net/base/host_resolver_impl.h - chromium/src.git - Git at Google

 // Copyright (c) 2010 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_BASE_HOST_RESOLVER_IMPL_H_
 #define NET_BASE_HOST_RESOLVER_IMPL_H_
 #pragma once

 #include <vector>

 #include "base/non_thread_safe.h"
 #include "base/scoped_ptr.h"
 #include "net/base/capturing_net_log.h"
 #include "net/base/host_cache.h"
 #include "net/base/host_resolver.h"
 #include "net/base/host_resolver_proc.h"
 #include "net/base/net_log.h"
 #include "net/base/network_change_notifier.h"

 namespace net {

 // For each hostname that is requested, HostResolver creates a
 // HostResolverImpl::Job. This job gets dispatched to a thread in the global
 // WorkerPool, where it runs SystemHostResolverProc(). If requests for that same
 // host are made while the job is already outstanding, then they are attached
 // to the existing job rather than creating a new one. This avoids doing
 // parallel resolves for the same host.
 //
 // The way these classes fit together is illustrated by:
 //
 //
 //            +----------- HostResolverImpl -------------+
 //            |                    |                     |
 //           Job                  Job                   Job
 //    (for host1, fam1)    (for host2, fam2)     (for hostx, famx)
 //       /    |   |            /   |   |             /   |   |
 //   Request ... Request  Request ... Request   Request ... Request
 //  (port1)     (port2)  (port3)      (port4)  (port5)      (portX)
 //
 //
 // When a HostResolverImpl::Job finishes its work in the threadpool, the
 // callbacks of each waiting request are run on the origin thread.
 //
 // Thread safety: This class is not threadsafe, and must only be called
 // from one thread!
 //
 // The HostResolverImpl enforces |max_jobs_| as the maximum number of concurrent
 // threads.
 //
 // Requests are ordered in the queue based on their priority.

 class HostResolverImpl : public HostResolver,
                          public NonThreadSafe,
                          public NetworkChangeNotifier::Observer {
  public:
   // The index into |job_pools_| for the various job pools. Pools with a higher
   // index have lower priority.
   //
   // Note: This is currently unused, since there is a single pool
   //       for all requests.
   enum JobPoolIndex {
     POOL_NORMAL = 0,
     POOL_COUNT,
   };

   // Creates a HostResolver that first uses the local cache |cache|, and then
   // falls back to |resolver_proc|.
   //
   // If |cache| is NULL, then no caching is used. Otherwise we take
   // ownership of the |cache| pointer, and will free it during destructor.
   //
   // |resolver_proc| is used to perform the actual resolves; it must be
   // thread-safe since it is run from multiple worker threads. If
   // |resolver_proc| is NULL then the default host resolver procedure is
   // used (which is SystemHostResolverProc except if overridden).
   // |max_jobs| specifies the maximum number of threads that the host resolver
   // will use. Use SetPoolConstraints() to specify finer-grain settings.
   //
   // |net_log| must remain valid for the life of the HostResolverImpl.
   HostResolverImpl(HostResolverProc* resolver_proc,
                    HostCache* cache,
                    size_t max_jobs,
                    NetLog* net_log);

   // If any completion callbacks are pending when the resolver is destroyed,
   // the host resolutions are cancelled, and the completion callbacks will not
   // be called.
   virtual ~HostResolverImpl();

   // HostResolver methods:
   virtual int Resolve(const RequestInfo& info,
                       AddressList* addresses,
                       CompletionCallback* callback,
                       RequestHandle* out_req,
                       const BoundNetLog& source_net_log);
   virtual void CancelRequest(RequestHandle req);
   virtual void AddObserver(HostResolver::Observer* observer);
   virtual void RemoveObserver(HostResolver::Observer* observer);

   // Set address family, and disable IPv6 probe support.
   virtual void SetDefaultAddressFamily(AddressFamily address_family);
   virtual AddressFamily GetDefaultAddressFamily() const;

   // Continuously observe whether IPv6 is supported, and set the allowable
   // address family to IPv4 iff IPv6 is not supported.
   void ProbeIPv6Support();

   virtual HostResolverImpl* GetAsHostResolverImpl() { return this; }

   // TODO(eroman): hack for http://crbug.com/15513
   virtual void Shutdown();

   // Returns the cache this resolver uses, or NULL if caching is disabled.
   HostCache* cache() { return cache_.get(); }

   // Applies a set of constraints for requests that belong to the specified
   // pool. NOTE: Don't call this after requests have been already been started.
   //
   //  |pool_index| -- Specifies which pool these constraints should be applied
   //                  to.
   //  |max_outstanding_jobs| -- How many concurrent jobs are allowed for this
   //                            pool.
   //  |max_pending_requests| -- How many requests can be enqueued for this pool
   //                            before we start dropping requests. Dropped
   //                            requests fail with
   //                            ERR_HOST_RESOLVER_QUEUE_TOO_LARGE.
   void SetPoolConstraints(JobPoolIndex pool_index,
                           size_t max_outstanding_jobs,
                           size_t max_pending_requests);

  private:
   class Job;
   class JobPool;
   class IPv6ProbeJob;
   class Request;
   typedef std::vector<Request*> RequestsList;
   typedef HostCache::Key Key;
   typedef std::map<Key, scoped_refptr<Job> > JobMap;
   typedef std::vector<HostResolver::Observer*> ObserversList;

