src/net/proxy/multi_threaded_proxy_resolver.h - cobalt - Git at Google

 // Copyright (c) 2011 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 NET_PROXY_MULTI_THREADED_PROXY_RESOLVER_H_
 #define NET_PROXY_MULTI_THREADED_PROXY_RESOLVER_H_

 #include <deque>
 #include <vector>

 #include "base/basictypes.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/threading/non_thread_safe.h"
 #include "net/base/net_export.h"
 #include "net/proxy/proxy_resolver.h"

 namespace base {
 class Thread;
 }  // namespace base

 namespace net {

 // ProxyResolverFactory is an interface for creating ProxyResolver instances.
 class ProxyResolverFactory {
  public:
   explicit ProxyResolverFactory(bool resolvers_expect_pac_bytes)
       : resolvers_expect_pac_bytes_(resolvers_expect_pac_bytes) {}

   virtual ~ProxyResolverFactory() {}

   // Creates a new ProxyResolver. The caller is responsible for freeing this
   // object.
   virtual ProxyResolver* CreateProxyResolver() = 0;

   bool resolvers_expect_pac_bytes() const {
     return resolvers_expect_pac_bytes_;
   }

  private:
   bool resolvers_expect_pac_bytes_;
   DISALLOW_COPY_AND_ASSIGN(ProxyResolverFactory);
 };

 // MultiThreadedProxyResolver is a ProxyResolver implementation that runs
 // synchronous ProxyResolver implementations on worker threads.
 //
 // Threads are created lazily on demand, up to a maximum total. The advantage
 // of having a pool of threads, is faster performance. In particular, being
 // able to keep servicing PAC requests even if one blocks its execution.
 //
 // During initialization (SetPacScript), a single thread is spun up to test
 // the script. If this succeeds, we cache the input script, and will re-use
 // this to lazily provision any new threads as needed.
 //
 // For each new thread that we spawn, a corresponding new ProxyResolver is
 // created using ProxyResolverFactory.
 //
 // Because we are creating multiple ProxyResolver instances, this means we
 // are duplicating script contexts for what is ordinarily seen as being a
 // single script. This can affect compatibility on some classes of PAC
 // script:
 //
 // (a) Scripts whose initialization has external dependencies on network or
 //     time may end up successfully initializing on some threads, but not
 //     others. So depending on what thread services the request, the result
 //     may jump between several possibilities.
 //
 // (b) Scripts whose FindProxyForURL() depends on side-effects may now
 //     work differently. For example, a PAC script which was incrementing
 //     a global counter and using that to make a decision. In the
 //     multi-threaded model, each thread may have a different value for this
 //     counter, so it won't globally be seen as monotonically increasing!
 class NET_EXPORT_PRIVATE MultiThreadedProxyResolver
     : public ProxyResolver,
       NON_EXPORTED_BASE(public base::NonThreadSafe) {
  public:
   // Creates an asynchronous ProxyResolver that runs requests on up to
   // |max_num_threads|.
   //
   // For each thread that is created, an accompanying synchronous ProxyResolver
   // will be provisioned using |resolver_factory|. All methods on these
   // ProxyResolvers will be called on the one thread, with the exception of
   // ProxyResolver::Shutdown() which will be called from the origin thread
   // prior to destruction.
   //
   // The constructor takes ownership of |resolver_factory|.
   MultiThreadedProxyResolver(ProxyResolverFactory* resolver_factory,
                              size_t max_num_threads);

   virtual ~MultiThreadedProxyResolver();

   // ProxyResolver implementation:
   virtual int GetProxyForURL(const GURL& url,
                              ProxyInfo* results,
                              const CompletionCallback& callback,
                              RequestHandle* request,
                              const BoundNetLog& net_log) override;
   virtual void CancelRequest(RequestHandle request) override;
   virtual LoadState GetLoadState(RequestHandle request) const override;
   virtual LoadState GetLoadStateThreadSafe(
       RequestHandle request) const override;
   virtual void CancelSetPacScript() override;
   virtual void PurgeMemory() override;
   virtual int SetPacScript(
       const scoped_refptr<ProxyResolverScriptData>& script_data,
       const CompletionCallback& callback) override;

  private:
   class Executor;
   class Job;
   class SetPacScriptJob;
   class GetProxyForURLJob;
   // FIFO queue of pending jobs waiting to be started.
   // TODO(eroman): Make this priority queue.
   typedef std::deque<scoped_refptr<Job> > PendingJobsQueue;
   typedef std::vector<scoped_refptr<Executor> > ExecutorList;

   // Asserts that there are no outstanding user-initiated jobs on any of the
   // worker threads.
   void CheckNoOutstandingUserRequests() const;

   // Stops and deletes all of the worker threads.
   void ReleaseAllExecutors();

   // Returns an idle worker thread which is ready to receive GetProxyForURL()
   // requests. If all threads are occupied, returns NULL.
   Executor* FindIdleExecutor();

   // Creates a new worker thread, and appends it to |executors_|.
   Executor* AddNewExecutor();

   // Starts the next job from |pending_jobs_| if possible.
   void OnExecutorReady(Executor* executor);

   const scoped_ptr<ProxyResolverFactory> resolver_factory_;
   const size_t max_num_threads_;
   PendingJobsQueue pending_jobs_;
   ExecutorList executors_;
   scoped_refptr<ProxyResolverScriptData> current_script_data_;
 };

