content/public/test/browser_test_base.h - chromium/src - Git at Google

 // Copyright (c) 2012 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.

 #ifndef CONTENT_PUBLIC_TEST_BROWSER_TEST_BASE_H_
 #define CONTENT_PUBLIC_TEST_BROWSER_TEST_BASE_H_

 #include "base/callback.h"
 #include "base/compiler_specific.h"
 #include "base/threading/thread.h"
 #include "build/build_config.h"
 #include "net/test/embedded_test_server/embedded_test_server.h"
 #include "net/test/spawned_test_server/spawned_test_server.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace base {
 class CommandLine;
 class FilePath;
 }

 namespace net {
 class RuleBasedHostResolverProc;
 }  // namespace net

 namespace content {

 class BrowserTestBase : public testing::Test {
  public:
   BrowserTestBase();
   ~BrowserTestBase() override;

   // We do this so we can be used in a Task.
   void AddRef() {}
   void Release() {}

   // Configures everything for an in process browser test, then invokes
   // BrowserMain. BrowserMain ends up invoking RunTestOnMainThreadLoop.
   void SetUp() override;

   // Restores state configured in SetUp.
   void TearDown() override;

   // Override this to add any custom setup code that needs to be done on the
   // main thread after the browser is created and just before calling
   // RunTestOnMainThread().
   virtual void SetUpOnMainThread() {}

   // Override this to add any custom teardown code that needs to be done on the
   // main thread right after RunTestOnMainThread().
   virtual void TearDownOnMainThread() {}

   // Override this to add command line flags specific to your test.
   virtual void SetUpCommandLine(base::CommandLine* command_line) {}

   // Returns the host resolver being used for the tests. Subclasses might want
   // to configure it inside tests.
   net::RuleBasedHostResolverProc* host_resolver() {
     return rule_based_resolver_.get();
   }

  protected:
   // We need these special methods because SetUp is the bottom of the stack
   // that winds up calling your test method, so it is not always an option
   // to do what you want by overriding it and calling the superclass version.
   //
   // Override this for things you would normally override SetUp for. It will be
   // called before your individual test fixture method is run, but after most
   // of the overhead initialization has occured.
   virtual void SetUpInProcessBrowserTestFixture() {}

   // Override this for things you would normally override TearDown for.
   virtual void TearDownInProcessBrowserTestFixture() {}

   // Override this rather than TestBody.
   virtual void RunTestOnMainThread() = 0;

   // This is invoked from main after browser_init/browser_main have completed.
   // This prepares for the test by creating a new browser, runs the test
   // (RunTestOnMainThread), quits the browsers and returns.
   virtual void RunTestOnMainThreadLoop() = 0;

   // Sets expected browser exit code, in case it's different than 0 (success).
   void set_expected_exit_code(int code) { expected_exit_code_ = code; }

   const net::SpawnedTestServer* spawned_test_server() const {
     return spawned_test_server_.get();
   }
   net::SpawnedTestServer* spawned_test_server() {
     return spawned_test_server_.get();
   }

   // Returns the embedded test server. Guaranteed to be non-NULL.
   const net::EmbeddedTestServer* embedded_test_server() const {
     return embedded_test_server_.get();
   }
   net::EmbeddedTestServer* embedded_test_server() {
     return embedded_test_server_.get();
   }

 #if defined(OS_POSIX)
   // This is only needed by a test that raises SIGTERM to ensure that a specific
   // codepath is taken.
   void DisableSIGTERMHandling() {
     handle_sigterm_ = false;
   }
 #endif

   // This function is meant only for classes that directly derive from this
   // class to construct the test server in their constructor. They might need to
   // call this after setting up the paths. Actual test cases should never call
   // this.
   // |test_server_base| is the path, relative to src, to give to the test HTTP
   // server.
   void CreateTestServer(const base::FilePath& test_server_base);

   // When the test is running in --single-process mode, runs the given task on
   // the in-process renderer thread. A nested message loop is run until it
   // returns.
   void PostTaskToInProcessRendererAndWait(const base::Closure& task);

   // Call this before SetUp() to cause the test to generate pixel output.
   void EnablePixelOutput();

   // Call this before SetUp() to not use GL, but use software compositing
   // instead.
   void UseSoftwareCompositing();

   // Returns true if the test will be using GL acceleration via OSMesa.
   bool UsingOSMesa() const;

  private:
   void ProxyRunTestOnMainThreadLoop();

   // Testing server, started on demand.
   scoped_ptr<net::SpawnedTestServer> spawned_test_server_;

   // Embedded test server, cheap to create, started on demand.
   scoped_ptr<net::EmbeddedTestServer> embedded_test_server_;

   // Host resolver used during tests.
   scoped_refptr<net::RuleBasedHostResolverProc> rule_based_resolver_;

   // Expected exit code (default is 0).
   int expected_exit_code_;

   // When true, the compositor will produce pixel output that can be read back
   // for pixel tests.
   bool enable_pixel_output_;

   // When true, do compositing with the software backend instead of using GL.
   bool use_software_compositing_;

   // Whether SetUp was called. This value is checked in the destructor of this
   // class to ensure that SetUp was called. If it's not called, the test will
   // not run and report a false positive result.
   bool set_up_called_;

 #if defined(OS_POSIX)
   bool handle_sigterm_;
 #endif
 };

 }  // namespace content

 #endif  // CONTENT_PUBLIC_TEST_BROWSER_TEST_BASE_H_
	// Copyright (c) 2012 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.

