// Copyright 2015 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // This is the Android-specific Chromium linker, a tiny shared library // implementing a custom dynamic linker that can be used to load the // real Chromium libraries. // The main point of this linker is to be able to share the RELRO // section of libchrome.so (or equivalent) between renderer processes. // This source code *cannot* depend on anything from base/ or the C++ // STL, to keep the final library small, and avoid ugly dependency issues. #include #include #include #include #include #include "build/build_config.h" #include // Set this to 1 to enable debug traces to the Android log. // Note that LOG() from "base/logging.h" cannot be used, since it is // in base/ which hasn't been loaded yet. #define DEBUG 0 #define TAG "cr_ChromiumAndroidLinker" #if DEBUG #define LOG_INFO(FORMAT, ...) \ __android_log_print(ANDROID_LOG_INFO, TAG, "%s: " FORMAT, __FUNCTION__, \ ##__VA_ARGS__) #else #define LOG_INFO(FORMAT, ...) ((void)0) #endif #define LOG_ERROR(FORMAT, ...) \ __android_log_print(ANDROID_LOG_ERROR, TAG, "%s: " FORMAT, __FUNCTION__, \ ##__VA_ARGS__) #define UNUSED __attribute__((unused)) // See commentary in crazy_linker_elf_loader.cpp for the effect of setting // this. If changing there, change here also. // // For more, see: // https://crbug.com/504410 #define RESERVE_BREAKPAD_GUARD_REGION 1 #if defined(ARCH_CPU_X86) // Dalvik JIT generated code doesn't guarantee 16-byte stack alignment on // x86 - use force_align_arg_pointer to realign the stack at the JNI // boundary. https://crbug.com/655248 #define JNI_GENERATOR_EXPORT \ extern "C" __attribute__((visibility("default"), force_align_arg_pointer)) #else #define JNI_GENERATOR_EXPORT extern "C" __attribute__((visibility("default"))) #endif namespace chromium_android_linker { namespace { // Larger than the largest library we might attempt to load. constexpr size_t kAddressSpaceReservationSize = 192 * 1024 * 1024; // Size of any Breakpad guard region. 16MB is comfortably larger than the // ~6MB relocation packing of the current 64-bit libchrome.so, the largest we // expect to encounter. #if RESERVE_BREAKPAD_GUARD_REGION constexpr size_t kBreakpadGuardRegionBytes = 16 * 1024 * 1024; #endif // A simple scoped UTF String class that can be initialized from // a Java jstring handle. Modeled like std::string, which cannot // be used here. class String { public: String(JNIEnv* env, jstring str); inline ~String() { ::free(ptr_); } inline const char* c_str() const { return ptr_ ? ptr_ : ""; } inline size_t size() const { return size_; } private: char* ptr_; size_t size_; }; // Simple scoped UTF String class constructor. String::String(JNIEnv* env, jstring str) { size_ = env->GetStringUTFLength(str); ptr_ = static_cast(::malloc(size_ + 1)); // Note: This runs before browser native code is loaded, and so cannot // rely on anything from base/. This means that we must use // GetStringUTFChars() and not base::android::ConvertJavaStringToUTF8(). // // GetStringUTFChars() suffices because the only strings used here are // paths to APK files or names of shared libraries, all of which are // plain ASCII, defined and hard-coded by the Chromium Android build. // // For more: see // https://crbug.com/508876 // // Note: GetStringUTFChars() returns Java UTF-8 bytes. This is good // enough for the linker though. const char* bytes = env->GetStringUTFChars(str, nullptr); ::memcpy(ptr_, bytes, size_); ptr_[size_] = '\0'; env->ReleaseStringUTFChars(str, bytes); } // Find the jclass JNI reference corresponding to a given |class_name|. // |env| is the current JNI environment handle. // On success, return true and set |*clazz|. bool InitClassReference(JNIEnv* env, const char* class_name, jclass* clazz) { *clazz = env->FindClass(class_name); if (!*clazz) { LOG_ERROR("Could not find class for %s", class_name); return false; } return true; } // Initialize a jfieldID corresponding to the field of a given |clazz|, // with name |field_name| and signature |field_sig|. // |env| is the current JNI environment handle. // On success, return true and set |*field_id|. bool InitFieldId(JNIEnv* env, jclass clazz, const char* field_name, const char* field_sig, jfieldID* field_id) { *field_id = env->GetFieldID(clazz, field_name, field_sig); if (!