/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "nativeloader/native_loader.h" #include #include #ifdef __ANDROID__ #define LOG_TAG "libnativeloader" #include "nativeloader/dlext_namespaces.h" #include "log/log.h" #endif #include #include #include "nativebridge/native_bridge.h" #include #include #include #include #include #include #include #include #include #include #ifdef __BIONIC__ #include #endif #define CHECK(predicate) LOG_ALWAYS_FATAL_IF(!(predicate),\ "%s:%d: %s CHECK '" #predicate "' failed.",\ __FILE__, __LINE__, __FUNCTION__) using namespace std::string_literals; namespace android { #if defined(__ANDROID__) struct NativeLoaderNamespace { public: NativeLoaderNamespace() : android_ns_(nullptr), native_bridge_ns_(nullptr) { } explicit NativeLoaderNamespace(android_namespace_t* ns) : android_ns_(ns), native_bridge_ns_(nullptr) { } explicit NativeLoaderNamespace(native_bridge_namespace_t* ns) : android_ns_(nullptr), native_bridge_ns_(ns) { } NativeLoaderNamespace(NativeLoaderNamespace&& that) = default; NativeLoaderNamespace(const NativeLoaderNamespace& that) = default; NativeLoaderNamespace& operator=(const NativeLoaderNamespace& that) = default; android_namespace_t* get_android_ns() const { CHECK(native_bridge_ns_ == nullptr); return android_ns_; } native_bridge_namespace_t* get_native_bridge_ns() const { CHECK(android_ns_ == nullptr); return native_bridge_ns_; } bool is_android_namespace() const { return native_bridge_ns_ == nullptr; } private: // Only one of them can be not null android_namespace_t* android_ns_; native_bridge_namespace_t* native_bridge_ns_; }; static constexpr const char kPublicNativeLibrariesSystemConfigPathFromRoot[] = "/etc/public.libraries.txt"; static constexpr const char kPublicNativeLibrariesExtensionConfigPrefix[] = "public.libraries-"; static constexpr const size_t kPublicNativeLibrariesExtensionConfigPrefixLen = sizeof(kPublicNativeLibrariesExtensionConfigPrefix) - 1; static constexpr const char kPublicNativeLibrariesExtensionConfigSuffix[] = ".txt"; static constexpr const size_t kPublicNativeLibrariesExtensionConfigSuffixLen = sizeof(kPublicNativeLibrariesExtensionConfigSuffix) - 1; static constexpr const char kPublicNativeLibrariesVendorConfig[] = "/vendor/etc/public.libraries.txt"; static constexpr const char kLlndkNativeLibrariesSystemConfigPathFromRoot[] = "/etc/llndk.libraries.txt"; static constexpr const char kVndkspNativeLibrariesSystemConfigPathFromRoot[] = "/etc/vndksp.libraries.txt"; static const std::vector kRuntimePublicLibraries = { "libicuuc.so", "libicui18n.so", }; // The device may be configured to have the vendor libraries loaded to a separate namespace. // For historical reasons this namespace was named sphal but effectively it is intended // to use to load vendor libraries to separate namespace with controlled interface between // vendor and system namespaces. static constexpr const char* kVendorNamespaceName = "sphal"; static constexpr const char* kVndkNamespaceName = "vndk"; static constexpr const char* kDefaultNamespaceName = "default"; static constexpr const char* kPlatformNamespaceName = "platform"; static constexpr const char* kRuntimeNamespaceName = "runtime"; // classloader-namespace is a linker namespace that is created for the loaded // app. To be specific, it is created for the app classloader. When // System.load() is called from a Java class that is loaded from the // classloader, the classloader-namespace namespace associated with that // classloader is selected for dlopen. The namespace is configured so that its // search path is set to the app-local JNI directory and it is linked to the // default namespace with the names of libs listed in the public.libraries.txt. // This way an app can only load its own JNI libraries along with the public libs. static constexpr const