src/gn/ninja_rust_binary_target_writer.cc - gn - Git at Google

 // Copyright 2019 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "gn/ninja_rust_binary_target_writer.h"

 #include <sstream>

 #include "base/strings/string_util.h"
 #include "gn/deps_iterator.h"
 #include "gn/filesystem_utils.h"
 #include "gn/general_tool.h"
 #include "gn/ninja_target_command_util.h"
 #include "gn/ninja_utils.h"
 #include "gn/rust_substitution_type.h"
 #include "gn/rust_values.h"
 #include "gn/substitution_writer.h"
 #include "gn/target.h"

 namespace {

 // Returns the proper escape options for writing compiler and linker flags.
 EscapeOptions GetFlagOptions() {
   EscapeOptions opts;
   opts.mode = ESCAPE_NINJA_COMMAND;
   return opts;
 }

 void WriteVar(const char* name,
               const std::string& value,
               EscapeOptions opts,
               std::ostream& out) {
   out << name << " = ";
   EscapeStringToStream(out, value, opts);
   out << std::endl;
 }

 void WriteCrateVars(const Target* target,
                     const Tool* tool,
                     EscapeOptions opts,
                     std::ostream& out) {
   WriteVar(kRustSubstitutionCrateName.ninja_name,
            target->rust_values().crate_name(), opts, out);

   std::string crate_type;
   switch (target->rust_values().crate_type()) {
     // Auto-select the crate type for executables, static libraries, and rlibs.
     case RustValues::CRATE_AUTO: {
       switch (target->output_type()) {
         case Target::EXECUTABLE:
           crate_type = "bin";
           break;
         case Target::STATIC_LIBRARY:
           crate_type = "staticlib";
           break;
         case Target::RUST_LIBRARY:
           crate_type = "rlib";
           break;
         case Target::RUST_PROC_MACRO:
           crate_type = "proc-macro";
           break;
         default:
           NOTREACHED();
       }
       break;
     }
     case RustValues::CRATE_BIN:
       crate_type = "bin";
       break;
     case RustValues::CRATE_CDYLIB:
       crate_type = "cdylib";
       break;
     case RustValues::CRATE_DYLIB:
       crate_type = "dylib";
       break;
     case RustValues::CRATE_PROC_MACRO:
       crate_type = "proc-macro";
       break;
     case RustValues::CRATE_RLIB:
       crate_type = "rlib";
       break;
     case RustValues::CRATE_STATICLIB:
       crate_type = "staticlib";
       break;
     default:
       NOTREACHED();
   }
   WriteVar(kRustSubstitutionCrateType.ninja_name, crate_type, opts, out);

   WriteVar(SubstitutionOutputExtension.ninja_name,
            SubstitutionWriter::GetLinkerSubstitution(
                target, tool, &SubstitutionOutputExtension),
            opts, out);
   WriteVar(SubstitutionOutputDir.ninja_name,
            SubstitutionWriter::GetLinkerSubstitution(target, tool,
                                                      &SubstitutionOutputDir),
            opts, out);
 }

 }  // namespace

 NinjaRustBinaryTargetWriter::NinjaRustBinaryTargetWriter(const Target* target,
                                                          std::ostream& out)
     : NinjaBinaryTargetWriter(target, out),
       tool_(target->toolchain()->GetToolForTargetFinalOutputAsRust(target)) {}

 NinjaRustBinaryTargetWriter::~NinjaRustBinaryTargetWriter() = default;

 // TODO(juliehockett): add inherited library support? and IsLinkable support?
 // for c-cross-compat
 void NinjaRustBinaryTargetWriter::Run() {
   DCHECK(target_->output_type() != Target::SOURCE_SET);

   size_t num_stamp_uses = target_->sources().size();

   std::vector<OutputFile> input_deps =
       WriteInputsStampAndGetDep(num_stamp_uses);

   WriteCompilerVars();

   // Classify our dependencies.
   ClassifiedDeps classified_deps = GetClassifiedDeps();

   // The input dependencies will be an order-only dependency. This will cause
   // Ninja to make sure the inputs are up to date before compiling this source,
   // but changes in the inputs deps won't cause the file to be recompiled. See
   // the comment on NinjaCBinaryTargetWriter::Run for more detailed explanation.
   std::vector<OutputFile> order_only_deps = WriteInputDepsStampAndGetDep(
       std::vector<const Target*>(), num_stamp_uses);
   std::copy(input_deps.begin(), input_deps.end(),
             std::back_inserter(order_only_deps));

