// 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. #include #include #include #include #ifdef major #undef major #endif #ifdef minor #undef minor #endif #include #include #ifndef _MSC_VER #include #endif #include #include #include #include #include //For PATH_MAX #include #ifdef __APPLE__ #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { #ifndef O_BINARY #ifdef _O_BINARY #define O_BINARY _O_BINARY #else #define O_BINARY 0 // If this isn't defined, the platform doesn't need it. #endif #endif namespace { #if defined(_WIN32) // DO NOT include , instead create functions in io_win32.{h,cc} and import // them like we do below. using google::protobuf::internal::win32::access; using google::protobuf::internal::win32::close; using google::protobuf::internal::win32::mkdir; using google::protobuf::internal::win32::open; using google::protobuf::internal::win32::setmode; using google::protobuf::internal::win32::write; #endif static const char* kDefaultDirectDependenciesViolationMsg = "File is imported but not declared in --direct_dependencies: %s"; // Returns true if the text looks like a Windows-style absolute path, starting // with a drive letter. Example: "C:\foo". TODO(kenton): Share this with // copy in importer.cc? static bool IsWindowsAbsolutePath(const string& text) { #if defined(_WIN32) || defined(__CYGWIN__) return text.size() >= 3 && text[1] == ':' && isalpha(text[0]) && (text[2] == '/' || text[2] == '\\') && text.find_last_of(':') == 1; #else return false; #endif } void SetFdToTextMode(int fd) { #ifdef _WIN32 if (setmode(fd, _O_TEXT) == -1) { // This should never happen, I think. GOOGLE_LOG(WARNING) << "setmode(" << fd << ", _O_TEXT): " << strerror(errno); } #endif // (Text and binary are the same on non-Windows platforms.) } void SetFdToBinaryMode(int fd) { #ifdef _WIN32 if (setmode(fd, _O_BINARY) == -1) { // This should never happen, I think. GOOGLE_LOG(WARNING) << "setmode(" << fd << ", _O_BINARY): " << strerror(errno); } #endif // (Text and binary are the same on non-Windows platforms.) } void AddTrailingSlash(string* path) { if (!path->empty() && path->at(path->size() - 1) != '/') { path->push_back('/'); } } bool VerifyDirectoryExists(const string& path) { if (path.empty()) return true; if (access(path.c_str(), F_OK) == -1) { std::cerr << path << ": " << strerror(errno) << std::endl; return false; } else { return true; } } // Try to create the parent directory of the given file, creating the parent's // parent if necessary, and so on. The full file name is actually // (prefix + filename), but we assume |prefix| already exists and only create // directories listed in |filename|. bool TryCreateParentDirectory(const string& prefix, const string& filename) { // Recursively create parent directories to the output file. // On Windows, both '/' and '\' are valid path separators. std::vector parts = Split(filename, "/\\", true); string path_so_far = prefix; for (int i = 0; i < parts.size() - 1; i++) { path_so_far += parts[i]; if (mkdir(path_so_far.c_str(), 0777) != 0) { if (errno != EEXIST) { std::cerr << filename << ": while trying to create directory " << path_so_far << ": " << strerror(errno) << std::endl; return false; } } path_so_far += '/'; } return true; } // Get the absolute path of this protoc binary. bool GetProtocAbsolutePath(string* path) { #ifdef _WIN32 char buffer[MAX_PATH]; int len = GetModuleFileNameA(NULL, buffer, MAX_PATH); #elif __APPLE__ char buffer[PATH_MAX]; int len = 0; char dirtybuffer[PATH_MAX]; uint32_t size = sizeof(dirtybuffer); if (_NSGetExecutablePath(dirtybuffer, &size) == 0) { realpath(dirtybuffer, buffer); len = strlen(buffer); } #else char buffer[PATH_MAX]; int len = readlink("/proc/self/exe", buffer, PATH_MAX); #endif if (len > 0) { path->assign(buffer, len); return true; } else { return false; } } // Whether a path is where google/protobuf/descriptor.proto and other well-known // type protos are installed. bool IsInstalledProtoPath(const string& path) { // Checking the descriptor.proto file should be good enough. string file_path = path + "/google/protobuf/descriptor.proto"; return access(file_path.c_str(), F_OK) != -1; } // Add the paths where google/protobuf/descriptor.proto and other well-known // type protos are installed. void AddDefaultProtoPaths(std::vector >* paths) { // TODO(xiaofeng): The code currently only checks relative paths of where // the protoc binary is installed. We probably should make it handle more // cases than that. string path; if (!GetProtocAbsolutePath(&path)) { return; } // Strip the binary name. size_t pos = path.find_last_of("/\\"); if (pos == string::npos || pos == 0) { return; } path = path.substr(0, pos); // Check the binary's directory. if (IsInstalledProtoPath(path)) { paths->push_back(std::pair("", path)); return; } // Check if there is an include subdirectory. if (IsInstalledProtoPath(path + "/include")) { paths->push_back(std::pair("", path + "/include")); return; } // Check if the upper level directory has an "include" subdirectory. pos = path.find_last_of("/\\"); if (pos == string::npos || pos == 0) { return; } path = path.substr(0, pos); if (IsInstalledProtoPath(path + "/include")) { paths->push_back(std::pair("", path + "/include")); return; } } string PluginName(const string& plugin_prefix, const string& directive) { // Assuming the directive starts with "--" and ends with "_out" or "_opt", // strip the "--" and "_out/_opt" and add the plugin prefix. return plugin_prefix + "gen-" + directive.substr(2, directive.size() - 6); } } // namespace // A MultiFileErrorCollector that prints errors to stderr. class CommandLineInterface::ErrorPrinter : public MultiFileErrorCollector, public io::ErrorCollector, public DescriptorPool::ErrorCollector { public: ErrorPrinter(ErrorFormat format, DiskSourceTree *tree = NULL) : format_(format), tree_(tree), found_errors_(false) {} ~ErrorPrinter() {} // implements MultiFileErrorCollector ------------------------------ void AddError(const string& filename, int line, int column, const string& message) { found_errors_ = true; AddErrorOrWarning(filename, line, column, message, "error", std::cerr); } void AddWarning(const string& filename, int line, int column, const string& message) { AddErrorOrWarning(filename, line, column, message, "warning", std::clog); } // implements io::ErrorCollector ----------------------------------- void AddError(int line, int column, const string& message) { AddError("input", line, column, message); } void AddWarning(int line, int column, const string& message) { AddErrorOrWarning("input", line, column, message, "warning", std::clog); } // implements DescriptorPool::ErrorCollector------------------------- void AddError( const string& filename, const string& element_name, const Message* descriptor, ErrorLocation location, const string& message) { AddErrorOrWarning(filename, -1, -1, message, "error", std::cerr); } void AddWarning( const string& filename, const string& element_name, const Message* descriptor, ErrorLocation location, const string& message) { AddErrorOrWarning(filename, -1, -1, message, "warning", std::clog); } bool FoundErrors() const { return found_errors_; } private: void AddErrorOrWarning(const string& filename, int line, int column, const string& message, const string& type, std::ostream& out) { // Print full path when running under MSVS string dfile; if (format_ == CommandLineInterface::ERROR_FORMAT_MSVS && tree_ != NULL && tree_->VirtualFileToDiskFile(filename, &dfile)) { out << dfile; } else { out << filename; } // Users typically expect 1-based line/column numbers, so we add 1 // to each here. if (line != -1) { // Allow for both GCC- and Visual-Studio-compatible output. switch (format_) { case CommandLineInterface::ERROR_FORMAT_GCC: out << ":" << (line + 1) << ":" << (column + 1); break; case CommandLineInterface::ERROR_FORMAT_MSVS: out << "(" << (line + 1) << ") : " << type << " in column=" << (column + 1); break; } } if (type == "warning") { out << ": warning: " << message << std::endl; } else { out << ": " << message << std::endl; } } const ErrorFormat format_; DiskSourceTree *tree_; bool found_errors_; }; // ------------------------------------------------------------------- // A GeneratorContext implementation that buffers files in memory, then dumps // them all to disk on demand. class CommandLineInterface::GeneratorContextImpl : public GeneratorContext { public: GeneratorContextImpl(const std::vector& parsed_files); ~GeneratorContextImpl(); // Write all files in the directory to disk at the given output location, // which must end in a '/'. bool WriteAllToDisk(const string& prefix); // Write the contents of this directory to a ZIP-format archive with the // given name. bool WriteAllToZip(const string& filename); // Add a boilerplate META-INF/MANIFEST.MF file as required by the Java JAR // format, unless one has already been written. void AddJarManifest(); // Get name of all output files. void GetOutputFilenames(std::vector* output_filenames); // implements GeneratorContext -------------------------------------- io::ZeroCopyOutputStream* Open(const string& filename); io::ZeroCopyOutputStream* OpenForAppend(const string& filename); io::ZeroCopyOutputStream* OpenForInsert( const string& filename, const string& insertion_point); void ListParsedFiles(std::vector* output) { *output = parsed_files_; } private: friend class MemoryOutputStream; // map instead of unordered_map so that files are written in order (good when // writing zips). std::map files_; const std::vector& parsed_files_; bool had_error_; }; class CommandLineInterface::MemoryOutputStream : public io::ZeroCopyOutputStream { public: MemoryOutputStream(GeneratorContextImpl* directory, const string& filename, bool append_mode); MemoryOutputStream(GeneratorContextImpl* directory, const string& filename, const string& insertion_point); virtual ~MemoryOutputStream(); // implements ZeroCopyOutputStream --------------------------------- virtual bool Next(void** data, int* size) { return inner_->Next(data, size); } virtual void BackUp(int count) { inner_->BackUp(count); } virtual int64 ByteCount() const { return inner_->ByteCount(); } private: // Checks to see if "filename_.meta" exists in directory_; if so, fixes the // offsets in that GeneratedCodeInfo record to reflect bytes inserted in // filename_ at original offset insertion_offset with length insertion_length. // We assume that insertions will not occur within any given annotated span // of text. void UpdateMetadata(size_t insertion_offset, size_t insertion_length); // Where to insert the string when it's done. GeneratorContextImpl* directory_; string filename_; string insertion_point_; // The string we're building. string data_; // Whether we should append the output stream to the existing file. bool append_mode_; // StringOutputStream writing to data_. std::unique_ptr inner_; }; // ------------------------------------------------------------------- CommandLineInterface::GeneratorContextImpl::GeneratorContextImpl( const std::vector& parsed_files) : parsed_files_(parsed_files), had_error_(false) {} CommandLineInterface::GeneratorContextImpl::~GeneratorContextImpl() { STLDeleteValues(&files_); } bool CommandLineInterface::GeneratorContextImpl::WriteAllToDisk( const string& prefix) { if (had_error_) { return false; } if (!VerifyDirectoryExists(prefix)) { return false; } for (std::map::const_iterator iter = files_.begin(); iter != files_.end(); ++iter) { const string& relative_filename = iter->first; const char* data = iter->second->data(); int size = iter->second->size(); if (!TryCreateParentDirectory(prefix, relative_filename)) { return false; } string filename = prefix + relative_filename; // Create the output file. int file_descriptor; do { file_descriptor = open(filename.c_str(), O_WRONLY | O_CREAT | O_TRUNC | O_BINARY, 0666); } while (file_descriptor < 0 && errno == EINTR); if (file_descriptor < 0) { int error = errno; std::cerr << filename << ": " << strerror(error); return false; } // Write the file. while (size > 0) { int write_result; do { write_result = write(file_descriptor, data, size); } while (write_result < 0 && errno == EINTR); if (write_result <= 0) { // Write error. // FIXME(kenton): According to the man page, if write() returns zero, // there was no error; write() simply did not write anything. It's // unclear under what circumstances this might happen, but presumably // errno won't be set in this case. I am confused as to how such an // event should be handled. For now I'm treating it as an error, // since retrying seems like it could lead to an infinite loop. I // suspect this never actually happens anyway. if (write_result < 0) { int error = errno; std::cerr << filename << ": write: " << strerror(error); } else { std::cerr << filename << ": write() returned zero?" << std::endl; } return false; } data += write_result; size -= write_result; } if (close(file_descriptor) != 0) { int error = errno; std::cerr << filename << ": close: " << strerror(error); return false; } } return true; } bool CommandLineInterface::GeneratorContextImpl::WriteAllToZip( const string& filename) { if (had_error_) { return false; } // Create the output file. int file_descriptor; do { file_descriptor = open(filename.c_str(), O_WRONLY | O_CREAT | O_TRUNC | O_BINARY, 0666); } while (file_descriptor < 0 && errno == EINTR); if (file_descriptor < 0) { int error = errno; std::cerr << filename << ": " << strerror(error); return false; } // Create the ZipWriter io::FileOutputStream stream(file_descriptor); ZipWriter zip_writer(&stream); for (std::map::const_iterator iter = files_.begin(); iter != files_.end(); ++iter) { zip_writer.Write(iter->first, *iter->second); } zip_writer.WriteDirectory(); if (stream.GetErrno() != 0) { std::cerr << filename << ": " << strerror(stream.GetErrno()) << std::endl; } if (!stream.Close()) { std::cerr << filename << ": " << strerror(stream.GetErrno()) << std::endl; } return true; } void CommandLineInterface::GeneratorContextImpl::AddJarManifest() { string** map_slot = &files_["META-INF/MANIFEST.MF"]; if (*map_slot == NULL) { *map_slot = new string( "Manifest-Version: 1.0\n" "Created-By: 1.6.0 (protoc)\n" "\n"); } } void CommandLineInterface::GeneratorContextImpl::GetOutputFilenames( std::vector* output_filenames) { for (std::map::iterator iter = files_.begin(); iter != files_.end(); ++iter) { output_filenames->push_back(iter->first); } } io::ZeroCopyOutputStream* CommandLineInterface::GeneratorContextImpl::Open( const string& filename) { return new MemoryOutputStream(this, filename, false); } io::ZeroCopyOutputStream* CommandLineInterface::GeneratorContextImpl::OpenForAppend( const string& filename) { return new MemoryOutputStream(this, filename, true); } io::ZeroCopyOutputStream* CommandLineInterface::GeneratorContextImpl::OpenForInsert( const string& filename, const string& insertion_point) { return new MemoryOutputStream(this, filename, insertion_point); } // ------------------------------------------------------------------- CommandLineInterface::MemoryOutputStream::MemoryOutputStream( GeneratorContextImpl* directory, const string& filename, bool append_mode) : directory_(directory), filename_(filename), append_mode_(append_mode), inner_(new io::StringOutputStream(&data_)) { } CommandLineInterface::MemoryOutputStream::MemoryOutputStream( GeneratorContextImpl* directory, const string& filename, const string& insertion_point) : directory_(directory), filename_(filename), insertion_point_(insertion_point), inner_(new io::StringOutputStream(&data_)) { } void CommandLineInterface::MemoryOutputStream::UpdateMetadata( size_t insertion_offset, size_t insertion_length) { std::map::iterator meta_file = directory_->files_.find(filename_ + ".meta"); if (meta_file == directory_->files_.end() || !meta_file->second) { // No metadata was recorded for this file. return; } string* encoded_data = meta_file->second; GeneratedCodeInfo metadata; bool is_text_format = false; if (!metadata.ParseFromString(*encoded_data)) { if (!TextFormat::ParseFromString(*encoded_data, &metadata)) { // The metadata is invalid. std::cerr << filename_ << ".meta: Could not parse metadata as wire or text format." << std::endl; return; } // Generators that use the public plugin interface emit text-format // metadata (because in the public plugin protocol, file content must be // UTF8-encoded strings). is_text_format = true; } for (int i = 0; i < metadata.annotation_size(); ++i) { GeneratedCodeInfo::Annotation* annotation = metadata.mutable_annotation(i); if (annotation->begin() >= insertion_offset) { annotation->set_begin(annotation->begin() + insertion_length); annotation->set_end(annotation->end() + insertion_length); } } if (is_text_format) { TextFormat::PrintToString(metadata, encoded_data); } else { metadata.SerializeToString(encoded_data); } } CommandLineInterface::MemoryOutputStream::~MemoryOutputStream() { // Make sure all data has been written. inner_.reset(); // Insert into the directory. string** map_slot = &directory_->files_[filename_]; if (insertion_point_.empty()) { // This was just a regular Open(). if (*map_slot != NULL) { if (append_mode_) { (*map_slot)->append(data_); } else { std::cerr << filename_ << ": Tried to write the same file twice." << std::endl; directory_->had_error_ = true; } return; } *map_slot = new string; (*map_slot)->swap(data_); } else { // This was an OpenForInsert(). // If the data doesn't end with a clean line break, add one. if (!data_.empty() && data_[data_.size() - 1] != '\n') { data_.push_back('\n'); } // Find the file we are going to insert into. if (*map_slot == NULL) { std::cerr << filename_ << ": Tried to insert into file that doesn't exist." << std::endl; directory_->had_error_ = true; return; } string* target = *map_slot; // Find the insertion point. string magic_string = strings::Substitute( "@@protoc_insertion_point($0)", insertion_point_); string::size_type pos = target->find(magic_string); if (pos == string::npos) { std::cerr << filename_ << ": insertion point \"" << insertion_point_ << "\" not found." << std::endl; directory_->had_error_ = true; return; } if ((pos > 3) && (target->substr(pos - 3, 2) == "/*")) { // Support for inline "/* @@protoc_insertion_point() */" pos = pos - 3; } else { // Seek backwards to the beginning of the line, which is where we will // insert the data. Note that this has the effect of pushing the // insertion point down, so the data is inserted before it. This is // intentional because it means that multiple insertions at the same point // will end up in the expected order in the final output. pos = target->find_last_of('\n', pos); if (pos == string::npos) { // Insertion point is on the first line. pos = 0; } else { // Advance to character after '\n'. ++pos; } } // Extract indent. string indent_(*target, pos, target->find_first_not_of(" \t", pos) - pos); if (indent_.empty()) { // No indent. This makes things easier. target->insert(pos, data_); UpdateMetadata(pos, data_.size()); } else { // Calculate how much space we need. int indent_size = 0; for (int i = 0; i < data_.size(); i++) { if (data_[i] == '\n') indent_size += indent_.size(); } // Make a hole for it. target->insert(pos, data_.size() + indent_size, '\0'); UpdateMetadata(pos, data_.size() + indent_size); // Now copy in the data. string::size_type data_pos = 0; char* target_ptr = ::google::protobuf::string_as_array(target) + pos; while (data_pos < data_.size()) { // Copy indent. memcpy(target_ptr, indent_.data(), indent_.size()); target_ptr += indent_.size(); // Copy line from data_. // We already guaranteed that data_ ends with a newline (above), so this // search can't fail. string::size_type line_length = data_.find_first_of('\n', data_pos) + 1 - data_pos; memcpy(target_ptr, data_.data() + data_pos, line_length); target_ptr += line_length; data_pos += line_length; } GOOGLE_CHECK_EQ(target_ptr, ::google::protobuf::string_as_array(target) + pos + data_.size() + indent_size); } } } // =================================================================== #if defined(_WIN32) && !defined(__CYGWIN__) const char* const CommandLineInterface::kPathSeparator = ";"; #else const char* const CommandLineInterface::kPathSeparator = ":"; #endif CommandLineInterface::CommandLineInterface() : mode_(MODE_COMPILE), print_mode_(PRINT_NONE), error_format_(ERROR_FORMAT_GCC), direct_dependencies_explicitly_set_(false), direct_dependencies_violation_msg_( kDefaultDirectDependenciesViolationMsg), imports_in_descriptor_set_(false), source_info_in_descriptor_set_(false), disallow_services_(false) {} CommandLineInterface::~CommandLineInterface() {} void CommandLineInterface::RegisterGenerator(const string& flag_name, CodeGenerator* generator, const string& help_text) { GeneratorInfo info; info.flag_name = flag_name; info.generator = generator; info.help_text = help_text; generators_by_flag_name_[flag_name] = info; } void CommandLineInterface::RegisterGenerator(const string& flag_name, const string& option_flag_name, CodeGenerator* generator, const string& help_text) { GeneratorInfo info; info.flag_name = flag_name; info.option_flag_name = option_flag_name; info.generator = generator; info.help_text = help_text; generators_by_flag_name_[flag_name] = info; generators_by_option_name_[option_flag_name] = info; } void CommandLineInterface::AllowPlugins(const string& exe_name_prefix) { plugin_prefix_ = exe_name_prefix; } int CommandLineInterface::Run(int argc, const char* const argv[]) { Clear(); switch (ParseArguments(argc, argv)) { case PARSE_ARGUMENT_DONE_AND_EXIT: return 0; case PARSE_ARGUMENT_FAIL: return 1; case PARSE_ARGUMENT_DONE_AND_CONTINUE: break; } std::vector parsed_files; // null unless descriptor_set_in_names_.empty() std::unique_ptr disk_source_tree; std::unique_ptr error_collector; std::unique_ptr descriptor_pool; std::unique_ptr descriptor_database; if (descriptor_set_in_names_.empty()) { disk_source_tree.reset(new DiskSourceTree()); if (!InitializeDiskSourceTree(disk_source_tree.get())) { return 1; } error_collector.reset( new ErrorPrinter(error_format_, disk_source_tree.get())); SourceTreeDescriptorDatabase* database = new SourceTreeDescriptorDatabase(disk_source_tree.get()); database->RecordErrorsTo(error_collector.get()); descriptor_database.reset(database); descriptor_pool.reset(new DescriptorPool( descriptor_database.get(), database->GetValidationErrorCollector())); } else { error_collector.reset(new ErrorPrinter(error_format_)); SimpleDescriptorDatabase* database = new SimpleDescriptorDatabase(); descriptor_database.reset(database); if (!PopulateSimpleDescriptorDatabase(database)) { return 1; } descriptor_pool.reset(new DescriptorPool(database, error_collector.get())); } descriptor_pool->EnforceWeakDependencies(true); if (!ParseInputFiles(descriptor_pool.get(), &parsed_files)) { return 1; } // We construct a separate GeneratorContext for each output location. Note // that two code generators may output to the same location, in which case // they should share a single GeneratorContext so that OpenForInsert() works. GeneratorContextMap output_directories; // Generate output. if (mode_ == MODE_COMPILE) { for (int i = 0; i < output_directives_.size(); i++) { string output_location = output_directives_[i].output_location; if (!HasSuffixString(output_location, ".zip") && !HasSuffixString(output_location, ".jar")) { AddTrailingSlash(&output_location); } GeneratorContextImpl** map_slot = &output_directories[output_location]; if (*map_slot == NULL) { // First time we've seen this output location. *map_slot = new GeneratorContextImpl(parsed_files); } if (!GenerateOutput(parsed_files, output_directives_[i], *map_slot)) { STLDeleteValues(&output_directories); return 1; } } } // Write all output to disk. for (GeneratorContextMap::iterator iter = output_directories.begin(); iter != output_directories.end(); ++iter) { const string& location = iter->first; GeneratorContextImpl* directory = iter->second; if (HasSuffixString(location, "/")) { if (!directory->WriteAllToDisk(location)) { STLDeleteValues(&output_directories); return 1; } } else { if (HasSuffixString(location, ".jar")) { directory->AddJarManifest(); } if (!directory->WriteAllToZip(location)) { STLDeleteValues(&output_directories); return 1; } } } if (!dependency_out_name_.empty()) { GOOGLE_DCHECK(disk_source_tree.get()); if (!GenerateDependencyManifestFile(parsed_files, output_directories, disk_source_tree.get())) { return 1; } } STLDeleteValues(&output_directories); if (!descriptor_set_out_name_.empty()) { if (!WriteDescriptorSet(parsed_files)) { return 1; } } if (mode_ == MODE_ENCODE || mode_ == MODE_DECODE) { if (codec_type_.empty()) { // HACK: Define an EmptyMessage type to use for decoding. DescriptorPool pool; FileDescriptorProto file; file.set_name("empty_message.proto"); file.add_message_type()->set_name("EmptyMessage"); GOOGLE_CHECK(pool.BuildFile(file) != NULL); codec_type_ = "EmptyMessage"; if (!EncodeOrDecode(&pool)) { return 1; } } else { if (!EncodeOrDecode(descriptor_pool.get())) { return 1; } } } if (error_collector->FoundErrors()) { return 1; } if (mode_ == MODE_PRINT) { switch (print_mode_) { case PRINT_FREE_FIELDS: for (int i = 0; i < parsed_files.size(); ++i) { const FileDescriptor* fd = parsed_files[i]; for (int j = 0; j < fd->message_type_count(); ++j) { PrintFreeFieldNumbers(fd->message_type(j)); } } break; case PRINT_NONE: GOOGLE_LOG(ERROR) << "If the code reaches here, it usually means a bug of " "flag parsing in the CommandLineInterface."; return 1; // Do not add a default case. } } return 0; } bool CommandLineInterface::InitializeDiskSourceTree( DiskSourceTree* source_tree) { AddDefaultProtoPaths(&proto_path_); // Set up the source tree. for (int i = 0; i < proto_path_.size(); i++) { source_tree->MapPath(proto_path_[i].first, proto_path_[i].second); } // Map input files to virtual paths if possible. if (!MakeInputsBeProtoPathRelative(source_tree)) { return false; } return true; } bool CommandLineInterface::PopulateSimpleDescriptorDatabase( SimpleDescriptorDatabase* database) { for (int i = 0; i < descriptor_set_in_names_.size(); i++) { int fd; do { fd = open(descriptor_set_in_names_[i].c_str(), O_RDONLY | O_BINARY); } while (fd < 0 && errno == EINTR); if (fd < 0) { std::cerr << descriptor_set_in_names_[i] << ": " << strerror(ENOENT) << std::endl; return false; } FileDescriptorSet file_descriptor_set; bool parsed = file_descriptor_set.ParseFromFileDescriptor(fd); if (close(fd) != 0) { std::cerr << descriptor_set_in_names_[i] << ": close: " << strerror(errno) << std::endl; return false; } if (!parsed) { std::cerr << descriptor_set_in_names_[i] << ": Unable to parse." << std::endl; return false; } for (int j = 0; j < file_descriptor_set.file_size(); j++) { FileDescriptorProto previously_added_file_descriptor_proto; if (database->FindFileByName(file_descriptor_set.file(j).name(), &previously_added_file_descriptor_proto)) { // already present - skip continue; } if (!database->Add(file_descriptor_set.file(j))) { return false; } } } return true; } bool CommandLineInterface::ParseInputFiles( DescriptorPool* descriptor_pool, std::vector* parsed_files) { // Parse each file. for (const auto& input_file : input_files_) { // Import the file. descriptor_pool->AddUnusedImportTrackFile(input_file); const FileDescriptor* parsed_file = descriptor_pool->FindFileByName(input_file); descriptor_pool->ClearUnusedImportTrackFiles(); if (parsed_file == NULL) { if (!descriptor_set_in_names_.empty()) { std::cerr << input_file << ": " << strerror(ENOENT) << std::endl; } return false; } parsed_files->push_back(parsed_file); // Enforce --disallow_services. if (disallow_services_ && parsed_file->service_count() > 0) { std::cerr << parsed_file->name() << ": This file contains services, but " "--disallow_services was used." << std::endl; return false; } // Enforce --direct_dependencies if (direct_dependencies_explicitly_set_) { bool indirect_imports = false; for (int i = 0; i < parsed_file->dependency_count(); i++) { if (direct_dependencies_.find(parsed_file->dependency(i)->name()) == direct_dependencies_.end()) { indirect_imports = true; std::cerr << parsed_file->name() << ": " << StringReplace(direct_dependencies_violation_msg_, "%s", parsed_file->dependency(i)->name(), true /* replace_all */) << std::endl; } } if (indirect_imports) { return false; } } } return true; } void CommandLineInterface::Clear() { // Clear all members that are set by Run(). Note that we must not clear // members which are set by other methods before Run() is called. executable_name_.clear(); proto_path_.clear(); input_files_.clear(); direct_dependencies_.clear(); direct_dependencies_violation_msg_ = kDefaultDirectDependenciesViolationMsg; output_directives_.clear(); codec_type_.clear(); descriptor_set_in_names_.clear(); descriptor_set_out_name_.clear(); dependency_out_name_.clear(); mode_ = MODE_COMPILE; print_mode_ = PRINT_NONE; imports_in_descriptor_set_ = false; source_info_in_descriptor_set_ = false; disallow_services_ = false; direct_dependencies_explicitly_set_ = false; } bool CommandLineInterface::MakeProtoProtoPathRelative( DiskSourceTree* source_tree, string* proto) { // If the input file path is not a physical file path, it must be a virtual // path. if (access(proto->c_str(), F_OK) < 0) { string disk_file; if (source_tree->VirtualFileToDiskFile(*proto, &disk_file)) { return true; } else { std::cerr << *proto << ": " << strerror(ENOENT) << std::endl; return false; } } string virtual_file, shadowing_disk_file; switch (source_tree->DiskFileToVirtualFile( *proto, &virtual_file, &shadowing_disk_file)) { case DiskSourceTree::SUCCESS: *proto = virtual_file; break; case DiskSourceTree::SHADOWED: std::cerr << *proto << ": Input is shadowed in the --proto_path by \"" << shadowing_disk_file << "\". Either use the latter file as your input or reorder " "the --proto_path so that the former file's location " "comes first." << std::endl; return false; case DiskSourceTree::CANNOT_OPEN: std::cerr << *proto << ": " << strerror(errno) << std::endl; return false; case DiskSourceTree::NO_MAPPING: { // Try to interpret the path as a virtual path. string disk_file; if (source_tree->VirtualFileToDiskFile(*proto, &disk_file)) { return true; } else { // The input file path can't be mapped to any --proto_path and it also // can't be interpreted as a virtual path. std::cerr << *proto << ": File does not reside within any path " "specified using --proto_path (or -I). You must specify a " "--proto_path which encompasses this file. Note that the " "proto_path must be an exact prefix of the .proto file " "names -- protoc is too dumb to figure out when two paths " "(e.g. absolute and relative) are equivalent (it's harder " "than you think)." << std::endl; return false; } } } return true; } bool CommandLineInterface::MakeInputsBeProtoPathRelative( DiskSourceTree* source_tree) { for (auto& input_file : input_files_) { if (!MakeProtoProtoPathRelative(source_tree, &input_file)) { return false; } } return true; } bool CommandLineInterface::ExpandArgumentFile(const string& file, std::vector* arguments) { // The argument file is searched in the working directory only. We don't // use the proto import path here. std::ifstream file_stream(file.c_str()); if (!file_stream.is_open()) { return false; } string argument; // We don't support any kind of shell expansion right now. while (std::getline(file_stream, argument)) { arguments->push_back(argument); } return true; } CommandLineInterface::ParseArgumentStatus CommandLineInterface::ParseArguments(int argc, const char* const argv[]) { executable_name_ = argv[0]; std::vector arguments; for (int i = 1; i < argc; ++i) { if (argv[i][0] == '@') { if (!ExpandArgumentFile(argv[i] + 1, &arguments)) { std::cerr << "Failed to open argument file: " << (argv[i] + 1) << std::endl; return PARSE_ARGUMENT_FAIL; } continue; } arguments.push_back(argv[i]); } // if no arguments are given, show help if (arguments.empty()) { PrintHelpText(); return PARSE_ARGUMENT_DONE_AND_EXIT; // Exit