Zygote进程的介绍 基于8.0
Zygote进程称之为孵化进程
系统中所有的应用程序进程及系统SystemServer进程都是由Zygote进程通过Linux的fork()函数孵化出来的。
Zygote进程的启动
zygote进程对应的主入口文件为/frameworks/base/cmds/app_process/app_main.cpp的main()方法:
int main(int argc, char* const argv[])
{
......
while (i < argc) {
const char* arg = argv[i++];
if (strcmp(arg, "--zygote") == 0) {
//在init.rc中含有‘--zygote’参数,说明启动的是Zygote进程
zygote = true;
//设置昵称‘--zygote’
niceName = ZYGOTE_NICE_NAME;
} else if (strcmp(arg, "--start-system-server") == 0) {
//启动SystemServer进程
startSystemServer = true;
}
}
......
if (zygote) {
//zygote 为true 表示正在启动的进程为zygote进程
//由此可知app_main.cpp在zygote启动其他进程的时候都会通过main()方法
//这里启动的是zygote进程调用runtime start()方法 传入参数
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.");
}
}
最后调用了AppRuntime的start()方法,AppRuntime是app_main.cpp的内部类
class AppRuntime : public AndroidRuntime
{
}
AppRuntime继承了AndroidRuntime实际调用的是AndroidRuntime的start()方法,源码位置/frameworks/base/core/jni/AndroidRuntime
void AndroidRuntime::start(const char* className, const Vector<String8>& options, bool zygote)
{
......
//启动虚拟机
JniInvocation jni_invocation;
jni_invocation.Init(NULL);
JNIEnv* env;
if (startVm(&mJavaVM, &env, zygote) != 0) {
return;
}
onVmCreated(env);
//注册JNI函数
if (startReg(env) < 0) {
ALOGE("Unable to register all android natives\n");
return;
}
......
//className由start()方法传入启动zygote为‘com.android.internal.os.ZygoteInit’
//转换为斜线格式com/android/internal/os/ZygoteInit
char* slashClassName = toSlashClassName(className);
//找出该Class
jclass startClass = env->FindClass(slashClassName);
if (startClass == NULL) {
//未找到ZygoteInit.Class
} else {
//找到该ZygoteInit.Class 的main方法ID
jmethodID startMeth = env->GetStaticMethodID(startClass, "main",
if (startMeth == NULL) {
//未找到main方法
} else {
//调用 ZygoteInit.Class 的main方法
env->CallStaticVoidMethod(startClass, startMeth, strArray);
#if 0
if (env->ExceptionCheck())
threadExitUncaughtException(env);
#endif
}
}
}
AndroidRuntime中做了3件事
- 启动虚拟机
- 注册JNI函数
- 调用ZygoteInit的main()方法
这里我们主要探究应用程序的启动,主要看ZygoteInit的main()方法,
/frameworks/base/core/java/com/android/internal/os/ZygoteInit.java
public static void main(String argv[]) {
//实例化服务端 zygote进程
ZygoteServer zygoteServer = new ZygoteServer();
......
try {
......
boolean startSystemServer = false;
String socketName = "zygote";
String abiList = null;
boolean enableLazyPreload = false;
for (int i = 1; i < argv.length; i++) {
if ("start-system-server".equals(argv[i])) {
startSystemServer = true;
} else if ("--enable-lazy-preload".equals(argv[i])) {
enableLazyPreload = true;
} else if (argv[i].startsWith(ABI_LIST_ARG)) {
abiList = argv[i].substring(ABI_LIST_ARG.length());
} else if (argv[i].startsWith(SOCKET_NAME_ARG)) {
socketName = argv[i].substring(SOCKET_NAME_ARG.length());
}
}
......
