Zygote进程启动流程

在Android系统中，应用程序进程以及运行系统的关键服务的SystemServer进程都是由Zygote进程来创建的，我们也将它称为孵化器。它通过fork（复制进程）的形式来创建应用程序进程和SystemServer进程。

Zygote进程是在init进程启动时创建的，起初Zygote进程的名称并不是叫“zygote”，而是叫“app_process”，这个名称是在Android.mk中定义的，Zygote进程启动后，Linux系统下的pctrl系统会调用app_process，将其名称换成了“zygote”。

Zygote启动脚本分析

在init.rc文件中采用了import引入Zygote启动脚本。

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//system/core/rootdir/init.rc
import /init.${ro.hardware}.rc
import /init.usb.configfs.rc
import /init.${ro.zygote}.rc//导入zygote.rc

可以看出init.rc不会直接引入一个固定的文件，而是根据属性ro.zygote的内容来引入不同的文件。

从Android 5.0开始，Android开始支持64位程序，Zygote也就有了32位和64位的区别，所以在这里用ro.zygote属性来控制使用不同的Zygote启动脚本，从而也就启动了不同版本的Zygote进程，ro.zygote属性的取值有以下4种：

init.zygote32.rc
init.zygote32_64.rc
init.zygote64.rc
init.zygote64_32.rc

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//system/core/rootdir/init.zygote64.rc
//启动zygote service 路径/system/bin/app_process64
service zygote /system/bin/app_process64 -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 audioserver
    onrestart restart cameraserver
    onrestart restart media
    onrestart restart netd
    writepid /dev/cpuset/foreground/tasks

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//frameworks/base/cmds/app_process/Android.mk
include $(CLEAR_VARS)

LOCAL_SRC_FILES:= \
    app_main.cpp

LOCAL_SHARED_LIBRARIES := \
    libcutils \
    libutils \
    liblog \
    libbinder \
    libandroid_runtime \
    $(app_process_common_shared_libs) \

LOCAL_WHOLE_STATIC_LIBRARIES := libsigchain

LOCAL_LDFLAGS := -ldl -Wl,--version-script,art/sigchainlib/version-script.txt -Wl,--export-dynamic
LOCAL_CPPFLAGS := -std=c++11

LOCAL_MODULE := app_process__asan
LOCAL_MULTILIB := both //编译32位和64位
LOCAL_MODULE_STEM_32 := app_process32 //32位
LOCAL_MODULE_STEM_64 := app_process64//64位

app_main

main

app_main.cpp的main方法会接收传进的来参数，并根据传进来的参数调用AndroidRuntime的start方法。

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//frameworks/base/cmds/app_process/app_main.cpp
int main(int argc, char* const argv[])
{
    //...
    while (i < argc) {
        const char* arg = argv[i++];
        if (strcmp(arg, "--zygote") == 0) { 
            zygote = true; //传进来的参数--zygote 将布尔值zygote设置为true
            niceName = ZYGOTE_NICE_NAME;
        } else if (strcmp(arg, "--start-system-server") == 0) {
            startSystemServer = true; //启动SystemServer进程
        } 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()) {
       //...
    } else {
        //...
        //start-system-server写入参数中
        if (startSystemServer) {
            args.add(String8("start-system-server"));
        }
        //...
    }
    if (!niceName.isEmpty()) { //线程名字不是空 设置线程名字
        runtime.setArgv0(niceName.string());
        set_process_name(niceName.string());
    }

    if (zygote) {
        //调用AppRuntime的start方法启动ZygoteInit
        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;
    }
}

AndroidRuntime

start

AndroidRuntime的start方法负责启动虚拟机，并根据传进来的类名，获取到对应的类，并执行该类的main方法。在app_main.cpp的main方法中，我们传进来的是ZygoteInit类，所以执行的就是ZygoteInit的main方法。

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//frameworks/base/core/jni/AndroidRuntime.cpp
void AndroidRuntime::start(const char* className, const Vector<String8>& options, bool zygote)
{   //...
    JniInvocation jni_invocation;
    jni_invocation.Init(NULL);
    JNIEnv* env;
    //启动虚拟机
    if (startVm(&mJavaVM, &env, zygote) != 0) { 
        return;
    }
    onVmCreated(env); //启动虚拟机后的回调
    //...

