LGPL projects need their source code distributed under very
similar conditions to GPL and MPL, the only difference is the
conditions under which they may be linked. It makes sense to
include them in the GPL archive tarballs.
Change-Id: I2c2df03906bfeee55566102aa688e4cdc283700b
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Some executables will need to be built for both 32-bit and 64-bit.
For linker/linker64, debuggerd/debuggerd64, and a few more, they
will be installed in the same path (/system/bin), but with different
filenames. Allow the module to specify LOCAL_MODULE_STEM_32 and
LOCAL_MODULE_STEM_64 to name the two versions.
Change-Id: I573e8678c7332245a064f31246be0a05f0a9e25f
Some executables will need to be built for both 32-bit and 64-bit.
For tests, it will be convienient to keep the name of the executable
the same, but install them in a different location. Add
LOCAL_MODULE_PATH_32 and LOCAL_MODULE_PATH_64 to allow a module
to specify different paths for 32-bit and 64-bit executables.
Change-Id: I3be830e899c6d485fe55c25c66b20b3fe64c795e
-- Added TARGET_PREFER_32_BIT, which sets LOCAL_32_BIT_ONLY for an
executable, if LOCAL_NO_2ND_ARCH is not true.
Name resolving in 64-bit multilib build:
-- Name resolving in PRODUCT_PACKAGES:
foo:32 resolves to foo_32;
foo:64 resolves to foo;
foo resolves to both foo and foo_32 (if foo_32 is defined).
-- Name resolving for LOCAL_REQUIRED_MODULES:
If a module is built for 2nd arch, its required module resolves to
32-bit variant, if it exits;
Otherwise for executable and shared library, a required module
resolves to the default 64-bit variant; for other module classes,
required module foo resolves to both foo and foo_32 (if foo_32 is
defined)
Bug: 12898862
Change-Id: I5fda1a77f58814097b10b5ad2743ee25adfaecc4
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
Most users of LOCAL_MODULE_PATH are setting a subdirectory of the
normal install path, for example to install HALs into system/lib/hw.
This is problematic for multiarch builds, where the install location
depends on the arch. Allow modules to specify LOCAL_MODULE_RELATIVE_PATH.
HALs will generally use:
LOCAL_MODULE_RELATIVE_PATH := hw
Change-Id: I4e4ceec61d026bbe74ba604554c06104bde42e5e
Print the name of the module that is providing an unhandled install
path.
Change-Id: I0e8b02f01de1dde715f0985034ad943f793218ba
Conflicts:
core/base_rules.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
Conflicts:
core/base_rules.mk
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
We currently have two types of host libraries, those
meant for the host VM (Sun, OpenJDK etc.) and those meant
for a host dalvik build. The former need to be compiled
against the host standard libraries and the latter need
to be compiled against libcore. This change introduces
two new build rules to complement the existing the existing
host rules.
BUILD_HOST_DALVIK_JAVA_LIBRARY : Build a java library for
a host build of dalvik. Bootclasspath will be set to a host
build of libcore.
BUILD_HOST_DALVIK_STATIC_JAVA_LIBRARY : Build a static java
library for a host build of dalvik. Bootclasspath will be set
to a host build of libcore.
This change also removes support for the LOCAL_BUILD_HOST_DEX
flag, which is now unnecessary.
bug: 8992787
(cherry picked from commit 0dd273a3f6)
Change-Id: I3569fff8eaa4d26d55fcc317bd98471f55d74c14
only if the module is built against the platform, not the SDK.
Previously it added it if it's doing a platform build.
But we can do an apps_only build inside the platform source tree and
such a build may build modules against the platform.
This fixes the apps build in the platform source tree.
Change-Id: I73e32a8f0e505349790a102321f88e77fba472cd
With this change, you can install a shared library with module name foo
as bar.so to the system.img with:
LOCAL_INSTALLED_MODULE_STEM := bar.so
Note that we in general still disallow a static/shared library to
specify LOCAL_MODULE_STEM or LOCAL_BUILT_MODULE_STEM, because the build
system uses LOCAL_MODULE to compute build time dependencies, such as
export_includes, the -l linker flag etc.
