// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // // Interface for manipulating databases of descriptors. #ifndef GOOGLE_PROTOBUF_DESCRIPTOR_DATABASE_H__ #define GOOGLE_PROTOBUF_DESCRIPTOR_DATABASE_H__ #include #include #include #include #include #include #include #ifdef SWIG #error "You cannot SWIG proto headers" #endif namespace google { namespace protobuf { // Defined in this file. class DescriptorDatabase; class SimpleDescriptorDatabase; class EncodedDescriptorDatabase; class DescriptorPoolDatabase; class MergedDescriptorDatabase; // Abstract interface for a database of descriptors. // // This is useful if you want to create a DescriptorPool which loads // descriptors on-demand from some sort of large database. If the database // is large, it may be inefficient to enumerate every .proto file inside it // calling DescriptorPool::BuildFile() for each one. Instead, a DescriptorPool // can be created which wraps a DescriptorDatabase and only builds particular // descriptors when they are needed. class PROTOBUF_EXPORT DescriptorDatabase { public: inline DescriptorDatabase() {} virtual ~DescriptorDatabase(); // Find a file by file name. Fills in in *output and returns true if found. // Otherwise, returns false, leaving the contents of *output undefined. virtual bool FindFileByName(const std::string& filename, FileDescriptorProto* output) = 0; // Find the file that declares the given fully-qualified symbol name. // If found, fills in *output and returns true, otherwise returns false // and leaves *output undefined. virtual bool FindFileContainingSymbol(const std::string& symbol_name, FileDescriptorProto* output) = 0; // Find the file which defines an extension extending the given message type // with the given field number. If found, fills in *output and returns true, // otherwise returns false and leaves *output undefined. containing_type // must be a fully-qualified type name. virtual bool FindFileContainingExtension(const std::string& containing_type, int field_number, FileDescriptorProto* output) = 0; // Finds the tag numbers used by all known extensions of // extendee_type, and appends them to output in an undefined // order. This method is best-effort: it's not guaranteed that the // database will find all extensions, and it's not guaranteed that // FindFileContainingExtension will return true on all of the found // numbers. Returns true if the search was successful, otherwise // returns false and leaves output unchanged. // // This method has a default implementation that always returns // false. virtual bool FindAllExtensionNumbers(const std::string& /* extendee_type */, std::vector* /* output */) { return false; } // Finds the file names and appends them to the output in an // undefined order. This method is best-effort: it's not guaranteed that the // database will find all files. Returns true if the database supports // searching all file names, otherwise returns false and leaves output // unchanged. // // This method has a default implementation that always returns // false. virtual bool FindAllFileNames(std::vector* /*output*/) { return false; } // Finds the package names and appends them to the output in an // undefined order. This method is best-effort: it's not guaranteed that the // database will find all packages. Returns true if the database supports // searching all package names, otherwise returns false and leaves output // unchanged. bool FindAllPackageNames(std::vector* output); // Finds the message names and appends them to the output in an // undefined order. This method is best-effort: it's not guaranteed that the // database will find all messages. Returns true if the database supports // searching all message names, otherwise returns false and leaves output // unchanged. bool FindAllMessageNames(std::vector* output); private: GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(DescriptorDatabase); }; // A DescriptorDatabase into which you can insert files manually. // // FindFileContainingSymbol() is fully-implemented. When you add a file, its // symbols will be indexed for this purpose. Note that the implementation // may return false positives, but only if it isn't possible for the symbol // to be defined in any other file. In particular, if a file defines a symbol // "Foo", then searching for "Foo.