NDK编译——CMake

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CMake

On this page

1. Using CMake variables in Gradle
2. Understanding the CMake build command
3. YASM support in CMake
4. Reporting problems

Using Android Studio 2.2 and higher, you can use the NDK and CMake to compile C and C++ code into a native library. Android Studio then packages your library into your APK using Gradle, the IDE's integrated build system.

If you are new to using CMake with Android Studio, go to Add C and C++ Code to Your Project to learn the basics of adding native sources to your project, creating a CMake build script, and adding your CMake project as a Gradle dependency. This page provides some additional information you can use to customize your CMake build.

Using CMake variables in Gradle

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Once you link Gradle to your CMake project, you can configure certain NDK-specific variables that change the way CMake builds your native libraries. To pass an argument to CMake from your module-level build.gradle file, use the following DSL:

android {
  ...
  defaultConfig {
    ...
    // This block is different from the one you use to link Gradle
    // to your CMake build script.
    externalNativeBuild {
      cmake {
        ...
        // Use the following syntax when passing arguments to variables:
        // arguments "-DVAR_NAME=ARGUMENT".
        arguments "-DANDROID_ARM_NEON=TRUE",
        // If you're passing multiple arguments to a variable, pass them together:
        // arguments "-DVAR_NAME=ARG_1 ARG_2"
        // The following line passes 'rtti' and 'exceptions' to 'ANDROID_CPP_FEATURES'.
                  "-DANDROID_CPP_FEATURES=rtti exceptions"
      }
    }
  }
  buildTypes {...}

  // Use this block to link Gradle to your CMake build script.
  externalNativeBuild {
    cmake {...}
  }
}

The following table describes some of the variables you can configure when using CMake with the NDK.

Variable name	Arguments	Description
ANDROID_TOOLCHAIN	clang (default) gcc (deprecated)	Specifies the compiler toolchain CMake should use.
ANDROID_PLATFORM	For a complete list of platform names and corresponding Android system images, see Android NDK Native APIs.	Specifies the name of the target Android platform. For example,android-18 specifies Android 4.3 (API level 18). Instead of changing this flag directly, you should set theminSdkVersion property in the defaultConfig or productFlavorsblocks of your module-level build.gradle file. This makes sure your library is used only by apps installed on devices running an adequate version of Android. The CMake toolchain then chooses the best platform version for the ABI you're building using the following logic: If there exists a platform version for the ABI equal tominSdkVersion, CMake uses that version. Otherwise, if there exists platform versions lower thanminSdkVersion for the ABI, CMake uses the highest of those platform versions. This is a reasonable choice because a missing platform version typically means that there were no changes to the native platform APIs since the previous available version. Otherwise, CMake uses the next available platform version higher than minSdkVersion.
ANDROID_STL	For a complete list of options, see Helper Runtimes By default, CMake uses gnustl_static.	Specifies the STL CMake should use.
ANDROID_PIE	ON (default when ANDROID_PLATFORM = android-16 and higher) OFF (default when ANDROID_PLATFORM = android-15 and lower)	Specifies whether to use position-independent executables (PIE). Android's dynamic linker supports PIE on Android 4.1 (API level 16) and higher.
ANDROID_CPP_FEATURES	This variable is empty by default. However, the following are a few examples of arguments you can pass: rtti (indicates that your code uses RTTI) exceptions (indicates that your code uses C++ exceptions)	Specifies certain C++ features CMake needs to use when compiling your native library, such as RTTI (RunTime Type Information) and C++ exceptions.
ANDROID_ALLOW_UNDEFINED_SYMBOLS	TRUE FALSE (default)	Specifies whether to throw an undefined symbol error if CMake encounters an undefined reference while building your native library. To disable these types of errors, set this variable to TRUE.
ANDROID_ARM_MODE	arm thumb (default)	Specifies whether to generate ARM target binaries in arm or thumbmode. In thumb mode, each instruction is 16 bits wide and linked with the STL libraries in the thumb/ directory. Passing arm tells CMake to generate your library's object files in 32-bit arm mode.
ANDROID_ARM_NEON	TRUE FALSE (default)	Specifies whether CMake should build your native library with NEON support.
ANDROID_DISABLE_NO_EXECUTE	TRUE FALSE (default)	Specifies whether to enable NX bit, or No eXecute, security feature. To disable this feature, pass TRUE.
ANDROID_DISABLE_RELRO	TRUE FALSE (default)	Specifies whether to enable read-only relocations.
ANDROID_DISABLE_FORMAT_STRING_CHECKS	TRUE FALSE (default)	Specifies whether to compile your source code with format string protection. When enabled, the compiler throws an error if a non-constant format string is used in a printf-style function.

Understanding the CMake build command

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When debugging CMake build issues, it's helpful to know the specific build arguments that Android Studio uses when cross-compiling for Android.

Android Studio saves the build arguments it uses for executing a CMake build, in a cmake_build_command.txt file. For each Application Binary Interface (ABI) that your app targets, and each build type for those ABIs (namely, release or debug), Android Studio generates a copy of the cmake_build_command.txt file for that specific configuration. Android Studio then places the files it generates in the following directories:

//.externalNativeBuild/cmake///

Tip: In Android Studio, you can quickly view these files by using the search keyboard shortcut (shift+shift) and entering cmake_build_command.txtin the input field.

The following snippet shows an example of the CMake arguments to build a debuggable release of the hello-jni sample targeting the armeabi-v7aarchitecture.