char* kClassloaderNamespaceName = "classloader-namespace"; // Same thing for vendor APKs. static constexpr const char* kVendorClassloaderNamespaceName = "vendor-classloader-namespace"; // (http://b/27588281) This is a workaround for apps using custom classloaders and calling // System.load() with an absolute path which is outside of the classloader library search path. // This list includes all directories app is allowed to access this way. static constexpr const char* kWhitelistedDirectories = "/data:/mnt/expand"; static constexpr const char* kApexPath = "/apex/"; #if defined(__LP64__) static constexpr const char* kRuntimeApexLibPath = "/apex/com.android.runtime/lib64"; static constexpr const char* kVendorLibPath = "/vendor/lib64"; static constexpr const char* kProductLibPath = "/product/lib64:/system/product/lib64"; #else static constexpr const char* kRuntimeApexLibPath = "/apex/com.android.runtime/lib"; static constexpr const char* kVendorLibPath = "/vendor/lib"; static constexpr const char* kProductLibPath = "/product/lib:/system/product/lib"; #endif static const std::regex kVendorDexPathRegex("(^|:)/vendor/"); static const std::regex kProductDexPathRegex("(^|:)(/system)?/product/"); // Define origin of APK if it is from vendor partition or product partition typedef enum { APK_ORIGIN_DEFAULT = 0, APK_ORIGIN_VENDOR = 1, APK_ORIGIN_PRODUCT = 2, } ApkOrigin; static bool is_debuggable() { bool debuggable = false; #ifdef __BIONIC__ debuggable = android::base::GetBoolProperty("ro.debuggable", false); #endif return debuggable; } static std::string vndk_version_str() { #ifdef __BIONIC__ std::string version = android::base::GetProperty("ro.vndk.version", ""); if (version != "" && version != "current") { return "." + version; } #endif return ""; } static void insert_vndk_version_str(std::string* file_name) { CHECK(file_name != nullptr); size_t insert_pos = file_name->find_last_of("."); if (insert_pos == std::string::npos) { insert_pos = file_name->length(); } file_name->insert(insert_pos, vndk_version_str()); } static const std::function always_true = [](const std::string&, std::string*) { return true; }; class LibraryNamespaces { public: LibraryNamespaces() : initialized_(false) { } NativeLoaderNamespace* Create(JNIEnv* env, uint32_t target_sdk_version, jobject class_loader, bool is_shared, jstring dex_path, jstring java_library_path, jstring java_permitted_path, std::string* error_msg) { std::string library_path; // empty string by default. if (java_library_path != nullptr) { ScopedUtfChars library_path_utf_chars(env, java_library_path); library_path = library_path_utf_chars.c_str(); } ApkOrigin apk_origin = GetApkOriginFromDexPath(env, dex_path); // (http://b/27588281) This is a workaround for apps using custom // classloaders and calling System.load() with an absolute path which // is outside of the classloader library search path. // // This part effectively allows such a classloader to access anything // under /data and /mnt/expand std::string permitted_path = kWhitelistedDirectories; if (java_permitted_path != nullptr) { ScopedUtfChars path(env, java_permitted_path); if (path.c_str() != nullptr && path.size() > 0) { permitted_path = permitted_path + ":" + path.c_str(); } } // Initialize the anonymous namespace with the first non-empty library path. if (!library_path.empty() && !initialized_ && !InitPublicNamespace(library_path.c_str(), error_msg)) { return nullptr; } bool found = FindNamespaceByClassLoader(env, class_loader); LOG_ALWAYS_FATAL_IF(found, "There is already a namespace associated with this classloader"); uint64_t namespace_type = ANDROID_NAMESPACE_TYPE_ISOLATED; if (is_shared) { namespace_type |= ANDROID_NAMESPACE_TYPE_SHARED; } if (target_sdk_version < 24) { namespace_type |= ANDROID_NAMESPACE_TYPE_GREYLIST_ENABLED; } NativeLoaderNamespace* parent_ns = FindParentNamespaceByClassLoader(env, class_loader); bool is_native_bridge = false; if (parent_ns != nullptr) { is_native_bridge = !parent_ns->is_android_namespace(); } else if (!library_path.empty()) { is_native_bridge = NativeBridgeIsPathSupported(library_path.c_str()); } std::string system_exposed_libraries = system_public_libraries_; const char* namespace_name = kClassloaderNamespaceName; android_namespace_t* vndk_ns = nullptr; if ((apk_origin == APK_ORIGIN_VENDOR || (apk_origin == APK_ORIGIN_PRODUCT && target_sdk_version > 29)) && !is_shared) { LOG_FATAL_IF(is_native_bridge, "Unbundled vendor / product apk must not use translated architecture"); // For vendor / product apks, give access to the vendor / product lib even though // they are treated as unbundled; the libs and apks are still bundled // together in the vendor / product partition. const char* origin_partition; const char* origin_lib_path; switch (apk_origin) { case APK_ORIGIN_VENDOR: origin_partition = "vendor"; origin_lib_path = kVendorLibPath; break; case APK_ORIGIN_PRODUCT: origin_partition = "product"; origin_lib_path = kProductLibPath; break; default: origin_partition = "unknown"; origin_lib_path = ""; } LOG_FATAL_IF(is_native_bridge, "Unbundled %s apk must not use translated architecture", origin_partition); library_path = library_path + ":" + origin_lib_path; permitted_path = permitted_path + ":" + origin_lib_path; // Also give access to LLNDK libraries since they are available to vendors system_exposed_libraries = system_exposed_libraries + ":" + system_llndk_libraries_.c_str(); // Give access to VNDK-SP libraries from the 'vndk' namespace. vndk_ns = android_get_exported_namespace(kVndkNamespaceName); if (vndk_ns == nullptr) { ALOGW("Cannot find \"%s\" namespace for %s apks", kVndkNamespaceName, origin_partition); } // Different name is useful for debugging namespace_name = kVendorClassloaderNamespaceName; ALOGD("classloader namespace configured for unbundled %s apk. library_path=%s", origin_partition, library_path.c_str()); } else { // oem and product public libraries are NOT available to vendor apks, otherwise it // would be system->vendor violation. if (!oem_public_libraries_.empty()) { system_exposed_libraries = system_exposed_libraries + ':' + oem_public_libraries_; } if (!product_public_libraries_.empty()) { system_exposed_libraries = system_exposed_libraries + ':' + product_public_libraries_; } } std::string runtime_exposed_libraries = base::Join(kRuntimePublicLibraries, ":"); NativeLoaderNamespace native_loader_ns; if (!is_native_bridge) { android_namespace_t* android_parent_ns; if (parent_ns != nullptr) { android_parent_ns = parent_ns->get_android_ns(); } else { // Fall back to the platform namespace if no parent is found. It is // called "default" for binaries in /system and "platform" for those in // the Runtime APEX. Try "platform" first since "default" always exists. android_parent_ns = android_get_exported_namespace(kPlatformNamespaceName); if (android_parent_ns == nullptr) { android_parent_ns = android_get_exported_namespace(kDefaultNamespaceName); } } android_namespace_t* ns = android_create_namespace(namespace_name, nullptr, library_path.c_str(), namespace_type, permitted_path.c_str(), android_parent_ns); if (ns == nullptr) { *error_msg = dlerror(); return nullptr; } // Note that when vendor_ns is not configured this function will return nullptr // and it will result in linking vendor_public_libraries_ to the default namespace // which is expected behavior in this case. android_namespace_t* vendor_ns = android_get_exported_namespace(kVendorNamespaceName); android_namespace_t* runtime_ns = android_get_exported_namespace(kRuntimeNamespaceName); if (!android_link_namespaces(ns, nullptr, system_exposed_libraries.c_str())) { *error_msg = dlerror(); return nullptr; } // Runtime