android NDK編譯多個so文件
android編譯系統的makefile文件Android.mk寫法如下
(1)Android.mk文件首先需要指定LOCAL_PATH變數,用於查找源文件。由於一般情況下
Android.mk和需要編譯的源文件在同一目錄下,所以定義成如下形式:
LOCAL_PATH:=$(call my-dir)
上面的語句的意思是將LOCAL_PATH變數定義成本文件所在目錄路徑。
(2)Android.mk中可以定義多個編譯模塊,每個編譯模塊都是以include $(CLEAR_VARS)開始
以include $(BUILD_XXX)結束。
include $(CLEAR_VARS)
CLEAR_VARS由編譯系統提供,指定讓GNU MAKEFILE為你清除除LOCAL_PATH以外的所有LOCAL_XXX變數,
如LOCAL_MODULE,LOCAL_SRC_FILES,LOCAL_SHARED_LIBRARIES,LOCAL_STATIC_LIBRARIES等。
include $(BUILD_STATIC_LIBRARY)表示編譯成靜態庫
include $(BUILD_SHARED_LIBRARY)表示編譯成動態庫。
include $(BUILD_EXECUTABLE)表示編譯成可執行程序
(3)舉例如下(frameworks/base/libs/audioflinger/Android.mk):
LOCAL_PATH:= $(call my-dir)
include $(CLEAR_VARS) 模塊一
ifeq ($(AUDIO_POLICY_TEST),true)
ENABLE_AUDIO_DUMP := true
endif
LOCAL_SRC_FILES:= \
AudioHardwareGeneric.cpp \
AudioHardwareStub.cpp \
AudioHardwareInterface.cpp
ifeq ($(ENABLE_AUDIO_DUMP),true)
LOCAL_SRC_FILES += AudioDumpInterface.cpp
LOCAL_CFLAGS += -DENABLE_AUDIO_DUMP
endif
LOCAL_SHARED_LIBRARIES := \
libcutils \
libutils \
libbinder \
libmedia \
libhardware_legacy
ifeq ($(strip $(BOARD_USES_GENERIC_AUDIO)),true)
LOCAL_CFLAGS += -DGENERIC_AUDIO
endif
LOCAL_MODULE:= libaudiointerface
ifeq ($(BOARD_HAVE_BLUETOOTH),true)
LOCAL_SRC_FILES += A2dpAudioInterface.cpp
LOCAL_SHARED_LIBRARIES += liba2dp
LOCAL_CFLAGS += -DWITH_BLUETOOTH -DWITH_A2DP
LOCAL_C_INCLUDES += $(call include-path-for, bluez)
endif
include $(BUILD_STATIC_LIBRARY) 模塊一編譯成靜態庫
include $(CLEAR_VARS) 模塊二
LOCAL_SRC_FILES:= \
AudioPolicyManagerBase.cpp
LOCAL_SHARED_LIBRARIES := \
libcutils \
libutils \
libmedia
ifeq ($(TARGET_SIMULATOR),true)
LOCAL_LDLIBS += -ldl
else
LOCAL_SHARED_LIBRARIES += libdl
endif
LOCAL_MODULE:= libaudiopolicybase
ifeq ($(BOARD_HAVE_BLUETOOTH),true)
LOCAL_CFLAGS += -DWITH_A2DP
endif
ifeq ($(AUDIO_POLICY_TEST),true)
LOCAL_CFLAGS += -DAUDIO_POLICY_TEST
endif
include $(BUILD_STATIC_LIBRARY) 模塊二編譯成靜態庫
include $(CLEAR_VARS) 模塊三
LOCAL_SRC_FILES:= \
AudioFlinger.cpp \
AudioMixer.cpp.arm \
AudioResampler.cpp.arm \
AudioResamplerSinc.cpp.arm \
AudioResamplerCubic.cpp.arm \
AudioPolicyService.cpp
LOCAL_SHARED_LIBRARIES := \
libcutils \
libutils \
libbinder \
libmedia \
libhardware_legacy
ifeq ($(strip $(BOARD_USES_GENERIC_AUDIO)),true)
LOCAL_STATIC_LIBRARIES += libaudiointerface libaudiopolicybase
LOCAL_CFLAGS += -DGENERIC_AUDIO
else
LOCAL_SHARED_LIBRARIES += libaudio libaudiopolicy
endif
ifeq ($(TARGET_SIMULATOR),true)
LOCAL_LDLIBS += -ldl
else
LOCAL_SHARED_LIBRARIES += libdl