without running compiler. } // Iterate through all arguments and parse them. for (int i = 0; i < arguments.size(); ++i) { string name, value; if (ParseArgument(arguments[i].c_str(), &name, &value)) { // Returned true => Use the next argument as the flag value. if (i + 1 == arguments.size() || arguments[i + 1][0] == '-') { std::cerr << "Missing value for flag: " << name << std::endl; if (name == "--decode") { std::cerr << "To decode an unknown message, use --decode_raw." << std::endl; } return PARSE_ARGUMENT_FAIL; } else { ++i; value = arguments[i]; } } ParseArgumentStatus status = InterpretArgument(name, value); if (status != PARSE_ARGUMENT_DONE_AND_CONTINUE) return status; } // Make sure each plugin option has a matching plugin output. bool foundUnknownPluginOption = false; for (std::map::const_iterator i = plugin_parameters_.begin(); i != plugin_parameters_.end(); ++i) { if (plugins_.find(i->first) != plugins_.end()) { continue; } bool foundImplicitPlugin = false; for (std::vector::const_iterator j = output_directives_.begin(); j != output_directives_.end(); ++j) { if (j->generator == NULL) { string plugin_name = PluginName(plugin_prefix_ , j->name); if (plugin_name == i->first) { foundImplicitPlugin = true; break; } } } if (!foundImplicitPlugin) { std::cerr << "Unknown flag: " // strip prefix + "gen-" and add back "_opt" << "--" + i->first.substr(plugin_prefix_.size() + 4) + "_opt" << std::endl; foundUnknownPluginOption = true; } } if (foundUnknownPluginOption) { return PARSE_ARGUMENT_FAIL; } // If no --proto_path was given, use the current working directory. if (proto_path_.empty()) { // Don't use make_pair as the old/default standard library on Solaris // doesn't support it without explicit template parameters, which are // incompatible with C++0x's make_pair. proto_path_.push_back(std::pair("", ".")); } // Check some errror cases. bool decoding_raw = (mode_ == MODE_DECODE) && codec_type_.empty(); if (decoding_raw && !input_files_.empty()) { std::cerr << "When using --decode_raw, no input files should be given." << std::endl; return PARSE_ARGUMENT_FAIL; } else if (!decoding_raw && input_files_.empty()) { std::cerr << "Missing input file." << std::endl; return PARSE_ARGUMENT_FAIL; } if (mode_ == MODE_COMPILE && output_directives_.empty() && descriptor_set_out_name_.empty()) { std::cerr << "Missing output directives." << std::endl; return PARSE_ARGUMENT_FAIL; } if (mode_ != MODE_COMPILE && !dependency_out_name_.empty()) { std::cerr << "Can only use --dependency_out=FILE when generating code." << std::endl; return PARSE_ARGUMENT_FAIL; } if (!dependency_out_name_.empty() && input_files_.size() > 1) { std::cerr << "Can only process one input file when using --dependency_out=FILE." << std::endl; return PARSE_ARGUMENT_FAIL; } if (imports_in_descriptor_set_ && descriptor_set_out_name_.empty()) { std::cerr << "--include_imports only makes sense when combined with " "--descriptor_set_out." << std::endl; } if (source_info_in_descriptor_set_ && descriptor_set_out_name_.empty()) { std::cerr << "--include_source_info only makes sense when combined with " "--descriptor_set_out." << std::endl; } return PARSE_ARGUMENT_DONE_AND_CONTINUE; } bool CommandLineInterface::ParseArgument(const char* arg, string* name, string* value) { bool parsed_value = false; if (arg[0] != '-') { // Not a flag. name->clear(); parsed_value = true; *value = arg; } else if (arg[1] == '-') { // Two dashes: Multi-character name, with '=' separating name and // value. const char* equals_pos = strchr(arg, '='); if (equals_pos != NULL) { *name = string(arg, equals_pos - arg); *value = equals_pos + 1; parsed_value = true; } else { *name = arg; } } else { // One dash: One-character name, all subsequent characters are the // value. if (arg[1] == '\0') { // arg is just "-". We treat this as an input file, except that at // present this will just lead to a "file not found" error. name->clear(); *value = arg; parsed_value = true; } else { *name = string(arg, 2); *value = arg + 2; parsed_value = !value->empty(); } } // Need to return true iff the next arg should be used as the value for this // one, false otherwise. if (parsed_value) { // We already parsed a value for this flag. return false; } if (*name == "-h" || *name == "--help" || *name == "--disallow_services" || *name == "--include_imports" || *name == "--include_source_info" || *name == "--version" || *name == "--decode_raw" || *name == "--print_free_field_numbers") { // HACK: These are the only flags that don't take a value. // They probably should not be hard-coded like this but for now it's // not worth doing better. return false; } // Next argument is the flag value. return true; } CommandLineInterface::ParseArgumentStatus CommandLineInterface::InterpretArgument(const string& name, const string& value) { if (name.empty()) { // Not a flag. Just a filename. if (value.empty()) { std::cerr << "You seem to have passed an empty string as one of the " "arguments to " << executable_name_ << ". This is actually " "sort of hard to do. Congrats. Unfortunately it is not valid " "input so the program is going to die now." << std::endl; return PARSE_ARGUMENT_FAIL; } input_files_.push_back(value); } else if (name == "-I" || name == "--proto_path") { if (!descriptor_set_in_names_.empty()) { std::cerr << "Only one of " << name << " and --descriptor_set_in can be specified." << std::endl; return PARSE_ARGUMENT_FAIL; } // Java's -classpath (and some other languages) delimits path components // with colons. Let's accept that syntax too just to make things more // intuitive. std::vector parts = Split( value, CommandLineInterface::kPathSeparator, true); for (int i = 0; i < parts.size(); i++) { string virtual_path; string disk_path; string::size_type equals_pos = parts[i].find_first_of('='); if (equals_pos == string::npos) { virtual_path = ""; disk_path = parts[i]; } else { virtual_path = parts[i].substr(0, equals_pos); disk_path = parts[i].substr(equals_pos + 1); } if (disk_path.empty()) { std::cerr << "--proto_path passed empty directory name. (Use \".\" for " "current directory.)" << std::endl; return PARSE_ARGUMENT_FAIL; } // Make sure disk path exists, warn otherwise. if (access(disk_path.c_str(), F_OK) < 0) { // Try the original path; it may have just happened to have a '=' in it. if (access(parts[i].c_str(), F_OK) < 0) { std::cerr << disk_path << ": warning: directory does not exist." << std::endl; } else { virtual_path = ""; disk_path = parts[i]; } } // Don't use make_pair as the old/default standard library on Solaris // doesn't support it without explicit template parameters, which are // incompatible with C++0x's make_pair. proto_path_.push_back(std::pair(virtual_path, disk_path)); } } else if (name == "--direct_dependencies") { if (direct_dependencies_explicitly_set_) { std::cerr << name << " may only be passed once. To specify multiple " "direct dependencies, pass them all as a single " "parameter separated by ':'." << std::endl; return PARSE_ARGUMENT_FAIL; } direct_dependencies_explicitly_set_ = true; std::vector direct = Split(value, ":", true); GOOGLE_DCHECK(direct_dependencies_.empty()); direct_dependencies_.insert(direct.begin(), direct.end()); } else if (name == "--direct_dependencies_violation_msg") { direct_dependencies_violation_msg_ = value; } else if (name == "--descriptor_set_in") { if (!descriptor_set_in_names_.empty()) { std::cerr << name << " may only be passed once. To specify multiple " "descriptor sets, pass them all as a single " "parameter separated by '" << CommandLineInterface::kPathSeparator << "'." << std::endl; return PARSE_ARGUMENT_FAIL; } if (value.empty()) { std::cerr << name << " requires a non-empty value." << std::endl; return PARSE_ARGUMENT_FAIL; } if (!proto_path_.empty()) { std::cerr << "Only one of " << name << " and --proto_path can be specified." << std::endl; return PARSE_ARGUMENT_FAIL; } if (!dependency_out_name_.empty()) { std::cerr << name << " cannot be used with --dependency_out." << std::endl; return PARSE_ARGUMENT_FAIL; } descriptor_set_in_names_ = Split( value, CommandLineInterface::kPathSeparator, true); } else if (name == "-o" || name == "--descriptor_set_out") { if (!descriptor_set_out_name_.empty()) { std::cerr << name << " may only be passed once." << std::endl; return PARSE_ARGUMENT_FAIL; } if (value.empty()) { std::cerr << name << " requires a non-empty value." << std::endl; return PARSE_ARGUMENT_FAIL; } if (mode_ != MODE_COMPILE) { std::cerr << "Cannot use --encode or --decode and generate descriptors at the " "same time." << std::endl; return PARSE_ARGUMENT_FAIL; } descriptor_set_out_name_ = value; } else if (name == "--dependency_out") { if (!dependency_out_name_.empty()) { std::cerr << name << " may only be passed once." << std::endl; return PARSE_ARGUMENT_FAIL; } if (value.empty()) { std::cerr << name << " requires a non-empty value." << std::endl; return PARSE_ARGUMENT_FAIL; } if (!descriptor_set_in_names_.empty()) { std::cerr << name << " cannot be used with --descriptor_set_in." << std::endl; return PARSE_ARGUMENT_FAIL; } dependency_out_name_ = value; } else if (name == "--include_imports") { if (imports_in_descriptor_set_) { std::cerr << name << " may only be passed once." << std::endl; return PARSE_ARGUMENT_FAIL; } imports_in_descriptor_set_ = true; } else if (name == "--include_source_info") { if (source_info_in_descriptor_set_) { std::cerr << name << " may only be passed once." << std::endl; return PARSE_ARGUMENT_FAIL; } source_info_in_descriptor_set_ = true; } else if (name == "-h" || name == "--help") { PrintHelpText(); return PARSE_ARGUMENT_DONE_AND_EXIT; // Exit without running compiler. } else if (name == "--version") { if (!version_info_.empty()) { std::cout << version_info_ << std::endl; } std::cout << "libprotoc " << protobuf::internal::VersionString(PROTOBUF_VERSION) << std::endl; return PARSE_ARGUMENT_DONE_AND_EXIT; // Exit without running compiler. } else if (name == "--disallow_services") { disallow_services_ = true; } else if (name == "--encode" || name == "--decode" || name == "--decode_raw") { if (mode_ != MODE_COMPILE) { std::cerr << "Only one of --encode and --decode can be specified." << std::endl; return PARSE_ARGUMENT_FAIL; } if (!output_directives_.empty() || !descriptor_set_out_name_.empty()) { std::cerr << "Cannot use " << name << " and generate code or descriptors at the same time." << std::endl; return PARSE_ARGUMENT_FAIL; } mode_ = (name == "--encode") ? MODE_ENCODE : MODE_DECODE; if (value.empty() && name != "--decode_raw") { std::cerr << "Type name for " << name << " cannot be blank." << std::endl; if (name == "--decode") { std::cerr << "To decode an unknown message, use --decode_raw." << std::endl; } return PARSE_ARGUMENT_FAIL; } else if (!value.empty() && name == "--decode_raw") { std::cerr << "--decode_raw does not take a parameter." << std::endl; return PARSE_ARGUMENT_FAIL; } codec_type_ = value; } else if (name == "--error_format") { if (value == "gcc") { error_format_ = ERROR_FORMAT_GCC; } else if (value == "msvs") { error_format_ = ERROR_FORMAT_MSVS; } else { std::cerr << "Unknown error format: " << value << std::endl; return PARSE_ARGUMENT_FAIL; } } else if (name == "--plugin") { if (plugin_prefix_.empty()) { std::cerr << "This compiler does not support plugins." << std::endl; return PARSE_ARGUMENT_FAIL; } string plugin_name; string path; string::size_type equals_pos = value.find_first_of('='); if (equals_pos == string::npos) { // Use the basename of the file. string::size_type slash_pos = value.find_last_of('/'); if (slash_pos == string::npos) { plugin_name = value; } else { plugin_name = value.substr(slash_pos + 1); } path = value; } else { plugin_name = value.substr(0, equals_pos); path = value.substr(equals_pos + 1); } plugins_[plugin_name] = path; } else if (name == "--print_free_field_numbers") { if (mode_ != MODE_COMPILE) { std::cerr << "Cannot use " << name << " and use --encode, --decode or print " << "other info at the same time." << std::endl; return PARSE_ARGUMENT_FAIL; } if (!output_directives_.empty() || !descriptor_set_out_name_.empty()) { std::cerr << "Cannot use " << name << " and generate code or descriptors at the same time." << std::endl; return PARSE_ARGUMENT_FAIL; } mode_ = MODE_PRINT; print_mode_ = PRINT_FREE_FIELDS; } else { // Some other flag. Look it up in the generators list. const GeneratorInfo* generator_info = FindOrNull(generators_by_flag_name_, name); if (generator_info == NULL && (plugin_prefix_.empty() || !HasSuffixString(name, "_out"))) { // Check if it's a generator option flag. generator_info = FindOrNull(generators_by_option_name_, name); if (generator_info != NULL) { string* parameters = &generator_parameters_[generator_info->flag_name]; if (!parameters->empty()) { parameters->append(","); } parameters->append(value); } else if (HasPrefixString(name, "--") && HasSuffixString(name, "_opt")) { string* parameters = &plugin_parameters_[PluginName(plugin_prefix_, name)]; if (!parameters->empty()) { parameters->append(","); } parameters->append(value); } else { std::cerr << "Unknown flag: " << name << std::endl; return PARSE_ARGUMENT_FAIL; } } else { // It's an output flag. Add it to the output directives. if (mode_ != MODE_COMPILE) { std::cerr << "Cannot use --encode, --decode or print .proto info and " "generate code at the same time." << std::endl; return PARSE_ARGUMENT_FAIL; } OutputDirective directive; directive.name = name; if (generator_info == NULL) { directive.generator = NULL; } else { directive.generator = generator_info->generator; } // Split value at ':' to separate the generator parameter from the // filename. However, avoid doing this if the colon is part of a valid // Windows-style absolute path. string::size_type colon_pos = value.find_first_of(':'); if (colon_pos == string::npos || IsWindowsAbsolutePath(value)) { directive.output_location = value; } else { directive.parameter = value.substr(0, colon_pos); directive.output_location = value.substr(colon_pos + 1); } output_directives_.push_back(directive); } } return PARSE_ARGUMENT_DONE_AND_CONTINUE; } void CommandLineInterface::PrintHelpText() { // Sorry for indentation here; line wrapping would be uglier. std::cout << "Usage: " << executable_name_ << " [OPTION] PROTO_FILES\n" "Parse PROTO_FILES and generate output based on the options given:\n" " -IPATH, --proto_path=PATH Specify the directory in which to search for\n" " imports. May be specified multiple times;\n" " directories will be searched in order. If not\n" " given, the current working directory is used.\n" " --version Show version info and exit.\n" " -h, --help Show this text and exit.\n" " --encode=MESSAGE_TYPE Read a text-format message of the given type\n" " from standard input and write it in binary\n" " to standard output. The message type must\n" " be defined in PROTO_FILES or their imports.\n" " --decode=MESSAGE_TYPE Read a binary message of the given type from\n" " standard input and write it in text format\n" " to standard output. The message type must\n" " be defined in PROTO_FILES or their imports.\n" " --decode_raw Read an arbitrary protocol message from\n" " standard input and write the raw tag/value\n" " pairs in text format to standard output. No\n" " PROTO_FILES should be given when using this\n" " flag.\n" " --descriptor_set_in=FILES Specifies a delimited list of FILES\n" " each containing a FileDescriptorSet (a\n" " protocol buffer defined in descriptor.proto).\n" " The FileDescriptor for each of the PROTO_FILES\n" " provided will be loaded from these\n" " FileDescriptorSets. If a FileDescriptor\n" " appears multiple times, the first occurrence\n" " will be used.\n" " -oFILE, Writes a FileDescriptorSet (a protocol buffer,\n" " --descriptor_set_out=FILE defined in descriptor.proto) containing all of\n" " the input files to FILE.\n" " --include_imports When using --descriptor_set_out, also include\n" " all dependencies of the input files in the\n" " set, so that the set is self-contained.