The maximum page size Android supports
now is 16384, and Art only supports 16kB,
so we can save a bit of space.
Bug: 332556665
Test: N/A
Change-Id: I23df607bcc5cf9e96d7b6a66169413cd1a883f7e
The libraries are
- libdl_static
- liblinker_main
- liblinker_malloc
- libsystemproperties
The availability to runtime apex was done implicitly using a baseline map in
build/soong/apex/apex.go. Make this explicit in Android.bp
Bug: 281077552
Test: m nothing
Change-Id: I029ae204f6cfef8c301a20b7c4294636b60b38be
The build breakage is now fixed by the current stable Clang, workaround
is no longer needed.
Test: presubmit
Bug: 169004486
Change-Id: Ieb1e35b0dbafe0fbe47c23ff310c803bf697a664
The build breakage is now fixed by the current stable Clang, workaround
is no longer needed.
Test: presubmit
Bug: 169004486
Change-Id: Id8df8efeb9f4183921cbf75f1c51b1507bff1eb0
Use max_page_size() for build time variable alignments instead
of PAGE_SIZE.
In the 4k targets there is no functional difference since
max_page_size() == page_size() == 4096.
On a 16kb device max_page_size() == 65536 and page_size() == 16384.
However, aligning up does not incur any memory regressions
since the .bss/.data sections are still be backed in PAGE_SIZE'ed
chunks. See: go/16k-page-aligned-variables
Bug: 296275298
Test: mma
Change-Id: Ic944235d8a5742a51a8fb0f2a0b75e532f404110
Signed-off-by: Kalesh Singh <kaleshsingh@google.com>
Bazel doesn't like it when modules produce files with the same name
as the module itself, and gives warnings.
Rename either the module or file in this case so that the file has
an extension and the module doesn't.
Bug: 198619163
Test: m nothing
Change-Id: Ic4592b06f575496ffd54ac75cb4d682118b29d93
GWP-ASan's recoverable mode was landed upstream in
https://reviews.llvm.org/D140173.
This mode allows for a use-after-free or a buffer-overflow bug to be
detected by GWP-ASan, a crash report dumped, but then GWP-ASan (through
the preCrashReport() and postCrashReportRecoverableOnly() hooks) will
patch up the memory so that the process can continue, in spite of the
memory safety bug.
This is desirable, as it allows us to consider migrating non-system apps
from opt-in GWP-ASan to opt-out GWP-ASan. The major concern was "if we
make it opt-out, then bad apps will start crashing". If we don't crash,
problem solved :). Obviously, we'll need to do this with an amount of
process sampling to mitigate against the 70KiB memory overhead.
The biggest problem is that the debuggerd signal handler isn't the first
signal handler for apps, it's the sigchain handler inside of libart.
Clearly, the sigchain handler needs to ask us whether the crash is
GWP-ASan's fault, and if so, please patch up the allocator. Because of
linker namespace restrictions, libart can't directly ask the linker
(which is where debuggerd lies), so we provide a proxy function in libc.
Test: Build the platform, run sanitizer-status and various test apps
with recoverable gwp-asan. Assert that it doesn't crash, and we get a
debuggerd report.
Bug: 247012630
Change-Id: I86d5e27a9ca5531c8942e62647fd377c3cd36dfd
An easy one to start with, since there's nothing really in it :-)
Signed-off-by: Mao Han <han_mao@linux.alibaba.com>
Signed-off-by: Xia Lifang <lifang_xia@linux.alibaba.com>
Signed-off-by: Chen Guoyin <chenguoyin.cgy@linux.alibaba.com>
Signed-off-by: Wang Chen <wangchen20@iscas.ac.cn>
Signed-off-by: Lu Xufan <luxufan@iscas.ac.cn>
Test: built manually
Change-Id: I16028a6f959d0ce43b9c9d5d90db681479505a3e
Remove the vestigial llndk_library and replace it with properties
in the llndk clause of the implementation cc_library.
In order to reduce duplication of the arch-specific headers used
by the implementation and LLNDK, rename libc_headers_arch to
libc_llndk_headers and hoist the "include" directory out of it,
since that directory is preproccessed separately for LLNDK
libraries.