endif
LOCAL_MODULE:= libaudioflinger
ifeq ($(BOARD_HAVE_BLUETOOTH),true)
LOCAL_CFLAGS += -DWITH_BLUETOOTH -DWITH_A2DP
LOCAL_SHARED_LIBRARIES += liba2dp
endif
ifeq ($(AUDIO_POLICY_TEST),true)
LOCAL_CFLAGS += -DAUDIO_POLICY_TEST
endif
ifeq ($(TARGET_SIMULATOR),true)
ifeq ($(HOST_OS),linux)
LOCAL_LDLIBS += -lrt -lpthread
endif
endif
ifeq ($(BOARD_USE_LVMX),true)
LOCAL_CFLAGS += -DLVMX
LOCAL_C_INCLUDES += vendor/nxp
LOCAL_STATIC_LIBRARIES += liblifevibes
LOCAL_SHARED_LIBRARIES += liblvmxservice
# LOCAL_SHARED_LIBRARIES += liblvmxipc
endif
include $(BUILD_SHARED_LIBRARY) 模塊三編譯成動態庫
(4)編譯一個應用程序(APK)
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
# Build all java files in the java subdirectory-->直譯(建立在java子目錄中的所有Java文件)
LOCAL_SRC_FILES := $(call all-subdir-java-files)
# Name of the APK to build-->直譯(創建APK的名稱)
LOCAL_PACKAGE_NAME := LocalPackage
# Tell it to build an APK-->直譯(告訴它來建立一個APK)
include $(BUILD_PACKAGE)
(5)編譯一個依賴於靜態Java庫(static.jar)的應用程序
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
# List of static libraries to include in the package
LOCAL_STATIC_JAVA_LIBRARIES := static-library
# Build all java files in the java subdirectory
LOCAL_SRC_FILES := $(call all-subdir-java-files)
# Name of the APK to build
LOCAL_PACKAGE_NAME := LocalPackage
# Tell it to build an APK
include $(BUILD_PACKAGE)
(6)編譯一個需要用平台的key簽名的應用程序
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
# Build all java files in the java subdirectory
LOCAL_SRC_FILES := $(call all-subdir-java-files)
# Name of the APK to build
LOCAL_PACKAGE_NAME := LocalPackage
LOCAL_CERTIFICATE := platform
# Tell it to build an APK
include $(BUILD_PACKAGE)
(7)編譯一個需要用特定key前面的應用程序
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
# Build all java files in the java subdirectory
LOCAL_SRC_FILES := $(call all-subdir-java-files)
# Name of the APK to build
LOCAL_PACKAGE_NAME := LocalPackage
LOCAL_CERTIFICATE := vendor/example/certs/app
# Tell it to build an APK
include $(BUILD_PACKAGE)
(8)添加一個預編譯應用程序
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
# Mole name should match apk name to be installed.
LOCAL_MODULE := LocalMoleName
LOCAL_SRC_FILES := $(LOCAL_MODULE).apk
LOCAL_MODULE_CLASS := APPS
LOCAL_MODULE_SUFFIX := $(COMMON_ANDROID_PACKAGE_SUFFIX)
include $(BUILD_PREBUILT)
(9)添加一個靜態JAVA庫
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
# Build all java files in the java subdirectory
LOCAL_SRC_FILES := $(call all-subdir-java-files)
