作为开发人员,会用别人的框架是远远不够的,我们可以学习别人的设计思想、实验原理,积累知识,才能不断提升自己。今天这一章主要给大家介绍Tinker补丁流程,深入到代码中去探索Tinker。
补丁流程
在文章[Android热补丁方案][7]中介绍了Tinker的原理框架,那里只是简单介绍一下Tinker框架的补丁流程,这里我重新整理了一份Tinker补丁流程:
上面的流程图中,已经把Tinker的补丁流程和集成Tinker需要注意的逻辑都已经表示的很清楚了。需要注意的地方就是需要开发者自己编写下载过程,然后调用Tinker的Api传入补丁,以及补丁成功后重启应用的逻辑,这个开发者需要结合自己项目的需求来制定,我自己项目里面是通过熄屏监听来杀掉应用进程,进行重启。
在合成补丁流程中,总结了以下几点最重要的部分:
- 安全校验: 无论在补丁合成还是加载,我们都需要有必要的安全校验。
- 版本管理: Tinker 支持补丁升级,甚至是多个补丁不停的切换。这里我们需要保证所有进程版本的一致性;
- 补丁加载: 如果通过反射系统加载我们合成好的 dex,so 与资源;
- 补丁合成: 这些都在单独的 patch 进程工作,这里包括 dex,so 还有资源,主要完成补丁包的合成以及升级;
- 监控回调: 在合成与加载过程中,出现问题及时回调;
经过源码分析,总结出了以下Tinker补丁流程图(上图虚线部分):
以上图片中,标出了加载流程以及它实现的类和方法,本章也是主要着重这个流程分析。
源码跟踪
###一、收到补丁
当补丁下载完成后,即调用下面的函数开始补丁:
/**
* new patch file to install, try install them with :patch process
*
* @param context
* @param patchLocation
*/
public static void onReceiveUpgradePatch(Context context, String patchLocation) {
Tinker.with(context).getPatchListener().onPatchReceived(patchLocation, true);
}
此时的Tinker已经被初始化,在ApplicationLike中调用:
TinkerManager.installTinker(this);
初始化的函数:
/**
* install tinker with custom config, you must install tinker before you use their api
* or you can just use {@link TinkerApplicationHelper}'s api
*
* @param applicationLike
* @param loadReporter
* @param patchReporter
* @param listener
* @param resultServiceClass
* @param upgradePatchProcessor
* @param repairPatchProcessor
*/
public static void install(ApplicationLike applicationLike, LoadReporter loadReporter, PatchReporter patchReporter,
PatchListener listener, Class<? extends AbstractResultService> resultServiceClass,
AbstractPatch upgradePatchProcessor, AbstractPatch repairPatchProcessor) {
Tinker tinker = new Tinker.Builder(applicationLike.getApplication())
.tinkerFlags(applicationLike.getTinkerFlags())
.loadReport(loadReporter)
.listener(listener)
.patchReporter(patchReporter)
.tinkerLoadVerifyFlag(applicationLike.getTinkerLoadVerifyFlag()).build();
Tinker.create(tinker);
tinker.install(applicationLike.getTinkerResultIntent(), resultServiceClass, upgradePatchProcessor, repairPatchProcessor);
}
传入的参数有:
- ApplicationLike:应用的代理application
- LoadReporter:加载合成的包的报告类
- PatchReporter:打修复包过程中的报告类
- PatchListener:对修复包最开始的检查
- ResultService:从合成进程取合成结果监听
- UpgradePatchProcessor:生成一个新的patch合成包
- ReparePatchProcessor:修复上一次合成失败的修复包
看一下Tinker中核心的install方法:
/**
* you must install tinker first!!
*
* @param intentResult
* @param serviceClass
* @param upgradePatch
* @param repairPatch
*/
public void install(Intent intentResult, Class<? extends AbstractResultService> serviceClass,
AbstractPatch upgradePatch, AbstractPatch repairPatch) {
sInstalled = true;
AbstractResultService.setResultServiceClass(serviceClass);
TinkerPatchService.setPatchProcessor(upgradePatch, repairPatch);
if (!isTinkerEnabled()) {
TinkerLog.e(TAG, "tinker is disabled");
return;
}
if (intentResult == null) {
throw new TinkerRuntimeException("intentResult must not be null.");
}
tinkerLoadResult = new TinkerLoadResult();
tinkerLoadResult.parseTinkerResult(getContext(), intentResult);
//after load code set
loadReporter.onLoadResult(patchDirectory, tinkerLoadResult.loadCode, tinkerLoadResult.costTime);
if (!loaded) {
TinkerLog.w(TAG, "tinker load fail!");
}
}
主要做了以下的工作:
- 设置自定义的ResultService
- 设置自定义的UpgradePatch和ReparePatch
- 创建TinkerLoadResult调用parseTinkerResult(Context context, Intent intentResult)解析上次合成之后的信息:花费时间,返回值等。
- 调用LoaderReporter的onLoadResult方法,通知,加载结果。
二、补丁校验
准备工作都做完了,下面就是校验补丁包操作了。
调用第一步中的收到补丁函数,则PatchListener接收到补丁包:
/**
* when we receive a patch, what would we do?