    //将className中的. 替换为/
    char* slashClassName = toSlashClassName(className);
    //寻找类
    jclass startClass = env->FindClass(slashClassName);
    if (startClass == NULL) {
        ALOGE("JavaVM unable to locate class '%s'\n", slashClassName);
        /* keep going */
    } else {
        //获取main方法
        jmethodID startMeth = env->GetStaticMethodID(startClass, "main",
            "([Ljava/lang/String;)V");
        if (startMeth == NULL) {
            ALOGE("JavaVM unable to find main() in '%s'\n", className);
            /* keep going */
        } else {
            //调用main方法
            env->CallStaticVoidMethod(startClass, startMeth, strArray);

#if 0
            if (env->ExceptionCheck())
                threadExitUncaughtException(env);
#endif
        }
    }
    //...
}

ZygoteInit

main

在ZygoteInit的main方法中，主要做了四件事情：

注册一个Socket
预加载各种资源
启动SystemServer
进入循环，等待AMS请求创建新的进程

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//frameworks/base/core/java/com/android/internal/os/ZygoteInit.java
public static void main(String argv[]) {
    //...
    try {
        //...
        //注册一个Socket 
        registerZygoteSocket(socketName); 
        //...
        //预加载各种资源
        preload(); 
        //...
        //启动SystemServer
        if (startSystemServer) {
            startSystemServer(abiList, socketName);
        }
        Log.i(TAG, "Accepting command socket connections");
        //死循环
        runSelectLoop(abiList); 
        closeServerSocket();
    } catch (MethodAndArgsCaller caller) {
        caller.run();
    } catch (Throwable ex) {
        Log.e(TAG, "Zygote died with exception", ex);
        closeServerSocket();
        throw ex;
    }
}

registerZygoteSocket

registerZygoteSocket方法主要负责注册一个Socket。

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private static void registerZygoteSocket(String socketName) {
    if (sServerSocket == null) {
        int fileDesc;
        //拼接socket名字
        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);
             //创建Socket
            sServerSocket = new LocalServerSocket(fd);
        } catch (IOException ex) {
            throw new RuntimeException(
                    "Error binding to local socket '" + fileDesc + "'", ex);
        }
    }
}

startSystemServer

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private static boolean startSystemServer(String abiList, String socketName)
            throws MethodAndArgsCaller, RuntimeException {

    //创建数组，保存启动SystemServer的启动参数
    /* Hardcoded command line to start the system server */
    String args[] = {
        "--setuid=1000",
        "--setgid=1000",
        "--setgroups=1001,1002,1003,1004,1005,1006,1007,1008,1009,1010,1018,1021,1032,3001,3002,3003,3006,3007,3009,3010",
        "--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 */
      //fork一个新进程
        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);
        }
        //处理SystemServer
        handleSystemServerProcess(parsedArgs);
    }

    return true;
}

runSelectLoop

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//frameworks/base/core/java/com/android/internal/os/ZygoteInit.java
private static void runSelectLoop(String abiList) throws MethodAndArgsCaller {
    ArrayList<FileDescriptor> fds = new ArrayList<FileDescriptor>();
    ArrayList<ZygoteConnection> peers = new ArrayList<ZygoteConnection>();

    fds.add(sServerSocket.getFileDescriptor());
    peers.add(null);
    //无限循环等待AMS的请求
    while (true) {
        StructPollfd[] pollFds = new StructPollfd[fds.size()];
        for (int i = 0; i < pollFds.length; ++i) {
            pollFds[i] = new StructPollfd();
            pollFds[i].fd = fds.get(i);
            pollFds[i].events = (short) POLLIN;
        }
        try {
            Os.poll(pollFds, -1);
        } catch (ErrnoException ex) {
            throw new RuntimeException("poll failed", ex);
        }
        for (int i = pollFds.length - 1; i >= 0; --i) {
            if ((pollFds[i].revents & POLLIN) == 0) {
                continue;
            }
            if (i == 0) { 
                //有新的连接请求
                ZygoteConnection newPeer = acceptCommandPeer(abiList);
                peers.add(newPeer);
                fds.add(newPeer.getFileDesciptor());
            } else {
                //已建立的连接中有客户端发过来的数据需要处理
                boolean done = peers.get(i).runOnce();
                if (done) {
                    peers.remove(i);
                    fds.remove(i);
                }
            }
        }
    }
}