apex does not exist in host, and under certain build conditions. if (runtime_ns != nullptr) { if (!android_link_namespaces(ns, runtime_ns, runtime_exposed_libraries.c_str())) { *error_msg = dlerror(); return nullptr; } } if (vndk_ns != nullptr && !system_vndksp_libraries_.empty()) { // vendor apks are allowed to use VNDK-SP libraries. if (!android_link_namespaces(ns, vndk_ns, system_vndksp_libraries_.c_str())) { *error_msg = dlerror(); return nullptr; } } if (!vendor_public_libraries_.empty()) { if (!android_link_namespaces(ns, vendor_ns, vendor_public_libraries_.c_str())) { *error_msg = dlerror(); return nullptr; } } native_loader_ns = NativeLoaderNamespace(ns); } else { native_bridge_namespace_t* native_bridge_parent_namespace; if (parent_ns != nullptr) { native_bridge_parent_namespace = parent_ns->get_native_bridge_ns(); } else { native_bridge_parent_namespace = NativeBridgeGetExportedNamespace(kPlatformNamespaceName); if (native_bridge_parent_namespace == nullptr) { native_bridge_parent_namespace = NativeBridgeGetExportedNamespace(kDefaultNamespaceName); } } native_bridge_namespace_t* ns = NativeBridgeCreateNamespace(namespace_name, nullptr, library_path.c_str(), namespace_type, permitted_path.c_str(), native_bridge_parent_namespace); if (ns == nullptr) { *error_msg = NativeBridgeGetError(); return nullptr; } native_bridge_namespace_t* vendor_ns = NativeBridgeGetExportedNamespace(kVendorNamespaceName); native_bridge_namespace_t* runtime_ns = NativeBridgeGetExportedNamespace(kRuntimeNamespaceName); if (!NativeBridgeLinkNamespaces(ns, nullptr, system_exposed_libraries.c_str())) { *error_msg = NativeBridgeGetError(); return nullptr; } // Runtime apex does not exist in host, and under certain build conditions. if (runtime_ns != nullptr) { if (!NativeBridgeLinkNamespaces(ns, runtime_ns, runtime_exposed_libraries.c_str())) { *error_msg = NativeBridgeGetError(); return nullptr; } } if (!vendor_public_libraries_.empty()) { if (!NativeBridgeLinkNamespaces(ns, vendor_ns, vendor_public_libraries_.c_str())) { *error_msg = NativeBridgeGetError(); return nullptr; } } native_loader_ns = NativeLoaderNamespace(ns); } namespaces_.push_back(std::make_pair(env->NewWeakGlobalRef(class_loader), native_loader_ns)); return &(namespaces_.back().second); } NativeLoaderNamespace* FindNamespaceByClassLoader(JNIEnv* env, jobject class_loader) { auto it = std::find_if(namespaces_.begin(), namespaces_.end(), [&](const std::pair& value) { return env->IsSameObject(value.first, class_loader); }); if (it != namespaces_.end()) { return &it->second; } return nullptr; } void Initialize() { // Once public namespace is initialized there is no // point in running this code - it will have no effect // on the current list of public libraries. if (initialized_) { return; } std::vector sonames; const char* android_root_env = getenv("ANDROID_ROOT"); std::string root_dir = android_root_env != nullptr ? android_root_env : "/system"; std::string public_native_libraries_system_config = root_dir + kPublicNativeLibrariesSystemConfigPathFromRoot; std::string llndk_native_libraries_system_config = root_dir + kLlndkNativeLibrariesSystemConfigPathFromRoot; std::string vndksp_native_libraries_system_config = root_dir + kVndkspNativeLibrariesSystemConfigPathFromRoot; std::string product_public_native_libraries_dir = "/product/etc"; std::string error_msg; LOG_ALWAYS_FATAL_IF( !ReadConfig(public_native_libraries_system_config, &sonames, always_true, &error_msg), "Error reading public native library list from \"%s\": %s", public_native_libraries_system_config.c_str(), error_msg.c_str()); // For debuggable platform builds use ANDROID_ADDITIONAL_PUBLIC_LIBRARIES environment // variable to add libraries to the list. This is intended for platform tests only. if (is_debuggable()) { const char* additional_libs = getenv("ANDROID_ADDITIONAL_PUBLIC_LIBRARIES"); if (additional_libs != nullptr && additional_libs[0] != '\0') { std::vector additional_libs_vector = base::Split(additional_libs, ":"); std::copy(additional_libs_vector.begin(), additional_libs_vector.end(), std::back_inserter(sonames)); } } // Remove the public libs in the runtime namespace. // These libs are listed in public.android.txt, but we don't want the rest of android // in default namespace to dlopen the libs. // For example, libicuuc.so is exposed to classloader namespace from runtime namespace. // Unfortunately, it does not have stable C symbols, and default namespace should only use // stable symbols in libandroidicu.so. http://b/120786417 removePublicLibsIfExistsInRuntimeApex(sonames); // android_init_namespaces() expects all the public libraries // to be loaded so that they can be found by soname alone. // // TODO(dimitry): this is a bit misleading since we do not know // if the vendor public library is going to be opened from /vendor/lib // we might as well end up loading them from /system/lib or /product/lib // For now we rely on CTS test to catch things like this but // it should probably be addressed in the future. for (const auto& soname : sonames) { LOG_ALWAYS_FATAL_IF(dlopen(soname.c_str(), RTLD_NOW | RTLD_NODELETE) == nullptr, "Error preloading public library %s: %s", soname.c_str(), dlerror()); } system_public_libraries_ = base::Join(sonames, ':'); // read /system/etc/public.libraries-.txt which contain partner defined // system libs that are exposed to apps. The libs in the txt files must be // named as lib..so. sonames.clear(); ReadExtensionLibraries(base::Dirname(public_native_libraries_system_config).c_str(), &sonames); oem_public_libraries_ = base::Join(sonames, ':'); // read /product/etc/public.libraries-.txt which contain partner defined // product libs that are exposed to apps. sonames.clear(); ReadExtensionLibraries(product_public_native_libraries_dir.c_str(), &sonames); product_public_libraries_ = base::Join(sonames, ':'); // Insert VNDK version to llndk and vndksp config file names. insert_vndk_version_str(&llndk_native_libraries_system_config); insert_vndk_version_str(&vndksp_native_libraries_system_config); sonames.clear(); ReadConfig(llndk_native_libraries_system_config, &sonames, always_true); system_llndk_libraries_ = base::Join(sonames, ':'); sonames.clear(); ReadConfig(vndksp_native_libraries_system_config, &sonames, always_true); system_vndksp_libraries_ = base::Join(sonames, ':'); sonames.clear(); // This file is optional, quietly ignore if the file does not exist. ReadConfig(kPublicNativeLibrariesVendorConfig, &sonames, always_true, nullptr); vendor_public_libraries_ = base::Join(sonames, ':'); } void Reset() { namespaces_.clear(); } private: void ReadExtensionLibraries(const char* dirname, std::vector* sonames) { std::unique_ptr dir(opendir(dirname), closedir); if (dir != nullptr) { // Failing to opening the dir is not an error, which can happen in // webview_zygote. while (struct dirent* ent = readdir(dir.get())) { if (ent->d_type != DT_REG && ent->d_type != DT_LNK) { continue; } const std::string filename(ent->d_name); if (android::base::StartsWith(filename, kPublicNativeLibrariesExtensionConfigPrefix) && android::base::EndsWith(filename, kPublicNativeLibrariesExtensionConfigSuffix)) { const size_t start = kPublicNativeLibrariesExtensionConfigPrefixLen; const size_t end = filename.size() - kPublicNativeLibrariesExtensionConfigSuffixLen; const std::string company_name = filename.substr(start, end - start); const std::string config_file_path = dirname + "/"s + filename; LOG_ALWAYS_FATAL_IF( company_name.empty(), "Error extracting company name from public native library list file path \"%s\"", config_file_path.c_str()); std::string