The clang prebuilts now provide a single module with per-architecture
variants instead of a module per architecture.
Bug: 220019988
Test: m checkbuild
Change-Id: I39e2cf8ae14edf8510276dab38011afaef85822c
Merged-In: I39e2cf8ae14edf8510276dab38011afaef85822c
In addition to the current "apps", support overriding
bootclasspath_fragments, systemserverclasspath_fragments, and java_libs.
This is useful to build APEXes with slightly different contents, for
example where the base APEX could contain libraries that only use stable
APIs, but the overriding APEX could contain a variant that also uses
non-finalized APIs.
Bug: 222247869
Test: m (runs apex tests)
Change-Id: I14da6f835c58b44be31e517598695ec8ff830648
The clang prebuilts now provide a single module with per-architecture
variants instead of a module per architecture.
Bug: 220019988
Test: m checkbuild
Change-Id: I39e2cf8ae14edf8510276dab38011afaef85822c
(cherry picked from commit 386ee59a23)
Merged-In:I39e2cf8ae14edf8510276dab38011afaef85822c
The primary boot image is a required dep of the ART APEX. It needs to be
installed no matter the APEX is flattened or not.
Bug: 220991677
Test: 1. m OVERRIDE_TARGET_FLATTEN_APEX=true com.android.art
2. See boot.art in /system/framework/<isa>
Change-Id: I1a69ae1b86df97fc44ea6c75c8bb9ec960c8d249
dependencies of rust library registered as jni_lib are correctly
tracked.
Bug: 220397949
Test: m nothing
Change-Id: I43016a77656d04f59f798b02d541c6a19288ec9c
propogation of this flag is determined by the location of the Android.bp
where a library is defined.
libcore/ libraries that are transtive deps of updatable apexes will
- inherit strict_updatability_linting:true if defined in libcore root
- not inherit strict_updatability_linting:true if defined in libcore
subdir
Note that the module can explicitly list `lint:{strict_updatability_linting: true}'
in their Android.bp file, in which case they will not be allowed to
baseline NewApi errors
Test: m lint-check
Test: TH
Bug: 208656169
Bug: 182349282
Change-Id: I4c373b2960a7af16301d7f06aab448f39b937ea9
Cleans out the remaining modules that build system
auto-allowed for the media mainline modules com.android.media
and com.android.media.swcodec. With this change, both lists
are empty and all needed modules are documented with explicit
apex_available clauses.
Bug: 215589022
Bug: 147364041
Test: build
Change-Id: I7d809ae72ad21f6b2ed8b05613c44019a974f6fd
This CL refactors the code related to ManifestFixer parameters.
The required parameters android.ModuleContext, manifest android.Path are
passed separately as the parameters and the optional parameters are
kept as part of the ManifestFixerParams struct.
By default, the member variable of struct have the zero (nil, false,
empty string) values. Hence, it is only required to pass the
parameters of interest at the time of function call to
ManifestFixer.
Manual testing done to check the working of the code.
Test: m nothing && m test_com.android.sdkext
Test: manually tested the generation of AndroidManifest in the out
directory with the testOnly attribute
Test: atest manifest_fixer_test --host
To test the existing unittests are not breaking.
Change-Id: I20cb6c06c57f8fe7811050288bcb03945dc0425b
As of Jan 2022, some updatable mainline modules have (transitive) deps with
NewApi in their respective lint-baseline.xml. Create an allowlist to
relax this check temporarily for those mainline modules.
Test: m lint-check
Test: TH
Bug: 182349282
Change-Id: I9ccda6fccb973e9100e31b7e559f5642289ac717
If the build file contains the apex_test module, but the apex_test
module does not contain the AndroindManifest file, then create the
AndroidManifest file.
In such case, the apexer tool is already generating an AndroidManifest
file. In order to handle the testOnly attribute for apex_test modules, a
--test_only flag is appended to the opt flags.
The apexer tool reads the opt flags and if the --test_only flag is
present then it generate the AndroidManifest file with testOnly
attribute.
Bug: 213310150
Test: m nothing && m test_com.android.sdkext
Test: manually checked the generation of AndroidManifest file in the
unsigned zip file mentioned in the description.