	#ifndef CONTENT_PUBLIC_TEST_BROWSER_TEST_BASE_H_
	#define CONTENT_PUBLIC_TEST_BROWSER_TEST_BASE_H_

	#include "base/callback.h"
	#include "base/compiler_specific.h"
	#include "base/threading/thread.h"
	#include "build/build_config.h"
	#include "net/test/embedded_test_server/embedded_test_server.h"
	#include "net/test/spawned_test_server/spawned_test_server.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace base {
	class CommandLine;
	class FilePath;
	}

	namespace net {
	class RuleBasedHostResolverProc;
	} // namespace net

	namespace content {

	class BrowserTestBase : public testing::Test {
	public:
	BrowserTestBase();
	~BrowserTestBase() override;

	// We do this so we can be used in a Task.
	void AddRef() {}
	void Release() {}

	// Configures everything for an in process browser test, then invokes
	// BrowserMain. BrowserMain ends up invoking RunTestOnMainThreadLoop.
	void SetUp() override;

	// Restores state configured in SetUp.
	void TearDown() override;

	// Override this to add any custom setup code that needs to be done on the
	// main thread after the browser is created and just before calling
	// RunTestOnMainThread().
	virtual void SetUpOnMainThread() {}

	// Override this to add any custom teardown code that needs to be done on the
	// main thread right after RunTestOnMainThread().
	virtual void TearDownOnMainThread() {}

	// Override this to add command line flags specific to your test.
	virtual void SetUpCommandLine(base::CommandLine* command_line) {}

	// Returns the host resolver being used for the tests. Subclasses might want
	// to configure it inside tests.
	net::RuleBasedHostResolverProc* host_resolver() {
	return rule_based_resolver_.get();
	}

	protected:
	// We need these special methods because SetUp is the bottom of the stack
	// that winds up calling your test method, so it is not always an option
	// to do what you want by overriding it and calling the superclass version.
	//
	// Override this for things you would normally override SetUp for. It will be
	// called before your individual test fixture method is run, but after most
	// of the overhead initialization has occured.
	virtual void SetUpInProcessBrowserTestFixture() {}

	// Override this for things you would normally override TearDown for.
	virtual void TearDownInProcessBrowserTestFixture() {}

	// Override this rather than TestBody.
	virtual void RunTestOnMainThread() = 0;

	// This is invoked from main after browser_init/browser_main have completed.
	// This prepares for the test by creating a new browser, runs the test
	// (RunTestOnMainThread), quits the browsers and returns.
	virtual void RunTestOnMainThreadLoop() = 0;

	// Sets expected browser exit code, in case it's different than 0 (success).
	void set_expected_exit_code(int code) { expected_exit_code_ = code; }

	const net::SpawnedTestServer* spawned_test_server() const {
	return spawned_test_server_.get();
	}
	net::SpawnedTestServer* spawned_test_server() {
	return spawned_test_server_.get();
	}

	// Returns the embedded test server. Guaranteed to be non-NULL.
	const net::EmbeddedTestServer* embedded_test_server() const {
	return embedded_test_server_.get();
	}
	net::EmbeddedTestServer* embedded_test_server() {
	return embedded_test_server_.get();
	}

	#if defined(OS_POSIX)
	// This is only needed by a test that raises SIGTERM to ensure that a specific
	// codepath is taken.
	void DisableSIGTERMHandling() {
	handle_sigterm_ = false;
	}
	#endif

	// This function is meant only for classes that directly derive from this
	// class to construct the test server in their constructor. They might need to
	// call this after setting up the paths. Actual test cases should never call
	// this.
	// \|test_server_base\| is the path, relative to src, to give to the test HTTP
	// server.
	void CreateTestServer(const base::FilePath& test_server_base);

	// When the test is running in --single-process mode, runs the given task on
	// the in-process renderer thread. A nested message loop is run until it
	// returns.
	void PostTaskToInProcessRendererAndWait(const base::Closure& task);

	// Call this before SetUp() to cause the test to generate pixel output.
	void EnablePixelOutput();

	// Call this before SetUp() to not use GL, but use software compositing
	// instead.
	void UseSoftwareCompositing();

	// Returns true if the test will be using GL acceleration via OSMesa.
	bool UsingOSMesa() const;

	private:
	void ProxyRunTestOnMainThreadLoop();

	// Testing server, started on demand.
	scoped_ptr<net::SpawnedTestServer> spawned_test_server_;

	// Embedded test server, cheap to create, started on demand.
	scoped_ptr<net::EmbeddedTestServer> embedded_test_server_;

	// Host resolver used during tests.
	scoped_refptr<net::RuleBasedHostResolverProc> rule_based_resolver_;

	// Expected exit code (default is 0).
	int expected_exit_code_;

	// When true, the compositor will produce pixel output that can be read back
	// for pixel tests.
	bool enable_pixel_output_;

	// When true, do compositing with the software backend instead of using GL.
	bool use_software_compositing_;

	// Whether SetUp was called. This value is checked in the destructor of this
	// class to ensure that SetUp was called. If it's not called, the test will
	// not run and report a false positive result.
	bool set_up_called_;

	#if defined(OS_POSIX)
	bool handle_sigterm_;
	#endif
	};

	} // namespace content

	#endif // CONTENT_PUBLIC_TEST_BROWSER_TEST_BASE_H_