   // Build lists which will go into different bits of the rustc command line.
   // Public rust_library deps go in a --extern rlibs, public non-rust deps go in
   // -Ldependency. Also assemble a list of extra (i.e. implicit) deps
   // for ninja dependency tracking.
   UniqueVector<OutputFile> implicit_deps;
   AppendSourcesAndInputsToImplicitDeps(&implicit_deps);
   implicit_deps.Append(classified_deps.extra_object_files.begin(),
                        classified_deps.extra_object_files.end());

   std::vector<OutputFile> rustdeps;
   std::vector<OutputFile> nonrustdeps;
   nonrustdeps.insert(nonrustdeps.end(),
                      classified_deps.extra_object_files.begin(),
                      classified_deps.extra_object_files.end());
   for (const auto* framework_dep : classified_deps.framework_deps) {
     order_only_deps.push_back(framework_dep->dependency_output_file());
   }
   for (const auto* non_linkable_dep : classified_deps.non_linkable_deps) {
     if (non_linkable_dep->source_types_used().RustSourceUsed() &&
         non_linkable_dep->output_type() != Target::SOURCE_SET) {
       rustdeps.push_back(non_linkable_dep->dependency_output_file());
     }
     order_only_deps.push_back(non_linkable_dep->dependency_output_file());
   }
   for (const auto* linkable_dep : classified_deps.linkable_deps) {
     // Rust cdylibs are treated as non-Rust dependencies for linking purposes.
     if (linkable_dep->source_types_used().RustSourceUsed() &&
         linkable_dep->rust_values().crate_type() != RustValues::CRATE_CDYLIB) {
       rustdeps.push_back(linkable_dep->link_output_file());
     } else {
       nonrustdeps.push_back(linkable_dep->link_output_file());
     }
     implicit_deps.push_back(linkable_dep->dependency_output_file());
   }

   // Rust libraries specified by paths.
   for (ConfigValuesIterator iter(target_); !iter.done(); iter.Next()) {
     const ConfigValues& cur = iter.cur();
     for (const auto& e : cur.externs()) {
       if (e.second.is_source_file()) {
         implicit_deps.push_back(
             OutputFile(settings_->build_settings(), e.second.source_file()));
       }
     }
   }

   // Collect the full transitive set of rust libraries that this target depends
   // on, and the public flag represents if the target has direct access to the
   // dependency through a chain of public_deps.
   std::vector<ExternCrate> transitive_crates;
   for (const auto& inherited : resolved().GetRustInheritedLibraries(target_)) {
     const Target* dep = inherited.target();
     bool has_direct_access = inherited.is_public();
     // We will tell rustc to look for crate metadata for any rust crate
     // dependencies except cdylibs, as they have no metadata present.
     if (dep->source_types_used().RustSourceUsed() &&
         RustValues::IsRustLibrary(dep)) {
       transitive_crates.push_back({dep, has_direct_access});
       // If the current crate can directly acccess the `dep` crate, then the
       // current crate needs an implicit dependency on `dep` so it will be
       // rebuilt if `dep` changes.
       if (has_direct_access) {
         implicit_deps.push_back(dep->dependency_output_file());
       }
     }
   }

   std::vector<OutputFile> tool_outputs;
   SubstitutionWriter::ApplyListToLinkerAsOutputFile(
       target_, tool_, tool_->outputs(), &tool_outputs);
   WriteCompilerBuildLine({target_->rust_values().crate_root()},
                          implicit_deps.vector(), order_only_deps, tool_->name(),
                          tool_outputs);

   std::vector<const Target*> extern_deps(
       classified_deps.linkable_deps.vector());
   std::copy(classified_deps.non_linkable_deps.begin(),
             classified_deps.non_linkable_deps.end(),
             std::back_inserter(extern_deps));
   WriteExternsAndDeps(extern_deps, transitive_crates, rustdeps, nonrustdeps);
   WriteSourcesAndInputs();
   WritePool(out_);
 }

 void NinjaRustBinaryTargetWriter::WriteCompilerVars() {
   const SubstitutionBits& subst = target_->toolchain()->substitution_bits();

