $(installed_system_ext_notice_xml_gz): $(target_system_ext_notice_file_xml_gz) $(copy-file-to-target) $(installed_odm_notice_xml_gz): $(target_odm_notice_file_xml_gz) $(copy-file-to-target) $(installed_vendor_dlkm_notice_xml_gz): $(target_vendor_dlkm_notice_file_xml_gz) $(copy-file-to-target) $(installed_odm_dlkm_notice_xml_gz): $(target_odm_dlkm_notice_file_xml_gz) $(copy-file-to-target) ALL_DEFAULT_INSTALLED_MODULES += $(installed_notice_html_or_xml_gz) ALL_DEFAULT_INSTALLED_MODULES += $(installed_vendor_notice_xml_gz) ALL_DEFAULT_INSTALLED_MODULES += $(installed_product_notice_xml_gz) ALL_DEFAULT_INSTALLED_MODULES += $(installed_system_ext_notice_xml_gz) ALL_DEFAULT_INSTALLED_MODULES += $(installed_odm_notice_xml_gz) ALL_DEFAULT_INSTALLED_MODULES += $(installed_vendor_dlkm_notice_xml_gz) ALL_DEFAULT_INSTALLED_MODULES += $(installed_odm_dlkm_notice_xml_gz) endif # PRODUCT_NOTICE_SPLIT ALL_DEFAULT_INSTALLED_MODULES += $(installed_notice_html_or_xml_gz) $(eval $(call combine-notice-files, html, \ $(tools_notice_file_txt), \ $(tools_notice_file_html), \ "Notices for files contained in the tools directory:", \ $(HOST_OUT_NOTICE_FILES), \ $(ALL_DEFAULT_INSTALLED_MODULES) \ $(winpthreads_notice_file), \ $(exclude_target_dirs))) endif # TARGET_BUILD_APPS # 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. $(eval $(call copy-one-file,$(BUILD_SYSTEM)/LINUX_KERNEL_COPYING,$(kernel_notice_file))) $(eval $(call copy-one-file,$(BUILD_SYSTEM)/WINPTHREADS_COPYING,$(winpthreads_notice_file))) # ################################################################# # Targets for user images # ################################################################# INTERNAL_USERIMAGES_EXT_VARIANT := ifeq ($(TARGET_USERIMAGES_USE_EXT2),true) INTERNAL_USERIMAGES_EXT_VARIANT := ext2 else ifeq ($(TARGET_USERIMAGES_USE_EXT3),true) INTERNAL_USERIMAGES_EXT_VARIANT := ext3 else ifeq ($(TARGET_USERIMAGES_USE_EXT4),true) INTERNAL_USERIMAGES_EXT_VARIANT := ext4 endif endif endif # These options tell the recovery updater/installer how to mount the partitions writebale. # =[|]... # fstype_opts := [,]... # opt := [=] # The following worked on Nexus devices with Kernel 3.1, 3.4, 3.10 DEFAULT_TARGET_RECOVERY_FSTYPE_MOUNT_OPTIONS := ext4=max_batch_time=0,commit=1,data=ordered,barrier=1,errors=panic,nodelalloc ifneq (true,$(TARGET_USERIMAGES_SPARSE_EXT_DISABLED)) INTERNAL_USERIMAGES_SPARSE_EXT_FLAG := -s endif ifneq (true,$(TARGET_USERIMAGES_SPARSE_EROFS_DISABLED)) INTERNAL_USERIMAGES_SPARSE_EROFS_FLAG := -s endif ifneq (true,$(TARGET_USERIMAGES_SPARSE_SQUASHFS_DISABLED)) INTERNAL_USERIMAGES_SPARSE_SQUASHFS_FLAG := -s endif ifneq (true,$(TARGET_USERIMAGES_SPARSE_F2FS_DISABLED)) INTERNAL_USERIMAGES_SPARSE_F2FS_FLAG := -S endif INTERNAL_USERIMAGES_DEPS := \ $(BUILD_IMAGE) \ $(MKE2FS_CONF) \ $(MKEXTUSERIMG) ifeq ($(TARGET_USERIMAGES_USE_F2FS),true) INTERNAL_USERIMAGES_DEPS += $(MKF2FSUSERIMG) endif ifneq ($(filter \ $(BOARD_PRODUCTIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_SYSTEM_EXTIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_ODMIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_VENDORIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_SYSTEMIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_VENDOR_DLKMIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_ODM_DLKMIMAGE_FILE_SYSTEM_TYPE) \ ,erofs),) INTERNAL_USERIMAGES_DEPS += $(MKEROFSUSERIMG) endif ifneq ($(filter \ $(BOARD_PRODUCTIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_SYSTEM_EXTIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_ODMIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_VENDORIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_SYSTEMIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_VENDOR_DLKMIMAGE_FILE_SYSTEM_TYPE) \ $(BOARD_ODM_DLKMIMAGE_FILE_SYSTEM_TYPE) \ ,squashfs),) INTERNAL_USERIMAGES_DEPS += $(MKSQUASHFSUSERIMG) endif ifeq (true,$(PRODUCT_SUPPORTS_VERITY)) INTERNAL_USERIMAGES_DEPS += $(BUILD_VERITY_METADATA) $(BUILD_VERITY_TREE) $(APPEND2SIMG) $(VERITY_SIGNER) ifeq (true,$(PRODUCT_SUPPORTS_VERITY_FEC)) INTERNAL_USERIMAGES_DEPS += $(FEC) endif endif ifeq ($(BOARD_AVB_ENABLE),true) INTERNAL_USERIMAGES_DEPS += $(AVBTOOL) endif # Get a colon-separated list of search paths. INTERNAL_USERIMAGES_BINARY_PATHS := $(subst $(space),:,$(sort $(dir $(INTERNAL_USERIMAGES_DEPS)))) # Collects file_contexts files from modules to be installed $(call merge-fc-files, \ $(sort $(foreach m,$(product_MODULES),$(ALL_MODULES.$(m).FILE_CONTEXTS))),\ $(call intermediates-dir-for,ETC,file_contexts.bin)/file_contexts.modules.tmp) SELINUX_FC := $(call intermediates-dir-for,ETC,file_contexts.bin)/file_contexts.bin INTERNAL_USERIMAGES_DEPS += $(SELINUX_FC) ifeq (true,$(PRODUCT_USE_DYNAMIC_PARTITIONS)) ifeq ($(PRODUCT_SUPPORTS_VERITY),true) $(error vboot 1.0 doesn't support logical partition) endif endif # PRODUCT_USE_DYNAMIC_PARTITIONS # $(1): the path of the output dictionary file # $(2): a subset of "system vendor cache userdata product system_ext oem odm vendor_dlkm odm_dlkm" # $(3): additional "key=value" pairs to append to the dictionary file. define generate-image-prop-dictionary $(if $(filter $(2),system),\ $(if $(BOARD_SYSTEMIMAGE_PARTITION_SIZE),$(hide) echo "system_size=$(BOARD_SYSTEMIMAGE_PARTITION_SIZE)" >> $(1)) $(if $(INTERNAL_SYSTEM_OTHER_PARTITION_SIZE),$(hide) echo "system_other_size=$(INTERNAL_SYSTEM_OTHER_PARTITION_SIZE)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_FILE_SYSTEM_TYPE),$(hide) echo "system_fs_type=$(BOARD_SYSTEMIMAGE_FILE_SYSTEM_TYPE)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_FILE_SYSTEM_COMPRESS),$(hide) echo "system_f2fs_compress=$(BOARD_SYSTEMIMAGE_FILE_SYSTEM_COMPRESS)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_F2FS_SLOAD_COMPRESS_FLAGS),$(hide) echo "system_f2fs_sldc_flags=$(BOARD_SYSTEMIMAGE_F2FS_SLOAD_COMPRESS_FLAGS)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_EXTFS_INODE_COUNT),$(hide) echo "system_extfs_inode_count=$(BOARD_SYSTEMIMAGE_EXTFS_INODE_COUNT)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_EXTFS_RSV_PCT),$(hide) echo "system_extfs_rsv_pct=$(BOARD_SYSTEMIMAGE_EXTFS_RSV_PCT)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_JOURNAL_SIZE),$(hide) echo "system_journal_size=$(BOARD_SYSTEMIMAGE_JOURNAL_SIZE)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_SQUASHFS_COMPRESSOR),$(hide) echo "system_squashfs_compressor=$(BOARD_SYSTEMIMAGE_SQUASHFS_COMPRESSOR)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_SQUASHFS_COMPRESSOR_OPT),$(hide) echo "system_squashfs_compressor_opt=$(BOARD_SYSTEMIMAGE_SQUASHFS_COMPRESSOR_OPT)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_SQUASHFS_BLOCK_SIZE),$(hide) echo "system_squashfs_block_size=$(BOARD_SYSTEMIMAGE_SQUASHFS_BLOCK_SIZE)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_SQUASHFS_DISABLE_4K_ALIGN),$(hide) echo "system_squashfs_disable_4k_align=$(BOARD_SYSTEMIMAGE_SQUASHFS_DISABLE_4K_ALIGN)" >> $(1)) $(if $(PRODUCT_SYSTEM_BASE_FS_PATH),$(hide) echo "system_base_fs_file=$(PRODUCT_SYSTEM_BASE_FS_PATH)" >> $(1)) $(if $(PRODUCT_SYSTEM_HEADROOM),$(hide) echo "system_headroom=$(PRODUCT_SYSTEM_HEADROOM)" >> $(1)) $(if $(BOARD_SYSTEMIMAGE_PARTITION_RESERVED_SIZE),$(hide) echo "system_reserved_size=$(BOARD_SYSTEMIMAGE_PARTITION_RESERVED_SIZE)" >> $(1)) $(hide) echo "system_selinux_fc=$(SELINUX_FC)" >> $(1) $(hide) echo "building_system_image=$(BUILDING_SYSTEM_IMAGE)" >> $(1) ) $(if $(filter $(2),system_other),\ $(hide) echo "building_system_other_image=$(BUILDING_SYSTEM_OTHER_IMAGE)" >> $(1) ) $(if $(filter $(2),userdata),\ $(if $(BOARD_USERDATAIMAGE_FILE_SYSTEM_TYPE),$(hide) echo "userdata_fs_type=$(BOARD_USERDATAIMAGE_FILE_SYSTEM_TYPE)" >> $(1)) $(if $(BOARD_USERDATAIMAGE_PARTITION_SIZE),$(hide) echo "userdata_size=$(BOARD_USERDATAIMAGE_PARTITION_SIZE)" >> $(1)) $(if $(PRODUCT_FS_CASEFOLD),$(hide) echo "needs_casefold=$(PRODUCT_FS_CASEFOLD)" >> $(1)) $(if $(PRODUCT_QUOTA_PROJID),$(hide) echo "needs_projid=$(PRODUCT_QUOTA_PROJID)" >> $(1)) $(if $(PRODUCT_FS_COMPRESSION),$(hide) echo "needs_compress=$(PRODUCT_FS_COMPRESSION)" >> $(1)) $(hide) echo "userdata_selinux_fc=$(SELINUX_FC)" >> $(1) $(hide) echo "building_userdata_image=$(BUILDING_USERDATA_IMAGE)" >> $(1) ) $(if $(filter $(2),cache),\ $(if $(BOARD_CACHEIMAGE_FILE_SYSTEM_TYPE),$(hide) echo "cache_fs_type=$(BOARD_CACHEIMAGE_FILE_SYSTEM_TYPE)" >> $(1)) $(if $(BOARD_CACHEIMAGE_PARTITION_SIZE),$(hide) echo "cache_size=$(BOARD_CACHEIMAGE_PARTITION_SIZE)" >> $(1)) $(hide) echo "cache_selinux_fc=$(SELINUX_FC)" >> $(1) $(hide) echo "building_cache_image=$(BUILDING_CACHE_IMAGE)" >> $(1) ) $(if $(filter $(2),vendor),\ $(if $(BOARD_VENDORIMAGE_FILE_SYSTEM_TYPE),$(hide) echo "vendor_fs_type=$(BOARD_VENDORIMAGE_FILE_SYSTEM_TYPE)" >> $(1)) $(if $(BOARD_VENDORIMAGE_FILE_SYSTEM_COMPRESS),$(hide) echo "vendor_f2fs_compress=$(BOARD_VENDORIMAGE_FILE_SYSTEM_COMPRESS)" >> $(1)) $(if $(BOARD_VENDORIMAGE_F2FS_SLOAD_COMPRESS_FLAGS),$(hide) echo "vendor_f2fs_sldc_flags=$(BOARD_VENDORIMAGE_F2FS_SLOAD_COMPRESS_FLAGS)" >> $(1)) $(if $(BOARD_VENDORIMAGE_EXTFS_INODE_COUNT),$(hide) echo "vendor_extfs_inode_count=$(BOARD_VENDORIMAGE_EXTFS_INODE_COUNT)" >> $(1)) $(if $(BOARD_VENDORIMAGE_EXTFS_RSV_PCT),$(hide) echo "vendor_extfs_rsv_pct=$(BOARD_VENDORIMAGE_EXTFS_RSV_PCT)" >> $(1)) $(if $(BOARD_VENDORIMAGE_PARTITION_SIZE),$(hide) echo 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"avb_system_ext_add_hashtree_footer_args=$(BOARD_AVB_SYSTEM_EXT_ADD_HASHTREE_FOOTER_ARGS)" >> $(1)) $(if $(BOARD_AVB_ENABLE),\ $(if $(BOARD_AVB_SYSTEM_EXT_KEY_PATH),\ $(hide) echo "avb_system_ext_key_path=$(BOARD_AVB_SYSTEM_EXT_KEY_PATH)" >> $(1) $(hide) echo "avb_system_ext_algorithm=$(BOARD_AVB_SYSTEM_EXT_ALGORITHM)" >> $(1) $(hide) echo "avb_system_ext_rollback_index_location=$(BOARD_AVB_SYSTEM_EXT_ROLLBACK_INDEX_LOCATION)" >> $(1))) $(if $(BOARD_AVB_ENABLE),$(hide) echo "avb_odm_hashtree_enable=$(BOARD_AVB_ENABLE)" >> $(1)) $(if $(BOARD_AVB_ENABLE),$(hide) echo "avb_odm_add_hashtree_footer_args=$(BOARD_AVB_ODM_ADD_HASHTREE_FOOTER_ARGS)" >> $(1)) $(if $(BOARD_AVB_ENABLE),\ $(if $(BOARD_AVB_ODM_KEY_PATH),\ $(hide) echo "avb_odm_key_path=$(BOARD_AVB_ODM_KEY_PATH)" >> $(1) $(hide) echo "avb_odm_algorithm=$(BOARD_AVB_ODM_ALGORITHM)" >> $(1) $(hide) echo "avb_odm_rollback_index_location=$(BOARD_AVB_ODM_ROLLBACK_INDEX_LOCATION)" >> $(1))) $(if $(BOARD_AVB_ENABLE),$(hide) echo "avb_vendor_dlkm_hashtree_enable=$(BOARD_AVB_ENABLE)" >> $(1)) $(if $(BOARD_AVB_ENABLE),\ $(hide) echo "avb_vendor_dlkm_add_hashtree_footer_args=$(BOARD_AVB_VENDOR_DLKM_ADD_HASHTREE_FOOTER_ARGS)" >> $(1)) $(if $(BOARD_AVB_ENABLE),\ $(if $(BOARD_AVB_VENDOR_DLKM_KEY_PATH),\ $(hide) echo "avb_vendor_dlkm_key_path=$(BOARD_AVB_VENDOR_DLKM_KEY_PATH)" >> $(1) $(hide) echo "avb_vendor_dlkm_algorithm=$(BOARD_AVB_VENDOR_DLKM_ALGORITHM)" >> $(1) $(hide) echo "avb_vendor_dlkm_rollback_index_location=$(BOARD_AVB_VENDOR_DLKM_ROLLBACK_INDEX_LOCATION)" >> $(1))) $(if $(BOARD_AVB_ENABLE),$(hide) echo "avb_odm_dlkm_hashtree_enable=$(BOARD_AVB_ENABLE)" >> $(1)) $(if $(BOARD_AVB_ENABLE),\ $(hide) echo "avb_odm_dlkm_add_hashtree_footer_args=$(BOARD_AVB_ODM_DLKM_ADD_HASHTREE_FOOTER_ARGS)" >> $(1)) $(if $(BOARD_AVB_ENABLE),\ $(if $(BOARD_AVB_ODM_DLKM_KEY_PATH),\ $(hide) echo "avb_odm_dlkm_key_path=$(BOARD_AVB_ODM_DLKM_KEY_PATH)" >> $(1) $(hide) echo "avb_odm_dlkm_algorithm=$(BOARD_AVB_ODM_DLKM_ALGORITHM)" >> $(1) $(hide) echo "avb_odm_dlkm_rollback_index_location=$(BOARD_AVB_ODM_DLKM_ROLLBACK_INDEX_LOCATION)" >> $(1))) $(if $(filter true,$(BOARD_USES_RECOVERY_AS_BOOT)),\ $(hide) echo "recovery_as_boot=true" >> $(1)) $(if $(filter true,$(BOARD_BUILD_SYSTEM_ROOT_IMAGE)),\ $(hide) echo "system_root_image=true" >> $(1)) $(hide) echo "root_dir=$(TARGET_ROOT_OUT)" >> $(1) $(if $(filter true,$(PRODUCT_USE_DYNAMIC_PARTITION_SIZE)),\ $(hide) echo "use_dynamic_partition_size=true" >> $(1)) $(if $(3),$(hide) $(foreach kv,$(3),echo "$(kv)" >> $(1);)) endef # $(1): the path of the output dictionary file # $(2): additional "key=value" pairs to append to the dictionary file. PROP_DICTIONARY_IMAGES := oem ifdef BUILDING_CACHE_IMAGE PROP_DICTIONARY_IMAGES += cache endif ifdef BUILDING_SYSTEM_IMAGE PROP_DICTIONARY_IMAGES += system endif ifdef BUILDING_SYSTEM_OTHER_IMAGE PROP_DICTIONARY_IMAGES += system_other endif ifdef BUILDING_USERDATA_IMAGE PROP_DICTIONARY_IMAGES += userdata endif ifdef BUILDING_VENDOR_IMAGE PROP_DICTIONARY_IMAGES += vendor endif ifdef BUILDING_PRODUCT_IMAGE PROP_DICTIONARY_IMAGES += product endif ifdef BUILDING_SYSTEM_EXT_IMAGE PROP_DICTIONARY_IMAGES += system_ext endif ifdef BUILDING_ODM_IMAGE PROP_DICTIONARY_IMAGES += odm endif ifdef BUILDING_VENDOR_DLKM_IMAGE PROP_DICTIONARY_IMAGES += vendor_dlkm endif ifdef BUILDING_ODM_DLKM_IMAGE PROP_DICTIONARY_IMAGES += odm_dlkm endif define generate-userimage-prop-dictionary $(call generate-image-prop-dictionary,$(1),$(PROP_DICTIONARY_IMAGES),$(2)) endef # $(1): the path of the input dictionary file, where each line has the format key=value # $(2): the key to look up define read-image-prop-dictionary $$(grep '$(2)=' $(1) | cut -f2- -d'=') endef # ----------------------------------------------------------------- # Recovery image # Recovery image exists if we are building recovery, or building recovery as boot. ifdef BUILDING_RECOVERY_IMAGE INTERNAL_RECOVERYIMAGE_FILES := $(filter $(TARGET_RECOVERY_OUT)/%, \ $(ALL_DEFAULT_INSTALLED_MODULES)) INSTALLED_FILES_FILE_RECOVERY := $(PRODUCT_OUT)/installed-files-recovery.txt INSTALLED_FILES_JSON_RECOVERY := $(INSTALLED_FILES_FILE_RECOVERY:.txt=.json) ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) INSTALLED_BOOTIMAGE_TARGET := $(BUILT_BOOTIMAGE_TARGET) endif # TODO(b/30414428): Can't depend on INTERNAL_RECOVERYIMAGE_FILES alone like other # INSTALLED_FILES_FILE_* rules. Because currently there're cp/rsync/rm commands in # build-recoveryimage-target, which would touch the files under TARGET_RECOVERY_OUT and race with # the call to FILELIST. $(INSTALLED_FILES_FILE_RECOVERY): $(INTERNAL_RECOVERY_RAMDISK_FILES_TIMESTAMP) $(INSTALLED_FILES_FILE_RECOVERY): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_RECOVERY) $(INSTALLED_FILES_FILE_RECOVERY): $(INTERNAL_RECOVERYIMAGE_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_RECOVERY_ROOT_OUT) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ recovery_sepolicy := \ $(TARGET_RECOVERY_ROOT_OUT)/sepolicy \ $(TARGET_RECOVERY_ROOT_OUT)/plat_file_contexts \ $(TARGET_RECOVERY_ROOT_OUT)/plat_property_contexts \ $(TARGET_RECOVERY_ROOT_OUT)/system_ext_file_contexts \ $(TARGET_RECOVERY_ROOT_OUT)/system_ext_property_contexts \ $(TARGET_RECOVERY_ROOT_OUT)/vendor_file_contexts \ $(TARGET_RECOVERY_ROOT_OUT)/vendor_property_contexts \ $(TARGET_RECOVERY_ROOT_OUT)/odm_file_contexts \ $(TARGET_RECOVERY_ROOT_OUT)/odm_property_contexts \ $(TARGET_RECOVERY_ROOT_OUT)/product_file_contexts \ $(TARGET_RECOVERY_ROOT_OUT)/product_property_contexts # Passed into rsync from non-recovery root to recovery root, to avoid overwriting recovery-specific # SELinux files IGNORE_RECOVERY_SEPOLICY := $(patsubst $(TARGET_RECOVERY_OUT)/%,--exclude=/%,$(recovery_sepolicy)) # if building multiple boot images from multiple kernels, use the first kernel listed # for the recovery image recovery_kernel := $(firstword $(INSTALLED_KERNEL_TARGET)) recovery_ramdisk := $(PRODUCT_OUT)/ramdisk-recovery.img recovery_resources_common := bootable/recovery/res # Set recovery_density to a density bucket based on TARGET_SCREEN_DENSITY, PRODUCT_AAPT_PREF_CONFIG, # or mdpi, in order of preference. We support both specific buckets (e.g. xdpi) and numbers, # which get remapped to a bucket. recovery_density := $(or $(TARGET_SCREEN_DENSITY),$(PRODUCT_AAPT_PREF_CONFIG),mdpi) ifeq (,$(filter xxxhdpi xxhdpi xhdpi hdpi mdpi,$(recovery_density))) recovery_density_value := $(patsubst %dpi,%,$(recovery_density)) # We roughly use the medium point between the primary densities to split buckets. # ------160------240------320----------480------------640------ # mdpi hdpi xhdpi xxhdpi xxxhdpi recovery_density := $(strip \ $(or $(if $(filter $(shell echo $$(($(recovery_density_value) >= 560))),1),xxxhdpi),\ $(if $(filter $(shell echo $$(($(recovery_density_value) >= 400))),1),xxhdpi),\ $(if $(filter $(shell echo $$(($(recovery_density_value) >= 280))),1),xhdpi),\ $(if $(filter $(shell echo $$(($(recovery_density_value) >= 200))),1),hdpi,mdpi))) endif ifneq (,$(wildcard $(recovery_resources_common)-$(recovery_density))) recovery_resources_common := $(recovery_resources_common)-$(recovery_density) else recovery_resources_common := $(recovery_resources_common)-xhdpi endif # Select the 18x32 font on high-density devices (xhdpi and up); and the 12x22 font on other devices. # Note that the font selected here can be overridden for a particular device by putting a font.png # in its private recovery resources. ifneq (,$(filter xxxhdpi xxhdpi xhdpi,$(recovery_density))) recovery_font := bootable/recovery/fonts/18x32.png else recovery_font := bootable/recovery/fonts/12x22.png endif # We will only generate the recovery background text images if the variable # TARGET_RECOVERY_UI_SCREEN_WIDTH is defined. For devices with xxxhdpi and xxhdpi, we set the # variable to the commonly used values here, if it hasn't been intialized elsewhere. While for # devices with lower density, they must have TARGET_RECOVERY_UI_SCREEN_WIDTH defined in their # BoardConfig in order to use this feature. ifeq ($(recovery_density),xxxhdpi) TARGET_RECOVERY_UI_SCREEN_WIDTH ?= 1440 else ifeq ($(recovery_density),xxhdpi) TARGET_RECOVERY_UI_SCREEN_WIDTH ?= 1080 endif ifneq ($(TARGET_RECOVERY_UI_SCREEN_WIDTH),) # Subtracts the margin width and menu indent from the screen width; it's safe to be conservative. ifeq ($(TARGET_RECOVERY_UI_MARGIN_WIDTH),) recovery_image_width := $$(($(TARGET_RECOVERY_UI_SCREEN_WIDTH) - 10)) else recovery_image_width := $$(($(TARGET_RECOVERY_UI_SCREEN_WIDTH) - $(TARGET_RECOVERY_UI_MARGIN_WIDTH) - 10)) endif RECOVERY_INSTALLING_TEXT_FILE := $(call intermediates-dir-for,ETC,recovery_text_res)/installing_text.png RECOVERY_INSTALLING_SECURITY_TEXT_FILE := $(dir $(RECOVERY_INSTALLING_TEXT_FILE))/installing_security_text.png RECOVERY_ERASING_TEXT_FILE := $(dir $(RECOVERY_INSTALLING_TEXT_FILE))/erasing_text.png RECOVERY_ERROR_TEXT_FILE := $(dir $(RECOVERY_INSTALLING_TEXT_FILE))/error_text.png RECOVERY_NO_COMMAND_TEXT_FILE := $(dir $(RECOVERY_INSTALLING_TEXT_FILE))/no_command_text.png RECOVERY_CANCEL_WIPE_DATA_TEXT_FILE := $(dir $(RECOVERY_INSTALLING_TEXT_FILE))/cancel_wipe_data_text.png RECOVERY_FACTORY_DATA_RESET_TEXT_FILE := $(dir $(RECOVERY_INSTALLING_TEXT_FILE))/factory_data_reset_text.png RECOVERY_TRY_AGAIN_TEXT_FILE := $(dir $(RECOVERY_INSTALLING_TEXT_FILE))/try_again_text.png RECOVERY_WIPE_DATA_CONFIRMATION_TEXT_FILE := $(dir $(RECOVERY_INSTALLING_TEXT_FILE))/wipe_data_confirmation_text.png RECOVERY_WIPE_DATA_MENU_HEADER_TEXT_FILE := $(dir $(RECOVERY_INSTALLING_TEXT_FILE))/wipe_data_menu_header_text.png generated_recovery_text_files := \ $(RECOVERY_INSTALLING_TEXT_FILE) \ $(RECOVERY_INSTALLING_SECURITY_TEXT_FILE) \ $(RECOVERY_ERASING_TEXT_FILE) \ $(RECOVERY_ERROR_TEXT_FILE) \ $(RECOVERY_NO_COMMAND_TEXT_FILE) \ $(RECOVERY_CANCEL_WIPE_DATA_TEXT_FILE) \ $(RECOVERY_FACTORY_DATA_RESET_TEXT_FILE) \ $(RECOVERY_TRY_AGAIN_TEXT_FILE) \ $(RECOVERY_WIPE_DATA_CONFIRMATION_TEXT_FILE) \ $(RECOVERY_WIPE_DATA_MENU_HEADER_TEXT_FILE) resource_dir := bootable/recovery/tools/recovery_l10n/res/ resource_dir_deps := $(sort $(shell find $(resource_dir) -name *.xml -not -name .*)) image_generator_jar := $(HOST_OUT_JAVA_LIBRARIES)/RecoveryImageGenerator.jar zopflipng := $(HOST_OUT_EXECUTABLES)/zopflipng $(RECOVERY_INSTALLING_TEXT_FILE): PRIVATE_SOURCE_FONTS := $(recovery_noto-fonts_dep) $(recovery_roboto-fonts_dep) $(RECOVERY_INSTALLING_TEXT_FILE): PRIVATE_RECOVERY_FONT_FILES_DIR := $(call intermediates-dir-for,ETC,recovery_font_files) $(RECOVERY_INSTALLING_TEXT_FILE): PRIVATE_RESOURCE_DIR := $(resource_dir) $(RECOVERY_INSTALLING_TEXT_FILE): PRIVATE_IMAGE_GENERATOR_JAR := $(image_generator_jar) $(RECOVERY_INSTALLING_TEXT_FILE): PRIVATE_ZOPFLIPNG := $(zopflipng) $(RECOVERY_INSTALLING_TEXT_FILE): PRIVATE_RECOVERY_IMAGE_WIDTH := $(recovery_image_width) $(RECOVERY_INSTALLING_TEXT_FILE): PRIVATE_RECOVERY_BACKGROUND_TEXT_LIST := \ recovery_installing \ recovery_installing_security \ recovery_erasing \ recovery_error \ recovery_no_command $(RECOVERY_INSTALLING_TEXT_FILE): PRIVATE_RECOVERY_WIPE_DATA_TEXT_LIST := \ recovery_cancel_wipe_data \ recovery_factory_data_reset \ recovery_try_again \ recovery_wipe_data_menu_header \ recovery_wipe_data_confirmation $(RECOVERY_INSTALLING_TEXT_FILE): .KATI_IMPLICIT_OUTPUTS := $(filter-out $(RECOVERY_INSTALLING_TEXT_FILE),$(generated_recovery_text_files)) $(RECOVERY_INSTALLING_TEXT_FILE): $(image_generator_jar) $(resource_dir_deps) $(recovery_noto-fonts_dep) $(recovery_roboto-fonts_dep) $(zopflipng) # Prepares the font directory. @rm -rf $(PRIVATE_RECOVERY_FONT_FILES_DIR) @mkdir -p $(PRIVATE_RECOVERY_FONT_FILES_DIR) $(foreach filename,$(PRIVATE_SOURCE_FONTS), cp $(filename) $(PRIVATE_RECOVERY_FONT_FILES_DIR) &&) true @rm -rf $(dir $@) @mkdir -p $(dir $@) $(foreach text_name,$(PRIVATE_RECOVERY_BACKGROUND_TEXT_LIST) $(PRIVATE_RECOVERY_WIPE_DATA_TEXT_LIST), \ $(eval output_file := $(dir $@)/$(patsubst recovery_%,%_text.png,$(text_name))) \ $(eval center_alignment := $(if $(filter $(text_name),$(PRIVATE_RECOVERY_BACKGROUND_TEXT_LIST)), --center_alignment)) \ java -jar $(PRIVATE_IMAGE_GENERATOR_JAR) \ --image_width $(PRIVATE_RECOVERY_IMAGE_WIDTH) \ --text_name $(text_name) \ --font_dir $(PRIVATE_RECOVERY_FONT_FILES_DIR) \ --resource_dir $(PRIVATE_RESOURCE_DIR) \ --output_file $(output_file) $(center_alignment) && \ $(PRIVATE_ZOPFLIPNG) -y --iterations=1 --filters=0 $(output_file) $(output_file) > /dev/null &&) true else RECOVERY_INSTALLING_TEXT_FILE := RECOVERY_INSTALLING_SECURITY_TEXT_FILE := RECOVERY_ERASING_TEXT_FILE := RECOVERY_ERROR_TEXT_FILE := RECOVERY_NO_COMMAND_TEXT_FILE := RECOVERY_CANCEL_WIPE_DATA_TEXT_FILE := RECOVERY_FACTORY_DATA_RESET_TEXT_FILE := RECOVERY_TRY_AGAIN_TEXT_FILE := RECOVERY_WIPE_DATA_CONFIRMATION_TEXT_FILE := RECOVERY_WIPE_DATA_MENU_HEADER_TEXT_FILE := endif # TARGET_RECOVERY_UI_SCREEN_WIDTH ifndef TARGET_PRIVATE_RES_DIRS TARGET_PRIVATE_RES_DIRS := $(wildcard $(TARGET_DEVICE_DIR)/recovery/res) endif recovery_resource_deps := $(shell find $(recovery_resources_common) \ $(TARGET_PRIVATE_RES_DIRS) -type f) recovery_resource_deps += $(generated_recovery_text_files) ifdef TARGET_RECOVERY_FSTAB recovery_fstab := $(TARGET_RECOVERY_FSTAB) else recovery_fstab := $(strip $(wildcard $(TARGET_DEVICE_DIR)/recovery.fstab)) endif ifdef TARGET_RECOVERY_WIPE recovery_wipe := $(TARGET_RECOVERY_WIPE) else recovery_wipe := endif # Traditionally with non-A/B OTA we have: # boot.img + recovery-from-boot.p + recovery-resource.dat = recovery.img. # recovery-resource.dat is needed only if we carry an imgdiff patch of the boot and recovery images # and invoke install-recovery.sh on the first boot post an OTA update. # # We no longer need that if one of the following conditions holds: # a) We carry a full copy of the recovery image - no patching needed # (BOARD_USES_FULL_RECOVERY_IMAGE = true); # b) We build a single image that contains boot and recovery both - no recovery image to install # (BOARD_USES_RECOVERY_AS_BOOT = true); # c) We mount the system image as / and therefore do not have a ramdisk in boot.img # (BOARD_BUILD_SYSTEM_ROOT_IMAGE = true). # d) We include the recovery DTBO image within recovery - not needing the resource file as we # do bsdiff because boot and recovery will contain different number of entries # (BOARD_INCLUDE_RECOVERY_DTBO = true). # e) We include the recovery ACPIO image within recovery - not needing the resource file as we # do bsdiff because boot and recovery will contain different number of entries # (BOARD_INCLUDE_RECOVERY_ACPIO = true). # f) We build a single image that contains vendor_boot and recovery both - no recovery image to # install # (BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT = true). ifeq (,$(filter true, $(BOARD_USES_FULL_RECOVERY_IMAGE) $(BOARD_USES_RECOVERY_AS_BOOT) \ $(BOARD_BUILD_SYSTEM_ROOT_IMAGE) $(BOARD_INCLUDE_RECOVERY_DTBO) $(BOARD_INCLUDE_RECOVERY_ACPIO) \ $(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT))) # Named '.dat' so we don't attempt to use imgdiff for patching it. RECOVERY_RESOURCE_ZIP := $(TARGET_OUT_VENDOR)/etc/recovery-resource.dat ALL_DEFAULT_INSTALLED_MODULES += $(RECOVERY_RESOURCE_ZIP) else RECOVERY_RESOURCE_ZIP := endif INSTALLED_RECOVERY_BUILD_PROP_TARGET := $(TARGET_RECOVERY_ROOT_OUT)/prop.default $(INSTALLED_RECOVERY_BUILD_PROP_TARGET): PRIVATE_RECOVERY_UI_PROPERTIES := \ TARGET_RECOVERY_UI_ANIMATION_FPS:animation_fps \ TARGET_RECOVERY_UI_MARGIN_HEIGHT:margin_height \ TARGET_RECOVERY_UI_MARGIN_WIDTH:margin_width \ TARGET_RECOVERY_UI_MENU_UNUSABLE_ROWS:menu_unusable_rows \ TARGET_RECOVERY_UI_PROGRESS_BAR_BASELINE:progress_bar_baseline \ TARGET_RECOVERY_UI_TOUCH_LOW_THRESHOLD:touch_low_threshold \ TARGET_RECOVERY_UI_TOUCH_HIGH_THRESHOLD:touch_high_threshold \ TARGET_RECOVERY_UI_VR_STEREO_OFFSET:vr_stereo_offset # Parses the given list of build variables and writes their values as build properties if defined. # For example, if a target defines `TARGET_RECOVERY_UI_MARGIN_HEIGHT := 100`, # `ro.recovery.ui.margin_height=100` will be appended to the given output file. # $(1): Map from the build variable names to property names # $(2): Output file define append-recovery-ui-properties echo "#" >> $(2) echo "# RECOVERY UI BUILD PROPERTIES" >> $(2) echo "#" >> $(2) $(foreach prop,$(1), \ $(eval _varname := $(call word-colon,1,$(prop))) \ $(eval _propname := $(call word-colon,2,$(prop))) \ $(eval _value := $($(_varname))) \ $(if $(_value), \ echo ro.recovery.ui.