# Any libraries that this library depends on
LOCAL_JAVA_LIBRARIES := android.test.runner
# The name of the jar file to create
LOCAL_MODULE := sample
# Build a static jar file.
include $(BUILD_STATIC_JAVA_LIBRARY)
(10)Android.mk的編譯模塊中間可以定義相關的編譯內容,也就是指定相關的變數如下:
LOCAL_AAPT_FLAGS
LOCAL_ACP_UNAVAILABLE
LOCAL_ADDITIONAL_JAVA_DIR
LOCAL_AIDL_INCLUDES
LOCAL_ALLOW_UNDEFINED_SYMBOLS
LOCAL_ARM_MODE
LOCAL_ASFLAGS
LOCAL_ASSET_DIR
LOCAL_ASSET_FILES 在Android.mk文件中編譯應用程序(BUILD_PACKAGE)時設置此變數,表示資源文件,
通常會定義成LOCAL_ASSET_FILES += $(call find-subdir-assets)
LOCAL_BUILT_MODULE_STEM
LOCAL_C_INCLUDES 額外的C/C++編譯頭文件路徑,用LOCAL_PATH表示本文件所在目錄
舉例如下:
LOCAL_C_INCLUDES += extlibs/zlib-1.2.3
LOCAL_C_INCLUDES += $(LOCAL_PATH)/src
LOCAL_CC 指定C編譯器
LOCAL_CERTIFICATE 簽名認證
LOCAL_CFLAGS 為C/C++編譯器定義額外的標志(如宏定義),舉例:LOCAL_CFLAGS += -DLIBUTILS_NATIVE=1
LOCAL_CLASSPATH
LOCAL_COMPRESS_MODULE_SYMBOLS
LOCAL_COPY_HEADERS install應用程序時需要復制的頭文件,必須同時定義LOCAL_COPY_HEADERS_TO
LOCAL_COPY_HEADERS_TO install應用程序時復制頭文件的目的路徑
LOCAL_CPP_EXTENSION 如果你的C++文件不是以cpp為文件後綴,你可以通過LOCAL_CPP_EXTENSION指定C++文件後綴名
如:LOCAL_CPP_EXTENSION := .cc
注意統一模塊中C++文件後綴必須保持一致。
LOCAL_CPPFLAGS 傳遞額外的標志給C++編譯器,如:LOCAL_CPPFLAGS += -ffriend-injection
LOCAL_CXX 指定C++編譯器
LOCAL_DX_FLAGS
LOCAL_EXPORT_PACKAGE_RESOURCES
LOCAL_FORCE_STATIC_EXECUTABLE 如果編譯的可執行程序要進行靜態鏈接(執行時不依賴於任何動態庫),則設置LOCAL_FORCE_STATIC_EXECUTABLE:=true
目前只有libc有靜態庫形式,這個只有文件系統中/sbin目錄下的應用程序會用到,這個目錄下的應用程序在運行時通常
文件系統的其它部分還沒有載入,所以必須進行靜態鏈接。
LOCAL_GENERATED_SOURCES
LOCAL_INSTRUMENTATION_FOR
LOCAL_INSTRUMENTATION_FOR_PACKAGE_NAME
LOCAL_INTERMEDIATE_SOURCES
LOCAL_INTERMEDIATE_TARGETS
LOCAL_IS_HOST_MODULE
LOCAL_JAR_MANIFEST
LOCAL_JARJAR_RULES
LOCAL_JAVA_LIBRARIES 編譯java應用程序和庫的時候指定包含的java類庫,目前有core和framework兩種
多數情況下定義成:LOCAL_JAVA_LIBRARIES := core framework
注意LOCAL_JAVA_LIBRARIES不是必須的,而且編譯APK時不允許定義(系統會自動添加)
LOCAL_JAVA_RESOURCE_DIRS
LOCAL_JAVA_RESOURCE_FILES
LOCAL_JNI_SHARED_LIBRARIES
LOCAL_LDFLAGS 傳遞額外的參數給連接器(務必注意參數的順序)
LOCAL_LDLIBS 為可執行程序或者庫的編譯指定額外的庫,指定庫以"-lxxx"格式,舉例:
LOCAL_LDLIBS += -lcurses -lpthread
LOCAL_LDLIBS += -Wl,-z,origin
LOCAL_MODULE 生成的模塊的名稱(注意應用程序名稱用LOCAL_PACKAGE_NAME而不是LOCAL_MODULE)
LOCAL_MODULE_PATH 生成模塊的路徑
LOCAL_MODULE_STEM
LOCAL_MODULE_TAGS 生成模塊的標記
LOCAL_NO_DEFAULT_COMPILER_FLAGS
LOCAL_NO_EMMA_COMPILE
LOCAL_NO_EMMA_INSTRUMENT
LOCAL_NO_STANDARD_LIBRARIES
LOCAL_OVERRIDES_PACKAGES
LOCAL_PACKAGE_NAME APK應用程序的名稱
LOCAL_POST_PROCESS_COMMAND
LOCAL_PREBUILT_EXECUTABLES 預編譯including $(BUILD_PREBUILT)或者$(BUILD_HOST_PREBUILT)時所用,指定需要復制的可執行文件
LOCAL_PREBUILT_JAVA_LIBRARIES
LOCAL_PREBUILT_LIBS 預編譯including $(BUILD_PREBUILT)或者$(BUILD_HOST_PREBUILT)時所用, 指定需要復制的庫.
