Add a (read only) system property that is a comma
separated list of ABIs supported by the device in order
of preference. For example, typical arm-v8 device might
define:
ro.cpu.abilist = arm64-v8a,armeabi-v7a,armeabi
For most purposes, a single flattened list like the above is
probably more useful than the parallel system of variables
TARGET_CPU_ABI{2} / TARGET_2ND_ARCH_CPU_ABI{2} that we use
in the build system.
Change-Id: If9102669ad9f5f8fd89a8bcc5bf88cca1acadc3c
* commit '8c89a9ff9cd461e4bc077a91a0c7c32b17a92ebd':
add new gen/ directory for generated sources
warn on LOCAL_MODULE_PATH in multiarch shared libraries
Support LOCAL_MODULE_RELATIVE_PATH
Allow modules to generate source into $OUT/gen, which will then
be copied into $OUT/obj and $OUT/obj_$(TARGET_2ND_ARCH) as
necessary. This allows a single build rule invocation that includes
generated source to build for the first and second architectures.
Modules will need to change calls to local-intermediates-dir into
local-generated-sources-dir.
Change-Id: I62504bad9454b3d9fde7b84ab9f0a487a2ecf0bf
* commit '088319dd22ac4bc65eb284dfeeab368ac2e90ca9':
Add 2nd arch directories for apps
Set up rules to build prebuilts for TARGET_2ND_ARCH
Set up rules to build packages for TARGET_2ND_ARCH
With those variables, you can set up different values for TARGET_ARCH
and TARGET_2ND_ARCH.
Also fixed a couple of variables.
Bug: 11654773
Change-Id: I4c7684a562cd5877d18f67d4f848b8df07d0103b
Conflicts:
core/base_rules.mk
By default, an executable is built for TARGET_ARCH.
To build it for TARGET_2ND_ARCH in a 64bit product, use:
LOCAL_32BIT_ONLY := true
To skip a module for TARGET_2ND_ARCH, use:
LOCAL_NO_2ND_ARCH := true
Bug: 11654773
Change-Id: Ieb293d25b21024bfe1b554044df338e064ac7b46
The rules for the 2nd arch are set up in the second inclusion
of static_library_internal.mk.
libfoo of the 2nd arch will be built into
$(PRODUCT_OUT)/obj_$(TARGET_2ND_ARCH)/libfoo_intermediates/libfoo.a.
Bug: 11654773
Change-Id: I1d92733968fc442e9225b4df5bd1b551a81d89f7
This is the first step to build 32-bit libraries in a 64-bit product.
It will work like this:
1) In the product's BoardConfig.mk, define:
TARGET_2ND_ARCH, TARGET_2ND_ARCH_VARIANT, TARGET_2ND_CPU_VARIANT.
The build system uses those variables to set up an additional compiler
environment for the second arch.
2) When parsing Android.mks, the build system sets up rules to build a
module for both the 1st arch and the 2nd arch, unless it's explicitly
asked to skip so.
Android.mk will be adapted if there is additional rule of generating
source files.
The build system will accept arch-specific LOCAL_ variables, such as
LOCAL_CFLAGS_arm, LOCAL_CFLAGS_armv7-a-neon, LOCAL_CFLAGS_cortex-a15,
LOCAL_CFLAGS_aarch64 etc. Modules use such variables to set up build for
various archs at the same time.
3) Install binary of the 2nd arch by adding "<module_name>:32" to
PRODUCT_PACKAGES. All 2nd-arch libraries linked in by "<module_name>:32"
will be installed automatically.
Bug: 11654773
Change-Id: I2df63cd5463a07bf5358bee2a109f8fb9590fe30
Conflicts:
core/combo/TARGET_linux-arm.mk
With those variables, you can set up different values for TARGET_ARCH
and TARGET_2ND_ARCH.
Also fixed a couple of variables.
Bug: 11654773
Change-Id: I4c7684a562cd5877d18f67d4f848b8df07d0103b
By default, an executable is built for TARGET_ARCH.
To build it for TARGET_2ND_ARCH in a 64bit product, use:
LOCAL_32BIT_ONLY := true
To skip a module for TARGET_2ND_ARCH, use:
LOCAL_NO_2ND_ARCH := true
Bug: 11654773
Change-Id: Ieb293d25b21024bfe1b554044df338e064ac7b46
The rules for the 2nd arch are set up in the second inclusion
of static_library_internal.mk.
libfoo of the 2nd arch will be built into
$(PRODUCT_OUT)/obj_$(TARGET_2ND_ARCH)/libfoo_intermediates/libfoo.a.
Bug: 11654773
Change-Id: I1d92733968fc442e9225b4df5bd1b551a81d89f7
This is the first step to build 32-bit libraries in a 64-bit product.
