A fully (or even mostly) asan-instrumented device will have 2 copies of each
shared library, which might not fit on system partition. Moving instrumented
libraries to /data.
Bug: 21785137
Change-Id: I64184261da2eb24a1382c67e4931c34a5a38b3c0
For historical reason, the aosp_* products were named full_*.
We keep the full, full_x86 and full_mips in case some tools still
reference these legacy names; But no reason the have the full_* product
names for the new 64-bit archs.
Change-Id: I240ed0c6ded0ded2d80603bd0c5ff24750999afc
Build additional images requested by the product makefile.
This script gives the ability to build multiple additional images and
you can configure what modules/files to include in each image.
1. Define PRODUCT_CUSTOM_IMAGE_MAKEFILES in your product makefile.
PRODUCT_CUSTOM_IMAGE_MAKEFILES is a list of makefiles.
Each makefile configures an image.
For image configuration makefile foo/bar/xyz.mk, the built image
file name
will be xyz.img. So make sure they won't conflict.
2. In each image's configuration makefile, you can define variables:
- CUSTOM_IMAGE_MOUNT_POINT, the mount point, such as "oem", "odm"
etc.
- CUSTOM_IMAGE_PARTITION_SIZE
- CUSTOM_IMAGE_FILE_SYSTEM_TYPE
- CUSTOM_IMAGE_DICT_FILE, a text file defining a dictionary
accepted by BuildImage() in tools/releasetools/build_image.py.
- CUSTOM_IMAGE_MODULES, a list of module names you want to include
in the image; Not only the module itself will be installed to proper
path in the image, you can also piggyback additional files/directories
with the module's LOCAL_PICKUP_FILES.
- CUSTOM_IMAGE_COPY_FILES, a list of "<src>:<dest>" to be copied to
the image. <dest> is relativ to the root of the image.
To build all those images, run "make custom_images".
Bug: 19609718
Change-Id: Ic73587e08503a251be27797c7b00329716051927
(cherry picked from commit 5fcf1094f9)
We don't have a toolchain for 64-bit windows.
This allows running `USE_MINGW=1 mm` in a directory that has a host
module with LOCAL_MULTILIB := both.
Change-Id: I31f981b38fb80b0d6582bab0a4bd580a3c654c91
USE_MINGW=1 mm didn't work in directories that contained target modules
because the build system would use the Windows locations and extensions
when trying to find the host GCC prebuilts. Windows is the target OS,
not the OS we're building from.
Change-Id: Ic994fed15388d0c7d393f71ba28fe7afdc659f5c
Set "HOST_PREFER_32_BIT := true" only if "sdk" or "win_sdk" is among the
make command line goals, or it's a MinGW windows build, which only builds
host SDK tools.
Bug: 13751317
Change-Id: I8ec1a97a5d1af065a153b16523c2ee3434d0dd71
Since we switched to $(HOST_OUT)/lib64 for 64-bit libraries and
$(HOST_OUT)/lib for 32-bit libraries.
Change-Id: Ie43bc03c37e2ac8542412a7543a6af5d60c6f725
We first define TARGET_COPY_OUT_VENDOR as a placeholder. In product
config makefiiles we actually get the placeholders in
PRODUCT_COPY_FILES. A device can set up TARGET_COPY_OUT_VENDOR in its
BoardConfig.mk. We substitute the placeholder with the real
TARGET_COPY_OUT_VENDOR value after loading the BoardConfig.mk.
With this change, we can support building vendor stuff to
system.img (the default) or a separate vendor.img.
Bug: 16515152
Change-Id: I5b601d7a8b34fe032a1bac02aa5c204a3765691d
Set up TARGET_IS_64_BIT and HOST_IS_64_BIT early so we don't need 2
mechanisms to judge if it's 64-bit build;
Remove the unnecessary 32-bit host variables.
Change-Id: I08d6d4d9ea70f91135fe2ee05463fb9a0d1cee42
In 64-bit multilib host build, changed from
32-bit lib: out/host/<platform>/lib32
64-bit lib: out/host/<platform>/lib
to
32-bit lib: out/host/<platform>/lib
64-bit lib: out/host/<platform>/lib64
.
That way the host library path is consistent with the multilib target
build's. Also with this change prebuilt 32-bit libraries can be reused
in 64-bit host build as 2nd arch binaries. (With previous setup, they
can't be used because they have rpath ../lib in it while the 2nd arch
library path needs ../lib32.
Change-Id: I020199d0c7dd52cdc8dcb7d3a1d22cd6178672e1
With multilib host build, the build system installs host
shared libraries to different directories depending on a
library's bitness:
- HOST_OUT_SHARED_LIBRARIES points to the library path of 64-bit;
- 2ND_HOST_OUT_SHARED_LIBRARIES points to the library path of 32-bit;
- If you don't care the bitness of the libraries and just want whatever
version the librareies are built by default, use HOST_LIBRARY_PATH.
Bug:13751317
Change-Id:Id4c818941dc4ea35d795767c76f698529bd6aebb
Also we don't need to force LLVM built from source, for we already force
LLVM to be built as 32-bit.
Bug: 13751317
Change-Id: Ifadf1988d28b60cb06316de50f5bdc1834f1acc0
We already support pure 32-bit and 64-bit-by-default multilib build.
With HOST_PREFER_32_BIT we can build 32-bit-by-default multilib build.
This will be lest disruptive during the period we transition to
64-bit-by-default.
Bug: 13751317
Change-Id: I0d56ce4abbe4afeaacfd70d709f6a349791c0722
This change basically ported our target multilib to the host side.
It supports 2 host build modes: x86 and x86_64 multilib build.
For now you need to set "BUILD_HOST_64bit=true" to switch to x86_64
multilib build. Later we'll default to x86_64 build and have a flag
to force 32-bit only build, which may be needed by SDK build.
In host module definition, like in target ones, you can use the
following
LOCAL variables to set up multilib configuration:
LOCAL_MULTILIB: can be "both", "first", "32" or "64".
It also supports the same set of arch or 32-vs-64 specific LOCAL
variables.
By default, it builds only for the first arch.
To keep path compatibility, in x86_64 build files are still output to
out/host/linux-x86; Both 32-bit and 64-bit executables are in
out/host/linux-86/bin;
In x86_64 build 32-bit shared libraries are installed to
out/host/linux-x86/lib32
and 64-bit shared libraries are installed to out/host/linux-x86/lib;
32-bit object files are output to out/host/linux-x86/obj32 and 64-bit
object files
are output to out/host/linux-x86/obj.
Bug: 13751317
Change-Id: I6044f83b7db369a33e05209e8c588eb6dc83409f
To build oem.img:
- You must define BOARD_OEMIMAGE_PARTITION_SIZE in your BoardConfig.mk
- The file system type will be the same as system.img and userdata.img.
- To install a module to oem.img, use "LOCAL_OEM_MODULE := true"
- run "make -j48 showcommands oem_image dist". By default it's not
built.
Bug: 13367676
Change-Id: I1a26d4d0c61b72ecffe60279667b1b3de050780d
Introduce ro.product.cpu.abilist32 / abilist64, which are
comma separated lists of the 32 and 64 bit ABIs that the
device supports. These properties are used by the zygote and
system server to determine what ABI an app should be
started with.
This changes move abilist related make steps out of envsetup.mk
and into config.mk because they depend on variables set by
core/combo/***. Additionally, config.mk performs a few additional
cleanups of these variables (like stripping them) after the
inclusion of envsetup.mk so this seems like a better place to
put them.
bug: 13647418
Change-Id: I3db39bdd761220c5b4966f651892fb592396f9a1
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