LOCAL_PREBUILT_OBJ_FILES
LOCAL_PREBUILT_STATIC_JAVA_LIBRARIES
LOCAL_PRELINK_MODULE 是否需要預連接處理(默認需要,用來做動態庫優化)
LOCAL_REQUIRED_MODULES 指定模塊運行所依賴的模塊(模塊安裝時將會同步安裝它所依賴的模塊)
LOCAL_RESOURCE_DIR
LOCAL_SDK_VERSION
LOCAL_SHARED_LIBRARIES 可鏈接動態庫
LOCAL_SRC_FILES 編譯源文件
LOCAL_STATIC_JAVA_LIBRARIES
LOCAL_STATIC_LIBRARIES 可鏈接靜態庫
LOCAL_UNINSTALLABLE_MODULE
LOCAL_UNSTRIPPED_PATH
LOCAL_WHOLE_STATIC_LIBRARIES 指定模塊所需要載入的完整靜態庫(這些精通庫在鏈接是不允許鏈接器刪除其中無用的代碼)
LOCAL_YACCFLAGS
OVERRIDE_BUILT_MODULE_PATH
㈡ 如何用Android NDK編譯FFmpeg
Android內置的編解碼器實在太少,於是我們需要FFmpeg。Android提供了NDK,為我們使用FFmpeg這種C語言代碼提供了方便。
不過為了用NDK編譯FFmpeg,還真的花費了不少時間,也得到了很多人的幫助,最應該謝謝havlenapetr。我覺得我現在這些方法算是比較簡潔的了--
下面就盡量詳細的說一下我是怎麼在項目中使用FFmpeg的,但是基於我混亂的表達能力,有不明白的就問我。
你得了解JNI和Android NDK的基本用法,若覺得我的文章還不錯,可以看之前寫的JNI簡單入門和Android NDK入門
首先創建一個標準的Android項目vPlayer
android create project -n vPlayer -t 8 -p vPlayer -k me.abitno.vplayer -a PlayerView
然後在vPlayer目錄里
mkdir jni && cd jni
wget http //ffmpeg org/releases/ffmpeg-0.6.tar.bz2
tar xf ffmpeg-0.6.tar.bz2 && mv ffmpeg-0.6 ffmpeg && cd ffmpeg
在ffmpeg下新建一個config.sh,內容如下,注意把PREBUILT和PLATFORM設置正確。另外裡面有些參數你也可以自行調整,我主要是為了配置一個播放器而這樣設置的。
#!/bin/bash
PREBUILT=/home/abitno/Android/android-ndk-r4/build/prebuilt/linux-x86/arm-eabi-4.4.0
PLATFORM=/home/abitno/Android/android-ndk-r4/build/platforms/android-8/arch-arm
./configure --target-os=linux \
--arch=arm \
--enable-version3 \
--enable-gpl \
--enable-nonfree \
--disable-stripping \
--disable-ffmpeg \
--disable-ffplay \
--disable-ffserver \
--disable-ffprobe \
--disable-encoders \
--disable-muxers \
--disable-devices \
--disable-protocols \
--enable-protocol=file \
--enable-avfilter \
--disable-network \
--disable-mpegaudio-hp \
--disable-avdevice \
--enable-cross-compile \
--cc=$PREBUILT/bin/arm-eabi-gcc \
--cross-prefix=$PREBUILT/bin/arm-eabi- \
--nm=$PREBUILT/bin/arm-eabi-nm \
--extra-cflags="-fPIC -DANDROID" \
--disable-asm \
--enable-neon \
--enable-armv5te \
--extra-ldflags="-Wl,-T,$PREBUILT/arm-eabi/lib/ldscripts/armelf.x -Wl,-rpath-link=$PLATFORM/usr/lib -L$PLATFORM/usr/lib -nostdlib $PREBUILT/lib/gcc/arm-eabi/4.4.0/crtbegin.o $PREBUILT/lib/gcc/arm-eabi/4.4.0/crtend.o -lc -lm -ldl"
運行config.sh開始configure
chmod +x config.sh
./config.sh
configure完成後,編輯剛剛生成的config.h,找到這句
#define restrict restrict
Android的GCC不支持restrict關鍵字,於是修改成下面這樣
#define restrict
編輯libavutil/libm.h,把其中的static方法都刪除。
分別修改libavcodec、libavfilter、libavformat、libavutil、libpostproc和libswscale下的Makefile,把下面兩句刪除