It will work like this:
1) In the product's BoardConfig.mk, define:
TARGET_2ND_ARCH, TARGET_2ND_ARCH_VARIANT, TARGET_2ND_CPU_VARIANT.
The build system uses those variables to set up an additional compiler
environment for the second arch.
2) When parsing Android.mks, the build system sets up rules to build a
module for both the 1st arch and the 2nd arch, unless it's explicitly
asked to skip so.
Android.mk will be adapted if there is additional rule of generating
source files.
The build system will accept arch-specific LOCAL_ variables, such as
LOCAL_CFLAGS_arm, LOCAL_CFLAGS_armv7-a-neon, LOCAL_CFLAGS_cortex-a15,
LOCAL_CFLAGS_aarch64 etc. Modules use such variables to set up build for
various archs at the same time.
3) Install binary of the 2nd arch by adding "<module_name>:32" to
PRODUCT_PACKAGES. All 2nd-arch libraries linked in by "<module_name>:32"
will be installed automatically.
Bug: 11654773
Change-Id: I2df63cd5463a07bf5358bee2a109f8fb9590fe30
/system/lib always contains 32-bit libraries, and /system/lib64 (if
present) always contains 64-bit libraries.
Move things around a little bit, so TARGET_ARCH can be used to define
the build paths.
Bug: 11654773
Change-Id: I2edd91e162c7a20d7719d7bae15e5fa6c2a5b498
Bug: 5368571
Now we have a phony target "tests" instead.
The target can be built in any other build variant (eg userdebug).
For example, "make PRODUCT-full-userdebug tests dist" will build and
put the *-test-* zip file in the dist dir.
The "tests" target will include all modules tagged as "tests" in
addition to other modules in specific target out directories.
Change-Id: I8383097380d8e6846c3e2107d6dd5f68788cfc39
It is not forbidden to say LOCAL_MODULE_TAGS := user,
and if you don't say LOCAL_MODULE_TAGS, it now defaults
to optional.
Change-Id: I0a0b200bb6f1c7bf1fe3a89cdc8f69678617526c
So, just add the output include directory to the include path
Change-Id: Ia370454237913a748288124f65a6b731b17d6e1a
Signed-off-by: Dima Zavin <dima@android.com>
Bug: 5769921
With this change, to build factory_ramdisk.img, set
PRODUCT_FACTORY_RAMDISK_MODULES in your product config.
PRODUCT_FACTORY_RAMDISK_MODULES consists of
"<module_name>:<install_path>" pairs.
<install_path> is relative to the root of the factory ramdisk output.
For example:
PRODUCT_FACTORY_RAMDISK_MODULES := \
toolbox:bin/toolbox adbd:sbin/adbd adb:bin/adb
On the other hand you can use PRODUCT_COPY_FILES to copy prebuilt files
to the factory ramdisk.
Or you can define modules that are specific for the factory ramdisk
(with LOCAL_MODULE_PATH pointing to TARGET_FACTORY_RAMDISK_OUT) and add
the module names to PRODUCT_PACKAGES.
Change-Id: I80ff72606415cd74fe6f3bc93020a05d84e45b70
Bug: 5153694
To build cache.img, set BOARD_CACHEIMAGE_FILE_SYSTEM_TYPE (required,
ext4 only for now), BOARD_CACHEIMAGE_PARTITION_SIZE (optional) in
BoardConfig.mk.
Change-Id: I1d8b91646aa1dba88285e008ad3335768bcbddd2
They are relative to PRODUCT_OUT so can be used in PRODUCT_COPY_FILES.
If TARGET_COPY_OUT_VENDOR instead of hardcoded system/vendor is used, we
will be able to transition smoothly to a separate vendor staging directory.
Change-Id: Ia9fdb208768cf4699180306280b4c02421b2ea9c
Merge commit 'bf2ed191fe229b6a83684c19a57e11e7b50c8637'
* commit 'bf2ed191fe229b6a83684c19a57e11e7b50c8637':
Move odex related files to product-specific dir.
Merge commit 'a83940fa7851b35712e559be2246b56b5666b805' into gingerbread-plus-aosp
* commit 'a83940fa7851b35712e559be2246b56b5666b805':
Move odex related files to product-specific dir.
For target Java libraries, now the LOCAL_BUILT_MODULE includes both javalib.jar
and the .odex file, if dexpreopt is enabled.
These 2 files are moved to a product-specific dir in this change.
For target Java Libraries, $(intermediates) now points to the product-specific dir.
There is still a javalib.jar in the $(intermediates.COMMON) dir, which is used as dependency.
Nothing is changed for host Java libraries.
Change-Id: I2546dbb940c74537864ca002d1acb49bb731fbbc
