在《MonkeyRunner源码分析之与Android设备通讯方式》中,我们谈及到MonkeyRunner控制目标android设备有多种方法,其中之一就是在目标机器启动一个monkey服务来监听指定的一个端口,然后monkeyrunner再连接上这个端口来发送命令,驱动monkey去完成相应的工作。
当时我们只分析了monkeyrunner这个客户端的代码是怎么实现这一点的,但没有谈monkey那边是如何接受命令,接受到命令又是如何处理的。
所以自己打开源码看了一个晚上,大概有了概念。但今天网上搜索了下,发现已经有网友“chenjie”对monkey的源码做过相应的分析了,而且文章写得非常有概括性,应该是高手所为,果断花了2个积分下载下来,不敢独享,本想贴上来分享给大家,但发现pdf的文档直接拷贝上来会丢失掉图片,所以只好贴上下载地址:http://download.csdn.net/download/zqilu/6884491
但文章主要是架构性得去描述monkey是怎么工作的,按照我自己的习惯,我还是喜欢按照自己的思维和有目的性的去了解我想要的,在这里我想要的是搞清楚monkey是如何处理monkeyrunner过来的命令的。
本文我们就先看下monkey的运行流程。
base=/system export CLASSPATH=$base/framework/monkey.jar trap "" HUP exec app_process $base/bin com.android.commands.monkey.Monkey $*android中可以通过多种方式启动java应用,通过app_process命令启动就是其中一种,它可以帮忙注册android JNI,而绕过dalvik以使用Native API(如我般不清楚的请百度)所做的主要事情如下:
/**
* Command-line entry point.
*
* @param args The command-line arguments
*/
public static void main(String[] args) {
// Set the process name showing in "ps" or "top"
Process.setArgV0("com.android.commands.monkey");
int resultCode = (new Monkey()).run(args);
System.exit(resultCode);
}
private int run(String[] args) {
...
if (!processOptions()) {
return -1;
}
...
}进去之后就是很普通的读取命令行的参数然后一个个进行解析保存了,没有太多特别的东西,这里就直接贴出monkey的参数选项大家看看就好了:
private int run(String[] args) {
...
if (mScriptFileNames != null && mScriptFileNames.size() == 1) {
// script mode, ignore other options
mEventSource = new MonkeySourceScript(mRandom, mScriptFileNames.get(0), mThrottle,
mRandomizeThrottle, mProfileWaitTime, mDeviceSleepTime);
mEventSource.setVerbose(mVerbose);
mCountEvents = false;
} else if (mScriptFileNames != null && mScriptFileNames.size() > 1) {
if (mSetupFileName != null) {
mEventSource = new MonkeySourceRandomScript(mSetupFileName,
mScriptFileNames, mThrottle, mRandomizeThrottle, mRandom,
mProfileWaitTime, mDeviceSleepTime, mRandomizeScript);
mCount++;
} else {
mEventSource = new MonkeySourceRandomScript(mScriptFileNames,
mThrottle, mRandomizeThrottle, mRandom,
mProfileWaitTime, mDeviceSleepTime, mRandomizeScript);
}
mEventSource.setVerbose(mVerbose);
mCountEvents = false;
} else if (mServerPort != -1) {
try {
mEventSource = new MonkeySourceNetwork(mServerPort);
} catch (IOException e) {
System.out.println("Error binding to network socket.");
return -5;
}
mCount = Integer.MAX_VALUE;
} else {
// random source by default
if (mVerbose >= 2) { // check seeding performance
System.out.println("// Seeded: " + mSeed);
}
mEventSource = new MonkeySourceRandom(mRandom, mMainApps, mThrottle, mRandomizeThrottle);
mEventSource.setVerbose(mVerbose);
// set any of the factors that has been set
for (int i = 0; i < MonkeySourceRandom.FACTORZ_COUNT; i++) {
if (mFactors[i] <= 0.0f) {
((MonkeySourceRandom) mEventSource).setFactors(i, mFactors[i]);
}
}
// in random mode, we start with a random activity
((MonkeySourceRandom) mEventSource).generateActivity();
}
...
mNetworkMonitor.start();
int crashedAtCycle = runMonkeyCycles();
mNetworkMonitor.stop();
...
}事件源代表测试数据的事件是从哪里过来的,不同的event source会有不同的类来做相应的实现: private int run(String[] args) {
...
int crashedAtCycle = runMonkeyCycles();
...
}如前所述,runMonkeyCyles方法会根据不同的数据源开始一条条的获取事件并进行执行: /**
* Run mCount cycles and see if we hit any crashers.
* <p>
* TODO: Meta state on keys
*
* @return Returns the last cycle which executed. If the value == mCount, no
* errors detected.
*/
private int runMonkeyCycles() {
int eventCounter = 0;
int cycleCounter = 0;
boolean shouldReportAnrTraces = false;
boolean shouldReportDumpsysMemInfo = false;
boolean shouldAbort = false;
boolean systemCrashed = false;
// TO DO : The count should apply to each of the script file.
while (!systemCrashed && cycleCounter < mCount) {
...
MonkeyEvent ev = mEventSource.getNextEvent();
if (ev != null) {
int injectCode = ev.injectEvent(mWm, mAm, mVerbose);
...
}
...
}
....
}注意这里的mEventSource就是我们上面提到的事件源的接口,它屏蔽了每个事件实现类的具体细节,我们只需要告诉这个接口我们现在需要取一条事件然后执行它,该结构根据面向对象的多态原理,就会自动取事件的实现类获得对应的事件进行返回。原文地址:http://blog.csdn.net/zhubaitian/article/details/40395327
