src/main/cpp/option_processor.cc - bazel - Git at Google

 // Copyright 2014 The Bazel Authors. All rights reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "src/main/cpp/option_processor.h"

 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <algorithm>
 #include <cassert>
 #include <set>
 #include <sstream>
 #include <utility>

 #include "src/main/cpp/blaze_util.h"
 #include "src/main/cpp/blaze_util_platform.h"
 #include "src/main/cpp/util/file.h"
 #include "src/main/cpp/util/logging.h"
 #include "src/main/cpp/util/strings.h"
 #include "src/main/cpp/workspace_layout.h"

 // On OSX, there apparently is no header that defines this.
 #ifndef environ
 extern char **environ;
 #endif

 namespace blaze {

 using std::map;
 using std::set;
 using std::string;
 using std::vector;

 constexpr char WorkspaceLayout::WorkspacePrefix[];
 static std::vector<std::string> GetProcessedEnv();

 OptionProcessor::OptionProcessor(
     const WorkspaceLayout* workspace_layout,
     std::unique_ptr<StartupOptions> default_startup_options)
     : workspace_layout_(workspace_layout),
       parsed_startup_options_(std::move(default_startup_options)) {
 }

 std::unique_ptr<CommandLine> OptionProcessor::SplitCommandLine(
     const vector<string>& args, string* error) const {
   const string lowercase_product_name =
       parsed_startup_options_->GetLowercaseProductName();

   if (args.empty()) {
     blaze_util::StringPrintf(error,
                              "Unable to split command line, args is empty");
     return nullptr;
   }

   const string path_to_binary(args[0]);

   // Process the startup options.
   vector<string> startup_args;
   vector<string>::size_type i = 1;
   while (i < args.size() && IsArg(args[i])) {
     const string current_arg(args[i]);
     // If the current argument is a valid nullary startup option such as
     // --master_bazelrc or --nomaster_bazelrc proceed to examine the next
     // argument.
     if (parsed_startup_options_->IsNullary(current_arg)) {
       startup_args.push_back(current_arg);
       i++;
     } else if (parsed_startup_options_->IsUnary(current_arg)) {
       // If the current argument is a valid unary startup option such as
       // --bazelrc there are two cases to consider.

       // The option is of the form '--bazelrc=value', hence proceed to
       // examine the next argument.
       if (current_arg.find("=") != string::npos) {
         startup_args.push_back(current_arg);
         i++;
       } else {
         // Otherwise, the option is of the form '--bazelrc value', hence
         // skip the next argument and proceed to examine the argument located
         // two places after.
         if (i + 1 >= args.size()) {
           blaze_util::StringPrintf(
               error,
               "Startup option '%s' expects a value.\n"
               "Usage: '%s=somevalue' or '%s somevalue'.\n"
               "  For more info, run '%s help startup_options'.",
               current_arg.c_str(), current_arg.c_str(), current_arg.c_str(),
               lowercase_product_name.c_str());
           return nullptr;
         }
         // In this case we transform it to the form '--bazelrc=value'.
         startup_args.push_back(current_arg + string("=") + args[i + 1]);
         i += 2;
       }
     } else {
       // If the current argument is not a valid unary or nullary startup option
       // then fail.
       blaze_util::StringPrintf(
           error,
           "Unknown startup option: '%s'.\n"
           "  For more info, run '%s help startup_options'.",
           current_arg.c_str(), lowercase_product_name.c_str());
       return nullptr;
     }
   }

   // The command is the arg right after the startup options.
   if (i == args.size()) {
     return std::unique_ptr<CommandLine>(
         new CommandLine(path_to_binary, startup_args, "", {}));
   }
   const string command(args[i]);

   // The rest are the command arguments.
   const vector<string> command_args(args.begin() + i + 1, args.end());

   return std::unique_ptr<CommandLine>(
       new CommandLine(path_to_binary, startup_args, command, command_args));
 }

 blaze_exit_code::ExitCode OptionProcessor::FindUserBlazerc(
     const char* cmd_line_rc_file, const string& workspace,
     string* user_blazerc_file, string* error) const {
   const string rc_basename =
       "." + parsed_startup_options_->GetLowercaseProductName() + "rc";

   if (cmd_line_rc_file != nullptr) {
     string rcFile = MakeAbsolute(cmd_line_rc_file);
     if (!blaze_util::CanReadFile(rcFile)) {
       blaze_util::StringPrintf(error,
           "Error: Unable to read %s file '%s'.", rc_basename.c_str(),
           rcFile.c_str());
       return blaze_exit_code::BAD_ARGV;
     }
     *user_blazerc_file = rcFile;
     return blaze_exit_code::SUCCESS;
   }

   string workspaceRcFile = blaze_util::JoinPath(workspace, rc_basename);
   if (blaze_util::CanReadFile(workspaceRcFile)) {
     *user_blazerc_file = workspaceRcFile;
     return blaze_exit_code::SUCCESS;
   }

   string home = blaze::GetHomeDir();
   if (!home.empty()) {
     string userRcFile = blaze_util::JoinPath(home, rc_basename);
     if (blaze_util::CanReadFile(userRcFile)) {
       *user_blazerc_file = userRcFile;
       return blaze_exit_code::SUCCESS;
     }
   }