Bug: 170784825
Test: m checkbuild
Test: compare out/soong/build.ninja
Change-Id: I75f0ff9129d910640da55eee6a6387467e6e4a9d
Auto-generate NOTICE files for all the directories, and for each one
individually rather than mixing libc and libm together.
Test: N/A
Change-Id: I7e251194a8805c4ca78fcc5675c3321bcd5abf0a
These lines shouldn't actually matter, because the DSOs are using
version scripts to allow-list exported symbols.
Bug: none
Test: bionic unit tests
Change-Id: I39d3df8c4f8053624f862b3c6994e30c693e928c
Native bridge modules will never compile against stubs, remove
native_bridge_supported: true.
Test: m checkbuild
Change-Id: I0eb93fe1a2c3f6ca34ce4dab17edda8807132ce8
Instead of assuming a module with the .llndk suffix exists, add an
llndk_stubs property to every cc_library module that has a
corresponding llndk_library. Also rename the llndk_library to have
an explicit .llndk suffix.
Bug: 170784825
Test: no changes to build.ninja (excluding comments) or Android-${TARGET_PRODUCT}.mk
Change-Id: Ib5453472a09ebc64818ceb69bcbe1184720ce86a
There are multiple build breakages with bionic when we enable ThinLTO
globally. Opt bionic out of ThinLTO for now.
#global-thinlto-opt-out
Test: TreeHugger
Bug: 169004486
Change-Id: I546a8074f9c3e0ddbd01d3b7cd730e215e3c0c49
without bringing in libc.
Required by the native bridge libdl wrapper.
Test: m (on cf_x86_phone)
Bug: 153590472
Change-Id: Ib9b1b741aaf5b09b24d7dce09a49c2fa7737209f
Before this Soong added hardcoded system include paths to
bionic/libc/{include,kernel}, which won't work when Bionic libs are
packaged up as prebuilts in an SDK module snapshot.
Test: Build and boot
Test: Check in out/verbose.log.gz that a C file doesn't get any bionic
include path for linux_glibc.
Bug: 153590472
Change-Id: I13c8eb3dd7150d6e0fee001b290b53fcebebcfea
This reverts commit 8dba7fefb0.
Reason for revert: This workaround is not necessary with ag/10700799
Merged-In: I2bf469bfe00f3a70e67085abfb3822db6908d522
Change-Id: If351aedfce23d60582f0c5ff965f94356d1900d9
Bug: 150860940
When libbase is built for an APEX, it uses dlsym to reflectively access
liblog symbols that are added in R. This is because the APEX where
libbasse is packaged into might be running in pre-R devices where the
symbols don't exist in liblog.so.
This however causes a problem for a static executable in an APEX. Since
it is in an APEX, the dlsym is used. But libdl.so which provides dlsym
is not available to static executable. Currently, the dynamic linker is
the only executable in an APEX that all of its dependencies are
statically linked. Fixing the issue by providing fake dlsym by
statically linking to libdl.a.
Exempt-From-Owner-Approval: cherry-pick rvc-dev
Bug: 149569129
Test: m
Merged-In: I2e9e45d9876c2d6c878e541715389e6d1ef56996
(cherry picked from commit ec829ed4ea)
Change-Id: I2e9e45d9876c2d6c878e541715389e6d1ef56996
Stubs of version 29 should be provided to those APEX modules targeting
previous SDK release.
Bug: 145796956
Test: m
Change-Id: I9454fbf81377aba25e75a6fdfc77cbb070eaadde
These are no longer necessary now that LLVM no longer emits references to
this symbol on Android.
Bug: 144430859
Change-Id: I6c43338f755ce5a79e2df36bd3f2006a748fab27
arm32 has two special APIs to find exidx exception handling info,
dl_unwind_find_exidx and __gnu_Unwind_Find_exdix. The two functions have
identical behavior and function prototypes. libgcc's arm32 unwinder calls
__gnu_Unwind_Find_exdix, whereas LLVM's libunwind previously called
__gnu_Unwind_Find_exdix, but switched to dl_unwind_find_exidx as a result
of three patches (D30306, D30681, D39468).