   EscapeOptions opts = GetFlagOptions();
   WriteCrateVars(target_, tool_, opts, out_);

   WriteRustCompilerVars(subst, /*indent=*/false, /*always_write=*/true);

   WriteSharedVars(subst);
 }

 void NinjaRustBinaryTargetWriter::AppendSourcesAndInputsToImplicitDeps(
     UniqueVector<OutputFile>* deps) const {
   // Only the crate_root file needs to be given to rustc as input.
   // Any other 'sources' are just implicit deps.
   // Most Rust targets won't bother specifying the "sources =" line
   // because it is handled sufficiently by crate_root and the generation
   // of depfiles by rustc. But for those which do...
   for (const auto& source : target_->sources()) {
     deps->push_back(OutputFile(settings_->build_settings(), source));
   }
   for (const auto& data : target_->config_values().inputs()) {
     deps->push_back(OutputFile(settings_->build_settings(), data));
   }
 }

 void NinjaRustBinaryTargetWriter::WriteSourcesAndInputs() {
   out_ << "  sources =";
   for (const auto& source : target_->sources()) {
     out_ << " ";
     path_output_.WriteFile(out_,
                            OutputFile(settings_->build_settings(), source));
   }
   for (const auto& data : target_->config_values().inputs()) {
     out_ << " ";
     path_output_.WriteFile(out_, OutputFile(settings_->build_settings(), data));
   }
   out_ << std::endl;
 }

 void NinjaRustBinaryTargetWriter::WriteExternsAndDeps(
     const std::vector<const Target*>& deps,
     const std::vector<ExternCrate>& transitive_rust_deps,
     const std::vector<OutputFile>& rustdeps,
     const std::vector<OutputFile>& nonrustdeps) {
   // Writes a external LibFile which comes from user-specified externs, and may
   // be either a string or a SourceFile.
   auto write_extern_lib_file = [this](std::string_view crate_name,
                                       LibFile lib_file) {
     out_ << " --extern ";
     out_ << crate_name;
     out_ << "=";
     if (lib_file.is_source_file()) {
       path_output_.WriteFile(out_, lib_file.source_file());
     } else {
       EscapeOptions escape_opts_command;
       escape_opts_command.mode = ESCAPE_NINJA_COMMAND;
       EscapeStringToStream(out_, lib_file.value(), escape_opts_command);
     }
   };
   // Writes an external OutputFile which comes from a dependency of the current
   // target.
   auto write_extern_target = [this](const Target& dep) {
     std::string_view crate_name;
     const auto& aliased_deps = target_->rust_values().aliased_deps();
     if (auto it = aliased_deps.find(dep.label()); it != aliased_deps.end()) {
       crate_name = it->second;
     } else {
       crate_name = dep.rust_values().crate_name();
     }

     out_ << " --extern ";
     out_ << crate_name;
     out_ << "=";
     path_output_.WriteFile(out_, dep.dependency_output_file());
   };

   // Write accessible crates with `--extern` to add them to the extern prelude.
   out_ << "  externs =";

   // Tracking to avoid emitted the same lib twice. We track it instead of
   // pre-emptively constructing a UniqueVector since we would have to also store
   // the crate name, and in the future the public-ness.
   std::unordered_set<OutputFile> emitted_rust_libs;
   // TODO: We defer private dependencies to -Ldependency until --extern priv is
   // stabilized.
   UniqueVector<SourceDir> private_extern_dirs;

   // Walk the transitive closure of all rust dependencies.
   //
   // For dependencies that are meant to be accessible we pass them to --extern
   // in order to add them to the crate's extern prelude.
   //
   // For all transitive dependencies, we add them to `private_extern_dirs` in
   // order to generate a -Ldependency switch that points to them. This ensures
   // that rustc can find them if they are used by other dependencies. For
   // example:
   //
   //   A -> C --public--> D
   //     -> B --private-> D
   //
   // Here A has direct access to D, but B and C also make use of D, and they
   // will only search the paths specified to -Ldependency, thus D needs to
   // appear as both a --extern (for A) and -Ldependency (for B and C).
   for (const auto& crate : transitive_rust_deps) {
     const OutputFile& rust_lib = crate.target->dependency_output_file();
     if (emitted_rust_libs.count(rust_lib) == 0) {
       if (crate.has_direct_access) {
         write_extern_target(*crate.target);
       }
       emitted_rust_libs.insert(rust_lib);
     }
     private_extern_dirs.push_back(
         rust_lib.AsSourceFile(settings_->build_settings()).GetDir());
   }