//注册一个zygote 的Socket
zygoteServer.registerServerSocket(socketName);
//是否需要懒加载准备
if (!enableLazyPreload) {
//加载
preload(bootTimingsTraceLog);
} else {
Zygote.resetNicePriority();
}
//启动SystemServer
if (startSystemServer) {
startSystemServer(abiList, socketName, zygoteServer);
}
//循环等待socket连接等待AMS请求
zygoteServer.runSelectLoop(abiList);
zygoteServer.closeServerSocket();
} catch (Zygote.MethodAndArgsCaller caller) {
//捕捉异常后进行操作 启动自进程进入子进程的main()方法
caller.run();
} catch (Throwable ex) {
zygoteServer.closeServerSocket();
}
}
ZygoteInit的main方法中一共主要做了5件事:
1.zygoteServer.registerServerSocket注册了一个zygote的Socket接口,用来和AMS通信
- preload()预加载资源
3.启动SystemServer进程
4.zygote的Socket开启循环等待AMS的连接,与AMS通信
5.caller.run(),启动子进程的main()方法
SystemServer的启动
ActivityManagerService是由SystemServer进程启动的,我们先看下SystemServer进程的启动,ZygoteInit的main方法调用了startSystemServer方法
private static boolean startSystemServer(String abiList, String socketName, ZygoteServer zygoteServer)
throws Zygote.MethodAndArgsCaller, RuntimeException {
......
ZygoteConnection.Arguments parsedArgs = null;
int pid;
try {
parsedArgs = new ZygoteConnection.Arguments(args);
ZygoteConnection.applyDebuggerSystemProperty(parsedArgs);
ZygoteConnection.applyInvokeWithSystemProperty(parsedArgs);
//调用Zygote.forksystemServer
pid = Zygote.forkSystemServer(
parsedArgs.uid, parsedArgs.gid,
parsedArgs.gids,
parsedArgs.debugFlags,
null,
parsedArgs.permittedCapabilities,
parsedArgs.effectiveCapabilities);
} catch (IllegalArgumentException ex) {
throw new RuntimeException(ex);
}
......
if (pid == 0) {
if (hasSecondZygote(abiList)) {
waitForSecondaryZygote(socketName);
}
//pid = 0标识在当前子进程
//创建成功SystemServer后关闭‘zygote’socket
//后执行handleSystemServerProcess
zygoteServer.closeServerSocket();
handleSystemServerProcess(parsedArgs);
}
return true;
}
调用了Zygote.forksystemServer方法
public static int forkSystemServer(int uid, int gid, int[] gids, int debugFlags,
int[][] rlimits, long permittedCapabilities, long effectiveCapabilities) {
......
int pid = nativeForkSystemServer(
uid, gid, gids, debugFlags, rlimits, permittedCapabilities, effectiveCapabilities);
......
return pid;
}
最后调用了native层的nativeForkSystemServer方法创建了SystemServer进程。
在SystemServer进程创建完后继续调用了ZygoteInit的handleSystemServerProcess,
private static void handleSystemServerProcess(
ZygoteConnection.Arguments parsedArgs)
throws Zygote.MethodAndArgsCaller {
......
ZygoteInit.zygoteInit(parsedArgs.targetSdkVersion, parsedArgs.remainingArgs, cl);
......
}
主要调用了ZygoteInit.zygoteInit方法
public static final void zygoteInit(int targetSdkVersion, String[] argv,
ClassLoader classLoader) throws Zygote.MethodAndArgsCaller {
......
//初始化Binder进程
ZygoteInit.nativeZygoteInit();
RuntimeInit.applicationInit(targetSdkVersion, argv, classLoader);
}
ZygoteInit.zygoteInit主要初始化了Binder相关应用程序,使进程间可以通信, RuntimeInit.applicationInit最后通过反射调用了SystemServer的main方法。源码/frameworks/base/services/java/com/android/server/SystemServer.java main()方法中 new SystemServer().run();直接调用了run方法
private void run() {
......
