github
https://github.com/sea-boat/ByteCodeEncrypt
需求
拿到的需求是要对某特定的jar包实现加密保护,jar包需要提供给外部使用,但核心逻辑部分需要保护以免被简单反编译即能看到。
几个思路
大致想到以下几种方式:
1. 混淆器,将jar包混淆后反编译出来的东西看起来就很眼花,但如果耐心一点也是可以看出来的。
2. 对jar包进行加密,然后在Java层重写类加载器对其进行解密,以达到对jar包的加密保护。包括用对称加密算法和非对称加密算法。不管用什么算法,在Java层面的类加载器实现的话,其实也作用不大,因为类加载器本身被反编译出来后就基本暴露无遗了。
3. 可以修改java编译后的class文件的某些属性,以让反编译软件分析不了,但它也不可靠,只要按照class格式深入分析下也能反编译出来。
4. 修改JDK源码,定制JDK就涉及到JVM的整体改动,而且还要求外部使用,不太可行。
5. 利用JDK中JVM的某些类似钩子机制和事件监听机制,监听加载class事件,使用本地方式完成class的解密。C/C++被编译后想要反编译就很麻烦了,另外还能加壳。这里就看看这种方式。
关于JVMTI
JVMTI即JVM Tool Interface,提供了本地编程接口,主要是提供了调试和分析等接口。JVMTI非常强大,通过它能做很多事,比如可以监听某事件、线程分析等等。
那么一般怎么使用JVMTI?一般使用Agent方式来使用,就是通过-agentlib和-agentpath指定Agent的本地库,然后Java启动时就会加载该动态库。这个时刻其实可以看成是JVM启动的时刻,而并非是Java层程序启动时刻,所以此时还不涉及与Java相关的类和对象什么的。
agent动态库被加载后,JVM肯定会指定一个入口函数,该入口函数为:
JNIEXPORT jint JNICALL Agent_OnLoad(JavaVM *vm,char *options,void *reserved)于是在JVM启动前要做的事都可以放到这个函数中,比如设置jvmtiCapabilities、设置关注的事件、设置事件的回调函数等等。其中关键的jvmtiCapabilities、jvmtiEventCallbacks、jvmtiEvent三个结构体如下,根据实际情况设置。
typedef struct {
unsigned int can_tag_objects : 1;
unsigned int can_generate_field_modification_events : 1;
unsigned int can_generate_field_access_events : 1;
unsigned int can_get_bytecodes : 1;
unsigned int can_get_synthetic_attribute : 1;
unsigned int can_get_owned_monitor_info : 1;
unsigned int can_get_current_contended_monitor : 1;
unsigned int can_get_monitor_info : 1;
unsigned int can_pop_frame : 1;
unsigned int can_redefine_classes : 1;
unsigned int can_signal_thread : 1;
unsigned int can_get_source_file_name : 1;
unsigned int can_get_line_numbers : 1;
unsigned int can_get_source_debug_extension : 1;
unsigned int can_access_local_variables : 1;
unsigned int can_maintain_original_method_order : 1;
unsigned int can_generate_single_step_events : 1;
unsigned int can_generate_exception_events : 1;
unsigned int can_generate_frame_pop_events : 1;
unsigned int can_generate_breakpoint_events : 1;
unsigned int can_suspend : 1;
unsigned int can_redefine_any_class : 1;
unsigned int can_get_current_thread_cpu_time : 1;
unsigned int can_get_thread_cpu_time : 1;
unsigned int can_generate_method_entry_events : 1;
unsigned int can_generate_method_exit_events : 1;
unsigned int can_generate_all_class_hook_events : 1;
unsigned int can_generate_compiled_method_load_events : 1;
unsigned int can_generate_monitor_events : 1;
unsigned int can_generate_vm_object_alloc_events : 1;
unsigned int can_generate_native_method_bind_events : 1;
unsigned int can_generate_garbage_collection_events : 1;
unsigned int can_generate_object_free_events : 1;
unsigned int can_force_early_return : 1;
unsigned int can_get_owned_monitor_stack_depth_info : 1;
unsigned int can_get_constant_pool : 1;
unsigned int can_set_native_method_prefix : 1;
