782c485880
There's no need to check in generated code. Test: builds & boots Change-Id: Ife368bca4349d4adeb0666db590356196b4fbd63
324 lines
12 KiB
Markdown
324 lines
12 KiB
Markdown
# bionic
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[bionic](https://en.wikipedia.org/wiki/Bionic_(software)) is Android's
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C library, math library, and dynamic linker.
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# Using bionic as an app developer
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See the [user documentation](docs/).
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# Working on bionic itself
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This documentation is about making changes to bionic itself.
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## What are the big pieces of bionic?
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#### libc/ --- libc.so, libc.a
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The C library. Stuff like `fopen(3)` and `kill(2)`.
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#### libm/ --- libm.so, libm.a
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The math library. Traditionally Unix systems kept stuff like `sin(3)` and
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`cos(3)` in a separate library to save space in the days before shared
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libraries.
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#### libdl/ --- libdl.so
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The dynamic linker interface library. This is actually just a bunch of stubs
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that the dynamic linker replaces with pointers to its own implementation at
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runtime. This is where stuff like `dlopen(3)` lives.
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#### libstdc++/ --- libstdc++.so
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The C++ ABI support functions. The C++ compiler doesn't know how to implement
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thread-safe static initialization and the like, so it just calls functions that
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are supplied by the system. Stuff like `__cxa_guard_acquire` and
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`__cxa_pure_virtual` live here.
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#### linker/ --- /system/bin/linker and /system/bin/linker64
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The dynamic linker. When you run a dynamically-linked executable, its ELF file
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has a `DT_INTERP` entry that says "use the following program to start me". On
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Android, that's either `linker` or `linker64` (depending on whether it's a
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32-bit or 64-bit executable). It's responsible for loading the ELF executable
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into memory and resolving references to symbols (so that when your code tries to
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jump to `fopen(3)`, say, it lands in the right place).
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#### tests/ --- unit tests
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The `tests/` directory contains unit tests. Roughly arranged as one file per
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publicly-exported header file.
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#### benchmarks/ --- benchmarks
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The `benchmarks/` directory contains benchmarks, with its own [documentation](benchmarks/README.md).
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## What's in libc/?
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```
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libc/
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arch-arm/
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arch-arm64/
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arch-common/
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arch-mips/
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arch-mips64/
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arch-x86/
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arch-x86_64/
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# Each architecture has its own subdirectory for stuff that isn't shared
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# because it's architecture-specific. There will be a .mk file in here that
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# drags in all the architecture-specific files.
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bionic/
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# Every architecture needs a handful of machine-specific assembler files.
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# They live here.
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string/
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# Most architectures have a handful of optional assembler files
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# implementing optimized versions of various routines. The <string.h>
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# functions are particular favorites.
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syscalls/
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# The syscalls directories contain script-generated assembler files.
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# See 'Adding system calls' later.
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include/
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# The public header files on everyone's include path. These are a mixture of
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# files written by us and files taken from BSD.
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kernel/
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# The kernel uapi header files. These are scrubbed copies of the originals
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# in external/kernel-headers/. These files must not be edited directly. The
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# generate_uapi_headers.sh script should be used to go from a kernel tree to
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# external/kernel-headers/ --- this takes care of the architecture-specific
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# details. The update_all.py script should be used to regenerate bionic's
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# scrubbed headers from external/kernel-headers/.
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private/
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# These are private header files meant for use within bionic itself.
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dns/
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# Contains the DNS resolver (originates from NetBSD code).
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upstream-freebsd/
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upstream-netbsd/
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upstream-openbsd/
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# These directories contain unmolested upstream source. Any time we can
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# just use a BSD implementation of something unmodified, we should.
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# The structure under these directories mimics the upstream tree,
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# but there's also...
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android/
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include/
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# This is where we keep the hacks necessary to build BSD source
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# in our world. The *-compat.h files are automatically included
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# using -include, but we also provide equivalents for missing
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# header/source files needed by the BSD implementation.
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bionic/
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# This is the biggest mess. The C++ files are files we own, typically
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# because the Linux kernel interface is sufficiently different that we
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# can't use any of the BSD implementations. The C files are usually
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# legacy mess that needs to be sorted out, either by replacing it with
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# current upstream source in one of the upstream directories or by
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# switching the file to C++ and cleaning it up.
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malloc_debug/
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# The code that implements the functionality to enable debugging of
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# native allocation problems.
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stdio/
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# These are legacy files of dubious provenance. We're working to clean
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# this mess up, and this directory should disappear.
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tools/
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# Various tools used to maintain bionic.
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tzcode/
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# A modified superset of the IANA tzcode. Most of the modifications relate
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# to Android's use of a single file (with corresponding index) to contain
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# time zone data.
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zoneinfo/
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# Android-format time zone data.
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# See 'Updating tzdata' later.
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```
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## Adding libc wrappers for system calls
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The first question you should ask is "should I add a libc wrapper for
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this system call?". The answer is usually "no".
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The answer is "yes" if the system call is part of the POSIX standard.
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The answer is probably "yes" if the system call has a wrapper in at
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least one other C library.
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The answer may be "yes" if the system call has three/four distinct
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users in different projects, and there isn't a more specific library
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that would make more sense as the place to add the wrapper.
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In all other cases, you should use
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[syscall(3)](http://man7.org/linux/man-pages/man2/syscall.2.html) instead.
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Adding a system call usually involves:
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1. Add entries to SYSCALLS.TXT.
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See SYSCALLS.TXT itself for documentation on the format.
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2. Add constants (and perhaps types) to the appropriate header file.
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Note that you should check to see whether the constants are already in
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kernel uapi header files, in which case you just need to make sure that
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the appropriate POSIX header file in libc/include/ includes the
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relevant file or files.