$(_propname)=$(_value) >> $(2) &&)) true endef $(INSTALLED_RECOVERY_BUILD_PROP_TARGET): \ $(INSTALLED_BUILD_PROP_TARGET) \ $(INSTALLED_VENDOR_BUILD_PROP_TARGET) \ $(INSTALLED_ODM_BUILD_PROP_TARGET) \ $(INSTALLED_PRODUCT_BUILD_PROP_TARGET) \ $(INSTALLED_SYSTEM_EXT_BUILD_PROP_TARGET) @echo "Target recovery buildinfo: $@" $(hide) mkdir -p $(dir $@) $(hide) rm -f $@ $(hide) cat $(INSTALLED_BUILD_PROP_TARGET) >> $@ $(hide) cat $(INSTALLED_VENDOR_BUILD_PROP_TARGET) >> $@ $(hide) cat $(INSTALLED_ODM_BUILD_PROP_TARGET) >> $@ $(hide) cat $(INSTALLED_PRODUCT_BUILD_PROP_TARGET) >> $@ $(hide) cat $(INSTALLED_SYSTEM_EXT_BUILD_PROP_TARGET) >> $@ $(call append-recovery-ui-properties,$(PRIVATE_RECOVERY_UI_PROPERTIES),$@) # Only install boot/etc/build.prop to recovery image on recovery_as_boot. # On device with dedicated recovery partition, the file should come from the boot # ramdisk. ifeq (true,$(BOARD_USES_RECOVERY_AS_BOOT)) INSTALLED_RECOVERY_RAMDISK_BUILD_PROP_TARGET := $(TARGET_RECOVERY_ROOT_OUT)/$(RAMDISK_BUILD_PROP_REL_PATH) $(INSTALLED_RECOVERY_RAMDISK_BUILD_PROP_TARGET): $(INSTALLED_RAMDISK_BUILD_PROP_TARGET) $(copy-file-to-target) endif INTERNAL_RECOVERYIMAGE_ARGS := --ramdisk $(recovery_ramdisk) ifneq (truetrue,$(strip $(BUILDING_VENDOR_BOOT_IMAGE))$(strip $(BOARD_USES_RECOVERY_AS_BOOT))) INTERNAL_RECOVERYIMAGE_ARGS += $(addprefix --second ,$(INSTALLED_2NDBOOTLOADER_TARGET)) # Assumes this has already been stripped ifneq (true,$(BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE)) ifdef INTERNAL_KERNEL_CMDLINE INTERNAL_RECOVERYIMAGE_ARGS += --cmdline "$(INTERNAL_KERNEL_CMDLINE)" endif # INTERNAL_KERNEL_CMDLINE != "" endif # BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE != true ifdef BOARD_KERNEL_BASE INTERNAL_RECOVERYIMAGE_ARGS += --base $(BOARD_KERNEL_BASE) endif ifdef BOARD_KERNEL_PAGESIZE INTERNAL_RECOVERYIMAGE_ARGS += --pagesize $(BOARD_KERNEL_PAGESIZE) endif ifdef BOARD_INCLUDE_RECOVERY_DTBO ifdef BOARD_PREBUILT_RECOVERY_DTBOIMAGE INTERNAL_RECOVERYIMAGE_ARGS += --recovery_dtbo $(BOARD_PREBUILT_RECOVERY_DTBOIMAGE) else INTERNAL_RECOVERYIMAGE_ARGS += --recovery_dtbo $(BOARD_PREBUILT_DTBOIMAGE) endif endif # BOARD_INCLUDE_RECOVERY_DTBO ifdef BOARD_INCLUDE_RECOVERY_ACPIO INTERNAL_RECOVERYIMAGE_ARGS += --recovery_acpio $(BOARD_RECOVERY_ACPIO) endif ifdef BOARD_INCLUDE_DTB_IN_BOOTIMG INTERNAL_RECOVERYIMAGE_ARGS += --dtb $(INSTALLED_DTBIMAGE_TARGET) endif endif # (BUILDING_VENDOR_BOOT_IMAGE and BOARD_USES_RECOVERY_AS_BOOT) ifndef BOARD_RECOVERY_MKBOOTIMG_ARGS BOARD_RECOVERY_MKBOOTIMG_ARGS := $(BOARD_MKBOOTIMG_ARGS) endif $(INTERNAL_RECOVERY_RAMDISK_FILES_TIMESTAMP): $(MKBOOTFS) $(COMPRESSION_COMMAND_DEPS) \ $(INTERNAL_ROOT_FILES) \ $(INSTALLED_RAMDISK_TARGET) \ $(INTERNAL_RECOVERYIMAGE_FILES) \ $(recovery_sepolicy) \ $(INSTALLED_2NDBOOTLOADER_TARGET) \ $(INSTALLED_RECOVERY_BUILD_PROP_TARGET) \ $(INSTALLED_RECOVERY_RAMDISK_BUILD_PROP_TARGET) \ $(recovery_resource_deps) \ $(recovery_fstab) # Making recovery image mkdir -p $(TARGET_RECOVERY_OUT) mkdir -p $(TARGET_RECOVERY_ROOT_OUT)/sdcard $(TARGET_RECOVERY_ROOT_OUT)/tmp # Copying baseline ramdisk... # Use rsync because "cp -Rf" fails to overwrite broken symlinks on Mac. rsync -a --exclude=sdcard $(IGNORE_RECOVERY_SEPOLICY) $(IGNORE_CACHE_LINK) $(TARGET_ROOT_OUT) $(TARGET_RECOVERY_OUT) # Modifying ramdisk contents... $(if $(filter true,$(BOARD_BUILD_SYSTEM_ROOT_IMAGE)),, \ ln -sf /system/bin/init $(TARGET_RECOVERY_ROOT_OUT)/init) # Removes $(TARGET_RECOVERY_ROOT_OUT)/init*.rc EXCEPT init.recovery*.rc. find $(TARGET_RECOVERY_ROOT_OUT) -maxdepth 1 -name 'init*.rc' -type f -not -name "init.recovery.*.rc" | xargs rm -f cp $(TARGET_ROOT_OUT)/init.recovery.*.rc $(TARGET_RECOVERY_ROOT_OUT)/ 2> /dev/null || true # Ignore error when the src file doesn't exist. mkdir -p $(TARGET_RECOVERY_ROOT_OUT)/res rm -rf $(TARGET_RECOVERY_ROOT_OUT)/res/* cp -rf $(recovery_resources_common)/* $(TARGET_RECOVERY_ROOT_OUT)/res $(foreach recovery_text_file,$(generated_recovery_text_files), \ cp -rf $(recovery_text_file) $(TARGET_RECOVERY_ROOT_OUT)/res/images/ &&) true cp -f $(recovery_font) $(TARGET_RECOVERY_ROOT_OUT)/res/images/font.png $(foreach item,$(TARGET_PRIVATE_RES_DIRS), \ cp -rf $(item) $(TARGET_RECOVERY_ROOT_OUT)/$(newline)) $(foreach item,$(recovery_fstab), \ cp -f $(item) $(TARGET_RECOVERY_ROOT_OUT)/system/etc/recovery.fstab) $(if $(strip $(recovery_wipe)), \ cp -f $(recovery_wipe) $(TARGET_RECOVERY_ROOT_OUT)/system/etc/recovery.wipe) ln -sf prop.default $(TARGET_RECOVERY_ROOT_OUT)/default.prop $(BOARD_RECOVERY_IMAGE_PREPARE) $(hide) touch $@ $(recovery_ramdisk): $(INTERNAL_RECOVERY_RAMDISK_FILES_TIMESTAMP) $(MKBOOTFS) -d $(TARGET_OUT) $(TARGET_RECOVERY_ROOT_OUT) | $(COMPRESSION_COMMAND) > $(recovery_ramdisk) # $(1): output file # $(2): optional kernel file define build-recoveryimage-target $(if $(filter true,$(PRODUCT_SUPPORTS_VBOOT)), \ $(MKBOOTIMG) $(if $(strip $(2)),--kernel $(strip $(2))) $(INTERNAL_RECOVERYIMAGE_ARGS) \ $(INTERNAL_MKBOOTIMG_VERSION_ARGS) $(BOARD_RECOVERY_MKBOOTIMG_ARGS) \ --output $(1).unsigned, \ $(MKBOOTIMG) $(if $(strip $(2)),--kernel $(strip $(2))) $(INTERNAL_RECOVERYIMAGE_ARGS) \ $(INTERNAL_MKBOOTIMG_VERSION_ARGS) $(INTERNAL_MKBOOTIMG_GKI_SINGING_ARGS) \ $(BOARD_RECOVERY_MKBOOTIMG_ARGS) --output $(1)) $(if $(filter true,$(PRODUCT_SUPPORTS_BOOT_SIGNER)),\ $(if $(filter true,$(BOARD_USES_RECOVERY_AS_BOOT)),\ $(BOOT_SIGNER) /boot $(1) $(PRODUCT_VERITY_SIGNING_KEY).pk8 $(PRODUCT_VERITY_SIGNING_KEY).x509.pem $(1),\ $(BOOT_SIGNER) /recovery $(1) $(PRODUCT_VERITY_SIGNING_KEY).pk8 $(PRODUCT_VERITY_SIGNING_KEY).x509.pem $(1)\ )\ ) $(if $(filter true,$(PRODUCT_SUPPORTS_VBOOT)), \ $(VBOOT_SIGNER) $(FUTILITY) $(1).unsigned $(PRODUCT_VBOOT_SIGNING_KEY).vbpubk $(PRODUCT_VBOOT_SIGNING_KEY).vbprivk $(PRODUCT_VBOOT_SIGNING_SUBKEY).vbprivk $(1).keyblock $(1)) $(if $(filter true,$(BOARD_USES_RECOVERY_AS_BOOT)), \ $(call assert-max-image-size,$(1),$(call get-hash-image-max-size,$(call get-bootimage-partition-size,$(1),boot))), \ $(call assert-max-image-size,$(1),$(call get-hash-image-max-size,$(BOARD_RECOVERYIMAGE_PARTITION_SIZE)))) $(if $(filter true,$(BOARD_AVB_ENABLE)), \ $(if $(filter true,$(BOARD_USES_RECOVERY_AS_BOOT)), \ $(AVBTOOL) add_hash_footer --image $(1) --partition_size $(call get-bootimage-partition-size,$(1),boot) --partition_name boot $(INTERNAL_AVB_BOOT_SIGNING_ARGS) $(BOARD_AVB_BOOT_ADD_HASH_FOOTER_ARGS),\ $(AVBTOOL) add_hash_footer --image $(1) --partition_size $(BOARD_RECOVERYIMAGE_PARTITION_SIZE) --partition_name recovery $(INTERNAL_AVB_RECOVERY_SIGNING_ARGS) $(BOARD_AVB_RECOVERY_ADD_HASH_FOOTER_ARGS))) endef recoveryimage-deps := $(MKBOOTIMG) $(recovery_ramdisk) $(recovery_kernel) ifeq (true,$(PRODUCT_SUPPORTS_BOOT_SIGNER)) recoveryimage-deps += $(BOOT_SIGNER) endif ifeq (true,$(PRODUCT_SUPPORTS_VBOOT)) recoveryimage-deps += $(VBOOT_SIGNER) endif ifeq (true,$(BOARD_AVB_ENABLE)) recoveryimage-deps += $(AVBTOOL) $(BOARD_AVB_BOOT_KEY_PATH) endif ifdef BOARD_GKI_SIGNING_KEY_PATH recoveryimage-deps += $(BOARD_GKI_SIGNING_KEY_PATH) $(AVBTOOL) endif ifdef BOARD_INCLUDE_RECOVERY_DTBO ifdef BOARD_PREBUILT_RECOVERY_DTBOIMAGE recoveryimage-deps += $(BOARD_PREBUILT_RECOVERY_DTBOIMAGE) else recoveryimage-deps += $(BOARD_PREBUILT_DTBOIMAGE) endif endif ifdef BOARD_INCLUDE_RECOVERY_ACPIO recoveryimage-deps += $(BOARD_RECOVERY_ACPIO) endif ifdef BOARD_INCLUDE_DTB_IN_BOOTIMG recoveryimage-deps += $(INSTALLED_DTBIMAGE_TARGET) endif ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) $(foreach b,$(INSTALLED_BOOTIMAGE_TARGET), $(eval $(call add-dependency,$(b),$(call bootimage-to-kernel,$(b))))) $(INSTALLED_BOOTIMAGE_TARGET): $(recoveryimage-deps) $(call pretty,"Target boot image from recovery: $@") $(call build-recoveryimage-target, $@, $(PRODUCT_OUT)/$(subst .img,,$(subst boot,kernel,$(notdir $@)))) endif # BOARD_USES_RECOVERY_AS_BOOT $(INSTALLED_RECOVERYIMAGE_TARGET): $(recoveryimage-deps) $(call build-recoveryimage-target, $@, \ $(if $(filter true, $(BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE)),, $(recovery_kernel))) ifdef RECOVERY_RESOURCE_ZIP $(RECOVERY_RESOURCE_ZIP): $(INSTALLED_RECOVERYIMAGE_TARGET) | $(ZIPTIME) $(hide) mkdir -p $(dir $@) $(hide) find $(TARGET_RECOVERY_ROOT_OUT)/res -type f | sort | zip -0qrjX $@ -@ $(remove-timestamps-from-package) endif .PHONY: recoveryimage-nodeps recoveryimage-nodeps: @echo "make $@: ignoring dependencies" $(call build-recoveryimage-target, $(INSTALLED_RECOVERYIMAGE_TARGET), \ $(if $(filter true, $(BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE)),, $(recovery_kernel))) else # BUILDING_RECOVERY_IMAGE RECOVERY_RESOURCE_ZIP := endif # BUILDING_RECOVERY_IMAGE .PHONY: recoveryimage recoveryimage: $(INSTALLED_RECOVERYIMAGE_TARGET) $(RECOVERY_RESOURCE_ZIP) ifneq ($(BOARD_NAND_PAGE_SIZE),) $(error MTD device is no longer supported and thus BOARD_NAND_PAGE_SIZE is deprecated.) endif ifneq ($(BOARD_NAND_SPARE_SIZE),) $(error MTD device is no longer supported and thus BOARD_NAND_SPARE_SIZE is deprecated.) endif ifneq ($(BOARD_BUILD_SYSTEM_ROOT_IMAGE),true) # ----------------------------------------------------------------- # the debug ramdisk, which is the original ramdisk plus additional # files: force_debuggable, adb_debug.prop and userdebug sepolicy. # When /force_debuggable is present, /init will load userdebug sepolicy # and property files to allow adb root, if the device is unlocked. ifdef BUILDING_RAMDISK_IMAGE BUILT_DEBUG_RAMDISK_TARGET := $(PRODUCT_OUT)/ramdisk-debug.img INSTALLED_DEBUG_RAMDISK_TARGET := $(BUILT_DEBUG_RAMDISK_TARGET) INTERNAL_DEBUG_RAMDISK_FILES := $(filter $(TARGET_DEBUG_RAMDISK_OUT)/%, \ $(ALL_GENERATED_SOURCES) \ $(ALL_DEFAULT_INSTALLED_MODULES)) INSTALLED_FILES_FILE_DEBUG_RAMDISK := $(PRODUCT_OUT)/installed-files-ramdisk-debug.txt INSTALLED_FILES_JSON_DEBUG_RAMDISK := $(INSTALLED_FILES_FILE_DEBUG_RAMDISK:.txt=.json) $(INSTALLED_FILES_FILE_DEBUG_RAMDISK): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_DEBUG_RAMDISK) # ramdisk-debug.img will merge the content from either ramdisk.img or # ramdisk-recovery.img, depending on whether BOARD_USES_RECOVERY_AS_BOOT # is set or not. ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) $(INSTALLED_FILES_FILE_DEBUG_RAMDISK): PRIVATE_ADDITIONAL_DIR := $(TARGET_RECOVERY_ROOT_OUT) $(INSTALLED_FILES_FILE_DEBUG_RAMDISK): $(recovery_ramdisk) else $(INSTALLED_FILES_FILE_DEBUG_RAMDISK): PRIVATE_ADDITIONAL_DIR := $(TARGET_RAMDISK_OUT) $(INSTALLED_FILES_FILE_DEBUG_RAMDISK): $(INSTALLED_RAMDISK_TARGET) endif # BOARD_USES_RECOVERY_AS_BOOT $(INSTALLED_FILES_FILE_DEBUG_RAMDISK) : $(INTERNAL_DEBUG_RAMDISK_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_DEBUG_RAMDISK_OUT) $(PRIVATE_ADDITIONAL_DIR) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) $(INSTALLED_DEBUG_RAMDISK_TARGET): PRIVATE_ADDITIONAL_DIR := $(TARGET_RECOVERY_ROOT_OUT) $(INSTALLED_DEBUG_RAMDISK_TARGET): $(recovery_ramdisk) else $(INSTALLED_DEBUG_RAMDISK_TARGET): PRIVATE_ADDITIONAL_DIR := $(TARGET_RAMDISK_OUT) $(INSTALLED_DEBUG_RAMDISK_TARGET): $(INSTALLED_RAMDISK_TARGET) endif # BOARD_USES_RECOVERY_AS_BOOT $(INSTALLED_DEBUG_RAMDISK_TARGET): $(INSTALLED_FILES_FILE_DEBUG_RAMDISK) $(INSTALLED_DEBUG_RAMDISK_TARGET): $(MKBOOTFS) $(INTERNAL_DEBUG_RAMDISK_FILES) | $(COMPRESSION_COMMAND_DEPS) $(call pretty,"Target debug ramdisk: $@") mkdir -p $(TARGET_DEBUG_RAMDISK_OUT) touch $(TARGET_DEBUG_RAMDISK_OUT)/force_debuggable $(MKBOOTFS) -d $(TARGET_OUT) $(TARGET_DEBUG_RAMDISK_OUT) $(PRIVATE_ADDITIONAL_DIR) | $(COMPRESSION_COMMAND) > $@ .PHONY: ramdisk_debug-nodeps ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) ramdisk_debug-nodeps: PRIVATE_ADDITIONAL_DIR := $(TARGET_RECOVERY_ROOT_OUT) else ramdisk_debug-nodeps: PRIVATE_ADDITIONAL_DIR := $(TARGET_RAMDISK_OUT) endif # BOARD_USES_RECOVERY_AS_BOOT ramdisk_debug-nodeps: $(MKBOOTFS) | $(COMPRESSION_COMMAND_DEPS) echo "make $@: ignoring dependencies" mkdir -p $(TARGET_DEBUG_RAMDISK_OUT) touch $(TARGET_DEBUG_RAMDISK_OUT)/force_debuggable $(MKBOOTFS) -d $(TARGET_OUT) $(TARGET_DEBUG_RAMDISK_OUT) $(PRIVATE_ADDITIONAL_DIR) | $(COMPRESSION_COMMAND) > $(INSTALLED_DEBUG_RAMDISK_TARGET) endif # BUILDING_RAMDISK_IMAGE # ----------------------------------------------------------------- # the boot-debug.img, which is the kernel plus ramdisk-debug.img # # Note: it's intentional to skip signing for boot-debug.img, because it # can only be used if the device is unlocked with verification error. ifneq ($(INSTALLED_BOOTIMAGE_TARGET),) ifneq ($(strip $(TARGET_NO_KERNEL)),true) ifneq ($(strip $(BOARD_KERNEL_BINARIES)),) INSTALLED_DEBUG_BOOTIMAGE_TARGET := $(foreach k,$(subst kernel,boot-debug,$(BOARD_KERNEL_BINARIES)), \ $(PRODUCT_OUT)/$(k).img) else INSTALLED_DEBUG_BOOTIMAGE_TARGET := $(PRODUCT_OUT)/boot-debug.img endif # Replace ramdisk.img in $(MKBOOTIMG) ARGS with ramdisk-debug.img to build boot-debug.img ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) INTERNAL_DEBUG_BOOTIMAGE_ARGS := $(subst $(recovery_ramdisk),$(INSTALLED_DEBUG_RAMDISK_TARGET), $(INTERNAL_RECOVERYIMAGE_ARGS)) else INTERNAL_DEBUG_BOOTIMAGE_ARGS := $(subst $(INSTALLED_RAMDISK_TARGET),$(INSTALLED_DEBUG_RAMDISK_TARGET), $(INTERNAL_BOOTIMAGE_ARGS)) endif # If boot.img is chained but boot-debug.img is not signed, libavb in bootloader # will fail to find valid AVB metadata from the end of /boot, thus stop booting. # Using a test key to sign boot-debug.img to continue booting with the mismatched # public key, if the device is unlocked. ifneq ($(BOARD_AVB_BOOT_KEY_PATH),) $(INSTALLED_DEBUG_BOOTIMAGE_TARGET): $(AVBTOOL) $(BOARD_AVB_BOOT_TEST_KEY_PATH) endif BOARD_AVB_BOOT_TEST_KEY_PATH := external/avb/test/data/testkey_rsa2048.pem INTERNAL_AVB_BOOT_TEST_SIGNING_ARGS := --algorithm SHA256_RSA2048 --key $(BOARD_AVB_BOOT_TEST_KEY_PATH) # $(1): the bootimage to sign # $(2): boot image variant (boot, boot-debug, boot-test-harness) define test-key-sign-bootimage $(call assert-max-image-size,$(1),$(call get-hash-image-max-size,$(call get-bootimage-partition-size,$(1),$(2)))) $(AVBTOOL) add_hash_footer \ --image $(1) \ --partition_size $(call get-bootimage-partition-size,$(1),$(2))\ --partition_name boot $(INTERNAL_AVB_BOOT_TEST_SIGNING_ARGS) \ $(BOARD_AVB_BOOT_ADD_HASH_FOOTER_ARGS) $(call assert-max-image-size,$(1),$(call get-bootimage-partition-size,$(1),$(2))) endef # $(1): output file define build-debug-bootimage-target $(MKBOOTIMG) --kernel $(PRODUCT_OUT)/$(subst .img,,$(subst boot-debug,kernel,$(notdir $(1)))) \ $(INTERNAL_DEBUG_BOOTIMAGE_ARGS) $(INTERNAL_MKBOOTIMG_VERSION_ARGS) \ $(INTERNAL_MKBOOTIMG_GKI_SINGING_ARGS) $(BOARD_MKBOOTIMG_ARGS) --output $1 $(if $(BOARD_AVB_BOOT_KEY_PATH),$(call test-key-sign-bootimage,$1,boot-debug)) endef # Depends on original boot.img and ramdisk-debug.img, to build the new boot-debug.img $(INSTALLED_DEBUG_BOOTIMAGE_TARGET): $(MKBOOTIMG) $(INSTALLED_BOOTIMAGE_TARGET) $(INSTALLED_DEBUG_RAMDISK_TARGET) $(BOARD_GKI_SIGNING_KEY_PATH) $(AVBTOOL) $(call pretty,"Target boot debug image: $@") $(call build-debug-bootimage-target, $@) .PHONY: bootimage_debug-nodeps bootimage_debug-nodeps: $(MKBOOTIMG) $(BOARD_GKI_SIGNING_KEY_PATH) $(AVBTOOL) echo "make $@: ignoring dependencies" $(foreach b,$(INSTALLED_DEBUG_BOOTIMAGE_TARGET),$(call build-debug-bootimage-target,$b)) endif # TARGET_NO_KERNEL endif # INSTALLED_BOOTIMAGE_TARGET ifeq ($(BUILDING_VENDOR_BOOT_IMAGE),true) ifeq ($(BUILDING_RAMDISK_IMAGE),true) # ----------------------------------------------------------------- # vendor debug ramdisk # Combines vendor ramdisk files and debug ramdisk files to build the vendor debug ramdisk. # INTERNAL_VENDOR_DEBUG_RAMDISK_FILES := $(filter $(TARGET_VENDOR_DEBUG_RAMDISK_OUT)/%, \ $(ALL_GENERATED_SOURCES) \ $(ALL_DEFAULT_INSTALLED_MODULES)) INSTALLED_FILES_FILE_VENDOR_DEBUG_RAMDISK := $(PRODUCT_OUT)/installed-files-vendor-ramdisk-debug.txt INSTALLED_FILES_JSON_VENDOR_DEBUG_RAMDISK := $(INSTALLED_FILES_FILE_VENDOR_DEBUG_RAMDISK:.txt=.json) $(INSTALLED_FILES_FILE_VENDOR_DEBUG_RAMDISK): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_VENDOR_DEBUG_RAMDISK) $(INSTALLED_FILES_FILE_VENDOR_DEBUG_RAMDISK): $(INTERNAL_VENDOR_RAMDISK_TARGET) $(INSTALLED_DEBUG_RAMDISK_TARGET) $(INSTALLED_FILES_FILE_VENDOR_DEBUG_RAMDISK): $(INTERNAL_VENDOR_DEBUG_RAMDISK_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ mkdir -p $(TARGET_VENDOR_DEBUG_RAMDISK_OUT) # The dir might not be created if no modules are installed here. $(FILESLIST) $(TARGET_VENDOR_RAMDISK_OUT) $(TARGET_DEBUG_RAMDISK_OUT) $(TARGET_VENDOR_DEBUG_RAMDISK_OUT) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ INTERNAL_VENDOR_DEBUG_RAMDISK_TARGET := $(call intermediates-dir-for,PACKAGING,vendor_boot-debug)/vendor_ramdisk-debug.cpio$(RAMDISK_EXT) # Exclude recovery files in the default vendor ramdisk if including a standalone # recovery ramdisk in vendor_boot. ifeq (true,$(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT)) ifneq (true,$(BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT)) $(INTERNAL_VENDOR_DEBUG_RAMDISK_TARGET): $(INTERNAL_RECOVERY_RAMDISK_FILES_TIMESTAMP) $(INTERNAL_VENDOR_DEBUG_RAMDISK_TARGET): PRIVATE_ADDITIONAL_DIR := $(TARGET_RECOVERY_ROOT_OUT) endif endif # The vendor debug ramdisk combines vendor ramdisk and debug ramdisk. $(INTERNAL_VENDOR_DEBUG_RAMDISK_TARGET): $(INTERNAL_VENDOR_RAMDISK_TARGET) $(INSTALLED_DEBUG_RAMDISK_TARGET) $(INTERNAL_VENDOR_DEBUG_RAMDISK_TARGET): $(INSTALLED_FILES_FILE_VENDOR_DEBUG_RAMDISK) $(INTERNAL_VENDOR_DEBUG_RAMDISK_TARGET): $(MKBOOTFS) $(INTERNAL_VENDOR_DEBUG_RAMDISK_FILES) | $(COMPRESSION_COMMAND_DEPS) mkdir -p $(TARGET_VENDOR_DEBUG_RAMDISK_OUT) $(MKBOOTFS) -d $(TARGET_OUT) $(TARGET_VENDOR_RAMDISK_OUT) $(TARGET_DEBUG_RAMDISK_OUT) $(TARGET_VENDOR_DEBUG_RAMDISK_OUT) $(PRIVATE_ADDITIONAL_DIR) | $(COMPRESSION_COMMAND) > $@ ifeq (true,$(BOARD_BUILD_VENDOR_RAMDISK_IMAGE)) INSTALLED_VENDOR_DEBUG_RAMDISK_TARGET := $(PRODUCT_OUT)/vendor_ramdisk-debug.img $(INSTALLED_VENDOR_DEBUG_RAMDISK_TARGET): $(INTERNAL_VENDOR_DEBUG_RAMDISK_TARGET) $(call pretty,"Target vendor debug ramdisk: $@") $(copy-file-to-target) endif # ----------------------------------------------------------------- # vendor_boot-debug.img. INSTALLED_VENDOR_DEBUG_BOOTIMAGE_TARGET := $(PRODUCT_OUT)/vendor_boot-debug.img # The util to sign vendor_boot-debug.img with a test key. BOARD_AVB_VENDOR_BOOT_TEST_KEY_PATH := external/avb/test/data/testkey_rsa2048.pem INTERNAL_AVB_VENDOR_BOOT_TEST_SIGNING_ARGS := --algorithm SHA256_RSA2048 --key $(BOARD_AVB_VENDOR_BOOT_TEST_KEY_PATH) # $(1): the vendor bootimage to sign define test-key-sign-vendor-bootimage $(call assert-max-image-size,$(1),$(call get-hash-image-max-size,$(BOARD_VENDOR_BOOTIMAGE_PARTITION_SIZE))) $(AVBTOOL) add_hash_footer \ --image $(1) \ --partition_size $(BOARD_VENDOR_BOOTIMAGE_PARTITION_SIZE) \ --partition_name vendor_boot $(INTERNAL_AVB_VENDOR_BOOT_TEST_SIGNING_ARGS) \ $(BOARD_AVB_VENDOR_BOOT_ADD_HASH_FOOTER_ARGS) $(call assert-max-image-size,$(1),$(BOARD_VENDOR_BOOTIMAGE_PARTITION_SIZE)) endef ifneq ($(BOARD_AVB_VENDOR_BOOT_KEY_PATH),) $(INSTALLED_VENDOR_DEBUG_BOOTIMAGE_TARGET): $(AVBTOOL) $(BOARD_AVB_VENDOR_BOOT_TEST_KEY_PATH) endif # Depends on vendor_boot.img and vendor-ramdisk-debug.cpio.gz to build the new vendor_boot-debug.img $(INSTALLED_VENDOR_DEBUG_BOOTIMAGE_TARGET): $(MKBOOTIMG) $(INSTALLED_VENDOR_BOOTIMAGE_TARGET) $(INTERNAL_VENDOR_DEBUG_RAMDISK_TARGET) $(INSTALLED_VENDOR_DEBUG_BOOTIMAGE_TARGET): $(INTERNAL_VENDOR_RAMDISK_FRAGMENT_TARGETS) $(call pretty,"Target vendor_boot debug image: $@") $(MKBOOTIMG) $(INTERNAL_VENDOR_BOOTIMAGE_ARGS) $(BOARD_MKBOOTIMG_ARGS) --vendor_ramdisk $(INTERNAL_VENDOR_DEBUG_RAMDISK_TARGET) $(INTERNAL_VENDOR_RAMDISK_FRAGMENT_ARGS) --vendor_boot $@ $(call assert-max-image-size,$@,$(BOARD_VENDOR_BOOTIMAGE_PARTITION_SIZE)) $(if $(BOARD_AVB_VENDOR_BOOT_KEY_PATH),$(call test-key-sign-vendor-bootimage,$@)) endif # BUILDING_RAMDISK_IMAGE endif # BUILDING_VENDOR_BOOT_IMAGE # ----------------------------------------------------------------- # The test harness ramdisk, which is based off debug_ramdisk, plus a # few additional test-harness-specific properties in adb_debug.prop. ifdef BUILDING_RAMDISK_IMAGE BUILT_TEST_HARNESS_RAMDISK_TARGET := $(PRODUCT_OUT)/ramdisk-test-harness.img INSTALLED_TEST_HARNESS_RAMDISK_TARGET := $(BUILT_TEST_HARNESS_RAMDISK_TARGET) # Appends a few test harness specific properties into the adb_debug.prop. TEST_HARNESS_PROP_TARGET := $(TARGET_TEST_HARNESS_RAMDISK_OUT)/adb_debug.prop ADDITIONAL_TEST_HARNESS_PROPERTIES := ro.audio.silent=1 ADDITIONAL_TEST_HARNESS_PROPERTIES += ro.test_harness=1 # $(1): a list of key=value pairs for additional property assignments # $(2): the target .prop file to append the properties from $(1) define append-test-harness-props echo "#" >> $(2); \ echo "# ADDITIONAL TEST HARNESS_PROPERTIES" >> $(2); \ echo "#" >> $(2); $(foreach line,$(1), echo "$(line)" >> $(2);) endef INTERNAL_TEST_HARNESS_RAMDISK_FILES := $(filter $(TARGET_TEST_HARNESS_RAMDISK_OUT)/%, \ $(ALL_GENERATED_SOURCES) \ $(ALL_DEFAULT_INSTALLED_MODULES)) # ramdisk-test-harness.img will merge the content from either ramdisk.img or # ramdisk-recovery.img, depending on whether BOARD_USES_RECOVERY_AS_BOOT is set # or not. ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) $(INSTALLED_TEST_HARNESS_RAMDISK_TARGET): PRIVATE_ADDITIONAL_DIR := $(TARGET_RECOVERY_ROOT_OUT) $(INSTALLED_TEST_HARNESS_RAMDISK_TARGET): $(recovery_ramdisk) else $(INSTALLED_TEST_HARNESS_RAMDISK_TARGET): PRIVATE_ADDITIONAL_DIR := $(TARGET_RAMDISK_OUT) $(INSTALLED_TEST_HARNESS_RAMDISK_TARGET): $(INSTALLED_RAMDISK_TARGET) endif # BOARD_USES_RECOVERY_AS_BOOT # The test harness ramdisk will rsync the files from the debug ramdisk, then appends some props. $(INSTALLED_TEST_HARNESS_RAMDISK_TARGET): $(INSTALLED_DEBUG_RAMDISK_TARGET) $(INSTALLED_TEST_HARNESS_RAMDISK_TARGET): $(MKBOOTFS) $(INTERNAL_TEST_HARNESS_RAMDISK_FILES) | $(COMPRESSION_COMMAND_DEPS) $(call pretty,"Target test harness ramdisk: $@") rsync --chmod=u+w -a $(TARGET_DEBUG_RAMDISK_OUT)/ $(TARGET_TEST_HARNESS_RAMDISK_OUT) $(call append-test-harness-props,$(ADDITIONAL_TEST_HARNESS_PROPERTIES),$(TEST_HARNESS_PROP_TARGET)) $(MKBOOTFS) -d $(TARGET_OUT) $(TARGET_TEST_HARNESS_RAMDISK_OUT) $(PRIVATE_ADDITIONAL_DIR) | $(COMPRESSION_COMMAND) > $@ .PHONY: ramdisk_test_harness-nodeps ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) ramdisk_test_harness-nodeps: PRIVATE_ADDITIONAL_DIR := $(TARGET_RECOVERY_ROOT_OUT) else ramdisk_test_harness-nodeps: PRIVATE_ADDITIONAL_DIR := $(TARGET_RAMDISK_OUT) endif # BOARD_USES_RECOVERY_AS_BOOT ramdisk_test_harness-nodeps: $(MKBOOTFS) | $(COMPRESSION_COMMAND_DEPS) echo "make $@: ignoring dependencies" rsync --chmod=u+w -a $(TARGET_DEBUG_RAMDISK_OUT)/ $(TARGET_TEST_HARNESS_RAMDISK_OUT) $(call append-test-harness-props,$(ADDITIONAL_TEST_HARNESS_PROPERTIES),$(TEST_HARNESS_PROP_TARGET)) $(MKBOOTFS) -d $(TARGET_OUT) $(TARGET_TEST_HARNESS_RAMDISK_OUT) $(PRIVATE_ADDITIONAL_DIR) | $(COMPRESSION_COMMAND) > $(INSTALLED_TEST_HARNESS_RAMDISK_TARGET) endif # BUILDING_RAMDISK_IMAGE # ----------------------------------------------------------------- # the boot-test-harness.img, which is the kernel plus ramdisk-test-harness.img # # Note: it's intentional to skip signing for boot-test-harness.img, because it # can only be used if the device is unlocked with verification error. ifneq ($(INSTALLED_BOOTIMAGE_TARGET),) ifneq ($(strip $(TARGET_NO_KERNEL)),true) ifneq ($(strip $(BOARD_KERNEL_BINARIES)),) INSTALLED_TEST_HARNESS_BOOTIMAGE_TARGET := $(foreach k,$(subst kernel,boot-test-harness,$(BOARD_KERNEL_BINARIES)), \ $(PRODUCT_OUT)/$(k).img) else INSTALLED_TEST_HARNESS_BOOTIMAGE_TARGET := $(PRODUCT_OUT)/boot-test-harness.img endif # Replace ramdisk-debug.img in $(MKBOOTIMG) ARGS with ramdisk-test-harness.img to build boot-test-harness.img INTERNAL_TEST_HARNESS_BOOTIMAGE_ARGS := $(subst $(INSTALLED_DEBUG_RAMDISK_TARGET),$(INSTALLED_TEST_HARNESS_RAMDISK_TARGET),$(INTERNAL_DEBUG_BOOTIMAGE_ARGS)) # If boot.img is chained but boot-test-harness.img is not signed, libavb in bootloader # will fail to find valid AVB metadata from the end of /boot, thus stop booting. # Using a test key to sign boot-test-harness.img to continue booting with the mismatched # public key, if the device is unlocked. ifneq ($(BOARD_AVB_BOOT_KEY_PATH),) $(INSTALLED_TEST_HARNESS_BOOTIMAGE_TARGET): $(AVBTOOL) $(BOARD_AVB_BOOT_TEST_KEY_PATH) endif # $(1): output file define build-boot-test-harness-target $(MKBOOTIMG) --kernel $(PRODUCT_OUT)/$(subst .img,,$(subst boot-test-harness,kernel,$(notdir $(1)))) \ $(INTERNAL_TEST_HARNESS_BOOTIMAGE_ARGS) $(INTERNAL_MKBOOTIMG_VERSION_ARGS) \ $(INTERNAL_MKBOOTIMG_GKI_SINGING_ARGS) $(BOARD_MKBOOTIMG_ARGS) --output $@ $(if $(BOARD_AVB_BOOT_KEY_PATH),$(call test-key-sign-bootimage,$@,boot-test-harness)) endef # Build the new boot-test-harness.img, based on boot-debug.img and ramdisk-test-harness.img. $(INSTALLED_TEST_HARNESS_BOOTIMAGE_TARGET): $(MKBOOTIMG) $(INSTALLED_DEBUG_BOOTIMAGE_TARGET) $(INSTALLED_TEST_HARNESS_RAMDISK_TARGET) \ $(BOARD_GKI_SIGNING_KEY_PATH) $(AVBTOOL) $(call pretty,"Target boot test harness image: $@") $(call build-boot-test-harness-target,$@) .PHONY: bootimage_test_harness-nodeps bootimage_test_harness-nodeps: $(MKBOOTIMG) $(BOARD_GKI_SIGNING_KEY_PATH) $(AVBTOOL) echo "make $@: ignoring dependencies" $(foreach b,$(INSTALLED_TEST_HARNESS_BOOTIMAGE_TARGET),$(call build-boot-test-harness-target,$b)) endif # TARGET_NO_KERNEL endif # INSTALLED_BOOTIMAGE_TARGET endif # BOARD_BUILD_SYSTEM_ROOT_IMAGE is not true ifeq ($(BUILDING_VENDOR_BOOT_IMAGE),true) ifeq ($(BUILDING_RAMDISK_IMAGE),true) # ----------------------------------------------------------------- # vendor test harness ramdisk, which is a vendor ramdisk combined with # a test harness ramdisk. INTERNAL_VENDOR_TEST_HARNESS_RAMDISK_TARGET := $(call intermediates-dir-for,PACKAGING,vendor_boot-test-harness)/vendor_ramdisk-test-harness.cpio$(RAMDISK_EXT) # Exclude recovery files in the default vendor ramdisk if including a standalone # recovery ramdisk in vendor_boot. ifeq (true,$(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT)) ifneq (true,$(BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT)) $(INTERNAL_VENDOR_TEST_HARNESS_RAMDISK_TARGET): $(INTERNAL_RECOVERY_RAMDISK_FILES_TIMESTAMP) $(INTERNAL_VENDOR_TEST_HARNESS_RAMDISK_TARGET): PRIVATE_ADDITIONAL_DIR := $(TARGET_RECOVERY_ROOT_OUT) endif endif # The vendor test harness ramdisk combines vendor ramdisk and test harness ramdisk. $(INTERNAL_VENDOR_TEST_HARNESS_RAMDISK_TARGET): $(INTERNAL_VENDOR_RAMDISK_TARGET) $(INSTALLED_TEST_HARNESS_RAMDISK_TARGET) $(INTERNAL_VENDOR_TEST_HARNESS_RAMDISK_TARGET): $(MKBOOTFS) | $(COMPRESSION_COMMAND_DEPS) $(MKBOOTFS) -d $(TARGET_OUT) $(TARGET_VENDOR_RAMDISK_OUT) $(TARGET_TEST_HARNESS_RAMDISK_OUT) $(PRIVATE_ADDITIONAL_DIR) | $(COMPRESSION_COMMAND) > $@ # ----------------------------------------------------------------- # vendor_boot-test-harness.img. INSTALLED_VENDOR_TEST_HARNESS_BOOTIMAGE_TARGET := $(PRODUCT_OUT)/vendor_boot-test-harness.img ifneq ($(BOARD_AVB_VENDOR_BOOT_KEY_PATH),) $(INSTALLED_VENDOR_TEST_HARNESS_BOOTIMAGE_TARGET): $(AVBTOOL) $(BOARD_AVB_VENDOR_BOOT_TEST_KEY_PATH) endif # Depends on vendor_boot.img and vendor_ramdisk-test-harness.cpio$(RAMDISK_EXT) to build the new vendor_boot-test-harness.img $(INSTALLED_VENDOR_TEST_HARNESS_BOOTIMAGE_TARGET): $(MKBOOTIMG) $(INSTALLED_VENDOR_BOOTIMAGE_TARGET) $(INSTALLED_VENDOR_TEST_HARNESS_BOOTIMAGE_TARGET): $(INTERNAL_VENDOR_TEST_HARNESS_RAMDISK_TARGET) $(INSTALLED_VENDOR_TEST_HARNESS_BOOTIMAGE_TARGET): $(INTERNAL_VENDOR_RAMDISK_FRAGMENT_TARGETS) $(call pretty,"Target vendor_boot test harness image: $@") $(MKBOOTIMG) $(INTERNAL_VENDOR_BOOTIMAGE_ARGS) $(BOARD_MKBOOTIMG_ARGS) --vendor_ramdisk $(INTERNAL_VENDOR_TEST_HARNESS_RAMDISK_TARGET) $(INTERNAL_VENDOR_RAMDISK_FRAGMENT_ARGS) --vendor_boot $@ $(call assert-max-image-size,$@,$(BOARD_VENDOR_BOOTIMAGE_PARTITION_SIZE)) $(if $(BOARD_AVB_VENDOR_BOOT_KEY_PATH),$(call test-key-sign-vendor-bootimage,$@)) endif # BUILDING_RAMDISK_IMAGE endif # BUILDING_VENDOR_BOOT_IMAGE # Creates a compatibility symlink between two partitions, e.g. /system/vendor to /vendor # $1: from location (e.g $(TARGET_OUT)/vendor) # $2: destination location (e.g. /vendor) # $3: partition image name (e.g. vendor.img) define create-partition-compat-symlink $(eval \ $1: @echo Symlink $(patsubst $(PRODUCT_OUT)/%,%,$1) to $2 mkdir -p $(dir $1) if [ -d $1 ] && [ ! -h $1 ]; then \ echo 'Non-symlink $1 detected!' 1>&2; \ echo 'You cannot install files to $1 while building a separate $3!' 1>&2; \ exit 1; \ fi ln -sfn $2 $1 $1: .KATI_SYMLINK_OUTPUTS := $1 ) $1 endef # ----------------------------------------------------------------- # system image INTERNAL_SYSTEMIMAGE_FILES := $(sort $(filter $(TARGET_OUT)/%, \ $(ALL_GENERATED_SOURCES) \ $(ALL_DEFAULT_INSTALLED_MODULES))) # Create symlink /system/vendor to /vendor if necessary. ifdef BOARD_USES_VENDORIMAGE INTERNAL_SYSTEMIMAGE_FILES += $(call create-partition-compat-symlink,$(TARGET_OUT)/vendor,/vendor,vendor.img) endif # Create symlink /system/product to /product if necessary. ifdef BOARD_USES_PRODUCTIMAGE INTERNAL_SYSTEMIMAGE_FILES += $(call create-partition-compat-symlink,$(TARGET_OUT)/product,/product,product.img) endif # Create symlink /system/system_ext to /system_ext if necessary. ifdef BOARD_USES_SYSTEM_EXTIMAGE INTERNAL_SYSTEMIMAGE_FILES += $(call create-partition-compat-symlink,$(TARGET_OUT)/system_ext,/system_ext,system_ext.img) endif FULL_SYSTEMIMAGE_DEPS := $(INTERNAL_SYSTEMIMAGE_FILES) $(INTERNAL_USERIMAGES_DEPS) # ASAN libraries in the system image - add dependency. ASAN_IN_SYSTEM_INSTALLED := $(TARGET_OUT)/asan.tar.bz2 ifneq (,$(filter address, $(SANITIZE_TARGET))) ifeq (true,$(SANITIZE_TARGET_SYSTEM)) FULL_SYSTEMIMAGE_DEPS += $(ASAN_IN_SYSTEM_INSTALLED) endif endif FULL_SYSTEMIMAGE_DEPS += $(INTERNAL_ROOT_FILES) $(INSTALLED_FILES_FILE_ROOT) # ----------------------------------------------------------------- ifdef BUILDING_SYSTEM_IMAGE # Install system linker configuration # Collect all available stub libraries installed in system and install with predefined linker configuration SYSTEM_LINKER_CONFIG := $(TARGET_OUT)/etc/linker.config.pb $(SYSTEM_LINKER_CONFIG) : $(INTERNAL_SYSTEMIMAGE_FILES) $(LINKER_CONFIG_PATH_system_linker_config) | conv_linker_config $(HOST_OUT_EXECUTABLES)/conv_linker_config systemprovide --source $(LINKER_CONFIG_PATH_system_linker_config)\ --output $@ --value "$(STUB_LIBRARIES)" --system "$(TARGET_OUT)" FULL_SYSTEMIMAGE_DEPS += $(SYSTEM_LINKER_CONFIG) # 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_JSON := $(INSTALLED_FILES_FILE:.txt=.json) $(INSTALLED_FILES_FILE): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON) $(INSTALLED_FILES_FILE): $(FULL_SYSTEMIMAGE_DEPS) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_OUT) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ .PHONY: installed-file-list installed-file-list: $(INSTALLED_FILES_FILE) $(call dist-for-goals, sdk win_sdk sdk_addon, $(INSTALLED_FILES_FILE)) systemimage_intermediates := \ $(call intermediates-dir-for,PACKAGING,systemimage) BUILT_SYSTEMIMAGE := $(systemimage_intermediates)/system.img # $(1): output file define build-systemimage-target @echo "Target system fs image: $(1)" @mkdir -p $(dir $(1)) $(systemimage_intermediates) && rm -rf $(systemimage_intermediates)/system_image_info.txt $(call generate-image-prop-dictionary, $(systemimage_intermediates)/system_image_info.txt,system, \ skip_fsck=true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH \ $(BUILD_IMAGE) \ $(TARGET_OUT) $(systemimage_intermediates)/system_image_info.txt $(1) $(TARGET_OUT) \ || ( mkdir -p $${DIST_DIR}; \ cp $(INSTALLED_FILES_FILE) $${DIST_DIR}/installed-files-rescued.txt; \ exit 1 ) endef ifeq ($(BOARD_AVB_ENABLE),true) $(BUILT_SYSTEMIMAGE): $(BOARD_AVB_SYSTEM_KEY_PATH) endif $(BUILT_SYSTEMIMAGE): $(FULL_SYSTEMIMAGE_DEPS) $(INSTALLED_FILES_FILE) $(call build-systemimage-target,$@) INSTALLED_SYSTEMIMAGE_TARGET := $(PRODUCT_OUT)/system.img SYSTEMIMAGE_SOURCE_DIR := $(TARGET_OUT) # INSTALLED_SYSTEMIMAGE_TARGET used to be named INSTALLED_SYSTEMIMAGE. Create an alias for backward # compatibility, in case device-specific Makefiles still refer to the old name. INSTALLED_SYSTEMIMAGE := $(INSTALLED_SYSTEMIMAGE_TARGET) # The system partition needs room for the recovery image as well. We # now store the recovery image as a binary patch using the boot image # as the source (since they are very similar). Generate the patch so # we can see how big it's going to be, and include that in the system # image size check calculation. ifneq ($(INSTALLED_BOOTIMAGE_TARGET),) ifneq ($(INSTALLED_RECOVERYIMAGE_TARGET),) ifneq ($(BOARD_USES_FULL_RECOVERY_IMAGE),true) ifneq (,$(filter true, $(BOARD_BUILD_SYSTEM_ROOT_IMAGE) $(BOARD_INCLUDE_RECOVERY_DTBO) $(BOARD_INCLUDE_RECOVERY_ACPIO))) diff_tool := $(HOST_OUT_EXECUTABLES)/bsdiff else diff_tool := $(HOST_OUT_EXECUTABLES)/imgdiff endif intermediates := $(call intermediates-dir-for,PACKAGING,recovery_patch) RECOVERY_FROM_BOOT_PATCH := $(intermediates)/recovery_from_boot.p $(RECOVERY_FROM_BOOT_PATCH): PRIVATE_DIFF_TOOL := $(diff_tool) $(RECOVERY_FROM_BOOT_PATCH): \ $(INSTALLED_RECOVERYIMAGE_TARGET) \ $(firstword $(INSTALLED_BOOTIMAGE_TARGET)) \ $(diff_tool) @echo "Construct recovery from boot" mkdir -p $(dir $@) $(PRIVATE_DIFF_TOOL) $(firstword $(INSTALLED_BOOTIMAGE_TARGET)) $(INSTALLED_RECOVERYIMAGE_TARGET) $@ else # $(BOARD_USES_FULL_RECOVERY_IMAGE) == true RECOVERY_FROM_BOOT_PATCH := $(INSTALLED_RECOVERYIMAGE_TARGET) endif # BOARD_USES_FULL_RECOVERY_IMAGE endif # INSTALLED_RECOVERYIMAGE_TARGET endif # INSTALLED_BOOTIMAGE_TARGET $(INSTALLED_SYSTEMIMAGE_TARGET): $(BUILT_SYSTEMIMAGE) @echo "Install system fs image: $@" $(copy-file-to-target) $(hide) $(call assert-max-image-size,$@,$(BOARD_SYSTEMIMAGE_PARTITION_SIZE)) systemimage: $(INSTALLED_SYSTEMIMAGE_TARGET) .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_TARGET)) $(hide) $(call assert-max-image-size,$(INSTALLED_SYSTEMIMAGE_TARGET),$(BOARD_SYSTEMIMAGE_PARTITION_SIZE)) ifeq (true,$(WITH_DEXPREOPT)) $(warning Warning: with dexpreopt enabled, you may need a full rebuild.) endif endif # BUILDING_SYSTEM_IMAGE .PHONY: sync syncsys sync syncsys: $(INTERNAL_SYSTEMIMAGE_FILES) # ----------------------------------------------------------------- # Old PDK fusion targets .PHONY: platform platform: echo "Warning: 'platform' is obsolete" .PHONY: platform-java platform-java: echo "Warning: 'platform-java' is obsolete" # ----------------------------------------------------------------- # data partition image INTERNAL_USERDATAIMAGE_FILES := \ $(filter $(TARGET_OUT_DATA)/%,$(ALL_DEFAULT_INSTALLED_MODULES)) ifdef BUILDING_USERDATA_IMAGE userdataimage_intermediates := \ $(call intermediates-dir-for,PACKAGING,userdata) BUILT_USERDATAIMAGE_TARGET := $(PRODUCT_OUT)/userdata.img define build-userdataimage-target $(call pretty,"Target userdata fs image: $(INSTALLED_USERDATAIMAGE_TARGET)") @mkdir -p $(TARGET_OUT_DATA) @mkdir -p $(userdataimage_intermediates) && rm -rf $(userdataimage_intermediates)/userdata_image_info.txt $(call generate-image-prop-dictionary, $(userdataimage_intermediates)/userdata_image_info.txt,userdata,skip_fsck=true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH \ $(BUILD_IMAGE) \ $(TARGET_OUT_DATA) $(userdataimage_intermediates)/userdata_image_info.txt \ $(INSTALLED_USERDATAIMAGE_TARGET) $(TARGET_OUT) $(call assert-max-image-size,$(INSTALLED_USERDATAIMAGE_TARGET),$(BOARD_USERDATAIMAGE_PARTITION_SIZE)) endef # We just build this directly to the install location. INSTALLED_USERDATAIMAGE_TARGET := $(BUILT_USERDATAIMAGE_TARGET) INSTALLED_USERDATAIMAGE_TARGET_DEPS := \ $(INTERNAL_USERIMAGES_DEPS) \ $(INTERNAL_USERDATAIMAGE_FILES) $(INSTALLED_USERDATAIMAGE_TARGET): $(INSTALLED_USERDATAIMAGE_TARGET_DEPS) $(build-userdataimage-target) .PHONY: userdataimage-nodeps userdataimage-nodeps: | $(INTERNAL_USERIMAGES_DEPS) $(build-userdataimage-target) endif # BUILDING_USERDATA_IMAGE # ASAN libraries in the system image - build rule. ASAN_OUT_DIRS_FOR_SYSTEM_INSTALL := $(sort $(patsubst $(PRODUCT_OUT)/%,%,\ $(TARGET_OUT_SHARED_LIBRARIES) \ $(2ND_TARGET_OUT_SHARED_LIBRARIES) \ $(TARGET_OUT_VENDOR_SHARED_LIBRARIES) \ $(2ND_TARGET_OUT_VENDOR_SHARED_LIBRARIES))) # Extra options: Enforce the system user for the files to avoid having to change ownership. ASAN_SYSTEM_INSTALL_OPTIONS := --owner=1000 --group=1000 # Note: experimentally, it seems not worth it to try to get "best" compression. We don't save # enough space. $(ASAN_IN_SYSTEM_INSTALLED): $(INSTALLED_USERDATAIMAGE_TARGET_DEPS) tar cfj $(ASAN_IN_SYSTEM_INSTALLED) $(ASAN_SYSTEM_INSTALL_OPTIONS) -C $(TARGET_OUT_DATA)/.. $(ASAN_OUT_DIRS_FOR_SYSTEM_INSTALL) >/dev/null # ----------------------------------------------------------------- # partition table image ifdef BOARD_BPT_INPUT_FILES BUILT_BPTIMAGE_TARGET := $(PRODUCT_OUT)/partition-table.img BUILT_BPTJSON_TARGET := $(PRODUCT_OUT)/partition-table.bpt INTERNAL_BVBTOOL_MAKE_TABLE_ARGS := \ --output_gpt $(BUILT_BPTIMAGE_TARGET) \ --output_json $(BUILT_BPTJSON_TARGET) \ $(foreach file, $(BOARD_BPT_INPUT_FILES), --input $(file)) ifdef BOARD_BPT_DISK_SIZE INTERNAL_BVBTOOL_MAKE_TABLE_ARGS += --disk_size $(BOARD_BPT_DISK_SIZE) endif define build-bptimage-target $(call pretty,"Target partition table image: $(INSTALLED_BPTIMAGE_TARGET)") $(hide) $(BPTTOOL) make_table $(INTERNAL_BVBTOOL_MAKE_TABLE_ARGS) $(BOARD_BPT_MAKE_TABLE_ARGS) endef INSTALLED_BPTIMAGE_TARGET := $(BUILT_BPTIMAGE_TARGET) $(BUILT_BPTJSON_TARGET): $(INSTALLED_BPTIMAGE_TARGET) $(hide) touch -c $(BUILT_BPTJSON_TARGET) $(INSTALLED_BPTIMAGE_TARGET): $(BPTTOOL) $(BOARD_BPT_INPUT_FILES) $(build-bptimage-target) .PHONY: bptimage-nodeps bptimage-nodeps: $(build-bptimage-target) endif # BOARD_BPT_INPUT_FILES # ----------------------------------------------------------------- # cache partition image ifdef BUILDING_CACHE_IMAGE INTERNAL_CACHEIMAGE_FILES := \ $(filter $(TARGET_OUT_CACHE)/%,$(ALL_DEFAULT_INSTALLED_MODULES)) cacheimage_intermediates := \ $(call intermediates-dir-for,PACKAGING,cache) BUILT_CACHEIMAGE_TARGET := $(PRODUCT_OUT)/cache.img define build-cacheimage-target $(call pretty,"Target cache fs image: $(INSTALLED_CACHEIMAGE_TARGET)") @mkdir -p $(TARGET_OUT_CACHE) @mkdir -p $(cacheimage_intermediates) && rm -rf $(cacheimage_intermediates)/cache_image_info.txt $(call generate-image-prop-dictionary, $(cacheimage_intermediates)/cache_image_info.txt,cache,skip_fsck=true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH \ $(BUILD_IMAGE) \ $(TARGET_OUT_CACHE) $(cacheimage_intermediates)/cache_image_info.txt \ $(INSTALLED_CACHEIMAGE_TARGET) $(TARGET_OUT) $(call assert-max-image-size,$(INSTALLED_CACHEIMAGE_TARGET),$(BOARD_CACHEIMAGE_PARTITION_SIZE)) endef # We just build this directly to the install location. INSTALLED_CACHEIMAGE_TARGET := $(BUILT_CACHEIMAGE_TARGET) $(INSTALLED_CACHEIMAGE_TARGET): $(INTERNAL_USERIMAGES_DEPS) $(INTERNAL_CACHEIMAGE_FILES) $(build-cacheimage-target) .PHONY: cacheimage-nodeps cacheimage-nodeps: | $(INTERNAL_USERIMAGES_DEPS) $(build-cacheimage-target) else # BUILDING_CACHE_IMAGE # we need to ignore the broken cache link when doing the rsync IGNORE_CACHE_LINK := --exclude=cache endif # BUILDING_CACHE_IMAGE # ----------------------------------------------------------------- # system_other partition image ifdef BUILDING_SYSTEM_OTHER_IMAGE ifeq ($(BOARD_USES_SYSTEM_OTHER_ODEX),true) # Marker file to identify that odex files are installed INSTALLED_SYSTEM_OTHER_ODEX_MARKER := $(TARGET_OUT_SYSTEM_OTHER)/system-other-odex-marker ALL_DEFAULT_INSTALLED_MODULES += $(INSTALLED_SYSTEM_OTHER_ODEX_MARKER) $(INSTALLED_SYSTEM_OTHER_ODEX_MARKER): $(hide) touch $@ endif INTERNAL_SYSTEMOTHERIMAGE_FILES := \ $(filter $(TARGET_OUT_SYSTEM_OTHER)/%,\ $(ALL_DEFAULT_INSTALLED_MODULES)) # system_other dex files are installed as a side-effect of installing system image files INTERNAL_SYSTEMOTHERIMAGE_FILES += $(INTERNAL_SYSTEMIMAGE_FILES) INSTALLED_FILES_FILE_SYSTEMOTHER := $(PRODUCT_OUT)/installed-files-system-other.txt INSTALLED_FILES_JSON_SYSTEMOTHER := $(INSTALLED_FILES_FILE_SYSTEMOTHER:.txt=.json) $(INSTALLED_FILES_FILE_SYSTEMOTHER): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_SYSTEMOTHER) $(INSTALLED_FILES_FILE_SYSTEMOTHER) : $(INTERNAL_SYSTEMOTHERIMAGE_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_OUT_SYSTEM_OTHER) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ # Determines partition size for system_other.img. ifeq ($(PRODUCT_RETROFIT_DYNAMIC_PARTITIONS),true) ifneq ($(filter system,$(BOARD_SUPER_PARTITION_BLOCK_DEVICES)),) INTERNAL_SYSTEM_OTHER_PARTITION_SIZE := $(BOARD_SUPER_PARTITION_SYSTEM_DEVICE_SIZE) endif endif ifndef INTERNAL_SYSTEM_OTHER_PARTITION_SIZE INTERNAL_SYSTEM_OTHER_PARTITION_SIZE:= $(BOARD_SYSTEMIMAGE_PARTITION_SIZE) endif systemotherimage_intermediates := \ $(call intermediates-dir-for,PACKAGING,system_other) BUILT_SYSTEMOTHERIMAGE_TARGET := $(PRODUCT_OUT)/system_other.img # Note that we assert the size is SYSTEMIMAGE_PARTITION_SIZE since this is the 'b' system image. define build-systemotherimage-target $(call pretty,"Target system_other fs image: $(INSTALLED_SYSTEMOTHERIMAGE_TARGET)") @mkdir -p $(TARGET_OUT_SYSTEM_OTHER) @mkdir -p $(systemotherimage_intermediates) && rm -rf $(systemotherimage_intermediates)/system_other_image_info.txt $(call generate-image-prop-dictionary, $(systemotherimage_intermediates)/system_other_image_info.txt,system,skip_fsck=true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH \ $(BUILD_IMAGE) \ $(TARGET_OUT_SYSTEM_OTHER) $(systemotherimage_intermediates)/system_other_image_info.txt \ $(INSTALLED_SYSTEMOTHERIMAGE_TARGET) $(TARGET_OUT) $(call assert-max-image-size,$(INSTALLED_SYSTEMOTHERIMAGE_TARGET),$(BOARD_SYSTEMIMAGE_PARTITION_SIZE)) endef # We just build this directly to the install location. INSTALLED_SYSTEMOTHERIMAGE_TARGET := $(BUILT_SYSTEMOTHERIMAGE_TARGET) ifneq (true,$(SANITIZE_LITE)) # Only create system_other when not building the second stage of a SANITIZE_LITE build. $(INSTALLED_SYSTEMOTHERIMAGE_TARGET): $(INTERNAL_USERIMAGES_DEPS) $(INTERNAL_SYSTEMOTHERIMAGE_FILES) $(INSTALLED_FILES_FILE_SYSTEMOTHER) $(build-systemotherimage-target) endif .PHONY: systemotherimage-nodeps systemotherimage-nodeps: | $(INTERNAL_USERIMAGES_DEPS) $(build-systemotherimage-target) endif # BUILDING_SYSTEM_OTHER_IMAGE # ----------------------------------------------------------------- # vendor partition image ifdef BUILDING_VENDOR_IMAGE INTERNAL_VENDORIMAGE_FILES := \ $(filter $(TARGET_OUT_VENDOR)/%,\ $(ALL_DEFAULT_INSTALLED_MODULES)) # Create symlink /vendor/odm to /odm if necessary. ifdef BOARD_USES_ODMIMAGE INTERNAL_VENDORIMAGE_FILES += $(call create-partition-compat-symlink,$(TARGET_OUT_VENDOR)/odm,/odm,odm.img) endif # Create symlinks for vendor_dlkm on devices with a vendor_dlkm partition: # /vendor/lib/modules -> /vendor_dlkm/lib/modules # # On devices with a vendor_dlkm partition, # - /vendor/lib/modules is a symlink to a directory that stores vendor DLKMs. # - /vendor_dlkm/{etc,...} store other vendor_dlkm files directly. The vendor_dlkm partition is # mounted at /vendor_dlkm at runtime and the symlinks created in system/core/rootdir/Android.mk # are hidden. # On devices without a vendor_dlkm partition, # - /vendor/lib/modules stores vendor DLKMs directly. # - /vendor_dlkm/{etc,...