前言
关于先参考java的类加载器
https://www.jianshu.com/p/71949a006ae9
android的类加载器有两种
Android系统中有两个类加载器分别为PathClassLoader和DexclassLoader。
PathClassLoader和DexClassLoader都是继承与BaseDexClassLoader
BaseDexClassLoader继承与ClassLoader。
android的两个类加载器有什么区别吗
我们知道要想自定义加载器首先需要重写findClass方法
ClassLoader:
protected Class<?> loadClass(String className, boolean resolve) throws ClassNotFoundException {
Class<?> clazz = findLoadedClass(className);
if (clazz == null) {
ClassNotFoundException suppressed = null;
try {
clazz = parent.loadClass(className, false);
} catch (ClassNotFoundException e) {
suppressed = e;
}
if (clazz == null) {
try {
clazz = findClass(className);
} catch (ClassNotFoundException e) {
e.addSuppressed(suppressed);
throw e;
}
}
}
return clazz;
}
protected Class<?> findClass(String className) throws ClassNotFoundException {
throw new ClassNotFoundException(className);
}
可以看到会先从虚拟机里面找是否类已经被加载,如果没有,则从findClass中找,ClassLoader 屏蔽了findClass
BaseDexClassLoader里的findClass
@Override
protected Class<?> findClass(String name) throws ClassNotFoundException {
List<Throwable> suppressedExceptions = new ArrayList<Throwable>();
Class c = pathList.findClass(name, suppressedExceptions);
if (c == null) {
ClassNotFoundException cnfe = new ClassNotFoundException("Didn't find class \"" + name + "\" on path: " + pathList);
for (Throwable t : suppressedExceptions) {
cnfe.addSuppressed(t);
}
throw cnfe;
}
return c;
}
可以看到这里调用了pathList的findClass
public Class findClass(String name, List<Throwable> suppressed) {
for (Element element : dexElements) {
DexFile dex = element.dexFile;
if (dex != null) {
Class clazz = dex.loadClassBinaryName(name, definingContext, suppressed);
if (clazz != null) {
return clazz;
}
}
}
if (dexElementsSuppressedExceptions != null) {
suppressed.addAll(Arrays.asList(dexElementsSuppressedExceptions));
}
return null;
}
好了,暂时分析到这里,回到正题,咱们来看一下PathClassLoader和DexClassLoader的不同
PathClassLoader:
public class PathClassLoader extends BaseDexClassLoader {
public PathClassLoader(String dexPath, java.lang.ClassLoader parent) {
super(dexPath, null, null, parent);
}
public PathClassLoader(String dexPath, String libraryPath,
java.lang.ClassLoader parent) {
super(dexPath, null, libraryPath, parent);
}
}
PathClassLoader重写了两个构造方法,并没有进行其他额外的操作
DexClassLoader:
public class DexClassLoader extends BaseDexClassLoader {
public DexClassLoader(String dexPath, String optimizedDirectory,
String libraryPath, ClassLoader parent) {
super(dexPath, new File(optimizedDirectory), libraryPath, parent);
}
}
可以看出 PathClassLoader和DexClassLoader的区别就在于构造函数中optimizedDirectory这个参数。PathClassLoader中optimizedDirectory为null,DexClassLoader中为new File(optimizedDirectory)。
回到BaseDexClassLoader的构造函数
public BaseDexClassLoader(String dexPath, File optimizedDirectory,
String libraryPath, ClassLoader parent) {
super(parent);
this.pathList = new DexPathList(this, dexPath, libraryPath, optimizedDirectory);
}
dexPath:指定的是dex文件地址,多个地址可以用":"进行分隔
optimizedDirectory:制定输出dex优化后的odex文件,可以为null
libraryPath:动态库路径(将被添加到app动态库搜索路径列表中)
parent:制定父类加载器,以保证双亲委派机制从而实现每个类只加载一次。
DexPathList的构造方法
public DexPathList(java.lang.ClassLoader definingContext, String dexPath,
String libraryPath, File optimizedDirectory) {
if (definingContext == null) {
throw new NullPointerException("definingContext == null");
}
if (dexPath == null) {
throw new NullPointerException("dexPath == null");
}
if (optimizedDirectory != null) {
if (!optimizedDirectory.exists()) {
throw new IllegalArgumentException(
"optimizedDirectory doesn't exist: "
+ optimizedDirectory);
}
if (!(optimizedDirectory.canRead()
&& optimizedDirectory.canWrite())) {
throw new IllegalArgumentException(
"optimizedDirectory not readable/writable: "
+ optimizedDirectory);
}
}
this.definingContext = definingContext;
ArrayList<IOException> suppressedExceptions = new ArrayList<IOException>();
// save dexPath for BaseDexClassLoader
this.dexElements = makePathElements(splitDexPath(dexPath), optimizedDirectory,
suppressedExceptions);
// This order was reversed prior to Gingerbread; see http://b/2933456.