* you can overwrite it
*
* @param path
* @param isUpgrade
* @return
*/
@Override
public int onPatchReceived(String path, boolean isUpgrade) {
int returnCode = patchCheck(path, isUpgrade);
if (returnCode == ShareConstants.ERROR_PATCH_OK) {
TinkerPatchService.runPatchService(context, path, isUpgrade);
} else {
Tinker.with(context).getLoadReporter().onLoadPatchListenerReceiveFail(new
File(path), returnCode, isUpgrade);
}
return returnCode;
}
DefaultPatchListener的onPatchReceived方法:
- 对补丁包进行检查;
- 如果修复包校验通过,则开启一个单独的进程合成全量包;
- 如果修复包不完整或者有其它问题,则调用LoadReporter的onLoadPatchListenerReceiveFail(File patchFile, int errorCode, boolean isUpgrade)方法通知,并将原有赋予errorCode传达,这里跟我上面总结的流程分析图中一样。
下面我们来看下上述的对补丁的具体校验:
protected int patchCheck(String path, boolean isUpgrade) {
Tinker manager = Tinker.with(context);
//check SharePreferences also
if (!manager.isTinkerEnabled() ||
!ShareTinkerInternals.isTinkerEnableWithSharedPreferences(context)) {
return ShareConstants.ERROR_PATCH_DISABLE;
}
File file = new File(path);
if (!file.isFile() || !file.exists() || file.length() == 0) {
return ShareConstants.ERROR_PATCH_NOTEXIST;
}
//patch service can not send request
if (manager.isPatchProcess()) {
return ShareConstants.ERROR_PATCH_INSERVICE;
}
//if the patch service is running, pending
if (TinkerServiceInternals.isTinkerPatchServiceRunning(context)) {
return ShareConstants.ERROR_PATCH_RUNNING;
}
return ShareConstants.ERROR_PATCH_OK;
}
这个是DefaultPatchListener的patchCheck方法,这里主要做了四件事:
- 检查Tinker开关是否开启,需要打开
- 检查Patch文件是否存在,需要存在
- 检查是否是合成进程的操作,需要否
- 检查合成进程是否正在执行,需要否
这里的合成进程指的是TinkerPatchService,这个需要检查校验完后才能去启动一个单独的进程去合成补丁。
除了DefaultPatchListener,我们还可以在SimplePatchListener中自定义一些补丁校验,官方Demo中还检查了以下方面:
- 检查Rom空间
- 检查Crash次数
- 检查新旧补丁PatchVersion
- 检查补丁Patch条件是否符合
经过所有的检查,当返回ERROR_PATCH_OK时才会去开启合成进程;若不是则通过LoadReporter的onLoadPatchListenerReceiveFail(File patchFile, int errorCode, boolean isUpgrade)方法通知,并将原有赋予errorCode传达。
###三、补丁加载
当检查OK后,即开启
public static void runPatchService(Context context, String path, boolean isUpgradePatch) {
Intent intent = new Intent(context, TinkerPatchService.class);
intent.putExtra(PATCH_PATH_EXTRA, path);
intent.putExtra(PATCH_NEW_EXTRA, isUpgradePatch);
context.startService(intent);
}
在TinkerPatchService中开启合成进程的服务。它是一个IntentSerivce,是在单独的线程中进行的操作。下面来看一下onHandleIntent中的操作。
protected void onHandleIntent(Intent intent) {
final Context context = getApplicationContext();
Tinker tinker = Tinker.with(context);
tinker.getPatchReporter().onPatchServiceStart(intent);
if (intent == null) {
TinkerLog.e(TAG, "TinkerPatchService received a null intent, ignoring.");
return;
}
String path = getPatchPathExtra(intent);
if (path == null) {
TinkerLog.e(TAG, "TinkerPatchService can't get the path extra, ignoring.");
return;
}
File patchFile = new File(path);
boolean isUpgradePatch = getPatchUpgradeExtra(intent);
long begin = SystemClock.elapsedRealtime();
boolean result;
long cost;
Throwable e = null;
increasingPriority();
PatchResult patchResult = new PatchResult();
try {
if (isUpgradePatch) {
if (upgradePatchProcessor == null) {
throw new TinkerRuntimeException("upgradePatchProcessor is null.");
}
result = upgradePatchProcessor.tryPatch(context, path, patchResult);
} else {
//just recover from exist patch
if (repairPatchProcessor == null) {
throw new TinkerRuntimeException("upgradePatchProcessor is null.");
}
result = repairPatchProcessor.tryPatch(context, path, patchResult);
}
} catch (Throwable throwable) {
e = throwable;
result = false;
tinker.getPatchReporter().onPatchException(patchFile, e, isUpgradePatch);
}
cost = SystemClock.elapsedRealtime() - begin;
tinker.getPatchReporter().