*field_id) { LOG_ERROR("Could not find ID for field '%s'", field_name); return false; } LOG_INFO("Found ID %p for field '%s'", *field_id, field_name); return true; } // Initialize a jmethodID corresponding to the static method of a given // |clazz|, with name |method_name| and signature |method_sig|. // |env| is the current JNI environment handle. // On success, return true and set |*method_id|. bool InitStaticMethodId(JNIEnv* env, jclass clazz, const char* method_name, const char* method_sig, jmethodID* method_id) { *method_id = env->GetStaticMethodID(clazz, method_name, method_sig); if (!*method_id) { LOG_ERROR("Could not find ID for static method '%s'", method_name); return false; } LOG_INFO("Found ID %p for static method '%s'", *method_id, method_name); return true; } // Initialize a jfieldID corresponding to the static field of a given |clazz|, // with name |field_name| and signature |field_sig|. // |env| is the current JNI environment handle. // On success, return true and set |*field_id|. bool InitStaticFieldId(JNIEnv* env, jclass clazz, const char* field_name, const char* field_sig, jfieldID* field_id) { *field_id = env->GetStaticFieldID(clazz, field_name, field_sig); if (!*field_id) { LOG_ERROR("Could not find ID for static field '%s'", field_name); return false; } LOG_INFO("Found ID %p for static field '%s'", *field_id, field_name); return true; } // Initialize a jint corresponding to the static integer field of a class // with class name |class_name| and field name |field_name|. // |env| is the current JNI environment handle. // On success, return true and set |*value|. bool InitStaticInt(JNIEnv* env, const char* class_name, const char* field_name, jint* value) { jclass clazz; if (!InitClassReference(env, class_name, &clazz)) return false; jfieldID field_id; if (!InitStaticFieldId(env, clazz, field_name, "I", &field_id)) return false; *value = env->GetStaticIntField(clazz, field_id); LOG_INFO("Found value %d for class '%s', static field '%s'", *value, class_name, field_name); return true; } // A class used to model the field IDs of the org.chromium.base.Linker // LibInfo inner class, used to communicate data with the Java side // of the linker. struct LibInfo_class { jfieldID load_address_id; jfieldID load_size_id; jfieldID relro_start_id; jfieldID relro_size_id; jfieldID relro_fd_id; // Initialize an instance. bool Init(JNIEnv* env) { jclass clazz; if (!InitClassReference( env, "org/chromium/base/library_loader/Linker$LibInfo", &clazz)) { return false; } return InitFieldId(env, clazz, "mLoadAddress", "J", &load_address_id) && InitFieldId(env, clazz, "mLoadSize", "J", &load_size_id) && InitFieldId(env, clazz, "mRelroStart", "J", &relro_start_id) && InitFieldId(env, clazz, "mRelroSize", "J", &relro_size_id) && InitFieldId(env, clazz, "mRelroFd", "I", &relro_fd_id); } void SetLoadInfo(JNIEnv* env, jobject library_info_obj, size_t load_address, size_t load_size) { env->SetLongField(library_info_obj, load_address_id, load_address); env->SetLongField(library_info_obj, load_size_id, load_size); } void SetRelroInfo(JNIEnv* env, jobject library_info_obj, size_t relro_start, size_t relro_size, int relro_fd) { env->SetLongField(library_info_obj, relro_start_id, relro_start); env->SetLongField(library_info_obj, relro_size_id, relro_size); env->SetIntField(library_info_obj, relro_fd_id, relro_fd); } // Use this instance to convert a RelroInfo reference into // a crazy_library_info_t. void GetRelroInfo(JNIEnv* env, jobject library_info_obj, size_t* relro_start, size_t* relro_size, int* relro_fd) { if (relro_start) { *relro_start = static_cast( env->GetLongField(library_info_obj, relro_start_id)); } if (relro_size) { *relro_size = static_cast( env->GetLongField(library_info_obj, relro_size_id)); } if (relro_fd) { *relro_fd = env->GetIntField(library_info_obj, relro_fd_id); } } }; // Variable containing LibInfo for the loaded library. LibInfo_class s_lib_info_fields; // Return true