Zygote——Native

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注:限于作者水平有限,文中有不对的地方还请指教

我刚开始接触Android 是作为一名APP开发者,因此在刚开始看到 Zygote 时,并不明白它是什么,
现在我在这里记录一下自己对于 Zygote 的理解;

Zygote —— 进程起源地

1.Zygote 启动:init.zygote32.rc

/system/core/rootdir/init.zygote32.rc

service zygote /system/bin/app_process -Xzygote /system/bin --zygote --start-system-server
    class main
    socket zygote stream 660 root system
    onrestart write /sys/android_power/request_state wake
    onrestart write /sys/power/state on
    onrestart restart media
    onrestart restart netd

/system/bin/app_process是Zygote进程的可执行程序,后续都是启动参数;
app_process的源码路径:

/frameworks/base/cmds/app_process/app_main.cpp

1-1. main方法

int main(int argc, char* const argv[])
{
    if (prctl(PR_SET_NO_NEW_PRIVS, 1, 0, 0, 0) < 0) {//Selinux相关,防止动态更改权限
        // Older kernels don't understand PR_SET_NO_NEW_PRIVS and return
        // EINVAL. Don't die on such kernels.
        if (errno != EINVAL) { //老版本内核一直返回EINVAL
            LOG_ALWAYS_FATAL("PR_SET_NO_NEW_PRIVS failed: %s", strerror(errno));
            return 12;
        }
    }

    AppRuntime runtime(argv[0], computeArgBlockSize(argc, argv));
    // Process command line arguments
    // ignore argv[0] //忽略第一个参数
    argc--; //参数个数减一
    argv++; //指向argv[1]

    // Everything up to '--' or first non '-' arg goes to the vm.
    //
    // The first argument after the VM args is the "parent dir", which
    // is currently unused.
    //
    // After the parent dir, we expect one or more the following internal
    // arguments :
    //
    // --zygote : Start in zygote mode
    // --start-system-server : Start the system server.
    // --application : Start in application (stand alone, non zygote) mode.
    // --nice-name : The nice name for this process.
    //
    // For non zygote starts, these arguments will be followed by
    // the main class name. All remaining arguments are passed to
    // the main method of this class.
    //
    // For zygote starts, all remaining arguments are passed to the zygote.
    // main function.
    //
    // Note that we must copy argument string values since we will rewrite the
    // entire argument block when we apply the nice name to argv0.

    int i;
    for (i = 0; i < argc; i++) {
        if (argv[i][0] != '-') {
            break;
        }
        if (argv[i][1] == '-' && argv[i][2] == 0) {
            ++i; // Skip --.
            break;
        }
        runtime.addOption(strdup(argv[i]));
    }

    // Parse runtime arguments.  Stop at first unrecognized option.
    bool zygote = false;
    bool startSystemServer = false;
    bool application = false;
    String8 niceName;
    String8 className;

    ++i;  // Skip unused "parent dir" argument.
    while (i < argc) {
        const char* arg = argv[i++];
        if (strcmp(arg, "--zygote") == 0) {
            zygote = true;
            niceName = ZYGOTE_NICE_NAME;
        } else if (strcmp(arg, "--start-system-server") == 0) {
            startSystemServer = true;
        } else if (strcmp(arg, "--application") == 0) {
            application = true;
        } else if (strncmp(arg, "--nice-name=", 12) == 0) {
            niceName.setTo(arg + 12);
        } else if (strncmp(arg, "--", 2) != 0) {
            className.setTo(arg);
            break;
        } else {
            --i;
            break;
        }
    }

    Vector<String8> args;
    if (!className.isEmpty()) {
        // We're not in zygote mode, the only argument we need to pass
        // to RuntimeInit is the application argument.
        //
        // The Remainder of args get passed to startup class main(). Make
        // copies of them before we overwrite them with the process name.
        args.add(application ? String8("application") : String8("tool"));
        runtime.setClassNameAndArgs(className, argc - i, argv + i);
    } else {
        // We're in zygote mode.
        maybeCreateDalvikCache();

        if (startSystemServer) {
            args.add(String8("start-system-server"));
        }

        char prop[PROP_VALUE_MAX];
        if (property_get(ABI_LIST_PROPERTY, prop, NULL) == 0) {
            LOG_ALWAYS_FATAL("app_process: Unable to determine ABI list from property %s.",
                ABI_LIST_PROPERTY);
            return 11;
        }