   BAZEL_LOG(INFO) << "User provided no rc file.";
   *user_blazerc_file = "";
   return blaze_exit_code::SUCCESS;
 }

 namespace internal {

 vector<string> DedupeBlazercPaths(const vector<string>& paths) {
   set<string> canonical_paths;
   vector<string> result;
   for (const string& path : paths) {
     const string canonical_path = blaze_util::MakeCanonical(path.c_str());
     if (canonical_path.empty()) {
       // MakeCanonical returns an empty string when it fails. We ignore this
       // failure since blazerc paths may point to invalid locations.
     } else if (canonical_paths.find(canonical_path) == canonical_paths.end()) {
       result.push_back(path);
       canonical_paths.insert(canonical_path);
     }
   }
   return result;
 }

 string FindRcAlongsideBinary(const string& cwd, const string& path_to_binary) {
   const string path = blaze_util::IsAbsolute(path_to_binary)
                           ? path_to_binary
                           : blaze_util::JoinPath(cwd, path_to_binary);
   const string base = blaze_util::Basename(path_to_binary);
   const string binary_blazerc_path = path + "." + base + "rc";
   if (blaze_util::CanReadFile(binary_blazerc_path)) {
     return binary_blazerc_path;
   }
   return "";
 }

 blaze_exit_code::ExitCode ParseErrorToExitCode(RcFile::ParseError parse_error) {
   switch (parse_error) {
     case RcFile::ParseError::NONE:
       return blaze_exit_code::SUCCESS;
     case RcFile::ParseError::UNREADABLE_FILE:
       // We check readability before parsing, so this is unexpected.
       return blaze_exit_code::INTERNAL_ERROR;
     case RcFile::ParseError::INVALID_FORMAT:
     case RcFile::ParseError::IMPORT_LOOP:
       return blaze_exit_code::BAD_ARGV;
     default:
       return blaze_exit_code::INTERNAL_ERROR;
   }
 }

 }  // namespace internal

 // TODO(#4502) Consider simplifying result_rc_files to a vector of RcFiles, no
 // unique_ptrs.
 blaze_exit_code::ExitCode OptionProcessor::GetRcFiles(
     const WorkspaceLayout* workspace_layout, const std::string& workspace,
     const std::string& cwd, const CommandLine* cmd_line,
     std::vector<std::unique_ptr<RcFile>>* result_rc_files,
     std::string* error) const {
   assert(cmd_line != nullptr);
   assert(result_rc_files != nullptr);

   // Find the master bazelrcs if requested. This list may contain duplicates.
   vector<string> candidate_bazelrc_paths;
   if (SearchNullaryOption(cmd_line->startup_args, "master_bazelrc", true)) {
     const string workspace_rc =
         workspace_layout->GetWorkspaceRcPath(workspace, cmd_line->startup_args);
     const string binary_rc =
         internal::FindRcAlongsideBinary(cwd, cmd_line->path_to_binary);
     const string system_rc = FindSystemWideBlazerc();
     BAZEL_LOG(INFO)
         << "Looking for master bazelrcs in the following three paths: "
         << workspace_rc << ", " << binary_rc << ", " << system_rc;
     candidate_bazelrc_paths = {workspace_rc, binary_rc, system_rc};
   }

   string user_bazelrc_path;
   blaze_exit_code::ExitCode find_bazelrc_exit_code =
       FindUserBlazerc(SearchUnaryOption(cmd_line->startup_args, "--bazelrc"),
                       workspace, &user_bazelrc_path, error);
   if (find_bazelrc_exit_code != blaze_exit_code::SUCCESS) {
     return find_bazelrc_exit_code;
   }

   vector<string> deduped_blazerc_paths =
       internal::DedupeBlazercPaths(candidate_bazelrc_paths);
   deduped_blazerc_paths.push_back(user_bazelrc_path);

   for (const auto& bazelrc_path : deduped_blazerc_paths) {
     if (bazelrc_path.empty()) {
       continue;
     }
     std::unique_ptr<RcFile> parsed_rc;
     blaze_exit_code::ExitCode parse_rcfile_exit_code = ParseRcFile(
         workspace_layout, workspace, bazelrc_path, &parsed_rc, error);
     if (parse_rcfile_exit_code != blaze_exit_code::SUCCESS) {
       return parse_rcfile_exit_code;
     }
     result_rc_files->push_back(std::move(parsed_rc));
   }

   return blaze_exit_code::SUCCESS;
 }

 blaze_exit_code::ExitCode ParseRcFile(const WorkspaceLayout* workspace_layout,
                                       const std::string& workspace,
                                       const std::string& rc_file_path,
                                       std::unique_ptr<RcFile>* result_rc_file,
                                       std::string* error) {
   assert(!rc_file_path.empty());
   assert(result_rc_file != nullptr);

