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 Android教程網 >> Android技術 >> 關於Android編程 >> ubuntu移植libcurl到Android平台

ubuntu移植libcurl到Android平台

編輯:關於Android編程

最近移植了很多C++平台的庫,很多都是後台開發的庫,因為NDK開發,以後很可能會使用,提前預研一下。

libcurl這個庫很有名,用的人比較多,下載源碼,直接就可以編譯使用,以前在Windows平台下開發網絡模塊的時候,用到過這個庫,很強大

最近在跟後台的人聊天過程中了解了很多C++開發的相關庫,這是其中一個,Android中網絡操作的庫有很多種,從基本的Httpurlconnection到httpclient,volley,okhttp等等,很多選擇,使用起來也非常方便,當然了,如果在jni層下使用網絡庫,libcurl是個很不錯的選擇,所以筆者決定記錄一下移植的過程,之前有移植的經驗,這個也比較簡單。

新建腳本build_curl.sh

#!/usr/bin/env bash

# ====================================================================
# Sets the cross compile environment for Android
# Based upon OpenSSL's setenv-android.sh (by TH, JW, and SM).
#
# Crypto++ Library is copyrighted as a compilation and (as of version 5.6.2)
# licensed under the Boost Software License 1.0, while the individual files
# in the compilation are all public domain.
#
# See http://www.cryptopp.com/wiki/Android_(Command_Line) for more details
# ====================================================================

unset IS_CROSS_COMPILE

unset IS_IOS
unset IS_ANDROID
unset IS_ARM_EMBEDDED

unset AOSP_FLAGS
unset AOSP_SYSROOT
unset AOSP_STL_INC
unset AOSP_STL_LIB
unset AOSP_BITS_INC

# Set AOSP_TOOLCHAIN_SUFFIX to your preference of tools and STL library.
#   Note: 4.9 is required for the latest architectures, like ARM64/AARCH64.
# AOSP_TOOLCHAIN_SUFFIX=4.8
# AOSP_TOOLCHAIN_SUFFIX=4.9
if [ -z "$AOSP_TOOLCHAIN_SUFFIX" ]; then
    AOSP_TOOLCHAIN_SUFFIX=4.9
fi

# Set AOSP_API to the API you want to use. 'armeabi' and 'armeabi-v7a' need
#   API 3 (or above), 'mips' and 'x86' need API 9 (or above), etc.
# AOSP_API="android-3"     # Android 1.5 and above
# AOSP_API="android-4"     # Android 1.6 and above
# AOSP_API="android-5"     # Android 2.0 and above
# AOSP_API="android-8"     # Android 2.2 and above
# AOSP_API="android-9"     # Android 2.3 and above
# AOSP_API="android-14"    # Android 4.0 and above
# AOSP_API="android-18"    # Android 4.3 and above
# AOSP_API="android-19"    # Android 4.4 and above
# AOSP_API="android-21"    # Android 5.0 and above
# AOSP_API="android-23"    # Android 6.0 and above
if [ -z "$AOSP_API" ]; then
    AOSP_API="android-21"
fi

#####################################################################

# ANDROID_NDK_ROOT should always be set by the user (even when not running this script)
#   http://groups.google.com/group/android-ndk/browse_thread/thread/a998e139aca71d77.
# If the user did not specify the NDK location, try and pick it up. We expect something
#   like ANDROID_NDK_ROOT=/opt/android-ndk-r10e or ANDROID_NDK_ROOT=/usr/local/android-ndk-r10e.

export ANDROID_NDK_ROOT=/workspace/android-ndk-r10e

if [ -z "$ANDROID_NDK_ROOT" ]; then
    ANDROID_NDK_ROOT=$(find /opt -maxdepth 1 -type d -name android-ndk-r10* 2>/dev/null | tail -1)

    if [ -z "$ANDROID_NDK_ROOT" ]; then
        ANDROID_NDK_ROOT=$(find /usr/local -maxdepth 1 -type d -name android-ndk-r10* 2>/dev/null | tail -1)
    fi
    if [ -z "$ANDROID_NDK_ROOT" ]; then
        ANDROID_NDK_ROOT=$(find $HOME -maxdepth 1 -type d -name android-ndk-r10* 2>/dev/null | tail -1)
    fi
fi

# Error checking
if [ ! -d "$ANDROID_NDK_ROOT/toolchains" ]; then
    echo "ERROR: ANDROID_NDK_ROOT is not a valid path. Please set it."
    [ "$0" = "$BASH_SOURCE" ] && exit 1 || return 1
fi

#####################################################################

if [ "$#" -lt 1 ]; then
    THE_ARCH=armv7
else
    THE_ARCH=$(tr [A-Z] [a-z] <<< "$1")
fi

