tools/gn/header_checker_unittest.cc - gn - Git at Google

 // Copyright 2014 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 <ostream>
 #include <vector>

 #include "base/bind.h"
 #include "tools/gn/config.h"
 #include "tools/gn/header_checker.h"
 #include "tools/gn/scheduler.h"
 #include "tools/gn/target.h"
 #include "tools/gn/test_with_scheduler.h"
 #include "tools/gn/test_with_scope.h"
 #include "util/test/test.h"

 namespace {

 class HeaderCheckerTest : public TestWithScheduler {
  public:
   HeaderCheckerTest()
       : a_(setup_.settings(), Label(SourceDir("//a/"), "a")),
         b_(setup_.settings(), Label(SourceDir("//b/"), "b")),
         c_(setup_.settings(), Label(SourceDir("//c/"), "c")),
         d_(setup_.settings(), Label(SourceDir("//d/"), "d")) {
     a_.set_output_type(Target::SOURCE_SET);
     b_.set_output_type(Target::SOURCE_SET);
     c_.set_output_type(Target::SOURCE_SET);
     d_.set_output_type(Target::SOURCE_SET);

     Err err;
     a_.SetToolchain(setup_.toolchain(), &err);
     b_.SetToolchain(setup_.toolchain(), &err);
     c_.SetToolchain(setup_.toolchain(), &err);
     d_.SetToolchain(setup_.toolchain(), &err);

     a_.public_deps().push_back(LabelTargetPair(&b_));
     b_.public_deps().push_back(LabelTargetPair(&c_));

     // Start with all public visibility.
     a_.visibility().SetPublic();
     b_.visibility().SetPublic();
     c_.visibility().SetPublic();
     d_.visibility().SetPublic();

     d_.OnResolved(&err);
     c_.OnResolved(&err);
     b_.OnResolved(&err);
     a_.OnResolved(&err);

     targets_.push_back(&a_);
     targets_.push_back(&b_);
     targets_.push_back(&c_);
     targets_.push_back(&d_);
   }

  protected:
   TestWithScope setup_;

   // Some headers that are automatically set up with a public dependency chain.
   // a -> b -> c. D is unconnected.
   Target a_;
   Target b_;
   Target c_;
   Target d_;

   std::vector<const Target*> targets_;
 };

 }  // namespace

 void PrintTo(const SourceFile& source_file, ::std::ostream* os) {
   *os << source_file.value();
 }

 TEST_F(HeaderCheckerTest, IsDependencyOf) {
   scoped_refptr<HeaderChecker> checker(
       new HeaderChecker(setup_.build_settings(), targets_));

   // Add a target P ("private") that privately depends on C, and hook up the
   // chain so that A -> P -> C. A will depend on C via two different paths.
   Err err;
   Target p(setup_.settings(), Label(SourceDir("//p/"), "p"));
   p.set_output_type(Target::SOURCE_SET);
   p.SetToolchain(setup_.toolchain(), &err);
   EXPECT_FALSE(err.has_error());
   p.private_deps().push_back(LabelTargetPair(&c_));
   p.visibility().SetPublic();
   p.OnResolved(&err);

   a_.public_deps().push_back(LabelTargetPair(&p));

   // A does not depend on itself.
   bool is_permitted = false;
   HeaderChecker::Chain chain;
   EXPECT_FALSE(checker->IsDependencyOf(&a_, &a_, &chain, &is_permitted));

   // A depends publicly on B.
   chain.clear();
   is_permitted = false;
   EXPECT_TRUE(checker->IsDependencyOf(&b_, &a_, &chain, &is_permitted));
   ASSERT_EQ(2u, chain.size());
   EXPECT_EQ(HeaderChecker::ChainLink(&b_, true), chain[0]);
   EXPECT_EQ(HeaderChecker::ChainLink(&a_, true), chain[1]);
   EXPECT_TRUE(is_permitted);

   // A indirectly depends on C. The "public" dependency path through B should
   // be identified.
   chain.clear();
   is_permitted = false;
   EXPECT_TRUE(checker->IsDependencyOf(&c_, &a_, &chain, &is_permitted));
   ASSERT_EQ(3u, chain.size());
   EXPECT_EQ(HeaderChecker::ChainLink(&c_, true), chain[0]);
   EXPECT_EQ(HeaderChecker::ChainLink(&b_, true), chain[1]);
   EXPECT_EQ(HeaderChecker::ChainLink(&a_, true), chain[2]);
   EXPECT_TRUE(is_permitted);