acceptCommandPeer

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private static ZygoteConnection acceptCommandPeer(String abiList) {
  try {
      return new ZygoteConnection(sServerSocket.accept(), abiList);
  } catch (IOException ex) {
      throw new RuntimeException(
              "IOException during accept()", ex);
  }
}

ZygoteConnection

构造函数

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//frameworks/base/core/java/com/android/internal/os/ZygoteConnection.java
ZygoteConnection(LocalSocket socket, String abiList) throws IOException {
      mSocket = socket;
      this.abiList = abiList;

      mSocketOutStream
              = new DataOutputStream(socket.getOutputStream());

      mSocketReader = new BufferedReader(
              new InputStreamReader(socket.getInputStream()), 256);

      mSocket.setSoTimeout(CONNECTION_TIMEOUT_MILLIS);
      try {
          peer = mSocket.getPeerCredentials();
      } catch (IOException ex) {
          Log.e(TAG, "Cannot read peer credentials", ex);
          throw ex;
      }
}

runOnce

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//frameworks/base/core/java/com/android/internal/os/ZygoteConnection.java
boolean runOnce() throws ZygoteInit.MethodAndArgsCaller {
    //...
    int pid = -1;
    FileDescriptor childPipeFd = null;
    FileDescriptor serverPipeFd = null;

    try {
        parsedArgs = new Arguments(args);

        if (parsedArgs.abiListQuery) {
            return handleAbiListQuery();
        }

        if (parsedArgs.permittedCapabilities != 0 || parsedArgs.effectiveCapabilities != 0) {
            throw new ZygoteSecurityException("Client may not specify capabilities: " +
                    "permitted=0x" + Long.toHexString(parsedArgs.permittedCapabilities) +
                    ", effective=0x" + Long.toHexString(parsedArgs.effectiveCapabilities));
        } 
        //...
        int [] fdsToClose = { -1, -1 };

        FileDescriptor fd = mSocket.getFileDescriptor();

        if (fd != null) {
            fdsToClose[0] = fd.getInt$();
        }

        fd = ZygoteInit.getServerSocketFileDescriptor();

        if (fd != null) {
            fdsToClose[1] = fd.getInt$();
        }

        fd = null;
        //创建应用程序进程 返回pid
        pid = Zygote.forkAndSpecialize(parsedArgs.uid, parsedArgs.gid, parsedArgs.gids,
                parsedArgs.debugFlags, rlimits, parsedArgs.mountExternal, parsedArgs.seInfo,
                parsedArgs.niceName, fdsToClose, parsedArgs.instructionSet,
                parsedArgs.appDataDir);
    } catch (ErrnoException ex) {
        logAndPrintError(newStderr, "Exception creating pipe", ex);
    } catch (IllegalArgumentException ex) {
        logAndPrintError(newStderr, "Invalid zygote arguments", ex);
    } catch (ZygoteSecurityException ex) {
        logAndPrintError(newStderr,
                "Zygote security policy prevents request: ", ex);
    }

    try {
        if (pid == 0) {
            // in child
            IoUtils.closeQuietly(serverPipeFd);
            serverPipeFd = null;
           //②
            handleChildProc(parsedArgs, descriptors, childPipeFd, newStderr);

            // should never get here, the child is expected to either
            // throw ZygoteInit.MethodAndArgsCaller or exec().
            return true;
        } else {
            // in parent...pid of < 0 means failure
            IoUtils.closeQuietly(childPipeFd);
            childPipeFd = null;
            return handleParentProc(pid, descriptors, serverPipeFd, parsedArgs);
        }
    } finally {
        IoUtils.closeQuietly(childPipeFd);
        IoUtils.closeQuietly(serverPipeFd);
    }
}

zygote需要为每个新启动的应用程序声称该自己独立的进程。不过runOnce并没有直接使用fork来完成这一工作，而是调用了forkAndSpecialize。另外，新创建的进程中一定需要运行工应用程序本身的代码，这一部分工作是在handleChildProc中展开的。