include $(SUBDIR)../subdir.mak
include $(SUBDIR)../config.mak
在ffmpeg下添加一個文件av.mk,內容如下
# LOCAL_PATH is one of libavutil, libavcodec, libavformat, or libswscale
#include $(LOCAL_PATH)/../config-$(TARGET_ARCH).mak
include $(LOCAL_PATH)/../config.mak
OBJS :=
OBJS-yes :=
MMX-OBJS-yes :=
include $(LOCAL_PATH)/Makefile
# collect objects
OBJS-$(HAVE_MMX) += $(MMX-OBJS-yes)
OBJS += $(OBJS-yes)
FFNAME := lib$(NAME)
FFLIBS := $(foreach,NAME,$(FFLIBS),lib$(NAME))
FFCFLAGS = -DHAVE_AV_CONFIG_H -Wno-sign-compare -Wno-switch -Wno-pointer-sign
FFCFLAGS += -DTARGET_CONFIG=\"config-$(TARGET_ARCH).h\"
ALL_S_FILES := $(wildcard $(LOCAL_PATH)/$(TARGET_ARCH)/*.S)
ALL_S_FILES := $(addprefix $(TARGET_ARCH)/, $(notdir $(ALL_S_FILES)))
ifneq ($(ALL_S_FILES),)
ALL_S_OBJS := $(patsubst %.S,%.o,$(ALL_S_FILES))
C_OBJS := $(filter-out $(ALL_S_OBJS),$(OBJS))
S_OBJS := $(filter $(ALL_S_OBJS),$(OBJS))
else
C_OBJS := $(OBJS)
S_OBJS :=
endif
C_FILES := $(patsubst %.o,%.c,$(C_OBJS))
S_FILES := $(patsubst %.o,%.S,$(S_OBJS))
FFFILES := $(sort $(S_FILES)) $(sort $(C_FILES))
接下來要添加一系列的Android.mk,在jni根目錄下的內容如下
include $(all-subdir-makefiles)
在ffmpeg目錄下,Android.mk
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
LOCAL_STATIC_LIBRARIES := libavformat libavcodec libavutil libpostproc libswscale
LOCAL_MODULE := ffmpeg
include $(BUILD_SHARED_LIBRARY)
include $(call all-makefiles-under,$(LOCAL_PATH))
libavformat/Android.mk
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
include $(LOCAL_PATH)/../av.mk
LOCAL_SRC_FILES := $(FFFILES)
LOCAL_C_INCLUDES := \
$(LOCAL_PATH) \
$(LOCAL_PATH)/..
LOCAL_CFLAGS += $(FFCFLAGS)
LOCAL_CFLAGS += -include "string.h" -Dipv6mr_interface=ipv6mr_ifindex
LOCAL_LDLIBS := -lz
LOCAL_STATIC_LIBRARIES := $(FFLIBS)
LOCAL_MODULE := $(FFNAME)
include $(BUILD_STATIC_LIBRARY)
libavcodec/Android.mk
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
include $(LOCAL_PATH)/../av.mk
LOCAL_SRC_FILES := $(FFFILES)
LOCAL_C_INCLUDES := \
$(LOCAL_PATH) \
$(LOCAL_PATH)/..
LOCAL_CFLAGS += $(FFCFLAGS)
LOCAL_LDLIBS := -lz
LOCAL_STATIC_LIBRARIES := $(FFLIBS)
LOCAL_MODULE := $(FFNAME)
include $(BUILD_STATIC_LIBRARY)
libavfilter、libavutil、libpostproc和libswscale下的Android.mk內容如下
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
include $(LOCAL_PATH)/../av.mk
LOCAL_SRC_FILES := $(FFFILES)
LOCAL_C_INCLUDES := \
$(LOCAL_PATH) \
$(LOCAL_PATH)/..