This command allows to read the attribute of the binary xml file -
aapt2 dump xmltree test_com.android.sdkext.apex.unsigned --file
AndroidManifest.xml
Verified the presence of testOnly flag in the output.
Change-Id: Ic47378428b2dba51d73e75d912546c2374f68d57
Create a topdown mutator to walk the deps of updatable apexes. If a dep
is lintable, set its strictUpdatabilityLinting to true
Creating a new mutator after apexInfoMutator makes it easy to maintain
an allowlist (e.g. override_apex does not require an entry in the
allowlist, its canonical name can be retrieved using ApexVariationName())
Test: In build/soong/, go test ./apex
Test: TH
Bug: 182349282
Change-Id: I1b390b0e3a8fb20754ce50c6b253d68d2b3f263b
Clean out list of modules automatically allowed to be used in the media
mainline modules, now that those modules have explicit apex_available
clauses in their Android.bp files.
Bug: 215589022
Bug: 147364041
Test: build
Change-Id: I2d3f57621796c99a119acc98e1ead358aebedc5d
In case there are two vendor apexes(one with "use_vndk_as_stable:true",
and the other with "use_vndk_as_stable:false") a VNDK lib used by both
will have "APEX" variant and the former APEX will use "apex" variation.
For example,
apex1(use_vndk_as_stable) -> foo -> libvndk
apex2 -> bar -> libvndk
Since foo, bar and libvndk are mutated into two APEX variations("",
"apex10000"), foo will use the apex variation of libvndk.
To fix this, VNDK libs can use "unique" APEX variations. Then, in the
above example, foo will have "myapex1" variation and libvndk will have
two APEX variations("" and "apex2"). So foo will link to ""(non-APEX)
variation as fallback.
Bug: 216847402
Test: m nothing (soong tests)
Change-Id: I116932860ef79e22dc338a58b251e3ca693ab4f3
Even though a vendor APEX sets use_vndk_as_stable:true it was possible
to include a VNDK lib by directly depending on it with
native_shared_libs.
But it's contradictory to have a VNDK lib while declaring not to include
VNDK libs. It was missing since pruning dependencies on VNDK libs was
done only for transitive deps.
Added a check to reject this.
Bug: 216847402
Test: m nothing(running soong tests)
Change-Id: I8d79a434b1bfe8e563cf8968fa76830b0e582f66
If the build file contains the apex_test module, add the
testOnly attribute to the application element of the
corresponding AndroidManifest file and set its value to true.
If the testOnly attribute is already present and has value
false, then do nothing.
Tests added in manifest_fixer_test.py to check if the updated
AndroidManifest file has the testOnly attribute set to true or not.
Bug: 213310150
Test: atest --host manifest_fixer_test
Test: m nothing
Test: manually checked the AndroidManifest file generated
Change-Id: I36247dbe0261c342d451a4422c314fd8fe0c2369
This change is similar to aosp/1947127, but for prebuilts.
After this change, if `bootImageConfig.installDirOnDevice` is set to a
path outside of the APEX, the build system will build a boot image from
the dex files and the profile extracted from the prebuilt APEX.
Otherwise, it keeps the current behavior: extracting the boot image from
the prebuilt APEX.
This is a no-op change. Current behavior is not affected.
Bug: 211973309
Test: m nothing
Test: -
On internal master:
1. Patch aosp/1947128.
2. Patch ag/16743847 and ag/16746804.
3. m SOONG_CONFIG_art_module_source_build=false com.google.android.art
4. See the boot image being installed in `/system/framework/<arch>`.
Change-Id: I24ca525309fecaf3ab7a67960fbf118cd00ecd1d
Bug: 214466457
Bug: 207551677
Test: b build //build/bazel/examples/apex/minimal:build.bazel.examples.apex.minimal
Test: b test //build/bazel/tests/apex:build.bazel.examples.apex.minimal_apex
Test: b test //build/bazel/tests/apex:build.bazel.examples.apex.minimal_capex
Change-Id: I6bf12c1b0c52d4486968bb430a67a3c3110766db
This is needed to allow the Android Go versions of modules
(com.google.android.go.*) to select a different compression toggle than
their non-Go (com.google.android.*) conterparts. go/go-updatability
Bug: 203024418
Test: Preloaded go variants on wembley, booted Android.