   RcFile::ParseError parse_error;
   std::unique_ptr<RcFile> parsed_file = RcFile::Parse(
       rc_file_path, workspace_layout, workspace, &parse_error, error);
   if (parsed_file == nullptr) {
     return internal::ParseErrorToExitCode(parse_error);
   }
   *result_rc_file = std::move(parsed_file);
   return blaze_exit_code::SUCCESS;
 }

 blaze_exit_code::ExitCode OptionProcessor::ParseOptions(
     const vector<string>& args, const string& workspace, const string& cwd,
     string* error) {
   cmd_line_ = SplitCommandLine(args, error);
   if (cmd_line_ == nullptr) {
     return blaze_exit_code::BAD_ARGV;
   }

   // Read the rc files. This depends on the startup options in argv since these
   // may contain rc-modifying options. For all other options, the precedence of
   // options will be rc first, then command line options, though, despite this
   // exception.
   std::vector<std::unique_ptr<RcFile>> rc_files;
   const blaze_exit_code::ExitCode rc_parsing_exit_code = GetRcFiles(
       workspace_layout_, workspace, cwd, cmd_line_.get(), &rc_files, error);
   if (rc_parsing_exit_code != blaze_exit_code::SUCCESS) {
     return rc_parsing_exit_code;
   }

   // Parse the startup options in the correct priority order.
   const blaze_exit_code::ExitCode parse_startup_options_exit_code =
       ParseStartupOptions(rc_files, error);
   if (parse_startup_options_exit_code != blaze_exit_code::SUCCESS) {
     return parse_startup_options_exit_code;
   }

   blazerc_and_env_command_args_ =
       GetBlazercAndEnvCommandArgs(cwd, rc_files, GetProcessedEnv());
   return blaze_exit_code::SUCCESS;
 }

 static void PrintStartupOptions(const std::string& source,
                                 const std::vector<std::string>& options) {
   if (!source.empty()) {
     std::string startup_args;
     blaze_util::JoinStrings(options, ' ', &startup_args);
     fprintf(stderr, "INFO: Reading 'startup' options from %s: %s\n",
             source.c_str(), startup_args.c_str());
   }
 }

 void OptionProcessor::PrintStartupOptionsProvenanceMessage() const {
   StartupOptions* parsed_startup_options = GetParsedStartupOptions();

   // Print the startup flags in the order they are parsed, to keep the
   // precendence clear. In order to minimize the number of lines of output in
   // the terminal, group sequential flags by origin. Note that an rc file may
   // turn up multiple times in this list, if, for example, it imports another
   // rc file and contains startup options on either side of the import
   // statement. This is done intentionally to make option priority clear.
   std::string command_line_source;
   std::string& most_recent_blazerc = command_line_source;
   std::vector<std::string> accumulated_options;
   for (auto flag : parsed_startup_options->original_startup_options_) {
     if (flag.source == most_recent_blazerc) {
       accumulated_options.push_back(flag.value);
     } else {
       PrintStartupOptions(most_recent_blazerc, accumulated_options);
       // Start accumulating again.
       accumulated_options.clear();
       accumulated_options.push_back(flag.value);
       most_recent_blazerc = flag.source;
     }
   }
   // Don't forget to print out the last ones.
   PrintStartupOptions(most_recent_blazerc, accumulated_options);
 }

 blaze_exit_code::ExitCode OptionProcessor::ParseStartupOptions(
     const std::vector<std::unique_ptr<RcFile>> &rc_files,
     std::string *error) {
   // Rc files can import other files at any point, and these imported rcs are
   // expanded in place. Here, we isolate just the startup options but keep the
   // file they came from attached for the option_sources tracking and for
   // sending to the server.
   std::vector<RcStartupFlag> rcstartup_flags;

   for (const auto& blazerc : rc_files) {
     const auto iter = blazerc->options().find("startup");
     if (iter == blazerc->options().end()) continue;

     for (const RcOption& option : iter->second) {
       rcstartup_flags.push_back({*option.source_path, option.option});
     }
   }

   for (const std::string& arg : cmd_line_->startup_args) {
     if (!IsArg(arg)) {
       break;
     }
     rcstartup_flags.push_back(RcStartupFlag("", arg));
   }

   return parsed_startup_options_->ProcessArgs(rcstartup_flags, error);
 }

 static bool IsValidEnvName(const char* p) {
 #if defined(COMPILER_MSVC) || defined(__CYGWIN__)
   for (; *p && *p != '='; ++p) {
     if (!((*p >= 'a' && *p <= 'z') || (*p >= 'A' && *p <= 'Z') ||
           (*p >= '0' && *p <= '9') || *p == '_')) {
       return false;
     }
   }
 #endif
   return true;
 }