In Bionic, for dynamic linking, __gnu_Unwind_Find_exdix in libc.so calls
dl_unwind_find_exidx in libdl.so.
For static executables, though, __gnu_Unwind_Find_exdix in libc.a used the
__exidx_* symbols, while dl_unwind_find_exidx in libdl.a(libdl_static.o)
was a return-0 no-op.
To fix the LLVM unwinder, replace the no-op dl_unwind_find_exidx in
libdl.a with a real function in libc.a(exidx_static.o), and have the GNU
function call the dl function for more consistency with dynamic linking.
dl_iterate_phdr follows a similar pattern, where the function exists in
libc.a and libdl.so (not libc.so or libdl.a).
This change makes unwinding work with an updated libunwind_llvm on arm32,
and it helps to allow unwinding in static executables without libdl.a.
Bug: https://github.com/android/ndk/issues/1094
Bug: http://b/141485154
Test: NDK tests, bionic unit tests
Change-Id: Ieeeb9b39a0e28544e21f9afe6fe51ef10d7c828c
The bionic libs are now restricted to be in the runtime APEX and the
platform (for bootstrapping). It can still be referenced from other
APEXes but can't be included there.
Bug: 139870423
Test: m
Change-Id: I7f99eef27ccf75844ca5c9a7ea866496841b738f
The call to the load hook needs to be moved before the call to link_image()
because the latter calls ifunc resolvers which might access global
variables. This fixes a bunch of ifunc tests.
The dlfcn.segment_gap test is currently failing. One problem is that the name
of the .bss.end_of_gap section changes as a result of global instrumentation.
Add some wildcards in so that we match both names. The other problem seems
to be the same as b/139089152.
It turns out that we need to untag pointers in a few more places. Since we have
quite a few of these now it seems worth creating a function for it.
Test: bionic-unit-tests
Change-Id: I44e2b0904faacdda7cc0c5e844ffc09de01dea2d
A future version of HWASAN will set pointer tags when taking the address of
a global. This means that we need to untag pointers in a couple of cases
where potential global pointers are passed to an interface that expects
untagged pointers:
- The WriteProtected class, whose only instances are globals, passes its
own address to mprotect. However, our device kernels do not currently
untag pointers passed to mprotect (the proposed upstream kernel patches
do, however, untag these pointers), so once HWASAN starts tagging global
pointers, this will start failing.
- The shadow_load function loads from a shadow that corresponds to the
address space bounds of loaded binaries. Since these address space
bounds are untagged, the pointer needs to be untagged to match.
Test: boots
Change-Id: I3f11ce6eb7261752e5ff6d039d04dd45516b236f
Enable native bridge support for bionic libraries.
Makes it possible to use them in binaries for translated
architectures.
Bug: http://b/77159578
Test: make
Change-Id: Iccd4ad7aecfa5260cc15f09ca975d2e18987278a
Seems only logical, given that all the other calls fail.
(Only thing that's weird about this is that calling dlerror() usually
clears the error until you do something else that causes an error, but
that doesn't seem worth the bookkeeping?)
Bug: https://github.com/android-ndk/ndk/issues/965
Test: static unit tests still pass
Change-Id: I5e5401e148c5857f1dbab9c5a7f4a6fc43d8d626
The libstdc++ directory has no copyright headers, so it was a no-op
anyway.
The interesting part will be switching libc and libm over to genrules...
Test: N/A
Change-Id: Iec92562af40c451fdcb4a7468984878ec5dba2ce
/system/lib/libc.so is a symlink to libc.so in the runtime APEX.
libc_malloc_* libraries are bundled with libc.so because they share
implementation details.
However, since libc.so is loaded in the default namespace where the
runtime APEX path (/apex/com.android.runtime/lib) is not accessible,
libc.so has been using libc_malloc_* from /system/lib. This is
wrong because libc.so (from the runtime APEX) and libc_malloc_* (from
the platform) may not be in-sync.
libc.so now uses android_dlopen_ext to load libc_malloc_* libraries
correctly from the "runtime" linker namespace.