onPatchResult(patchFile, result, cost, isUpgradePatch);
patchResult.isSuccess = result;
patchResult.isUpgradePatch = isUpgradePatch;
patchResult.rawPatchFilePath = path;
patchResult.costTime = cost;
patchResult.e = e;
AbstractResultService.runResultService(context, patchResult);
}
这里主要有几个操作:
- 调用PatchRepoter的onPatchServiceStart(intent),表示合成Patch的Service开启,用户可以自定义一些标记,用于跟踪合成进程;
- 调用increasingPriority()方法,让服务置于前台服务;
- 第一,startForeground(notificationId, notification); 这个方法,可以让后台服务置于前台,就像音乐播放器的,播放服务一样,不会被系统杀死。
- 第二,开启一个InnerService降低被杀死的概率。
- 调用tryPatch(context, path, patchResult)方法来执行合并操作,并将结果返回,具体的下面再分析这个合成方法,如果两个AbstractPatch为空,则会捕获异常。并且调用PatchReporter的onPatchException来通知。
- 修复成功后调用PatchReporter的onPatchResult()来通知,有花费时间等信息。
- 调用AbstactResultService的runResultService(Context context, PatchResult result)方法。也是在TinkerInstaller的Install的时候赋值。也是一个IntentService。这个Service会将补丁合成进程返回的结果返回给主进程,在单独的线程中执行。onHandleIntent中只是回调了runResultService(Context context, PatchResult result)方法。通过IntentService完成了进程间的通信。
最后我们先来预览一下合成方法:
public boolean tryPatch(Context context, String tempPatchPath, PatchResult patchResult) {
Tinker manager = Tinker.with(context);
final File patchFile = new File(tempPatchPath);
if (!manager.isTinkerEnabled() || !ShareTinkerInternals.isTinkerEnableWithSharedPreferences(context)) {
TinkerLog.e(TAG, "UpgradePatch tryPatch:patch is disabled, just return");
return false;
}
if (!patchFile.isFile() || !patchFile.exists()) {
TinkerLog.e(TAG, "UpgradePatch tryPatch:patch file is not found, just return");
return false;
}
//check the signature, we should create a new checker
ShareSecurityCheck signatureCheck = new ShareSecurityCheck(context);
int returnCode = ShareTinkerInternals.checkTinkerPackage(context, manager.getTinkerFlags(), patchFile, signatureCheck);
if (returnCode != ShareConstants.ERROR_PACKAGE_CHECK_OK) {
TinkerLog.e(TAG, "UpgradePatch tryPatch:onPatchPackageCheckFail");
manager.getPatchReporter().onPatchPackageCheckFail(patchFile, true, returnCode);
return false;
}
patchResult.patchTinkerID = signatureCheck.getNewTinkerID();
patchResult.baseTinkerID = signatureCheck.getTinkerID();
//it is a new patch, so we should not find a exist
SharePatchInfo oldInfo = manager.getTinkerLoadResultIfPresent().patchInfo;
String patchMd5 = SharePatchFileUtil.getMD5(patchFile);
if (patchMd5 == null) {
TinkerLog.e(TAG, "UpgradePatch tryPatch:patch md5 is null, just return");
return false;
}
//use md5 as version
patchResult.patchVersion = patchMd5;
SharePatchInfo newInfo;
//already have patch
if (oldInfo != null) {
if (oldInfo.oldVersion == null || oldInfo.newVersion == null) {
TinkerLog.e(TAG, "UpgradePatch tryPatch:onPatchInfoCorrupted");
manager.getPatchReporter().onPatchInfoCorrupted(patchFile, oldInfo.oldVersion, oldInfo.newVersion, true);
return false;
}
if (oldInfo.oldVersion.equals(patchMd5) || oldInfo.newVersion.equals(patchMd5)) {
TinkerLog.e(TAG, "UpgradePatch tryPatch:onPatchVersionCheckFail");
manager.getPatchReporter().onPatchVersionCheckFail(patchFile, oldInfo, patchMd5, true);
return false;
}
newInfo = new SharePatchInfo(oldInfo.oldVersion, patchMd5);
} else {
newInfo = new SharePatchInfo("", patchMd5);
}
//check ok, we can real recover a new patch
final String patchDirectory = manager.getPatchDirectory().getAbsolutePath();