执行完上述的任务后，父进程还需要做一些清尾工作才算“大功告成”。包括：将子进程加入进程组；正确关闭文件；调用方返回结果值等。

readArgumentList

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private String[] readArgumentList()
        throws IOException {
    /**
     * See android.os.Process.zygoteSendArgsAndGetPid()
     * Presently the wire format to the zygote process is:
     * a) a count of arguments (argc, in essence)
     * b) a number of newline-separated argument strings equal to count
     *
     * After the zygote process reads these it will write the pid of
     * the child or -1 on failure.
     */

    int argc;

    try {
        String s = mSocketReader.readLine();

        if (s == null) {
            // EOF reached.
            return null;
        }
        argc = Integer.parseInt(s);
    } catch (NumberFormatException ex) {
        Log.e(TAG, "invalid Zygote wire format: non-int at argc");
        throw new IOException("invalid wire format");
    }

    // See bug 1092107: large argc can be used for a DOS attack
    if (argc > MAX_ZYGOTE_ARGC) {
        throw new IOException("max arg count exceeded");
    }

    String[] result = new String[argc];
    for (int i = 0; i < argc; i++) {
        result[i] = mSocketReader.readLine();
        if (result[i] == null) {
            // We got an unexpected EOF.
            throw new IOException("truncated request");
        }
    }

    return result;
}

Zygote

forkAndSpecialize

forkAndSpecialize的处理分为3个阶段，即preFork、nativeForkAndSpecialize以及postForkCommon。

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public static int forkAndSpecialize(int uid, int gid, int[] gids, int debugFlags,
          int[][] rlimits, int mountExternal, String seInfo, String niceName, int[] fdsToClose,
          String instructionSet, String appDataDir) {
    VM_HOOKS.preFork();
    int pid = nativeForkAndSpecialize(
              uid, gid, gids, debugFlags, rlimits, mountExternal, seInfo, niceName, fdsToClose,
              instructionSet, appDataDir);
    // Enable tracing as soon as possible for the child process.
    if (pid == 0) {
        Trace.setTracingEnabled(true);

        // Note that this event ends at the end of handleChildProc,
        Trace.traceBegin(Trace.TRACE_TAG_ACTIVITY_MANAGER, "PostFork");
    }
    VM_HOOKS.postForkCommon();
    return pid;
}

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//art/runtime/native/dalvik_system_ZygoteHooks.cc
static jlong ZygoteHooks_nativePreFork(JNIEnv* env, jclass) {
  Runtime* runtime = Runtime::Current();
  CHECK(runtime->IsZygote()) << "runtime instance not started with -Xzygote";

  runtime->PreZygoteFork();

  if (Trace::GetMethodTracingMode() != TracingMode::kTracingInactive) {
    // Tracing active, pause it.
    Trace::Pause();
  }

  // Grab thread before fork potentially makes Thread::pthread_key_self_ unusable.
  return reinterpret_cast<jlong>(ThreadForEnv(env));
}

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//frameworks/base/core/jni/com_android_internal_os_Zygote.cpp
static jint com_android_internal_os_Zygote_nativeForkAndSpecialize(
        JNIEnv* env, jclass, jint uid, jint gid, jintArray gids,
        jint debug_flags, jobjectArray rlimits,
        jint mount_external, jstring se_info, jstring se_name,
        jintArray fdsToClose, jstring instructionSet, jstring appDataDir) {
    jlong capabilities = 0;

    // Grant CAP_WAKE_ALARM to the Bluetooth process.
    // Additionally, allow bluetooth to open packet sockets so it can start the DHCP client.
    // TODO: consider making such functionality an RPC to netd.
    if (multiuser_get_app_id(uid) == AID_BLUETOOTH) {
      capabilities |= (1LL << CAP_WAKE_ALARM);
      capabilities |= (1LL << CAP_NET_RAW);
      capabilities |= (1LL << CAP_NET_BIND_SERVICE);
    }