} are symlinks to directories that store other vendor_dlkm files. # See system/core/rootdir/Android.mk for a list of created symlinks. # The vendor DLKMs and other vendor_dlkm files must not be accessed using other paths because they # are not guaranteed to exist on all devices. ifdef BOARD_USES_VENDOR_DLKMIMAGE INTERNAL_VENDORIMAGE_FILES += $(call create-partition-compat-symlink,$(TARGET_OUT_VENDOR)/lib/modules,/vendor_dlkm/lib/modules,vendor_dlkm.img) endif INSTALLED_FILES_FILE_VENDOR := $(PRODUCT_OUT)/installed-files-vendor.txt INSTALLED_FILES_JSON_VENDOR := $(INSTALLED_FILES_FILE_VENDOR:.txt=.json) $(INSTALLED_FILES_FILE_VENDOR): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_VENDOR) $(INSTALLED_FILES_FILE_VENDOR) : $(INTERNAL_VENDORIMAGE_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_OUT_VENDOR) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ vendorimage_intermediates := \ $(call intermediates-dir-for,PACKAGING,vendor) BUILT_VENDORIMAGE_TARGET := $(PRODUCT_OUT)/vendor.img define build-vendorimage-target $(call pretty,"Target vendor fs image: $(INSTALLED_VENDORIMAGE_TARGET)") @mkdir -p $(TARGET_OUT_VENDOR) @mkdir -p $(vendorimage_intermediates) && rm -rf $(vendorimage_intermediates)/vendor_image_info.txt $(call generate-image-prop-dictionary, $(vendorimage_intermediates)/vendor_image_info.txt,vendor,skip_fsck=true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH \ $(BUILD_IMAGE) \ $(TARGET_OUT_VENDOR) $(vendorimage_intermediates)/vendor_image_info.txt \ $(INSTALLED_VENDORIMAGE_TARGET) $(TARGET_OUT) $(call assert-max-image-size,$(INSTALLED_VENDORIMAGE_TARGET) $(RECOVERY_FROM_BOOT_PATCH),$(BOARD_VENDORIMAGE_PARTITION_SIZE)) endef # We just build this directly to the install location. INSTALLED_VENDORIMAGE_TARGET := $(BUILT_VENDORIMAGE_TARGET) $(INSTALLED_VENDORIMAGE_TARGET): \ $(INTERNAL_USERIMAGES_DEPS) \ $(INTERNAL_VENDORIMAGE_FILES) \ $(INSTALLED_FILES_FILE_VENDOR) \ $(RECOVERY_FROM_BOOT_PATCH) $(build-vendorimage-target) .PHONY: vendorimage-nodeps vnod vendorimage-nodeps vnod: | $(INTERNAL_USERIMAGES_DEPS) $(build-vendorimage-target) sync: $(INTERNAL_VENDORIMAGE_FILES) else ifdef BOARD_PREBUILT_VENDORIMAGE INSTALLED_VENDORIMAGE_TARGET := $(PRODUCT_OUT)/vendor.img $(eval $(call copy-one-file,$(BOARD_PREBUILT_VENDORIMAGE),$(INSTALLED_VENDORIMAGE_TARGET))) endif # ----------------------------------------------------------------- # product partition image ifdef BUILDING_PRODUCT_IMAGE INTERNAL_PRODUCTIMAGE_FILES := \ $(filter $(TARGET_OUT_PRODUCT)/%,\ $(ALL_DEFAULT_INSTALLED_MODULES)) INSTALLED_FILES_FILE_PRODUCT := $(PRODUCT_OUT)/installed-files-product.txt INSTALLED_FILES_JSON_PRODUCT := $(INSTALLED_FILES_FILE_PRODUCT:.txt=.json) $(INSTALLED_FILES_FILE_PRODUCT): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_PRODUCT) $(INSTALLED_FILES_FILE_PRODUCT) : $(INTERNAL_PRODUCTIMAGE_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_OUT_PRODUCT) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ productimage_intermediates := \ $(call intermediates-dir-for,PACKAGING,product) BUILT_PRODUCTIMAGE_TARGET := $(PRODUCT_OUT)/product.img define build-productimage-target $(call pretty,"Target product fs image: $(INSTALLED_PRODUCTIMAGE_TARGET)") @mkdir -p $(TARGET_OUT_PRODUCT) @mkdir -p $(productimage_intermediates) && rm -rf $(productimage_intermediates)/product_image_info.txt $(call generate-image-prop-dictionary, $(productimage_intermediates)/product_image_info.txt,product,skip_fsck=true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH \ $(BUILD_IMAGE) \ $(TARGET_OUT_PRODUCT) $(productimage_intermediates)/product_image_info.txt \ $(INSTALLED_PRODUCTIMAGE_TARGET) $(TARGET_OUT) $(call assert-max-image-size,$(INSTALLED_PRODUCTIMAGE_TARGET),$(BOARD_PRODUCTIMAGE_PARTITION_SIZE)) endef # We just build this directly to the install location. INSTALLED_PRODUCTIMAGE_TARGET := $(BUILT_PRODUCTIMAGE_TARGET) $(INSTALLED_PRODUCTIMAGE_TARGET): \ $(INTERNAL_USERIMAGES_DEPS) \ $(INTERNAL_PRODUCTIMAGE_FILES) \ $(INSTALLED_FILES_FILE_PRODUCT) $(build-productimage-target) .PHONY: productimage-nodeps pnod productimage-nodeps pnod: | $(INTERNAL_USERIMAGES_DEPS) $(build-productimage-target) sync: $(INTERNAL_PRODUCTIMAGE_FILES) else ifdef BOARD_PREBUILT_PRODUCTIMAGE INSTALLED_PRODUCTIMAGE_TARGET := $(PRODUCT_OUT)/product.img $(eval $(call copy-one-file,$(BOARD_PREBUILT_PRODUCTIMAGE),$(INSTALLED_PRODUCTIMAGE_TARGET))) endif # ----------------------------------------------------------------- # system_ext partition image ifdef BUILDING_SYSTEM_EXT_IMAGE INTERNAL_SYSTEM_EXTIMAGE_FILES := \ $(filter $(TARGET_OUT_SYSTEM_EXT)/%,\ $(ALL_DEFAULT_INSTALLED_MODULES)) INSTALLED_FILES_FILE_SYSTEM_EXT := $(PRODUCT_OUT)/installed-files-system_ext.txt INSTALLED_FILES_JSON_SYSTEM_EXT := $(INSTALLED_FILES_FILE_SYSTEM_EXT:.txt=.json) $(INSTALLED_FILES_FILE_SYSTEM_EXT): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_SYSTEM_EXT) $(INSTALLED_FILES_FILE_SYSTEM_EXT) : $(INTERNAL_SYSTEM_EXTIMAGE_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_OUT_SYSTEM_EXT) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ system_extimage_intermediates := \ $(call intermediates-dir-for,PACKAGING,system_ext) BUILT_SYSTEM_EXTIMAGE_TARGET := $(PRODUCT_OUT)/system_ext.img define build-system_extimage-target $(call pretty,"Target system_ext fs image: $(INSTALLED_SYSTEM_EXTIMAGE_TARGET)") @mkdir -p $(TARGET_OUT_SYSTEM_EXT) @mkdir -p $(system_extimage_intermediates) && rm -rf $(system_extimage_intermediates)/system_ext_image_info.txt $(call generate-image-prop-dictionary, $(system_extimage_intermediates)/system_ext_image_info.txt,system_ext, skip_fsck=true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH \ $(BUILD_IMAGE) \ $(TARGET_OUT_SYSTEM_EXT) \ $(system_extimage_intermediates)/system_ext_image_info.txt \ $(INSTALLED_SYSTEM_EXTIMAGE_TARGET) \ $(TARGET_OUT) $(call assert-max-image-size,$(INSTALLED_PRODUCT_SERVICESIMAGE_TARGET),$(BOARD_PRODUCT_SERVICESIMAGE_PARTITION_SIZE)) endef # We just build this directly to the install location. INSTALLED_SYSTEM_EXTIMAGE_TARGET := $(BUILT_SYSTEM_EXTIMAGE_TARGET) $(INSTALLED_SYSTEM_EXTIMAGE_TARGET): \ $(INTERNAL_USERIMAGES_DEPS) \ $(INTERNAL_SYSTEM_EXTIMAGE_FILES) \ $(INSTALLED_FILES_FILE_SYSTEM_EXT) $(build-system_extimage-target) .PHONY: systemextimage-nodeps senod systemextimage-nodeps senod: | $(INTERNAL_USERIMAGES_DEPS) $(build-system_extimage-target) sync: $(INTERNAL_SYSTEM_EXTIMAGE_FILES) else ifdef BOARD_PREBUILT_SYSTEM_EXTIMAGE INSTALLED_SYSTEM_EXTIMAGE_TARGET := $(PRODUCT_OUT)/system_ext.img $(eval $(call copy-one-file,$(BOARD_PREBUILT_SYSTEM_EXTIMAGE),$(INSTALLED_SYSTEM_EXTIMAGE_TARGET))) endif # ----------------------------------------------------------------- # odm partition image ifdef BUILDING_ODM_IMAGE INTERNAL_ODMIMAGE_FILES := \ $(filter $(TARGET_OUT_ODM)/%,\ $(ALL_DEFAULT_INSTALLED_MODULES)) # Create symlinks for odm_dlkm on devices with a odm_dlkm partition: # /odm/lib/modules -> /odm_dlkm/lib/modules # # On devices with a odm_dlkm partition, # - /odm/lib/modules is a symlink to a directory that stores odm DLKMs. # - /odm_dlkm/{etc,...} store other odm_dlkm files directly. The odm_dlkm partition is # mounted at /odm_dlkm at runtime and the symlinks created in system/core/rootdir/Android.mk # are hidden. # On devices without a odm_dlkm partition, # - /odm/lib/modules stores odm DLKMs directly. # - /odm_dlkm/{etc,...} are symlinks to directories that store other odm_dlkm files. # See system/core/rootdir/Android.mk for a list of created symlinks. # The odm DLKMs and other odm_dlkm files must not be accessed using other paths because they # are not guaranteed to exist on all devices. ifdef BOARD_USES_ODM_DLKMIMAGE INTERNAL_ODMIMAGE_FILES += $(call create-partition-compat-symlink,$(TARGET_OUT_ODM)/lib/modules,/odm_dlkm/lib/modules,odm_dlkm.img) endif INSTALLED_FILES_FILE_ODM := $(PRODUCT_OUT)/installed-files-odm.txt INSTALLED_FILES_JSON_ODM := $(INSTALLED_FILES_FILE_ODM:.txt=.json) $(INSTALLED_FILES_FILE_ODM): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_ODM) $(INSTALLED_FILES_FILE_ODM) : $(INTERNAL_ODMIMAGE_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_OUT_ODM) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ odmimage_intermediates := \ $(call intermediates-dir-for,PACKAGING,odm) BUILT_ODMIMAGE_TARGET := $(PRODUCT_OUT)/odm.img define build-odmimage-target $(call pretty,"Target odm fs image: $(INSTALLED_ODMIMAGE_TARGET)") @mkdir -p $(TARGET_OUT_ODM) @mkdir -p $(odmimage_intermediates) && rm -rf $(odmimage_intermediates)/odm_image_info.txt $(call generate-userimage-prop-dictionary, $(odmimage_intermediates)/odm_image_info.txt, skip_fsck=true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH \ $(BUILD_IMAGE) \ $(TARGET_OUT_ODM) $(odmimage_intermediates)/odm_image_info.txt \ $(INSTALLED_ODMIMAGE_TARGET) $(TARGET_OUT) $(call assert-max-image-size,$(INSTALLED_ODMIMAGE_TARGET),$(BOARD_ODMIMAGE_PARTITION_SIZE)) endef # We just build this directly to the install location. INSTALLED_ODMIMAGE_TARGET := $(BUILT_ODMIMAGE_TARGET) $(INSTALLED_ODMIMAGE_TARGET): \ $(INTERNAL_USERIMAGES_DEPS) \ $(INTERNAL_ODMIMAGE_FILES) \ $(INSTALLED_FILES_FILE_ODM) $(build-odmimage-target) .PHONY: odmimage-nodeps onod odmimage-nodeps onod: | $(INTERNAL_USERIMAGES_DEPS) $(build-odmimage-target) sync: $(INTERNAL_ODMIMAGE_FILES) else ifdef BOARD_PREBUILT_ODMIMAGE INSTALLED_ODMIMAGE_TARGET := $(PRODUCT_OUT)/odm.img $(eval $(call copy-one-file,$(BOARD_PREBUILT_ODMIMAGE),$(INSTALLED_ODMIMAGE_TARGET))) endif # ----------------------------------------------------------------- # vendor_dlkm partition image ifdef BUILDING_VENDOR_DLKM_IMAGE INTERNAL_VENDOR_DLKMIMAGE_FILES := \ $(filter $(TARGET_OUT_VENDOR_DLKM)/%,\ $(ALL_DEFAULT_INSTALLED_MODULES)) INSTALLED_FILES_FILE_VENDOR_DLKM := $(PRODUCT_OUT)/installed-files-vendor_dlkm.txt INSTALLED_FILES_JSON_VENDOR_DLKM := $(INSTALLED_FILES_FILE_VENDOR_DLKM:.txt=.json) $(INSTALLED_FILES_FILE_VENDOR_DLKM): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_VENDOR_DLKM) $(INSTALLED_FILES_FILE_VENDOR_DLKM) : $(INTERNAL_VENDOR_DLKMIMAGE_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_OUT_VENDOR_DLKM) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ vendor_dlkmimage_intermediates := \ $(call intermediates-dir-for,PACKAGING,vendor_dlkm) BUILT_VENDOR_DLKMIMAGE_TARGET := $(PRODUCT_OUT)/vendor_dlkm.img define build-vendor_dlkmimage-target $(call pretty,"Target vendor_dlkm fs image: $(INSTALLED_VENDOR_DLKMIMAGE_TARGET)") @mkdir -p $(TARGET_OUT_VENDOR_DLKM) @mkdir -p $(vendor_dlkmimage_intermediates) && rm -rf $(vendor_dlkmimage_intermediates)/vendor_dlkm_image_info.txt $(call generate-userimage-prop-dictionary, $(vendor_dlkmimage_intermediates)/vendor_dlkm_image_info.txt, skip_fsck=true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH \ $(BUILD_IMAGE) \ $(TARGET_OUT_VENDOR_DLKM) $(vendor_dlkmimage_intermediates)/vendor_dlkm_image_info.txt \ $(INSTALLED_VENDOR_DLKMIMAGE_TARGET) $(TARGET_OUT) $(call assert-max-image-size,$(INSTALLED_VENDOR_DLKMIMAGE_TARGET),$(BOARD_VENDOR_DLKMIMAGE_PARTITION_SIZE)) endef # We just build this directly to the install location. INSTALLED_VENDOR_DLKMIMAGE_TARGET := $(BUILT_VENDOR_DLKMIMAGE_TARGET) $(INSTALLED_VENDOR_DLKMIMAGE_TARGET): \ $(INTERNAL_USERIMAGES_DEPS) \ $(INTERNAL_VENDOR_DLKMIMAGE_FILES) \ $(INSTALLED_FILES_FILE_VENDOR_DLKM) $(build-vendor_dlkmimage-target) .PHONY: vendor_dlkmimage-nodeps vdnod vendor_dlkmimage-nodeps vdnod: | $(INTERNAL_USERIMAGES_DEPS) $(build-vendor_dlkmimage-target) sync: $(INTERNAL_VENDOR_DLKMIMAGE_FILES) else ifdef BOARD_PREBUILT_VENDOR_DLKMIMAGE INSTALLED_VENDOR_DLKMIMAGE_TARGET := $(PRODUCT_OUT)/vendor_dlkm.img $(eval $(call copy-one-file,$(BOARD_PREBUILT_VENDOR_DLKMIMAGE),$(INSTALLED_VENDOR_DLKMIMAGE_TARGET))) endif # ----------------------------------------------------------------- # odm_dlkm partition image ifdef BUILDING_ODM_DLKM_IMAGE INTERNAL_ODM_DLKMIMAGE_FILES := \ $(filter $(TARGET_OUT_ODM_DLKM)/%,\ $(ALL_DEFAULT_INSTALLED_MODULES)) INSTALLED_FILES_FILE_ODM_DLKM := $(PRODUCT_OUT)/installed-files-odm_dlkm.txt INSTALLED_FILES_JSON_ODM_DLKM := $(INSTALLED_FILES_FILE_ODM_DLKM:.txt=.json) $(INSTALLED_FILES_FILE_ODM_DLKM): .KATI_IMPLICIT_OUTPUTS := $(INSTALLED_FILES_JSON_ODM_DLKM) $(INSTALLED_FILES_FILE_ODM_DLKM) : $(INTERNAL_ODM_DLKMIMAGE_FILES) $(FILESLIST) $(FILESLIST_UTIL) @echo Installed file list: $@ mkdir -p $(dir $@) rm -f $@ $(FILESLIST) $(TARGET_OUT_ODM_DLKM) > $(@:.txt=.json) $(FILESLIST_UTIL) -c $(@:.txt=.json) > $@ odm_dlkmimage_intermediates := \ $(call intermediates-dir-for,PACKAGING,odm_dlkm) BUILT_ODM_DLKMIMAGE_TARGET := $(PRODUCT_OUT)/odm_dlkm.img define build-odm_dlkmimage-target $(call pretty,"Target odm_dlkm fs image: $(INSTALLED_ODM_DLKMIMAGE_TARGET)") @mkdir -p $(TARGET_OUT_ODM_DLKM) @mkdir -p $(odm_dlkmimage_intermediates) && rm -rf $(odm_dlkmimage_intermediates)/odm_dlkm_image_info.txt $(call generate-userimage-prop-dictionary, $(odm_dlkmimage_intermediates)/odm_dlkm_image_info.txt, skip_fsck=true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH \ $(BUILD_IMAGE) \ $(TARGET_OUT_ODM_DLKM) $(odm_dlkmimage_intermediates)/odm_dlkm_image_info.txt \ $(INSTALLED_ODM_DLKMIMAGE_TARGET) $(TARGET_OUT) $(call assert-max-image-size,$(INSTALLED_ODM_DLKMIMAGE_TARGET),$(BOARD_ODM_DLKMIMAGE_PARTITION_SIZE)) endef # We just build this directly to the install location. INSTALLED_ODM_DLKMIMAGE_TARGET := $(BUILT_ODM_DLKMIMAGE_TARGET) $(INSTALLED_ODM_DLKMIMAGE_TARGET): \ $(INTERNAL_USERIMAGES_DEPS) \ $(INTERNAL_ODM_DLKMIMAGE_FILES) \ $(INSTALLED_FILES_FILE_ODM_DLKM) $(build-odm_dlkmimage-target) .PHONY: odm_dlkmimage-nodeps odnod odm_dlkmimage-nodeps odnod: | $(INTERNAL_USERIMAGES_DEPS) $(build-odm_dlkmimage-target) sync: $(INTERNAL_ODM_DLKMIMAGE_FILES) else ifdef BOARD_PREBUILT_ODM_DLKMIMAGE INSTALLED_ODM_DLKMIMAGE_TARGET := $(PRODUCT_OUT)/odm_dlkm.img $(eval $(call copy-one-file,$(BOARD_PREBUILT_ODM_DLKMIMAGE),$(INSTALLED_ODM_DLKMIMAGE_TARGET))) endif # ----------------------------------------------------------------- # dtbo image ifdef BOARD_PREBUILT_DTBOIMAGE INSTALLED_DTBOIMAGE_TARGET := $(PRODUCT_OUT)/dtbo.img ifeq ($(BOARD_AVB_ENABLE),true) $(INSTALLED_DTBOIMAGE_TARGET): $(BOARD_PREBUILT_DTBOIMAGE) $(AVBTOOL) $(BOARD_AVB_DTBO_KEY_PATH) cp $(BOARD_PREBUILT_DTBOIMAGE) $@ $(AVBTOOL) add_hash_footer \ --image $@ \ --partition_size $(BOARD_DTBOIMG_PARTITION_SIZE) \ --partition_name dtbo $(INTERNAL_AVB_DTBO_SIGNING_ARGS) \ $(BOARD_AVB_DTBO_ADD_HASH_FOOTER_ARGS) else $(INSTALLED_DTBOIMAGE_TARGET): $(BOARD_PREBUILT_DTBOIMAGE) cp $(BOARD_PREBUILT_DTBOIMAGE) $@ endif endif # BOARD_PREBUILT_DTBOIMAGE # ----------------------------------------------------------------- # Protected VM firmware image ifdef BOARD_PREBUILT_PVMFWIMAGE INSTALLED_PVMFWIMAGE_TARGET := $(PRODUCT_OUT)/pvmfw.img ifeq ($(BOARD_AVB_ENABLE),true) $(INSTALLED_PVMFWIMAGE_TARGET): $(BOARD_PREBUILT_PVMFWIMAGE) $(AVBTOOL) $(BOARD_AVB_PVMFW_KEY_PATH) cp $(BOARD_PREBUILT_PVMFWIMAGE) $@ $(AVBTOOL) add_hash_footer \ --image $@ \ --partition_size $(BOARD_PVMFWIMG_PARTITION_SIZE) \ --partition_name pvmfw $(INTERNAL_AVB_PVMFW_SIGNING_ARGS) \ $(BOARD_AVB_PVMFW_ADD_HASH_FOOTER_ARGS) else $(INSTALLED_PVMFWIMAGE_TARGET): $(BOARD_PREBUILT_PVMFWIMAGE) cp $(BOARD_PREBUILT_PVMFWIMAGE) $@ endif endif # BOARD_PREBUILT_PVMFWIMAGE # Returns a list of image targets corresponding to the given list of partitions. For example, it # returns "$(INSTALLED_PRODUCTIMAGE_TARGET)" for "product", or "$(INSTALLED_SYSTEMIMAGE_TARGET) # $(INSTALLED_VENDORIMAGE_TARGET)" for "system vendor". # (1): list of partitions like "system", "vendor" or "system product system_ext". define images-for-partitions $(strip $(foreach item,$(1),$(if $(filter $(item),system_other),$(INSTALLED_SYSTEMOTHERIMAGE_TARGET),$(INSTALLED_$(call to-upper,$(item))IMAGE_TARGET)))) endef # ----------------------------------------------------------------- # custom images INSTALLED_CUSTOMIMAGES_TARGET := ifneq ($(strip $(BOARD_CUSTOMIMAGES_PARTITION_LIST)),) INTERNAL_AVB_CUSTOMIMAGES_SIGNING_ARGS := # Sign custom image. # $(1): the prebuilt custom image. # $(2): the mount point of the prebuilt custom image. # $(3): the signed custom image target. define sign_custom_image $(3): $(1) $(INTERNAL_USERIMAGES_DEPS) @echo Target custom image: $(3) mkdir -p $(dir $(3)) cp $(1) $(3) ifeq ($(BOARD_AVB_ENABLE),true) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$$$PATH \ $(AVBTOOL) add_hashtree_footer \ --image $(3) \ --key $(BOARD_AVB_$(call to-upper,$(2))_KEY_PATH) \ --algorithm $(BOARD_AVB_$(call to-upper,$(2))_ALGORITHM) \ --partition_size $(BOARD_AVB_$(call to-upper,$(2))_PARTITION_SIZE) \ --partition_name $(2) \ $(INTERNAL_AVB_CUSTOMIMAGES_SIGNING_ARGS) \ $(BOARD_AVB_$(call to-upper,$(2))_ADD_HASHTREE_FOOTER_ARGS) endif INSTALLED_CUSTOMIMAGES_TARGET += $(3) endef $(foreach partition,$(BOARD_CUSTOMIMAGES_PARTITION_LIST), \ $(foreach image,$(BOARD_AVB_$(call to-upper,$(partition))_IMAGE_LIST), \ $(eval $(call sign_custom_image,$(image),$(partition),$(PRODUCT_OUT)/$(notdir $(image)))))) endif # ----------------------------------------------------------------- # vbmeta image ifeq ($(BOARD_AVB_ENABLE),true) BUILT_VBMETAIMAGE_TARGET := $(PRODUCT_OUT)/vbmeta.img AVB_CHAIN_KEY_DIR := $(TARGET_OUT_INTERMEDIATES)/avb_chain_keys ifdef BOARD_AVB_KEY_PATH $(if $(BOARD_AVB_ALGORITHM),,$(error BOARD_AVB_ALGORITHM is not defined)) else # If key path isn't specified, use the 4096-bit test key. BOARD_AVB_ALGORITHM := SHA256_RSA4096 BOARD_AVB_KEY_PATH := external/avb/test/data/testkey_rsa4096.pem endif # AVB signing for system_other.img. ifdef BUILDING_SYSTEM_OTHER_IMAGE ifdef BOARD_AVB_SYSTEM_OTHER_KEY_PATH $(if $(BOARD_AVB_SYSTEM_OTHER_ALGORITHM),,$(error BOARD_AVB_SYSTEM_OTHER_ALGORITHM is not defined)) else # If key path isn't specified, use the same key as BOARD_AVB_KEY_PATH. BOARD_AVB_SYSTEM_OTHER_KEY_PATH := $(BOARD_AVB_KEY_PATH) BOARD_AVB_SYSTEM_OTHER_ALGORITHM := $(BOARD_AVB_ALGORITHM) endif $(INSTALLED_PRODUCT_SYSTEM_OTHER_AVBKEY_TARGET): $(AVBTOOL) $(BOARD_AVB_SYSTEM_OTHER_KEY_PATH) @echo Extracting system_other avb key: $@ @rm -f $@ @mkdir -p $(dir $@) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_SYSTEM_OTHER_KEY_PATH) --output $@ ifndef BOARD_AVB_SYSTEM_OTHER_ROLLBACK_INDEX BOARD_AVB_SYSTEM_OTHER_ROLLBACK_INDEX := $(PLATFORM_SECURITY_PATCH_TIMESTAMP) endif BOARD_AVB_SYSTEM_OTHER_ADD_HASHTREE_FOOTER_ARGS += --rollback_index $(BOARD_AVB_SYSTEM_OTHER_ROLLBACK_INDEX) endif # end of AVB for BUILDING_SYSTEM_OTHER_IMAGE INTERNAL_AVB_PARTITIONS_IN_CHAINED_VBMETA_IMAGES := \ $(BOARD_AVB_VBMETA_SYSTEM) \ $(BOARD_AVB_VBMETA_VENDOR) # Not allowing the same partition to appear in multiple groups. ifneq ($(words $(sort $(INTERNAL_AVB_PARTITIONS_IN_CHAINED_VBMETA_IMAGES))),$(words $(INTERNAL_AVB_PARTITIONS_IN_CHAINED_VBMETA_IMAGES))) $(error BOARD_AVB_VBMETA_SYSTEM and BOARD_AVB_VBMETA_VENDOR cannot have duplicates) endif # When building a standalone recovery image for non-A/B devices, recovery image must be self-signed # to be verified independently, and cannot be chained into vbmeta.img. See the link below for # details. ifeq ($(TARGET_OTA_ALLOW_NON_AB),true) ifneq ($(INSTALLED_RECOVERYIMAGE_TARGET),) $(if $(BOARD_AVB_RECOVERY_KEY_PATH),,\ $(error BOARD_AVB_RECOVERY_KEY_PATH must be defined for if non-A/B is supported. \ See https://android.googlesource.com/platform/external/avb/+/master/README.md#booting-into-recovery)) endif endif # Appends os version and security patch level as a AVB property descriptor BOARD_AVB_SYSTEM_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.system.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) \ --prop com.android.build.system.os_version:$(PLATFORM_VERSION_LAST_STABLE) \ --prop com.android.build.system.security_patch:$(PLATFORM_SECURITY_PATCH) BOARD_AVB_PRODUCT_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.product.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) \ --prop com.android.build.product.os_version:$(PLATFORM_VERSION_LAST_STABLE) \ --prop com.android.build.product.security_patch:$(PLATFORM_SECURITY_PATCH) BOARD_AVB_SYSTEM_EXT_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.system_ext.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) \ --prop com.android.build.system_ext.os_version:$(PLATFORM_VERSION_LAST_STABLE) \ --prop com.android.build.system_ext.security_patch:$(PLATFORM_SECURITY_PATCH) BOARD_AVB_BOOT_ADD_HASH_FOOTER_ARGS += \ --prop com.android.build.boot.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) \ --prop com.android.build.boot.os_version:$(PLATFORM_VERSION_LAST_STABLE) BOARD_AVB_VENDOR_BOOT_ADD_HASH_FOOTER_ARGS += \ --prop com.android.build.vendor_boot.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) \ BOARD_AVB_RECOVERY_ADD_HASH_FOOTER_ARGS += \ --prop com.android.build.recovery.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) BOARD_AVB_VENDOR_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.vendor.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) \ --prop com.android.build.vendor.os_version:$(PLATFORM_VERSION_LAST_STABLE) BOARD_AVB_ODM_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.odm.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) \ --prop com.android.build.odm.os_version:$(PLATFORM_VERSION_LAST_STABLE) BOARD_AVB_VENDOR_DLKM_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.vendor_dlkm.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) \ --prop com.android.build.vendor_dlkm.os_version:$(PLATFORM_VERSION_LAST_STABLE) BOARD_AVB_ODM_DLKM_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.odm_dlkm.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) \ --prop com.android.build.odm_dlkm.os_version:$(PLATFORM_VERSION_LAST_STABLE) BOARD_AVB_DTBO_ADD_HASH_FOOTER_ARGS += \ --prop com.android.build.dtbo.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) BOARD_AVB_PVMFW_ADD_HASH_FOOTER_ARGS += \ --prop com.android.build.pvmfw.fingerprint:$(BUILD_FINGERPRINT_FROM_FILE) # The following vendor- and odm-specific images needs explicit SPL set per board. ifdef BOOT_SECURITY_PATCH BOARD_AVB_BOOT_ADD_HASH_FOOTER_ARGS += \ --prop com.android.build.boot.security_patch:$(BOOT_SECURITY_PATCH) endif ifdef VENDOR_SECURITY_PATCH BOARD_AVB_VENDOR_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.vendor.security_patch:$(VENDOR_SECURITY_PATCH) endif ifdef ODM_SECURITY_PATCH BOARD_AVB_ODM_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.odm.security_patch:$(ODM_SECURITY_PATCH) endif ifdef VENDOR_DLKM_SECURITY_PATCH BOARD_AVB_VENDOR_DLKM_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.vendor_dlkm.security_patch:$(VENDOR_DLKM_SECURITY_PATCH) endif ifdef ODM_DLKM_SECURITY_PATCH BOARD_AVB_ODM_DLKM_ADD_HASHTREE_FOOTER_ARGS += \ --prop com.android.build.odm_dlkm.security_patch:$(ODM_DLKM_SECURITY_PATCH) endif ifdef PVMFW_SECURITY_PATCH BOARD_AVB_PVMFW_ADD_HASH_FOOTER_ARGS += \ --prop com.android.build.pvmfw.security_patch:$(PVMFW_SECURITY_PATCH) endif BOOT_FOOTER_ARGS := BOARD_AVB_BOOT_ADD_HASH_FOOTER_ARGS VENDOR_BOOT_FOOTER_ARGS := BOARD_AVB_VENDOR_BOOT_ADD_HASH_FOOTER_ARGS DTBO_FOOTER_ARGS := BOARD_AVB_DTBO_ADD_HASH_FOOTER_ARGS PVMFW_FOOTER_ARGS := BOARD_AVB_PVMFW_ADD_HASH_FOOTER_ARGS SYSTEM_FOOTER_ARGS := BOARD_AVB_SYSTEM_ADD_HASHTREE_FOOTER_ARGS VENDOR_FOOTER_ARGS := BOARD_AVB_VENDOR_ADD_HASHTREE_FOOTER_ARGS RECOVERY_FOOTER_ARGS := BOARD_AVB_RECOVERY_ADD_HASH_FOOTER_ARGS PRODUCT_FOOTER_ARGS := BOARD_AVB_PRODUCT_ADD_HASHTREE_FOOTER_ARGS SYSTEM_EXT_FOOTER_ARGS := BOARD_AVB_SYSTEM_EXT_ADD_HASHTREE_FOOTER_ARGS ODM_FOOTER_ARGS := BOARD_AVB_ODM_ADD_HASHTREE_FOOTER_ARGS VENDOR_DLKM_FOOTER_ARGS := BOARD_AVB_VENDOR_DLKM_ADD_HASHTREE_FOOTER_ARGS ODM_DLKM_FOOTER_ARGS := BOARD_AVB_ODM_DLKM_ADD_HASHTREE_FOOTER_ARGS # Helper function that checks and sets required build variables for an AVB chained partition. # $(1): the partition to enable AVB chain, e.g., boot or system or vbmeta_system. define _check-and-set-avb-chain-args $(eval part := $(1)) $(eval PART=$(call to-upper,$(part))) $(eval _key_path := BOARD_AVB_$(PART)_KEY_PATH) $(eval _signing_algorithm := BOARD_AVB_$(PART)_ALGORITHM) $(eval _rollback_index := BOARD_AVB_$(PART)_ROLLBACK_INDEX) $(eval _rollback_index_location := BOARD_AVB_$(PART)_ROLLBACK_INDEX_LOCATION) $(if $($(_key_path)),,$(error $(_key_path) is not defined)) $(if $($(_signing_algorithm)),,$(error $(_signing_algorithm) is not defined)) $(if $($(_rollback_index)),,$(error $(_rollback_index) is not defined)) $(if $($(_rollback_index_location)),,$(error $(_rollback_index_location) is not defined)) # Set INTERNAL_AVB_(PART)_SIGNING_ARGS $(eval _signing_args := INTERNAL_AVB_$(PART)_SIGNING_ARGS) $(eval $(_signing_args) := \ --algorithm $($(_signing_algorithm)) --key $($(_key_path))) # The recovery partition in non-A/B devices should be verified separately. Skip adding the chain # partition descriptor for recovery partition into vbmeta.img. $(if $(or $(filter-out true,$(TARGET_OTA_ALLOW_NON_AB)),$(filter-out recovery,$(part))),\ $(eval INTERNAL_AVB_MAKE_VBMETA_IMAGE_ARGS += \ --chain_partition $(part):$($(_rollback_index_location)):$(AVB_CHAIN_KEY_DIR)/$(part).avbpubkey)) # Set rollback_index via footer args for non-chained vbmeta image. Chained vbmeta image will pick up # the index via a separate flag (e.g. BOARD_AVB_VBMETA_SYSTEM_ROLLBACK_INDEX). $(if $(filter $(part),$(part:vbmeta_%=%)),\ $(eval _footer_args := $(PART)_FOOTER_ARGS) \ $(eval $($(_footer_args)) += --rollback_index $($(_rollback_index)))) endef # Checks and