   // C does not depend on A.
   chain.clear();
   is_permitted = false;
   EXPECT_FALSE(checker->IsDependencyOf(&a_, &c_, &chain, &is_permitted));
   EXPECT_TRUE(chain.empty());
   EXPECT_FALSE(is_permitted);

   // Remove the B -> C public dependency, leaving P's private dep on C the only
   // path from A to C. This should now be found.
   chain.clear();
   EXPECT_EQ(&c_, b_.public_deps()[0].ptr);  // Validate it's the right one.
   b_.public_deps().erase(b_.public_deps().begin());
   EXPECT_TRUE(checker->IsDependencyOf(&c_, &a_, &chain, &is_permitted));
   EXPECT_EQ(3u, chain.size());
   EXPECT_EQ(HeaderChecker::ChainLink(&c_, false), chain[0]);
   EXPECT_EQ(HeaderChecker::ChainLink(&p, true), chain[1]);
   EXPECT_EQ(HeaderChecker::ChainLink(&a_, true), chain[2]);
   EXPECT_FALSE(is_permitted);

   // P privately depends on C. That dependency should be OK since it's only
   // one hop.
   chain.clear();
   is_permitted = false;
   EXPECT_TRUE(checker->IsDependencyOf(&c_, &p, &chain, &is_permitted));
   ASSERT_EQ(2u, chain.size());
   EXPECT_EQ(HeaderChecker::ChainLink(&c_, false), chain[0]);
   EXPECT_EQ(HeaderChecker::ChainLink(&p, true), chain[1]);
   EXPECT_TRUE(is_permitted);
 }

 TEST_F(HeaderCheckerTest, CheckInclude) {
   InputFile input_file(SourceFile("//some_file.cc"));
   input_file.SetContents(std::string());
   LocationRange range;  // Dummy value.

   // Add a disconnected target d with a header to check that you have to have
   // to depend on a target listing a header.
   SourceFile d_header("//d_header.h");
   d_.sources().push_back(SourceFile(d_header));

   // Add a header on B and say everything in B is public.
   SourceFile b_public("//b_public.h");
   b_.sources().push_back(b_public);
   c_.set_all_headers_public(true);

   // Add a public and private header on C.
   SourceFile c_public("//c_public.h");
   SourceFile c_private("//c_private.h");
   c_.sources().push_back(c_private);
   c_.public_headers().push_back(c_public);
   c_.set_all_headers_public(false);

   // Create another toolchain.
   Settings other_settings(setup_.build_settings(), "other/");
   Toolchain other_toolchain(&other_settings,
                             Label(SourceDir("//toolchain/"), "other"));
   TestWithScope::SetupToolchain(&other_toolchain);
   other_settings.set_toolchain_label(other_toolchain.label());
   other_settings.set_default_toolchain_label(setup_.toolchain()->label());

   // Add a target in the other toolchain with a header in it that is not
   // connected to any targets in the main toolchain.
   Target otc(&other_settings,
              Label(SourceDir("//p/"), "otc", other_toolchain.label().dir(),
                    other_toolchain.label().name()));
   otc.set_output_type(Target::SOURCE_SET);
   Err err;
   EXPECT_TRUE(otc.SetToolchain(&other_toolchain, &err));
   otc.visibility().SetPublic();
   targets_.push_back(&otc);

   SourceFile otc_header("//otc_header.h");
   otc.sources().push_back(otc_header);
   EXPECT_TRUE(otc.OnResolved(&err));

   scoped_refptr<HeaderChecker> checker(
       new HeaderChecker(setup_.build_settings(), targets_));

   std::set<std::pair<const Target*, const Target*>> no_dependency_cache;
   // A file in target A can't include a header from D because A has no
   // dependency on D.
   std::vector<Err> errors;
   checker->CheckInclude(&a_, input_file, d_header, range, &no_dependency_cache,
                         &errors);
   EXPECT_GT(errors.size(), 0);