   // Add explicitly specified externs from the GN target.
   for (ConfigValuesIterator iter(target_); !iter.done(); iter.Next()) {
     const ConfigValues& cur = iter.cur();
     for (const auto& [crate_name, lib_file] : cur.externs()) {
       write_extern_lib_file(crate_name, lib_file);
     }
   }

   out_ << std::endl;
   out_ << "  rustdeps =";

   for (const SourceDir& dir : private_extern_dirs) {
     // TODO: switch to using `--extern priv:name` after stabilization.
     out_ << " -Ldependency=";
     path_output_.WriteDir(out_, dir, PathOutput::DIR_NO_LAST_SLASH);
   }

   // Non-Rust native dependencies.
   UniqueVector<SourceDir> nonrustdep_dirs;
   for (const auto& nonrustdep : nonrustdeps) {
     nonrustdep_dirs.push_back(
         nonrustdep.AsSourceFile(settings_->build_settings()).GetDir());
   }
   // First -Lnative to specify the search directories.
   // This is necessary for #[link(...)] directives to work properly.
   for (const auto& nonrustdep_dir : nonrustdep_dirs) {
     out_ << " -Lnative=";
     path_output_.WriteDir(out_, nonrustdep_dir, PathOutput::DIR_NO_LAST_SLASH);
   }
   // Before outputting any libraries to link, ensure the linker is in a mode
   // that allows dynamic linking, as rustc may have previously put it into
   // static-only mode.
   if (nonrustdeps.size() > 0) {
     out_ << " -Clink-arg=-Bdynamic";
   }
   for (const auto& nonrustdep : nonrustdeps) {
     out_ << " -Clink-arg=";
     path_output_.WriteFile(out_, nonrustdep);
   }
   WriteLibrarySearchPath(out_, tool_);
   WriteLibs(out_, tool_);
   out_ << std::endl;
   out_ << "  ldflags =";
   WriteCustomLinkerFlags(out_, tool_);
   out_ << std::endl;
 }
	// Copyright 2019 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "gn/ninja_rust_binary_target_writer.h"

	#include <sstream>

	#include "base/strings/string_util.h"
	#include "gn/deps_iterator.h"
	#include "gn/filesystem_utils.h"
	#include "gn/general_tool.h"
	#include "gn/ninja_target_command_util.h"
	#include "gn/ninja_utils.h"
	#include "gn/rust_substitution_type.h"
	#include "gn/rust_values.h"
	#include "gn/substitution_writer.h"
	#include "gn/target.h"

	namespace {

	// Returns the proper escape options for writing compiler and linker flags.
	EscapeOptions GetFlagOptions() {
	EscapeOptions opts;
	opts.mode = ESCAPE_NINJA_COMMAND;
	return opts;
	}

	void WriteVar(const char* name,
	const std::string& value,
	EscapeOptions opts,
	std::ostream& out) {
	out << name << " = ";
	EscapeStringToStream(out, value, opts);
	out << std::endl;
	}

	void WriteCrateVars(const Target* target,
	const Tool* tool,
	EscapeOptions opts,
	std::ostream& out) {
	WriteVar(kRustSubstitutionCrateName.ninja_name,
	target->rust_values().crate_name(), opts, out);

	std::string crate_type;
	switch (target->rust_values().crate_type()) {
	// Auto-select the crate type for executables, static libraries, and rlibs.
	case RustValues::CRATE_AUTO: {
	switch (target->output_type()) {
	case Target::EXECUTABLE:
	crate_type = "bin";
	break;
	case Target::STATIC_LIBRARY:
	crate_type = "staticlib";
	break;
	case Target::RUST_LIBRARY:
	crate_type = "rlib";
	break;
	case Target::RUST_PROC_MACRO:
	crate_type = "proc-macro";
	break;
	default:
	NOTREACHED();
	}
	break;
	}
	case RustValues::CRATE_BIN:
	crate_type = "bin";
	break;
	case RustValues::CRATE_CDYLIB:
	crate_type = "cdylib";
	break;
	case RustValues::CRATE_DYLIB:
	crate_type = "dylib";
	break;
	case RustValues::CRATE_PROC_MACRO:
	crate_type = "proc-macro";
	break;
	case RustValues::CRATE_RLIB:
	crate_type = "rlib";
	break;
	case RustValues::CRATE_STATICLIB:
	crate_type = "staticlib";
	break;
	default:
	NOTREACHED();
	}
	WriteVar(kRustSubstitutionCrateType.ninja_name, crate_type, opts, out);