sets the required build variables for an AVB partition. The partition will be # configured as a chained partition, if BOARD_AVB__KEY_PATH is defined. Otherwise the # image descriptor will be included into vbmeta.img, unless it has been already added to any chained # VBMeta image. # Multiple boot images can be generated based on BOARD_KERNEL_BINARIES # but vbmeta would capture the image descriptor of only the first boot # image specified in BUILT_BOOTIMAGE_TARGET. # $(1): Partition name, e.g. boot or system. define check-and-set-avb-args $(eval _in_chained_vbmeta := $(filter $(1),$(INTERNAL_AVB_PARTITIONS_IN_CHAINED_VBMETA_IMAGES))) $(if $(BOARD_AVB_$(call to-upper,$(1))_KEY_PATH),\ $(if $(_in_chained_vbmeta),\ $(error Chaining partition "$(1)" in chained VBMeta image is not supported)) \ $(call _check-and-set-avb-chain-args,$(1)),\ $(if $(_in_chained_vbmeta),,\ $(if $(filter boot,$(1)),\ $(eval INTERNAL_AVB_MAKE_VBMETA_IMAGE_ARGS += \ --include_descriptors_from_image $(firstword $(call images-for-partitions,$(1)))),\ $(eval INTERNAL_AVB_MAKE_VBMETA_IMAGE_ARGS += \ --include_descriptors_from_image $(call images-for-partitions,$(1)))))) endef # Checks and sets build variables for a custom chained partition to include it into vbmeta.img. # $(1): the custom partition to enable AVB chain. define check-and-set-custom-avb-chain-args $(eval part := $(1)) $(eval PART=$(call to-upper,$(part))) $(eval _rollback_index_location := BOARD_AVB_$(PART)_ROLLBACK_INDEX_LOCATION) $(if $($(_rollback_index_location)),,$(error $(_rollback_index_location) is not defined)) INTERNAL_AVB_MAKE_VBMETA_IMAGE_ARGS += \ --chain_partition $(part):$($(_rollback_index_location)):$(AVB_CHAIN_KEY_DIR)/$(part).avbpubkey endef ifdef INSTALLED_BOOTIMAGE_TARGET $(eval $(call check-and-set-avb-args,boot)) endif ifdef INSTALLED_VENDOR_BOOTIMAGE_TARGET $(eval $(call check-and-set-avb-args,vendor_boot)) endif $(eval $(call check-and-set-avb-args,system)) ifdef INSTALLED_VENDORIMAGE_TARGET $(eval $(call check-and-set-avb-args,vendor)) endif ifdef INSTALLED_PRODUCTIMAGE_TARGET $(eval $(call check-and-set-avb-args,product)) endif ifdef INSTALLED_SYSTEM_EXTIMAGE_TARGET $(eval $(call check-and-set-avb-args,system_ext)) endif ifdef INSTALLED_ODMIMAGE_TARGET $(eval $(call check-and-set-avb-args,odm)) endif ifdef INSTALLED_VENDOR_DLKMIMAGE_TARGET $(eval $(call check-and-set-avb-args,vendor_dlkm)) endif ifdef INSTALLED_ODM_DLKMIMAGE_TARGET $(eval $(call check-and-set-avb-args,odm_dlkm)) endif ifdef INSTALLED_DTBOIMAGE_TARGET $(eval $(call check-and-set-avb-args,dtbo)) endif ifdef INSTALLED_PVMFWIMAGE_TARGET $(eval $(call check-and-set-avb-args,pvmfw)) endif ifdef INSTALLED_RECOVERYIMAGE_TARGET $(eval $(call check-and-set-avb-args,recovery)) endif # Not using INSTALLED_VBMETA_SYSTEMIMAGE_TARGET as it won't be set yet. ifdef BOARD_AVB_VBMETA_SYSTEM $(eval $(call check-and-set-avb-args,vbmeta_system)) endif ifdef BOARD_AVB_VBMETA_VENDOR $(eval $(call check-and-set-avb-args,vbmeta_vendor)) endif ifneq ($(strip $(BOARD_CUSTOMIMAGES_PARTITION_LIST)),) $(foreach partition,$(BOARD_CUSTOMIMAGES_PARTITION_LIST), \ $(eval $(call check-and-set-custom-avb-chain-args,$(partition)))) endif # Add kernel cmdline descriptor for kernel to mount system.img as root with # dm-verity. This works when system.img is either chained or not-chained: # - chained: The --setup_as_rootfs_from_kernel option will add dm-verity kernel # cmdline descriptor to system.img # - not-chained: The --include_descriptors_from_image option for make_vbmeta_image # will include the kernel cmdline descriptor from system.img into vbmeta.img ifeq ($(BOARD_BUILD_SYSTEM_ROOT_IMAGE),true) ifeq ($(filter system, $(BOARD_SUPER_PARTITION_PARTITION_LIST)),) BOARD_AVB_SYSTEM_ADD_HASHTREE_FOOTER_ARGS += --setup_as_rootfs_from_kernel endif endif BOARD_AVB_MAKE_VBMETA_IMAGE_ARGS += --padding_size 4096 BOARD_AVB_MAKE_VBMETA_SYSTEM_IMAGE_ARGS += --padding_size 4096 BOARD_AVB_MAKE_VBMETA_VENDOR_IMAGE_ARGS += --padding_size 4096 ifeq (eng,$(filter eng, $(TARGET_BUILD_VARIANT))) # We only need the flag in top-level vbmeta.img. BOARD_AVB_MAKE_VBMETA_IMAGE_ARGS += --set_hashtree_disabled_flag endif ifdef BOARD_AVB_ROLLBACK_INDEX BOARD_AVB_MAKE_VBMETA_IMAGE_ARGS += --rollback_index $(BOARD_AVB_ROLLBACK_INDEX) endif ifdef BOARD_AVB_VBMETA_SYSTEM_ROLLBACK_INDEX BOARD_AVB_MAKE_VBMETA_SYSTEM_IMAGE_ARGS += \ --rollback_index $(BOARD_AVB_VBMETA_SYSTEM_ROLLBACK_INDEX) endif ifdef BOARD_AVB_VBMETA_VENDOR_ROLLBACK_INDEX BOARD_AVB_MAKE_VBMETA_VENDOR_IMAGE_ARGS += \ --rollback_index $(BOARD_AVB_VBMETA_VENDOR_ROLLBACK_INDEX) endif # $(1): the directory to extract public keys to define extract-avb-chain-public-keys $(if $(BOARD_AVB_BOOT_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_BOOT_KEY_PATH) \ --output $(1)/boot.avbpubkey) $(if $(BOARD_AVB_VENDOR_BOOT_KEY_PATH),\ $(AVBTOOL) extract_public_key --key $(BOARD_AVB_VENDOR_BOOT_KEY_PATH) \ --output $(1)/vendor_boot.avbpubkey) $(if $(BOARD_AVB_SYSTEM_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_SYSTEM_KEY_PATH) \ --output $(1)/system.avbpubkey) $(if $(BOARD_AVB_VENDOR_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_VENDOR_KEY_PATH) \ --output $(1)/vendor.avbpubkey) $(if $(BOARD_AVB_PRODUCT_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_PRODUCT_KEY_PATH) \ --output $(1)/product.avbpubkey) $(if $(BOARD_AVB_SYSTEM_EXT_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_SYSTEM_EXT_KEY_PATH) \ --output $(1)/system_ext.avbpubkey) $(if $(BOARD_AVB_ODM_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_ODM_KEY_PATH) \ --output $(1)/odm.avbpubkey) $(if $(BOARD_AVB_VENDOR_DLKM_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_VENDOR_DLKM_KEY_PATH) \ --output $(1)/vendor_dlkm.avbpubkey) $(if $(BOARD_AVB_ODM_DLKM_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_ODM_DLKM_KEY_PATH) \ --output $(1)/odm_dlkm.avbpubkey) $(if $(BOARD_AVB_DTBO_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_DTBO_KEY_PATH) \ --output $(1)/dtbo.avbpubkey) $(if $(BOARD_AVB_PVMFW_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_PVMFW_KEY_PATH) \ --output $(1)/pvmfw.avbpubkey) $(if $(BOARD_AVB_RECOVERY_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_RECOVERY_KEY_PATH) \ --output $(1)/recovery.avbpubkey) $(if $(BOARD_AVB_VBMETA_SYSTEM_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_VBMETA_SYSTEM_KEY_PATH) \ --output $(1)/vbmeta_system.avbpubkey) $(if $(BOARD_AVB_VBMETA_VENDOR_KEY_PATH),\ $(hide) $(AVBTOOL) extract_public_key --key $(BOARD_AVB_VBMETA_VENDOR_KEY_PATH) \ --output $(1)/vbmeta_vendor.avbpubkey) $(if $(BOARD_CUSTOMIMAGES_PARTITION_LIST),\ $(hide) $(foreach partition,$(BOARD_CUSTOMIMAGES_PARTITION_LIST), \ $(AVBTOOL) extract_public_key --key $(BOARD_AVB_$(call to-upper,$(partition))_KEY_PATH) \ --output $(1)/$(partition).avbpubkey;)) endef # Builds a chained VBMeta image. This VBMeta image will contain the descriptors for the partitions # specified in BOARD_AVB_VBMETA_. The built VBMeta image will be included into the top-level # vbmeta image as a chained partition. For example, if a target defines `BOARD_AVB_VBMETA_SYSTEM # := system system_ext`, `vbmeta_system.img` will be created that includes the descriptors for # `system.img` and `system_ext.img`. `vbmeta_system.img` itself will be included into # `vbmeta.img` as a chained partition. # $(1): VBMeta image name, such as "vbmeta_system", "vbmeta_vendor" etc. # $(2): Output filename. define build-chained-vbmeta-image $(call pretty,"Target chained vbmeta image: $@") $(hide) $(AVBTOOL) make_vbmeta_image \ $(INTERNAL_AVB_$(call to-upper,$(1))_SIGNING_ARGS) \ $(BOARD_AVB_MAKE_$(call to-upper,$(1))_IMAGE_ARGS) \ $(foreach image,$(BOARD_AVB_$(call to-upper,$(1))), \ --include_descriptors_from_image $(call images-for-partitions,$(image))) \ --output $@ endef ifdef BUILDING_SYSTEM_IMAGE ifdef BOARD_AVB_VBMETA_SYSTEM INSTALLED_VBMETA_SYSTEMIMAGE_TARGET := $(PRODUCT_OUT)/vbmeta_system.img $(INSTALLED_VBMETA_SYSTEMIMAGE_TARGET): \ $(AVBTOOL) \ $(call images-for-partitions,$(BOARD_AVB_VBMETA_SYSTEM)) \ $(BOARD_AVB_VBMETA_SYSTEM_KEY_PATH) $(call build-chained-vbmeta-image,vbmeta_system) endif endif # BUILDING_SYSTEM_IMAGE ifdef BOARD_AVB_VBMETA_VENDOR INSTALLED_VBMETA_VENDORIMAGE_TARGET := $(PRODUCT_OUT)/vbmeta_vendor.img $(INSTALLED_VBMETA_VENDORIMAGE_TARGET): \ $(AVBTOOL) \ $(call images-for-partitions,$(BOARD_AVB_VBMETA_VENDOR)) \ $(BOARD_AVB_VBMETA_VENDOR_KEY_PATH) $(call build-chained-vbmeta-image,vbmeta_vendor) endif define build-vbmetaimage-target $(call pretty,"Target vbmeta image: $(INSTALLED_VBMETAIMAGE_TARGET)") $(hide) mkdir -p $(AVB_CHAIN_KEY_DIR) $(call extract-avb-chain-public-keys, $(AVB_CHAIN_KEY_DIR)) $(hide) $(AVBTOOL) make_vbmeta_image \ $(INTERNAL_AVB_MAKE_VBMETA_IMAGE_ARGS) \ $(PRIVATE_AVB_VBMETA_SIGNING_ARGS) \ $(BOARD_AVB_MAKE_VBMETA_IMAGE_ARGS) \ --output $@ $(hide) rm -rf $(AVB_CHAIN_KEY_DIR) endef ifdef BUILDING_VBMETA_IMAGE INSTALLED_VBMETAIMAGE_TARGET := $(BUILT_VBMETAIMAGE_TARGET) $(INSTALLED_VBMETAIMAGE_TARGET): PRIVATE_AVB_VBMETA_SIGNING_ARGS := \ --algorithm $(BOARD_AVB_ALGORITHM) --key $(BOARD_AVB_KEY_PATH) $(INSTALLED_VBMETAIMAGE_TARGET): \ $(AVBTOOL) \ $(INSTALLED_BOOTIMAGE_TARGET) \ $(INSTALLED_VENDOR_BOOTIMAGE_TARGET) \ $(INSTALLED_SYSTEMIMAGE_TARGET) \ $(INSTALLED_VENDORIMAGE_TARGET) \ $(INSTALLED_PRODUCTIMAGE_TARGET) \ $(INSTALLED_SYSTEM_EXTIMAGE_TARGET) \ $(INSTALLED_ODMIMAGE_TARGET) \ $(INSTALLED_VENDOR_DLKMIMAGE_TARGET) \ $(INSTALLED_ODM_DLKMIMAGE_TARGET) \ $(INSTALLED_DTBOIMAGE_TARGET) \ $(INSTALLED_PVMFWIMAGE_TARGET) \ $(INSTALLED_CUSTOMIMAGES_TARGET) \ $(INSTALLED_RECOVERYIMAGE_TARGET) \ $(INSTALLED_VBMETA_SYSTEMIMAGE_TARGET) \ $(INSTALLED_VBMETA_VENDORIMAGE_TARGET) \ $(BOARD_AVB_VBMETA_SYSTEM_KEY_PATH) \ $(BOARD_AVB_VBMETA_VENDOR_KEY_PATH) \ $(BOARD_AVB_KEY_PATH) $(build-vbmetaimage-target) .PHONY: vbmetaimage-nodeps vbmetaimage-nodeps: PRIVATE_AVB_VBMETA_SIGNING_ARGS := \ --algorithm $(BOARD_AVB_ALGORITHM) --key $(BOARD_AVB_KEY_PATH) vbmetaimage-nodeps: $(build-vbmetaimage-target) endif # BUILDING_VBMETA_IMAGE endif # BOARD_AVB_ENABLE # List of files from all images INTERNAL_ALLIMAGES_FILES := \ $(FULL_SYSTEMIMAGE_DEPS) \ $(INTERNAL_RAMDISK_FILES) \ $(INTERNAL_USERDATAIMAGE_FILES) \ $(INTERNAL_VENDORIMAGE_FILES) \ $(INTERNAL_PRODUCTIMAGE_FILES) \ $(INTERNAL_SYSTEM_EXTIMAGE_FILES) \ $(INTERNAL_ODMIMAGE_FILES) \ $(INTERNAL_VENDOR_DLKMIMAGE_FILES) \ $(INTERNAL_ODM_DLKMIMAGE_FILES) \ # ----------------------------------------------------------------- # Check VINTF of build # Note: vendor_dlkm and odm_dlkm does not have VINTF files. ifeq (,$(TARGET_BUILD_UNBUNDLED)) intermediates := $(call intermediates-dir-for,PACKAGING,check_vintf_all) check_vintf_all_deps := # The build system only writes VINTF metadata to */etc/vintf paths. Legacy paths aren't needed here # because they are only used for prebuilt images. check_vintf_common_srcs_patterns := \ $(TARGET_OUT)/etc/vintf/% \ $(TARGET_OUT_VENDOR)/etc/vintf/% \ $(TARGET_OUT_ODM)/etc/vintf/% \ $(TARGET_OUT_PRODUCT)/etc/vintf/% \ $(TARGET_OUT_SYSTEM_EXT)/etc/vintf/% \ check_vintf_common_srcs := $(sort $(filter $(check_vintf_common_srcs_patterns),$(INTERNAL_ALLIMAGES_FILES))) check_vintf_common_srcs_patterns := check_vintf_has_system := check_vintf_has_vendor := ifneq (,$(filter EMPTY_ODM_SKU_PLACEHOLDER,$(ODM_MANIFEST_SKUS))) $(error EMPTY_ODM_SKU_PLACEHOLDER is an internal variable and cannot be used for ODM_MANIFEST_SKUS) endif ifneq (,$(filter EMPTY_VENDOR_SKU_PLACEHOLDER,$(DEVICE_MANIFEST_SKUS))) $(error EMPTY_VENDOR_SKU_PLACEHOLDER is an internal variable and cannot be used for DEIVCE_MANIFEST_SKUS) endif # -- Check system manifest / matrix including fragments (excluding other framework manifests / matrices, e.g. product); check_vintf_system_deps := $(filter $(TARGET_OUT)/etc/vintf/%, $(check_vintf_common_srcs)) ifneq ($(check_vintf_system_deps),) check_vintf_has_system := true check_vintf_system_log := $(intermediates)/check_vintf_system.log check_vintf_all_deps += $(check_vintf_system_log) $(check_vintf_system_log): $(HOST_OUT_EXECUTABLES)/checkvintf $(check_vintf_system_deps) @( $< --check-one --dirmap /system:$(TARGET_OUT) > $@ 2>&1 ) || ( cat $@ && exit 1 ) check_vintf_system_log := vintffm_log := $(intermediates)/vintffm.log check_vintf_all_deps += $(vintffm_log) $(vintffm_log): $(HOST_OUT_EXECUTABLES)/vintffm $(check_vintf_system_deps) @( $< --check --dirmap /system:$(TARGET_OUT) \ $(VINTF_FRAMEWORK_MANIFEST_FROZEN_DIR) > $@ 2>&1 ) || ( cat $@ && exit 1 ) endif # check_vintf_system_deps check_vintf_system_deps := # -- Check vendor manifest / matrix including fragments (excluding other device manifests / matrices) check_vintf_vendor_deps := $(filter $(TARGET_OUT_VENDOR)/etc/vintf/%, $(check_vintf_common_srcs)) ifneq ($(check_vintf_vendor_deps),) check_vintf_has_vendor := true check_vintf_vendor_log := $(intermediates)/check_vintf_vendor.log check_vintf_all_deps += $(check_vintf_vendor_log) # Check vendor SKU=(empty) case when: # - DEVICE_MANIFEST_FILE is not empty; OR # - DEVICE_MANIFEST_FILE is empty AND DEVICE_MANIFEST_SKUS is empty (only vendor manifest fragments are used) $(check_vintf_vendor_log): PRIVATE_VENDOR_SKUS := \ $(if $(DEVICE_MANIFEST_FILE),EMPTY_VENDOR_SKU_PLACEHOLDER,\ $(if $(DEVICE_MANIFEST_SKUS),,EMPTY_VENDOR_SKU_PLACEHOLDER)) \ $(DEVICE_MANIFEST_SKUS) $(check_vintf_vendor_log): $(HOST_OUT_EXECUTABLES)/checkvintf $(check_vintf_vendor_deps) $(foreach vendor_sku,$(PRIVATE_VENDOR_SKUS), \ ( $< --check-one --dirmap /vendor:$(TARGET_OUT_VENDOR) \ --property ro.boot.product.vendor.sku=$(filter-out EMPTY_VENDOR_SKU_PLACEHOLDER,$(vendor_sku)) \ > $@ 2>&1 ) || ( cat $@ && exit 1 ); ) check_vintf_vendor_log := endif # check_vintf_vendor_deps check_vintf_vendor_deps := # -- Kernel version and configurations. ifeq ($(PRODUCT_OTA_ENFORCE_VINTF_KERNEL_REQUIREMENTS),true) BUILT_KERNEL_CONFIGS_FILE := $(intermediates)/kernel_configs.txt BUILT_KERNEL_VERSION_FILE := $(intermediates)/kernel_version.txt my_board_extracted_kernel := # BOARD_KERNEL_CONFIG_FILE and BOARD_KERNEL_VERSION can be used to override the values extracted # from INSTALLED_KERNEL_TARGET. ifdef BOARD_KERNEL_CONFIG_FILE ifdef BOARD_KERNEL_VERSION $(BUILT_KERNEL_CONFIGS_FILE): $(BOARD_KERNEL_CONFIG_FILE) cp $< $@ $(BUILT_KERNEL_VERSION_FILE): echo $(BOARD_KERNEL_VERSION) > $@ my_board_extracted_kernel := true endif # BOARD_KERNEL_VERSION endif # BOARD_KERNEL_CONFIG_FILE ifneq ($(my_board_extracted_kernel),true) # Tools for decompression that is not in PATH. # Check $(EXTRACT_KERNEL) for decompression algorithms supported by the script. # Algorithms that are in the script but not in this list will be found in PATH. my_decompress_tools := \ lz4:$(HOST_OUT_EXECUTABLES)/lz4 \ endif # my_board_extracted_kernel ifneq ($(my_board_extracted_kernel),true) ifdef INSTALLED_KERNEL_TARGET $(BUILT_KERNEL_CONFIGS_FILE): .KATI_IMPLICIT_OUTPUTS := $(BUILT_KERNEL_VERSION_FILE) $(BUILT_KERNEL_CONFIGS_FILE): PRIVATE_DECOMPRESS_TOOLS := $(my_decompress_tools) $(BUILT_KERNEL_CONFIGS_FILE): $(foreach pair,$(my_decompress_tools),$(call word-colon,2,$(pair))) $(BUILT_KERNEL_CONFIGS_FILE): $(EXTRACT_KERNEL) $(firstword $(INSTALLED_KERNEL_TARGET)) $< --tools $(PRIVATE_DECOMPRESS_TOOLS) --input $(firstword $(INSTALLED_KERNEL_TARGET)) \ --output-configs $@ \ --output-release $(BUILT_KERNEL_VERSION_FILE) my_board_extracted_kernel := true endif # INSTALLED_KERNEL_TARGET endif # my_board_extracted_kernel ifneq ($(my_board_extracted_kernel),true) ifdef INSTALLED_BOOTIMAGE_TARGET $(BUILT_KERNEL_CONFIGS_FILE): .KATI_IMPLICIT_OUTPUTS := $(BUILT_KERNEL_VERSION_FILE) $(BUILT_KERNEL_CONFIGS_FILE): PRIVATE_DECOMPRESS_TOOLS := $(my_decompress_tools) $(BUILT_KERNEL_CONFIGS_FILE): $(foreach pair,$(my_decompress_tools),$(call word-colon,2,$(pair))) $(BUILT_KERNEL_CONFIGS_FILE): PRIVATE_UNPACKED_BOOTIMG := $(intermediates)/unpacked_bootimage $(BUILT_KERNEL_CONFIGS_FILE): \ $(HOST_OUT_EXECUTABLES)/unpack_bootimg \ $(EXTRACT_KERNEL) \ $(INSTALLED_BOOTIMAGE_TARGET) $(HOST_OUT_EXECUTABLES)/unpack_bootimg --boot_img $(INSTALLED_BOOTIMAGE_TARGET) --out $(PRIVATE_UNPACKED_BOOTIMG) $(EXTRACT_KERNEL) --tools $(PRIVATE_DECOMPRESS_TOOLS) --input $(PRIVATE_UNPACKED_BOOTIMG)/kernel \ --output-configs $@ \ --output-release $(BUILT_KERNEL_VERSION_FILE) my_board_extracted_kernel := true endif # INSTALLED_BOOTIMAGE_TARGET endif # my_board_extracted_kernel ifneq ($(my_board_extracted_kernel),true) $(warning Neither INSTALLED_KERNEL_TARGET nor INSTALLED_BOOTIMAGE_TARGET is defined when \ PRODUCT_OTA_ENFORCE_VINTF_KERNEL_REQUIREMENTS is true. Information about the updated kernel \ cannot be built into OTA update package. You can fix this by: \ (1) setting TARGET_NO_KERNEL to false and installing the built kernel to $(PRODUCT_OUT)/kernel,\ so that kernel information will be extracted from the built kernel; or \ (2) Add a prebuilt boot image and specify it in BOARD_PREBUILT_BOOTIMAGE; or \ (3) extracting kernel configuration and defining BOARD_KERNEL_CONFIG_FILE and \ BOARD_KERNEL_VERSION manually; or \ (4) unsetting PRODUCT_OTA_ENFORCE_VINTF_KERNEL_REQUIREMENTS manually.) # Clear their values to indicate that these two files does not exist. BUILT_KERNEL_CONFIGS_FILE := BUILT_KERNEL_VERSION_FILE := endif my_decompress_tools := my_board_extracted_kernel := endif # PRODUCT_OTA_ENFORCE_VINTF_KERNEL_REQUIREMENTS # -- Check VINTF compatibility of build. # Skip partial builds; only check full builds. Only check if: # - PRODUCT_ENFORCE_VINTF_MANIFEST is true # - system / vendor VINTF metadata exists # - Building product / system_ext / odm images if board has product / system_ext / odm images ifeq ($(PRODUCT_ENFORCE_VINTF_MANIFEST),true) ifeq ($(check_vintf_has_system),true) ifeq ($(check_vintf_has_vendor),true) ifeq ($(filter true,$(BUILDING_ODM_IMAGE)),$(filter true,$(BOARD_USES_ODMIMAGE))) ifeq ($(filter true,$(BUILDING_PRODUCT_IMAGE)),$(filter true,$(BOARD_USES_PRODUCTIMAGE))) ifeq ($(filter true,$(BUILDING_SYSTEM_EXT_IMAGE)),$(filter true,$(BOARD_USES_SYSTEM_EXTIMAGE))) check_vintf_compatible_log := $(intermediates)/check_vintf_compatible.log check_vintf_all_deps += $(check_vintf_compatible_log) check_vintf_compatible_args := check_vintf_compatible_deps := $(check_vintf_common_srcs) ifeq ($(PRODUCT_OTA_ENFORCE_VINTF_KERNEL_REQUIREMENTS),true) ifneq (,$(BUILT_KERNEL_VERSION_FILE)$(BUILT_KERNEL_CONFIGS_FILE)) check_vintf_compatible_args += --kernel $(BUILT_KERNEL_VERSION_FILE):$(BUILT_KERNEL_CONFIGS_FILE) check_vintf_compatible_deps += $(BUILT_KERNEL_CONFIGS_FILE) $(BUILT_KERNEL_VERSION_FILE) endif # BUILT_KERNEL_VERSION_FILE != "" || BUILT_KERNEL_CONFIGS_FILE != "" endif # PRODUCT_OTA_ENFORCE_VINTF_KERNEL_REQUIREMENTS check_vintf_compatible_args += \ --dirmap /system:$(TARGET_OUT) \ --dirmap /vendor:$(TARGET_OUT_VENDOR) \ --dirmap /odm:$(TARGET_OUT_ODM) \ --dirmap /product:$(TARGET_OUT_PRODUCT) \ --dirmap /system_ext:$(TARGET_OUT_SYSTEM_EXT) \ ifdef PRODUCT_SHIPPING_API_LEVEL check_vintf_compatible_args += --property ro.product.first_api_level=$(PRODUCT_SHIPPING_API_LEVEL) endif # PRODUCT_SHIPPING_API_LEVEL $(check_vintf_compatible_log): PRIVATE_CHECK_VINTF_ARGS := $(check_vintf_compatible_args) $(check_vintf_compatible_log): PRIVATE_CHECK_VINTF_DEPS := $(check_vintf_compatible_deps) # Check ODM SKU=(empty) case when: # - ODM_MANIFEST_FILES is not empty; OR # - ODM_MANIFEST_FILES is empty AND ODM_MANIFEST_SKUS is empty (only ODM manifest fragments are used) $(check_vintf_compatible_log): PRIVATE_ODM_SKUS := \ $(if $(ODM_MANIFEST_FILES),EMPTY_ODM_SKU_PLACEHOLDER,\ $(if $(ODM_MANIFEST_SKUS),,EMPTY_ODM_SKU_PLACEHOLDER)) \ $(ODM_MANIFEST_SKUS) # Check vendor SKU=(empty) case when: # - DEVICE_MANIFEST_FILE is not empty; OR # - DEVICE_MANIFEST_FILE is empty AND DEVICE_MANIFEST_SKUS is empty (only vendor manifest fragments are used) $(check_vintf_compatible_log): PRIVATE_VENDOR_SKUS := \ $(if $(DEVICE_MANIFEST_FILE),EMPTY_VENDOR_SKU_PLACEHOLDER,\ $(if $(DEVICE_MANIFEST_SKUS),,EMPTY_VENDOR_SKU_PLACEHOLDER)) \ $(DEVICE_MANIFEST_SKUS) $(check_vintf_compatible_log): $(HOST_OUT_EXECUTABLES)/checkvintf $(check_vintf_compatible_deps) @echo "PRODUCT_OTA_ENFORCE_VINTF_KERNEL_REQUIREMENTS=$(PRODUCT_OTA_ENFORCE_VINTF_KERNEL_REQUIREMENTS)" > $@ @echo -n -e 'Deps: \n ' >> $@ @sed 's/ /\n /g' <<< "$(PRIVATE_CHECK_VINTF_DEPS)" >> $@ @echo -n -e 'Args: \n ' >> $@ @cat <<< "$(PRIVATE_CHECK_VINTF_ARGS)" >> $@ $(foreach odm_sku,$(PRIVATE_ODM_SKUS), $(foreach vendor_sku,$(PRIVATE_VENDOR_SKUS), \ echo "For ODM SKU = $(odm_sku), vendor SKU = $(vendor_sku)" >> $@; \ ( $< --check-compat $(PRIVATE_CHECK_VINTF_ARGS) \ --property ro.boot.product.hardware.sku=$(filter-out EMPTY_ODM_SKU_PLACEHOLDER,$(odm_sku)) \ --property ro.boot.product.vendor.sku=$(filter-out EMPTY_VENDOR_SKU_PLACEHOLDER,$(vendor_sku)) \ >> $@ 2>&1 ) || (cat $@ && exit 1); )) check_vintf_compatible_log := check_vintf_compatible_args := check_vintf_compatible_deps := endif # BUILDING_SYSTEM_EXT_IMAGE equals BOARD_USES_SYSTEM_EXTIMAGE endif # BUILDING_PRODUCT_IMAGE equals BOARD_USES_PRODUCTIMAGE endif # BUILDING_ODM_IMAGE equals BOARD_USES_ODMIMAGE endif # check_vintf_has_vendor endif # check_vintf_has_system endif # PRODUCT_ENFORCE_VINTF_MANIFEST # Add all logs of VINTF checks to dist builds droid_targets: $(check_vintf_all_deps) $(call dist-for-goals, droid_targets, $(check_vintf_all_deps)) # Helper alias to check all VINTF of current build. .PHONY: check-vintf-all check-vintf-all: $(check_vintf_all_deps) $(foreach file,$^,echo "$(file)"; cat "$(file)"; echo;) check_vintf_has_vendor := check_vintf_has_system := check_vintf_common_srcs := check_vintf_all_deps := intermediates := endif # !TARGET_BUILD_UNBUNDLED # ----------------------------------------------------------------- # Check image sizes <= size of super partition ifeq (,$(TARGET_BUILD_UNBUNDLED)) ifeq (true,$(PRODUCT_BUILD_SUPER_PARTITION)) PARTITIONS_AND_OTHER_IN_SUPER := $(BOARD_SUPER_PARTITION_PARTITION_LIST) # Add the system other image to the misc_info. Because factory ota may install system_other to the super partition. ifdef BUILDING_SYSTEM_OTHER_IMAGE PARTITIONS_AND_OTHER_IN_SUPER += system_other endif # BUILDING_SYSTEM_OTHER_IMAGE # $(1): misc_info.txt # #(2): optional log file define check-all-partition-sizes-target mkdir -p $(dir $(1)) rm -f $(1) $(call dump-super-image-info, $(1)) $(foreach partition,$(PARTITIONS_AND_OTHER_IN_SUPER), \ echo "$(partition)_image="$(call images-for-partitions,$(partition)) >> $(1);) $(CHECK_PARTITION_SIZES) $(if $(2),--logfile $(2),-v) $(1) endef check_all_partition_sizes_log := $(call intermediates-dir-for,PACKAGING,check-all-partition-sizes)/check_all_partition_sizes.log droid_targets: $(check_all_partition_sizes_log) $(call dist-for-goals, droid_targets, $(check_all_partition_sizes_log)) $(check_all_partition_sizes_log): \ $(CHECK_PARTITION_SIZES) \ $(call images-for-partitions,$(PARTITIONS_AND_OTHER_IN_SUPER)) $(call check-all-partition-sizes-target, \ $(call intermediates-dir-for,PACKAGING,check-all-partition-sizes)/misc_info.txt, \ $@) .PHONY: check-all-partition-sizes check-all-partition-sizes: $(check_all_partition_sizes_log) .PHONY: check-all-partition-sizes-nodeps check-all-partition-sizes-nodeps: $(call check-all-partition-sizes-target, \ $(call intermediates-dir-for,PACKAGING,check-all-partition-sizes-nodeps)/misc_info.txt) endif # PRODUCT_BUILD_SUPER_PARTITION endif # !TARGET_BUILD_UNBUNDLED # ----------------------------------------------------------------- # bring in the installer image generation defines if necessary ifeq ($(TARGET_USE_DISKINSTALLER),true) include bootable/diskinstaller/config.mk endif # ----------------------------------------------------------------- # host