//设置虚拟机
VMRuntime.getRuntime().clearGrowthLimit();
VMRuntime.getRuntime().setTargetHeapUtilization(0.8f);
Build.ensureFingerprintProperty();
Environment.setUserRequired(true);
BaseBundle.setShouldDefuse(true);
BinderInternal.disableBackgroundScheduling(true);
BinderInternal.setMaxThreads(sMaxBinderThreads);
//准备主线程的消息处理
android.os.Process.setThreadPriority(
android.os.Process.THREAD_PRIORITY_FOREGROUND);
android.os.Process.setCanSelfBackground(false);
Looper.prepareMainLooper();
//加载android_servers cpp文件
System.loadLibrary("android_servers");
performPendingShutdown();
//初始化System Context 并创建SystemServiceManager实例
createSystemContext();
mSystemServiceManager = new SystemServiceManager(mSystemContext);
mSystemServiceManager.setRuntimeRestarted(mRuntimeRestart);
LocalServices.addService(SystemServiceManager.class, mSystemServiceManager);
// Prepare the thread pool for init tasks that can be parallelized
SystemServerInitThreadPool.get();
} finally {
traceEnd(); // InitBeforeStartServices
}
// Start services.
try {
traceBeginAndSlog("StartServices");
//开启引导服务
startBootstrapServices();
//开启核心服务
startCoreServices();
//开启其他服务
startOtherServices();
SystemServerInitThreadPool.shutdown();
} catch (Throwable ex) {
} finally {
traceEnd();
}
......
//开启Looper
Looper.loop();
throw new RuntimeException("Main thread loop unexpectedly exited");
}
在SystemServer run方法中
1.设置了虚拟机
2.创建了SystemServiceManager对象
3.开启了其他的服务进程
ActivityManagerService是由引导服务开启的,我们主要跟着AMS走。省略无用代码
private void startBootstrapServices() {
......
//安装服务
Installer installer = mSystemServiceManager.startService(Installer.class);
mSystemServiceManager.startService(DeviceIdentifiersPolicyService.class);
//启动AMS
mActivityManagerService = mSystemServiceManager.startService(
ActivityManagerService.Lifecycle.class).getService();
mActivityManagerService.setSystemServiceManager(mSystemServiceManager);
mActivityManagerService.setInstaller(installer);
//启动PowerManagerService 服务
mPowerManagerService = mSystemServiceManager.startService(PowerManagerService.class);
//让AMS初始化PowerManagerService
mActivityManagerService.initPowerManagement();
if (!SystemProperties.getBoolean("config.disable_noncore", false)) {
//启动 RecoverySystemService服务
mSystemServiceManager.startService(RecoverySystemService.class);
}
//启动LightsService 服务
mSystemServiceManager.startService(LightsService.class);
//启动DisplayManagerService
mDisplayManagerService = mSystemServiceManager.startService(DisplayManagerService.class);
mSystemServiceManager.startBootPhase(SystemService.PHASE_WAIT_FOR_DEFAULT_DISPLAY);
//启动 PackageManagerService 并实例化PackManager
mPackageManagerService = PackageManagerService.main(mSystemContext, installer,
mFactoryTestMode != FactoryTest.FACTORY_TEST_OFF, mOnlyCore);
mFirstBoot = mPackageManagerService.isFirstBoot();
mPackageManager = mSystemContext.getPackageManager();
//启动 UserManagerService.LifeCycle
mSystemServiceManager.startService(UserManagerService.LifeCycle.class);
//属性缓存初始化
AttributeCache.init(mSystemContext);
mActivityManagerService.setSystemProcess();
mDisplayManagerService.setupSchedulerPolicies();
//启动OverlayManagerService
mSystemServiceManager.startService(new OverlayManagerService(mSystemContext, installer));
......
}
可以看到在startBootstrapServices()中我们启动了AMS,PMS等被定义为引导服务的服务。
接着看mSystemServiceManager.startService()方法
public <T extends SystemService> T startService(Class<T> serviceClass) {
try {
final String name = serviceClass.getName();
......
final T service;
try {
Constructor<T> constructor = serviceClass.getConstructor(Context.class);
service = constructor.newInstance(mContext);
}
.......
startService(service);
return service;
}
}
通过反射获取SystemService对象后调用本类的startService(service),将service加入管理,最后调用service.onStart();启动了ActivityManagerService.onStart();方法启动了AMS。
网友评论