    // Grant CAP_BLOCK_SUSPEND to processes that belong to GID "wakelock"
    bool gid_wakelock_found = false;
    if (gid == AID_WAKELOCK) {
      gid_wakelock_found = true;
    } else if (gids != NULL) {
      jsize gids_num = env->GetArrayLength(gids);
      ScopedIntArrayRO ar(env, gids);
      if (ar.get() == NULL) {
        RuntimeAbort(env, __LINE__, "Bad gids array");
      }
      for (int i = 0; i < gids_num; i++) {
        if (ar[i] == AID_WAKELOCK) {
          gid_wakelock_found = true;
          break;
        }
      }
    }
    if (gid_wakelock_found) {
      capabilities |= (1LL << CAP_BLOCK_SUSPEND);
    }

    return ForkAndSpecializeCommon(env, uid, gid, gids, debug_flags,
            rlimits, capabilities, capabilities, mount_external, se_info,
            se_name, false, fdsToClose, instructionSet, appDataDir);
}

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//frameworks/base/core/jni/com_android_internal_os_Zygote.cpp
// Utility routine to fork zygote and specialize the child process.
static pid_t ForkAndSpecializeCommon(JNIEnv* env, uid_t uid, gid_t gid, jintArray javaGids,
                                     jint debug_flags, jobjectArray javaRlimits,
                                     jlong permittedCapabilities, jlong effectiveCapabilities,
                                     jint mount_external,
                                     jstring java_se_info, jstring java_se_name,
                                     bool is_system_server, jintArray fdsToClose,
                                     jstring instructionSet, jstring dataDir) {
  SetSigChldHandler();

#ifdef ENABLE_SCHED_BOOST
  SetForkLoad(true);
#endif

  sigset_t sigchld;
  sigemptyset(&sigchld);
  sigaddset(&sigchld, SIGCHLD);

  // Temporarily block SIGCHLD during forks. The SIGCHLD handler might
  // log, which would result in the logging FDs we close being reopened.
  // This would cause failures because the FDs are not whitelisted.
  //
  // Note that the zygote process is single threaded at this point.
  if (sigprocmask(SIG_BLOCK, &sigchld, nullptr) == -1) {
    ALOGE("sigprocmask(SIG_SETMASK, { SIGCHLD }) failed: %s", strerror(errno));
    RuntimeAbort(env, __LINE__, "Call to sigprocmask(SIG_BLOCK, { SIGCHLD }) failed.");
  }

  // Close any logging related FDs before we start evaluating the list of
  // file descriptors.
  __android_log_close();

  // If this is the first fork for this zygote, create the open FD table.
  // If it isn't, we just need to check whether the list of open files has
  // changed (and it shouldn't in the normal case).
  if (gOpenFdTable == NULL) {
    gOpenFdTable = FileDescriptorTable::Create();
    if (gOpenFdTable == NULL) {
      RuntimeAbort(env, __LINE__, "Unable to construct file descriptor table.");
    }
  } else if (!gOpenFdTable->Restat()) {
    RuntimeAbort(env, __LINE__, "Unable to restat file descriptor table.");
  }

  pid_t pid = fork();//孵化出一个新进程

  if (pid == 0) {
    // The child process.
    gMallocLeakZygoteChild = 1;

    // Clean up any descriptors which must be closed immediately
    DetachDescriptors(env, fdsToClose);

    // Re-open all remaining open file descriptors so that they aren't shared
    // with the zygote across a fork.
    if (!gOpenFdTable->ReopenOrDetach()) {
      RuntimeAbort(env, __LINE__, "Unable to reopen whitelisted descriptors.");
    }

    if (sigprocmask(SIG_UNBLOCK, &sigchld, nullptr) == -1) {
      ALOGE("sigprocmask(SIG_SETMASK, { SIGCHLD }) failed: %s", strerror(errno));
      RuntimeAbort(env, __LINE__, "Call to sigprocmask(SIG_UNBLOCK, { SIGCHLD }) failed.");
    }

    // Keep capabilities across UID change, unless we're staying root.
    if (uid != 0) {
      EnableKeepCapabilities(env);
    }