error_msg; LOG_ALWAYS_FATAL_IF( !ReadConfig( config_file_path, sonames, [&company_name](const std::string& soname, std::string* error_msg) { if (android::base::StartsWith(soname, "lib") && android::base::EndsWith(soname, "." + company_name + ".so")) { return true; } else { *error_msg = "Library name \"" + soname + "\" does not end with the company name: " + company_name + "."; return false; } }, &error_msg), "Error reading public native library list from \"%s\": %s", config_file_path.c_str(), error_msg.c_str()); } } } } /** * Remove the public libs in runtime namespace */ void removePublicLibsIfExistsInRuntimeApex(std::vector& sonames) { for (const std::string& lib_name : kRuntimePublicLibraries) { std::string path(kRuntimeApexLibPath); path.append("/").append(lib_name); struct stat s; // Do nothing if the path in /apex does not exist. // Runtime APEX must be mounted since libnativeloader is in the same APEX if (stat(path.c_str(), &s) != 0) { continue; } auto it = std::find(sonames.begin(), sonames.end(), lib_name); if (it != sonames.end()) { sonames.erase(it); } } } bool ReadConfig(const std::string& configFile, std::vector* sonames, const std::function& check_soname, std::string* error_msg = nullptr) { // Read list of public native libraries from the config file. std::string file_content; if(!base::ReadFileToString(configFile, &file_content)) { if (error_msg) *error_msg = strerror(errno); return false; } std::vector lines = base::Split(file_content, "\n"); for (auto& line : lines) { auto trimmed_line = base::Trim(line); if (trimmed_line[0] == '#' || trimmed_line.empty()) { continue; } size_t space_pos = trimmed_line.rfind(' '); if (space_pos != std::string::npos) { std::string type = trimmed_line.substr(space_pos + 1); if (type != "32" && type != "64") { if (error_msg) *error_msg = "Malformed line: " + line; return false; } #if defined(__LP64__) // Skip 32 bit public library. if (type == "32") { continue; } #else // Skip 64 bit public library. if (type == "64") { continue; } #endif trimmed_line.resize(space_pos); } if (check_soname(trimmed_line, error_msg)) { sonames->push_back(trimmed_line); } else { return false; } } return true; } bool InitPublicNamespace(const char* library_path, std::string* error_msg) { // Ask native bride if this apps library path should be handled by it bool is_native_bridge = NativeBridgeIsPathSupported(library_path); // (http://b/25844435) - Some apps call dlopen from generated code (mono jited // code is one example) unknown to linker in which case linker uses anonymous // namespace. The second argument specifies the search path for the anonymous // namespace which is the library_path of the classloader. initialized_ = android_init_anonymous_namespace(system_public_libraries_.c_str(), is_native_bridge ? nullptr : library_path); if (!initialized_) { *error_msg = dlerror(); return false; } // and now initialize native bridge namespaces if necessary. if (NativeBridgeInitialized()) { initialized_ = NativeBridgeInitAnonymousNamespace(system_public_libraries_.c_str(), is_native_bridge ? library_path : nullptr); if (!initialized_) { *error_msg = NativeBridgeGetError(); } } return initialized_; } jobject GetParentClassLoader(JNIEnv* env, jobject class_loader) { jclass class_loader_class = env->FindClass("java/lang/ClassLoader"); jmethodID get_parent = env->GetMethodID(class_loader_class, "getParent", "()Ljava/lang/ClassLoader;"); return env->CallObjectMethod(class_loader, get_parent); } NativeLoaderNamespace* FindParentNamespaceByClassLoader(JNIEnv* env, jobject class_loader) { jobject parent_class_loader = GetParentClassLoader(env, class_loader); while (parent_class_loader != nullptr) { NativeLoaderNamespace* ns; if ((ns = FindNamespaceByClassLoader(env, parent_class_loader)) != nullptr) { return ns; } parent_class_loader = GetParentClassLoader(env, parent_class_loader); } return