Also, if you use LOCAL_INSTALLED_MODULE_STEM to change the installed
file name and if any other module links against this library, you may
run into runtime error: the library name baked in to the binary is not
the same as file name in the system image.
Change-Id: I55b571c8139c3bda07a4a0e50cea0f20d8d6c168
With this change, use:
* LOCAL_PROGUARD_ENABLED := obfuscation # to enable obfuscation
* LOCAL_PROGUARD_ENABLED := optimization # to enable optimization
* LOCAL_PROGUARD_ENABLED := obfuscation optimization # to enable both
Now the meaning of the LOCAL_PROGUARD_ENABLED options:
* full:
Use the build system's default configurations:
with shrink but no obfuscation or optimization,
global proguard flags in build/core/proguard.flags
are applied.
* custom:
The same as "full" except no aapt-generated resource-related
proguard flags.
* nosystem:
Don't use any build system's default configurations; but
aapt-generated proguard flags are still applied. You are
responsible for any other flags.
* disabled:
Disable proguard.
* obfuscation:
The same as "full" but with obfuscation enabled.
* optimization:
The same as "full" but with optimization enabled.
* no value (the default):
The build system chooses the proper value: "full" if it's an
app; "disabled" if it's a library.
You can use more than 1 of them in a meaningful combination,
for example:
LOCAL_PROGUARD_ENABLED := obfuscation optimization
Bug: 10307372
Change-Id: Id248caca3048e99547f16559fae74f4afe85c354
This reverts commit 28b46fc16c.
Speculative fix for master builds. I cannot repro the break the bots
are seeing locally, but it seems related to building protobufs and this
CL was in the first broken build.
Also source files which have dependencies need to be bundled together
(at least the way the build system is set up now). Move
--proto_path=$(TOP) to the end so that it does not take precedence
over user-supplied --proto_path flags.
Change-Id: Ia532647fe8811d39230a23ba3671685b0388cbe0
$(built_odex) depends on $(LOCAL_BUILT_MODULE) but doesn't have any build
recipe. It is built by the rules of $(LOCAL_BUILT_MODULE) that results in
a subtle bug: $(built_odex) is always newer than $(LOCAL_BUILT_MODULE)
if $(LOCAL_BUILT_MODULE) rebuilt. Therefore 'make' thinks the targets
(/system/app/$app.odex) depending on $(built_odex) don't need to be updated.
It seems an allegedly optimization bug of 'make'.
The simple fix is to explicitly add $(LOCAL_BUILT_MODULE) as a dependency
of $(installed_odex).
If we use +=, the right side may be deferred to evaluate,
if that target-specific variable is not defined yet.
That's a mistke.
Change-Id: I1635ee4791473f407866e010d612948c02cdebf6
This allows you to build apks that link against other
apks using the framework's new shared library apk feature.
Also if you are using LOCAL_APK_LIBRARIES, then LOCAL_DEX_PREOPT
will not be allowed. This is because using preopt means the
apk is stripped of its dex file, so the pre-installed apk can't
be redexed if its associated library changes. (Even if the build
system didn't strip the dex, Dalvik still has issues because it
assumes a pre-odex file is always valid.)
Change-Id: I952c0d24f8975f75aff67f78b5faeec91144c3e7
Instead we should explicitly set up the dependency, if the module will
be used in the build process; Use LOCAL_MODULE_TAGS with eng, debug or
tests if the module is for testing; or add to PRODUCT_PACKAGES if it's
required by a product.
Change-Id: Ic26319c26c1166bc1062dfbcfb4e006af185249a
With this support, you can piggy-back some symlinks when a module gets
installed.
This is especially helpful if the target of the symlink doesn't exist on
the build machine.
Change-Id: I48af7a90ce67475bc49b72f94a8753b94da98edd