unsigned int can_retransform_classes : 1;
unsigned int can_retransform_any_class : 1;
unsigned int can_generate_resource_exhaustion_heap_events : 1;
unsigned int can_generate_resource_exhaustion_threads_events : 1;
unsigned int : 7;
unsigned int : 16;
unsigned int : 16;
unsigned int : 16;
unsigned int : 16;
unsigned int : 16;
} jvmtiCapabilities;typedef struct {
/* 50 : VM Initialization Event */
jvmtiEventVMInit VMInit;
/* 51 : VM Death Event */
jvmtiEventVMDeath VMDeath;
/* 52 : Thread Start */
jvmtiEventThreadStart ThreadStart;
/* 53 : Thread End */
jvmtiEventThreadEnd ThreadEnd;
/* 54 : Class File Load Hook */
jvmtiEventClassFileLoadHook ClassFileLoadHook;
/* 55 : Class Load */
jvmtiEventClassLoad ClassLoad;
/* 56 : Class Prepare */
jvmtiEventClassPrepare ClassPrepare;
/* 57 : VM Start Event */
jvmtiEventVMStart VMStart;
/* 58 : Exception */
jvmtiEventException Exception;
/* 59 : Exception Catch */
jvmtiEventExceptionCatch ExceptionCatch;
/* 60 : Single Step */
jvmtiEventSingleStep SingleStep;
/* 61 : Frame Pop */
jvmtiEventFramePop FramePop;
/* 62 : Breakpoint */
jvmtiEventBreakpoint Breakpoint;
/* 63 : Field Access */
jvmtiEventFieldAccess FieldAccess;
/* 64 : Field Modification */
jvmtiEventFieldModification FieldModification;
/* 65 : Method Entry */
jvmtiEventMethodEntry MethodEntry;
/* 66 : Method Exit */
jvmtiEventMethodExit MethodExit;
/* 67 : Native Method Bind */
jvmtiEventNativeMethodBind NativeMethodBind;
/* 68 : Compiled Method Load */
jvmtiEventCompiledMethodLoad CompiledMethodLoad;
/* 69 : Compiled Method Unload */
jvmtiEventCompiledMethodUnload CompiledMethodUnload;
/* 70 : Dynamic Code Generated */
jvmtiEventDynamicCodeGenerated DynamicCodeGenerated;
/* 71 : Data Dump Request */
jvmtiEventDataDumpRequest DataDumpRequest;
/* 72 */
jvmtiEventReserved reserved72;
/* 73 : Monitor Wait */
jvmtiEventMonitorWait MonitorWait;
/* 74 : Monitor Waited */
jvmtiEventMonitorWaited MonitorWaited;
/* 75 : Monitor Contended Enter */
jvmtiEventMonitorContendedEnter MonitorContendedEnter;
/* 76 : Monitor Contended Entered */
jvmtiEventMonitorContendedEntered MonitorContendedEntered;
/* 77 */
jvmtiEventReserved reserved77;
/* 78 */
jvmtiEventReserved reserved78;
/* 79 */
jvmtiEventReserved reserved79;
/* 80 : Resource Exhausted */
jvmtiEventResourceExhausted ResourceExhausted;
/* 81 : Garbage Collection Start */
jvmtiEventGarbageCollectionStart GarbageCollectionStart;
/* 82 : Garbage Collection Finish */
jvmtiEventGarbageCollectionFinish GarbageCollectionFinish;
/* 83 : Object Free */
jvmtiEventObjectFree ObjectFree;
/* 84 : VM Object Allocation */
jvmtiEventVMObjectAlloc VMObjectAlloc;
} jvmtiEventCallbacks;typedef enum {
JVMTI_MIN_EVENT_TYPE_VAL = 50,
JVMTI_EVENT_VM_INIT = 50,
