3b33f3eb2d
Originally we had some confusion around whether the features could be toggled individually or not. Per the ARM C Language Extensions doc[1], __ARM_FEATURE_CRYPTO implies the "crypto extension" which encompasses all of them. The runtime CPUID equivalent can report the features individually, but it seems no one separates them in practice, for now. (If they ever do, probably there'll be a new set of #defines.) [1] http://infocenter.arm.com/help/topic/com.arm.doc.ihi0053c/IHI0053C_acle_2_0.pdf Change-Id: I12915dfc308f58fb005286db75e50d8328eeb3ea Reviewed-on: https://boringssl-review.googlesource.com/16991 Reviewed-by: Adam Langley <agl@google.com> Commit-Queue: Adam Langley <agl@google.com> CQ-Verified: CQ bot account: commit-bot@chromium.org <commit-bot@chromium.org>
169 lines
6.8 KiB
Markdown
169 lines
6.8 KiB
Markdown
# Building BoringSSL
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## Build Prerequisites
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* [CMake](https://cmake.org/download/) 2.8.11 or later is required.
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* Perl 5.6.1 or later is required. On Windows,
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[Active State Perl](http://www.activestate.com/activeperl/) has been
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reported to work, as has MSYS Perl.
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[Strawberry Perl](http://strawberryperl.com/) also works but it adds GCC
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to `PATH`, which can confuse some build tools when identifying the compiler
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(removing `C:\Strawberry\c\bin` from `PATH` should resolve any problems).
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If Perl is not found by CMake, it may be configured explicitly by setting
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`PERL_EXECUTABLE`.
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* On Windows you currently must use [Ninja](https://ninja-build.org/)
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to build; on other platforms, it is not required, but recommended, because
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it makes builds faster.
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* If you need to build Ninja from source, then a recent version of
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[Python](https://www.python.org/downloads/) is required (Python 2.7.5 works).
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* On Windows only, [Yasm](http://yasm.tortall.net/) is required. If not found
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by CMake, it may be configured explicitly by setting
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`CMAKE_ASM_NASM_COMPILER`.
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* A C compiler is required. On Windows, MSVC 14 (Visual Studio 2015) or later
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with Platform SDK 8.1 or later are supported. Recent versions of GCC (4.8+)
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and Clang should work on non-Windows platforms, and maybe on Windows too.
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To build the tests, you also need a C++ compiler with C++11 support.
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* [Go](https://golang.org/dl/) is required. If not found by CMake, the go
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executable may be configured explicitly by setting `GO_EXECUTABLE`.
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* To build the x86 and x86\_64 assembly, your assembler must support AVX2
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instructions and MOVBE. If using GNU binutils, you must have 2.22 or later.
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## Building
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Using Ninja (note the 'N' is capitalized in the cmake invocation):
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mkdir build
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cd build
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cmake -GNinja ..
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ninja
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Using Make (does not work on Windows):
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mkdir build
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cd build
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cmake ..
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make
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You usually don't need to run `cmake` again after changing `CMakeLists.txt`
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files because the build scripts will detect changes to them and rebuild
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themselves automatically.
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Note that the default build flags in the top-level `CMakeLists.txt` are for
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debugging—optimisation isn't enabled. Pass `-DCMAKE_BUILD_TYPE=Release` to
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`cmake` to configure a release build.
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If you want to cross-compile then there is an example toolchain file for 32-bit
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Intel in `util/`. Wipe out the build directory, recreate it and run `cmake` like
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this:
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cmake -DCMAKE_TOOLCHAIN_FILE=../util/32-bit-toolchain.cmake -GNinja ..
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If you want to build as a shared library, pass `-DBUILD_SHARED_LIBS=1`. On
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Windows, where functions need to be tagged with `dllimport` when coming from a
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shared library, define `BORINGSSL_SHARED_LIBRARY` in any code which `#include`s
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the BoringSSL headers.
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In order to serve environments where code-size is important as well as those
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where performance is the overriding concern, `OPENSSL_SMALL` can be defined to
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remove some code that is especially large.
