/* * Copyright (C) 2017 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. */ #ifndef ART_RUNTIME_CLASS_LOADER_CONTEXT_H_ #define ART_RUNTIME_CLASS_LOADER_CONTEXT_H_ #include #include #include #include "arch/instruction_set.h" #include "base/dchecked_vector.h" #include "dex/dex_file.h" #include "handle_scope.h" #include "mirror/class_loader.h" #include "oat_file.h" #include "scoped_thread_state_change.h" namespace art { class DexFile; class OatFile; // Utility class which holds the class loader context used during compilation/verification. class ClassLoaderContext { public: enum class VerificationResult { kVerifies, kMismatch, }; enum ClassLoaderType { kInvalidClassLoader = 0, kPathClassLoader = 1, kDelegateLastClassLoader = 2, kInMemoryDexClassLoader = 3 }; // Special encoding used to denote a foreign ClassLoader was found when trying to encode class // loader contexts for each classpath element in a ClassLoader. See // EncodeClassPathContextsForClassLoader. Keep in sync with PackageDexUsage in the framework. static constexpr const char* kUnsupportedClassLoaderContextEncoding = "=UnsupportedClassLoaderContext="; ~ClassLoaderContext(); // Opens requested class path files and appends them to ClassLoaderInfo::opened_dex_files. // If the dex files have been stripped, the method opens them from their oat files which are added // to ClassLoaderInfo::opened_oat_files. The 'classpath_dir' argument specifies the directory to // use for the relative class paths. // Returns true if all dex files where successfully opened. // It may be called only once per ClassLoaderContext. Subsequent calls will return the same // result without doing anything. // If `context_fds` is an empty vector, files will be opened using the class path locations as // filenames. Otherwise `context_fds` is expected to contain file descriptors to class path dex // files, following the order of dex file locations in a flattened class loader context. If their // number (size of `context_fds`) does not match the number of dex files, OpenDexFiles will fail. // // This will replace the class path locations with the locations of the opened dex files. // (Note that one dex file can contain multidexes. Each multidex will be added to the classpath // separately.) // // only_read_checksums controls whether or not we only read the dex locations and the checksums // from the apk instead of fully opening the dex files. // // This method is not thread safe. // // Note that a "false" return could mean that either an apk/jar contained no dex files or // that we hit a I/O or checksum mismatch error. // TODO(calin): Currently there's no easy way to tell the difference. // // TODO(calin): we're forced to complicate the flow in this class with a different // OpenDexFiles step because the current dex2oat flow requires the dex files be opened before // the class loader is created. Consider reworking the dex2oat part. bool OpenDexFiles(const std::string& classpath_dir = "", const std::vector& context_fds = std::vector(), bool only_read_checksums = false); // Remove the specified compilation sources from all classpaths present in this context. // Should only be called before the first call to OpenDexFiles(). bool RemoveLocationsFromClassPaths(const dchecked_vector& compilation_sources); // Creates the entire class loader hierarchy according to the current context. // Returns the first class loader from the chain. // // For example: if the context was built from the spec // "ClassLoaderType1[ClasspathElem1:ClasspathElem2...];ClassLoaderType2[...]..." // the method returns the class loader correponding to ClassLoader1. The parent chain will be // ClassLoader1 --> ClassLoader2 --> ... --> BootClassLoader. // // The compilation sources are appended to the classpath of the first class loader (in the above // example ClassLoader1). // // If the context is empty, this method only creates a single PathClassLoader with the // given compilation_sources. // // Shared libraries found in the chain will be canonicalized based on the dex files they // contain. // // Implementation notes: // 1) the objects are not completely set up. Do not use this outside of tests and the compiler. // 2) should only be called before the first call to OpenDexFiles(). jobject CreateClassLoader(const std::vector& compilation_sources) const; // Encodes the context as a string suitable to be added in oat files. // (so that it can be read and verified at runtime against the actual class // loader hierarchy). // Should only be called if OpenDexFiles() returned true. // If stored context is non-null, the stored names are overwritten by the class path from the // stored context. // E.g. if the context is PCL[a.dex:b.dex] this will return // "PCL[a.dex*a_checksum*b.dex*a_checksum]". std::string EncodeContextForOatFile(const std::string& base_dir, ClassLoaderContext* stored_context = nullptr) const; // Encodes the context as a string suitable to be passed to dex2oat. // This is the same as EncodeContextForOatFile but without adding the checksums // and only adding each dex files once (no multidex). // Should only be called if OpenDexFiles() returned true. std::string EncodeContextForDex2oat(const std::string& base_dir) const; // Encodes the contexts for each of the classpath elements in the child-most // classloader. Under