nullptr; } ApkOrigin GetApkOriginFromDexPath(JNIEnv* env, jstring dex_path) { ApkOrigin apk_origin = APK_ORIGIN_DEFAULT; if (dex_path != nullptr) { ScopedUtfChars dex_path_utf_chars(env, dex_path); if (std::regex_search(dex_path_utf_chars.c_str(), kVendorDexPathRegex)) { apk_origin = APK_ORIGIN_VENDOR; } if (std::regex_search(dex_path_utf_chars.c_str(), kProductDexPathRegex)) { LOG_ALWAYS_FATAL_IF(apk_origin == APK_ORIGIN_VENDOR, "Dex path contains both vendor and product partition : %s", dex_path_utf_chars.c_str()); apk_origin = APK_ORIGIN_PRODUCT; } } return apk_origin; } bool initialized_; std::list> namespaces_; std::string system_public_libraries_; std::string vendor_public_libraries_; std::string oem_public_libraries_; std::string product_public_libraries_; std::string system_llndk_libraries_; std::string system_vndksp_libraries_; DISALLOW_COPY_AND_ASSIGN(LibraryNamespaces); }; static std::mutex g_namespaces_mutex; static LibraryNamespaces* g_namespaces = new LibraryNamespaces; #endif void InitializeNativeLoader() { #if defined(__ANDROID__) std::lock_guard guard(g_namespaces_mutex); g_namespaces->Initialize(); #endif } void ResetNativeLoader() { #if defined(__ANDROID__) std::lock_guard guard(g_namespaces_mutex); g_namespaces->Reset(); #endif } jstring CreateClassLoaderNamespace(JNIEnv* env, int32_t target_sdk_version, jobject class_loader, bool is_shared, jstring dex_path, jstring library_path, jstring permitted_path) { #if defined(__ANDROID__) std::lock_guard guard(g_namespaces_mutex); std::string error_msg; bool success = g_namespaces->Create(env, target_sdk_version, class_loader, is_shared, dex_path, library_path, permitted_path, &error_msg) != nullptr; if (!success) { return env->NewStringUTF(error_msg.c_str()); } #else UNUSED(env, target_sdk_version, class_loader, is_shared, dex_path, library_path, permitted_path); #endif return nullptr; } #if defined(__ANDROID__) static android_namespace_t* FindExportedNamespace(const char* caller_location) { std::string location = caller_location; // Lots of implicit assumptions here: we expect `caller_location` to be of the form: // /apex/com.android...modulename/... // // And we extract from it 'modulename', which is the name of the linker namespace. if (android::base::StartsWith(location, kApexPath)) { size_t slash_index = location.find_first_of('/', strlen(kApexPath)); LOG_ALWAYS_FATAL_IF((slash_index == std::string::npos), "Error finding namespace of apex: no slash in path %s", caller_location); size_t dot_index = location.find_last_of('.', slash_index); LOG_ALWAYS_FATAL_IF((dot_index == std::string::npos), "Error finding namespace of apex: no dot in apex name %s", caller_location); std::string name = location.substr(dot_index + 1, slash_index - dot_index - 1); android_namespace_t* boot_namespace = android_get_exported_namespace(name.c_str()); LOG_ALWAYS_FATAL_IF((boot_namespace == nullptr), "Error finding namespace of apex: no namespace called %s", name.c_str()); return boot_namespace; } return nullptr; } #endif void* OpenNativeLibrary(JNIEnv* env, int32_t target_sdk_version, const char* path, jobject class_loader, const char* caller_location, jstring library_path, bool* needs_native_bridge, char** error_msg) { #if defined(__ANDROID__) UNUSED(target_sdk_version); if (class_loader == nullptr) { *needs_native_bridge = false; if (caller_location != nullptr) { android_namespace_t* boot_namespace = FindExportedNamespace(caller_location); if (boot_namespace != nullptr) { const android_dlextinfo dlextinfo = { .flags = ANDROID_DLEXT_USE_NAMESPACE, .library_namespace = boot_namespace, }; void* handle = android_dlopen_ext(path, RTLD_NOW, &dlextinfo); if (handle == nullptr) { *error_msg = strdup(dlerror()); } return handle; } } void* handle = dlopen(path, RTLD_NOW); if (handle == nullptr) { *error_msg = strdup(dlerror()); } return