	WriteVar(SubstitutionOutputExtension.ninja_name,
	SubstitutionWriter::GetLinkerSubstitution(
	target, tool, &SubstitutionOutputExtension),
	opts, out);
	WriteVar(SubstitutionOutputDir.ninja_name,
	SubstitutionWriter::GetLinkerSubstitution(target, tool,
	&SubstitutionOutputDir),
	opts, out);
	}

	} // namespace

	NinjaRustBinaryTargetWriter::NinjaRustBinaryTargetWriter(const Target* target,
	std::ostream& out)
	: NinjaBinaryTargetWriter(target, out),
	tool_(target->toolchain()->GetToolForTargetFinalOutputAsRust(target)) {}

	NinjaRustBinaryTargetWriter::~NinjaRustBinaryTargetWriter() = default;

	// TODO(juliehockett): add inherited library support? and IsLinkable support?
	// for c-cross-compat
	void NinjaRustBinaryTargetWriter::Run() {
	DCHECK(target_->output_type() != Target::SOURCE_SET);

	size_t num_stamp_uses = target_->sources().size();

	std::vector<OutputFile> input_deps =
	WriteInputsStampAndGetDep(num_stamp_uses);

	WriteCompilerVars();

	// Classify our dependencies.
	ClassifiedDeps classified_deps = GetClassifiedDeps();

	// The input dependencies will be an order-only dependency. This will cause
	// Ninja to make sure the inputs are up to date before compiling this source,
	// but changes in the inputs deps won't cause the file to be recompiled. See
	// the comment on NinjaCBinaryTargetWriter::Run for more detailed explanation.
	std::vector<OutputFile> order_only_deps = WriteInputDepsStampAndGetDep(
	std::vector<const Target*>(), num_stamp_uses);
	std::copy(input_deps.begin(), input_deps.end(),
	std::back_inserter(order_only_deps));

	// Build lists which will go into different bits of the rustc command line.
	// Public rust_library deps go in a --extern rlibs, public non-rust deps go in
	// -Ldependency. Also assemble a list of extra (i.e. implicit) deps
	// for ninja dependency tracking.
	UniqueVector<OutputFile> implicit_deps;
	AppendSourcesAndInputsToImplicitDeps(&implicit_deps);
	implicit_deps.Append(classified_deps.extra_object_files.begin(),
	classified_deps.extra_object_files.end());

	std::vector<OutputFile> rustdeps;
	std::vector<OutputFile> nonrustdeps;
	nonrustdeps.insert(nonrustdeps.end(),
	classified_deps.extra_object_files.begin(),
	classified_deps.extra_object_files.end());
	for (const auto* framework_dep : classified_deps.framework_deps) {
	order_only_deps.push_back(framework_dep->dependency_output_file());
	}
	for (const auto* non_linkable_dep : classified_deps.non_linkable_deps) {
	if (non_linkable_dep->source_types_used().RustSourceUsed() &&
	non_linkable_dep->output_type() != Target::SOURCE_SET) {
	rustdeps.push_back(non_linkable_dep->dependency_output_file());
	}
	order_only_deps.push_back(non_linkable_dep->dependency_output_file());
	}
	for (const auto* linkable_dep : classified_deps.linkable_deps) {
	// Rust cdylibs are treated as non-Rust dependencies for linking purposes.
	if (linkable_dep->source_types_used().RustSourceUsed() &&
	linkable_dep->rust_values().crate_type() != RustValues::CRATE_CDYLIB) {
	rustdeps.push_back(linkable_dep->link_output_file());
	} else {
	nonrustdeps.push_back(linkable_dep->link_output_file());
	}
	implicit_deps.push_back(linkable_dep->dependency_output_file());
	}