 #if defined(COMPILER_MSVC)
 static void PreprocessEnvString(string* env_str) {
   static constexpr const char* vars_to_uppercase[] = {"PATH", "SYSTEMROOT",
                                                       "TEMP", "TEMPDIR", "TMP"};

   int pos = env_str->find_first_of('=');
   if (pos == string::npos) return;

   string name = env_str->substr(0, pos);
   // We do not care about locale. All variable names are ASCII.
   std::transform(name.begin(), name.end(), name.begin(), ::toupper);
   if (std::find(std::begin(vars_to_uppercase), std::end(vars_to_uppercase),
                 name) != std::end(vars_to_uppercase)) {
     env_str->assign(name + "=" + env_str->substr(pos + 1));
   }
 }

 #elif defined(__CYGWIN__)  // not defined(COMPILER_MSVC)

 static void PreprocessEnvString(string* env_str) {
   int pos = env_str->find_first_of('=');
   if (pos == string::npos) return;
   string name = env_str->substr(0, pos);
   if (name == "PATH") {
     env_str->assign("PATH=" + env_str->substr(pos + 1));
   } else if (name == "TMP") {
     // A valid Windows path "c:/foo" is also a valid Unix path list of
     // ["c", "/foo"] so must use ConvertPath here. See GitHub issue #1684.
     env_str->assign("TMP=" + ConvertPath(env_str->substr(pos + 1)));
   }
 }

 #else  // Non-Windows platforms.

 static void PreprocessEnvString(const string* env_str) {
   // do nothing.
 }
 #endif  // defined(COMPILER_MSVC)

 static std::vector<std::string> GetProcessedEnv() {
   std::vector<std::string> processed_env;
   for (char** env = environ; *env != NULL; env++) {
     string env_str(*env);
     if (IsValidEnvName(*env)) {
       PreprocessEnvString(&env_str);
       processed_env.push_back(std::move(env_str));
     }
   }
   return processed_env;
 }

 // IMPORTANT: The options added here do not come from the user. In order for
 // their source to be correctly tracked, the options must either be passed
 // as --default_override=0, 0 being "client", or must be listed in
 // BlazeOptionHandler.INTERNAL_COMMAND_OPTIONS!
 std::vector<std::string> OptionProcessor::GetBlazercAndEnvCommandArgs(
     const std::string& cwd,
     const std::vector<std::unique_ptr<RcFile>>& blazercs,
     const std::vector<std::string>& env) {
   // Provide terminal options as coming from the least important rc file.
   std::vector<std::string> result = {
       "--rc_source=client",
       "--default_override=0:common=--isatty=" + ToString(IsStandardTerminal()),
       "--default_override=0:common=--terminal_columns=" +
           ToString(GetTerminalColumns())};
   if (IsEmacsTerminal()) {
     result.push_back("--default_override=0:common=--emacs");
   }

   EnsurePythonPathOption(&result);

   // Map .blazerc numbers to filenames. The indexes here start at 1 because #0
   // is reserved the "client" options created by this function.
   int cur_index = 1;
   std::map<std::string, int> rcfile_indexes;
   for (const auto& blazerc : blazercs) {
     for (const std::string& source_path : blazerc->sources()) {
       // Deduplicate the rc_source list because the same file might be included
       // from multiple places.
       if (rcfile_indexes.find(source_path) != rcfile_indexes.end()) continue;

       result.push_back("--rc_source=" + blaze::ConvertPath(source_path));
       rcfile_indexes[source_path] = cur_index;
       cur_index++;
     }
   }

   // Add RcOptions as default_overrides.
   for (const auto& blazerc : blazercs) {
     for (const auto& command_options : blazerc->options()) {
       const string& command = command_options.first;
       // Skip startup flags, which are already parsed by the client.
       if (command == "startup") continue;

       for (const RcOption& rcoption : command_options.second) {
         std::ostringstream oss;
         oss << "--default_override=" << rcfile_indexes[*rcoption.source_path]
             << ':' << command << '=' << rcoption.option;
         result.push_back(oss.str());
       }
     }
   }

   // Pass the client environment to the server.
   for (const string& env_var : env) {
     result.push_back("--client_env=" + env_var);
   }
   result.push_back("--client_cwd=" + blaze::ConvertPath(cwd));
   return result;
 }

 std::vector<std::string> OptionProcessor::GetCommandArguments() const {
   assert(cmd_line_ != nullptr);
   // When the user didn't specify a command, the server expects the command
   // arguments to be empty in order to display the help message.
   if (cmd_line_->command.empty()) {
     return {};
   }

   std::vector<std::string> command_args = blazerc_and_env_command_args_;
   command_args.insert(command_args.end(),
                       cmd_line_->command_args.begin(),
                       cmd_line_->command_args.end());
   return command_args;
 }

 std::vector<std::string> OptionProcessor::GetExplicitCommandArguments() const {
   assert(cmd_line_ != nullptr);
   return cmd_line_->command_args;
 }

 std::string OptionProcessor::GetCommand() const {
   assert(cmd_line_ != nullptr);
   return cmd_line_->command;
 }

 StartupOptions* OptionProcessor::GetParsedStartupOptions() const {
   assert(parsed_startup_options_ != NULL);
   return parsed_startup_options_.get();
 }