the hood EncodeContextForDex2oat is used, so no checksums // will be encoded. // Should only be called if the dex files are opened (either via OpenDexFiles() or by creating the // context from a live class loader). // Notably, for each classpath element the encoded classloader context will contain only the // elements that appear before it in the containing classloader. E.g. if `this` contains // (from child to parent): // // PathClassLoader { multidex.apk!classes.dex, multidex.apk!classes2.dex, foo.dex, bar.dex } -> // PathClassLoader { baz.dex } -> BootClassLoader // // then the return value will look like: // // `{ "multidex.apk": "PCL[];PCL[baz.dex]", // "foo.dex" : "PCL[multidex.apk];PCL[baz.dex]", // "bar.dex" : "PCL[multidex.apk:foo.dex];PCL[baz.dex]" }` std::map EncodeClassPathContexts(const std::string& base_dir) const; // Flattens the opened dex files into the given vector. // Should only be called if OpenDexFiles() returned true. std::vector FlattenOpenedDexFiles() const; // Return a colon-separated list of dex file locations from this class loader // context after flattening. std::string FlattenDexPaths() const; // Verifies that the current context is identical to the context encoded as `context_spec`. // Identical means: // - the number and type of the class loaders from the chain matches // - the class loader from the same position have the same classpath // (the order and checksum of the dex files matches) // This should be called after OpenDexFiles() with only_read_checksums=true. There's no // need to fully open the dex files if the only thing that needs to be done is to verify // the context. // // Names are only verified if verify_names is true. // Checksums are only verified if verify_checksums is true. VerificationResult VerifyClassLoaderContextMatch(const std::string& context_spec, bool verify_names = true, bool verify_checksums = true) const; // Checks if any of the given dex files is already loaded in the current class loader context. // It only checks the first class loader. // Returns the list of duplicate dex files (empty if there are no duplicates). std::set CheckForDuplicateDexFiles( const std::vector& dex_files); // Creates the class loader context from the given string. // The format: ClassLoaderType1[ClasspathElem1:ClasspathElem2...];ClassLoaderType2[...]... // ClassLoaderType is either "PCL" (PathClassLoader) or "DLC" (DelegateLastClassLoader). // ClasspathElem is the path of dex/jar/apk file. // // The spec represents a class loader chain with the natural interpretation: // ClassLoader1 has ClassLoader2 as parent which has ClassLoader3 as a parent and so on. // The last class loader is assumed to have the BootClassLoader as a parent. // // Note that we allowed class loaders with an empty class path in order to support a custom // class loader for the source dex files. static std::unique_ptr Create(const std::string& spec); // Creates a context for the given class_loader and dex_elements. // The method will walk the parent chain starting from `class_loader` and add their dex files // to the current class loaders chain. The `dex_elements` will be added at the end of the // classpath belonging to the `class_loader` argument. // The ownership of the opened dex files will be retained by the given `class_loader`. // If there are errors in processing the class loader chain (e.g. unsupported elements) the // method returns null. static std::unique_ptr CreateContextForClassLoader(jobject class_loader, jobjectArray dex_elements); // Returns the default class loader context to be used when none is specified. // This will return a context with a single and empty PathClassLoader. static std::unique_ptr Default(); // Encodes the contexts for each of the classpath elements in `class_loader`. See // ClassLoaderContext::EncodeClassPathContexts for more information about the return value. // // If `class_loader` does not derive from BaseDexClassLoader then an empty map is returned. // Otherwise if a foreign ClassLoader is found in the class loader chain then the results values // will all be ClassLoaderContext::kUnsupportedClassLoaderContextEncoding. static std::map EncodeClassPathContextsForClassLoader( jobject class_loader); // Returns whether `encoded_class_loader_context` is a valid encoded ClassLoaderContext or // EncodedUnsupportedClassLoaderContext. static bool IsValidEncoding(const std::string& possible_encoded_class_loader_context); struct ClassLoaderInfo { // The type of this class loader. ClassLoaderType type; // Shared libraries this context has. std::vector> shared_libraries; // The list of class path elements that this loader loads. // Note that this list may contain relative paths. std::vector classpath; // Original opened class path (ignoring multidex). std::vector original_classpath; // The list of class path elements checksums. // May be empty if the checksums are not given when the context is created. std::vector checksums; // After OpenDexFiles is called this holds the opened dex files. std::vector> opened_dex_files; // After OpenDexFiles, in case some of the dex files were opened from their oat files // this holds the list of opened oat files. std::vector> opened_oat_files; // The parent class loader. std::unique_ptr parent; explicit ClassLoaderInfo(ClassLoaderType