JVMTI_EVENT_VM_DEATH = 51,
JVMTI_EVENT_THREAD_START = 52,
JVMTI_EVENT_THREAD_END = 53,
JVMTI_EVENT_CLASS_FILE_LOAD_HOOK = 54,
JVMTI_EVENT_CLASS_LOAD = 55,
JVMTI_EVENT_CLASS_PREPARE = 56,
JVMTI_EVENT_VM_START = 57,
JVMTI_EVENT_EXCEPTION = 58,
JVMTI_EVENT_EXCEPTION_CATCH = 59,
JVMTI_EVENT_SINGLE_STEP = 60,
JVMTI_EVENT_FRAME_POP = 61,
JVMTI_EVENT_BREAKPOINT = 62,
JVMTI_EVENT_FIELD_ACCESS = 63,
JVMTI_EVENT_FIELD_MODIFICATION = 64,
JVMTI_EVENT_METHOD_ENTRY = 65,
JVMTI_EVENT_METHOD_EXIT = 66,
JVMTI_EVENT_NATIVE_METHOD_BIND = 67,
JVMTI_EVENT_COMPILED_METHOD_LOAD = 68,
JVMTI_EVENT_COMPILED_METHOD_UNLOAD = 69,
JVMTI_EVENT_DYNAMIC_CODE_GENERATED = 70,
JVMTI_EVENT_DATA_DUMP_REQUEST = 71,
JVMTI_EVENT_MONITOR_WAIT = 73,
JVMTI_EVENT_MONITOR_WAITED = 74,
JVMTI_EVENT_MONITOR_CONTENDED_ENTER = 75,
JVMTI_EVENT_MONITOR_CONTENDED_ENTERED = 76,
JVMTI_EVENT_RESOURCE_EXHAUSTED = 80,
JVMTI_EVENT_GARBAGE_COLLECTION_START = 81,
JVMTI_EVENT_GARBAGE_COLLECTION_FINISH = 82,
JVMTI_EVENT_OBJECT_FREE = 83,
JVMTI_EVENT_VM_OBJECT_ALLOC = 84,
JVMTI_MAX_EVENT_TYPE_VAL = 84
} jvmtiEvent;具体实现
- 编写我们的agent动态库,使之在JVM加载时完成一些逻辑,从前面也知道,主要就是在
Agent_OnLoad函数中编写逻辑,先获取jvmtiEnv,在通过它设置jvmtiCapabilities,完了再设置回调函数及需要监听的事件。这里关注的事class文件加载时事件。
JNIEXPORT jint JNICALL Agent_OnLoad(JavaVM *vm,char *options,void *reserved)
{
jvmtiEnv *jvmti;
jint ret = vm->GetEnv((void **)&jvmti, JVMTI_VERSION);
if (JNI_OK != ret)
{
printf("ERROR: Unable to access JVMTI!\n");
return ret;
}
jvmtiCapabilities capabilities;
(void)memset(&capabilities, 0, sizeof(capabilities));
capabilities.can_generate_all_class_hook_events = 1;
capabilities.can_tag_objects = 1;
capabilities.can_generate_object_free_events = 1;
capabilities.can_get_source_file_name = 1;
capabilities.can_get_line_numbers = 1;
capabilities.can_generate_vm_object_alloc_events = 1;
jvmtiError error = jvmti->AddCapabilities(&capabilities);
if (JVMTI_ERROR_NONE != error)
{
printf("ERROR: Unable to AddCapabilities JVMTI!\n");
return error;
}
jvmtiEventCallbacks callbacks;
(void)memset(&callbacks, 0, sizeof(callbacks));
callbacks.ClassFileLoadHook = &ClassDecryptHook;
error = jvmti->SetEventCallbacks(&callbacks, sizeof(callbacks));
if (JVMTI_ERROR_NONE != error) {
printf("ERROR: Unable to SetEventCallbacks JVMTI!\n");
return error;
}
error = jvmti->SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_CLASS_FILE_LOAD_HOOK, NULL);
if (JVMTI_ERROR_NONE != error) {
printf("ERROR: Unable to SetEventNotificationMode JVMTI!\n");
return error;
}
return JNI_OK;
}- 回调函数,即是上面指定的回调函数,它对应监听的事件,会在对应的事件发生事被调用。这里处理逻辑其实就是判断如果是某包下的类就对其进行解密,否则不处理。
void JNICALL ClassDecryptHook(
jvmtiEnv *jvmti_env,
JNIEnv* jni_env,
jclass class_being_redefined,
jobject loader,
const char* name,
jobject protection_domain,
jint class_data_len,