        String8 abiFlag("--abi-list=");
        abiFlag.append(prop);
        args.add(abiFlag);

        // In zygote mode, pass all remaining arguments to the zygote
        // main() method.
        for (; i < argc; ++i) {
            args.add(String8(argv[i]));
        }
    }

    if (!niceName.isEmpty()) {
        runtime.setArgv0(niceName.string());
        set_process_name(niceName.string());
    }

    if (zygote) {
        runtime.start("com.android.internal.os.ZygoteInit", args, zygote);
    } else if (className) {
        runtime.start("com.android.internal.os.RuntimeInit", args, zygote);
    } else {
        fprintf(stderr, "Error: no class name or --zygote supplied.\n");
        app_usage();
        LOG_ALWAYS_FATAL("app_process: no class name or --zygote supplied.");
        return 10;
    }
}

对于init.zygote32.rc中service Zygote 的参数已经在main方法的注释中都有讲解;

" -Xzygote"是VM参数;
"/system/bin"是可执行程序app_process的父目录,可以不关注;
"--zygote" : Start in zygote mode
"--start-system-server" : Start the system server.
"--application" : Start in application (stand alone, non zygote) mode.
"--nice-name" : The nice name for this process.

service zygote /system/bin/app_process -Xzygote /system/bin --zygote --start-system-server
第一个参数从"/system/bin/app_process"算起,argc = 5(参数长度),argv = argv[0] = "/system/bin/app_process"

    AppRuntime runtime(argv[0], computeArgBlockSize(argc, argv));
    // Process command line arguments
    // ignore argv[0]
    argc--; //参数个数减一
    argv++; //指向argv[1]

上述代码执行完成后,

argc = 4 argv指向参数原始参数的argv[1],即argv = "-Xzygote"

上面忽略第一个参数的原因相比你已经了解——当实参传给main函数之后,argv的第一个元素指向程序的名字或者一个空字符串,接下来的元素依次传递给命令行提供的实参,最后一个指针之后的元素保证为0。

接下来是一个循环

int i;
    for (i = 0; i < argc; i++) { 
        if (argv[i][0] != '-') { //argv[i]是一个字符串数组,所以此时是判断参数头部是否带有"-"
            break;
        }
        if (argv[i][1] == '-' && argv[i][2] == 0) {
            ++i; // Skip --. 
            break;
        }
        runtime.addOption(strdup(argv[i]));//这个循环的核心就是执行这段代码,从判断条件中知道
                    //只有 "-Xzygote"符合要求,即给虚拟机设置参数
    }

上述代码循环是在判断第二个参数时退出的,循环退出时i = 1,argc = 4

    // Parse runtime arguments.  Stop at first unrecognized option.
    bool zygote = false;
    bool startSystemServer = false;
    bool application = false;
    String8 niceName;
    String8 className;

    ++i;  // Skip unused "parent dir" argument. //此时i = 2
    while (i < argc) { //argc = 4
        const char* arg = argv[i++]; //从argv[2]开始算起,即跳过了/system/bin
        if (strcmp(arg, "--zygote") == 0) {
            zygote = true;
            niceName = ZYGOTE_NICE_NAME;
        } else if (strcmp(arg, "--start-system-server") == 0) {
            startSystemServer = true;
        } else if (strcmp(arg, "--application") == 0) {
            application = true;
        } else if (strncmp(arg, "--nice-name=", 12) == 0) {
            niceName.setTo(arg + 12);
        } else if (strncmp(arg, "--", 2) != 0) {
            className.setTo(arg);
            break;
        } else {
            --i;
            break;
        }
    }

上述这段代码很简单,就是根据传递的argv参数来设置几个变量,后续肯定会根据这个几个变量来执行相关操作;一共循环两次,上述代码执行完成后i = 4,但是argv的指向-Xzygote;循环结束后,变量的值如下:
zygote = true;
niceName = ZYGOTE_NICE_NAME;
startSystemServer = true;