handle; } std::lock_guard guard(g_namespaces_mutex); NativeLoaderNamespace* ns; if ((ns = g_namespaces->FindNamespaceByClassLoader(env, class_loader)) == nullptr) { // This is the case where the classloader was not created by ApplicationLoaders // In this case we create an isolated not-shared namespace for it. std::string create_error_msg; if ((ns = g_namespaces->Create(env, target_sdk_version, class_loader, false /* is_shared */, nullptr, library_path, nullptr, &create_error_msg)) == nullptr) { *error_msg = strdup(create_error_msg.c_str()); return nullptr; } } return OpenNativeLibraryInNamespace(ns, path, needs_native_bridge, error_msg); #else UNUSED(env, target_sdk_version, class_loader, caller_location); // Do some best effort to emulate library-path support. It will not // work for dependencies. // // Note: null has a special meaning and must be preserved. std::string c_library_path; // Empty string by default. if (library_path != nullptr && path != nullptr && path[0] != '/') { ScopedUtfChars library_path_utf_chars(env, library_path); c_library_path = library_path_utf_chars.c_str(); } std::vector library_paths = base::Split(c_library_path, ":"); for (const std::string& lib_path : library_paths) { *needs_native_bridge = false; const char* path_arg; std::string complete_path; if (path == nullptr) { // Preserve null. path_arg = nullptr; } else { complete_path = lib_path; if (!complete_path.empty()) { complete_path.append("/"); } complete_path.append(path); path_arg = complete_path.c_str(); } void* handle = dlopen(path_arg, RTLD_NOW); if (handle != nullptr) { return handle; } if (NativeBridgeIsSupported(path_arg)) { *needs_native_bridge = true; handle = NativeBridgeLoadLibrary(path_arg, RTLD_NOW); if (handle != nullptr) { return handle; } *error_msg = strdup(NativeBridgeGetError()); } else { *error_msg = strdup(dlerror()); } } return nullptr; #endif } bool CloseNativeLibrary(void* handle, const bool needs_native_bridge, char** error_msg) { bool success; if (needs_native_bridge) { success = (NativeBridgeUnloadLibrary(handle) == 0); if (!success) { *error_msg = strdup(NativeBridgeGetError()); } } else { success = (dlclose(handle) == 0); if (!success) { *error_msg = strdup(dlerror()); } } return success; } void NativeLoaderFreeErrorMessage(char* msg) { // The error messages get allocated through strdup, so we must call free on them. free(msg); } #if defined(__ANDROID__) void* OpenNativeLibraryInNamespace(NativeLoaderNamespace* ns, const char* path, bool* needs_native_bridge, char** error_msg) { if (ns->is_android_namespace()) { android_dlextinfo extinfo; extinfo.flags = ANDROID_DLEXT_USE_NAMESPACE; extinfo.library_namespace = ns->get_android_ns(); void* handle = android_dlopen_ext(path, RTLD_NOW, &extinfo); if (handle == nullptr) { *error_msg = strdup(dlerror()); } *needs_native_bridge = false; return handle; } else { void* handle = NativeBridgeLoadLibraryExt(path, RTLD_NOW, ns->get_native_bridge_ns()); if (handle == nullptr) { *error_msg = strdup(NativeBridgeGetError()); } *needs_native_bridge = true; return handle; } } // native_bridge_namespaces are not supported for callers of this function. // This function will return nullptr in the case when application is running // on native bridge. android_namespace_t* FindNamespaceByClassLoader(JNIEnv* env, jobject class_loader) { std::lock_guard guard(g_namespaces_mutex); NativeLoaderNamespace* ns = g_namespaces->FindNamespaceByClassLoader(env, class_loader); if (ns != nullptr) { return ns->is_android_namespace() ? ns->get_android_ns() : nullptr; } return nullptr; } NativeLoaderNamespace* FindNativeLoaderNamespaceByClassLoader(JNIEnv* env, jobject class_loader) { std::lock_guard guard(g_namespaces_mutex); return g_namespaces->FindNamespaceByClassLoader(env, class_loader); } #endif }; // android namespace