   // A can include the public header in B.
   errors.clear();
   no_dependency_cache.clear();
   checker->CheckInclude(&a_, input_file, b_public, range, &no_dependency_cache,
                         &errors);
   EXPECT_EQ(errors.size(), 0);

   // Check A depending on the public and private headers in C.
   errors.clear();
   no_dependency_cache.clear();
   checker->CheckInclude(&a_, input_file, c_public, range, &no_dependency_cache,
                         &errors);
   EXPECT_EQ(errors.size(), 0);
   errors.clear();
   no_dependency_cache.clear();
   checker->CheckInclude(&a_, input_file, c_private, range, &no_dependency_cache,
                         &errors);
   EXPECT_GT(errors.size(), 0);

   // A can depend on a random file unknown to the build.
   errors.clear();
   no_dependency_cache.clear();
   checker->CheckInclude(&a_, input_file, SourceFile("//random.h"), range,
                         &no_dependency_cache, &errors);
   EXPECT_EQ(errors.size(), 0);

   // A can depend on a file present only in another toolchain even with no
   // dependency path.
   errors.clear();
   no_dependency_cache.clear();
   checker->CheckInclude(&a_, input_file, otc_header, range,
                         &no_dependency_cache, &errors);
   EXPECT_EQ(errors.size(), 0);
 }

 // A public chain of dependencies should always be identified first, even if
 // it is longer than a private one.
 TEST_F(HeaderCheckerTest, PublicFirst) {
   // Now make a A -> Z -> D private dependency chain (one shorter than the
   // public one to get to D).
   Target z(setup_.settings(), Label(SourceDir("//a/"), "a"));
   z.set_output_type(Target::SOURCE_SET);
   Err err;
   EXPECT_TRUE(z.SetToolchain(setup_.toolchain(), &err));
   z.private_deps().push_back(LabelTargetPair(&d_));
   EXPECT_TRUE(z.OnResolved(&err));
   targets_.push_back(&z);

   a_.private_deps().push_back(LabelTargetPair(&z));

   // Check that D can be found from A, but since it's private, it will be
   // marked as not permitted.
   bool is_permitted = false;
   HeaderChecker::Chain chain;
   scoped_refptr<HeaderChecker> checker(
       new HeaderChecker(setup_.build_settings(), targets_));
   EXPECT_TRUE(checker->IsDependencyOf(&d_, &a_, &chain, &is_permitted));

   EXPECT_FALSE(is_permitted);
   ASSERT_EQ(3u, chain.size());
   EXPECT_EQ(HeaderChecker::ChainLink(&d_, false), chain[0]);
   EXPECT_EQ(HeaderChecker::ChainLink(&z, false), chain[1]);
   EXPECT_EQ(HeaderChecker::ChainLink(&a_, true), chain[2]);

   // Hook up D to the existing public A -> B -> C chain to make a long one, and
   // search for D again.
   c_.public_deps().push_back(LabelTargetPair(&d_));
   checker = new HeaderChecker(setup_.build_settings(), targets_);
   chain.clear();
   EXPECT_TRUE(checker->IsDependencyOf(&d_, &a_, &chain, &is_permitted));

   // This should have found the long public one.
   EXPECT_TRUE(is_permitted);
   ASSERT_EQ(4u, chain.size());
   EXPECT_EQ(HeaderChecker::ChainLink(&d_, true), chain[0]);
   EXPECT_EQ(HeaderChecker::ChainLink(&c_, true), chain[1]);
   EXPECT_EQ(HeaderChecker::ChainLink(&b_, true), chain[2]);
   EXPECT_EQ(HeaderChecker::ChainLink(&a_, true), chain[3]);
 }

 // Checks that the allow_circular_includes_from list works.
 TEST_F(HeaderCheckerTest, CheckIncludeAllowCircular) {
   InputFile input_file(SourceFile("//some_file.cc"));
   input_file.SetContents(std::string());
   LocationRange range;  // Dummy value.