循环结束后会根据上述赋值的变量来进行一些初始化操作,代码如下:

Vector<String8> args; //该变量后续会作为AppRuntime 的启动参数传递
    if (!className.isEmpty()) {   //className 在上述代码中没有赋值,所以className 为空
        // We're not in zygote mode, the only argument we need to pass
        // to RuntimeInit is the application argument.
        //
        // The Remainder of args get passed to startup class main(). Make
        // copies of them before we overwrite them with the process name.
        args.add(application ? String8("application") : String8("tool"));
        runtime.setClassNameAndArgs(className, argc - i, argv + i);
    } else { //className 为空,走该流程==================>>
        // We're in zygote mode.
        maybeCreateDalvikCache(); //创建虚拟机Cache 文件,目录在/data/dalvik-cache/下,
// 我的机器是arm架构,所以在这个目录下生成一个arm的文件夹,里面存放的都是一些dex文件;

        if (startSystemServer) {
            args.add(String8("start-system-server"));//添加start-system-server参数
        }

        char prop[PROP_VALUE_MAX];
        if (property_get(ABI_LIST_PROPERTY, prop, NULL) == 0) {
            LOG_ALWAYS_FATAL("app_process: Unable to determine ABI list from property %s.",
                ABI_LIST_PROPERTY);
            return 11;
        }

        String8 abiFlag("--abi-list=");
        abiFlag.append(prop);
        args.add(abiFlag);

        // In zygote mode, pass all remaining arguments to the zygote
        // main() method.
        for (; i < argc; ++i) {
            args.add(String8(argv[i]));
        }
    }

    if (!niceName.isEmpty()) {
        runtime.setArgv0(niceName.string());
        set_process_name(niceName.string());
    }

1-2. maybeCreateDalvikCache() 方法

static void maybeCreateDalvikCache() {
#if defined(__aarch64__)
    static const char kInstructionSet[] = "arm64";
#elif defined(__x86_64__)
    static const char kInstructionSet[] = "x86_64";
#elif defined(__arm__)
    static const char kInstructionSet[] = "arm";
#elif defined(__i386__)
    static const char kInstructionSet[] = "x86";
#elif defined (__mips__)
    static const char kInstructionSet[] = "mips";
#else
#error "Unknown instruction set"
#endif
    const char* androidRoot = getenv("ANDROID_DATA");
    LOG_ALWAYS_FATAL_IF(androidRoot == NULL, "ANDROID_DATA environment variable unset");

    char dalvikCacheDir[PATH_MAX];
    const int numChars = snprintf(dalvikCacheDir, PATH_MAX,
            "%s/dalvik-cache/%s", androidRoot, kInstructionSet);//dalvikCacheDir最终为/data/dalvik-cache/arm
    LOG_ALWAYS_FATAL_IF((numChars >= PATH_MAX || numChars < 0),
            "Error constructing dalvik cache : %s", strerror(errno));

    int result = mkdir(dalvikCacheDir, 0711);
    LOG_ALWAYS_FATAL_IF((result < 0 && errno != EEXIST),
            "Error creating cache dir %s : %s", dalvikCacheDir, strerror(errno));

    // We always perform these steps because the directory might
    // already exist, with wider permissions and a different owner
    // than we'd like.
    result = chown(dalvikCacheDir, AID_ROOT, AID_ROOT);//修改用户和用户主组为ROOT
    LOG_ALWAYS_FATAL_IF((result < 0), "Error changing dalvik-cache ownership : %s", strerror(errno));

    result = chmod(dalvikCacheDir, 0711);
    LOG_ALWAYS_FATAL_IF((result < 0),
            "Error changing dalvik-cache permissions : %s", strerror(errno));
}

maybeCreateDalvikCache 完成的功能如下:

1. 设置虚拟机指令集;
2. 创建虚拟机缓存目录;目录为/data/dalvik-cache/arm,后面的arm是根据签名机器指令集赋值的;我的机器为arm;
3. 修改目录的USER和GROUP 为ROOT 用户;
4. 修改目录权限为"0711"(-rwx--x--x),即目录拥有者有读写执行权限,其他用户只有执行权限;

maybeCreateDalvikCache 后:

        if (startSystemServer) {
            args.add(String8("start-system-server"));
        }
        char prop[PROP_VALUE_MAX];
        if (property_get(ABI_LIST_PROPERTY, prop, NULL) == 0) { //根据ABI_LIST_PROPERTY属性获取abi-list参数
            LOG_ALWAYS_FATAL("app_process: Unable to determine ABI list from property %s.",
                ABI_LIST_PROPERTY);
            return 11;
        }
        String8 abiFlag("--abi-list=");
        abiFlag.append(prop);
        args.add(abiFlag);// 添加abi-list参数

        // In zygote mode, pass all remaining arguments to the zygote
        // main() method.
        for (; i < argc; ++i) { //开机执行这句代码前i = 4,argc = 4,所以下面程序不会执行,  
                                //即没有参数需要添加了,如果还有参数会接着添加
            args.add(String8(argv[i]));//将参数添加到args,再传给Runtime
        }
    ......
    ......
    if (zygote) {
        runtime.start("com.android.internal.os.ZygoteInit", args);//启动ZygoteInit,接收上面传递过来的参数args,
                                                                  //即从init.rc传递过来的参数;
    } else if (className) {
        runtime.start("com.android.internal.os.RuntimeInit", args);//调用AndroidRuntime的start方法
                                                                   //启动RuntimeInit
    } else {
        fprintf(stderr, "Error: no class name or --zygote supplied.\n");
        app_usage();
        LOG_ALWAYS_FATAL("app_process: no class name or --zygote supplied.");
        return 10;
    }

注:这里所说的过程是第一次开机Zygote 的处理过程,参数也是开机过程从init.rc中传递的参数,我尝试使用adb install 安装应用,也会调用Zygote,但是参数和上述描述不一样;

到此app_main的main方法执行结束,程序将继续执行AndroidRuntime的start方法;

2. AndroidRuntime

frameworks/base/core/jni/AndroidRuntime.cpp

2-1. AndroidRuntime::start(const char* className, const Vector<String8>& options)
/*
 * Start the Android runtime.  This involves starting the virtual machine
 * and calling the "static void main(String[] args)" method in the class
 * named by "className".
 *
 * Passes the main function two arguments, the class name and the specified
 * options string.
 */
void AndroidRuntime::start(const char* className, const Vector<String8>& options)
{
    ALOGD(">>>>>> START %s uid %d <<<<<<\n",
            className != NULL ? className : "(unknown)", getuid());

    static const String8 startSystemServer("start-system-server");//初始化字符串startSystemServer,
                                                //判断从app_main传递过来的参数是否带有该参数

    /*
     * 'startSystemServer == true' means runtime is obsolete and not run from
     * init.rc anymore, so we print out the boot start event here.
     */
    for (size_t i = 0; i < options.size(); ++i) {
        if (options[i] == startSystemServer) {//判断参数
           /* track our progress through the boot sequence */
           const int LOG_BOOT_PROGRESS_START = 3000;
           LOG_EVENT_LONG(LOG_BOOT_PROGRESS_START,  ns2ms(systemTime(SYSTEM_TIME_MONOTONIC)));
        }
    }

    const char* rootDir = getenv("ANDROID_ROOT");//获取ANDROID_ROOT环境变量,
          //adb shell 到手机里面echo $ANDROID_ROOT,得出该环境变量为 "/system"
    if (rootDir == NULL) {//第一次进来为空,先设置rootDir 为"/system"
        rootDir = "/system";
        if (!hasDir("/system")) {
            LOG_FATAL("No root directory specified, and /android does not exist.");
            return;
        }
        setenv("ANDROID_ROOT", rootDir, 1);
    }

    //const char* kernelHack = getenv("LD_ASSUME_KERNEL");
    //ALOGD("Found LD_ASSUME_KERNEL='%s'\n", kernelHack);

    /* start the virtual machine */
    JniInvocation jni_invocation;
    jni_invocation.Init(NULL);
    JNIEnv* env;
    if (startVm(&mJavaVM, &env) != 0) { //核心,启动虚拟机,该方法中会配置各种JVM参数,
                //最终会调用JNI_CreateJavaVM方法创建JVM
        return;
    }
    onVmCreated(env);