 }  // namespace blaze
	// Copyright 2014 The Bazel Authors. All rights reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "src/main/cpp/option_processor.h"

	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include <algorithm>
	#include <cassert>
	#include <set>
	#include <sstream>
	#include <utility>

	#include "src/main/cpp/blaze_util.h"
	#include "src/main/cpp/blaze_util_platform.h"
	#include "src/main/cpp/util/file.h"
	#include "src/main/cpp/util/logging.h"
	#include "src/main/cpp/util/strings.h"
	#include "src/main/cpp/workspace_layout.h"

	// On OSX, there apparently is no header that defines this.
	#ifndef environ
	extern char **environ;
	#endif

	namespace blaze {

	using std::map;
	using std::set;
	using std::string;
	using std::vector;

	constexpr char WorkspaceLayout::WorkspacePrefix[];
	static std::vector<std::string> GetProcessedEnv();

	OptionProcessor::OptionProcessor(
	const WorkspaceLayout* workspace_layout,
	std::unique_ptr<StartupOptions> default_startup_options)
	: workspace_layout_(workspace_layout),
	parsed_startup_options_(std::move(default_startup_options)) {
	}

	std::unique_ptr<CommandLine> OptionProcessor::SplitCommandLine(
	const vector<string>& args, string* error) const {
	const string lowercase_product_name =
	parsed_startup_options_->GetLowercaseProductName();

	if (args.empty()) {
	blaze_util::StringPrintf(error,
	"Unable to split command line, args is empty");
	return nullptr;
	}

	const string path_to_binary(args[0]);

	// Process the startup options.
	vector<string> startup_args;
	vector<string>::size_type i = 1;
	while (i < args.size() && IsArg(args[i])) {
	const string current_arg(args[i]);
	// If the current argument is a valid nullary startup option such as
	// --master_bazelrc or --nomaster_bazelrc proceed to examine the next
	// argument.
	if (parsed_startup_options_->IsNullary(current_arg)) {
	startup_args.push_back(current_arg);
	i++;
	} else if (parsed_startup_options_->IsUnary(current_arg)) {
	// If the current argument is a valid unary startup option such as
	// --bazelrc there are two cases to consider.

	// The option is of the form '--bazelrc=value', hence proceed to
	// examine the next argument.
	if (current_arg.find("=") != string::npos) {
	startup_args.push_back(current_arg);
	i++;
	} else {
	// Otherwise, the option is of the form '--bazelrc value', hence
	// skip the next argument and proceed to examine the argument located
	// two places after.
	if (i + 1 >= args.size()) {
	blaze_util::StringPrintf(
	error,
	"Startup option '%s' expects a value.\n"
	"Usage: '%s=somevalue' or '%s somevalue'.\n"
	" For more info, run '%s help startup_options'.",
	current_arg.c_str(), current_arg.c_str(), current_arg.c_str(),
	lowercase_product_name.c_str());
	return nullptr;
	}
	// In this case we transform it to the form '--bazelrc=value'.
	startup_args.push_back(current_arg + string("=") + args[i + 1]);
	i += 2;
	}
	} else {
	// If the current argument is not a valid unary or nullary startup option
	// then fail.
	blaze_util::StringPrintf(
	error,
	"Unknown startup option: '%s'.\n"
	" For more info, run '%s help startup_options'.",
	current_arg.c_str(), lowercase_product_name.c_str());
	return nullptr;
	}
	}

	// The command is the arg right after the startup options.
	if (i == args.size()) {
	return std::unique_ptr<CommandLine>(
	new CommandLine(path_to_binary, startup_args, "", {}));
	}
	const string command(args[i]);

	// The rest are the command arguments.
	const vector<string> command_args(args.begin() + i + 1, args.end());

	return std::unique_ptr<CommandLine>(
	new CommandLine(path_to_binary, startup_args, command, command_args));
	}

	blaze_exit_code::ExitCode OptionProcessor::FindUserBlazerc(
	const char* cmd_line_rc_file, const string& workspace,
	string* user_blazerc_file, string* error) const {
	const string rc_basename =
	"." + parsed_startup_options_->GetLowercaseProductName() + "rc";

	if (cmd_line_rc_file != nullptr) {
	string rcFile = MakeAbsolute(cmd_line_rc_file);
	if (!blaze_util::CanReadFile(rcFile)) {
	blaze_util::StringPrintf(error,
	"Error: Unable to read %s file '%s'.", rc_basename.c_str(),
	rcFile.c_str());
	return blaze_exit_code::BAD_ARGV;
	}
	*user_blazerc_file = rcFile;
	return blaze_exit_code::SUCCESS;
	}

	string workspaceRcFile = blaze_util::JoinPath(workspace, rc_basename);
	if (blaze_util::CanReadFile(workspaceRcFile)) {
	*user_blazerc_file = workspaceRcFile;
	return blaze_exit_code::SUCCESS;
	}

	string home = blaze::GetHomeDir();
	if (!home.empty()) {
	string userRcFile = blaze_util::JoinPath(home, rc_basename);
	if (blaze_util::CanReadFile(userRcFile)) {
	*user_blazerc_file = userRcFile;
	return blaze_exit_code::SUCCESS;
	}
	}