iff |address| is a valid address for the target CPU. inline bool IsValidAddress(jlong address) { return static_cast(static_cast(address)) == address; } // The linker uses a single crazy_context_t object created on demand. // There is no need to protect this against concurrent access, locking // is already handled on the Java side. crazy_context_t* GetCrazyContext() { static crazy_context_t* s_crazy_context = nullptr; if (!s_crazy_context) { // Create new context. s_crazy_context = crazy_context_create(); // Ensure libraries located in the same directory as the linker // can be loaded before system ones. crazy_context_add_search_path_for_address( s_crazy_context, reinterpret_cast(&GetCrazyContext)); } return s_crazy_context; } // A scoped crazy_library_t that automatically closes the handle // on scope exit, unless Release() has been called. class ScopedLibrary { public: ScopedLibrary() : lib_(nullptr) {} ~ScopedLibrary() { if (lib_) crazy_library_close_with_context(lib_, GetCrazyContext()); } crazy_library_t* Get() { return lib_; } crazy_library_t** GetPtr() { return &lib_; } crazy_library_t* Release() { crazy_library_t* ret = lib_; lib_ = nullptr; return ret; } private: crazy_library_t* lib_; }; // Retrieve the SDK build version and pass it into the crazy linker. This // needs to be done early in initialization, before any other crazy linker // code is run. // |env| is the current JNI environment handle. // On success, return true. bool InitSDKVersionInfo(JNIEnv* env) { jint value = 0; if (!InitStaticInt(env, "android/os/Build$VERSION", "SDK_INT", &value)) return false; crazy_set_sdk_build_version(static_cast(value)); LOG_INFO("Set SDK build version to %d", static_cast(value)); return true; } } // namespace // Use Android ASLR to create a random address into which we expect to be // able to load libraries. Note that this is probabilistic; we unmap the // address we get from mmap and assume we can re-map into it later. This // works the majority of the time. If it doesn't, client code backs out and // then loads the library normally at any available address. // |env| is the current JNI environment handle, and |clazz| a class. // Returns the address selected by ASLR, or 0 on error. JNI_GENERATOR_EXPORT jlong Java_org_chromium_base_library_1loader_Linker_nativeGetRandomBaseLoadAddress( JNIEnv* env, jclass clazz) { size_t bytes = kAddressSpaceReservationSize; #if RESERVE_BREAKPAD_GUARD_REGION // Pad the requested address space size for a Breakpad guard region. bytes += kBreakpadGuardRegionBytes; #endif void* address = mmap(nullptr, bytes, PROT_NONE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); if (address == MAP_FAILED) { LOG_INFO("Random base load address not determinable"); return 0; } munmap(address, bytes); #if RESERVE_BREAKPAD_GUARD_REGION // Allow for a Breakpad guard region ahead of the returned address. address = reinterpret_cast( reinterpret_cast(address) + kBreakpadGuardRegionBytes); #endif LOG_INFO("Random base load address is %p", address); return static_cast(reinterpret_cast(address)); } // We identify the abi tag for which the linker is running. This allows // us to select the library which matches the abi of the linker. #if defined(__arm__) && defined(__ARM_ARCH_7A__) #define CURRENT_ABI "armeabi-v7a" #elif defined(__arm__) #define CURRENT_ABI "armeabi" #elif defined(__i386__) #define CURRENT_ABI "x86" #elif defined(__mips__) #define CURRENT_ABI "mips" #elif defined(__x86_64__) #define CURRENT_ABI "x86_64" #elif defined(__aarch64__) #define CURRENT_ABI "arm64-v8a" #else #error "Unsupported target abi" #endif // Add a zip archive file path to the context's current search path // list. Making it possible to load libraries directly from it. JNI_GENERATOR_EXPORT bool Java_org_chromium_base_library_1loader_Linker_nativeAddZipArchivePath( JNIEnv* env, jclass clazz, jstring apk_path_obj) { String apk_path(env, apk_path_obj); char search_path[512]; snprintf(search_path, sizeof(search_path), "%s!lib/" CURRENT_ABI "/", apk_path.c_str()); crazy_context_t* context = GetCrazyContext(); crazy_context_add_search_path(context, search_path); return