\n" " --include_source_info When using --descriptor_set_out, do not strip\n" " SourceCodeInfo from the FileDescriptorProto.\n" " This results in vastly larger descriptors that\n" " include information about the original\n" " location of each decl in the source file as\n" " well as surrounding comments.\n" " --dependency_out=FILE Write a dependency output file in the format\n" " expected by make. This writes the transitive\n" " set of input file paths to FILE\n" " --error_format=FORMAT Set the format in which to print errors.\n" " FORMAT may be 'gcc' (the default) or 'msvs'\n" " (Microsoft Visual Studio format).\n" " --print_free_field_numbers Print the free field numbers of the messages\n" " defined in the given proto files. Groups share\n" " the same field number space with the parent \n" " message. Extension ranges are counted as \n" " occupied fields numbers.\n" << std::endl; if (!plugin_prefix_.empty()) { std::cout << " --plugin=EXECUTABLE Specifies a plugin executable to use.\n" " Normally, protoc searches the PATH for\n" " plugins, but you may specify additional\n" " executables not in the path using this flag.\n" " Additionally, EXECUTABLE may be of the form\n" " NAME=PATH, in which case the given plugin name\n" " is mapped to the given executable even if\n" " the executable's own name differs." << std::endl; } for (GeneratorMap::iterator iter = generators_by_flag_name_.begin(); iter != generators_by_flag_name_.end(); ++iter) { // FIXME(kenton): If the text is long enough it will wrap, which is ugly, // but fixing this nicely (e.g. splitting on spaces) is probably more // trouble than it's worth. std::cout << " " << iter->first << "=OUT_DIR " << string(19 - iter->first.size(), ' ') // Spaces for alignment. << iter->second.help_text << std::endl; } std::cerr << " @ Read options and filenames from file. If a\n" " relative file path is specified, the file\n" " will be searched in the working directory.\n" " The --proto_path option will not affect how\n" " this argument file is searched. Content of\n" " the file will be expanded in the position of\n" " @ as in the argument list. Note\n" " that shell expansion is not applied to the\n" " content of the file (i.e., you cannot use\n" " quotes, wildcards, escapes, commands, etc.).\n" " Each line corresponds to a single argument,\n" " even if it contains spaces." << std::endl; } bool CommandLineInterface::GenerateOutput( const std::vector& parsed_files, const OutputDirective& output_directive, GeneratorContext* generator_context) { // Call the generator. string error; if (output_directive.generator == NULL) { // This is a plugin. GOOGLE_CHECK(HasPrefixString(output_directive.name, "--") && HasSuffixString(output_directive.name, "_out")) << "Bad name for plugin generator: " << output_directive.name; string plugin_name = PluginName(plugin_prefix_ , output_directive.name); string parameters = output_directive.parameter; if (!plugin_parameters_[plugin_name].empty()) { if (!parameters.empty()) { parameters.append(","); } parameters.append(plugin_parameters_[plugin_name]); } if (!GeneratePluginOutput(parsed_files, plugin_name, parameters, generator_context, &error)) { std::cerr << output_directive.name << ": " << error << std::endl; return false; } } else { // Regular generator. string parameters = output_directive.parameter; if (!generator_parameters_[output_directive.name].empty()) { if (!parameters.empty()) { parameters.append(","); } parameters.append(generator_parameters_[output_directive.name]); } if (!output_directive.generator->GenerateAll( parsed_files, parameters, generator_context, &error)) { // Generator returned an error. std::cerr << output_directive.name << ": " << error << std::endl; return false; } } return true; } bool CommandLineInterface::GenerateDependencyManifestFile( const std::vector& parsed_files, const GeneratorContextMap& output_directories, DiskSourceTree* source_tree) { FileDescriptorSet file_set; std::set already_seen; for (int i = 0; i < parsed_files.size(); i++) { GetTransitiveDependencies(parsed_files[i], false, false, &already_seen, file_set.mutable_file()); } std::vector output_filenames; for (GeneratorContextMap::const_iterator iter = output_directories.begin(); iter != output_directories.end(); ++iter) { const string& location = iter->first; GeneratorContextImpl* directory = iter->second; std::vector relative_output_filenames; directory->GetOutputFilenames(&relative_output_filenames); for (int i = 0; i < relative_output_filenames.size(); i++) { string output_filename = location + relative_output_filenames[i]; if (output_filename.compare(0, 2, "./") == 0) { output_filename = output_filename.substr(2); } output_filenames.push_back(output_filename); } } int fd; do { fd = open(dependency_out_name_.c_str(), O_WRONLY | O_CREAT | O_TRUNC | O_BINARY, 0666); } while (fd < 0 && errno == EINTR); if (fd < 0) { perror(dependency_out_name_.c_str()); return false; } io::FileOutputStream out(fd); io::Printer printer(&out, '$'); for (int i = 0; i < output_filenames.size(); i++) { printer.Print(output_filenames[i].c_str()); if (i == output_filenames.size() - 1) { printer.Print(":"); } else { printer.Print(" \\\n"); } } for (int i = 0; i < file_set.file_size(); i++) { const FileDescriptorProto& file = file_set.file(i); const string& virtual_file = file.name(); string disk_file; if (source_tree && source_tree->VirtualFileToDiskFile(virtual_file, &disk_file)) { printer.Print(" $disk_file$", "disk_file", disk_file); if (i < file_set.file_size() - 1) printer.Print("\\\n"); } else { std::cerr << "Unable to identify path for file " << virtual_file << std::endl; return false; } } return true; } bool CommandLineInterface::GeneratePluginOutput( const std::vector& parsed_files, const string& plugin_name, const string& parameter, GeneratorContext* generator_context, string* error) { CodeGeneratorRequest request; CodeGeneratorResponse response; string processed_parameter = parameter; // Build the request. if (!processed_parameter.empty()) { request.set_parameter(processed_parameter); } std::set already_seen; for (int i = 0; i < parsed_files.size(); i++) { request.add_file_to_generate(parsed_files[i]->name()); GetTransitiveDependencies(parsed_files[i], true, // Include json_name for plugins. true, // Include source code info. &already_seen, request.mutable_proto_file()); } google::protobuf::compiler::Version* version = request.mutable_compiler_version(); version->set_major(PROTOBUF_VERSION / 1000000); version->set_minor(PROTOBUF_VERSION / 1000 % 1000); version->set_patch(PROTOBUF_VERSION % 1000); version->set_suffix(PROTOBUF_VERSION_SUFFIX); // Invoke the plugin. Subprocess subprocess; if (plugins_.count(plugin_name) > 0) { subprocess.Start(plugins_[plugin_name], Subprocess::EXACT_NAME); } else { subprocess.Start(plugin_name, Subprocess::SEARCH_PATH); } string communicate_error; if (!subprocess.Communicate(request, &response, &communicate_error)) { *error = strings::Substitute("$0: $1", plugin_name, communicate_error); return false; } // Write the files. We do this even if there was a generator error in order // to match the behavior of a compiled-in generator. std::unique_ptr current_output; for (int i = 0; i < response.file_size(); i++) { const CodeGeneratorResponse::File& output_file = response.file(i); if (!output_file.insertion_point().empty()) { string filename = output_file.name(); // Open a file for insert. // We reset current_output to NULL first so that the old file is closed // before the new one is opened. current_output.reset(); current_output.reset(generator_context->OpenForInsert( filename, output_file.insertion_point())); } else if (!output_file.name().empty()) { // Starting a new file. Open it. // We reset current_output to NULL first so that the old file is closed // before the new one is opened. current_output.reset(); current_output.reset(generator_context->Open(output_file.name())); } else if (current_output == NULL) { *error = strings::Substitute( "$0: First file chunk returned