大家都知道android系统的Zygote进程是所有的android进程的父进程,包括SystemServer和各种应用进程都是通过Zygote进程fork出来的。Zygote(孵化)进程相当于是android系统的根进程,后面所有的进程都是通过这个进程fork出来的,而Zygote进程则是通过linux系统的init进程启动的,也就是说,android系统中各种进程的启动方式
init进程 --> Zygote进程 --> SystemServer进程 -->各种应用进程
init进程:linux的根进程,android系统是基于linux系统的,因此可以算作是整个android操作系统的第一个进程;
Zygote进程:android系统的根进程,主要作用:可以作用Zygote进程fork出SystemServer进程和各种应用进程;
SystemService进程:主要是在这个进程中启动系统的各项服务,比如ActivityManagerService,PackageManagerService,WindowManagerService服务等等;
本文主要介绍一下Zygote进程的启动流程,关于SystenServer进程和各种应用进程的启动方式会在以后的文章中介绍。
init进程在启动Zygote进程时一般都会调用ZygoteInit类的main方法,因此我们这里看一下该方法的具体实现(基于android23源码);
public static void main(String argv[]) {
try {
RuntimeInit.enableDdms();
// Start profiling the zygote initialization.
SamplingProfilerIntegration.start();
boolean startSystemServer = false;
String socketName = "zygote";
String abiList = null;
for (int i = 1; i < argv.length; i++) {
if ("start-system-server".equals(argv[i])) {
startSystemServer = 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());
} else {
throw new RuntimeException("Unknown command line argument: " + argv[i]);
}
}
if (abiList == null) {
throw new RuntimeException("No ABI list supplied.");
}
registerZygoteSocket(socketName);
EventLog.writeEvent(LOG_BOOT_PROGRESS_PRELOAD_START,
SystemClock.uptimeMillis());
preload();
EventLog.writeEvent(LOG_BOOT_PROGRESS_PRELOAD_END,
SystemClock.uptimeMillis());
// Finish profiling the zygote initialization.
SamplingProfilerIntegration.writeZygoteSnapshot();
// Do an initial gc to clean up after startup
gcAndFinalize();
// Disable tracing so that forked processes do not inherit stale tracing tags from
// Zygote.
Trace.setTracingEnabled(false);
if (startSystemServer) {
startSystemServer(abiList, socketName);
}
Log.i(TAG, "Accepting command socket connections");
runSelectLoop(abiList);
closeServerSocket();
} catch (MethodAndArgsCaller caller) {
caller.run();
} catch (RuntimeException ex) {
Log.e(TAG, "Zygote died with exception", ex);
closeServerSocket();
throw ex;
}
}第一行主要是调用enableDdms(),设置DDMS可用,可以发现DDMS启动的时机还是比较早的,在整个Zygote进程刚刚开始要启动额时候就设置可用了。
下面的循环主要是解析main方法的参数获取是否需要启动SystemService进程,获取abi列表,获取scoket连接名称 (这里需要注意的是:android系统中进程之间通讯的方式是Binder,但是有一个例外是SystemService进程与Zygote进程之间是通过Socket的方式进行通讯的)
private static void registerZygoteSocket(String socketName) {
if (sServerSocket == null) {
int fileDesc;
final String fullSocketName = ANDROID_SOCKET_PREFIX + socketName;
try {
String env = System.getenv(fullSocketName);
fileDesc = Integer.parseInt(env);
} catch (RuntimeException ex) {
throw new RuntimeException(fullSocketName + " unset or invalid", ex);
}
try {
FileDescriptor fd = new FileDescriptor();
fd.setInt$(fileDesc);
sServerSocket = new LocalServerSocket(fd);
} catch (IOException ex) {
throw new RuntimeException(
"Error binding to local socket '" + fileDesc + "'", ex);
}
}
}static void preload() {
Log.d(TAG, "begin preload");
preloadClasses();
preloadResources();
preloadOpenGL();
preloadSharedLibraries();
preloadTextResources();
// Ask the WebViewFactory to do any initialization that must run in the zygote process,
// for memory sharing purposes.
WebViewFactory.prepareWebViewInZygote();
Log.d(TAG, "end preload");
}这其中: preloadClasses()用于初始化Zygote中需要的class类; preloadResources()用于初始化系统资源; preloadOpenGL()用于初始化OpenGL; preloadSharedLibraries()用于初始化系统libraries; preloadTextResources()用于初始化文字资源; prepareWebViewInZygote()用于初始化webview;
private static boolean startSystemServer(String abiList, String socketName)
throws MethodAndArgsCaller, RuntimeException {
long capabilities = posixCapabilitiesAsBits(
OsConstants.CAP_BLOCK_SUSPEND,
OsConstants.CAP_KILL,
OsConstants.CAP_NET_ADMIN,
OsConstants.CAP_NET_BIND_SERVICE,
OsConstants.CAP_NET_BROADCAST,
OsConstants.CAP_NET_RAW,
OsConstants.CAP_SYS_MODULE,
OsConstants.CAP_SYS_NICE,
OsConstants.CAP_SYS_RESOURCE,
OsConstants.CAP_SYS_TIME,
OsConstants.CAP_SYS_TTY_CONFIG
);
/* Hardcoded command line to start the system server */
String args[] = {
"--setuid=1000",
"--setgid=1000",
"--setgroups=1001,1002,1003,1004,1005,1006,1007,1008,1009,1010,1018,1021,1032,3001,3002,3003,3006,3007",
"--capabilities=" + capabilities + "," + capabilities,
"--nice-name=system_server",
"--runtime-args",
"com.android.server.SystemServer",
};
ZygoteConnection.Arguments parsedArgs = null;
int pid;
try {
parsedArgs = new ZygoteConnection.Arguments(args);
ZygoteConnection.applyDebuggerSystemProperty(parsedArgs);
ZygoteConnection.applyInvokeWithSystemProperty(parsedArgs);
/* Request to fork the system server process */
pid = Zygote.forkSystemServer(
parsedArgs.uid, parsedArgs.gid,
parsedArgs.gids,
parsedArgs.debugFlags,
null,
parsedArgs.permittedCapabilities,
parsedArgs.effectiveCapabilities);
} catch (IllegalArgumentException ex) {
throw new RuntimeException(ex);
}
/* For child process */
if (pid == 0) {
if (hasSecondZygote(abiList)) {
waitForSecondaryZygote(socketName);
}
handleSystemServerProcess(parsedArgs);
}
return true;
}可以看到这段逻辑的执行逻辑就是通过Zygote fork出SystemServer进程。
总结: Zygote进程mian方法主要执行逻辑:
初始化DDMS;
注册Zygote进程的socket通讯;
初始化Zygote中的各种类,资源文件,OpenGL,类库,Text资源等等;
初始化完成之后fork出SystemServer进程;
另外对android源码解析方法感兴趣的可参考我的:
android源码解析之(一)-->android项目构建过程
android源码解析之(二)-->异步消息机制
android源码解析之(三)-->异步任务AsyncTask
android源码解析之(四)-->HandlerThread
android源码解析之(五)-->IntentService
android源码解析之(六)-->Log
android源码解析之(七)-->LruCache
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