	// Rust libraries specified by paths.
	for (ConfigValuesIterator iter(target_); !iter.done(); iter.Next()) {
	const ConfigValues& cur = iter.cur();
	for (const auto& e : cur.externs()) {
	if (e.second.is_source_file()) {
	implicit_deps.push_back(
	OutputFile(settings_->build_settings(), e.second.source_file()));
	}
	}
	}

	// Collect the full transitive set of rust libraries that this target depends
	// on, and the public flag represents if the target has direct access to the
	// dependency through a chain of public_deps.
	std::vector<ExternCrate> transitive_crates;
	for (const auto& inherited : resolved().GetRustInheritedLibraries(target_)) {
	const Target* dep = inherited.target();
	bool has_direct_access = inherited.is_public();
	// We will tell rustc to look for crate metadata for any rust crate
	// dependencies except cdylibs, as they have no metadata present.
	if (dep->source_types_used().RustSourceUsed() &&
	RustValues::IsRustLibrary(dep)) {
	transitive_crates.push_back({dep, has_direct_access});
	// If the current crate can directly acccess the `dep` crate, then the
	// current crate needs an implicit dependency on `dep` so it will be
	// rebuilt if `dep` changes.
	if (has_direct_access) {
	implicit_deps.push_back(dep->dependency_output_file());
	}
	}
	}

	std::vector<OutputFile> tool_outputs;
	SubstitutionWriter::ApplyListToLinkerAsOutputFile(
	target_, tool_, tool_->outputs(), &tool_outputs);
	WriteCompilerBuildLine({target_->rust_values().crate_root()},
	implicit_deps.vector(), order_only_deps, tool_->name(),
	tool_outputs);

	std::vector<const Target*> extern_deps(
	classified_deps.linkable_deps.vector());
	std::copy(classified_deps.non_linkable_deps.begin(),
	classified_deps.non_linkable_deps.end(),
	std::back_inserter(extern_deps));
	WriteExternsAndDeps(extern_deps, transitive_crates, rustdeps, nonrustdeps);
	WriteSourcesAndInputs();
	WritePool(out_);
	}

	void NinjaRustBinaryTargetWriter::WriteCompilerVars() {
	const SubstitutionBits& subst = target_->toolchain()->substitution_bits();

	EscapeOptions opts = GetFlagOptions();
	WriteCrateVars(target_, tool_, opts, out_);

	WriteRustCompilerVars(subst, /indent=/false, /always_write=/true);

	WriteSharedVars(subst);
	}

	void NinjaRustBinaryTargetWriter::AppendSourcesAndInputsToImplicitDeps(
	UniqueVector<OutputFile>* deps) const {
	// Only the crate_root file needs to be given to rustc as input.
	// Any other 'sources' are just implicit deps.
	// Most Rust targets won't bother specifying the "sources =" line
	// because it is handled sufficiently by crate_root and the generation
	// of depfiles by rustc. But for those which do...
	for (const auto& source : target_->sources()) {
	deps->push_back(OutputFile(settings_->build_settings(), source));
	}
	for (const auto& data : target_->config_values().inputs()) {
	deps->push_back(OutputFile(settings_->build_settings(), data));
	}
	}

	void NinjaRustBinaryTargetWriter::WriteSourcesAndInputs() {
	out_ << " sources =";
	for (const auto& source : target_->sources()) {
	out_ << " ";
	path_output_.WriteFile(out_,
	OutputFile(settings_->build_settings(), source));
	}
	for (const auto& data : target_->config_values().inputs()) {
	out_ << " ";
	path_output_.WriteFile(out_, OutputFile(settings_->build_settings(), data));
	}
	out_ << std::endl;
	}

	void NinjaRustBinaryTargetWriter::WriteExternsAndDeps(
	const std::vector<const Target*>& deps,
	const std::vector<ExternCrate>& transitive_rust_deps,
	const std::vector<OutputFile>& rustdeps,
	const std::vector<OutputFile>& nonrustdeps) {
	// Writes a external LibFile which comes from user-specified externs, and may
	// be either a string or a SourceFile.
	auto write_extern_lib_file = [this](std::string_view crate_name,
	LibFile lib_file) {
	out_ << " --extern ";
	out_ << crate_name;
	out_ << "=";
	if (lib_file.is_source_file()) {
	path_output_.WriteFile(out_, lib_file.source_file());
	} else {
	EscapeOptions escape_opts_command;
	escape_opts_command.mode = ESCAPE_NINJA_COMMAND;
	EscapeStringToStream(out_, lib_file.value(), escape_opts_command);
	}
	};
	// Writes an external OutputFile which comes from a dependency of the current
	// target.
	auto write_extern_target = [this](const Target& dep) {
	std::string_view crate_name;
	const auto& aliased_deps = target_->rust_values().aliased_deps();
	if (auto it = aliased_deps.find(dep.label()); it != aliased_deps.end()) {
	crate_name = it->second;
	} else {
	crate_name = dep.rust_values().crate_name();
	}