	BAZEL_LOG(INFO) << "User provided no rc file.";
	*user_blazerc_file = "";
	return blaze_exit_code::SUCCESS;
	}

	namespace internal {

	vector<string> DedupeBlazercPaths(const vector<string>& paths) {
	set<string> canonical_paths;
	vector<string> result;
	for (const string& path : paths) {
	const string canonical_path = blaze_util::MakeCanonical(path.c_str());
	if (canonical_path.empty()) {
	// MakeCanonical returns an empty string when it fails. We ignore this
	// failure since blazerc paths may point to invalid locations.
	} else if (canonical_paths.find(canonical_path) == canonical_paths.end()) {
	result.push_back(path);
	canonical_paths.insert(canonical_path);
	}
	}
	return result;
	}

	string FindRcAlongsideBinary(const string& cwd, const string& path_to_binary) {
	const string path = blaze_util::IsAbsolute(path_to_binary)
	? path_to_binary
	: blaze_util::JoinPath(cwd, path_to_binary);
	const string base = blaze_util::Basename(path_to_binary);
	const string binary_blazerc_path = path + "." + base + "rc";
	if (blaze_util::CanReadFile(binary_blazerc_path)) {
	return binary_blazerc_path;
	}
	return "";
	}

	blaze_exit_code::ExitCode ParseErrorToExitCode(RcFile::ParseError parse_error) {
	switch (parse_error) {
	case RcFile::ParseError::NONE:
	return blaze_exit_code::SUCCESS;
	case RcFile::ParseError::UNREADABLE_FILE:
	// We check readability before parsing, so this is unexpected.
	return blaze_exit_code::INTERNAL_ERROR;
	case RcFile::ParseError::INVALID_FORMAT:
	case RcFile::ParseError::IMPORT_LOOP:
	return blaze_exit_code::BAD_ARGV;
	default:
	return blaze_exit_code::INTERNAL_ERROR;
	}
	}

	} // namespace internal

	// TODO(#4502) Consider simplifying result_rc_files to a vector of RcFiles, no
	// unique_ptrs.
	blaze_exit_code::ExitCode OptionProcessor::GetRcFiles(
	const WorkspaceLayout* workspace_layout, const std::string& workspace,
	const std::string& cwd, const CommandLine* cmd_line,
	std::vector<std::unique_ptr<RcFile>>* result_rc_files,
	std::string* error) const {
	assert(cmd_line != nullptr);
	assert(result_rc_files != nullptr);

	// Find the master bazelrcs if requested. This list may contain duplicates.
	vector<string> candidate_bazelrc_paths;
	if (SearchNullaryOption(cmd_line->startup_args, "master_bazelrc", true)) {
	const string workspace_rc =
	workspace_layout->GetWorkspaceRcPath(workspace, cmd_line->startup_args);
	const string binary_rc =
	internal::FindRcAlongsideBinary(cwd, cmd_line->path_to_binary);
	const string system_rc = FindSystemWideBlazerc();
	BAZEL_LOG(INFO)
	<< "Looking for master bazelrcs in the following three paths: "
	<< workspace_rc << ", " << binary_rc << ", " << system_rc;
	candidate_bazelrc_paths = {workspace_rc, binary_rc, system_rc};
	}

	string user_bazelrc_path;
	blaze_exit_code::ExitCode find_bazelrc_exit_code =
	FindUserBlazerc(SearchUnaryOption(cmd_line->startup_args, "--bazelrc"),
	workspace, &user_bazelrc_path, error);
	if (find_bazelrc_exit_code != blaze_exit_code::SUCCESS) {
	return find_bazelrc_exit_code;
	}

	vector<string> deduped_blazerc_paths =
	internal::DedupeBlazercPaths(candidate_bazelrc_paths);
	deduped_blazerc_paths.push_back(user_bazelrc_path);

	for (const auto& bazelrc_path : deduped_blazerc_paths) {
	if (bazelrc_path.empty()) {
	continue;
	}
	std::unique_ptr<RcFile> parsed_rc;
	blaze_exit_code::ExitCode parse_rcfile_exit_code = ParseRcFile(
	workspace_layout, workspace, bazelrc_path, &parsed_rc, error);
	if (parse_rcfile_exit_code != blaze_exit_code::SUCCESS) {
	return parse_rcfile_exit_code;
	}
	result_rc_files->push_back(std::move(parsed_rc));
	}

	return blaze_exit_code::SUCCESS;
	}

	blaze_exit_code::ExitCode ParseRcFile(const WorkspaceLayout* workspace_layout,
	const std::string& workspace,
	const std::string& rc_file_path,
	std::unique_ptr<RcFile>* result_rc_file,
	std::string* error) {
	assert(!rc_file_path.empty());
	assert(result_rc_file != nullptr);