[anything]" will match that file. This way, // the database does not need to aggressively index all children of a symbol. // // FindFileContainingExtension() is mostly-implemented. It works if and only // if the original FieldDescriptorProto defining the extension has a // fully-qualified type name in its "extendee" field (i.e. starts with a '.'). // If the extendee is a relative name, SimpleDescriptorDatabase will not // attempt to resolve the type, so it will not know what type the extension is // extending. Therefore, calling FindFileContainingExtension() with the // extension's containing type will never actually find that extension. Note // that this is an unlikely problem, as all FileDescriptorProtos created by the // protocol compiler (as well as ones created by calling // FileDescriptor::CopyTo()) will always use fully-qualified names for all // types. You only need to worry if you are constructing FileDescriptorProtos // yourself, or are calling compiler::Parser directly. class PROTOBUF_EXPORT SimpleDescriptorDatabase : public DescriptorDatabase { public: SimpleDescriptorDatabase(); ~SimpleDescriptorDatabase() override; // Adds the FileDescriptorProto to the database, making a copy. The object // can be deleted after Add() returns. Returns false if the file conflicted // with a file already in the database, in which case an error will have // been written to GOOGLE_LOG(ERROR). bool Add(const FileDescriptorProto& file); // Adds the FileDescriptorProto to the database and takes ownership of it. bool AddAndOwn(const FileDescriptorProto* file); // implements DescriptorDatabase ----------------------------------- bool FindFileByName(const std::string& filename, FileDescriptorProto* output) override; bool FindFileContainingSymbol(const std::string& symbol_name, FileDescriptorProto* output) override; bool FindFileContainingExtension(const std::string& containing_type, int field_number, FileDescriptorProto* output) override; bool FindAllExtensionNumbers(const std::string& extendee_type, std::vector* output) override; bool FindAllFileNames(std::vector* output) override; private: // An index mapping file names, symbol names, and extension numbers to // some sort of values. template class DescriptorIndex { public: // Helpers to recursively add particular descriptors and all their contents // to the index. bool AddFile(const FileDescriptorProto& file, Value value); bool AddSymbol(const std::string& name, Value value); bool AddNestedExtensions(const std::string& filename, const DescriptorProto& message_type, Value value); bool AddExtension(const std::string& filename, const FieldDescriptorProto& field, Value value); Value FindFile(const std::string& filename); Value FindSymbol(const std::string& name); Value FindExtension(const std::string& containing_type, int field_number); bool FindAllExtensionNumbers(const std::string& containing_type, std::vector* output); void FindAllFileNames(std::vector* output); private: std::map by_name_; std::map by_symbol_; std::map, Value> by_extension_; // Invariant: The by_symbol_ map does not contain any symbols which are // prefixes of other symbols in the map. For example, "foo.bar" is a // prefix of "foo.bar.baz" (but is not a prefix of "foo.barbaz"). // // This invariant is important because it means that given a symbol name, // we can find a key in the map which is a prefix of the symbol in O(lg n) // time, and we know that there is at most one such key. // // The prefix lookup algorithm works like so: // 1) Find the last key in the map which is less than or equal to the // search key. // 2) If the found key is a prefix of the search key, then return it. // Otherwise, there is no match. // // I am sure this algorithm has been described elsewhere, but since I // wasn't able to find it quickly I will instead prove that it works // myself. The key to the algorithm is that if a match exists, step (1) // will find it. Proof: // 1) Define the "search key" to be the key we are looking for, the "found // key" to be the key found in step (1), and the "match key" to be the // key which actually matches the search key (i.e. the key we're trying // to find). // 2) The found key must be less than or equal to the search key by // definition. // 3) The match key must also be less than or equal to the search key // (because it is a prefix). // 4) The match key cannot be greater than the found key, because if it // were, then step (1) of the algorithm would have returned the match // key instead (since it finds the *greatest* key which is less than or // equal to the search key). // 5) Therefore, the found key must be between the match key and the search // key, inclusive. // 6) Since the search key must be a sub-symbol of the match key, if it is // not equal to the match key, then search_key[match_key.size()] must // be '.'. // 7) Since '.' sorts before any other character that is valid in a symbol // name, then if the found key is not equal to the match key, then // found_key[match_key.size()] must also be '.', because any other value // would make it sort after the search key. // 8) Therefore, if the found key is not equal to the match key, then the // found key must be a sub-symbol of the match key. However, this would // contradict our map invariant which says that no symbol in the map is // a sub-symbol of any other. // 9) Therefore, the found key must match the match key. // // The above proof assumes the match key exists. In the case that the // match key does not exist, then step (1) will return some other symbol. // That symbol cannot be a super-symbol of the search