# https://developer.android.com/ndk/guides/abis.html
case "$THE_ARCH" in
  arm|armv5|armv6|armv7|armeabi)
    TOOLCHAIN_BASE="arm-linux-androideabi"
    TOOLNAME_BASE="arm-linux-androideabi"
    AOSP_ABI="armeabi"
    AOSP_ARCH="arch-arm"
    AOSP_FLAGS="-march=armv5te -mtune=xscale -mthumb -msoft-float -funwind-tables -fexceptions -frtti"
    ;;
  armv7a|armeabi-v7a)
    TOOLCHAIN_BASE="arm-linux-androideabi"
    TOOLNAME_BASE="arm-linux-androideabi"
    AOSP_ABI="armeabi-v7a"
    AOSP_ARCH="arch-arm"
    AOSP_FLAGS="-march=armv7-a -mthumb -mfpu=vfpv3-d16 -mfloat-abi=softfp -Wl,--fix-cortex-a8 -funwind-tables -fexceptions -frtti"
    ;;
  hard|armv7a-hard|armeabi-v7a-hard)
    TOOLCHAIN_BASE="arm-linux-androideabi"
    TOOLNAME_BASE="arm-linux-androideabi"
    AOSP_ABI="armeabi-v7a"
    AOSP_ARCH="arch-arm"
    AOSP_FLAGS="-mhard-float -D_NDK_MATH_NO_SOFTFP=1 -march=armv7-a -mfpu=vfpv3-d16 -mfloat-abi=softfp -Wl,--fix-cortex-a8 -funwind-tables -fexceptions -frtti -Wl,--no-warn-mismatch -Wl,-lm_hard"
    ;;
  neon|armv7a-neon)
    TOOLCHAIN_BASE="arm-linux-androideabi"
    TOOLNAME_BASE="arm-linux-androideabi"
    AOSP_ABI="armeabi-v7a"
    AOSP_ARCH="arch-arm"
    AOSP_FLAGS="-march=armv7-a -mfpu=vfpv3-d16 -mfloat-abi=softfp -Wl,--fix-cortex-a8 -funwind-tables -fexceptions -frtti"
    ;;
  armv8|armv8a|aarch64|arm64|arm64-v8a)
    TOOLCHAIN_BASE="aarch64-linux-android"
    TOOLNAME_BASE="aarch64-linux-android"
    AOSP_ABI="arm64-v8a"
    AOSP_ARCH="arch-arm64"
    AOSP_FLAGS="-funwind-tables -fexceptions -frtti"
    ;;
  mips|mipsel)
    TOOLCHAIN_BASE="mipsel-linux-android"
    TOOLNAME_BASE="mipsel-linux-android"
    AOSP_ABI="mips"
    AOSP_ARCH="arch-mips"
    AOSP_FLAGS="-funwind-tables -fexceptions -frtti"
    ;;
  mips64|mipsel64|mips64el)
    TOOLCHAIN_BASE="mips64el-linux-android"
    TOOLNAME_BASE="mips64el-linux-android"
    AOSP_ABI="mips64"
    AOSP_ARCH="arch-mips64"
    AOSP_FLAGS="-funwind-tables -fexceptions -frtti"
    ;;
  x86)
    TOOLCHAIN_BASE="x86"
    TOOLNAME_BASE="i686-linux-android"
    AOSP_ABI="x86"
    AOSP_ARCH="arch-x86"
    AOSP_FLAGS="-march=i686 -mtune=intel -mssse3 -mfpmath=sse -funwind-tables -fexceptions -frtti"
    ;;
  x86_64|x64)
    TOOLCHAIN_BASE="x86_64"
    TOOLNAME_BASE="x86_64-linux-android"
    AOSP_ABI="x86_64"
    AOSP_ARCH="arch-x86_64"
    AOSP_FLAGS="-march=x86-64 -msse4.2 -mpopcnt -mtune=intel -funwind-tables -fexceptions -frtti"
    ;;
  *)
    echo "ERROR: Unknown architecture $1"
    [ "$0" = "$BASH_SOURCE" ] && exit 1 || return 1
    ;;
esac


# Based on ANDROID_NDK_ROOT, try and pick up the path for the tools. We expect something
# like /opt/android-ndk-r10e/toolchains/arm-linux-androideabi-4.7/prebuilt/linux-x86_64/bin
# Once we locate the tools, we add it to the PATH.
AOSP_TOOLCHAIN_PATH=""
for host in "linux-x86_64" "darwin-x86_64" "linux-x86" "darwin-x86"
do
    if [ -d "$ANDROID_NDK_ROOT/toolchains/$TOOLCHAIN_BASE-$AOSP_TOOLCHAIN_SUFFIX/prebuilt/$host/bin" ]; then
        AOSP_TOOLCHAIN_PATH="$ANDROID_NDK_ROOT/toolchains/$TOOLCHAIN_BASE-$AOSP_TOOLCHAIN_SUFFIX/prebuilt/$host/bin"
        break
    fi
done