    /*
     * Register android functions.
     */
    if (startReg(env) < 0) {//核心中的核心,注册JNI方法,什么Binder,各种核心库的JNI基本都在这里注册
        ALOGE("Unable to register all android natives\n");
        return;
    }

    /*
     * We want to call main() with a String array with arguments in it.
     * At present we have two arguments, the class name and an option string.
     * Create an array to hold them.
     */
    jclass stringClass;
    jobjectArray strArray;
    jstring classNameStr;

    stringClass = env->FindClass("java/lang/String");
    assert(stringClass != NULL);
    strArray = env->NewObjectArray(options.size() + 1, stringClass, NULL);
    assert(strArray != NULL);
    classNameStr = env->NewStringUTF(className);
    assert(classNameStr != NULL);
    env->SetObjectArrayElement(strArray, 0, classNameStr);

    for (size_t i = 0; i < options.size(); ++i) {
        jstring optionsStr = env->NewStringUTF(options.itemAt(i).string());
        assert(optionsStr != NULL);
        env->SetObjectArrayElement(strArray, i + 1, optionsStr);
    }

    /*
     * Start VM.  This thread becomes the main thread of the VM, and will
     * not return until the VM exits.
     */
    char* slashClassName = toSlashClassName(className);//className从app_main.cpp传递过来的,
                    //为"com.android.internal.os.ZygoteInit",
                    //toSlashClassName将className中的字符串替换为"/"来满足FindClass(slashClassName)
                    //对参数的需求来获取java class 对象
    jclass startClass = env->FindClass(slashClassName);
    if (startClass == NULL) {
        ALOGE("JavaVM unable to locate class '%s'\n", slashClassName);
        /* keep going */
    } else {
        jmethodID startMeth = env->GetStaticMethodID(startClass, "main",
            "([Ljava/lang/String;)V");  //获取Java层ZygoteInit的"main"方法ID
        if (startMeth == NULL) {
            ALOGE("JavaVM unable to find main() in '%s'\n", className);
            /* keep going */
        } else {
            env->CallStaticVoidMethod(startClass, startMeth, strArray);//执行Java层ZygoteInit "main"方法,
            //终于看到了指向Java层的曙光;

#if 0
            if (env->ExceptionCheck())
                threadExitUncaughtException(env);
#endif
        }
    }
    free(slashClassName);

    ALOGD("Shutting down VM\n");
    if (mJavaVM->DetachCurrentThread() != JNI_OK)
        ALOGW("Warning: unable to detach main thread\n");
    if (mJavaVM->DestroyJavaVM() != 0)
        ALOGW("Warning: VM did not shut down cleanly\n");
}

本来我们应该继续往下跳转到ZygoteInit.java的main方法,但是我觉得AndroidRuntime中有几个重要的方法需要记住,在此先说说,Java层的ZygoteInit放到下一篇再说:

2-2. int AndroidRuntime::startVm(JavaVM** pJavaVM, JNIEnv** pEnv)
/*
 * Start the Dalvik Virtual Machine.
 *
 * Various arguments, most determined by system properties, are passed in.
 * The "mOptions" vector is updated.
 *
 * CAUTION: when adding options in here, be careful not to put the
 * char buffer inside a nested scope.  Adding the buffer to the
 * options using mOptions.add() does not copy the buffer, so if the
 * buffer goes out of scope the option may be overwritten.  It's best
 * to put the buffer at the top of the function so that it is more
 * unlikely that someone will surround it in a scope at a later time
 * and thus introduce a bug.
 *
 * Returns 0 on success.
 */
int AndroidRuntime::startVm(JavaVM** pJavaVM, JNIEnv** pEnv)
{
    int result = -1;
    JavaVMInitArgs initArgs;
    char zygoteMaxFailedBootsBuf[sizeof("-XzygoteMaxFailedBoots")-1 + PROPERTY_VALUE_MAX];
    char propBuf[PROPERTY_VALUE_MAX];
    char stackTraceFileBuf[sizeof("-Xstacktracefile:")-1 + PROPERTY_VALUE_MAX];
    char dexoptFlagsBuf[PROPERTY_VALUE_MAX];
    char enableAssertBuf[sizeof("-ea:")-1 + PROPERTY_VALUE_MAX];
    char jniOptsBuf[sizeof("-Xjniopts:")-1 + PROPERTY_VALUE_MAX];
    char heapstartsizeOptsBuf[sizeof("-Xms")-1 + PROPERTY_VALUE_MAX];
    char heapsizeOptsBuf[sizeof("-Xmx")-1 + PROPERTY_VALUE_MAX];
    char heapgrowthlimitOptsBuf[sizeof("-XX:HeapGrowthLimit=")-1 + PROPERTY_VALUE_MAX];
    char heapminfreeOptsBuf[sizeof("-XX:HeapMinFree=")-1 + PROPERTY_VALUE_MAX];
    char heapmaxfreeOptsBuf[sizeof("-XX:HeapMaxFree=")-1 + PROPERTY_VALUE_MAX];
    char gctypeOptsBuf[sizeof("-Xgc:")-1 + PROPERTY_VALUE_MAX];
    char backgroundgcOptsBuf[sizeof("-XX:BackgroundGC=")-1 + PROPERTY_VALUE_MAX];
    char heaptargetutilizationOptsBuf[sizeof("-XX:HeapTargetUtilization=")-1 + PROPERTY_VALUE_MAX];
    char jitcodecachesizeOptsBuf[sizeof("-Xjitcodecachesize:")-1 + PROPERTY_VALUE_MAX];
    char dalvikVmLibBuf[PROPERTY_VALUE_MAX];
    char dex2oatXmsImageFlagsBuf[sizeof("-Xms")-1 + PROPERTY_VALUE_MAX];
    char dex2oatXmxImageFlagsBuf[sizeof("-Xmx")-1 + PROPERTY_VALUE_MAX];
    char dex2oatXmsFlagsBuf[sizeof("-Xms")-1 + PROPERTY_VALUE_MAX];
    char dex2oatXmxFlagsBuf[sizeof("-Xmx")-1 + PROPERTY_VALUE_MAX];
    char dex2oatCompilerFilterBuf[sizeof("--compiler-filter=")-1 + PROPERTY_VALUE_MAX];
    char dex2oatImageCompilerFilterBuf[sizeof("--compiler-filter=")-1 + PROPERTY_VALUE_MAX];
    char dex2oatFlagsBuf[PROPERTY_VALUE_MAX];
    char dex2oatImageFlagsBuf[PROPERTY_VALUE_MAX];
    char extraOptsBuf[PROPERTY_VALUE_MAX];
    char voldDecryptBuf[PROPERTY_VALUE_MAX];
    enum {
      kEMDefault,
      kEMIntPortable,
      kEMIntFast,
      kEMJitCompiler,
    } executionMode = kEMDefault;
    char profilePeriod[sizeof("-Xprofile-period:")-1 + PROPERTY_VALUE_MAX];
    char profileDuration[sizeof("-Xprofile-duration:")-1 + PROPERTY_VALUE_MAX];
    char profileInterval[sizeof("-Xprofile-interval:")-1 + PROPERTY_VALUE_MAX];
    char profileBackoff[sizeof("-Xprofile-backoff:")-1 + PROPERTY_VALUE_MAX];
    char profileTopKThreshold[sizeof("-Xprofile-top-k-threshold:")-1 + PROPERTY_VALUE_MAX];
    char profileTopKChangeThreshold[sizeof("-Xprofile-top-k-change-threshold:")-1 +
                                    PROPERTY_VALUE_MAX];
    char profileType[sizeof("-Xprofile-type:")-1 + PROPERTY_VALUE_MAX];
    char profileMaxStackDepth[sizeof("-Xprofile-max-stack-depth:")-1 + PROPERTY_VALUE_MAX];
    char langOption[sizeof("-Duser.language=") + 3];
    char regionOption[sizeof("-Duser.region=") + 3];
    char lockProfThresholdBuf[sizeof("-Xlockprofthreshold:")-1 + PROPERTY_VALUE_MAX];
    char jitOpBuf[sizeof("-Xjitop:")-1 + PROPERTY_VALUE_MAX];
    char jitMethodBuf[sizeof("-Xjitmethod:")-1 + PROPERTY_VALUE_MAX];
    char nativeBridgeLibrary[sizeof("-XX:NativeBridge=") + PROPERTY_VALUE_MAX];
    ......
    property_get("dalvik.vm.checkjni", propBuf, "");
    ......
    parseRuntimeOption("dalvik.vm.heapsize", heapsizeOptsBuf, "-Xmx", "16m");
    ......
}