	out_ << " --extern ";
	out_ << crate_name;
	out_ << "=";
	path_output_.WriteFile(out_, dep.dependency_output_file());
	};

	// Write accessible crates with `--extern` to add them to the extern prelude.
	out_ << " externs =";

	// Tracking to avoid emitted the same lib twice. We track it instead of
	// pre-emptively constructing a UniqueVector since we would have to also store
	// the crate name, and in the future the public-ness.
	std::unordered_set<OutputFile> emitted_rust_libs;
	// TODO: We defer private dependencies to -Ldependency until --extern priv is
	// stabilized.
	UniqueVector<SourceDir> private_extern_dirs;

	// Walk the transitive closure of all rust dependencies.
	//
	// For dependencies that are meant to be accessible we pass them to --extern
	// in order to add them to the crate's extern prelude.
	//
	// For all transitive dependencies, we add them to `private_extern_dirs` in
	// order to generate a -Ldependency switch that points to them. This ensures
	// that rustc can find them if they are used by other dependencies. For
	// example:
	//
	// A -> C --public--> D
	// -> B --private-> D
	//
	// Here A has direct access to D, but B and C also make use of D, and they
	// will only search the paths specified to -Ldependency, thus D needs to
	// appear as both a --extern (for A) and -Ldependency (for B and C).
	for (const auto& crate : transitive_rust_deps) {
	const OutputFile& rust_lib = crate.target->dependency_output_file();
	if (emitted_rust_libs.count(rust_lib) == 0) {
	if (crate.has_direct_access) {
	write_extern_target(*crate.target);
	}
	emitted_rust_libs.insert(rust_lib);
	}
	private_extern_dirs.push_back(
	rust_lib.AsSourceFile(settings_->build_settings()).GetDir());
	}

	// Add explicitly specified externs from the GN target.
	for (ConfigValuesIterator iter(target_); !iter.done(); iter.Next()) {
	const ConfigValues& cur = iter.cur();
	for (const auto& [crate_name, lib_file] : cur.externs()) {
	write_extern_lib_file(crate_name, lib_file);
	}
	}

	out_ << std::endl;
	out_ << " rustdeps =";

	for (const SourceDir& dir : private_extern_dirs) {
	// TODO: switch to using `--extern priv:name` after stabilization.
	out_ << " -Ldependency=";
	path_output_.WriteDir(out_, dir, PathOutput::DIR_NO_LAST_SLASH);
	}

	// Non-Rust native dependencies.
	UniqueVector<SourceDir> nonrustdep_dirs;
	for (const auto& nonrustdep : nonrustdeps) {
	nonrustdep_dirs.push_back(
	nonrustdep.AsSourceFile(settings_->build_settings()).GetDir());
	}
	// First -Lnative to specify the search directories.
	// This is necessary for #[link(...)] directives to work properly.
	for (const auto& nonrustdep_dir : nonrustdep_dirs) {
	out_ << " -Lnative=";
	path_output_.WriteDir(out_, nonrustdep_dir, PathOutput::DIR_NO_LAST_SLASH);
	}
	// Before outputting any libraries to link, ensure the linker is in a mode
	// that allows dynamic linking, as rustc may have previously put it into
	// static-only mode.
	if (nonrustdeps.size() > 0) {
	out_ << " -Clink-arg=-Bdynamic";
	}
	for (const auto& nonrustdep : nonrustdeps) {
	out_ << " -Clink-arg=";
	path_output_.WriteFile(out_, nonrustdep);
	}
	WriteLibrarySearchPath(out_, tool_);
	WriteLibs(out_, tool_);
	out_ << std::endl;
	out_ << " ldflags =";
	WriteCustomLinkerFlags(out_, tool_);
	out_ << std::endl;
	}