this.nativeLibraryDirectories = splitPaths(libraryPath, false);
this.systemNativeLibraryDirectories =
splitPaths(System.getProperty("java.library.path"), true);
List<File> allNativeLibraryDirectories = new ArrayList<>(nativeLibraryDirectories);
allNativeLibraryDirectories.addAll(systemNativeLibraryDirectories);
this.nativeLibraryPathElements = makePathElements(allNativeLibraryDirectories, null,
suppressedExceptions);
if (suppressedExceptions.size() > 0) {
this.dexElementsSuppressedExceptions =
suppressedExceptions.toArray(new IOException[suppressedExceptions.size()]);
} else {
dexElementsSuppressedExceptions = null;
}
}
最终会跳到makePathElements,这个方法最终返回一个Element数组
private static Element[] makePathElements(List<File> files, File optimizedDirectory,
List<IOException> suppressedExceptions) {
List<Element> elements = new ArrayList<>();
/*
* Open all files and load the (direct or contained) dex files
* up front.
*/
for (File file : files) {
File zip = null;
File dir = new File("");
DexFile dex = null;
String path = file.getPath();
String name = file.getName();
if (path.contains(zipSeparator)) {
String split[] = path.split(zipSeparator, 2);
zip = new File(split[0]);
dir = new File(split[1]);
} else if (file.isDirectory()) {
// We support directories for looking up resources and native libraries.
// Looking up resources in directories is useful for running libcore tests.
elements.add(new Element(file, true, null, null));
} else if (file.isFile()) {
if (name.endsWith(DEX_SUFFIX)) {
// Raw dex file (not inside a zip/jar).
try {
dex = loadDexFile(file, optimizedDirectory);
} catch (IOException ex) {
System.logE("Unable to load dex file: " + file, ex);
}
} else {
zip = file;
try {
dex = loadDexFile(file, optimizedDirectory);
} catch (IOException suppressed) {
/*
* IOException might get thrown "legitimately" by the DexFile constructor if
* the zip file turns out to be resource-only (that is, no classes.dex file
* in it).
* Let dex == null and hang on to the exception to add to the tea-leaves for
* when findClass returns null.
*/
suppressedExceptions.add(suppressed);
}
}
} else {
System.logW("ClassLoader referenced unknown path: " + file);
}
if ((zip != null) || (dex != null)) {
elements.add(new Element(dir, false, zip, dex));
}
}
return elements.toArray(new Element[elements.size()]);
}
最终我们跟踪到DexFile的构造方法
/**
* Opens a DEX file from a given filename, using a specified file
* to hold the optimized data.
*
* @param sourceName
* Jar or APK file with "classes.dex".
* @param outputName
* File that will hold the optimized form of the DEX data.
* @param flags
* Enable optional features.
*/
private DexFile(String sourceName, String outputName, int flags) throws IOException {
if (outputName != null) {
try {
String parent = new File(outputName).getParent();
if (Libcore.os.getuid() != Libcore.os.stat(parent).st_uid) {
throw new IllegalArgumentException("Optimized data directory " + parent
+ " is not owned by the current user. Shared storage cannot protect"
+ " your application from code injection attacks.");
}
} catch (ErrnoException ignored) {
// assume we'll fail with a more contextual error later
}
}
mCookie = openDexFile(sourceName, outputName, flags);
mFileName = sourceName;
guard.open("close");
//System.out.println("DEX FILE cookie is " + mCookie + " sourceName=" + sourceName + " outputName=" + outputName);
}
从注释当中就可以看到new DexFile(file)的dex输出路径只能为/data/dalvik-cache,而DexFile.loadDex()的dex输出路径为自己输入的optimizedDirectory路径。
总结:
DexClassLoader:能够加载自定义的jar/apk/dex
PathClassLoader:只能加载系统中已经安装过的apk
所以Android系统默认的类加载器为PathClassLoader,而DexClassLoader可以像JVM的ClassLoader一样提供动态加载。