    DropCapabilitiesBoundingSet(env);

    bool use_native_bridge = !is_system_server && (instructionSet != NULL)
        && android::NativeBridgeAvailable();
    if (use_native_bridge) {
      ScopedUtfChars isa_string(env, instructionSet);
      use_native_bridge = android::NeedsNativeBridge(isa_string.c_str());
    }
    if (use_native_bridge && dataDir == NULL) {
      // dataDir should never be null if we need to use a native bridge.
      // In general, dataDir will never be null for normal applications. It can only happen in
      // special cases (for isolated processes which are not associated with any app). These are
      // launched by the framework and should not be emulated anyway.
      use_native_bridge = false;
      ALOGW("Native bridge will not be used because dataDir == NULL.");
    }

    if (!MountEmulatedStorage(uid, mount_external, use_native_bridge)) {
      ALOGW("Failed to mount emulated storage: %s", strerror(errno));
      if (errno == ENOTCONN || errno == EROFS) {
        // When device is actively encrypting, we get ENOTCONN here
        // since FUSE was mounted before the framework restarted.
        // When encrypted device is booting, we get EROFS since
        // FUSE hasn't been created yet by init.
        // In either case, continue without external storage.
      } else {
        RuntimeAbort(env, __LINE__, "Cannot continue without emulated storage");
      }
    }

    if (!is_system_server) {
        int rc = createProcessGroup(uid, getpid());
        if (rc != 0) {
            if (rc == -EROFS) {
                ALOGW("createProcessGroup failed, kernel missing CONFIG_CGROUP_CPUACCT?");
            } else {
                ALOGE("createProcessGroup(%d, %d) failed: %s", uid, pid, strerror(-rc));
            }
        }
    }

    SetGids(env, javaGids);

    SetRLimits(env, javaRlimits);

    if (use_native_bridge) {
      ScopedUtfChars isa_string(env, instructionSet);
      ScopedUtfChars data_dir(env, dataDir);
      android::PreInitializeNativeBridge(data_dir.c_str(), isa_string.c_str());
    }

    int rc = setresgid(gid, gid, gid);
    if (rc == -1) {
      ALOGE("setresgid(%d) failed: %s", gid, strerror(errno));
      RuntimeAbort(env, __LINE__, "setresgid failed");
    }

    rc = setresuid(uid, uid, uid);
    if (rc == -1) {
      ALOGE("setresuid(%d) failed: %s", uid, strerror(errno));
      RuntimeAbort(env, __LINE__, "setresuid failed");
    }

    if (NeedsNoRandomizeWorkaround()) {
        // Work around ARM kernel ASLR lossage (http://b/5817320).
        int old_personality = personality(0xffffffff);
        int new_personality = personality(old_personality | ADDR_NO_RANDOMIZE);
        if (new_personality == -1) {
            ALOGW("personality(%d) failed: %s", new_personality, strerror(errno));
        }
    }

    SetCapabilities(env, permittedCapabilities, effectiveCapabilities);

    SetSchedulerPolicy(env);

    const char* se_info_c_str = NULL;
    ScopedUtfChars* se_info = NULL;
    if (java_se_info != NULL) {
        se_info = new ScopedUtfChars(env, java_se_info);
        se_info_c_str = se_info->c_str();
        if (se_info_c_str == NULL) {
          RuntimeAbort(env, __LINE__, "se_info_c_str == NULL");
        }
    }
    const char* se_name_c_str = NULL;
    ScopedUtfChars* se_name = NULL;
    if (java_se_name != NULL) {
        se_name = new ScopedUtfChars(env, java_se_name);
        se_name_c_str = se_name->c_str();
        if (se_name_c_str == NULL) {
          RuntimeAbort(env, __LINE__, "se_name_c_str == NULL");
        }
    }
    rc = selinux_android_setcontext(uid, is_system_server, se_info_c_str, se_name_c_str);
    if (rc == -1) {
      ALOGE("selinux_android_setcontext(%d, %d, \"%s\", \"%s\") failed", uid,
            is_system_server, se_info_c_str, se_name_c_str);
      RuntimeAbort(env, __LINE__, "selinux_android_setcontext failed");
    }