/*
 * Reads a "property" into "buffer" with a default of "defaultArg". If
 * the property is non-empty, it is treated as a runtime option such
 * as "-Xmx32m".
 *
 * The "runtimeArg" is a prefix for the option such as "-Xms" or "-Xmx".
 *
 * If an argument is found, it is added to mOptions.
 *
 * If an option is found, it is added to mOptions and true is
 * returned. Otherwise false is returned.
 */
bool AndroidRuntime::parseRuntimeOption(const char* property,
                                        char* buffer,
                                        const char* runtimeArg,
                                        const char* defaultArg)
{
    strcpy(buffer, runtimeArg);
    size_t runtimeArgLen = strlen(runtimeArg);
    property_get(property, buffer+runtimeArgLen, defaultArg);
    if (buffer[runtimeArgLen] == '\0') {
        return false;
    }
    addOption(buffer);
    return true;
}

这里对于Java Dalvik 参数配置,大部分都是通过获取系统属性来赋值;对此不需要详解;

2-3. int AndroidRuntime::startReg(JNIEnv* env)
/*
 * Register android native functions with the VM.
 */
/*static*/ 
int AndroidRuntime::startReg(JNIEnv* env)
{
    /*
     * This hook causes all future threads created in this process to be
     * attached to the JavaVM.  (This needs to go away in favor of JNI
     * Attach calls.)
     */
    androidSetCreateThreadFunc((android_create_thread_fn) javaCreateThreadEtc);

    ALOGV("--- registering native functions ---\n");

    /*
     * Every "register" function calls one or more things that return
     * a local reference (e.g. FindClass).  Because we haven't really
     * started the VM yet, they're all getting stored in the base frame
     * and never released.  Use Push/Pop to manage the storage.
     */
    env->PushLocalFrame(200);

    if (register_jni_procs(gRegJNI, NELEM(gRegJNI), env) < 0) {//注册JNI方法,很重要,gRegJNI是方法表
        env->PopLocalFrame(NULL);
        return -1;
    }
    env->PopLocalFrame(NULL);

    //createJavaThread("fubar", quickTest, (void*) "hello");