   // Add an include file to A.
   SourceFile a_public("//a_public.h");
   a_.sources().push_back(a_public);

   scoped_refptr<HeaderChecker> checker(
       new HeaderChecker(setup_.build_settings(), targets_));

   // A depends on B. So B normally can't include headers from A.
   std::vector<Err> errors;
   std::set<std::pair<const Target*, const Target*>> no_dependency_cache;
   checker->CheckInclude(&b_, input_file, a_public, range, &no_dependency_cache,
                         &errors);
   EXPECT_GT(errors.size(), 0);

   // Add an allow_circular_includes_from on A that lists B.
   a_.allow_circular_includes_from().insert(b_.label());

   // Now the include from B to A should be allowed.
   errors.clear();
   no_dependency_cache.clear();
   checker->CheckInclude(&b_, input_file, a_public, range, &no_dependency_cache,
                         &errors);
   EXPECT_EQ(errors.size(), 0);
 }

 TEST_F(HeaderCheckerTest, SourceFileForInclude) {
   using base::FilePath;
   const std::vector<SourceDir> kIncludeDirs = {
       SourceDir("/c/custom_include/"), SourceDir("//"), SourceDir("//subdir")};
   a_.sources().push_back(SourceFile("//lib/header1.h"));
   b_.sources().push_back(SourceFile("/c/custom_include/header2.h"));

   InputFile dummy_input_file(SourceFile("//some_file.cc"));
   dummy_input_file.SetContents(std::string());
   LocationRange dummy_range;

   scoped_refptr<HeaderChecker> checker(
       new HeaderChecker(setup_.build_settings(), targets_));
   {
     Err err;
     SourceFile source_file = checker->SourceFileForInclude(
         "lib/header1.h", kIncludeDirs, dummy_input_file, dummy_range, &err);
     EXPECT_FALSE(err.has_error());
     EXPECT_EQ(SourceFile("//lib/header1.h"), source_file);
   }

   {
     Err err;
     SourceFile source_file = checker->SourceFileForInclude(
         "header2.h", kIncludeDirs, dummy_input_file, dummy_range, &err);
     EXPECT_FALSE(err.has_error());
     EXPECT_EQ(SourceFile("/c/custom_include/header2.h"), source_file);
   }
 }

 TEST_F(HeaderCheckerTest, SourceFileForInclude_FileNotFound) {
   using base::FilePath;
   const char kFileContents[] = "Some dummy contents";
   const std::vector<SourceDir> kIncludeDirs = {SourceDir("//")};
   scoped_refptr<HeaderChecker> checker(
       new HeaderChecker(setup_.build_settings(), targets_));

   Err err;
   InputFile input_file(SourceFile("//input.cc"));
   input_file.SetContents(std::string(kFileContents));
   const int kLineNumber = 10;
   const int kColumnNumber = 16;
   const int kLength = 8;
   const int kByteNumber = 100;
   LocationRange range(
       Location(&input_file, kLineNumber, kColumnNumber, kByteNumber),
       Location(&input_file, kLineNumber, kColumnNumber + kLength, kByteNumber));

   SourceFile source_file = checker->SourceFileForInclude(
       "header.h", kIncludeDirs, input_file, range, &err);
   EXPECT_TRUE(source_file.is_null());
   EXPECT_FALSE(err.has_error());
 }

 TEST_F(HeaderCheckerTest, Friend) {
   // Note: we have a public dependency chain A -> B -> C set up already.
   InputFile input_file(SourceFile("//some_file.cc"));
   input_file.SetContents(std::string());
   LocationRange range;  // Dummy value.

   // Add a private header on C.
   SourceFile c_private("//c_private.h");
   c_.sources().push_back(c_private);
   c_.set_all_headers_public(false);

   // List A as a friend of C.
   Err err;
   c_.friends().push_back(
       LabelPattern::GetPattern(SourceDir("//"), Value(nullptr, "//a:*"), &err));
   ASSERT_FALSE(err.has_error());

   // Must be after setting everything up for it to find the files.
   scoped_refptr<HeaderChecker> checker(
       new HeaderChecker(setup_.build_settings(), targets_));

   // B should not be allowed to include C's private header.
   std::vector<Err> errors;
   std::set<std::pair<const Target*, const Target*>> no_dependency_cache;
   checker->CheckInclude(&b_, input_file, c_private, range, &no_dependency_cache,
                         &errors);
   EXPECT_GT(errors.size(), 0);

   // A should be able to because of the friend declaration.
   errors.clear();
   no_dependency_cache.clear();
   checker->CheckInclude(&a_, input_file, c_private, range, &no_dependency_cache,
                         &errors);
   EXPECT_EQ(errors.size(), 0);
 }
	// Copyright 2014 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 <ostream>
	#include <vector>