	RcFile::ParseError parse_error;
	std::unique_ptr<RcFile> parsed_file = RcFile::Parse(
	rc_file_path, workspace_layout, workspace, &parse_error, error);
	if (parsed_file == nullptr) {
	return internal::ParseErrorToExitCode(parse_error);
	}
	*result_rc_file = std::move(parsed_file);
	return blaze_exit_code::SUCCESS;
	}

	blaze_exit_code::ExitCode OptionProcessor::ParseOptions(
	const vector<string>& args, const string& workspace, const string& cwd,
	string* error) {
	cmd_line_ = SplitCommandLine(args, error);
	if (cmd_line_ == nullptr) {
	return blaze_exit_code::BAD_ARGV;
	}

	// Read the rc files. This depends on the startup options in argv since these
	// may contain rc-modifying options. For all other options, the precedence of
	// options will be rc first, then command line options, though, despite this
	// exception.
	std::vector<std::unique_ptr<RcFile>> rc_files;
	const blaze_exit_code::ExitCode rc_parsing_exit_code = GetRcFiles(
	workspace_layout_, workspace, cwd, cmd_line_.get(), &rc_files, error);
	if (rc_parsing_exit_code != blaze_exit_code::SUCCESS) {
	return rc_parsing_exit_code;
	}

	// Parse the startup options in the correct priority order.
	const blaze_exit_code::ExitCode parse_startup_options_exit_code =
	ParseStartupOptions(rc_files, error);
	if (parse_startup_options_exit_code != blaze_exit_code::SUCCESS) {
	return parse_startup_options_exit_code;
	}

	blazerc_and_env_command_args_ =
	GetBlazercAndEnvCommandArgs(cwd, rc_files, GetProcessedEnv());
	return blaze_exit_code::SUCCESS;
	}

	static void PrintStartupOptions(const std::string& source,
	const std::vector<std::string>& options) {
	if (!source.empty()) {
	std::string startup_args;
	blaze_util::JoinStrings(options, ' ', &startup_args);
	fprintf(stderr, "INFO: Reading 'startup' options from %s: %s\n",
	source.c_str(), startup_args.c_str());
	}
	}

	void OptionProcessor::PrintStartupOptionsProvenanceMessage() const {
	StartupOptions* parsed_startup_options = GetParsedStartupOptions();

	// Print the startup flags in the order they are parsed, to keep the
	// precendence clear. In order to minimize the number of lines of output in
	// the terminal, group sequential flags by origin. Note that an rc file may
	// turn up multiple times in this list, if, for example, it imports another
	// rc file and contains startup options on either side of the import
	// statement. This is done intentionally to make option priority clear.
	std::string command_line_source;
	std::string& most_recent_blazerc = command_line_source;
	std::vector<std::string> accumulated_options;
	for (auto flag : parsed_startup_options->original_startup_options_) {
	if (flag.source == most_recent_blazerc) {
	accumulated_options.push_back(flag.value);
	} else {
	PrintStartupOptions(most_recent_blazerc, accumulated_options);
	// Start accumulating again.
	accumulated_options.clear();
	accumulated_options.push_back(flag.value);
	most_recent_blazerc = flag.source;
	}
	}
	// Don't forget to print out the last ones.
	PrintStartupOptions(most_recent_blazerc, accumulated_options);
	}

	blaze_exit_code::ExitCode OptionProcessor::ParseStartupOptions(
	const std::vector<std::unique_ptr<RcFile>> &rc_files,
	std::string *error) {
	// Rc files can import other files at any point, and these imported rcs are
	// expanded in place. Here, we isolate just the startup options but keep the
	// file they came from attached for the option_sources tracking and for
	// sending to the server.
	std::vector<RcStartupFlag> rcstartup_flags;

	for (const auto& blazerc : rc_files) {
	const auto iter = blazerc->options().find("startup");
	if (iter == blazerc->options().end()) continue;

	for (const RcOption& option : iter->second) {
	rcstartup_flags.push_back({*option.source_path, option.option});
	}
	}

	for (const std::string& arg : cmd_line_->startup_args) {
	if (!IsArg(arg)) {
	break;
	}
	rcstartup_flags.push_back(RcStartupFlag("", arg));
	}

	return parsed_startup_options_->ProcessArgs(rcstartup_flags, error);
	}

	static bool IsValidEnvName(const char* p) {
	#if defined(COMPILER_MSVC) \|\| defined(__CYGWIN__)
	for (; p && p != '='; ++p) {
	if (!((p >= 'a' && p <= 'z') \|\| (p >= 'A' && p <= 'Z') \|\|
	(p >= '0' && p <= '9') \|\| *p == '_')) {
	return false;
	}
	}
	#endif
	return true;
	}