Bug: 122566199
Test: bionic-unit-tests
Merged-In: I46980fbe89e93ea79a7760c9b8eb007af0ada8d8
Change-Id: I46980fbe89e93ea79a7760c9b8eb007af0ada8d8
(cherry picked from commit 4e46ac69c2)
The linker_namespaces test need android_get_LD_LIBRARY_PATH function.
Bug: http://b/129479780
Test: atest CtsJniTestCases
Change-Id: Iba5f74e1e4b5b1de173150120293102524db2507
(cherry picked from commit 91b0c68009)
Symbols not intended to be accessible from apps are moved to libdl_android.so
Test: bionic-unit-tests
Bug: http://b/129387775
Change-Id: Ib8ba6147a20cf56550c9a008f66570a2d419565a
(cherry picked from commit 2d6be9a751)
The *.mountpoint targets that installs /bionic/lib/lib*.so and
/bionic/bin/linker* are no longer needed.
Now, /system/lib/lib*.so and /system/bin/linker* are simply symlinks to
the corresponding files in the runtime apex. For example,
/system/lib/libc.so -> /apex/com.android.runtime/lib/bionic/libc.so
This is made possible because we now activate APEXes even before the
data partition is mounted. Before the data partition mounting, the
APEXes from the system partition are ativated. After the data partition
is mounted, updated APEXes in the partition (if any) are activated. As a
result, the symlink always points to the valid path regardless of
whether /data is mounted or not.
Bug: 125549215
Test: device boots
Change-Id: Ie7d83686abe00b3c436f9f9db75d4244200a0fc9
Bug: http://b/116873221
Bug: http://b/124067925
If not,
https://android-review.googlesource.com/c/platform/build/soong/+/848621
breaks blueline_coverage-userdebug target in internal branches with the
following error:
build/make/core/base_rules.mk:290: error: bionic/libdl:
MODULE.TARGET.SHARED_LIBRARIES.libdl already defined by
bionic/libdl.
Test: build blueline_coverage-userdebug in internal branch.
Change-Id: I8fff866ae2e17ce6daa4d8c75c72ceb17e2e73de
This change adds following files and symlinks:
Files:
/bionic/lib[64]/lib{c|dl|m}.so
/bionic/bin/linker[64]
Symlinks:
/system/lib[64]/lib{c|dl|m}.so -> /bionic/lib[64]/lib{c|dl|m}.so
/system/bin/linker[64] -> /bionic/bin/linker[64]
/system/bin/linker_asan[64] -> /bionic/bin/linker[64]
The files serve as mount points for either the bootstrap Bionic or the
default Bionic from the runtime APEX. init does the bind-mounting during
booting.
The symlinks are there to not change the ordinary paths to the bionic
files; there are many places that the paths are implied or hard-coded,
e.g., dlopen("/system/lib/libc.so") or DT_INTERP pointing to
/system/bin/linker in the vendor prebuilts.
Bug: 120266448
Test: m blueline, cf_x86, aosp_arm
The aforementioned files and symlinks are found
Change-Id: I97e38c29409ac0610dde285db8df6e94a7930094
Bionic libs are part of the runtime APEX (com.android.runtime). In order
to be able to update the runtime APEX independetly from the platform, we
have to prevent things outside of the APEX from using bionic symbols
that are not guaranteed to be stable. Otherwise, platform could break
when a symbol is removed from the libs via the APEX update.
To achive this goal, this change adds stubs variant to the bionic libs.
With this, things outside of the runtime APEX (i.e. other APEXes and the
platform) are built with the stubs variants that provide only the
symbols that are guaranteed to be stable.
The set of symbols are basically the same as the symbols available to
NDK clients. However, there are a few additional symbols that are not
available for NDK but should be made available for platform components.
They are marked with "# apex" tag. Symbols with that tag are not exposed
to apps (via NDK stubs) or vendors (via LLNDK stubs).
Note that the stubs is a build-time only artifact. It is used just to
break the build when private symbols are used outside of the runtime
APEX. At runtime, the real library in the APEX is used.
Bug: 120266448
Test: m
Test: m bionic-unit-tests
Change-Id: I7b8d75830c81d7d7d54e2fca21a85b3417531b47