const unsigned char* class_data,
jint* new_class_data_len,
unsigned char** new_class_data
)
{
*new_class_data_len = class_data_len;
jvmti_env->Allocate(class_data_len, new_class_data);
unsigned char* _data = *new_class_data;
if (name&&strncmp(name, "com/seaboat/", 11) == 0) {
for (int i = 0; i < class_data_len; i++)
{
_data[i] = class_data[i] - 4;
}
}
else {
for (int i = 0; i < class_data_len; ++i)
{
_data[i] = class_data[i];
}
}
}- 额外写一个加密程序对某jar包加密进行加密处理,这里同样用本地库方式,但加密解密动态库不要一起对外发布,还有Java层调用本地库加密的程序也不要对外发布。
Java层
public class ByteCodeEncryptor {
static{
System.loadLibrary("ByteCodeEncryptor");
}
public native static byte[] encrypt(byte[] text);
public static void(String[] args){
try {
ByteArrayOutputStream baos = new ByteArrayOutputStream();
byte[] buf = new byte[1024];
File srcFile = new File(fileName);
File dstFile = new File(fileName.substring(0, fileName.indexOf("."))+"_encrypted.jar");
FileOutputStream dstFos = new FileOutputStream(dstFile);
JarOutputStream dstJar = new JarOutputStream(dstFos);
JarFile srcJar = new JarFile(srcFile);
for (Enumeration<JarEntry> enumeration = srcJar.entries(); enumeration.hasMoreElements();) {
JarEntry entry = enumeration.nextElement();
InputStream is = srcJar.getInputStream(entry);
int len;
while ((len = is.read(buf, 0, buf.length)) != -1) {
baos.write(buf, 0, len);
}
byte[] bytes = baos.toByteArray();
String name = entry.getName();
if(name.endsWith(".class")){
try {
bytes = ByteCodeEncryptor.encrypt(bytes);
} catch (Exception e) {
e.printStackTrace();
}
}
JarEntry ne = new JarEntry(name);
dstJar.putNextEntry(ne);
dstJar.write(bytes);
baos.reset();
}
srcJar.close();
dstJar.close();
dstFos.close();
} catch (Exception e) {
e.printStackTrace();
}
}
}本地库
void encode(char *str)
{
unsigned int m = strlen(str);
for (int i = 0; i < m; i++)
{
str[i] = str[i]+4;
}
}
extern"C" JNIEXPORT jbyteArray JNICALL
Java_com_seaboat_bytecode_ByteCodeEncryptor_encrypt(JNIEnv * env, jclass cla,jbyteArray text)
{
char* dst = (char*)env->GetByteArrayElements(text, 0);
encode(dst);
env->SetByteArrayRegion(text, 0, strlen(dst), (jbyte *)dst);
return text;
}- 通过agentlib参数启动Java,实现字节码解密,从而实现字节码保护。
java -agentlib:xxxxx\ByteCodeEncryptor -cp test_encrypted.jar com.seaboat.AA反编译前后效果
可能报错
下面的错误说明编译的是32位的动态库,不能再64位操作系统运行,可以到vs的vc目录下执行 C:\Program Files (x86)\Microsoft Visual Studio 14.0\VC>vcvarsall.bat amd64,重新编译64位的动态库即可。
Error occurred during initialization of VM
Could not find agent library D:\kuaipan\workspace\CPP-workspace\Project3\ByteCodeEncryptor on the library path, with error: Can't load IA 32-bit .dll on a AMD 64-bit platform========广告时间========
鄙人的新书《Tomcat内核设计剖析》已经在京东销售了,有需要的朋友可以到 https://item.jd.com/12185360.html 进行预定。感谢各位朋友。
=========================
欢迎关注:
时间: 2024-10-02 18:10:35