	#if defined(COMPILER_MSVC)
	static void PreprocessEnvString(string* env_str) {
	static constexpr const char* vars_to_uppercase[] = {"PATH", "SYSTEMROOT",
	"TEMP", "TEMPDIR", "TMP"};

	int pos = env_str->find_first_of('=');
	if (pos == string::npos) return;

	string name = env_str->substr(0, pos);
	// We do not care about locale. All variable names are ASCII.
	std::transform(name.begin(), name.end(), name.begin(), ::toupper);
	if (std::find(std::begin(vars_to_uppercase), std::end(vars_to_uppercase),
	name) != std::end(vars_to_uppercase)) {
	env_str->assign(name + "=" + env_str->substr(pos + 1));
	}
	}

	#elif defined(__CYGWIN__) // not defined(COMPILER_MSVC)

	static void PreprocessEnvString(string* env_str) {
	int pos = env_str->find_first_of('=');
	if (pos == string::npos) return;
	string name = env_str->substr(0, pos);
	if (name == "PATH") {
	env_str->assign("PATH=" + env_str->substr(pos + 1));
	} else if (name == "TMP") {
	// A valid Windows path "c:/foo" is also a valid Unix path list of
	// ["c", "/foo"] so must use ConvertPath here. See GitHub issue #1684.
	env_str->assign("TMP=" + ConvertPath(env_str->substr(pos + 1)));
	}
	}

	#else // Non-Windows platforms.

	static void PreprocessEnvString(const string* env_str) {
	// do nothing.
	}
	#endif // defined(COMPILER_MSVC)

	static std::vector<std::string> GetProcessedEnv() {
	std::vector<std::string> processed_env;
	for (char** env = environ; *env != NULL; env++) {
	string env_str(*env);
	if (IsValidEnvName(*env)) {
	PreprocessEnvString(&env_str);
	processed_env.push_back(std::move(env_str));
	}
	}
	return processed_env;
	}

	// IMPORTANT: The options added here do not come from the user. In order for
	// their source to be correctly tracked, the options must either be passed
	// as --default_override=0, 0 being "client", or must be listed in
	// BlazeOptionHandler.INTERNAL_COMMAND_OPTIONS!
	std::vector<std::string> OptionProcessor::GetBlazercAndEnvCommandArgs(
	const std::string& cwd,
	const std::vector<std::unique_ptr<RcFile>>& blazercs,
	const std::vector<std::string>& env) {
	// Provide terminal options as coming from the least important rc file.
	std::vector<std::string> result = {
	"--rc_source=client",
	"--default_override=0:common=--isatty=" + ToString(IsStandardTerminal()),
	"--default_override=0:common=--terminal_columns=" +
	ToString(GetTerminalColumns())};
	if (IsEmacsTerminal()) {
	result.push_back("--default_override=0:common=--emacs");
	}

	EnsurePythonPathOption(&result);

	// Map .blazerc numbers to filenames. The indexes here start at 1 because #0
	// is reserved the "client" options created by this function.
	int cur_index = 1;
	std::map<std::string, int> rcfile_indexes;
	for (const auto& blazerc : blazercs) {
	for (const std::string& source_path : blazerc->sources()) {
	// Deduplicate the rc_source list because the same file might be included
	// from multiple places.
	if (rcfile_indexes.find(source_path) != rcfile_indexes.end()) continue;

	result.push_back("--rc_source=" + blaze::ConvertPath(source_path));
	rcfile_indexes[source_path] = cur_index;
	cur_index++;
	}
	}

	// Add RcOptions as default_overrides.
	for (const auto& blazerc : blazercs) {
	for (const auto& command_options : blazerc->options()) {
	const string& command = command_options.first;
	// Skip startup flags, which are already parsed by the client.
	if (command == "startup") continue;

	for (const RcOption& rcoption : command_options.second) {
	std::ostringstream oss;
	oss << "--default_override=" << rcfile_indexes[*rcoption.source_path]
	<< ':' << command << '=' << rcoption.option;
	result.push_back(oss.str());
	}
	}
	}

	// Pass the client environment to the server.
	for (const string& env_var : env) {
	result.push_back("--client_env=" + env_var);
	}
	result.push_back("--client_cwd=" + blaze::ConvertPath(cwd));
	return result;
	}

	std::vector<std::string> OptionProcessor::GetCommandArguments() const {
	assert(cmd_line_ != nullptr);
	// When the user didn't specify a command, the server expects the command
	// arguments to be empty in order to display the help message.
	if (cmd_line_->command.empty()) {
	return {};
	}

	std::vector<std::string> command_args = blazerc_and_env_command_args_;
	command_args.insert(command_args.end(),
	cmd_line_->command_args.begin(),
	cmd_line_->command_args.end());
	return command_args;
	}

	std::vector<std::string> OptionProcessor::GetExplicitCommandArguments() const {
	assert(cmd_line_ != nullptr);
	return cmd_line_->command_args;
	}

	std::string OptionProcessor::GetCommand() const {
	assert(cmd_line_ != nullptr);
	return cmd_line_->command;
	}

	StartupOptions* OptionProcessor::GetParsedStartupOptions() const {
	assert(parsed_startup_options_ != NULL);
	return parsed_startup_options_.get();
	}

	} // namespace blaze