    return 0;
}

2-4. gRegJNI 方法表

static const RegJNIRec gRegJNI[] = {
    REG_JNI(register_com_android_internal_os_RuntimeInit),
    REG_JNI(register_android_os_SystemClock),
    REG_JNI(register_android_util_EventLog),
    REG_JNI(register_android_os_Process),
    REG_JNI(register_android_os_SystemProperties),
    REG_JNI(register_android_os_Binder),
    REG_JNI(register_android_os_Parcel),
    REG_JNI(register_android_graphics_Graphics),
    REG_JNI(register_android_view_DisplayEventReceiver),
    REG_JNI(register_android_view_RenderNode),
    REG_JNI(register_android_view_RenderNodeAnimator),
    REG_JNI(register_android_view_GraphicBuffer),
    REG_JNI(register_android_view_GLES20Canvas),
    REG_JNI(register_android_view_HardwareLayer),
    REG_JNI(register_android_view_Surface),
    REG_JNI(register_android_view_SurfaceControl),
    REG_JNI(register_android_view_SurfaceSession),
    REG_JNI(register_android_view_TextureView),
    REG_JNI(register_com_android_internal_view_animation_NativeInterpolatorFactoryHelper),
    REG_JNI(register_com_google_android_gles_jni_EGLImpl),
    REG_JNI(register_com_google_android_gles_jni_GLImpl),
    REG_JNI(register_android_opengl_jni_EGL14),
    REG_JNI(register_android_opengl_jni_EGLExt),
    REG_JNI(register_android_opengl_jni_GLES10),
    REG_JNI(register_android_opengl_jni_GLES10Ext),
    REG_JNI(register_android_opengl_jni_GLES11),
    REG_JNI(register_android_opengl_jni_GLES11Ext),
    REG_JNI(register_android_opengl_jni_GLES20),
    REG_JNI(register_android_opengl_jni_GLES30),
    REG_JNI(register_android_opengl_jni_GLES31),
    REG_JNI(register_android_opengl_jni_GLES31Ext),
    REG_JNI(register_android_graphics_Bitmap),
    REG_JNI(register_android_graphics_BitmapFactory),
    REG_JNI(register_android_graphics_BitmapRegionDecoder),
    REG_JNI(register_android_graphics_Camera),
    REG_JNI(register_android_graphics_CreateJavaOutputStreamAdaptor),
    REG_JNI(register_android_graphics_Canvas),
    REG_JNI(register_android_graphics_CanvasProperty),
    REG_JNI(register_android_graphics_ColorFilter),
    REG_JNI(register_android_graphics_DrawFilter),
    REG_JNI(register_android_graphics_FontFamily),
    REG_JNI(register_android_graphics_Movie),
    REG_JNI(register_android_graphics_NinePatch),
    REG_JNI(register_android_graphics_Paint),
    REG_JNI(register_android_graphics_Path),
    REG_JNI(register_android_graphics_PathMeasure),
    REG_JNI(register_android_graphics_PathEffect),
    REG_JNI(register_android_graphics_Picture),
    REG_JNI(register_android_graphics_PorterDuff),
    REG_JNI(register_android_graphics_Rasterizer),
    REG_JNI(register_android_graphics_Region),
    REG_JNI(register_android_graphics_Shader),
    REG_JNI(register_android_graphics_SurfaceTexture),
    REG_JNI(register_android_graphics_Typeface),
    REG_JNI(register_android_graphics_pdf_PdfRenderer),

    REG_JNI(register_android_database_CursorWindow),
    REG_JNI(register_android_database_SQLiteConnection),
    REG_JNI(register_android_database_SQLiteGlobal),
    REG_JNI(register_android_database_SQLiteDebug),
    REG_JNI(register_android_os_Debug),
    REG_JNI(register_android_os_FileObserver),
    REG_JNI(register_android_os_MessageQueue),
    REG_JNI(register_android_os_SELinux),
    REG_JNI(register_android_os_Trace),
    REG_JNI(register_android_os_UEventObserver),
    REG_JNI(register_android_net_NetworkUtils),
    REG_JNI(register_com_android_internal_os_ZygoteInit),
    REG_JNI(register_com_android_internal_os_Zygote),
    REG_JNI(register_android_hardware_Camera),
    REG_JNI(register_android_hardware_camera2_legacy_PerfMeasurement),
    REG_JNI(register_android_hardware_camera2_DngCreator),
    REG_JNI(register_android_hardware_SensorManager),
    REG_JNI(register_android_hardware_SerialPort),
    REG_JNI(register_android_media_AudioRecord),
    REG_JNI(register_android_media_AudioSystem),
    REG_JNI(register_android_media_AudioTrack),
    REG_JNI(register_android_media_ToneGenerator),

    REG_JNI(register_android_opengl_classes),
    REG_JNI(register_android_server_NetworkManagementSocketTagger),
    REG_JNI(register_android_app_ActivityThread),
    REG_JNI(register_android_app_NativeActivity),
    REG_JNI(register_android_view_InputChannel),
    REG_JNI(register_android_view_InputEventReceiver),
    REG_JNI(register_android_view_InputEventSender),
    REG_JNI(register_android_view_InputQueue),
    REG_JNI(register_android_view_KeyEvent),
};

限于篇幅原因我删除了很多,这里注册的这些JNI方法都很重要很重要很重要,比如Binder,Camera,EGL 等等;

这篇文章描述有点杂,贴的代码中有很多注释,很多是Google 原生的注释我没删除,因为我觉得这些注释简单明了。

总结:app_process进程主要是根据init.rc脚本来设置参数,然后调用到Java层的ZygoteInit;

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