Change-Id: Ic96aff5fafb65fbd08e8a69d47c994532e27819e
Merged-In: Ic96aff5fafb65fbd08e8a69d47c994532e27819e
(cherry picked from commit 2c4a96375a)
As requested by reminv@, their team wants the source code in
sc-mainline-prod to be strictly the same as the code in AOSP. Therefore,
we need to ignore `standalone_contents` in the
`systemserverclasspath_fragment` module and
`systemserverclasspath_fragments` in the `sdk` module in order to merge
aosp/1925682 into sc-mainline-prod.
- `standalone_contents` in the `systemserverclasspath_fragment` module
does nothing but adds its contents as dependencies of the APEX.
- `systemserverclasspath_fragments` in the `sdk` module does nothing.
Bug: 203198541
Test: TARGET_BUILD_APPS=com.android.tethering vendor/google/build/mainline_modules_bundles.sh
Change-Id: I56ca22aa91a807cd113dfda2fabaeb49ecabe289
Merged-In: I09a6fd1d3db85c194330da9b751702a9bf069e26
Discourage jarjaring code where there are alternatives with
better system health implications.
Test: m
Bug: 215233995
Change-Id: I1b076d00e1ad6aa32b41da6bda1033978b5e829d
Currently, the bpf module netd.o (source system/netd/bpf_progs/netd.c)
will be built to /system/etc/bpf/netd.o. In Android T, it will be moved
to mainline module com.android.tethering.
The expected behavior is:
- In T device, it uses the netd.o in mainline module.
- In pre-T devices, it uses the original netd, built from platform.
However, netd.o will be double loaded if the tethering module is
installed in Pre-T devices. Because:
1. bpf in apex is packed into /apex/MAINLINE_MODULE/etc/bpf/
2. bpf in platform is packed into /system/etc/bpf/
3. bpfloader in pre-T loads ANY bpf modules under
/apex/com.android.tethering/etc/bpf/ and /system/etc/bpf/.
We can't change the behavior of bpfloader in pre-T devices. We can't
delete the /system/etc/bpf/netd.o from pre-T devices. Both of them are
not mainline modules. So the mainlined netd.o needs to be packed into a
folder other than /apex/com.android.tethering/etc/bpf/ or
/system/etc/bpf/.
This commit adds a tag 'sub_dir' for bpf module. The installation path
of bpf modules will be:
- /system/etc/bpf/SUB_DIR/ (for platform code)
- /apex/MAINLINE_MODULE/etc/bpf/SUB_DIR/ (for mainline module)
Bug: 202086915
Test: add test in apex_test.go and build
Merged-In: Icc6619768ab006de9f86620a7df1bb2853eaba13
Change-Id: Icc6619768ab006de9f86620a7df1bb2853eaba13
Currently, the bpf module netd.o (source system/netd/bpf_progs/netd.c)
will be built to /system/etc/bpf/netd.o. In Android T, it will be moved
to mainline module com.android.tethering.
The expected behavior is:
- In T device, it uses the netd.o in mainline module.
- In pre-T devices, it uses the original netd, built from platform.
However, netd.o will be double loaded if the tethering module is
installed in Pre-T devices. Because:
1. bpf in apex is packed into /apex/MAINLINE_MODULE/etc/bpf/
2. bpf in platform is packed into /system/etc/bpf/
3. bpfloader in pre-T loads ANY bpf modules under
/apex/com.android.tethering/etc/bpf/ and /system/etc/bpf/.
We can't change the behavior of bpfloader in pre-T devices. We can't
delete the /system/etc/bpf/netd.o from pre-T devices. Both of them are
not mainline modules. So the mainlined netd.o needs to be packed into a
folder other than /apex/com.android.tethering/etc/bpf/ or
/system/etc/bpf/.
This commit adds a tag 'sub_dir' for bpf module. The installation path
of bpf modules will be:
- /system/etc/bpf/SUB_DIR/ (for platform code)
- /apex/MAINLINE_MODULE/etc/bpf/SUB_DIR/ (for mainline module)
Bug: 202086915
Test: add test in apex_test.go and build
Change-Id: Icc6619768ab006de9f86620a7df1bb2853eaba13