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See [CMake's documentation](https://cmake.org/cmake/help/v3.4/manual/cmake-variables.7.html)
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for other variables which may be used to configure the build.
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### Building for Android
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It's possible to build BoringSSL with the Android NDK using CMake. This has
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been tested with version 10d of the NDK.
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Unpack the Android NDK somewhere and export `ANDROID_NDK` to point to the
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directory. Then make a build directory as above and run CMake like this:
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cmake -DANDROID_ABI=armeabi-v7a \
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-DCMAKE_TOOLCHAIN_FILE=../third_party/android-cmake/android.toolchain.cmake \
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-DANDROID_NATIVE_API_LEVEL=16 \
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-GNinja ..
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Once you've run that, Ninja should produce Android-compatible binaries. You
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can replace `armeabi-v7a` in the above with `arm64-v8a` and use API level 21 or
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higher to build aarch64 binaries.
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For other options, see [android-cmake's documentation](./third_party/android-cmake/README.md).
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### Building for iOS
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To build for iOS, pass `-DCMAKE_OSX_SYSROOT=iphoneos` and
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`-DCMAKE_OSX_ARCHITECTURES=ARCH` to CMake, where `ARCH` is the desired
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architecture, matching values used in the `-arch` flag in Apple's toolchain.
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Passing multiple architectures for a multiple-architecture build is not
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supported.
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## Known Limitations on Windows
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* Versions of CMake since 3.0.2 have a bug in its Ninja generator that causes
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yasm to output warnings
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yasm: warning: can open only one input file, only the last file will be processed
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These warnings can be safely ignored. The cmake bug is
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http://www.cmake.org/Bug/view.php?id=15253.
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* CMake can generate Visual Studio projects, but the generated project files
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don't have steps for assembling the assembly language source files, so they
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currently cannot be used to build BoringSSL.
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## Embedded ARM
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ARM, unlike Intel, does not have an instruction that allows applications to
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discover the capabilities of the processor. Instead, the capability information
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has to be provided by the operating system somehow.
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By default, on Linux-based systems, BoringSSL will try to use `getauxval` and
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`/proc` to discover the capabilities. But some environments don't support that
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sort of thing and, for them, it's possible to configure the CPU capabilities at
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compile time.
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On iOS or builds which define `OPENSSL_STATIC_ARMCAP`, features will be
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determined based on the `__ARM_NEON__` and `__ARM_FEATURE_CRYPTO` preprocessor
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symbols reported by the compiler. These values are usually controlled by the
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`-march` flag. You can also define any of the following to enable the
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corresponding ARM feature.
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* `OPENSSL_STATIC_ARMCAP_NEON`
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* `OPENSSL_STATIC_ARMCAP_AES`
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* `OPENSSL_STATIC_ARMCAP_SHA1`
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* `OPENSSL_STATIC_ARMCAP_SHA256`
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* `OPENSSL_STATIC_ARMCAP_PMULL`
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Note that if a feature is enabled in this way, but not actually supported at
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run-time, BoringSSL will likely crash.
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## Assembling ARMv8 with Clang
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In order to support the ARMv8 crypto instructions, Clang requires that the
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architecture be `armv8-a+crypto`. However, setting that as a general build flag
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would allow the compiler to assume that crypto instructions are *always*
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supported, even without testing for them.
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It's possible to set the architecture in an assembly file using the `.arch`
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directive, but only very recent versions of Clang support this. If
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`BORINGSSL_CLANG_SUPPORTS_DOT_ARCH` is defined then `.arch` directives will be
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used with Clang, otherwise you may need to craft acceptable assembler flags.
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# Running tests
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There are two sets of tests: the C/C++ tests and the blackbox tests. For former
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are built by Ninja and can be run from the top-level directory with `go run
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util/all_tests.go`. The latter have to be run separately by running `go test`
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from within `ssl/test/runner`.
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Both sets of tests may also be run with `ninja -C build run_tests`, but CMake
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3.2 or later is required to avoid Ninja's output buffering.
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