    // Make it easier to debug audit logs by setting the main thread's name to the
    // nice name rather than "app_process".
    if (se_info_c_str == NULL && is_system_server) {
      se_name_c_str = "system_server";
    }
    if (se_info_c_str != NULL) {
      SetThreadName(se_name_c_str);
    }

    delete se_info;
    delete se_name;

    UnsetSigChldHandler();

    env->CallStaticVoidMethod(gZygoteClass, gCallPostForkChildHooks, debug_flags,
                              is_system_server, instructionSet);
    if (env->ExceptionCheck()) {
      RuntimeAbort(env, __LINE__, "Error calling post fork hooks.");
    }
  } else if (pid > 0) {
    // the parent process

#ifdef ENABLE_SCHED_BOOST
    // unset scheduler knob
    SetForkLoad(false);
#endif

    // We blocked SIGCHLD prior to a fork, we unblock it here.
    if (sigprocmask(SIG_UNBLOCK, &sigchld, nullptr) == -1) {
      ALOGE("sigprocmask(SIG_SETMASK, { SIGCHLD }) failed: %s", strerror(errno));
      RuntimeAbort(env, __LINE__, "Call to sigprocmask(SIG_UNBLOCK, { SIGCHLD }) failed.");
    }
  }
  return pid;
}

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//frameworks/base/core/java/com/android/internal/os/ZygoteConnection.java
private void handleChildProc(Arguments parsedArgs,
        FileDescriptor[] descriptors, FileDescriptor pipeFd, PrintStream newStderr)
        throws ZygoteInit.MethodAndArgsCaller {
    /**
     * By the time we get here, the native code has closed the two actual Zygote
     * socket connections, and substituted /dev/null in their place.  The LocalSocket
     * objects still need to be closed properly.
     */

    closeSocket();
    ZygoteInit.closeServerSocket();

    if (descriptors != null) {
        try {
            Os.dup2(descriptors[0], STDIN_FILENO);
            Os.dup2(descriptors[1], STDOUT_FILENO);
            Os.dup2(descriptors[2], STDERR_FILENO);

            for (FileDescriptor fd: descriptors) {
                IoUtils.closeQuietly(fd);
            }
            newStderr = System.err;
        } catch (ErrnoException ex) {
            Log.e(TAG, "Error reopening stdio", ex);
        }
    }

    if (parsedArgs.niceName != null) { //子进程别名不为null
        Process.setArgV0(parsedArgs.niceName);
    }

    // End of the postFork event.
    Trace.traceEnd(Trace.TRACE_TAG_ACTIVITY_MANAGER);
    if (parsedArgs.invokeWith != null) {
        WrapperInit.execApplication(parsedArgs.invokeWith,
                parsedArgs.niceName, parsedArgs.targetSdkVersion,
                VMRuntime.getCurrentInstructionSet(),
                pipeFd, parsedArgs.remainingArgs);
    } else {
        RuntimeInit.zygoteInit(parsedArgs.targetSdkVersion,
                parsedArgs.remainingArgs, null /* classLoader */);
    }
}

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//frameworks/base/core/java/com/android/internal/os/ZygoteInit.java
private static void handleSystemServerProcess(
            ZygoteConnection.Arguments parsedArgs)
            throws ZygoteInit.MethodAndArgsCaller {

    closeServerSocket();

    // set umask to 0077 so new files and directories will default to owner-only permissions.
    Os.umask(S_IRWXG | S_IRWXO);

    if (parsedArgs.niceName != null) {
        Process.setArgV0(parsedArgs.niceName);
    }

    final String systemServerClasspath = Os.getenv("SYSTEMSERVERCLASSPATH");
    if (systemServerClasspath != null) {
        performSystemServerDexOpt(systemServerClasspath);
    }

    if (parsedArgs.invokeWith != null) {
        String[] args = parsedArgs.remainingArgs;
        // If we have a non-null system server class path, we'll have to duplicate the
        // existing arguments and append the classpath to it. ART will handle the classpath
        // correctly when we exec a new process.
        if (systemServerClasspath != null) {
            String[] amendedArgs = new String[args.length + 2];
            amendedArgs[0] = "-cp";
            amendedArgs[1] = systemServerClasspath;
            System.arraycopy(parsedArgs.remainingArgs, 0, amendedArgs, 2, parsedArgs.remainingArgs.length);
        }