tools needed to build dist and OTA packages ifeq ($(BUILD_OS),darwin) build_ota_package := false build_otatools_package := false else # Set build_ota_package, and allow opt-out below. build_ota_package := true ifeq ($(TARGET_SKIP_OTA_PACKAGE),true) build_ota_package := false endif ifneq (,$(filter address, $(SANITIZE_TARGET))) build_ota_package := false endif ifeq ($(TARGET_PRODUCT),sdk) build_ota_package := false endif # A target without a kernel may be one of the following: # - A generic target. In this case, the OTA package usually isn't built. # PRODUCT_BUILD_GENERIC_OTA_PACKAGE may be set to true to force OTA package # generation. # - A real device target, with TARGET_NO_KERNEL set to true and # BOARD_PREBUILT_BOOTIMAGE set. In this case, it is valid to generate # an OTA package. ifneq ($(PRODUCT_BUILD_GENERIC_OTA_PACKAGE),true) ifneq ($(filter generic%,$(TARGET_DEVICE)),) build_ota_package := false endif ifeq ($(INSTALLED_BOOTIMAGE_TARGET),) ifeq ($(TARGET_NO_KERNEL),true) build_ota_package := false endif endif # INSTALLED_BOOTIMAGE_TARGET == "" ifeq ($(recovery_fstab),) build_ota_package := false endif endif # PRODUCT_BUILD_GENERIC_OTA_PACKAGE # Set build_otatools_package, and allow opt-out below. build_otatools_package := true ifeq ($(TARGET_SKIP_OTATOOLS_PACKAGE),true) build_otatools_package := false endif endif ifeq ($(build_otatools_package),true) INTERNAL_OTATOOLS_MODULES := \ aapt2 \ add_img_to_target_files \ aftltool \ apksigner \ append2simg \ avbtool \ blk_alloc_to_base_fs \ boot_signer \ brillo_update_payload \ brotli \ bsdiff \ build_image \ build_super_image \ build_verity_metadata \ build_verity_tree \ care_map_generator \ check_ota_package_signature \ check_target_files_signatures \ check_target_files_vintf \ checkvintf \ delta_generator \ e2fsck \ e2fsdroid \ fc_sort \ fec \ fsck.f2fs \ fs_config \ generate_verity_key \ host_init_verifier \ img2simg \ img_from_target_files \ imgdiff \ libconscrypt_openjdk_jni \ lpmake \ lpunpack \ lz4 \ make_f2fs \ make_f2fs_casefold \ merge_target_files \ minigzip \ mk_combined_img \ mkbootfs \ mkbootimg \ mke2fs \ mke2fs.conf \ mkfs.erofs \ mkerofsimage.sh \ mkf2fsuserimg.sh \ mksquashfs \ mksquashfsimage.sh \ mkuserimg_mke2fs \ ota_from_target_files \ repack_bootimg \ secilc \ sefcontext_compile \ sgdisk \ shflags \ sign_apex \ sign_target_files_apks \ signapk \ simg2img \ sload_f2fs \ toybox \ tune2fs \ unpack_bootimg \ update_host_simulator \ validate_target_files \ verity_signer \ verity_verifier \ zipalign \ # Additional tools to unpack and repack the apex file. INTERNAL_OTATOOLS_MODULES += \ apexer \ apex_compression_tool \ deapexer \ debugfs_static \ merge_zips \ resize2fs \ soong_zip \ ifeq (true,$(PRODUCT_SUPPORTS_VBOOT)) INTERNAL_OTATOOLS_MODULES += \ futility \ vboot_signer endif INTERNAL_OTATOOLS_FILES := \ $(filter $(HOST_OUT)/%,$(call module-installed-files,$(INTERNAL_OTATOOLS_MODULES))) .PHONY: otatools otatools: $(INTERNAL_OTATOOLS_FILES) # For each module, recursively resolve its host shared library dependencies. Then we have a full # list of modules whose installed files need to be packed. INTERNAL_OTATOOLS_MODULES_WITH_DEPS := \ $(sort $(INTERNAL_OTATOOLS_MODULES) \ $(foreach m,$(INTERNAL_OTATOOLS_MODULES),$(call get-all-shared-libs-deps,$(m)))) INTERNAL_OTATOOLS_PACKAGE_FILES := \ $(filter $(HOST_OUT)/%,$(call module-installed-files,$(INTERNAL_OTATOOLS_MODULES_WITH_DEPS))) INTERNAL_OTATOOLS_PACKAGE_FILES += \ $(sort $(shell find build/make/target/product/security -type f -name "*.x509.pem" -o \ -name "*.pk8" -o -name verity_key)) ifneq (,$(wildcard device)) INTERNAL_OTATOOLS_PACKAGE_FILES += \ $(sort $(shell find device $(wildcard vendor) -type f -name "*.pk8" -o -name "verifiedboot*" -o \ -name "*.pem" -o -name "oem*.prop" -o -name "*.avbpubkey")) endif ifneq (,$(wildcard external/avb)) INTERNAL_OTATOOLS_PACKAGE_FILES += \ $(sort $(shell find external/avb/test/data -type f -name "testkey_*.pem" -o \ -name "atx_metadata.bin")) endif ifeq (true,$(PRODUCT_SUPPORTS_VBOOT)) INTERNAL_OTATOOLS_PACKAGE_FILES += \ $(sort $(shell find external/vboot_reference/tests/devkeys -type f)) endif INTERNAL_OTATOOLS_RELEASETOOLS := \ $(sort $(shell find build/make/tools/releasetools -name "*.pyc" -prune -o \ \( -type f -o -type l \) -print)) BUILT_OTATOOLS_PACKAGE := $(PRODUCT_OUT)/otatools.zip $(BUILT_OTATOOLS_PACKAGE): PRIVATE_ZIP_ROOT := $(call intermediates-dir-for,PACKAGING,otatools)/otatools $(BUILT_OTATOOLS_PACKAGE): PRIVATE_OTATOOLS_PACKAGE_FILES := $(INTERNAL_OTATOOLS_PACKAGE_FILES) $(BUILT_OTATOOLS_PACKAGE): PRIVATE_OTATOOLS_RELEASETOOLS := $(INTERNAL_OTATOOLS_RELEASETOOLS) $(BUILT_OTATOOLS_PACKAGE): $(INTERNAL_OTATOOLS_PACKAGE_FILES) $(INTERNAL_OTATOOLS_RELEASETOOLS) $(BUILT_OTATOOLS_PACKAGE): $(SOONG_ZIP) $(ZIP2ZIP) @echo "Package OTA tools: $@" rm -rf $@ $(PRIVATE_ZIP_ROOT) mkdir -p $(dir $@) $(call copy-files-with-structure,$(PRIVATE_OTATOOLS_PACKAGE_FILES),$(HOST_OUT)/,$(PRIVATE_ZIP_ROOT)) $(call copy-files-with-structure,$(PRIVATE_OTATOOLS_RELEASETOOLS),build/make/tools/,$(PRIVATE_ZIP_ROOT)) cp $(SOONG_ZIP) $(ZIP2ZIP) $(MERGE_ZIPS) $(PRIVATE_ZIP_ROOT)/bin/ $(SOONG_ZIP) -o $@ -C $(PRIVATE_ZIP_ROOT) -D $(PRIVATE_ZIP_ROOT) .PHONY: otatools-package otatools-package: $(BUILT_OTATOOLS_PACKAGE) endif # build_otatools_package # ----------------------------------------------------------------- # misc_info.txt INSTALLED_MISC_INFO_TARGET := $(PRODUCT_OUT)/misc_info.txt ifeq ($(TARGET_RELEASETOOLS_EXTENSIONS),) # default to common dir for device vendor tool_extensions := $(TARGET_DEVICE_DIR)/../common else tool_extensions := $(TARGET_RELEASETOOLS_EXTENSIONS) endif .KATI_READONLY := tool_extensions # $1: boot image file name define misc_boot_size $(subst .img,_size,$(1))=$(BOARD_KERNEL$(call to-upper,$(subst boot,,$(subst .img,,$(1))))_BOOTIMAGE_PARTITION_SIZE) endef $(INSTALLED_MISC_INFO_TARGET): rm -f $@ $(call pretty,"Target misc_info.txt: $@") $(hide) echo "recovery_api_version=$(RECOVERY_API_VERSION)" >> $@ $(hide) echo "fstab_version=$(RECOVERY_FSTAB_VERSION)" >> $@ ifdef BOARD_FLASH_BLOCK_SIZE $(hide) echo "blocksize=$(BOARD_FLASH_BLOCK_SIZE)" >> $@ endif ifneq ($(strip $(BOARD_BOOTIMAGE_PARTITION_SIZE))$(strip $(BOARD_KERNEL_BINARIES)),) $(foreach b,$(INSTALLED_BOOTIMAGE_TARGET),\ echo "$(call misc_boot_size,$(notdir $(b)))" >> $@;) endif ifeq ($(INSTALLED_BOOTIMAGE_TARGET),) $(hide) echo "no_boot=true" >> $@ else echo "boot_images=$(foreach b,$(INSTALLED_BOOTIMAGE_TARGET),$(notdir $(b)))" >> $@ endif ifeq ($(BOARD_RAMDISK_USE_LZ4),true) echo "lz4_ramdisks=true" >> $@ endif ifneq ($(INSTALLED_VENDOR_BOOTIMAGE_TARGET),) echo "vendor_boot=true" >> $@ echo "vendor_boot_size=$(BOARD_VENDOR_BOOTIMAGE_PARTITION_SIZE)" >> $@ endif ifeq ($(INSTALLED_RECOVERYIMAGE_TARGET),) $(hide) echo "no_recovery=true" >> $@ endif ifdef BOARD_INCLUDE_RECOVERY_DTBO $(hide) echo "include_recovery_dtbo=true" >> $@ endif ifdef BOARD_INCLUDE_RECOVERY_ACPIO $(hide) echo "include_recovery_acpio=true" >> $@ endif ifdef BOARD_RECOVERYIMAGE_PARTITION_SIZE $(hide) echo "recovery_size=$(BOARD_RECOVERYIMAGE_PARTITION_SIZE)" >> $@ endif ifdef TARGET_RECOVERY_FSTYPE_MOUNT_OPTIONS @# TARGET_RECOVERY_FSTYPE_MOUNT_OPTIONS can be empty to indicate that nothing but defaults should be used. $(hide) echo "recovery_mount_options=$(TARGET_RECOVERY_FSTYPE_MOUNT_OPTIONS)" >> $@ else $(hide) echo "recovery_mount_options=$(DEFAULT_TARGET_RECOVERY_FSTYPE_MOUNT_OPTIONS)" >> $@ endif $(hide) echo "tool_extensions=$(tool_extensions)" >> $@ $(hide) echo "default_system_dev_certificate=$(DEFAULT_SYSTEM_DEV_CERTIFICATE)" >> $@ ifdef PRODUCT_EXTRA_RECOVERY_KEYS $(hide) echo "extra_recovery_keys=$(PRODUCT_EXTRA_RECOVERY_KEYS)" >> $@ endif $(hide) echo 'mkbootimg_args=$(BOARD_MKBOOTIMG_ARGS)' >> $@ $(hide) echo 'recovery_mkbootimg_args=$(BOARD_RECOVERY_MKBOOTIMG_ARGS)' >> $@ $(hide) echo 'mkbootimg_version_args=$(INTERNAL_MKBOOTIMG_VERSION_ARGS)' >> $@ ifdef BOARD_GKI_SIGNING_KEY_PATH $(hide) echo 'gki_signing_key_path=$(BOARD_GKI_SIGNING_KEY_PATH)' >> $@ $(hide) echo 'gki_signing_algorithm=$(BOARD_GKI_SIGNING_ALGORITHM)' >> $@ endif ifdef BOARD_GKI_SIGNING_SIGNATURE_ARGS $(hide) echo 'gki_signing_signature_args=$(BOARD_GKI_SIGNING_SIGNATURE_ARGS)' >> $@ endif $(hide) echo "multistage_support=1" >> $@ $(hide) echo "blockimgdiff_versions=3,4" >> $@ ifeq ($(PRODUCT_BUILD_GENERIC_OTA_PACKAGE),true) $(hide) echo "build_generic_ota_package=true" >> $@ endif ifneq ($(OEM_THUMBPRINT_PROPERTIES),) # OTA scripts are only interested in fingerprint related properties $(hide) echo "oem_fingerprint_properties=$(OEM_THUMBPRINT_PROPERTIES)" >> $@ endif ifneq (,$(filter address, $(SANITIZE_TARGET))) # We need to create userdata.img with real data because the instrumented libraries are in userdata.img. $(hide) echo "userdata_img_with_data=true" >> $@ endif ifeq ($(BOARD_USES_FULL_RECOVERY_IMAGE),true) $(hide) echo "full_recovery_image=true" >> $@ endif ifdef BOARD_USES_VENDORIMAGE $(hide) echo "board_uses_vendorimage=true" >> $@ endif ifeq ($(BOARD_AVB_ENABLE),true) ifeq ($(BUILDING_VBMETA_IMAGE),true) $(hide) echo "avb_building_vbmeta_image=true" >> $@ endif # BUILDING_VBMETA_IMAGE $(hide) echo "avb_enable=true" >> $@ $(hide) echo "avb_vbmeta_key_path=$(BOARD_AVB_KEY_PATH)" >> $@ $(hide) echo "avb_vbmeta_algorithm=$(BOARD_AVB_ALGORITHM)" >> $@ $(hide) echo "avb_vbmeta_args=$(BOARD_AVB_MAKE_VBMETA_IMAGE_ARGS)" >> $@ $(hide) echo "avb_boot_add_hash_footer_args=$(BOARD_AVB_BOOT_ADD_HASH_FOOTER_ARGS)" >> $@ ifdef BOARD_AVB_BOOT_KEY_PATH $(hide) echo "avb_boot_key_path=$(BOARD_AVB_BOOT_KEY_PATH)" >> $@ $(hide) echo "avb_boot_algorithm=$(BOARD_AVB_BOOT_ALGORITHM)" >> $@ $(hide) echo "avb_boot_rollback_index_location=$(BOARD_AVB_BOOT_ROLLBACK_INDEX_LOCATION)" >> $@ endif # BOARD_AVB_BOOT_KEY_PATH echo "avb_vendor_boot_add_hash_footer_args=$(BOARD_AVB_VENDOR_BOOT_ADD_HASH_FOOTER_ARGS)" >> $@ ifdef BOARD_AVB_VENDOR_BOOT_KEY_PATH echo "avb_vendor_boot_key_path=$(BOARD_AVB_VENDOR_BOOT_KEY_PATH)" >> $@ echo "avb_vendor_boot_algorithm=$(BOARD_AVB_VENDOR_BOOT_ALGORITHM)" >> $@ echo "avb_vendor_boot_rollback_index_location=$(BOARD_AVB_VENDOR_BOOT_ROLLBACK_INDEX_LOCATION)" >> $@ endif # BOARD_AVB_VENDOR_BOOT_KEY_PATH $(hide) echo "avb_recovery_add_hash_footer_args=$(BOARD_AVB_RECOVERY_ADD_HASH_FOOTER_ARGS)" >> $@ ifdef BOARD_AVB_RECOVERY_KEY_PATH $(hide) echo "avb_recovery_key_path=$(BOARD_AVB_RECOVERY_KEY_PATH)" >> $@ $(hide) echo "avb_recovery_algorithm=$(BOARD_AVB_RECOVERY_ALGORITHM)" >> $@ $(hide) echo "avb_recovery_rollback_index_location=$(BOARD_AVB_RECOVERY_ROLLBACK_INDEX_LOCATION)" >> $@ endif # BOARD_AVB_RECOVERY_KEY_PATH ifneq (,$(strip $(BOARD_CUSTOMIMAGES_PARTITION_LIST))) $(hide) echo "avb_custom_images_partition_list=$(BOARD_CUSTOMIMAGES_PARTITION_LIST)" >> $@ $(hide) $(foreach partition,$(BOARD_CUSTOMIMAGES_PARTITION_LIST), \ echo "avb_$(partition)_key_path=$(BOARD_AVB_$(call to-upper,$(partition))_KEY_PATH)" >> $@; \ echo "avb_$(partition)_algorithm=$(BOARD_AVB_$(call to-upper,$(partition))_ALGORITHM)" >> $@; \ echo "avb_$(partition)_add_hashtree_footer_args=$(BOARD_AVB_$(call to-upper,$(partition))_ADD_HASHTREE_FOOTER_ARGS)" >> $@; \ echo "avb_$(partition)_rollback_index_location=$(BOARD_AVB_$(call to-upper,$(partition))_ROLLBACK_INDEX_LOCATION)" >> $@; \ echo "avb_$(partition)_partition_size=$(BOARD_AVB_$(call to-upper,$(partition))_PARTITION_SIZE)" >> $@; \ echo "avb_$(partition)_image_list=$(foreach image,$(BOARD_AVB_$(call to-upper,$(partition))_IMAGE_LIST),$(notdir $(image)))" >> $@;) endif # BOARD_CUSTOMIMAGES_PARTITION_LIST ifneq (,$(strip $(BOARD_AVB_VBMETA_SYSTEM))) $(hide) echo "avb_vbmeta_system=$(BOARD_AVB_VBMETA_SYSTEM)" >> $@ $(hide) echo "avb_vbmeta_system_args=$(BOARD_AVB_MAKE_VBMETA_SYSTEM_IMAGE_ARGS)" >> $@ $(hide) echo "avb_vbmeta_system_key_path=$(BOARD_AVB_VBMETA_SYSTEM_KEY_PATH)" >> $@ $(hide) echo "avb_vbmeta_system_algorithm=$(BOARD_AVB_VBMETA_SYSTEM_ALGORITHM)" >> $@ $(hide) echo "avb_vbmeta_system_rollback_index_location=$(BOARD_AVB_VBMETA_SYSTEM_ROLLBACK_INDEX_LOCATION)" >> $@ endif # BOARD_AVB_VBMETA_SYSTEM ifneq (,$(strip $(BOARD_AVB_VBMETA_VENDOR))) $(hide) echo "avb_vbmeta_vendor=$(BOARD_AVB_VBMETA_VENDOR)" >> $@ $(hide) echo "avb_vbmeta_vendor_args=$(BOARD_AVB_MAKE_VBMETA_SYSTEM_IMAGE_ARGS)" >> $@ $(hide) echo "avb_vbmeta_vendor_key_path=$(BOARD_AVB_VBMETA_VENDOR_KEY_PATH)" >> $@ $(hide) echo "avb_vbmeta_vendor_algorithm=$(BOARD_AVB_VBMETA_VENDOR_ALGORITHM)" >> $@ $(hide) echo "avb_vbmeta_vendor_rollback_index_location=$(BOARD_AVB_VBMETA_VENDOR_ROLLBACK_INDEX_LOCATION)" >> $@ endif # BOARD_AVB_VBMETA_VENDOR_KEY_PATH endif # BOARD_AVB_ENABLE ifdef BOARD_BPT_INPUT_FILES $(hide) echo "board_bpt_enable=true" >> $@ $(hide) echo "board_bpt_make_table_args=$(BOARD_BPT_MAKE_TABLE_ARGS)" >> $@ $(hide) echo "board_bpt_input_files=$(BOARD_BPT_INPUT_FILES)" >> $@ endif ifdef BOARD_BPT_DISK_SIZE $(hide) echo "board_bpt_disk_size=$(BOARD_BPT_DISK_SIZE)" >> $@ endif $(call generate-userimage-prop-dictionary, $@) ifeq ($(AB_OTA_UPDATER),true) @# Include the build type in META/misc_info.txt so the server can easily differentiate production builds. $(hide) echo "build_type=$(TARGET_BUILD_VARIANT)" >> $@ $(hide) echo "ab_update=true" >> $@ endif ifeq ($(TARGET_OTA_ALLOW_NON_AB),true) $(hide) echo "allow_non_ab=true" >> $@ endif ifdef BOARD_PREBUILT_DTBOIMAGE $(hide) echo "has_dtbo=true" >> $@ ifeq ($(BOARD_AVB_ENABLE),true) $(hide) echo "dtbo_size=$(BOARD_DTBOIMG_PARTITION_SIZE)" >> $@ $(hide) echo "avb_dtbo_add_hash_footer_args=$(BOARD_AVB_DTBO_ADD_HASH_FOOTER_ARGS)" >> $@ ifdef BOARD_AVB_DTBO_KEY_PATH $(hide) echo "avb_dtbo_key_path=$(BOARD_AVB_DTBO_KEY_PATH)" >> $@ $(hide) echo "avb_dtbo_algorithm=$(BOARD_AVB_DTBO_ALGORITHM)" >> $@ $(hide) echo "avb_dtbo_rollback_index_location=$(BOARD_AVB_DTBO_ROLLBACK_INDEX_LOCATION)" >> $@ endif # BOARD_AVB_DTBO_KEY_PATH endif # BOARD_AVB_ENABLE endif # BOARD_PREBUILT_DTBOIMAGE ifdef BOARD_PREBUILT_PVMFWIMAGE $(hide) echo "has_pvmfw=true" >> $@ ifeq ($(BOARD_AVB_ENABLE),true) $(hide) echo "pvmfw_size=$(BOARD_PVMFWIMG_PARTITION_SIZE)" >> $@ $(hide) echo "avb_pvmfw_add_hash_footer_args=$(BOARD_AVB_PVMFW_ADD_HASH_FOOTER_ARGS)" >> $@ ifdef BOARD_AVB_PVMFW_KEY_PATH $(hide) echo "avb_pvmfw_key_path=$(BOARD_AVB_PVMFW_KEY_PATH)" >> $@ $(hide) echo "avb_pvmfw_algorithm=$(BOARD_AVB_PVMFW_ALGORITHM)" >> $@ $(hide) echo "avb_pvmfw_rollback_index_location=$(BOARD_AVB_PVMFW_ROLLBACK_INDEX_LOCATION)" >> $@ endif # BOARD_AVB_PVMFW_KEY_PATH endif # BOARD_AVB_ENABLE endif # BOARD_PREBUILT_PVMFWIMAGE $(call dump-dynamic-partitions-info,$@) @# VINTF checks ifeq ($(PRODUCT_ENFORCE_VINTF_MANIFEST),true) $(hide) echo "vintf_enforce=true" >> $@ endif ifdef ODM_MANIFEST_SKUS $(hide) echo "vintf_odm_manifest_skus=$(ODM_MANIFEST_SKUS)" >> $@ endif ifdef ODM_MANIFEST_FILES $(hide) echo "vintf_include_empty_odm_sku=true" >> $@ endif ifdef DEVICE_MANIFEST_SKUS $(hide) echo "vintf_vendor_manifest_skus=$(DEVICE_MANIFEST_SKUS)" >> $@ endif ifdef DEVICE_MANIFEST_FILE $(hide) echo "vintf_include_empty_vendor_sku=true" >> $@ endif ifeq ($(BOARD_BOOTLOADER_IN_UPDATE_PACKAGE),true) $(hide) echo "bootloader_in_update_package=true" >> $@ endif ifeq ($(BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE),true) $(hide) echo "exclude_kernel_from_recovery_image=true" >> $@ endif ifneq ($(BOARD_PARTIAL_OTA_UPDATE_PARTITIONS_LIST),) $(hide) echo "partial_ota_update_partitions_list=$(BOARD_PARTIAL_OTA_UPDATE_PARTITIONS_LIST)" >> $@ endif .PHONY: misc_info misc_info: $(INSTALLED_MISC_INFO_TARGET) droidcore-unbundled: $(INSTALLED_MISC_INFO_TARGET) # ----------------------------------------------------------------- # 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 := # We can't build static executables when SANITIZE_TARGET=address ifeq (,$(filter address, $(SANITIZE_TARGET))) built_ota_tools += \ $(call intermediates-dir-for,EXECUTABLES,updater)/updater endif $(BUILT_TARGET_FILES_PACKAGE): PRIVATE_OTA_TOOLS := $(built_ota_tools) tool_extension := $(wildcard $(tool_extensions)/releasetools.py) $(BUILT_TARGET_FILES_PACKAGE): PRIVATE_TOOL_EXTENSION := $(tool_extension) ifeq ($(AB_OTA_UPDATER),true) updater_dep := system/update_engine/update_engine.conf endif # Build OTA tools if non-A/B is allowed ifeq ($(TARGET_OTA_ALLOW_NON_AB),true) updater_dep := $(built_ota_tools) endif $(BUILT_TARGET_FILES_PACKAGE): $(updater_dep) # If we are using recovery as boot, output recovery files to BOOT/. # If we are moving recovery resources to vendor_boot, output recovery files to VENDOR_BOOT/. ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) $(BUILT_TARGET_FILES_PACKAGE): PRIVATE_RECOVERY_OUT := BOOT else ifeq ($(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT),true) $(BUILT_TARGET_FILES_PACKAGE): PRIVATE_RECOVERY_OUT := VENDOR_BOOT else $(BUILT_TARGET_FILES_PACKAGE): PRIVATE_RECOVERY_OUT := RECOVERY endif ifeq ($(AB_OTA_UPDATER),true) ifdef OSRELEASED_DIRECTORY $(BUILT_TARGET_FILES_PACKAGE): $(TARGET_OUT_OEM)/$(OSRELEASED_DIRECTORY)/product_id $(BUILT_TARGET_FILES_PACKAGE): $(TARGET_OUT_OEM)/$(OSRELEASED_DIRECTORY)/product_version $(BUILT_TARGET_FILES_PACKAGE): $(TARGET_OUT_ETC)/$(OSRELEASED_DIRECTORY)/system_version endif # Not checking in board_config.mk, since AB_OTA_PARTITIONS may be updated in Android.mk (e.g. to # additionally include radio or bootloader partitions). ifeq ($(AB_OTA_PARTITIONS),) $(error AB_OTA_PARTITIONS must be defined when using AB_OTA_UPDATER) endif endif ifneq ($(AB_OTA_PARTITIONS),) ifneq ($(AB_OTA_UPDATER),true) $(error AB_OTA_UPDATER must be true when defining AB_OTA_PARTITIONS) endif endif # Run fs_config while creating the target files package # $1: root directory # $2: add prefix define fs_config (cd $(1); find . -type d | sed 's,$$,/,'; find . \! -type d) | cut -c 3- | sort | sed 's,^,$(2),' | $(HOST_OUT_EXECUTABLES)/fs_config -C -D $(TARGET_OUT) -S $(SELINUX_FC) -R "$(2)" endef define filter-out-missing-vendor $(if $(INSTALLED_VENDORIMAGE_TARGET),$(1),$(filter-out vendor,$(1))) endef define filter-out-missing-vendor_dlkm $(if $(INSTALLED_VENDOR_DLKMIMAGE_TARGET),$(1),$(filter-out vendor_dlkm,$(1))) endef define filter-out-missing-odm $(if $(INSTALLED_ODMIMAGE_TARGET),$(1),$(filter-out odm,$(1))) endef define filter-out-missing-odm_dlkm $(if $(INSTALLED_ODM_DLKMIMAGE_TARGET),$(1),$(filter-out odm_dlkm,$(1))) endef # Filter out vendor,vendor_dlkm,odm,odm_dlkm from the list for AOSP targets. # $(1): list define filter-out-missing-partitions $(call filter-out-missing-vendor,\ $(call filter-out-missing-vendor_dlkm,\ $(call filter-out-missing-odm,\ $(call filter-out-missing-odm_dlkm,$(1))))) endef # Information related to dynamic partitions and virtual A/B. This information # is needed for building the super image (see dump-super-image-info) and # building OTA packages. # $(1): file define dump-dynamic-partitions-info $(if $(filter true,$(PRODUCT_USE_DYNAMIC_PARTITIONS)), \ echo "use_dynamic_partitions=true" >> $(1)) $(if $(filter true,$(PRODUCT_RETROFIT_DYNAMIC_PARTITIONS)), \ echo "dynamic_partition_retrofit=true" >> $(1)) echo "lpmake=$(notdir $(LPMAKE))" >> $(1) $(if $(filter true,$(PRODUCT_BUILD_SUPER_PARTITION)), $(if $(BOARD_SUPER_PARTITION_SIZE), \ echo "build_super_partition=true" >> $(1))) $(if $(BUILDING_SUPER_EMPTY_IMAGE), \ echo "build_super_empty_partition=true" >> $(1)) $(if $(filter true,$(BOARD_BUILD_RETROFIT_DYNAMIC_PARTITIONS_OTA_PACKAGE)), \ echo "build_retrofit_dynamic_partitions_ota_package=true" >> $(1)) echo "super_metadata_device=$(BOARD_SUPER_PARTITION_METADATA_DEVICE)" >> $(1) $(if $(BOARD_SUPER_PARTITION_BLOCK_DEVICES), \ echo "super_block_devices=$(BOARD_SUPER_PARTITION_BLOCK_DEVICES)" >> $(1)) $(foreach device,$(BOARD_SUPER_PARTITION_BLOCK_DEVICES), \ echo "super_$(device)_device_size=$(BOARD_SUPER_PARTITION_$(call to-upper,$(device))_DEVICE_SIZE)" >> $(1);) $(if $(BOARD_SUPER_PARTITION_PARTITION_LIST), \ echo "dynamic_partition_list=$(call filter-out-missing-partitions,$(BOARD_SUPER_PARTITION_PARTITION_LIST))" >> $(1)) $(if $(BOARD_SUPER_PARTITION_GROUPS), echo "super_partition_groups=$(BOARD_SUPER_PARTITION_GROUPS)" >> $(1)) $(foreach group,$(BOARD_SUPER_PARTITION_GROUPS), \ echo "super_$(group)_group_size=$(BOARD_$(call to-upper,$(group))_SIZE)" >> $(1); \ $(if $(BOARD_$(call to-upper,$(group))_PARTITION_LIST), \ echo "super_$(group)_partition_list=$(call filter-out-missing-partitions,$(BOARD_$(call to-upper,$(group))_PARTITION_LIST))" >> $(1);)) $(if $(filter true,$(TARGET_USERIMAGES_SPARSE_EXT_DISABLED)), \ echo "build_non_sparse_super_partition=true" >> $(1)) $(if $(filter true,$(TARGET_USERIMAGES_SPARSE_F2FS_DISABLED)), \ echo "build_non_sparse_super_partition=true" >> $(1)) $(if $(filter true,$(BOARD_SUPER_IMAGE_IN_UPDATE_PACKAGE)), \ echo "super_image_in_update_package=true" >> $(1)) $(if $(BOARD_SUPER_PARTITION_SIZE), \ echo "super_partition_size=$(BOARD_SUPER_PARTITION_SIZE)" >> $(1)) $(if $(BOARD_SUPER_PARTITION_ALIGNMENT), \ echo "super_partition_alignment=$(BOARD_SUPER_PARTITION_ALIGNMENT)" >> $(1)) $(if $(BOARD_SUPER_PARTITION_WARN_LIMIT), \ echo "super_partition_warn_limit=$(BOARD_SUPER_PARTITION_WARN_LIMIT)" >> $(1)) $(if $(BOARD_SUPER_PARTITION_ERROR_LIMIT), \ echo "super_partition_error_limit=$(BOARD_SUPER_PARTITION_ERROR_LIMIT)" >> $(1)) $(if $(filter true,$(PRODUCT_VIRTUAL_AB_OTA)), \ echo "virtual_ab=true" >> $(1)) $(if $(filter true,$(PRODUCT_VIRTUAL_AB_COMPRESSION)), \ echo "virtual_ab_compression=true" >> $(1)) $(if $(filter true,$(PRODUCT_VIRTUAL_AB_OTA_RETROFIT)), \ echo "virtual_ab_retrofit=true" >> $(1)) endef # By conditionally including the dependency of the target files package on the # full system image deps, we speed up builds that do not build the system # image. ifdef BUILDING_SYSTEM_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(FULL_SYSTEMIMAGE_DEPS) endif ifdef BUILDING_USERDATA_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_USERDATAIMAGE_FILES) endif ifdef BUILDING_SYSTEM_OTHER_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_SYSTEMOTHERIMAGE_FILES) endif ifdef BUILDING_VENDOR_BOOT_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_VENDOR_RAMDISK_FILES) $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_VENDOR_RAMDISK_FRAGMENT_TARGETS) # The vendor ramdisk may be built from the recovery ramdisk. ifeq (true,$(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT)) $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_RECOVERY_RAMDISK_FILES_TIMESTAMP) endif endif ifdef BUILDING_RECOVERY_IMAGE # TODO(b/30414428): Can't depend on INTERNAL_RECOVERYIMAGE_FILES alone like other # BUILT_TARGET_FILES_PACKAGE dependencies because currently there're cp/rsync/rm # commands in build-recoveryimage-target, which would touch the files under # TARGET_RECOVERY_OUT and race with packaging target-files.zip. ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) $(BUILT_TARGET_FILES_PACKAGE): $(INSTALLED_BOOTIMAGE_TARGET) else $(BUILT_TARGET_FILES_PACKAGE): $(INSTALLED_RECOVERYIMAGE_TARGET) endif $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_RECOVERYIMAGE_FILES) endif # Conditionally depend on the image files if the image is being built so the # target-files.zip rule doesn't wait on the image creation rule, or the image # if it is coming from a prebuilt. ifdef BUILDING_VENDOR_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_VENDORIMAGE_FILES) else ifdef BOARD_PREBUILT_VENDORIMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INSTALLED_VENDORIMAGE_TARGET) endif ifdef BUILDING_PRODUCT_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_PRODUCTIMAGE_FILES) else ifdef BOARD_PREBUILT_PRODUCTIMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INSTALLED_PRODUCTIMAGE_TARGET) endif ifdef BUILDING_SYSTEM_EXT_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_SYSTEM_EXTIMAGE_FILES) else ifdef BOARD_PREBUILT_SYSTEM_EXTIMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INSTALLED_SYSTEM_EXTIMAGE_TARGET) endif ifdef BUILDING_BOOT_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_RAMDISK_FILES) endif ifneq (,$(INTERNAL_PREBUILT_BOOTIMAGE) $(filter true,$(BOARD_COPY_BOOT_IMAGE_TO_TARGET_FILES))) $(BUILT_TARGET_FILES_PACKAGE): $(INSTALLED_BOOTIMAGE_TARGET) endif ifdef BUILDING_ODM_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_ODMIMAGE_FILES) else ifdef BOARD_PREBUILT_ODMIMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INSTALLED_ODMIMAGE_TARGET) endif ifdef BUILDING_VENDOR_DLKM_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_VENDOR_DLKMIMAGE_FILES) else ifdef BOARD_PREBUILT_VENDOR_DLKMIMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INSTALLED_VENDOR_DLKMIMAGE_TARGET) endif ifdef BUILDING_ODM_DLKM_IMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INTERNAL_ODM_DLKMIMAGE_FILES) else ifdef BOARD_PREBUILT_ODM_DLKMIMAGE $(BUILT_TARGET_FILES_PACKAGE): $(INSTALLED_ODM_DLKMIMAGE_TARGET) endif ifeq ($(BUILD_QEMU_IMAGES),true) MK_VBMETA_BOOT_KERNEL_CMDLINE_SH := device/generic/goldfish/tools/mk_vbmeta_boot_params.sh $(BUILT_TARGET_FILES_PACKAGE): $(MK_VBMETA_BOOT_KERNEL_CMDLINE_SH) endif ifdef BOARD_PREBUILT_BOOTLOADER $(BUILT_TARGET_FILES_PACKAGE): $(INSTALLED_BOOTLOADER_MODULE) droidcore-unbundled: $(INSTALLED_BOOTLOADER_MODULE) endif # Depending on the various images guarantees that the underlying # directories are up-to-date. $(BUILT_TARGET_FILES_PACKAGE): \ $(INSTALLED_RADIOIMAGE_TARGET) \ $(INSTALLED_RECOVERYIMAGE_TARGET) \ $(INSTALLED_CACHEIMAGE_TARGET) \ $(INSTALLED_DTBOIMAGE_TARGET) \ $(INSTALLED_PVMFWIMAGE_TARGET) \ $(INSTALLED_CUSTOMIMAGES_TARGET) \ $(INSTALLED_ANDROID_INFO_TXT_TARGET) \ $(INSTALLED_KERNEL_TARGET) \ $(INSTALLED_RAMDISK_TARGET) \ $(INSTALLED_DTBIMAGE_TARGET) \ $(INSTALLED_2NDBOOTLOADER_TARGET) \ $(BOARD_PREBUILT_DTBOIMAGE) \ $(BOARD_PREBUILT_RECOVERY_DTBOIMAGE) \ $(BOARD_RECOVERY_ACPIO) \ $(PRODUCT_SYSTEM_BASE_FS_PATH) \ $(PRODUCT_VENDOR_BASE_FS_PATH) \ $(PRODUCT_PRODUCT_BASE_FS_PATH) \ $(PRODUCT_SYSTEM_EXT_BASE_FS_PATH) \ $(PRODUCT_ODM_BASE_FS_PATH) \ $(PRODUCT_VENDOR_DLKM_BASE_FS_PATH) \ $(PRODUCT_ODM_DLKM_BASE_FS_PATH) \ $(LPMAKE) \ $(SELINUX_FC) \ $(INSTALLED_MISC_INFO_TARGET) \ $(APKCERTS_FILE) \ $(SOONG_APEX_KEYS_FILE) \ $(SOONG_ZIP) \ $(HOST_OUT_EXECUTABLES)/fs_config \ $(ADD_IMG_TO_TARGET_FILES) \ $(MAKE_RECOVERY_PATCH) \ $(BUILT_KERNEL_CONFIGS_FILE) \ $(BUILT_KERNEL_VERSION_FILE) \ | $(ACP) @echo "Package target files: $@" $(hide) rm -rf $@ $@.list $(zip_root) $(hide) mkdir -p $(dir $@) $(zip_root) ifneq (,$(INSTALLED_RECOVERYIMAGE_TARGET)$(filter true,$(BOARD_USES_RECOVERY_AS_BOOT))$(filter true,$(BOARD_MOVE_RECOVERY_RESOURCES_TO_VENDOR_BOOT))) @# Components of the recovery image $(hide) mkdir -p $(zip_root)/$(PRIVATE_RECOVERY_OUT) # Exclude recovery files in the default vendor ramdisk if including a standalone # recovery ramdisk in vendor_boot. ifneq (true,$(BOARD_INCLUDE_RECOVERY_RAMDISK_IN_VENDOR_BOOT)) $(hide) $(call package_files-copy-root, \ $(TARGET_RECOVERY_ROOT_OUT),$(zip_root)/$(PRIVATE_RECOVERY_OUT)/RAMDISK) endif ifdef INSTALLED_KERNEL_TARGET ifneq (,$(filter true,$(BOARD_USES_RECOVERY_AS_BOOT))) cp $(INSTALLED_KERNEL_TARGET) $(zip_root)/$(PRIVATE_RECOVERY_OUT)/ else ifneq (true,$(BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE)) cp $(firstword $(INSTALLED_KERNEL_TARGET)) $(zip_root)/$(PRIVATE_RECOVERY_OUT)/kernel endif endif ifneq (truetrue,$(strip $(BUILDING_VENDOR_BOOT_IMAGE))$(strip $(BOARD_USES_RECOVERY_AS_BOOT))) ifdef INSTALLED_2NDBOOTLOADER_TARGET cp $(INSTALLED_2NDBOOTLOADER_TARGET) $(zip_root)/$(PRIVATE_RECOVERY_OUT)/second endif ifdef BOARD_INCLUDE_RECOVERY_DTBO ifdef BOARD_PREBUILT_RECOVERY_DTBOIMAGE cp $(BOARD_PREBUILT_RECOVERY_DTBOIMAGE) $(zip_root)/$(PRIVATE_RECOVERY_OUT)/recovery_dtbo else cp $(BOARD_PREBUILT_DTBOIMAGE) $(zip_root)/$(PRIVATE_RECOVERY_OUT)/recovery_dtbo endif endif # BOARD_INCLUDE_RECOVERY_DTBO ifdef BOARD_INCLUDE_RECOVERY_ACPIO cp $(BOARD_RECOVERY_ACPIO) $(zip_root)/$(PRIVATE_RECOVERY_OUT)/recovery_acpio endif ifdef INSTALLED_DTBIMAGE_TARGET cp $(INSTALLED_DTBIMAGE_TARGET) $(zip_root)/$(PRIVATE_RECOVERY_OUT)/dtb endif ifneq (true,$(BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE)) ifdef INTERNAL_KERNEL_CMDLINE echo "$(INTERNAL_KERNEL_CMDLINE)" > $(zip_root)/$(PRIVATE_RECOVERY_OUT)/cmdline endif # INTERNAL_KERNEL_CMDLINE != "" endif # BOARD_EXCLUDE_KERNEL_FROM_RECOVERY_IMAGE != true ifdef BOARD_KERNEL_BASE echo "$(BOARD_KERNEL_BASE)" > $(zip_root)/$(PRIVATE_RECOVERY_OUT)/base endif ifdef BOARD_KERNEL_PAGESIZE echo "$(BOARD_KERNEL_PAGESIZE)" > $(zip_root)/$(PRIVATE_RECOVERY_OUT)/pagesize endif endif # not (BUILDING_VENDOR_BOOT_IMAGE and BOARD_USES_RECOVERY_AS_BOOT) endif # INSTALLED_RECOVERYIMAGE_TARGET defined or BOARD_USES_RECOVERY_AS_BOOT is true @# Components of the boot image $(hide) mkdir -p $(zip_root)/BOOT $(hide) mkdir -p $(zip_root)/ROOT $(hide) $(call package_files-copy-root, \ $(TARGET_ROOT_OUT),$(zip_root)/ROOT) @# If we are using recovery as boot, this is already done when processing recovery. ifneq ($(BOARD_USES_RECOVERY_AS_BOOT),true) ifneq ($(BOARD_BUILD_SYSTEM_ROOT_IMAGE),true) $(hide) $(call package_files-copy-root, \ $(TARGET_RAMDISK_OUT),$(zip_root)/BOOT/RAMDISK) endif ifdef INSTALLED_KERNEL_TARGET $(hide) cp $(INSTALLED_KERNEL_TARGET) $(zip_root)/BOOT/ endif ifeq (true,$(BOARD_USES_GENERIC_KERNEL_IMAGE)) echo "$(GENERIC_KERNEL_CMDLINE)" > $(zip_root)/BOOT/cmdline else ifndef INSTALLED_VENDOR_BOOTIMAGE_TARGET # && BOARD_USES_GENERIC_KERNEL_IMAGE != true echo "$(INTERNAL_KERNEL_CMDLINE)" > $(zip_root)/BOOT/cmdline ifdef INSTALLED_2NDBOOTLOADER_TARGET cp $(INSTALLED_2NDBOOTLOADER_TARGET) $(zip_root)/BOOT/second endif ifdef INSTALLED_DTBIMAGE_TARGET cp $(INSTALLED_DTBIMAGE_TARGET) $(zip_root)/BOOT/dtb endif ifdef BOARD_KERNEL_BASE echo "$(BOARD_KERNEL_BASE)" > $(zip_root)/BOOT/base endif ifdef BOARD_KERNEL_PAGESIZE echo "$(BOARD_KERNEL_PAGESIZE)" > $(zip_root)/BOOT/pagesize endif endif # INSTALLED_VENDOR_BOOTIMAGE_TARGET == "" && BOARD_USES_GENERIC_KERNEL_IMAGE != true endif # BOARD_USES_RECOVERY_AS_BOOT not true $(hide) $(foreach t,$(INSTALLED_RADIOIMAGE_TARGET),\ mkdir -p $(zip_root)/RADIO; \ cp $(t) $(zip_root)/RADIO/$(notdir $(t));) ifdef INSTALLED_VENDOR_BOOTIMAGE_TARGET mkdir -p $(zip_root)/VENDOR_BOOT $(call package_files-copy-root, \ $(TARGET_VENDOR_RAMDISK_OUT),$(zip_root)/VENDOR_BOOT/RAMDISK) ifdef INSTALLED_DTBIMAGE_TARGET cp $(INSTALLED_DTBIMAGE_TARGET) $(zip_root)/VENDOR_BOOT/dtb endif ifdef INTERNAL_VENDOR_BOOTCONFIG_TARGET cp $(INTERNAL_VENDOR_BOOTCONFIG_TARGET) $(zip_root)/VENDOR_BOOT/vendor_bootconfig endif ifdef BOARD_KERNEL_BASE echo "$(BOARD_KERNEL_BASE)" > $(zip_root)/VENDOR_BOOT/base endif ifdef BOARD_KERNEL_PAGESIZE echo "$(BOARD_KERNEL_PAGESIZE)" > $(zip_root)/VENDOR_BOOT/pagesize endif echo "$(INTERNAL_KERNEL_CMDLINE)" > $(zip_root)/VENDOR_BOOT/vendor_cmdline ifdef INTERNAL_VENDOR_RAMDISK_FRAGMENTS echo "$(INTERNAL_VENDOR_RAMDISK_FRAGMENTS)" > "$(zip_root)/VENDOR_BOOT/vendor_ramdisk_fragments" $(foreach vendor_ramdisk_fragment,$(INTERNAL_VENDOR_RAMDISK_FRAGMENTS), \ mkdir -p $(zip_root)/VENDOR_BOOT/RAMDISK_FRAGMENTS/$(vendor_ramdisk_fragment); \ echo "$(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).MKBOOTIMG_ARGS)" > "$(zip_root)/VENDOR_BOOT/RAMDISK_FRAGMENTS/$(vendor_ramdisk_fragment)/mkbootimg_args"; \ $(eval prebuilt_ramdisk := $(BOARD_VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).PREBUILT)) \ $(if $(prebuilt_ramdisk), \ cp "$(prebuilt_ramdisk)" "$(zip_root)/VENDOR_BOOT/RAMDISK_FRAGMENTS/$(vendor_ramdisk_fragment)/prebuilt_ramdisk";, \ $(call package_files-copy-root, \ $(VENDOR_RAMDISK_FRAGMENT.$(vendor_ramdisk_fragment).STAGING_DIR), \ $(zip_root)/VENDOR_BOOT/RAMDISK_FRAGMENTS/$(vendor_ramdisk_fragment)/RAMDISK); \ )) endif # INTERNAL_VENDOR_RAMDISK_FRAGMENTS != "" endif # INSTALLED_VENDOR_BOOTIMAGE_TARGET ifdef BUILDING_SYSTEM_IMAGE @# Contents of the system image $(hide) $(call package_files-copy-root, \ $(SYSTEMIMAGE_SOURCE_DIR),$(zip_root)/SYSTEM) endif ifdef BUILDING_USERDATA_IMAGE @# Contents of the data image $(hide) $(call package_files-copy-root, \ $(TARGET_OUT_DATA),$(zip_root)/DATA) endif ifdef BUILDING_VENDOR_IMAGE @# Contents of the vendor image $(hide) $(call package_files-copy-root, \ $(TARGET_OUT_VENDOR),$(zip_root)/VENDOR) endif ifdef BUILDING_PRODUCT_IMAGE @# Contents of the product image $(hide) $(call package_files-copy-root, \ $(TARGET_OUT_PRODUCT),$(zip_root)/PRODUCT) endif ifdef BUILDING_SYSTEM_EXT_IMAGE @# Contents of the system_ext image $(hide) $(call package_files-copy-root, \ $(TARGET_OUT_SYSTEM_EXT),$(zip_root)/SYSTEM_EXT) endif ifdef BUILDING_ODM_IMAGE @# Contents of the odm image $(hide) $(call package_files-copy-root, \ $(TARGET_OUT_ODM),$(zip_root)/ODM) endif ifdef BUILDING_VENDOR_DLKM_IMAGE @# Contents of the vendor_dlkm image $(hide) $(call package_files-copy-root, \ $(TARGET_OUT_VENDOR_DLKM),$(zip_root)/VENDOR_DLKM) endif ifdef BUILDING_ODM_DLKM_IMAGE @# Contents of the odm_dlkm image $(hide) $(call package_files-copy-root, \ $(TARGET_OUT_ODM_DLKM),$(zip_root)/ODM_DLKM) endif ifdef BUILDING_SYSTEM_OTHER_IMAGE @# Contents of the system_other image $(hide) $(call package_files-copy-root, \ $(TARGET_OUT_SYSTEM_OTHER),$(zip_root)/SYSTEM_OTHER) endif @# Extra contents of the OTA package $(hide) mkdir -p $(zip_root)/OTA $(hide) cp $(INSTALLED_ANDROID_INFO_TXT_TARGET) $(zip_root)/OTA/ ifdef BUILDING_RAMDISK_IMAGE ifeq (true,$(BOARD_IMG_USE_RAMDISK)) @# Contents of the ramdisk image $(hide) mkdir -p $(zip_root)/IMAGES $(hide) cp $(INSTALLED_RAMDISK_TARGET) $(zip_root)/IMAGES/ endif endif ifeq ($(TARGET_OTA_ALLOW_NON_AB),true) ifneq ($(built_ota_tools),) $(hide) mkdir -p $(zip_root)/OTA/bin $(hide) cp $(PRIVATE_OTA_TOOLS) $(zip_root)/OTA/bin/ endif endif @# Files that do not end up in any images, but are necessary to @# build them. $(hide) mkdir -p $(zip_root)/META $(hide) cp $(APKCERTS_FILE) $(zip_root)/META/apkcerts.txt $(hide) cp $(SOONG_APEX_KEYS_FILE) $(zip_root)/META/apexkeys.txt ifneq ($(tool_extension),) $(hide) cp $(PRIVATE_TOOL_EXTENSION) $(zip_root)/META/ endif $(hide) echo "$(PRODUCT_OTA_PUBLIC_KEYS)" > $(zip_root)/META/otakeys.txt $(hide) cp $(SELINUX_FC) $(zip_root)/META/file_contexts.bin $(hide) cp $(INSTALLED_MISC_INFO_TARGET) $(zip_root)/META/misc_info.txt ifneq ($(PRODUCT_SYSTEM_BASE_FS_PATH),) $(hide) cp $(PRODUCT_SYSTEM_BASE_FS_PATH) \ $(zip_root)/META/$(notdir $(PRODUCT_SYSTEM_BASE_FS_PATH)) endif ifneq ($(PRODUCT_VENDOR_BASE_FS_PATH),) $(hide) cp $(PRODUCT_VENDOR_BASE_FS_PATH) \ $(zip_root)/META/$(notdir $(PRODUCT_VENDOR_BASE_FS_PATH)) endif ifneq ($(PRODUCT_PRODUCT_BASE_FS_PATH),) $(hide) cp $(PRODUCT_PRODUCT_BASE_FS_PATH) \ $(zip_root)/META/$(notdir $(PRODUCT_PRODUCT_BASE_FS_PATH)) endif ifneq ($(PRODUCT_SYSTEM_EXT_BASE_FS_PATH),) $(hide) cp $(PRODUCT_SYSTEM_EXT_BASE_FS_PATH) \ $(zip_root)/META/$(notdir $(PRODUCT_SYSTEM_EXT_BASE_FS_PATH)) endif ifneq ($(PRODUCT_ODM_BASE_FS_PATH),) $(hide) cp $(PRODUCT_ODM_BASE_FS_PATH) \ $(zip_root)/META/$(notdir $(PRODUCT_ODM_BASE_FS_PATH)) endif ifneq ($(PRODUCT_VENDOR_DLKM_BASE_FS_PATH),) $(hide) cp $(PRODUCT_VENDOR_DLKM_BASE_FS_PATH) \ $(zip_root)/META/$(notdir $(PRODUCT_VENDOR_DLKM_BASE_FS_PATH)) endif ifneq ($(PRODUCT_ODM_DLKM_BASE_FS_PATH),) $(hide) cp $(PRODUCT_ODM_DLKM_BASE_FS_PATH) \ $(zip_root)/META/$(notdir $(PRODUCT_ODM_DLKM_BASE_FS_PATH)) endif ifeq ($(TARGET_OTA_ALLOW_NON_AB),true) ifneq ($(INSTALLED_RECOVERYIMAGE_TARGET),) $(hide) PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH MKBOOTIMG=$(MKBOOTIMG) \ $(MAKE_RECOVERY_PATCH) $(zip_root) $(zip_root) endif endif ifeq ($(AB_OTA_UPDATER),true) @# When using the A/B updater, include the updater config files in the zip. $(hide) cp $(TOPDIR)system/update_engine/update_engine.conf $(zip_root)/META/update_engine_config.txt $(hide) for part in $(AB_OTA_PARTITIONS); do \ echo "$${part}" >> $(zip_root)/META/ab_partitions.txt; \ done $(hide) for conf in $(AB_OTA_POSTINSTALL_CONFIG); do \ echo "$${conf}" >> $(zip_root)/META/postinstall_config.txt; \ done ifdef OSRELEASED_DIRECTORY $(hide) cp $(TARGET_OUT_OEM)/$(OSRELEASED_DIRECTORY)/product_id $(zip_root)/META/product_id.txt $(hide) cp $(TARGET_OUT_OEM)/$(OSRELEASED_DIRECTORY)/product_version $(zip_root)/META/product_version.txt $(hide) cp $(TARGET_OUT_ETC)/$(OSRELEASED_DIRECTORY)/system_version $(zip_root)/META/system_version.txt endif endif ifeq ($(BREAKPAD_GENERATE_SYMBOLS),true) @# If breakpad symbols have been generated, add them to the zip. $(hide) cp -R $(TARGET_OUT_BREAKPAD) $(zip_root)/BREAKPAD endif ifdef BOARD_PREBUILT_VENDORIMAGE $(hide) mkdir -p $(zip_root)/IMAGES $(hide) cp $(INSTALLED_VENDORIMAGE_TARGET) $(zip_root)/IMAGES/ endif ifdef BOARD_PREBUILT_PRODUCTIMAGE $(hide) mkdir -p $(zip_root)/IMAGES $(hide) cp $(INSTALLED_PRODUCTIMAGE_TARGET) $(zip_root)/IMAGES/ endif ifdef BOARD_PREBUILT_SYSTEM_EXTIMAGE $(hide) mkdir -p $(zip_root)/IMAGES $(hide) cp $(INSTALLED_SYSTEM_EXTIMAGE_TARGET) $(zip_root)/IMAGES/ endif ifndef BOARD_PREBUILT_BOOTIMAGE ifneq (,$(INTERNAL_PREBUILT_BOOTIMAGE) $(filter true,$(BOARD_COPY_BOOT_IMAGE_TO_TARGET_FILES))) ifdef INSTALLED_BOOTIMAGE_TARGET $(hide) mkdir -p $(zip_root)/IMAGES $(hide) cp $(INSTALLED_BOOTIMAGE_TARGET) $(zip_root)/IMAGES/ endif # INSTALLED_BOOTIMAGE_TARGET endif # INTERNAL_PREBUILT_BOOTIMAGE != "" || BOARD_COPY_BOOT_IMAGE_TO_TARGET_FILES == true else # BOARD_PREBUILT_BOOTIMAGE is defined $(hide) mkdir -p $(zip_root)/PREBUILT_IMAGES $(hide) cp $(INSTALLED_BOOTIMAGE_TARGET) $(zip_root)/PREBUILT_IMAGES/ endif # BOARD_PREBUILT_BOOTIMAGE ifdef BOARD_PREBUILT_ODMIMAGE $(hide) mkdir -p $(zip_root)/IMAGES $(hide) cp $(INSTALLED_ODMIMAGE_TARGET) $(zip_root)/IMAGES/ endif ifdef BOARD_PREBUILT_VENDOR_DLKMIMAGE $(hide) mkdir -p $(zip_root)/IMAGES $(hide) cp $(INSTALLED_VENDOR_DLKMIMAGE_TARGET) $(zip_root)/IMAGES/ endif ifdef BOARD_PREBUILT_ODM_DLKMIMAGE $(hide) mkdir -p $(zip_root)/IMAGES $(hide) cp $(INSTALLED_ODM_DLKMIMAGE_TARGET) $(zip_root)/IMAGES/ endif ifdef BOARD_PREBUILT_DTBOIMAGE $(hide) mkdir -p $(zip_root)/PREBUILT_IMAGES $(hide) cp $(INSTALLED_DTBOIMAGE_TARGET) $(zip_root)/PREBUILT_IMAGES/ endif # BOARD_PREBUILT_DTBOIMAGE ifdef BOARD_PREBUILT_PVMFWIMAGE $(hide) mkdir -p $(zip_root)/PREBUILT_IMAGES $(hide) cp $(INSTALLED_PVMFWIMAGE_TARGET) $(zip_root)/PREBUILT_IMAGES/ endif # BOARD_PREBUILT_PVMFWIMAGE ifdef BOARD_PREBUILT_BOOTLOADER $(hide) mkdir -p $(zip_root)/IMAGES $(hide) cp $(INSTALLED_BOOTLOADER_MODULE) $(zip_root)/IMAGES/ endif ifneq ($(strip $(BOARD_CUSTOMIMAGES_PARTITION_LIST)),) $(hide) mkdir -p $(zip_root)/PREBUILT_IMAGES $(hide) $(foreach partition,$(BOARD_CUSTOMIMAGES_PARTITION_LIST), \ $(foreach image,$(BOARD_AVB_$(call to-upper,$(partition))_IMAGE_LIST),cp $(image) $(zip_root)/PREBUILT_IMAGES/;)) endif # BOARD_CUSTOMIMAGES_PARTITION_LIST @# The radio images in BOARD_PACK_RADIOIMAGES will be additionally copied from RADIO/ into @# IMAGES/, which then will be added into -img.zip. Such images must be listed in @# INSTALLED_RADIOIMAGE_TARGET. $(hide) $(foreach part,$(BOARD_PACK_RADIOIMAGES), \ echo $(part) >> $(zip_root)/META/pack_radioimages.txt;) @# Run fs_config on all the system, vendor, boot ramdisk, @# and recovery ramdisk files in the zip, and save the output ifdef BUILDING_SYSTEM_IMAGE $(hide) $(call fs_config,$(zip_root)/SYSTEM,system/) > $(zip_root)/META/filesystem_config.txt endif ifdef BUILDING_VENDOR_IMAGE $(hide) $(call fs_config,$(zip_root)/VENDOR,vendor/) > $(zip_root)/META/vendor_filesystem_config.txt endif ifdef BUILDING_PRODUCT_IMAGE $(hide) $(call fs_config,$(zip_root)/PRODUCT,product/) > $(zip_root)/META/product_filesystem_config.txt endif ifdef BUILDING_SYSTEM_EXT_IMAGE $(hide) $(call fs_config,$(zip_root)/SYSTEM_EXT,system_ext/) > $(zip_root)/META/system_ext_filesystem_config.txt endif ifdef BUILDING_ODM_IMAGE $(hide) $(call fs_config,$(zip_root)/ODM,odm/) > $(zip_root)/META/odm_filesystem_config.txt endif ifdef BUILDING_VENDOR_DLKM_IMAGE $(hide) $(call fs_config,$(zip_root)/VENDOR_DLKM,vendor_dlkm/) > $(zip_root)/META/vendor_dlkm_filesystem_config.txt endif ifdef BUILDING_ODM_DLKM_IMAGE $(hide) $(call fs_config,$(zip_root)/ODM_DLKM,odm_dlkm/) > $(zip_root)/META/odm_dlkm_filesystem_config.txt endif @# ROOT always contains the files for the root under normal boot. $(hide) $(call fs_config,$(zip_root)/ROOT,) > $(zip_root)/META/root_filesystem_config.txt ifeq ($(BOARD_USES_RECOVERY_AS_BOOT),true) @# BOOT/RAMDISK exists and contains the ramdisk for recovery if using BOARD_USES_RECOVERY_AS_BOOT. $(hide) $(call fs_config,$(zip_root)/BOOT/RAMDISK,) > $(zip_root)/META/boot_filesystem_config.txt endif ifneq ($(INSTALLED_VENDOR_BOOTIMAGE_TARGET),) $(call fs_config,$(zip_root)/VENDOR_BOOT/RAMDISK,) > $(zip_root)/META/vendor_boot_filesystem_config.txt endif ifneq ($(BOARD_BUILD_SYSTEM_ROOT_IMAGE),true) @# BOOT/RAMDISK also exists and contains the first stage ramdisk if not using BOARD_BUILD_SYSTEM_ROOT_IMAGE. $(hide) $(call fs_config,$(zip_root)/BOOT/RAMDISK,) > $(zip_root)/META/boot_filesystem_config.txt endif ifneq ($(INSTALLED_RECOVERYIMAGE_TARGET),) $(hide) $(call fs_config,$(zip_root)/RECOVERY/RAMDISK,) > $(zip_root)/META/recovery_filesystem_config.txt endif ifdef BUILDING_SYSTEM_OTHER_IMAGE $(hide) $(call fs_config,$(zip_root)/SYSTEM_OTHER,system/) > $(zip_root)/META/system_other_filesystem_config.txt endif @# Metadata for compatibility verification. ifdef BUILT_KERNEL_CONFIGS_FILE $(hide) cp $(BUILT_KERNEL_CONFIGS_FILE) $(zip_root)/META/kernel_configs.txt endif ifdef BUILT_KERNEL_VERSION_FILE $(hide) cp $(BUILT_KERNEL_VERSION_FILE) $(zip_root)/META/kernel_version.txt endif rm -rf $(zip_root)/META/dynamic_partitions_info.txt ifeq (true,$(PRODUCT_USE_DYNAMIC_PARTITIONS)) $(call dump-dynamic-partitions-info, $(zip_root)/META/dynamic_partitions_info.txt) endif PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$$PATH MKBOOTIMG=$(MKBOOTIMG) \ $(ADD_IMG_TO_TARGET_FILES) -a -v -p $(HOST_OUT) $(zip_root) ifeq ($(BUILD_QEMU_IMAGES),true) $(hide) AVBTOOL=$(AVBTOOL) $(MK_VBMETA_BOOT_KERNEL_CMDLINE_SH) $(zip_root)/IMAGES/vbmeta.img \ $(zip_root)/IMAGES/system.img $(zip_root)/IMAGES/VerifiedBootParams.textproto endif @# Zip everything up, preserving symlinks and placing META/ files first to @# help early validation of the .zip file while uploading it. $(hide) find $(zip_root)/META | sort >$@.list $(hide) find $(zip_root) -path $(zip_root)/META -prune -o -print | sort >>$@.list $(hide) $(SOONG_ZIP) -d -o $@ -C $(zip_root) -r $@.list .PHONY: target-files-package target-files-package: $(BUILT_TARGET_FILES_PACKAGE) $(call dist-for-goals, target-files-package, $(BUILT_TARGET_FILES_PACKAGE)) # ----------------------------------------------------------------- # NDK Sysroot Package NDK_SYSROOT_TARGET := $(PRODUCT_OUT)/ndk_sysroot.tar.bz2 $(NDK_SYSROOT_TARGET): $(SOONG_OUT_DIR)/ndk.timestamp @echo Package NDK sysroot... $(hide) tar cjf $@ -C $(SOONG_OUT_DIR) ndk $(call dist-for-goals,sdk,$(NDK_SYSROOT_TARGET)) ifeq ($(build_ota_package),true) # ----------------------------------------------------------------- # OTA update package # $(1): output file # $(2): additional args define build-ota-package-target PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$(dir $(ZIP2ZIP)):$$PATH \ $(OTA_FROM_TARGET_FILES) \ --verbose \ --extracted_input_target_files $(patsubst %.zip,%,$(BUILT_TARGET_FILES_PACKAGE)) \ --path $(HOST_OUT) \ $(if $(OEM_OTA_CONFIG), --oem_settings $(OEM_OTA_CONFIG)) \ $(2) \ $(BUILT_TARGET_FILES_PACKAGE) $(1) endef product_name := $(TARGET_PRODUCT) ifeq ($(TARGET_BUILD_TYPE),debug) product_name := $(product_name)_debug endif name := $(product_name)-ota-$(FILE_NAME_TAG) INTERNAL_OTA_PACKAGE_TARGET := $(PRODUCT_OUT)/$(name).zip INTERNAL_OTA_METADATA := $(PRODUCT_OUT)/ota_metadata $(INTERNAL_OTA_PACKAGE_TARGET): KEY_CERT_PAIR := $(DEFAULT_KEY_CERT_PAIR) $(INTERNAL_OTA_PACKAGE_TARGET): .KATI_IMPLICIT_OUTPUTS := $(INTERNAL_OTA_METADATA) $(INTERNAL_OTA_PACKAGE_TARGET): $(BUILT_TARGET_FILES_PACKAGE) $(OTA_FROM_TARGET_FILES) $(INTERNAL_OTATOOLS_FILES) @echo "Package OTA: $@" $(call build-ota-package-target,$@,-k $(KEY_CERT_PAIR) --output_metadata_path $(INTERNAL_OTA_METADATA)) .PHONY: otapackage otapackage: $(INTERNAL_OTA_PACKAGE_TARGET) ifeq ($(BOARD_BUILD_RETROFIT_DYNAMIC_PARTITIONS_OTA_PACKAGE),true) name := $(product_name)-ota-retrofit-$(FILE_NAME_TAG) INTERNAL_OTA_RETROFIT_DYNAMIC_PARTITIONS_PACKAGE_TARGET := $(PRODUCT_OUT)/$(name).zip $(INTERNAL_OTA_RETROFIT_DYNAMIC_PARTITIONS_PACKAGE_TARGET): KEY_CERT_PAIR := $(DEFAULT_KEY_CERT_PAIR) $(INTERNAL_OTA_RETROFIT_DYNAMIC_PARTITIONS_PACKAGE_TARGET): \ $(BUILT_TARGET_FILES_PACKAGE) \ $(OTA_FROM_TARGET_FILES) \ $(INTERNAL_OTATOOLS_FILES) @echo "Package OTA (retrofit dynamic partitions): $@" $(call build-ota-package-target,$@,-k $(KEY_CERT_PAIR) --retrofit_dynamic_partitions) .PHONY: otardppackage otapackage otardppackage: $(INTERNAL_OTA_RETROFIT_DYNAMIC_PARTITIONS_PACKAGE_TARGET) endif # BOARD_BUILD_RETROFIT_DYNAMIC_PARTITIONS_OTA_PACKAGE ifneq ($(BOARD_PARTIAL_OTA_UPDATE_PARTITIONS_LIST),) name := $(product_name)-partial-ota-$(FILE_NAME_TAG) INTERNAL_OTA_PARTIAL_PACKAGE_TARGET := $(PRODUCT_OUT)/$(name).zip $(INTERNAL_OTA_PARTIAL_PACKAGE_TARGET): KEY_CERT_PAIR := $(DEFAULT_KEY_CERT_PAIR) $(INTERNAL_OTA_PARTIAL_PACKAGE_TARGET): $(BUILT_TARGET_FILES_PACKAGE) $(OTA_FROM_TARGET_FILES) $(INTERNAL_OTATOOLS_FILES) @echo "Package partial OTA: $@" $(call build-ota-package-target,$@,-k $(KEY_CERT_PAIR) --partial "$(BOARD_PARTIAL_OTA_UPDATE_PARTITIONS_LIST)") .PHONY: partialotapackage partialotapackage: $(INTERNAL_OTA_PARTIAL_PACKAGE_TARGET) endif # BOARD_PARTIAL_OTA_UPDATE_PARTITIONS_LIST endif # build_ota_package # ----------------------------------------------------------------- # A zip of the appcompat directory containing logs APPCOMPAT_ZIP := $(PRODUCT_OUT)/appcompat.zip # For apps_only build we'll establish the dependency later in build/make/core/main.mk. ifeq (,$(TARGET_BUILD_UNBUNDLED)) $(APPCOMPAT_ZIP): $(FULL_SYSTEMIMAGE_DEPS) \ $(INTERNAL_RAMDISK_FILES) \ $(INTERNAL_USERDATAIMAGE_FILES) \ $(INTERNAL_VENDORIMAGE_FILES) \ $(INTERNAL_PRODUCTIMAGE_FILES) \ $(INTERNAL_SYSTEM_EXTIMAGE_FILES) endif $(APPCOMPAT_ZIP): PRIVATE_LIST_FILE := $(call intermediates-dir-for,PACKAGING,appcompat)/filelist $(APPCOMPAT_ZIP): $(SOONG_ZIP) @echo "appcompat logs: $@" $(hide) rm -rf $@ $(PRIVATE_LIST_FILE) $(hide) mkdir -p $(dir $@) $(PRODUCT_OUT)/appcompat $(dir $(PRIVATE_LIST_FILE)) $(hide) find $(PRODUCT_OUT)/appcompat | sort >$(PRIVATE_LIST_FILE) $(hide) $(SOONG_ZIP) -d -o $@ -C $(PRODUCT_OUT)/appcompat -l $(PRIVATE_LIST_FILE) # The mac build doesn't build dex2oat, so create the zip file only if the build OS is linux. ifeq ($(BUILD_OS),linux) ifneq ($(DEX2OAT),) dexpreopt_tools_deps := $(DEXPREOPT_GEN_DEPS) $(DEXPREOPT_GEN) $(AAPT2) DEXPREOPT_TOOLS_ZIP := $(PRODUCT_OUT)/dexpreopt_tools.zip $(DEXPREOPT_TOOLS_ZIP): $(dexpreopt_tools_deps) $(DEXPREOPT_TOOLS_ZIP): PRIVATE_DEXPREOPT_TOOLS_DEPS := $(dexpreopt_tools_deps) $(DEXPREOPT_TOOLS_ZIP): $(SOONG_ZIP) $(hide) mkdir -p $(dir $@) $(hide) $(SOONG_ZIP) -d -o $@ -j $(addprefix -f ,$(PRIVATE_DEXPREOPT_TOOLS_DEPS)) -f $$(realpath $(DEX2OAT)) endif # DEX2OAT is set endif # BUILD_OS == linux DEXPREOPT_CONFIG_ZIP := $(PRODUCT_OUT)/dexpreopt_config.zip $(DEXPREOPT_CONFIG_ZIP): $(FULL_SYSTEMIMAGE_DEPS) \ $(INTERNAL_RAMDISK_FILES) \ $(INTERNAL_USERDATAIMAGE_FILES) \ $(INTERNAL_VENDORIMAGE_FILES) \ $(INTERNAL_PRODUCTIMAGE_FILES) \ $(INTERNAL_SYSTEM_EXTIMAGE_FILES) \ $(DEX_PREOPT_CONFIG_FOR_MAKE) \ $(DEX_PREOPT_SOONG_CONFIG_FOR_MAKE) $(DEXPREOPT_CONFIG_ZIP): $(SOONG_ZIP) $(hide) mkdir -p $(dir $@) $(PRODUCT_OUT)/dexpreopt_config ifneq (,$(DEX_PREOPT_CONFIG_FOR_MAKE)) $(hide) cp $(DEX_PREOPT_CONFIG_FOR_MAKE) $(PRODUCT_OUT)/dexpreopt_config endif ifneq (,$(DEX_PREOPT_SOONG_CONFIG_FOR_MAKE)) $(hide) cp $(DEX_PREOPT_SOONG_CONFIG_FOR_MAKE) $(PRODUCT_OUT)/dexpreopt_config endif $(hide) $(SOONG_ZIP) -d -o $@ -C $(PRODUCT_OUT)/dexpreopt_config -D $(PRODUCT_OUT)/dexpreopt_config # ----------------------------------------------------------------- # 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 # For apps_only build we'll establish the dependency later in build/make/core/main.mk. ifeq (,$(TARGET_BUILD_UNBUNDLED)) $(SYMBOLS_ZIP): $(INTERNAL_ALLIMAGES_FILES) $(updater_dep) endif $(SYMBOLS_ZIP): PRIVATE_LIST_FILE := $(call intermediates-dir-for,PACKAGING,symbols)/filelist $(SYMBOLS_ZIP): $(SOONG_ZIP) @echo "Package symbols: $@" $(hide) rm -rf $@ $(PRIVATE_LIST_FILE) $(hide) mkdir -p $(dir $@) $(TARGET_OUT_UNSTRIPPED) $(dir $(PRIVATE_LIST_FILE)) $(hide) find -L $(TARGET_OUT_UNSTRIPPED) -type f | sort >$(PRIVATE_LIST_FILE) $(hide) $(SOONG_ZIP) --ignore_missing_files -d -o $@ -C $(OUT_DIR)/.. -l $(PRIVATE_LIST_FILE) # ----------------------------------------------------------------- # A zip of the coverage directory. # name := gcov-report-files-all ifeq ($(TARGET_BUILD_TYPE),debug) name := $(name)_debug endif COVERAGE_ZIP := $(PRODUCT_OUT)/$(name).zip ifeq (,$(TARGET_BUILD_UNBUNDLED)) $(COVERAGE_ZIP): $(INTERNAL_ALLIMAGES_FILES) endif $(COVERAGE_ZIP): PRIVATE_LIST_FILE := $(call intermediates-dir-for,PACKAGING,coverage)/filelist $(COVERAGE_ZIP): $(SOONG_ZIP) @echo "Package coverage: $@" $(hide) rm -rf $@ $(PRIVATE_LIST_FILE) $(hide) mkdir -p $(dir $@) $(TARGET_OUT_COVERAGE) $(dir $(PRIVATE_LIST_FILE)) $(hide) find $(TARGET_OUT_COVERAGE) | sort >$(PRIVATE_LIST_FILE) $(hide) $(SOONG_ZIP) -d -o $@ -C $(TARGET_OUT_COVERAGE) -l $(PRIVATE_LIST_FILE) #------------------------------------------------------------------ # Export the LLVM profile data tool and dependencies for Clang coverage processing # ifeq (true,$(CLANG_COVERAGE)) LLVM_PROFDATA := $(LLVM_PREBUILTS_BASE)/linux-x86/$(LLVM_PREBUILTS_VERSION)/bin/llvm-profdata LIBCXX := $(LLVM_PREBUILTS_BASE)/linux-x86/$(LLVM_PREBUILTS_VERSION)/lib64/libc++.so.1 PROFDATA_ZIP := $(PRODUCT_OUT)/llvm-profdata.zip $(PROFDATA_ZIP): $(SOONG_ZIP) $(hide) $(SOONG_ZIP) -d -o $@ -C $(LLVM_PREBUILTS_BASE)/linux-x86/$(LLVM_PREBUILTS_VERSION) -f $(LLVM_PROFDATA) -f $(LIBCXX) $(call dist-for-goals,droidcore-unbundled apps_only,$(PROFDATA_ZIP)) endif # ----------------------------------------------------------------- # 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): $(FULL_SYSTEMIMAGE_DEPS) @echo "Package apps: $@" $(hide) rm -rf $@ $(hide) mkdir -p $(dir $@) $(hide) apps_to_zip=`find $(TARGET_OUT_APPS) $(TARGET_OUT_APPS_PRIVILEGED) -mindepth 2 -maxdepth 3 -name "*.apk"`; \ if [ -z "$$apps_to_zip" ]; then \ echo "No apps to zip up. Generating empty apps archive." ; \ a=$$(mktemp /tmp/XXXXXXX) && touch $$a && zip $@ $$a && zip -d $@ $$a; \ else \ zip -qjX $@ $$apps_to_zip; \ fi ifeq (true,$(EMMA_INSTRUMENT)) #------------------------------------------------------------------ # An archive of classes for use in generating code-coverage reports # These are the uninstrumented versions of any classes that were # to be instrumented. # Any dependencies are set up later in build/make/core/main.mk. JACOCO_REPORT_CLASSES_ALL := $(PRODUCT_OUT)/jacoco-report-classes-all.jar $(JACOCO_REPORT_CLASSES_ALL): PRIVATE_TARGET_JACOCO_DIR := $(call intermediates-dir-for,PACKAGING,jacoco) $(JACOCO_REPORT_CLASSES_ALL): PRIVATE_HOST_JACOCO_DIR := $(call intermediates-dir-for,PACKAGING,jacoco,HOST) $(JACOCO_REPORT_CLASSES_ALL): PRIVATE_TARGET_PROGUARD_USAGE_DIR := $(call intermediates-dir-for,PACKAGING,proguard_usage) $(JACOCO_REPORT_CLASSES_ALL): PRIVATE_HOST_PROGUARD_USAGE_DIR := $(call intermediates-dir-for,PACKAGING,proguard_usage,HOST) $(JACOCO_REPORT_CLASSES_ALL) : @echo "Collecting uninstrumented classes" mkdir -p $(PRIVATE_TARGET_JACOCO_DIR) $(PRIVATE_HOST_JACOCO_DIR) $(PRIVATE_TARGET_PROGUARD_USAGE_DIR) $(PRIVATE_HOST_PROGUARD_USAGE_DIR) $(SOONG_ZIP) -o $@ -L 0 \ -C $(PRIVATE_TARGET_JACOCO_DIR) -P out/target/common/obj -D $(PRIVATE_TARGET_JACOCO_DIR) \ -C $(PRIVATE_HOST_JACOCO_DIR) -P out/target/common/obj -D $(PRIVATE_HOST_JACOCO_DIR) \ -C $(PRIVATE_TARGET_PROGUARD_USAGE_DIR) -P out/target/common/obj -D $(PRIVATE_TARGET_PROGUARD_USAGE_DIR) \ -C $(PRIVATE_HOST_PROGUARD_USAGE_DIR) -P out/target/common/obj -D $(PRIVATE_HOST_PROGUARD_USAGE_DIR) ifeq (,$(TARGET_BUILD_UNBUNDLED)) $(JACOCO_REPORT_CLASSES_ALL): $(INTERNAL_ALLIMAGES_FILES) endif endif # EMMA_INSTRUMENT=true #------------------------------------------------------------------ # A zip of Proguard obfuscation dictionary files. # PROGUARD_DICT_ZIP := $(PRODUCT_OUT)/$(TARGET_PRODUCT)-proguard-dict-$(FILE_NAME_TAG).zip # For apps_only build we'll establish the dependency later in build/make/core/main.mk. ifeq (,$(TARGET_BUILD_UNBUNDLED)) $(PROGUARD_DICT_ZIP): $(INTERNAL_ALLIMAGES_FILES) $(updater_dep) endif $(PROGUARD_DICT_ZIP): PRIVATE_PACKAGING_DIR := $(call intermediates-dir-for,PACKAGING,proguard_dictionary) $(PROGUARD_DICT_ZIP): $(SOONG_ZIP) @echo "Packaging Proguard obfuscation dictionary files." mkdir -p $(dir $@) $(PRIVATE_PACKAGING_DIR) $(SOONG_ZIP) --ignore_missing_files -d -o $@ -C $(PRIVATE_PACKAGING_DIR) -P out/target/common/obj -D $(PRIVATE_PACKAGING_DIR) #------------------------------------------------------------------ # A zip of Proguard usage files. # PROGUARD_USAGE_ZIP := $(PRODUCT_OUT)/$(TARGET_PRODUCT)-proguard-usage-$(FILE_NAME_TAG).zip # For apps_only build we'll establish the dependency later in build/make/core/main.mk. ifeq (,$(TARGET_BUILD_UNBUNDLED)) $(PROGUARD_USAGE_ZIP): \ $(INSTALLED_SYSTEMIMAGE_TARGET) \ $(INSTALLED_RAMDISK_TARGET) \ $(INSTALLED_BOOTIMAGE_TARGET) \ $(INSTALLED_USERDATAIMAGE_TARGET) \ $(INSTALLED_VENDORIMAGE_TARGET) \ $(INSTALLED_PRODUCTIMAGE_TARGET) \ $(INSTALLED_SYSTEM_EXTIMAGE_TARGET) \ $(INSTALLED_ODMIMAGE_TARGET) \ $(INSTALLED_VENDOR_DLKMIMAGE_TARGET) \ $(INSTALLED_ODM_DLKMIMAGE_TARGET) \ $(updater_dep) endif $(PROGUARD_USAGE_ZIP): PRIVATE_LIST_FILE := $(call intermediates-dir-for,PACKAGING,proguard_usage.zip)/filelist $(PROGUARD_USAGE_ZIP): PRIVATE_PACKAGING_DIR := $(call intermediates-dir-for,PACKAGING,proguard_usage) $(PROGUARD_USAGE_ZIP): $(MERGE_ZIPS) @echo "Packaging Proguard usage files." mkdir -p $(dir $@) $(PRIVATE_PACKAGING_DIR) $(dir $(PRIVATE_LIST_FILE)) find $(PRIVATE_PACKAGING_DIR) -name proguard_usage.zip > $(PRIVATE_LIST_FILE) $(MERGE_ZIPS) $@ @$(PRIVATE_LIST_FILE) ifeq (true,$(PRODUCT_USE_DYNAMIC_PARTITIONS)) # Dump variables used by build_super_image.py (for building super.img and super_empty.img). # $(1): output file define dump-super-image-info $(call dump-dynamic-partitions-info,$(1)) $(if $(filter true,$(AB_OTA_UPDATER)), \ echo "ab_update=true" >> $(1)) endef endif # PRODUCT_USE_DYNAMIC_PARTITIONS # ----------------------------------------------------------------- # super partition image (dist) ifeq (true,$(PRODUCT_BUILD_SUPER_PARTITION)) # BOARD_SUPER_PARTITION_SIZE must be defined to build super image. ifneq ($(BOARD_SUPER_PARTITION_SIZE),) ifneq (true,$(PRODUCT_RETROFIT_DYNAMIC_PARTITIONS)) # For real devices and for dist builds, build super image from target files to an intermediate directory. INTERNAL_SUPERIMAGE_DIST_TARGET := $(call intermediates-dir-for,PACKAGING,super.img)/super.img $(INTERNAL_SUPERIMAGE_DIST_TARGET): extracted_input_target_files := $(patsubst %.zip,%,$(BUILT_TARGET_FILES_PACKAGE)) $(INTERNAL_SUPERIMAGE_DIST_TARGET): $(LPMAKE) $(BUILT_TARGET_FILES_PACKAGE) $(BUILD_SUPER_IMAGE) $(call pretty,"Target super fs image from target files: $@") PATH=$(dir $(LPMAKE)):$$PATH \ $(BUILD_SUPER_IMAGE) -v $(extracted_input_target_files) $@ # Skip packing it in dist package because it is in update package. ifneq (true,$(BOARD_SUPER_IMAGE_IN_UPDATE_PACKAGE)) $(call dist-for-goals,dist_files,$(INTERNAL_SUPERIMAGE_DIST_TARGET)) endif .PHONY: superimage_dist superimage_dist: $(INTERNAL_SUPERIMAGE_DIST_TARGET) endif # PRODUCT_RETROFIT_DYNAMIC_PARTITIONS != "true" endif # BOARD_SUPER_PARTITION_SIZE != "" endif # PRODUCT_BUILD_SUPER_PARTITION == "true" # ----------------------------------------------------------------- # super partition image for development ifeq (true,$(PRODUCT_BUILD_SUPER_PARTITION)) ifneq ($(BOARD_SUPER_PARTITION_SIZE),) ifneq (true,$(PRODUCT_RETROFIT_DYNAMIC_PARTITIONS)) # Build super.img by using $(INSTALLED_*IMAGE_TARGET) to $(1) # $(1): built image path # $(2): misc_info.txt path; its contents should match expectation of build_super_image.py define build-superimage-target mkdir -p $(dir $(2)) rm -rf $(2) $(call dump-super-image-info,$(2)) $(foreach p,$(BOARD_SUPER_PARTITION_PARTITION_LIST), \ echo "$(p)_image=$(INSTALLED_$(call to-upper,$(p))IMAGE_TARGET)" >> $(2);) $(if $(BUILDING_SYSTEM_OTHER_IMAGE), $(if $(filter system,$(BOARD_SUPER_PARTITION_PARTITION_LIST)), \ echo "system_other_image=$(INSTALLED_SYSTEMOTHERIMAGE_TARGET)" >> $(2);)) mkdir -p $(dir $(1)) PATH=$(dir $(LPMAKE)):$$PATH \ $(BUILD_SUPER_IMAGE) -v $(2) $(1) endef INSTALLED_SUPERIMAGE_TARGET := $(PRODUCT_OUT)/super.img INSTALLED_SUPERIMAGE_DEPENDENCIES := $(LPMAKE) $(BUILD_SUPER_IMAGE) \ $(foreach p, $(BOARD_SUPER_PARTITION_PARTITION_LIST), $(INSTALLED_$(call to-upper,$(p))IMAGE_TARGET)) ifdef BUILDING_SYSTEM_OTHER_IMAGE ifneq ($(filter system,$(BOARD_SUPER_PARTITION_PARTITION_LIST)),) INSTALLED_SUPERIMAGE_DEPENDENCIES += $(INSTALLED_SYSTEMOTHERIMAGE_TARGET) endif endif # If BOARD_BUILD_SUPER_IMAGE_BY_DEFAULT is set, super.img is built from images in the # $(PRODUCT_OUT) directory, and is built to $(PRODUCT_OUT)/super.img. Also, it will # be built for non-dist builds. This is useful for devices that uses super.img directly, e.g. # virtual devices. ifeq (true,$(BOARD_BUILD_SUPER_IMAGE_BY_DEFAULT)) $(INSTALLED_SUPERIMAGE_TARGET): $(INSTALLED_SUPERIMAGE_DEPENDENCIES) $(call pretty,"Target super fs image for debug: $@") $(call build-superimage-target,$(INSTALLED_SUPERIMAGE_TARGET),\ $(call intermediates-dir-for,PACKAGING,superimage_debug)/misc_info.txt) droidcore-unbundled: $(INSTALLED_SUPERIMAGE_TARGET) # For devices that uses super image directly, the superimage target points to the file in $(PRODUCT_OUT). .PHONY: superimage superimage: $(INSTALLED_SUPERIMAGE_TARGET) $(call dist-for-goals,dist_files,$(INSTALLED_MISC_INFO_TARGET):super_misc_info.txt) endif # BOARD_BUILD_SUPER_IMAGE_BY_DEFAULT # Build $(PRODUCT_OUT)/super.img without dependencies. .PHONY: superimage-nodeps supernod superimage-nodeps supernod: intermediates := superimage-nodeps supernod: | $(INSTALLED_SUPERIMAGE_DEPENDENCIES) $(call pretty,"make $(INSTALLED_SUPERIMAGE_TARGET): ignoring dependencies") $(call build-superimage-target,$(INSTALLED_SUPERIMAGE_TARGET),\ $(call intermediates-dir-for,PACKAGING,superimage-nodeps)/misc_info.txt) endif # PRODUCT_RETROFIT_DYNAMIC_PARTITIONS != "true" endif # BOARD_SUPER_PARTITION_SIZE != "" endif # PRODUCT_BUILD_SUPER_PARTITION == "true" # ----------------------------------------------------------------- # super empty image ifdef BUILDING_SUPER_EMPTY_IMAGE INSTALLED_SUPERIMAGE_EMPTY_TARGET := $(PRODUCT_OUT)/super_empty.img $(INSTALLED_SUPERIMAGE_EMPTY_TARGET): intermediates := $(call intermediates-dir-for,PACKAGING,super_empty) $(INSTALLED_SUPERIMAGE_EMPTY_TARGET): $(LPMAKE) $(BUILD_SUPER_IMAGE) $(call pretty,"Target empty super fs image: $@") mkdir -p $(intermediates) rm -rf $(intermediates)/misc_info.txt $(call dump-super-image-info,$(intermediates)/misc_info.txt) PATH=$(dir $(LPMAKE)):$$PATH \ $(BUILD_SUPER_IMAGE) -v $(intermediates)/misc_info.txt $@ $(call dist-for-goals,dist_files,$(INSTALLED_SUPERIMAGE_EMPTY_TARGET)) endif # BUILDING_SUPER_EMPTY_IMAGE # ----------------------------------------------------------------- # The update package name := $(TARGET_PRODUCT) ifeq ($(TARGET_BUILD_TYPE),debug) name := $(name)_debug endif name := $(name)-img-$(FILE_NAME_TAG) INTERNAL_UPDATE_PACKAGE_TARGET := $(PRODUCT_OUT)/$(name).zip $(INTERNAL_UPDATE_PACKAGE_TARGET): $(BUILT_TARGET_FILES_PACKAGE) $(IMG_FROM_TARGET_FILES) $(call pretty,"Package: $@") PATH=$(INTERNAL_USERIMAGES_BINARY_PATHS):$(dir $(ZIP2ZIP)):$$PATH \ $(IMG_FROM_TARGET_FILES) \ --additional IMAGES/VerifiedBootParams.textproto:VerifiedBootParams.textproto \ $(BUILT_TARGET_FILES_PACKAGE) $@ .PHONY: updatepackage updatepackage: $(INTERNAL_UPDATE_PACKAGE_TARGET) $(call dist-for-goals,updatepackage,$(INTERNAL_UPDATE_PACKAGE_TARGET)) # ----------------------------------------------------------------- # dalvik something .PHONY: dalvikfiles dalvikfiles: $(INTERNAL_DALVIK_MODULES) ifeq ($(BUILD_QEMU_IMAGES),true) MK_QEMU_IMAGE_SH := device/generic/goldfish/tools/mk_qemu_image.sh MK_COMBINE_QEMU_IMAGE := $(HOST_OUT_EXECUTABLES)/mk_combined_img SGDISK_HOST := $(HOST_OUT_EXECUTABLES)/sgdisk ifdef INSTALLED_SYSTEMIMAGE_TARGET INSTALLED_QEMU_SYSTEMIMAGE := $(PRODUCT_OUT)/system-qemu.img INSTALLED_SYSTEM_QEMU_CONFIG := $(PRODUCT_OUT)/system-qemu-config.txt $(INSTALLED_SYSTEM_QEMU_CONFIG): $(INSTALLED_SUPERIMAGE_TARGET) $(INSTALLED_VBMETAIMAGE_TARGET) @echo "$(PRODUCT_OUT)/vbmeta.img vbmeta 1" > $@ @echo "$(INSTALLED_SUPERIMAGE_TARGET) super 2" >> $@ $(INSTALLED_QEMU_SYSTEMIMAGE): $(INSTALLED_VBMETAIMAGE_TARGET) $(MK_COMBINE_QEMU_IMAGE) $(SGDISK_HOST) $(SIMG2IMG) \ $(INSTALLED_SUPERIMAGE_TARGET) $(INSTALLED_SYSTEM_QEMU_CONFIG) @echo Create system-qemu.img now (export SGDISK=$(SGDISK_HOST) SIMG2IMG=$(SIMG2IMG); \ $(MK_COMBINE_QEMU_IMAGE) -i $(INSTALLED_SYSTEM_QEMU_CONFIG) -o $@) systemimage: $(INSTALLED_QEMU_SYSTEMIMAGE) droidcore-unbundled: $(INSTALLED_QEMU_SYSTEMIMAGE) endif ifdef INSTALLED_VENDORIMAGE_TARGET INSTALLED_QEMU_VENDORIMAGE := $(PRODUCT_OUT)/vendor-qemu.img $(INSTALLED_QEMU_VENDORIMAGE): $(INSTALLED_VENDORIMAGE_TARGET) $(MK_QEMU_IMAGE_SH) $(SGDISK_HOST) $(SIMG2IMG) @echo Create vendor-qemu.img (export SGDISK=$(SGDISK_HOST) SIMG2IMG=$(SIMG2IMG); $(MK_QEMU_IMAGE_SH) $(INSTALLED_VENDORIMAGE_TARGET)) vendorimage: $(INSTALLED_QEMU_VENDORIMAGE) droidcore-unbundled: $(INSTALLED_QEMU_VENDORIMAGE) endif ifdef INSTALLED_RAMDISK_TARGET ifdef INSTALLED_VENDOR_BOOTIMAGE_TARGET ifdef INTERNAL_VENDOR_RAMDISK_TARGET INSTALLED_QEMU_RAMDISKIMAGE := $(PRODUCT_OUT)/ramdisk-qemu.img $(INSTALLED_QEMU_RAMDISKIMAGE): $(INTERNAL_VENDOR_RAMDISK_TARGET) $(INSTALLED_RAMDISK_TARGET) @echo Create ramdisk-qemu.img (cat $(INSTALLED_RAMDISK_TARGET) $(INTERNAL_VENDOR_RAMDISK_TARGET) > $(INSTALLED_QEMU_RAMDISKIMAGE)) droidcore-unbundled: $(INSTALLED_QEMU_RAMDISKIMAGE) endif endif endif ifdef INSTALLED_PRODUCTIMAGE_TARGET INSTALLED_QEMU_PRODUCTIMAGE := $(PRODUCT_OUT)/product-qemu.img $(INSTALLED_QEMU_PRODUCTIMAGE): $(INSTALLED_PRODUCTIMAGE_TARGET) $(MK_QEMU_IMAGE_SH) $(SGDISK_HOST) $(SIMG2IMG) @echo Create product-qemu.img (export SGDISK=$(SGDISK_HOST) SIMG2IMG=$(SIMG2IMG); $(MK_QEMU_IMAGE_SH) $(INSTALLED_PRODUCTIMAGE_TARGET)) productimage: $(INSTALLED_QEMU_PRODUCTIMAGE) droidcore-unbundled: $(INSTALLED_QEMU_PRODUCTIMAGE) endif ifdef INSTALLED_SYSTEM_EXTIMAGE_TARGET INSTALLED_QEMU_SYSTEM_EXTIMAGE := $(PRODUCT_OUT)/system_ext-qemu.img $(INSTALLED_QEMU_SYSTEM_EXTIMAGE): $(INSTALLED_SYSTEM_EXTIMAGE_TARGET) $(MK_QEMU_IMAGE_SH) $(SGDISK_HOST) $(SIMG2IMG) @echo Create system_ext-qemu.img (export SGDISK=$(SGDISK_HOST) SIMG2IMG=$(SIMG2IMG); $(MK_QEMU_IMAGE_SH) $(INSTALLED_SYSTEM_EXTIMAGE_TARGET)) systemextimage: $(INSTALLED_QEMU_SYSTEM_EXTIMAGE) droidcore-unbundled: $(INSTALLED_QEMU_SYSTEM_EXTIMAGE) endif ifdef INSTALLED_ODMIMAGE_TARGET INSTALLED_QEMU_ODMIMAGE := $(PRODUCT_OUT)/odm-qemu.img $(INSTALLED_QEMU_ODMIMAGE): $(INSTALLED_ODMIMAGE_TARGET) $(MK_QEMU_IMAGE_SH) $(SGDISK_HOST) @echo Create odm-qemu.img (export SGDISK=$(SGDISK_HOST); $(MK_QEMU_IMAGE_SH) $(INSTALLED_ODMIMAGE_TARGET)) odmimage: $(INSTALLED_QEMU_ODMIMAGE) droidcore-unbundled: $(INSTALLED_QEMU_ODMIMAGE) endif ifdef INSTALLED_VENDOR_DLKMIMAGE_TARGET INSTALLED_QEMU_VENDOR_DLKMIMAGE := $(PRODUCT_OUT)/vendor_dlkm-qemu.img $(INSTALLED_QEMU_VENDOR_DLKMIMAGE): $(INSTALLED_VENDOR_DLKMIMAGE_TARGET) $(MK_QEMU_IMAGE_SH) $(SGDISK_HOST) @echo Create vendor_dlkm-qemu.img (export SGDISK=$(SGDISK_HOST); $(MK_QEMU_IMAGE_SH) $(INSTALLED_VENDOR_DLKMIMAGE_TARGET)) vendor_dlkmimage: $(INSTALLED_QEMU_VENDOR_DLKMIMAGE) droidcore-unbundled: $(INSTALLED_QEMU_VENDOR_DLKMIMAGE) endif ifdef INSTALLED_ODM_DLKMIMAGE_TARGET INSTALLED_QEMU_ODM_DLKMIMAGE := $(PRODUCT_OUT)/odm_dlkm-qemu.img $(INSTALLED_QEMU_ODM_DLKMIMAGE): $(INSTALLED_ODM_DLKMIMAGE_TARGET) $(MK_QEMU_IMAGE_SH) $(SGDISK_HOST) @echo Create odm_dlkm-qemu.img (export SGDISK=$(SGDISK_HOST); $(MK_QEMU_IMAGE_SH) $(INSTALLED_ODM_DLKMIMAGE_TARGET)) odm_dlkmimage: $(INSTALLED_QEMU_ODM_DLKMIMAGE) droidcore-unbundled: $(INSTALLED_QEMU_ODM_DLKMIMAGE) endif QEMU_VERIFIED_BOOT_PARAMS := $(PRODUCT_OUT)/VerifiedBootParams.textproto $(QEMU_VERIFIED_BOOT_PARAMS): $(INSTALLED_VBMETAIMAGE_TARGET) $(INSTALLED_SYSTEMIMAGE_TARGET) \ $(MK_VBMETA_BOOT_KERNEL_CMDLINE_SH) $(AVBTOOL) @echo Creating $@ (export AVBTOOL=$(AVBTOOL); $(MK_VBMETA_BOOT_KERNEL_CMDLINE_SH) $(INSTALLED_VBMETAIMAGE_TARGET) \ $(INSTALLED_SYSTEMIMAGE_TARGET) $(QEMU_VERIFIED_BOOT_PARAMS)) systemimage: $(QEMU_VERIFIED_BOOT_PARAMS) droidcore-unbundled: $(QEMU_VERIFIED_BOOT_PARAMS) endif # ----------------------------------------------------------------- # The emulator package ifeq ($(BUILD_EMULATOR),true) INTERNAL_EMULATOR_PACKAGE_FILES += \ $(HOST_OUT_EXECUTABLES)/emulator$(HOST_EXECUTABLE_SUFFIX) \ prebuilts/qemu-kernel/$(TARGET_ARCH)/kernel-qemu \ $(INSTALLED_RAMDISK_TARGET) \ $(INSTALLED_SYSTEMIMAGE_TARGET) \ $(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 -qjX $@ $(INTERNAL_EMULATOR_PACKAGE_FILES) endif # ----------------------------------------------------------------- # The SDK # The SDK includes host-specific components, so it belongs under HOST_OUT. sdk_dir := $(HOST_OUT)/sdk/$(TARGET_PRODUCT) # 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 := $(INTERNAL_SDK_HOST_OS_NAME)-$(SDK_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_DEFAULT_INSTALLED_MODULES) \ $(INSTALLED_RAMDISK_TARGET) \ $(ALL_DOCS) \ $(ALL_SDK_FILES) endif atree_dir := development/build sdk_atree_files := \ $(atree_dir)/sdk.exclude.atree \ $(atree_dir)/sdk-$(HOST_OS)-$(SDK_HOST_ARCH).atree # development/build/sdk-android-.atree is used to differentiate # between architecture models (e.g. ARMv5TE versus ARMv7) when copying # files like the kernel image. We use TARGET_CPU_ABI because we don't # have a better way to distinguish between CPU models. ifneq (,$(strip $(wildcard $(atree_dir)/sdk-android-$(TARGET_CPU_ABI).atree))) sdk_atree_files += $(atree_dir)/sdk-android-$(TARGET_CPU_ABI).atree endif ifneq ($(PRODUCT_SDK_ATREE_FILES),) sdk_atree_files += $(PRODUCT_SDK_ATREE_FILES) else sdk_atree_files += $(atree_dir)/sdk.atree endif include $(BUILD_SYSTEM)/sdk_font.mk deps := \ $(target_notice_file_txt) \ $(tools_notice_file_txt) \ $(OUT_DOCS)/offline-sdk-timestamp \ $(SDK_METADATA_FILES) \ $(SYMBOLS_ZIP) \ $(COVERAGE_ZIP) \ $(APPCOMPAT_ZIP) \ $(INSTALLED_SYSTEMIMAGE_TARGET) \ $(INSTALLED_QEMU_SYSTEMIMAGE) \ $(INSTALLED_QEMU_RAMDISKIMAGE) \ $(INSTALLED_QEMU_VENDORIMAGE) \ $(QEMU_VERIFIED_BOOT_PARAMS) \ $(INSTALLED_USERDATAIMAGE_TARGET) \ $(INSTALLED_RAMDISK_TARGET) \ $(INSTALLED_SDK_BUILD_PROP_TARGET) \ $(INSTALLED_BUILD_PROP_TARGET) \ $(ATREE_FILES) \ $(sdk_atree_files) \ $(HOST_OUT_EXECUTABLES)/atree \ $(HOST_OUT_EXECUTABLES)/line_endings \ $(SDK_FONT_DEPS) 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) echo $(notdir $(SDK_FONT_DEPS)) | tr " " "\n" > $(SDK_FONT_TEMP)/fontsInSdk.txt $(hide) ( \ ATREE_STRIP="$(HOST_STRIP) -x" \ $(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=$(OUT_DIR)" \ -v "HOST_OUT=$(HOST_OUT)" \ -v "TARGET_ARCH=$(TARGET_ARCH)" \ -v "TARGET_CPU_ABI=$(TARGET_CPU_ABI)" \ -v "DLL_EXTENSION=$(HOST_SHLIB_SUFFIX)" \ -v "FONT_OUT=$(SDK_FONT_TEMP)" \ -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) $(PRIVATE_DIR)/platform-tools/NOTICE.txt && \ HOST_OUT_EXECUTABLES=$(HOST_OUT_EXECUTABLES) HOST_OS=$(HOST_OS) \ development/build/tools/sdk_clean.sh $(PRIVATE_DIR) && \ chmod -R ug+rwX $(PRIVATE_DIR) && \ cd $(dir $@) && zip -rqX $(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 winsdk-tools,$(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) $(FINDBUGS_DIR)/unionBugs $(ALL_FINDBUGS_FILES) \ > $@ $(INTERNAL_FINDBUGS_HTML_TARGET): $(INTERNAL_FINDBUGS_XML_TARGET) @echo ConvertXmlToText: $@ $(hide) $(FINDBUGS_DIR)/convertXmlToText -html:fancy.xsl \ $(INTERNAL_FINDBUGS_XML_TARGET) > $@ # ----------------------------------------------------------------- # Findbugs # ----------------------------------------------------------------- # These are some additional build tasks that need to be run. ifneq ($(dont_bother),true) include $(sort $(wildcard $(BUILD_SYSTEM)/tasks/*.mk)) -include $(sort $(wildcard vendor/*/build/tasks/*.mk)) -include $(sort $(wildcard device/*/build/tasks/*.mk)) -include $(sort $(wildcard product/*/build/tasks/*.mk)) # Also the project-specific tasks -include $(sort $(wildcard vendor/*/*/build/tasks/*.mk)) -include $(sort $(wildcard device/*/*/build/tasks/*.mk)) -include $(sort $(wildcard product/*/*/build/tasks/*.mk)) # Also add test specifc tasks include $(sort $(wildcard platform_testing/build/tasks/*.mk)) include $(sort $(wildcard test/vts/tools/build/tasks/*.mk)) endif include $(BUILD_SYSTEM)/product-graph.mk # ----------------------------------------------------------------- # Create SDK repository packages. Must be done after tasks/* since # we need the addon rules defined. ifneq ($(sdk_repo_goal),) include $(TOPDIR)development/build/tools/sdk_repo.mk endif # ----------------------------------------------------------------- # Soong generates the list of all shared libraries that are depended on by fuzz # targets. It saves this list as a source:destination pair to # FUZZ_TARGET_SHARED_DEPS_INSTALL_PAIRS, where the source is the path to the # build of the unstripped shared library, and the destination is the # /data/fuzz/$ARCH/lib (for device) or /fuzz/$ARCH/lib (for host) directory # where fuzz target shared libraries are to be "reinstalled". The # copy-many-files below generates the rules to copy the unstripped shared # libraries to the device or host "reinstallation" directory. These rules are # depended on by each module in soong_cc_prebuilt.mk, where the module will have # a dependency on each shared library that it needs to be "reinstalled". FUZZ_SHARED_DEPS := $(call copy-many-files,$(strip $(FUZZ_TARGET_SHARED_DEPS_INSTALL_PAIRS))) # ----------------------------------------------------------------- # The rule to build all fuzz targets for C++ and Rust, and package them. # Note: The packages are created in Soong, and in a perfect world, # we'd be able to create the phony rule there. But, if we want to # have dist goals for the fuzz target, we need to have the PHONY # target defined in make. MakeVarsContext.DistForGoal doesn't take # into account that a PHONY rule create by Soong won't be available # during make, and such will fail with `writing to readonly # directory`, because kati will see 'haiku' as being a file, not a # phony target. .PHONY: haiku haiku: $(SOONG_FUZZ_PACKAGING_ARCH_MODULES) $(ALL_FUZZ_TARGETS) $(call dist-for-goals,haiku,$(SOONG_FUZZ_PACKAGING_ARCH_MODULES)) .PHONY: haiku-rust haiku-rust: $(SOONG_RUST_FUZZ_PACKAGING_ARCH_MODULES) $(ALL_RUST_FUZZ_TARGETS) $(call dist-for-goals,haiku-rust,$(SOONG_RUST_FUZZ_PACKAGING_ARCH_MODULES))