LOCAL_CFLAGS += $(FFCFLAGS)
LOCAL_STATIC_LIBRARIES := $(FFLIBS)
LOCAL_MODULE := $(FFNAME)
include $(BUILD_STATIC_LIBRARY)
最外層的jni/Android.mk和jni/ffmpeg/Android.mk我只是隨便這樣寫的,你應該根據自己的需求改寫。
最後運行ndk-build,經過漫長的等待就編譯完成了。至於具體怎麼應用可能以後會寫,我變得太懶了。。。
轉載,僅供參考,祝你愉快,滿意請採納。
㈢ 怎麼樣將自己開發的Android應用程序編譯到系統Image中
1. 搭建編譯環境
編譯環境: Ubuntu 10.10
Android版本:Android 2.2
編譯過程中可能需要在Ubuntu上安裝必要的一些軟體,我安裝過的包含如下軟體,不同的系統可能會有差別:
jdk6(Android官方建議裝jdk5,但是我在編譯時會遇到Java override問題,改用6沒有任何問題), bison, lib64z1-dev, libasound2-dev, flex, gperf, libncurses5-dev
2. 應用程序存放目錄
SimpleJNI是採用Android NDK和Java編寫的程序,包含apk和so庫文件,它的源代碼在source tree的development/samples/目錄下。
實際上package在編譯時所放的目錄並沒有明確限定,編譯後apk和so存放的位置是根據目錄下Android.mk所指定的編譯類型所決定的,例如:
SimpleJNI根目錄下的Android.mk中有一行include $(BUILD_PACKAGE),表示將該目錄下的模塊編譯成package,即apk文件,默認存放的位置為/system/app。
SimpleJNI/jni目錄下的Android.mk中有一行為include $(BUILD_SHARED_LIBRARY),表示將該目錄下的native.cpp編譯為共享庫文件,即so文件,默認存放的位置為/system/lib
因此,如果我們想要將自己編寫的程序編譯至image中,只需要將Eclipse下完成的整個工程到source tree下的某個目錄即可,我一般習慣放到packages/apps下。
3. 添加Android.mk
完成了上一步,可以知道,Android.mk在編譯中起著至關重要的作用,這其實就是Android編譯環境中的make file。為了完成我們的工作,需要在源代碼中添加Android.mk。添加自己的Android.mk可以仿照SimpleJNI中的Android.mk,稍微修改即可。我們首先看看SimpleJNI目錄下的兩個Android.mk的內容:
根目錄下的Android.mk
TOP_LOCAL_PATH:= $(call my-dir)
# Build activity
LOCAL_PATH:= $(TOP_LOCAL_PATH)
include $(CLEAR_VARS)
LOCAL_MODULE_TAGS := samples
LOCAL_SRC_FILES := $(call all-subdir-java-files)
LOCAL_PACKAGE_NAME := SimpleJNI
LOCAL_JNI_SHARED_LIBRARIES := libsimplejni
LOCAL_PROGUARD_ENABLED := disabled
include $(BUILD_PACKAGE)
# ============================================================
# Also build all of the sub-targets under this one: the shared library.
include $(call all-makefiles-under,$(LOCAL_PATH))
根目錄下的Android.mk決定了整個工程編譯的配置,其中,
LOCAL_PATH 定義了當前的目錄
LOCAL_MUDULE_TAGS 定義了當前模塊的類型,編譯器在編譯時會根據類型的不同有些差別,有些tags的mole甚至不會被編譯至系統中。LOCAL_MUDULE_TAGS主要有如下幾種:user debug eng tests optional samples shell_ash shell_mksh。optional表示在所有版本的編譯條件下都被編譯至image中,剩下的表示在該版本中才會被編譯只image中,如user表示在user版本下才會被編譯至image中。
對於包含LOCAL_PACKAGE_NAME的mk文件,該項默認為optinal,具體可以參看build/core/package.mk。SimpleJNI中定義為samples的具體作用我也不太清楚,為了保險起見,我自己的apk一般定義為optional。
LOCAL_SRC_FILES 定義了編譯apk所需要的java代碼的目錄
LOCAL_PACKAGE_NAME 這里需要改成自己的package的名字
LOCAL_JNI_SHARED_LIBRARIES 定義了要包含的so庫文件的名字,如果你的程序沒有採用JNI,這行不需要。
LOCAL_PROGUARD_ENABLED 定義了Java開發中的ProGuard壓縮方法,主要用來分析壓縮程序的,在我自己的應用中我沒有加這行。
include $(BUILD_PACKAGE) 這行是build的關鍵,表示當前java代碼build成apk
include $(call all-makefiles-under,$(LOCAL_PATH)) 表示需要build該目錄下的子目錄的文件,這樣編譯系統就會在當前目錄下的子目錄尋找Android.mk來編譯so等其它程序。
根據上述所寫,創建我自己的Android.mk如下:
TOP_LOCAL_PATH:= $(call my-dir)
# Build activity
LOCAL_PATH:= $(TOP_LOCAL_PATH)
include $(CLEAR_VARS)
LOCAL_MODULE_TAGS := optional
LOCAL_SRC_FILES := $(call all-subdir-java-files)
LOCAL_PACKAGE_NAME := TestJniApp
LOCAL_JNI_SHARED_LIBRARIES := libtestjniapp
include $(BUILD_PACKAGE)
