#include #include #include #include #include #include "inject.hpp" #include "memory.hpp" using namespace std; using jni_hook::hash_map; using jni_hook::tree_map; using xstring = jni_hook::string; struct SpecializeAppProcessArgs { jint &uid; jint &gid; jintArray &gids; jint &runtime_flags; jint &mount_external; jstring &se_info; jstring &nice_name; jstring &instruction_set; jstring &app_data_dir; /* Optional */ jboolean *is_child_zygote = nullptr; jboolean *is_top_app = nullptr; jobjectArray *pkg_data_info_list = nullptr; jobjectArray *whitelisted_data_info_list = nullptr; jboolean *mount_data_dirs = nullptr; jboolean *mount_storage_dirs = nullptr; SpecializeAppProcessArgs( jint &uid, jint &gid, jintArray &gids, jint &runtime_flags, jint &mount_external, jstring &se_info, jstring &nice_name, jstring &instruction_set, jstring &app_data_dir) : uid(uid), gid(gid), gids(gids), runtime_flags(runtime_flags), mount_external(mount_external), se_info(se_info), nice_name(nice_name), instruction_set(instruction_set), app_data_dir(app_data_dir) {} }; struct ForkSystemServerArgs { jint &uid; jint &gid; jintArray &gids; jint &runtime_flags; jlong &permitted_capabilities; jlong &effective_capabilities; ForkSystemServerArgs( jint &uid, jint &gid, jintArray &gids, jint &runtime_flags, jlong &permitted_capabilities, jlong &effective_capabilities) : uid(uid), gid(gid), gids(gids), runtime_flags(runtime_flags), permitted_capabilities(permitted_capabilities), effective_capabilities(effective_capabilities) {} }; struct HookContext { int pid; bool do_hide; union { SpecializeAppProcessArgs *args; ForkSystemServerArgs *server_args; void *raw_args; }; }; struct vtable_t; static vector> *xhook_list; static vector *jni_hook_list; static hash_map>> *jni_method_map; static HookContext *current_ctx; static JavaVM *g_jvm; static vtable_t *gAppRuntimeVTable; static const JNINativeInterface *old_functions; static JNINativeInterface *new_functions; #define DCL_HOOK_FUNC(ret, func, ...) \ static ret (*old_##func)(__VA_ARGS__); \ static ret new_##func(__VA_ARGS__) #define DCL_JNI_FUNC(name) \ static void *name##_orig; \ extern const JNINativeMethod name##_methods[]; \ extern const int name##_methods_num; namespace { // JNI method declarations DCL_JNI_FUNC(nativeForkAndSpecialize) DCL_JNI_FUNC(nativeSpecializeAppProcess) DCL_JNI_FUNC(nativeForkSystemServer) } #define HOOK_JNI(method) \ if (methods[i].name == #method##sv) { \ jni_hook_list->push_back(methods[i]); \ method##_orig = methods[i].fnPtr; \ for (int j = 0; j < method##_methods_num; ++j) { \ if (strcmp(methods[i].signature, method##_methods[j].signature) == 0) { \ newMethods[i] = method##_methods[j]; \ LOGI("hook: replaced #" #method "\n"); \ ++hooked; \ break; \ } \ } \ continue; \ } static unique_ptr hookAndSaveJNIMethods( JNIEnv *env, const char *className, const JNINativeMethod *methods, int numMethods) { if (g_jvm == nullptr) { // Save for later unhooking env->GetJavaVM(&g_jvm); } unique_ptr newMethods; int hooked = numeric_limits::max(); if (className == "com/android/internal/os/Zygote"sv) { hooked = 0; newMethods = make_unique(numMethods); memcpy(newMethods.get(), methods, sizeof(JNINativeMethod) * numMethods); } auto &class_map = (*jni_method_map)[className]; for (int i = 0; i < numMethods; ++i) { class_map[methods[i].name][methods[i].signature] = methods[i].fnPtr; if (hooked < 3) { HOOK_JNI(nativeForkAndSpecialize); HOOK_JNI(nativeSpecializeAppProcess); HOOK_JNI(nativeForkSystemServer); } } return newMethods; } static jclass gClassRef; static jmethodID class_getName; static string get_class_name(JNIEnv *env, jclass clazz) { if (!gClassRef) { jclass cls = env->FindClass("java/lang/Class"); gClassRef = (jclass) env->NewGlobalRef(cls); env->DeleteLocalRef(cls); class_getName = env->GetMethodID(gClassRef, "getName", "()Ljava/lang/String;"); } auto nameRef = (jstring) env->CallObjectMethod(clazz, class_getName); const char *name = env->GetStringUTFChars(nameRef, nullptr); string className(name); env->ReleaseStringUTFChars(nameRef, name); std::replace(className.begin(), className.end(), '.', '/'); return