by plugin did not specify a file name.", plugin_name); return false; } // Use CodedOutputStream for convenience; otherwise we'd need to provide // our own buffer-copying loop. io::CodedOutputStream writer(current_output.get()); writer.WriteString(output_file.content()); } // Check for errors. if (!response.error().empty()) { // Generator returned an error. *error = response.error(); return false; } return true; } bool CommandLineInterface::EncodeOrDecode(const DescriptorPool* pool) { // Look up the type. const Descriptor* type = pool->FindMessageTypeByName(codec_type_); if (type == NULL) { std::cerr << "Type not defined: " << codec_type_ << std::endl; return false; } DynamicMessageFactory dynamic_factory(pool); std::unique_ptr message(dynamic_factory.GetPrototype(type)->New()); if (mode_ == MODE_ENCODE) { SetFdToTextMode(STDIN_FILENO); SetFdToBinaryMode(STDOUT_FILENO); } else { SetFdToBinaryMode(STDIN_FILENO); SetFdToTextMode(STDOUT_FILENO); } io::FileInputStream in(STDIN_FILENO); io::FileOutputStream out(STDOUT_FILENO); if (mode_ == MODE_ENCODE) { // Input is text. ErrorPrinter error_collector(error_format_); TextFormat::Parser parser; parser.RecordErrorsTo(&error_collector); parser.AllowPartialMessage(true); if (!parser.Parse(&in, message.get())) { std::cerr << "Failed to parse input." << std::endl; return false; } } else { // Input is binary. if (!message->ParsePartialFromZeroCopyStream(&in)) { std::cerr << "Failed to parse input." << std::endl; return false; } } if (!message->IsInitialized()) { std::cerr << "warning: Input message is missing required fields: " << message->InitializationErrorString() << std::endl; } if (mode_ == MODE_ENCODE) { // Output is binary. if (!message->SerializePartialToZeroCopyStream(&out)) { std::cerr << "output: I/O error." << std::endl; return false; } } else { // Output is text. if (!TextFormat::Print(*message, &out)) { std::cerr << "output: I/O error." << std::endl; return false; } } return true; } bool CommandLineInterface::WriteDescriptorSet( const std::vector& parsed_files) { FileDescriptorSet file_set; std::set already_seen; if (!imports_in_descriptor_set_) { // Since we don't want to output transitive dependencies, but we do want // things to be in dependency order, add all dependencies that aren't in // parsed_files to already_seen. This will short circuit the recursion // in GetTransitiveDependencies. std::set to_output; to_output.insert(parsed_files.begin(), parsed_files.end()); for (int i = 0; i < parsed_files.size(); i++) { const FileDescriptor* file = parsed_files[i]; for (int i = 0; i < file->dependency_count(); i++) { const FileDescriptor* dependency = file->dependency(i); // if the dependency isn't in parsed files, mark it as already seen if (to_output.find(dependency) == to_output.end()) { already_seen.insert(dependency); } } } } for (int i = 0; i < parsed_files.size(); i++) { GetTransitiveDependencies(parsed_files[i], true, // Include json_name source_info_in_descriptor_set_, &already_seen, file_set.mutable_file()); } int fd; do { fd = open(descriptor_set_out_name_.c_str(), O_WRONLY | O_CREAT | O_TRUNC | O_BINARY, 0666); } while (fd < 0 && errno == EINTR); if (fd < 0) { perror(descriptor_set_out_name_.c_str()); return false; } io::FileOutputStream out(fd); if (!file_set.SerializeToZeroCopyStream(&out)) { std::cerr << descriptor_set_out_name_ << ": " << strerror(out.GetErrno()) << std::endl; out.Close(); return false; } if (!out.Close()) { std::cerr << descriptor_set_out_name_ << ": " << strerror(out.GetErrno()) << std::endl; return false; } return true; } void CommandLineInterface::GetTransitiveDependencies( const FileDescriptor* file, bool include_json_name, bool include_source_code_info, std::set* already_seen, RepeatedPtrField* output) { if (!already_seen->insert(file).second) { // Already saw this file. Skip. return; } // Add all dependencies. for (int i = 0; i < file->dependency_count(); i++) { GetTransitiveDependencies(file->dependency(i), include_json_name, include_source_code_info, already_seen, output); } // Add this file. FileDescriptorProto* new_descriptor = output->Add(); file->CopyTo(new_descriptor); if (include_json_name) { file->CopyJsonNameTo(new_descriptor); } if (include_source_code_info) { file->CopySourceCodeInfoTo(new_descriptor); } } namespace { // Utility function for PrintFreeFieldNumbers. // Stores occupied ranges into the ranges parameter, and next level of sub // message types into the nested_messages parameter. The FieldRange is left // inclusive, right exclusive. i.e. [a, b). // // Nested Messages: // Note that it only stores the nested message type, iff the nested type is // either a direct child of the given descriptor, or the nested type is a // decendent of the given descriptor and all the nodes between the // nested type and the given descriptor are group types. e.g. // // message Foo { // message Bar { // message NestedBar {} // } // group Baz = 1 { // group NestedBazGroup = 2 { // message Quz { // message NestedQuz {} // } // } // message NestedBaz {} // } // } // // In this case, Bar, Quz and NestedBaz will be added into the nested types. // Since free field numbers of group types will not be printed, this makes sure // the nested message types in groups will not be dropped. The nested_messages // parameter will contain the direct children (when groups are ignored in the // tree) of the given descriptor for the caller to traverse. The declaration // order of the nested messages is also preserved. typedef std::pair FieldRange; void GatherOccupiedFieldRanges( const Descriptor* descriptor, std::set* ranges, std::vector* nested_messages) { std::set groups; for (int i = 0; i < descriptor->field_count(); ++i) { const FieldDescriptor* fd = descriptor->field(i); ranges->insert(FieldRange(fd->number(), fd->number() + 1)); if (fd->type() == FieldDescriptor::TYPE_GROUP) { groups.insert(fd->message_type()); } } for (int i = 0; i < descriptor->extension_range_count(); ++i) { ranges->insert(FieldRange(descriptor->extension_range(i)->start, descriptor->extension_range(i)->end)); } for (int i = 0; i < descriptor->reserved_range_count(); ++i) { ranges->insert(FieldRange(descriptor->reserved_range(i)->start, descriptor->reserved_range(i)->end)); } // Handle the nested messages/groups in declaration order to make it // post-order strict. for (int i = 0; i < descriptor->nested_type_count(); ++i) { const Descriptor* nested_desc = descriptor->nested_type(i); if (groups.find(nested_desc) != groups.end()) { GatherOccupiedFieldRanges(nested_desc, ranges, nested_messages); } else { nested_messages->push_back(nested_desc); } } } // Utility function for PrintFreeFieldNumbers. // Actually prints the formatted free field numbers for given message name and // occupied ranges. void FormatFreeFieldNumbers(const string& name, const std::set& ranges) { string output; StringAppendF(&output, "%-35s free:", name.c_str()); int next_free_number = 1; for (std::set::const_iterator i = ranges.begin(); i != ranges.end(); ++i) { // This happens when groups re-use parent field numbers, in which // case we skip the FieldRange entirely. if (next_free_number >= i->second) continue; if (next_free_number < i->first) { if (next_free_number + 1 == i->first) { // Singleton StringAppendF(&output, " %d", next_free_number); } else { // Range StringAppendF(&output, " %d-%d", next_free_number, i->first - 1); } } next_free_number = i->second; } if (next_free_number <= FieldDescriptor::kMaxNumber) { StringAppendF(&output, " %d-INF", next_free_number); } std::cout << output << std::endl; } } // namespace void CommandLineInterface::PrintFreeFieldNumbers( const Descriptor* descriptor) { std::set ranges; std::vector nested_messages; GatherOccupiedFieldRanges(descriptor, &ranges, &nested_messages); for (int i = 0; i < nested_messages.size(); ++i) { PrintFreeFieldNumbers(nested_messages[i]); } FormatFreeFieldNumbers(descriptor->full_name(), ranges); } } // namespace compiler } // namespace protobuf } // namespace google