# ============================================================
# Also build all of the sub-targets under this one: the shared library.
include $(call all-makefiles-under,$(LOCAL_PATH))
看起來很簡單吧,基本不需要改動即可。
Jni目錄下的Android.mk
由於我們的TestJniApp是用JNI完成的,包含C源代碼,因此也需要一個jni目錄下的Android.mk。同樣首先看看SimpleJNI中jni目錄下的Android.mk的內容:
LOCAL_PATH:= $(call my-dir)
include $(CLEAR_VARS)
LOCAL_MODULE_TAGS := samples
# This is the target being built.
LOCAL_MODULE:= libsimplejni
# All of the source files that we will compile.
LOCAL_SRC_FILES:= /
native.cpp
# All of the shared libraries we link against.
LOCAL_SHARED_LIBRARIES := /
libutils
# No static libraries.
LOCAL_STATIC_LIBRARIES :=
# Also need the JNI headers.
LOCAL_C_INCLUDES += /
$(JNI_H_INCLUDE)
# No special compiler flags.
LOCAL_CFLAGS +=
# Don't prelink this library. For more efficient code, you may want
# to add this library to the prelink map and set this to true. However,
# it's difficult to do this for applications that are not supplied as
# part of a system image.
LOCAL_PRELINK_MODULE := false
include $(BUILD_SHARED_LIBRARY)
LOCAL_MODULE 當前模塊的名字,即編譯後的so文件的名字
LOCAL_SRC_FILES 所要編譯的文件
LOCAL_SHARED_LIBRARIES, LOCAL_STATIC_LIBRARIES 該模塊要鏈接的動態庫和靜態庫。
LOCAL_C_INCLUDES 要包含的頭文件
LOCAL_CFLAGS C語言編譯選項
LOCAL_PRELINK_MODULE 定義是否使用prelink工具,它用事先鏈接代替運行時鏈接的方法來加速共享庫的載入,不僅可以加快起動速度,還可以減少部分內存開銷。
經過修改後,我自己的TestJniApp中jni目錄下的Android.mk如下:
LOCAL_PATH := $(call my-dir)
include $(CLEAR_VARS)
LOCAL_MODULE := libtestjniapp
LOCAL_SRC_FILES := com_test_app_Jni.c
LOCAL_C_INCLUDES += $(JNI_H_INCLUDE)
LOCAL_PRELINK_MODULE := false
include $(BUILD_SHARED_LIBRARY)
這里有一點需要注意,如果要將so文件編譯入image,必須要修改LOCAL_MODULE_TAGS,將原有的值samples修改為user,或者可以直接刪掉 。刪掉是因為對於包含LOCAL_MODULE的mk文件,如果沒有指定LOCAL_MODULE_TAGS,該項默認為user,而只有定義為user的情況下,才會將so文件編譯入image,具體定義可以參看build/core/base_rule.mk。
4. 修改/bulid/target/proct/generic.mk 把工程編譯到系統中
至此,還有最後一部工作。為了將工程編譯進入image,還需要在/bulid/target/proct/generic.mk文件中將package name添加進去
PRODUCT_PACKAGES := /
AccountAndSyncSettings /
CarHome /
DeskClock /
……
SyncProvider /
TestJniApp
完成上面這些步驟後,在source tree根目錄下編譯image就可以了。