className; } // ----------------------------------------------------------------- static jint new_env_RegisterNatives( JNIEnv *env, jclass clazz, const JNINativeMethod *methods, jint numMethods) { auto className = get_class_name(env, clazz); LOGD("hook: JNIEnv->RegisterNatives %s\n", className.data()); auto newMethods = hookAndSaveJNIMethods(env, className.data(), methods, numMethods); return old_functions->RegisterNatives(env, clazz, newMethods.get() ?: methods, numMethods); } DCL_HOOK_FUNC(int, jniRegisterNativeMethods, JNIEnv *env, const char *className, const JNINativeMethod *methods, int numMethods) { LOGD("hook: jniRegisterNativeMethods %s\n", className); auto newMethods = hookAndSaveJNIMethods(env, className, methods, numMethods); return old_jniRegisterNativeMethods(env, className, newMethods.get() ?: methods, numMethods); } DCL_HOOK_FUNC(int, fork) { return current_ctx ? current_ctx->pid : old_fork(); } DCL_HOOK_FUNC(int, selinux_android_setcontext, uid_t uid, int isSystemServer, const char *seinfo, const char *pkgname) { if (current_ctx && current_ctx->do_hide) { // Ask magiskd to hide ourselves before switching context // because magiskd socket is not accessible on Android 8.0+ remote_request_hide(); LOGD("hook: process successfully hidden\n"); } return old_selinux_android_setcontext(uid, isSystemServer, seinfo, pkgname); } // ----------------------------------------------------------------- // android::AndroidRuntime vtable layout struct vtable_t { void *rtti; void *dtor; void (*onVmCreated)(void *self, JNIEnv* env); void (*onStarted)(void *self); void (*onZygoteInit)(void *self); void (*onExit)(void *self, int code); }; // This method is a trampoline for hooking JNIEnv->RegisterNatives DCL_HOOK_FUNC(void, onVmCreated, void *self, JNIEnv *env) { LOGD("hook: AppRuntime::onVmCreated\n"); // Restore the virtual table, we no longer need it auto *new_table = *reinterpret_cast(self); *reinterpret_cast(self) = gAppRuntimeVTable; delete new_table; // Replace the function table in JNIEnv to hook RegisterNatives old_functions = env->functions; new_functions = new JNINativeInterface(); memcpy(new_functions, env->functions, sizeof(*new_functions)); new_functions->RegisterNatives = new_env_RegisterNatives; env->functions = new_functions; old_onVmCreated(self, env); } // This method is a trampoline for swizzling android::AppRuntime vtable static bool swizzled = false; DCL_HOOK_FUNC(void, setArgv0, void *self, const char *argv0, bool setProcName) { if (swizzled) { old_setArgv0(self, argv0, setProcName); return; } LOGD("hook: AndroidRuntime::setArgv0\n"); // Swizzle C++ vtable to hook virtual function gAppRuntimeVTable = *reinterpret_cast(self); old_onVmCreated = gAppRuntimeVTable->onVmCreated; auto *new_table = new vtable_t(); memcpy(new_table, gAppRuntimeVTable, sizeof(vtable_t)); new_table->onVmCreated = &new_onVmCreated; *reinterpret_cast(self) = new_table; swizzled = true; old_setArgv0(self, argv0, setProcName); } // ----------------------------------------------------------------- static void nativeSpecializeAppProcess_pre(HookContext *ctx, JNIEnv *env, jclass clazz) { current_ctx = ctx; const char *process = env->GetStringUTFChars(ctx->args->nice_name, nullptr); LOGD("hook: %s %s\n", __FUNCTION__, process); if (ctx->args->mount_external != 0 /* TODO: Handle MOUNT_EXTERNAL_NONE cases */ && remote_check_hide(ctx->args->uid, process)) { ctx->do_hide = true; LOGI("hook: [%s] should be hidden\n", process); } env->ReleaseStringUTFChars(ctx->args->nice_name, process); } static void nativeSpecializeAppProcess_post(HookContext *ctx, JNIEnv *env, jclass clazz) { current_ctx = nullptr; LOGD("hook: %s\n", __FUNCTION__); if (ctx->do_hide) self_unload(); } // ----------------------------------------------------------------- static int sigmask(int how, int signum) { sigset_t set; sigemptyset(&set); sigaddset(&set, signum); return sigprocmask(how, &set, nullptr); } // Do our own fork before loading any 3rd party code // First block SIGCHLD, unblock after original fork is done #define PRE_FORK() \ current_ctx = ctx; \ sigmask(SIG_BLOCK, SIGCHLD); \ ctx->pid = old_fork(); \ if (ctx->pid != 0) \ return; // Unblock SIGCHLD in case the original method didn't #define POST_FORK() \ current_ctx = nullptr; \ sigmask(SIG_UNBLOCK, SIGCHLD); \ if (ctx->pid != 0)\ return; static void nativeForkAndSpecialize_pre(HookContext *ctx, JNIEnv *env, jclass clazz) { PRE_FORK(); nativeSpecializeAppProcess_pre(ctx, env, clazz); } static void nativeForkAndSpecialize_post(HookContext *ctx, JNIEnv *env, jclass clazz) { POST_FORK(); nativeSpecializeAppProcess_post(ctx, env, clazz); } // ----------------------------------------------------------------- static void nativeForkSystemServer_pre(HookContext *ctx, JNIEnv *env, jclass clazz) { if (env->functions == new_functions) { // Restore JNIEnv env->functions = old_functions; if (gClassRef) { env->DeleteGlobalRef(gClassRef); gClassRef = nullptr; class_getName = nullptr; } } PRE_FORK(); LOGD("hook: %s\n", __FUNCTION__); } static void nativeForkSystemServer_post(HookContext *ctx, JNIEnv *env, jclass clazz) { POST_FORK(); LOGD("hook: %s\n", __FUNCTION__); } #undef PRE_FORK #undef POST_FORK // ----------------------------------------------------------------- static bool hook_refresh() { if (xhook_refresh(0) == 0) { xhook_clear(); LOGI("hook: xhook success\n"); return true; } else { LOGE("hook: xhook failed\n"); return false; } } static int hook_register(const char *path, const char *symbol, void *new_func, void **old_func) { int ret = xhook_register(path, symbol, new_func, old_func); if (ret != 0) { LOGE("hook: Failed to register hook \"%s\"\n", symbol); return ret; } xhook_list->emplace_back(path, symbol, old_func); return 0; } template static inline void default_new(T *&p) { p = new T(); } #define XHOOK_REGISTER_SYM(PATH_REGEX, SYM, NAME) \ hook_register(PATH_REGEX, SYM, (void*) new_##NAME, (void **) &old_##NAME) #define XHOOK_REGISTER(PATH_REGEX, NAME) \ XHOOK_REGISTER_SYM(PATH_REGEX, #NAME, NAME) #define ANDROID_RUNTIME ".*/libandroid_runtime.so$" #define APP_PROCESS "^/system/bin/app_process.*" void hook_functions() { #ifdef MAGISK_DEBUG xhook_enable_debug(1); xhook_enable_sigsegv_protection(0); #endif default_new(xhook_list); default_new(jni_hook_list); default_new(jni_method_map); XHOOK_REGISTER(ANDROID_RUNTIME, fork); XHOOK_REGISTER(ANDROID_RUNTIME, selinux_android_setcontext); XHOOK_REGISTER(ANDROID_RUNTIME, jniRegisterNativeMethods); hook_refresh(); // Remove unhooked methods xhook_list->erase( std::remove_if(xhook_list->begin(), xhook_list->end(), [](auto &t) { return *std::get<2>(t) == nullptr;}), xhook_list->end()); if (old_jniRegisterNativeMethods == nullptr) { LOGD("hook: jniRegisterNativeMethods not used\n"); // android::AndroidRuntime::setArgv0(const char *, bool) XHOOK_REGISTER_SYM(APP_PROCESS, "_ZN7android14AndroidRuntime8setArgv0EPKcb", setArgv0); hook_refresh(); // We still need old_jniRegisterNativeMethods as other code uses it // android::AndroidRuntime::registerNativeMethods(_JNIEnv*, const char *, const JNINativeMethod *, int) constexpr char sig[] = "_ZN7android14AndroidRuntime21registerNativeMethodsEP7_JNIEnvPKcPK15JNINativeMethodi"; *(void **) &old_jniRegisterNativeMethods = dlsym(RTLD_DEFAULT, sig); } } bool unhook_functions() { JNIEnv* env; if (g_jvm->GetEnv(reinterpret_cast(&env), JNI_VERSION_1_6) != JNI_OK) return false; // Do NOT call any destructors operator delete(jni_method_map); // Directly unmap the whole memory block jni_hook::memory_block::release(); // Unhook JNI methods if (!jni_hook_list->empty() && old_jniRegisterNativeMethods(env, "com/android/internal/os/Zygote", jni_hook_list->data(), jni_hook_list->size()) != 0) { LOGE("hook: Failed to register JNI hook\n"); return false; } delete jni_hook_list; // Unhook xhook for (auto &[path, sym, old_func] : *xhook_list) { if (xhook_register(path, sym, *old_func, nullptr) != 0) { LOGE("hook: Failed to register hook \"%s\"\n", sym); return false; } } delete xhook_list; return hook_refresh(); } // JNI method definitions, include all method signatures of past Android versions #include "jni_hooks.hpp"