cl_type) : type(cl_type) {} }; private: // Creates an empty context (with no class loaders). ClassLoaderContext(); // Get the parent of the class loader chain at depth `index`. ClassLoaderInfo* GetParent(size_t index) const { ClassLoaderInfo* result = class_loader_chain_.get(); while ((result != nullptr) && (index-- != 0)) { result = result->parent.get(); } return result; } size_t GetParentChainSize() const { size_t result = 0; ClassLoaderInfo* info = class_loader_chain_.get(); while (info != nullptr) { ++result; info = info->parent.get(); } return result; } // Constructs an empty context. // `owns_the_dex_files` specifies whether or not the context will own the opened dex files // present in the class loader chain. If `owns_the_dex_files` is true then OpenDexFiles cannot // be called on this context (dex_files_open_attempted_ and dex_files_open_result_ will be set // to true as well) explicit ClassLoaderContext(bool owns_the_dex_files); // Reads the class loader spec in place and returns true if the spec is valid and the // compilation context was constructed. bool Parse(const std::string& spec, bool parse_checksums = false); ClassLoaderInfo* ParseInternal(const std::string& spec, bool parse_checksums); // Attempts to parse a single class loader spec. // Returns the ClassLoaderInfo abstraction for this spec, or null if it cannot be parsed. std::unique_ptr ParseClassLoaderSpec( const std::string& class_loader_spec, bool parse_checksums = false); // CHECKs that the dex files were opened (OpenDexFiles was called and set dex_files_open_result_ // to true). Aborts if not. The `calling_method` is used in the log message to identify the source // of the call. void CheckDexFilesOpened(const std::string& calling_method) const; // Creates the `ClassLoaderInfo` representing`class_loader` and attach it to `this`. // The dex file present in `dex_elements` array (if not null) will be added at the end of // the classpath. bool CreateInfoFromClassLoader(ScopedObjectAccessAlreadyRunnable& soa, Handle class_loader, Handle> dex_elements, ClassLoaderInfo* child_info, bool is_shared_library) REQUIRES_SHARED(Locks::mutator_lock_); // Encodes the context as a string suitable to be passed to dex2oat or to be added to the // oat file as the class path key. // If for_dex2oat is true, the encoding adds each file once (i.e. it does not add multidex // location). Otherwise, for oat files, the encoding adds all the dex files (including multidex) // together with their checksums. // Should only be called if OpenDexFiles() returned true. std::string EncodeContext(const std::string& base_dir, bool for_dex2oat, ClassLoaderContext* stored_context) const; // Internal version of `EncodeContext`, which will be called recursively // on the parent and shared libraries. void EncodeContextInternal(const ClassLoaderInfo& info, const std::string& base_dir, bool for_dex2oat, ClassLoaderInfo* stored_info, std::ostringstream& out) const; // Encodes e.g. PCL[foo.dex:bar.dex] void EncodeClassPath(const std::string& base_dir, const std::vector& dex_locations, const std::vector& checksums, ClassLoaderType type, std::ostringstream& out) const; // Encodes the shared libraries classloaders and the parent classloader if // either are present in info, e.g. {PCL[foo.dex]#PCL[bar.dex]};PCL[baz.dex] void EncodeSharedLibAndParent(const ClassLoaderInfo& info, const std::string& base_dir, bool for_dex2oat, ClassLoaderInfo* stored_info, std::ostringstream& out) const; bool ClassLoaderInfoMatch(const ClassLoaderInfo& info, const ClassLoaderInfo& expected_info, const std::string& context_spec, bool verify_names, bool verify_checksums) const; // Extracts the class loader type from the given spec. // Return ClassLoaderContext::kInvalidClassLoader if the class loader type is not // recognized. static ClassLoaderType ExtractClassLoaderType(const std::string& class_loader_spec); // Returns the string representation of the class loader type. // The returned format can be used when parsing a context spec. static const char* GetClassLoaderTypeName(ClassLoaderType type); // Encodes the state of processing the dex files associated with the context. enum ContextDexFilesState { // The dex files are not opened. kDexFilesNotOpened = 1, // The dex checksums/locations were read from the apk/dex but the dex files were not opened. kDexFilesChecksumsRead = 2, // The dex files are opened (either because we called OpenDexFiles, or we used a class loader // to create the context). This implies kDexFilesChecksumsRead. kDexFilesOpened = 3, // We failed to open the dex files or read the checksums. kDexFilesOpenFailed = 4 }; // The class loader chain. std::unique_ptr class_loader_chain_; // The opening state of the dex files. ContextDexFilesState dex_files_state_; // Whether or not the context owns the opened dex and oat files. // If true, the opened dex files will be de-allocated when the context is destructed. // If false, the objects will continue to be alive. // Note that for convenience the the opened dex/oat files are stored as unique pointers // which will release their ownership in the destructor based on this flag. const bool owns_the_dex_files_; friend class ClassLoaderContextTest; DISALLOW_COPY_AND_ASSIGN(ClassLoaderContext); }; } // namespace art #endif // ART_RUNTIME_CLASS_LOADER_CONTEXT_H_