	#include "base/bind.h"
	#include "tools/gn/config.h"
	#include "tools/gn/header_checker.h"
	#include "tools/gn/scheduler.h"
	#include "tools/gn/target.h"
	#include "tools/gn/test_with_scheduler.h"
	#include "tools/gn/test_with_scope.h"
	#include "util/test/test.h"

	namespace {

	class HeaderCheckerTest : public TestWithScheduler {
	public:
	HeaderCheckerTest()
	: a_(setup_.settings(), Label(SourceDir("//a/"), "a")),
	b_(setup_.settings(), Label(SourceDir("//b/"), "b")),
	c_(setup_.settings(), Label(SourceDir("//c/"), "c")),
	d_(setup_.settings(), Label(SourceDir("//d/"), "d")) {
	a_.set_output_type(Target::SOURCE_SET);
	b_.set_output_type(Target::SOURCE_SET);
	c_.set_output_type(Target::SOURCE_SET);
	d_.set_output_type(Target::SOURCE_SET);

	Err err;
	a_.SetToolchain(setup_.toolchain(), &err);
	b_.SetToolchain(setup_.toolchain(), &err);
	c_.SetToolchain(setup_.toolchain(), &err);
	d_.SetToolchain(setup_.toolchain(), &err);

	a_.public_deps().push_back(LabelTargetPair(&b_));
	b_.public_deps().push_back(LabelTargetPair(&c_));

	// Start with all public visibility.
	a_.visibility().SetPublic();
	b_.visibility().SetPublic();
	c_.visibility().SetPublic();
	d_.visibility().SetPublic();

	d_.OnResolved(&err);
	c_.OnResolved(&err);
	b_.OnResolved(&err);
	a_.OnResolved(&err);

	targets_.push_back(&a_);
	targets_.push_back(&b_);
	targets_.push_back(&c_);
	targets_.push_back(&d_);
	}

	protected:
	TestWithScope setup_;

	// Some headers that are automatically set up with a public dependency chain.
	// a -> b -> c. D is unconnected.
	Target a_;
	Target b_;
	Target c_;
	Target d_;

	std::vector<const Target*> targets_;
	};

	} // namespace

	void PrintTo(const SourceFile& source_file, ::std::ostream* os) {
	*os << source_file.value();
	}

	TEST_F(HeaderCheckerTest, IsDependencyOf) {
	scoped_refptr<HeaderChecker> checker(
	new HeaderChecker(setup_.build_settings(), targets_));

	// Add a target P ("private") that privately depends on C, and hook up the
	// chain so that A -> P -> C. A will depend on C via two different paths.
	Err err;
	Target p(setup_.settings(), Label(SourceDir("//p/"), "p"));
	p.set_output_type(Target::SOURCE_SET);
	p.SetToolchain(setup_.toolchain(), &err);
	EXPECT_FALSE(err.has_error());
	p.private_deps().push_back(LabelTargetPair(&c_));
	p.visibility().SetPublic();
	p.OnResolved(&err);

	a_.public_deps().push_back(LabelTargetPair(&p));

	// A does not depend on itself.
	bool is_permitted = false;
	HeaderChecker::Chain chain;
	EXPECT_FALSE(checker->IsDependencyOf(&a_, &a_, &chain, &is_permitted));

	// A depends publicly on B.
	chain.clear();
	is_permitted = false;
	EXPECT_TRUE(checker->IsDependencyOf(&b_, &a_, &chain, &is_permitted));
	ASSERT_EQ(2u, chain.size());
	EXPECT_EQ(HeaderChecker::ChainLink(&b_, true), chain[0]);
	EXPECT_EQ(HeaderChecker::ChainLink(&a_, true), chain[1]);
	EXPECT_TRUE(is_permitted);

	// A indirectly depends on C. The "public" dependency path through B should
	// be identified.
	chain.clear();
	is_permitted = false;
	EXPECT_TRUE(checker->IsDependencyOf(&c_, &a_, &chain, &is_permitted));
	ASSERT_EQ(3u, chain.size());
	EXPECT_EQ(HeaderChecker::ChainLink(&c_, true), chain[0]);
	EXPECT_EQ(HeaderChecker::ChainLink(&b_, true), chain[1]);
	EXPECT_EQ(HeaderChecker::ChainLink(&a_, true), chain[2]);
	EXPECT_TRUE(is_permitted);