Executable : /usr/local/google/home/{$USER}/Android/Sdk/cmake/3.6.3155560/bin/cmake
arguments :
-H/usr/local/google/home/{$USER}/Dev/github-projects/googlesamples/android-ndk/hello-jni/app/src/main/cpp
-B/usr/local/google/home/{$USER}/Dev/github-projects/googlesamples/android-ndk/hello-jni/app/.externalNativeBuild/cmake/arm7Debug/armeabi-v7a
-GAndroid Gradle - Ninja
-DANDROID_ABI=armeabi-v7a
-DANDROID_NDK=/usr/local/google/home/{$USER}/Android/Sdk/ndk-bundle
-DCMAKE_LIBRARY_OUTPUT_DIRECTORY=/usr/local/google/home/{$USER}/Dev/github-projects/googlesamples/android-ndk/hello-jni/app/build/intermediates/cmake/arm7/debug/obj/armeabi-v7a
-DCMAKE_BUILD_TYPE=Debug
-DCMAKE_MAKE_PROGRAM=/usr/local/google/home/{$USER}/Android/Sdk/cmake/3.6.3155560/bin/ninja
-DCMAKE_TOOLCHAIN_FILE=/usr/local/google/home/{$USER}/Android/Sdk/ndk-bundle/build/cmake/android.toolchain.cmake
-DANDROID_NATIVE_API_LEVEL=23
-DANDROID_TOOLCHAIN=clang
jvmArgs : 

Build arguments

The following table highlights the key CMake build arguments for Android. These build arguments are not meant to be set by developers. Instead, theAndroid Plugin for Gradle sets these arguments based on the build.gradle configuration in your project.

Build Arguments	Description
-G	Type of build files that CMake generates. For projects in Android Studio with native code, the  is set to Android Gradle - Ninja. This setting indicates that CMake uses the ninja build system to compile and link the C/C++ sources for your app. CMake also generates a android_gradle_build.json file which contains metadata for the Gradle plugin about the CMake build such as compiler flags and names of targets. This setting indicates that CMake uses Gradle together with the ninja build system to compile and link the C/C++ sources for your app. The ninja build system is the only generator that Studio supports.
-DANDROID_ABI	The target ABI. The NDK supports a set of ABIs, as described in ABI Management. This option is similar to theAPP_ABI variable that the ndk-build tool uses. By default, Gradle builds your native library into separate .so files for the ABIs that NDK supports, and then packages them all into your APK. If you want Gradle to build only for certain ABI configurations, follow the instructions in Add C and C++ Code to Your Project. If the target ABI is not specified, CMake defaults to using armeabi-v7a. Valid target names are: armeabi: ARMv5TE based CPU with software floating point operations. armeabi-v7a: ARMv7 based devices with hardware FPU instructions (VFPv3_D16). armeabi-v7a with NEON: Same as armeabi-v7a, but enables NEON floating point instructions. This is equivalent to setting -DANDROID_ABI=armeabi-v7a and -DANDROID_ARM_NEON=ON. arm64-v8a: ARMv8 AArch64 instruction set. mips: MIPS32 instruction set (r1). mips64 - MIPS64 instruction set (r6). x86: IA-32 instruction set. x86_64 - Instruction set for the x86-64 architecture.
-DANDROID_NDK	Absolute path to the root directory of the NDK installation on your host.
-DCMAKE_LIBRARY_OUTPUT_DIRECTORY	Location on your host where CMake puts the  LIBRARY target files when built.
-DCMAKE_BUILD_TYPE	Similar to the build types for the ndk-build tool. The valid values are Release and Debug. To simplify debugging, CMake does not strip the release or debug version as part of the build. However, Gradle strips binaries when it packages them in the APK.
-DCMAKE_MAKE_PROGRAM	Tool to launch the native build system. The Gradle plugin sets this value to the CMake ninjagenerator bundled with the Android SDK.
-DCMAKE_TOOLCHAIN_FILE	Path to the android.toolchain.cmake file that CMake uses for cross-compiling for Android. Typically, this file is located in the $NDK/build/cmake/ directory, where $NDK is the NDK installation directory on your host. For more information about the toolchain file, see Cross Compiling for Android.
-DANDROID_NATIVE_API_LEVEL	Android API level that CMake compiles for.
-DANDROID_TOOLCHAIN	The compiler toolchain that CMake uses. Defaults to clang

YASM support in CMake

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NDK r15 and higher provides CMake support for building assembly code written in YASM to run on x86 and x86-64 architectures. YASM is an open-source assembler for x86 and x86-64 architectures, based on the NASM assembler.

You may find it useful to link assembly language programs or routines with C code in order to access C libraries or functions from your assembly code. You can also include short assembly routines in your compiled C code to take advantage of the better machine performance that assembly code affords.

To build assembly code with CMake, make the following changes in your project's CMakeLists.txt:

1. Call enable_language with the value set to ASM_NASM.
2. Depending on whether you are building a shared library or an executable binary, call add_library or add_executable. In the arguments, pass in a list of source files consisting of the .asm files for the assembly program in YASM and and the .c files for the associated C libraries or functions.

The following snippet shows how you might configure your CMakeLists.txt to build a YASM program as a shared library.

cmake_minimum_required(VERSION 3.6.0)

enable_language(ASM_NASM)

add_library(test-yasm SHARED jni/test-yasm.c jni/print_hello.asm)

For an example of how to build a YASM program as an executable, see the test-yasm code in the NDK git repository.