TinkerLog.i(TAG, "UpgradePatch tryPatch:dexDiffMd5:%s", patchMd5);
final String patchName = SharePatchFileUtil.getPatchVersionDirectory(patchMd5);
final String patchVersionDirectory = patchDirectory + "/" + patchName;
TinkerLog.i(TAG, "UpgradePatch tryPatch:patchVersionDirectory:%s", patchVersionDirectory);
//it is a new patch, we first delete if there is any files
//don't delete dir for faster retry
//SharePatchFileUtil.deleteDir(patchVersionDirectory);
//copy file
File destPatchFile = new File(patchVersionDirectory + "/" + SharePatchFileUtil.getPatchVersionFile(patchMd5));
try {
SharePatchFileUtil.copyFileUsingStream(patchFile, destPatchFile);
TinkerLog.w(TAG, "UpgradePatch after %s size:%d, %s size:%d", patchFile.getAbsolutePath(), patchFile.length(),
destPatchFile.getAbsolutePath(), destPatchFile.length());
} catch (IOException e) {
//e.printStackTrace();
TinkerLog.e(TAG, "UpgradePatch tryPatch:copy patch file fail from %s to %s", patchFile.getPath(), destPatchFile.getPath());
manager.getPatchReporter().onPatchTypeExtractFail(patchFile, destPatchFile, patchFile.getName(), ShareConstants.TYPE_PATCH_FILE, true);
return false;
}
//we use destPatchFile instead of patchFile, because patchFile may be deleted during the patch process
if (!DexDiffPatchInternal.tryRecoverDexFiles(manager, signatureCheck, context, patchVersionDirectory, destPatchFile, true)) {
TinkerLog.e(TAG, "UpgradePatch tryPatch:new patch recover, try patch dex failed");
return false;
}
if (!BsDiffPatchInternal.tryRecoverLibraryFiles(manager, signatureCheck, context, patchVersionDirectory, destPatchFile, true)) {
TinkerLog.e(TAG, "UpgradePatch tryPatch:new patch recover, try patch library failed");
return false;
}
if (!ResDiffPatchInternal.tryRecoverResourceFiles(manager, signatureCheck, context, patchVersionDirectory, destPatchFile, true)) {
TinkerLog.e(TAG, "UpgradePatch tryPatch:new patch recover, try patch resource failed");
return false;
}
final File patchInfoFile = manager.getPatchInfoFile();
if (!SharePatchInfo.rewritePatchInfoFileWithLock(patchInfoFile, newInfo, SharePatchFileUtil.getPatchInfoLockFile(patchDirectory))) {
TinkerLog.e(TAG, "UpgradePatch tryPatch:new patch recover, rewrite patch info failed");
manager.getPatchReporter().onPatchInfoCorrupted(patchFile, newInfo.oldVersion, newInfo.newVersion, true);
return false;
}
TinkerLog.w(TAG, "UpgradePatch tryPatch: done, it is ok");
return true;
}
看到这么长的方法是不是很慌,不要慌,Tinker开发者写代码非常有条理性,从前面的代码分析中可以发现了,好了,下面来分析一下这段代码:
- 首先,还是常规的Tinker开关和Patch文件检查,随后ShareTinkerInternals的静态方法checkTinkerPackage(Context context, int tinkerFlag,File patchFile, ShareSecurityCheck securityCheck)传入了ShareSecurityCheck,主要做了一下检查操作,如果检查失败通过PatchReporter抛出onPatchPackageCheckFail:
- 签名检查,ShareSecurityCheck是检查签名的类,里面封装了签名检查的方法;
- TinkerId检查
- 检查Tinker开关类型,dex、resource、libriry 的支持性。
- SharePatchInfo,存储了修复包的版本信息,有oldVersion和newVersion,newVersion使用的是修复包的md5值。
- oldInfo何时会存在呢?加载成功过一次,也修复成功了,再次执行合成的时候,如果下载的包还是之前的包,则会报告onPatchVersionCheckFail。如果是新的修复包,则会把 oldVersion赋值给 SharePatchInfo(String oldVer, String newVew)中的ondVersion。到此为止,所有的检查已经完成。
- 拷贝修复包到data/data目录,从下载目录文件通过流读出写入data/data目录。
- DexDiff合成dex、BsDiff合成library、ResDiff合成res。
- 拷贝SharePatchInfo到PatchInfoFile中,PatchInfoFile在TinkerInstaller的install方法中初始化。
到这里,整个Tinker修复的流程已经走完,虽然感觉很复杂,但是条理很清晰,安全措施很齐全,也提现了Tinker的稳定性,最后合成补丁到下一篇研究。