	// C does not depend on A.
	chain.clear();
	is_permitted = false;
	EXPECT_FALSE(checker->IsDependencyOf(&a_, &c_, &chain, &is_permitted));
	EXPECT_TRUE(chain.empty());
	EXPECT_FALSE(is_permitted);

	// Remove the B -> C public dependency, leaving P's private dep on C the only
	// path from A to C. This should now be found.
	chain.clear();
	EXPECT_EQ(&c_, b_.public_deps()[0].ptr); // Validate it's the right one.
	b_.public_deps().erase(b_.public_deps().begin());
	EXPECT_TRUE(checker->IsDependencyOf(&c_, &a_, &chain, &is_permitted));
	EXPECT_EQ(3u, chain.size());
	EXPECT_EQ(HeaderChecker::ChainLink(&c_, false), chain[0]);
	EXPECT_EQ(HeaderChecker::ChainLink(&p, true), chain[1]);
	EXPECT_EQ(HeaderChecker::ChainLink(&a_, true), chain[2]);
	EXPECT_FALSE(is_permitted);

	// P privately depends on C. That dependency should be OK since it's only
	// one hop.
	chain.clear();
	is_permitted = false;
	EXPECT_TRUE(checker->IsDependencyOf(&c_, &p, &chain, &is_permitted));
	ASSERT_EQ(2u, chain.size());
	EXPECT_EQ(HeaderChecker::ChainLink(&c_, false), chain[0]);
	EXPECT_EQ(HeaderChecker::ChainLink(&p, true), chain[1]);
	EXPECT_TRUE(is_permitted);
	}

	TEST_F(HeaderCheckerTest, CheckInclude) {
	InputFile input_file(SourceFile("//some_file.cc"));
	input_file.SetContents(std::string());
	LocationRange range; // Dummy value.

	// Add a disconnected target d with a header to check that you have to have
	// to depend on a target listing a header.
	SourceFile d_header("//d_header.h");
	d_.sources().push_back(SourceFile(d_header));

	// Add a header on B and say everything in B is public.
	SourceFile b_public("//b_public.h");
	b_.sources().push_back(b_public);
	c_.set_all_headers_public(true);

	// Add a public and private header on C.
	SourceFile c_public("//c_public.h");
	SourceFile c_private("//c_private.h");
	c_.sources().push_back(c_private);
	c_.public_headers().push_back(c_public);
	c_.set_all_headers_public(false);

	// Create another toolchain.
	Settings other_settings(setup_.build_settings(), "other/");
	Toolchain other_toolchain(&other_settings,
	Label(SourceDir("//toolchain/"), "other"));
	TestWithScope::SetupToolchain(&other_toolchain);
	other_settings.set_toolchain_label(other_toolchain.label());
	other_settings.set_default_toolchain_label(setup_.toolchain()->label());

	// Add a target in the other toolchain with a header in it that is not
	// connected to any targets in the main toolchain.
	Target otc(&other_settings,
	Label(SourceDir("//p/"), "otc", other_toolchain.label().dir(),
	other_toolchain.label().name()));
	otc.set_output_type(Target::SOURCE_SET);
	Err err;
	EXPECT_TRUE(otc.SetToolchain(&other_toolchain, &err));
	otc.visibility().SetPublic();
	targets_.push_back(&otc);

	SourceFile otc_header("//otc_header.h");
	otc.sources().push_back(otc_header);
	EXPECT_TRUE(otc.OnResolved(&err));

	scoped_refptr<HeaderChecker> checker(
	new HeaderChecker(setup_.build_settings(), targets_));

	std::set<std::pair<const Target, const Target>> no_dependency_cache;
	// A file in target A can't include a header from D because A has no
	// dependency on D.
	std::vector<Err> errors;
	checker->CheckInclude(&a_, input_file, d_header, range, &no_dependency_cache,
	&errors);
	EXPECT_GT(errors.size(), 0);