        WrapperInit.execApplication(parsedArgs.invokeWith,
                parsedArgs.niceName, parsedArgs.targetSdkVersion,
                VMRuntime.getCurrentInstructionSet(), null, args);
    } else {
        ClassLoader cl = null;
        if (systemServerClasspath != null) {
            cl = createSystemServerClassLoader(systemServerClasspath,
                                               parsedArgs.targetSdkVersion);

            Thread.currentThread().setContextClassLoader(cl);
        }

        /*
         * Pass the remaining arguments to SystemServer.
         */
        RuntimeInit.zygoteInit(parsedArgs.targetSdkVersion, parsedArgs.remainingArgs, cl);
    }

    /* should never reach here */
}

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//frameworks/base/core/java/com/android/internal/os/RuntimeInit.java
public static final void zygoteInit(int targetSdkVersion, String[] argv, ClassLoader classLoader)
            throws ZygoteInit.MethodAndArgsCaller {
    if (DEBUG) Slog.d(TAG, "RuntimeInit: Starting application from zygote");

    Trace.traceBegin(Trace.TRACE_TAG_ACTIVITY_MANAGER, "RuntimeInit");
    redirectLogStreams();

    commonInit();
    nativeZygoteInit();
    applicationInit(targetSdkVersion, argv, classLoader);//调用SystemServer的main方法
}

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private static void applicationInit(int targetSdkVersion, String[] argv, ClassLoader classLoader)
            throws ZygoteInit.MethodAndArgsCaller {
        // If the application calls System.exit(), terminate the process
        // immediately without running any shutdown hooks.  It is not possible to
        // shutdown an Android application gracefully.  Among other things, the
        // Android runtime shutdown hooks close the Binder driver, which can cause
        // leftover running threads to crash before the process actually exits.
        nativeSetExitWithoutCleanup(true);

        // We want to be fairly aggressive about heap utilization, to avoid
        // holding on to a lot of memory that isn't needed.
        VMRuntime.getRuntime().setTargetHeapUtilization(0.75f);
        VMRuntime.getRuntime().setTargetSdkVersion(targetSdkVersion);

        final Arguments args;
        try {
            args = new Arguments(argv);
        } catch (IllegalArgumentException ex) {
            Slog.e(TAG, ex.getMessage());
            // let the process exit
            return;
        }

        // The end of of the RuntimeInit event (see #zygoteInit).
        Trace.traceEnd(Trace.TRACE_TAG_ACTIVITY_MANAGER);

        // Remaining arguments are passed to the start class's static main
        invokeStaticMain(args.startClass, args.startArgs, classLoader);
}

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private static void invokeStaticMain(String className, String[] argv, ClassLoader classLoader)
            throws ZygoteInit.MethodAndArgsCaller {
    Class<?> cl;

    try {
        cl = Class.forName(className, true, classLoader);
    } catch (ClassNotFoundException ex) {
        throw new RuntimeException(
                "Missing class when invoking static main " + className,
                ex);
    }

    Method m;
    try {
        m = cl.getMethod("main", new Class[] { String[].class });
    } catch (NoSuchMethodException ex) {
        throw new RuntimeException(
                "Missing static main on " + className, ex);
    } catch (SecurityException ex) {
        throw new RuntimeException(
                "Problem getting static main on " + className, ex);
    }

    int modifiers = m.getModifiers();
    if (! (Modifier.isStatic(modifiers) && Modifier.isPublic(modifiers))) {
        throw new RuntimeException(
                "Main method is not public and static on " + className);
    }

    /*
     * This throw gets caught in ZygoteInit.main(), which responds
     * by invoking the exception's run() method. This arrangement
     * clears up all the stack frames that were required in setting
     * up the process.
     */
    throw new ZygoteInit.MethodAndArgsCaller(m, argv);
}