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3. Add function declarations to the appropriate header file. Don't forget
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to include the appropriate `__INTRODUCED_IN()`.
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4. Add the function name to the correct section in libc/libc.map.txt and
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run `./libc/tools/genversion-scripts.py`.
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5. Add at least basic tests. Even a test that deliberately supplies
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an invalid argument helps check that we're generating the right symbol
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and have the right declaration in the header file, and that you correctly
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updated the maps in step 5. (You can use strace(1) to confirm that the
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correct system call is being made.)
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## Updating kernel header files
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As mentioned above, this is currently a two-step process:
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1. Use generate_uapi_headers.sh to go from a Linux source tree to appropriate
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contents for external/kernel-headers/.
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2. Run update_all.py to scrub those headers and import them into bionic.
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Note that if you're actually just trying to expose device-specific headers to
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build your device drivers, you shouldn't modify bionic. Instead use
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`TARGET_DEVICE_KERNEL_HEADERS` and friends described in [config.mk](https://android.googlesource.com/platform/build/+/master/core/config.mk#186).
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## Updating tzdata
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This is fully automated (and these days handled by the libcore team, because
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they own icu, and that needs to be updated in sync with bionic):
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1. Run update-tzdata.py in external/icu/tools/.
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## Verifying changes
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If you make a change that is likely to have a wide effect on the tree (such as a
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libc header change), you should run `make checkbuild`. A regular `make` will
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_not_ build the entire tree; just the minimum number of projects that are
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required for the device. Tests, additional developer tools, and various other
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modules will not be built. Note that `make checkbuild` will not be complete
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either, as `make tests` covers a few additional modules, but generally speaking
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`make checkbuild` is enough.
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## Running the tests
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The tests are all built from the tests/ directory.
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### Device tests
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$ mma # In $ANDROID_ROOT/bionic.
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$ adb root && adb remount && adb sync
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$ adb shell /data/nativetest/bionic-unit-tests/bionic-unit-tests
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$ adb shell \
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/data/nativetest/bionic-unit-tests-static/bionic-unit-tests-static
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# Only for 64-bit targets
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$ adb shell /data/nativetest64/bionic-unit-tests/bionic-unit-tests
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$ adb shell \
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/data/nativetest64/bionic-unit-tests-static/bionic-unit-tests-static
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Note that we use our own custom gtest runner that offers a superset of the
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options documented at
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<https://github.com/google/googletest/blob/master/googletest/docs/AdvancedGuide.md#running-test-programs-advanced-options>,
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in particular for test isolation and parallelism (both on by default).
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### Device tests via CTS
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Most of the unit tests are executed by CTS. By default, CTS runs as
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a non-root user, so the unit tests must also pass when not run as root.
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Some tests cannot do any useful work unless run as root. In this case,
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the test should check `getuid() == 0` and do nothing otherwise (typically
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we log in this case to prevent accidents!). Obviously, if the test can be
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rewritten to not require root, that's an even better solution.
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Currently, the list of bionic CTS tests is generated at build time by
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running a host version of the test executable and dumping the list of
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all tests. In order for this to continue to work, all architectures must
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have the same number of tests, and the host version of the executable
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must also have the same number of tests.
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Running the gtests directly is orders of magnitude faster than using CTS,
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but in cases where you really have to run CTS:
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$ make cts # In $ANDROID_ROOT.
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$ adb unroot # Because real CTS doesn't run as root.
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# This will sync any *test* changes, but not *code* changes:
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$ cts-tradefed \
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run singleCommand cts --skip-preconditions -m CtsBionicTestCases
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### Host tests
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The host tests require that you have `lunch`ed either an x86 or x86_64 target.
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Note that due to ABI limitations (specifically, the size of pthread_mutex_t),
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32-bit bionic requires PIDs less than 65536. To enforce this, set /proc/sys/kernel/pid_max
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to 65536.
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$ ./tests/run-on-host.sh 32
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$ ./tests/run-on-host.sh 64 # For x86_64-bit *targets* only.
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You can supply gtest flags as extra arguments to this script.
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### Against glibc
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As a way to check that our tests do in fact test the correct behavior (and not
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just the behavior we think is correct), it is possible to run the tests against
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the host's glibc.
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$ ./tests/run-on-host.sh glibc
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## Gathering test coverage
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For either host or target coverage, you must first:
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* `$ export NATIVE_COVERAGE=true`
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* Note that the build system is ignorant to this flag being toggled, i.e. if
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you change this flag, you will have to manually rebuild bionic.
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* Set `bionic_coverage=true` in `libc/Android.mk` and `libm/Android.mk`.
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### Coverage from device tests
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$ mma
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$ adb sync
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$ adb shell \
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GCOV_PREFIX=/data/local/tmp/gcov \
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GCOV_PREFIX_STRIP=`echo $ANDROID_BUILD_TOP | grep -o / | wc -l` \
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/data/nativetest/bionic-unit-tests/bionic-unit-tests
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$ acov
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`acov` will pull all coverage information from the device, push it to the right
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directories, run `lcov`, and open the coverage report in your browser.
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### Coverage from host tests
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First, build and run the host tests as usual (see above).
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$ croot
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$ lcov -c -d $ANDROID_PRODUCT_OUT -o coverage.info
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$ genhtml -o covreport coverage.info # or lcov --list coverage.info
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The coverage report is now available at `covreport/index.html`.
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## Attaching GDB to the tests
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Bionic's test runner will run each test in its own process by default to prevent
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tests failures from impacting other tests. This also has the added benefit of
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running them in parallel, so they are much faster.
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However, this also makes it difficult to run the tests under GDB. To prevent
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each test from being forked, run the tests with the flag `--no-isolate`.
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## 32-bit ABI bugs
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See [32-bit ABI bugs](docs/32-bit-abi.md).
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