	// A can include the public header in B.
	errors.clear();
	no_dependency_cache.clear();
	checker->CheckInclude(&a_, input_file, b_public, range, &no_dependency_cache,
	&errors);
	EXPECT_EQ(errors.size(), 0);

	// Check A depending on the public and private headers in C.
	errors.clear();
	no_dependency_cache.clear();
	checker->CheckInclude(&a_, input_file, c_public, range, &no_dependency_cache,
	&errors);
	EXPECT_EQ(errors.size(), 0);
	errors.clear();
	no_dependency_cache.clear();
	checker->CheckInclude(&a_, input_file, c_private, range, &no_dependency_cache,
	&errors);
	EXPECT_GT(errors.size(), 0);

	// A can depend on a random file unknown to the build.
	errors.clear();
	no_dependency_cache.clear();
	checker->CheckInclude(&a_, input_file, SourceFile("//random.h"), range,
	&no_dependency_cache, &errors);
	EXPECT_EQ(errors.size(), 0);

	// A can depend on a file present only in another toolchain even with no
	// dependency path.
	errors.clear();
	no_dependency_cache.clear();
	checker->CheckInclude(&a_, input_file, otc_header, range,
	&no_dependency_cache, &errors);
	EXPECT_EQ(errors.size(), 0);
	}

	// A public chain of dependencies should always be identified first, even if
	// it is longer than a private one.
	TEST_F(HeaderCheckerTest, PublicFirst) {
	// Now make a A -> Z -> D private dependency chain (one shorter than the
	// public one to get to D).
	Target z(setup_.settings(), Label(SourceDir("//a/"), "a"));
	z.set_output_type(Target::SOURCE_SET);
	Err err;
	EXPECT_TRUE(z.SetToolchain(setup_.toolchain(), &err));
	z.private_deps().push_back(LabelTargetPair(&d_));
	EXPECT_TRUE(z.OnResolved(&err));
	targets_.push_back(&z);

	a_.private_deps().push_back(LabelTargetPair(&z));

	// Check that D can be found from A, but since it's private, it will be
	// marked as not permitted.
	bool is_permitted = false;
	HeaderChecker::Chain chain;
	scoped_refptr<HeaderChecker> checker(
	new HeaderChecker(setup_.build_settings(), targets_));
	EXPECT_TRUE(checker->IsDependencyOf(&d_, &a_, &chain, &is_permitted));

	EXPECT_FALSE(is_permitted);
	ASSERT_EQ(3u, chain.size());
	EXPECT_EQ(HeaderChecker::ChainLink(&d_, false), chain[0]);
	EXPECT_EQ(HeaderChecker::ChainLink(&z, false), chain[1]);
	EXPECT_EQ(HeaderChecker::ChainLink(&a_, true), chain[2]);

	// Hook up D to the existing public A -> B -> C chain to make a long one, and
	// search for D again.
	c_.public_deps().push_back(LabelTargetPair(&d_));
	checker = new HeaderChecker(setup_.build_settings(), targets_);
	chain.clear();
	EXPECT_TRUE(checker->IsDependencyOf(&d_, &a_, &chain, &is_permitted));

	// This should have found the long public one.
	EXPECT_TRUE(is_permitted);
	ASSERT_EQ(4u, chain.size());
	EXPECT_EQ(HeaderChecker::ChainLink(&d_, true), chain[0]);
	EXPECT_EQ(HeaderChecker::ChainLink(&c_, true), chain[1]);
	EXPECT_EQ(HeaderChecker::ChainLink(&b_, true), chain[2]);
	EXPECT_EQ(HeaderChecker::ChainLink(&a_, true), chain[3]);
	}

	// Checks that the allow_circular_includes_from list works.
	TEST_F(HeaderCheckerTest, CheckIncludeAllowCircular) {
	InputFile input_file(SourceFile("//some_file.cc"));
	input_file.SetContents(std::string());
	LocationRange range; // Dummy value.