true; } // Load a library with the chromium linker. This will also call its // JNI_OnLoad() method, which shall register its methods. Note that // lazy native method resolution will _not_ work after this, because // Dalvik uses the system's dlsym() which won't see the new library, // so explicit registration is mandatory. // // |env| is the current JNI environment handle. // |clazz| is the static class handle for org.chromium.base.Linker, // and is ignored here. // |library_name| is the library name (e.g. libfoo.so). // |load_address| is an explicit load address. // |lib_info_obj| is a LibInfo handle used to communicate information // with the Java side. // Return true on success. JNI_GENERATOR_EXPORT bool Java_org_chromium_base_library_1loader_Linker_nativeLoadLibrary( JNIEnv* env, jclass clazz, jstring lib_name_obj, jlong load_address, jobject lib_info_obj) { String library_name(env, lib_name_obj); LOG_INFO("Called for %s, at address 0x%llx", library_name, load_address); crazy_context_t* context = GetCrazyContext(); if (!IsValidAddress(load_address)) { LOG_ERROR("Invalid address 0x%llx", static_cast(load_address)); return false; } // Set the desired load address (0 means randomize it). crazy_context_set_load_address(context, static_cast(load_address)); ScopedLibrary library; if (!crazy_library_open(library.GetPtr(), library_name.c_str(), context)) { return false; } crazy_library_info_t info; if (!crazy_library_get_info(library.Get(), context, &info)) { LOG_ERROR("Could not get library information for %s: %s", library_name.c_str(), crazy_context_get_error(context)); return false; } // Release library object to keep it alive after the function returns. library.Release(); s_lib_info_fields.SetLoadInfo(env, lib_info_obj, info.load_address, info.load_size); LOG_INFO("Success loading library %s", library_name.c_str()); return true; } // Class holding the Java class and method ID for the Java side Linker // postCallbackOnMainThread method. struct JavaCallbackBindings_class { jclass clazz; jmethodID method_id; // Initialize an instance. bool Init(JNIEnv* env, jclass linker_class) { clazz = reinterpret_cast(env->NewGlobalRef(linker_class)); return InitStaticMethodId(env, linker_class, "postCallbackOnMainThread", "(J)V", &method_id); } }; static JavaCallbackBindings_class s_java_callback_bindings; // Designated receiver function for callbacks from Java. Its name is known // to the Java side. // |env| is the current JNI environment handle and is ignored here. // |clazz| is the static class handle for org.chromium.base.Linker, // and is ignored here. // |arg| is a pointer to an allocated crazy_callback_t, deleted after use. JNI_GENERATOR_EXPORT void Java_org_chromium_base_library_1loader_Linker_nativeRunCallbackOnUiThread( JNIEnv* env, jclass clazz, jlong arg) { crazy_callback_t* callback = reinterpret_cast(arg); LOG_INFO("Called back from java with handler %p, opaque %p", callback->handler, callback->opaque); crazy_callback_run(callback); delete callback; } // Request a callback from Java. The supplied crazy_callback_t is valid only // for the duration of this call, so we copy it to a newly allocated // crazy_callback_t and then call the Java side's postCallbackOnMainThread. // This will call back to to our RunCallbackOnUiThread some time // later on the UI thread. // |callback_request| is a crazy_callback_t. // |poster_opaque| is unused. // Returns true if the callback request succeeds. static bool PostForLaterExecution(crazy_callback_t* callback_request, void* poster_opaque UNUSED) { crazy_context_t* context = GetCrazyContext(); JavaVM* vm; int minimum_jni_version; crazy_context_get_java_vm(context, reinterpret_cast(&vm), &minimum_jni_version); // Do not reuse JNIEnv from JNI_OnLoad, but retrieve our own. JNIEnv* env; if (JNI_OK != vm->GetEnv(reinterpret_cast(&env), minimum_jni_version)) { LOG_ERROR("Could not create JNIEnv"); return false; } // Copy the callback; the one passed as an argument may be temporary. crazy_callback_t* callback = new crazy_callback_t(); *callback = *callback_request; LOG_INFO("Calling back to java with handler %p, opaque %p", callback->handler, callback->opaque); jlong arg = static_cast(reinterpret_cast(callback)); env->CallStaticVoidMethod(s_java_callback_bindings.clazz, s_java_callback_bindings.method_id, arg); // Back out and return false if we encounter a JNI exception. if (env->ExceptionCheck() == JNI_TRUE) { env->ExceptionDescribe(); env->ExceptionClear(); delete callback; return false; } return true; } JNI_GENERATOR_EXPORT jboolean Java_org_chromium_base_library_1loader_Linker_nativeCreateSharedRelro( JNIEnv* env, jclass clazz, jstring library_name, jlong load_address, jobject lib_info_obj) { String lib_name(env, library_name); LOG_INFO("Called for %s", lib_name.c_str()); if (!IsValidAddress(load_address)) { LOG_ERROR("Invalid address 0x%llx", static_cast(load_address)); return false; } ScopedLibrary library; if (!crazy_library_find_by_name(lib_name.c_str(), library.GetPtr())) { LOG_ERROR("Could not find %s", lib_name.c_str()); return false; } crazy_context_t* context = GetCrazyContext(); size_t relro_start = 0; size_t relro_size = 0; int relro_fd = -1; if (!crazy_library_create_shared_relro( library.Get(), context, static_cast(load_address), &relro_start, &relro_size, &relro_fd)) { LOG_ERROR("Could not create shared RELRO sharing for %s: %s\n", lib_name.c_str(), crazy_context_get_error(context)); return false; } s_lib_info_fields.SetRelroInfo(env, lib_info_obj, relro_start, relro_size, relro_fd); return true; } JNI_GENERATOR_EXPORT jboolean Java_org_chromium_base_library_1loader_Linker_nativeUseSharedRelro( JNIEnv* env, jclass clazz, jstring library_name, jobject lib_info_obj) { String lib_name(env, library_name); LOG_INFO("Called for %s, lib_info_ref=%p", lib_name.c_str(), lib_info_obj); ScopedLibrary library; if (!crazy_library_find_by_name(lib_name.c_str(), library.GetPtr())) { LOG_ERROR("Could not find %s", lib_name.c_str()); return false; } crazy_context_t* context = GetCrazyContext(); size_t relro_start = 0; size_t relro_size = 0; int relro_fd = -1; s_lib_info_fields.GetRelroInfo(env, lib_info_obj, &relro_start, &relro_size, &relro_fd); LOG_INFO("library=%s relro start=%p size=%p fd=%d", lib_name.c_str(), (void*)relro_start, (void*)relro_size, relro_fd); if (!crazy_library_use_shared_relro(library.Get(), context, relro_start, relro_size, relro_fd)) { LOG_ERROR("Could not use shared RELRO for %s: %s", lib_name.c_str(), crazy_context_get_error(context)); return false; } LOG_INFO("Library %s using shared RELRO section!", lib_name.c_str()); return true; } static bool LinkerJNIInit(JavaVM* vm, JNIEnv* env) { LOG_INFO("Entering"); // Initialize SDK version info. LOG_INFO("Retrieving SDK version info"); if (!InitSDKVersionInfo(env)) return false; // Find LibInfo field ids. LOG_INFO("Caching field IDs"); if (!s_lib_info_fields.Init(env)) { return false; } // Register native methods. jclass linker_class; if (!InitClassReference(env, "org/chromium/base/library_loader/Linker", &linker_class)) return false; // Resolve and save the Java side Linker callback class and method. LOG_INFO("Resolving callback bindings"); if (!s_java_callback_bindings.Init(env, linker_class)) { return false; } // Save JavaVM* handle into context. crazy_context_t* context = GetCrazyContext(); crazy_context_set_java_vm(context, vm, JNI_VERSION_1_4); // Register the function that the crazy linker can call to post code // for later execution. crazy_context_set_callback_poster(context, &PostForLaterExecution, nullptr); return true; } // JNI_OnLoad() hook called when the linker library is loaded through // the regular System.LoadLibrary) API. This shall save the Java VM // handle and initialize LibInfo fields. jint JNI_OnLoad(JavaVM* vm, void* reserved) { LOG_INFO("Entering"); // Get new JNIEnv JNIEnv* env; if (JNI_OK != vm->GetEnv(reinterpret_cast(&env), JNI_VERSION_1_4)) { LOG_ERROR("Could not create JNIEnv"); return -1; } // Initialize linker base and implementations. if (!LinkerJNIInit(vm, env)) { return -1; } LOG_INFO("Done"); return JNI_VERSION_1_4; } } // namespace chromium_android_linker jint JNI_OnLoad(JavaVM* vm, void* reserved) { return chromium_android_linker::JNI_OnLoad(vm, reserved); }