key since if it were, // then it would be a match, and we're assuming the match key doesn't exist. // Therefore, step 2 will correctly return no match. }; DescriptorIndex index_; std::vector> files_to_delete_; // If file is non-nullptr, copy it into *output and return true, otherwise // return false. bool MaybeCopy(const FileDescriptorProto* file, FileDescriptorProto* output); GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(SimpleDescriptorDatabase); }; // Very similar to SimpleDescriptorDatabase, but stores all the descriptors // as raw bytes and generally tries to use as little memory as possible. // // The same caveats regarding FindFileContainingExtension() apply as with // SimpleDescriptorDatabase. class PROTOBUF_EXPORT EncodedDescriptorDatabase : public DescriptorDatabase { public: EncodedDescriptorDatabase(); ~EncodedDescriptorDatabase() override; // Adds the FileDescriptorProto to the database. The descriptor is provided // in encoded form. The database does not make a copy of the bytes, nor // does it take ownership; it's up to the caller to make sure the bytes // remain valid for the life of the database. Returns false and logs an error // if the bytes are not a valid FileDescriptorProto or if the file conflicted // with a file already in the database. bool Add(const void* encoded_file_descriptor, int size); // Like Add(), but makes a copy of the data, so that the caller does not // need to keep it around. bool AddCopy(const void* encoded_file_descriptor, int size); // Like FindFileContainingSymbol but returns only the name of the file. bool FindNameOfFileContainingSymbol(const std::string& symbol_name, std::string* output); // implements DescriptorDatabase ----------------------------------- bool FindFileByName(const std::string& filename, FileDescriptorProto* output) override; bool FindFileContainingSymbol(const std::string& symbol_name, FileDescriptorProto* output) override; bool FindFileContainingExtension(const std::string& containing_type, int field_number, FileDescriptorProto* output) override; bool FindAllExtensionNumbers(const std::string& extendee_type, std::vector* output) override; bool FindAllFileNames(std::vector* output) override; private: class DescriptorIndex; // Keep DescriptorIndex by pointer to hide the implementation to keep a // cleaner header. std::unique_ptr index_; std::vector files_to_delete_; // If encoded_file.first is non-nullptr, parse the data into *output and // return true, otherwise return false. bool MaybeParse(std::pair encoded_file, FileDescriptorProto* output); GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(EncodedDescriptorDatabase); }; // A DescriptorDatabase that fetches files from a given pool. class PROTOBUF_EXPORT DescriptorPoolDatabase : public DescriptorDatabase { public: explicit DescriptorPoolDatabase(const DescriptorPool& pool); ~DescriptorPoolDatabase() override; // implements DescriptorDatabase ----------------------------------- bool FindFileByName(const std::string& filename, FileDescriptorProto* output) override; bool FindFileContainingSymbol(const std::string& symbol_name, FileDescriptorProto* output) override; bool FindFileContainingExtension(const std::string& containing_type, int field_number, FileDescriptorProto* output) override; bool FindAllExtensionNumbers(const std::string& extendee_type, std::vector* output) override; private: const DescriptorPool& pool_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(DescriptorPoolDatabase); }; // A DescriptorDatabase that wraps two or more others. It first searches the // first database and, if that fails, tries the second, and so on. class PROTOBUF_EXPORT MergedDescriptorDatabase : public DescriptorDatabase { public: // Merge just two databases. The sources remain property of the caller. MergedDescriptorDatabase(DescriptorDatabase* source1, DescriptorDatabase* source2); // Merge more than two databases. The sources remain property of the caller. // The vector may be deleted after the constructor returns but the // DescriptorDatabases need to stick around. explicit MergedDescriptorDatabase( const std::vector& sources); ~MergedDescriptorDatabase() override; // implements DescriptorDatabase ----------------------------------- bool FindFileByName(const std::string& filename, FileDescriptorProto* output) override; bool FindFileContainingSymbol(const std::string& symbol_name, FileDescriptorProto* output) override; bool FindFileContainingExtension(const std::string& containing_type, int field_number, FileDescriptorProto* output) override; // Merges the results of calling all databases. Returns true iff any // of the databases returned true. bool FindAllExtensionNumbers(const std::string& extendee_type, std::vector* output) override; private: std::vector sources_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(MergedDescriptorDatabase); }; } // namespace protobuf } // namespace google #include #endif // GOOGLE_PROTOBUF_DESCRIPTOR_DATABASE_H__