#####################################################################

# Error checking
if [ ! -d "$ANDROID_NDK_ROOT/platforms/$AOSP_API" ]; then
    echo "ERROR: AOSP_API is not valid. Does the NDK support the API? Please edit this script."
    [ "$0" = "$BASH_SOURCE" ] && exit 1 || return 1
elif [ ! -d "$ANDROID_NDK_ROOT/platforms/$AOSP_API/$AOSP_ARCH" ]; then
    echo "ERROR: AOSP_ARCH is not valid. Does the NDK support the architecture? Please edit this script."
    [ "$0" = "$BASH_SOURCE" ] && exit 1 || return 1
fi

# Android SYSROOT. It will be used on the command line with --sysroot
#   http://android.googlesource.com/platform/ndk/+/ics-mr0/docs/STANDALONE-TOOLCHAIN.html
export AOSP_SYSROOT="$ANDROID_NDK_ROOT/platforms/$AOSP_API/$AOSP_ARCH"

# TODO: export for the previous GNUmakefile-cross. These can go away eventually.
export ANDROID_SYSROOT=$AOSP_SYSROOT


#####################################################################


export CPP="$AOSP_TOOLCHAIN_PATH/$TOOLNAME_BASE-cpp --sysroot=$AOSP_SYSROOT"
export CC="$AOSP_TOOLCHAIN_PATH/$TOOLNAME_BASE-gcc --sysroot=$AOSP_SYSROOT"
export CXX="$AOSP_TOOLCHAIN_PATH/$TOOLNAME_BASE-g++ --sysroot=$AOSP_SYSROOT"
export CFLAGS="-pie -fPIE"
export LDFLAGS="-pie -fPIE"
#####################################################################

export PREFIX=/usr/local/curl/$AOSP_ABI
export CC="$AOSP_TOOLCHAIN_PATH/$TOOLNAME_BASE-gcc --sysroot=$AOSP_SYSROOT"


VERBOSE=1
if [ ! -z "$VERBOSE" ] && [ "$VERBOSE" != "0" ]; then
  echo "ANDROID_NDK_ROOT: $ANDROID_NDK_ROOT"
  echo "AOSP_TOOLCHAIN_PATH: $AOSP_TOOLCHAIN_PATH"
  echo "AOSP_ABI: $AOSP_ABI"  
  echo "AOSP_API: $AOSP_API"
  echo "CC: $CC"
  echo "AOSP_SYSROOT: $AOSP_SYSROOT"
fi


./configure \
    --prefix=$PREFIX \
    --enable-static \
    --enable-shared \
    --host=$TOOLNAME_BASE

[ "$0" = "$BASH_SOURCE" ] && exit 0 || return 0

build_all.sh

#!/bin/bash

for arch in armeabi armeabi-v7a armeabi-v7a-hard arm64-v8a mips mips64 x86 x86_64
do
    bash build_curl.sh $arch
    make
    sudo make install
done

目錄結構

|—curl源碼目錄
  |—build_curl.sh
  |—build_all.sh
  |—...

執行腳本

sh build_all.sh

編譯成功之後
在/usr/local/curl目錄裡

測試一下

新建JNI目錄,將剛才生成的armeabi目錄裡的include文件夾和lib文件夾復制進去
新建Android.mk文件

LOCAL_PATH := $(call my-dir)

#libcurl庫
include $(CLEAR_VARS)
LOCAL_MODULE := libcurl
LOCAL_SRC_FILES := lib/libcurl.a 
include $(PREBUILT_STATIC_LIBRARY) 


#測試程序
include $(CLEAR_VARS)
LOCAL_MODULE := main
LOCAL_SRC_FILES := main.cpp
LOCAL_C_INCLUDES += $(LOCAL_PATH)/include
LOCAL_LDLIBS := -llog -lz
LOCAL_STATIC_LIBRARIES := libcurl

LOCAL_CFLAGS += -pie -fPIE
LOCAL_LDFLAGS += -pie -fPIE

include $(BUILD_EXECUTABLE)

新建Application.mk添加對C++的支持

APP_ABI := armeabi
APP_PLATFORM := 12
APP_CPPFLAGS += -fexceptions -frtti
APP_STL := stlport_static

新建源文件

#include 
#include 

using namespace std;

int main(int argc,char * argv[])
{
    //定義CURL類型的指針
    CURL * curl;
    //定義CURLcode類型的變量,保存返回狀態碼
    CURLcode res;

    //初始化一個CURL類型的指針
    curl = curl_easy_init();
    if(curl!=NULL)
    {

        curl_easy_setopt(curl, CURLOPT_URL, argv[1]);        
        //curl_easy_setopt(curl, CURLOPT_WRITEDATA, recv);

        res = curl_easy_perform(curl);
        if(res != CURLE_OK){
             cout << curl_easy_strerror(res) << endl;
    }

        //清除curl操作.
        curl_easy_cleanup(curl);
    }

    return 0;
}

目錄結構
vcyoMQ==" src="/uploadfile/2016/0812/20160812111018412.png" />
編譯生成

ndk-build

最後push到手機上執行
ubuntu移植libcurl到Android平台2

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