	// Add an include file to A.
	SourceFile a_public("//a_public.h");
	a_.sources().push_back(a_public);

	scoped_refptr<HeaderChecker> checker(
	new HeaderChecker(setup_.build_settings(), targets_));

	// A depends on B. So B normally can't include headers from A.
	std::vector<Err> errors;
	std::set<std::pair<const Target, const Target>> no_dependency_cache;
	checker->CheckInclude(&b_, input_file, a_public, range, &no_dependency_cache,
	&errors);
	EXPECT_GT(errors.size(), 0);

	// Add an allow_circular_includes_from on A that lists B.
	a_.allow_circular_includes_from().insert(b_.label());

	// Now the include from B to A should be allowed.
	errors.clear();
	no_dependency_cache.clear();
	checker->CheckInclude(&b_, input_file, a_public, range, &no_dependency_cache,
	&errors);
	EXPECT_EQ(errors.size(), 0);
	}

	TEST_F(HeaderCheckerTest, SourceFileForInclude) {
	using base::FilePath;
	const std::vector<SourceDir> kIncludeDirs = {
	SourceDir("/c/custom_include/"), SourceDir("//"), SourceDir("//subdir")};
	a_.sources().push_back(SourceFile("//lib/header1.h"));
	b_.sources().push_back(SourceFile("/c/custom_include/header2.h"));

	InputFile dummy_input_file(SourceFile("//some_file.cc"));
	dummy_input_file.SetContents(std::string());
	LocationRange dummy_range;

	scoped_refptr<HeaderChecker> checker(
	new HeaderChecker(setup_.build_settings(), targets_));
	{
	Err err;
	SourceFile source_file = checker->SourceFileForInclude(
	"lib/header1.h", kIncludeDirs, dummy_input_file, dummy_range, &err);
	EXPECT_FALSE(err.has_error());
	EXPECT_EQ(SourceFile("//lib/header1.h"), source_file);
	}

	{
	Err err;
	SourceFile source_file = checker->SourceFileForInclude(
	"header2.h", kIncludeDirs, dummy_input_file, dummy_range, &err);
	EXPECT_FALSE(err.has_error());
	EXPECT_EQ(SourceFile("/c/custom_include/header2.h"), source_file);
	}
	}

	TEST_F(HeaderCheckerTest, SourceFileForInclude_FileNotFound) {
	using base::FilePath;
	const char kFileContents[] = "Some dummy contents";
	const std::vector<SourceDir> kIncludeDirs = {SourceDir("//")};
	scoped_refptr<HeaderChecker> checker(
	new HeaderChecker(setup_.build_settings(), targets_));

	Err err;
	InputFile input_file(SourceFile("//input.cc"));
	input_file.SetContents(std::string(kFileContents));
	const int kLineNumber = 10;
	const int kColumnNumber = 16;
	const int kLength = 8;
	const int kByteNumber = 100;
	LocationRange range(
	Location(&input_file, kLineNumber, kColumnNumber, kByteNumber),
	Location(&input_file, kLineNumber, kColumnNumber + kLength, kByteNumber));

	SourceFile source_file = checker->SourceFileForInclude(
	"header.h", kIncludeDirs, input_file, range, &err);
	EXPECT_TRUE(source_file.is_null());
	EXPECT_FALSE(err.has_error());
	}

	TEST_F(HeaderCheckerTest, Friend) {
	// Note: we have a public dependency chain A -> B -> C set up already.
	InputFile input_file(SourceFile("//some_file.cc"));
	input_file.SetContents(std::string());
	LocationRange range; // Dummy value.

	// Add a private header on C.
	SourceFile c_private("//c_private.h");
	c_.sources().push_back(c_private);
	c_.set_all_headers_public(false);

	// List A as a friend of C.
	Err err;
	c_.friends().push_back(
	LabelPattern::GetPattern(SourceDir("//"), Value(nullptr, "//a:*"), &err));
	ASSERT_FALSE(err.has_error());

	// Must be after setting everything up for it to find the files.
	scoped_refptr<HeaderChecker> checker(
	new HeaderChecker(setup_.build_settings(), targets_));

	// B should not be allowed to include C's private header.
	std::vector<Err> errors;
	std::set<std::pair<const Target, const Target>> no_dependency_cache;
	checker->CheckInclude(&b_, input_file, c_private, range, &no_dependency_cache,
	&errors);
	EXPECT_GT(errors.size(), 0);

	// A should be able to because of the friend declaration.
	errors.clear();
	no_dependency_cache.clear();
	checker->CheckInclude(&a_, input_file, c_private, range, &no_dependency_cache,
	&errors);
	EXPECT_EQ(errors.size(), 0);
	}