 }  // namespace net

 #endif  // NET_PROXY_MULTI_THREADED_PROXY_RESOLVER_H_
	// Copyright (c) 2011 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 NET_PROXY_MULTI_THREADED_PROXY_RESOLVER_H_
	#define NET_PROXY_MULTI_THREADED_PROXY_RESOLVER_H_

	#include <deque>
	#include <vector>

	#include "base/basictypes.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/threading/non_thread_safe.h"
	#include "net/base/net_export.h"
	#include "net/proxy/proxy_resolver.h"

	namespace base {
	class Thread;
	} // namespace base

	namespace net {

	// ProxyResolverFactory is an interface for creating ProxyResolver instances.
	class ProxyResolverFactory {
	public:
	explicit ProxyResolverFactory(bool resolvers_expect_pac_bytes)
	: resolvers_expect_pac_bytes_(resolvers_expect_pac_bytes) {}

	virtual ~ProxyResolverFactory() {}

	// Creates a new ProxyResolver. The caller is responsible for freeing this
	// object.
	virtual ProxyResolver* CreateProxyResolver() = 0;

	bool resolvers_expect_pac_bytes() const {
	return resolvers_expect_pac_bytes_;
	}

	private:
	bool resolvers_expect_pac_bytes_;
	DISALLOW_COPY_AND_ASSIGN(ProxyResolverFactory);
	};

	// MultiThreadedProxyResolver is a ProxyResolver implementation that runs
	// synchronous ProxyResolver implementations on worker threads.
	//
	// Threads are created lazily on demand, up to a maximum total. The advantage
	// of having a pool of threads, is faster performance. In particular, being
	// able to keep servicing PAC requests even if one blocks its execution.
	//
	// During initialization (SetPacScript), a single thread is spun up to test
	// the script. If this succeeds, we cache the input script, and will re-use
	// this to lazily provision any new threads as needed.
	//
	// For each new thread that we spawn, a corresponding new ProxyResolver is
	// created using ProxyResolverFactory.
	//
	// Because we are creating multiple ProxyResolver instances, this means we
	// are duplicating script contexts for what is ordinarily seen as being a
	// single script. This can affect compatibility on some classes of PAC
	// script:
	//
	// (a) Scripts whose initialization has external dependencies on network or
	// time may end up successfully initializing on some threads, but not
	// others. So depending on what thread services the request, the result
	// may jump between several possibilities.
	//
	// (b) Scripts whose FindProxyForURL() depends on side-effects may now
	// work differently. For example, a PAC script which was incrementing
	// a global counter and using that to make a decision. In the
	// multi-threaded model, each thread may have a different value for this
	// counter, so it won't globally be seen as monotonically increasing!
	class NET_EXPORT_PRIVATE MultiThreadedProxyResolver
	: public ProxyResolver,
	NON_EXPORTED_BASE(public base::NonThreadSafe) {
	public:
	// Creates an asynchronous ProxyResolver that runs requests on up to
	// \|max_num_threads\|.
	//
	// For each thread that is created, an accompanying synchronous ProxyResolver
	// will be provisioned using \|resolver_factory\|. All methods on these
	// ProxyResolvers will be called on the one thread, with the exception of
	// ProxyResolver::Shutdown() which will be called from the origin thread
	// prior to destruction.
	//
	// The constructor takes ownership of \|resolver_factory\|.
	MultiThreadedProxyResolver(ProxyResolverFactory* resolver_factory,
	size_t max_num_threads);

	virtual ~MultiThreadedProxyResolver();

	// ProxyResolver implementation:
	virtual int GetProxyForURL(const GURL& url,
	ProxyInfo* results,
	const CompletionCallback& callback,
	RequestHandle* request,
	const BoundNetLog& net_log) override;
	virtual void CancelRequest(RequestHandle request) override;
	virtual LoadState GetLoadState(RequestHandle request) const override;
	virtual LoadState GetLoadStateThreadSafe(
	RequestHandle request) const override;
	virtual void CancelSetPacScript() override;
	virtual void PurgeMemory() override;
	virtual int SetPacScript(
	const scoped_refptr<ProxyResolverScriptData>& script_data,
	const CompletionCallback& callback) override;

	private:
	class Executor;
	class Job;
	class SetPacScriptJob;
	class GetProxyForURLJob;
	// FIFO queue of pending jobs waiting to be started.
	// TODO(eroman): Make this priority queue.
	typedef std::deque<scoped_refptr<Job> > PendingJobsQueue;
	typedef std::vector<scoped_refptr<Executor> > ExecutorList;

	// Asserts that there are no outstanding user-initiated jobs on any of the
	// worker threads.
	void CheckNoOutstandingUserRequests() const;

	// Stops and deletes all of the worker threads.
	void ReleaseAllExecutors();

	// Returns an idle worker thread which is ready to receive GetProxyForURL()
	// requests. If all threads are occupied, returns NULL.
	Executor* FindIdleExecutor();

	// Creates a new worker thread, and appends it to \|executors_\|.
	Executor* AddNewExecutor();

	// Starts the next job from \|pending_jobs_\| if possible.
	void OnExecutorReady(Executor* executor);

	const scoped_ptr<ProxyResolverFactory> resolver_factory_;
	const size_t max_num_threads_;
	PendingJobsQueue pending_jobs_;
	ExecutorList executors_;
	scoped_refptr<ProxyResolverScriptData> current_script_data_;
	};

	} // namespace net

	#endif // NET_PROXY_MULTI_THREADED_PROXY_RESOLVER_H_