   // Returns the HostResolverProc to use for this instance.
   HostResolverProc* effective_resolver_proc() const {
     return resolver_proc_ ?
         resolver_proc_.get() : HostResolverProc::GetDefault();
   }

   // Adds a job to outstanding jobs list.
   void AddOutstandingJob(Job* job);

   // Returns the outstanding job for |key|, or NULL if there is none.
   Job* FindOutstandingJob(const Key& key);

   // Removes |job| from the outstanding jobs list.
   void RemoveOutstandingJob(Job* job);

   // Callback for when |job| has completed with |net_error| and |addrlist|.
   void OnJobComplete(Job* job, int net_error, int os_error,
                      const AddressList& addrlist);

   // Aborts |job|.  Same as OnJobComplete() except does not remove |job|
   // from |jobs_| and does not cache the result (ERR_ABORTED).
   void AbortJob(Job* job);

   // Used by both OnJobComplete() and AbortJob();
   void OnJobCompleteInternal(Job* job, int net_error, int os_error,
                              const AddressList& addrlist);

   // Called when a request has just been started.
   void OnStartRequest(const BoundNetLog& source_net_log,
                       const BoundNetLog& request_net_log,
                       int request_id,
                       const RequestInfo& info);

   // Called when a request has just completed (before its callback is run).
   void OnFinishRequest(const BoundNetLog& source_net_log,
                        const BoundNetLog& request_net_log,
                        int request_id,
                        const RequestInfo& info,
                        int net_error,
                        int os_error);

   // Called when a request has been cancelled.
   void OnCancelRequest(const BoundNetLog& source_net_log,
                        const BoundNetLog& request_net_log,
                        int request_id,
                        const RequestInfo& info);

   // NetworkChangeNotifier::Observer methods:
   virtual void OnIPAddressChanged();

   // Notify IPv6ProbeJob not to call back, and discard reference to the job.
   void DiscardIPv6ProbeJob();

   // Callback from IPv6 probe activity.
   void IPv6ProbeSetDefaultAddressFamily(AddressFamily address_family);

   // Returns true if the constraints for |pool| are met, and a new job can be
   // created for this pool.
   bool CanCreateJobForPool(const JobPool& pool) const;

   // Returns the index of the pool that request |req| maps to.
   static JobPoolIndex GetJobPoolIndexForRequest(const Request* req);

   JobPool* GetPoolForRequest(const Request* req) {
     return job_pools_[GetJobPoolIndexForRequest(req)];
   }

   // Starts up to 1 job given the current pool constraints. This job
   // may have multiple requests attached to it.
   void ProcessQueuedRequests();

   // Returns the (hostname, address_family) key to use for |info|, choosing an
   // "effective" address family by inheriting the resolver's default address
   // family when the request leaves it unspecified.
   Key GetEffectiveKeyForRequest(const RequestInfo& info) const;

   // Attaches |req| to a new job, and starts it. Returns that job.
   Job* CreateAndStartJob(Request* req);

   // Adds a pending request |req| to |pool|.
   int EnqueueRequest(JobPool* pool, Request* req);

   // Cancels all jobs.
   void CancelAllJobs();

   // Aborts all in progress jobs (but might start new ones).
   void AbortAllInProgressJobs();

   // Cache of host resolution results.
   scoped_ptr<HostCache> cache_;

   // Map from hostname to outstanding job.
   JobMap jobs_;

   // Maximum number of concurrent jobs allowed, across all pools.
   size_t max_jobs_;

   // The information to track pending requests for a JobPool, as well as
   // how many outstanding jobs the pool already has, and its constraints.
   JobPool* job_pools_[POOL_COUNT];

   // The job that OnJobComplete() is currently processing (needed in case
   // HostResolver gets deleted from within the callback).
   scoped_refptr<Job> cur_completing_job_;

   // The observers to notify when a request starts/ends.
   ObserversList observers_;

   // Monotonically increasing ID number to assign to the next request.
   // Observers are the only consumers of this ID number.
   int next_request_id_;

   // Monotonically increasing ID number to assign to the next job.
   // The only consumer of this ID is the requests tracing code.
   int next_job_id_;

   // The procedure to use for resolving host names. This will be NULL, except
   // in the case of unit-tests which inject custom host resolving behaviors.
   scoped_refptr<HostResolverProc> resolver_proc_;

   // Address family to use when the request doesn't specify one.
   AddressFamily default_address_family_;

   // TODO(eroman): hack for http://crbug.com/15513
   bool shutdown_;

   // Indicate if probing is done after each network change event to set address
   // family.
   // When false, explicit setting of address family is used.
   bool ipv6_probe_monitoring_;

   // The last un-cancelled IPv6ProbeJob (if any).
   scoped_refptr<IPv6ProbeJob> ipv6_probe_job_;

   // Any resolver flags that should be added to a request by default.
   HostResolverFlags additional_resolver_flags_;

   NetLog* net_log_;

   DISALLOW_COPY_AND_ASSIGN(HostResolverImpl);
 };

 }  // namespace net

 #endif  // NET_BASE_HOST_RESOLVER_IMPL_H_
	// Copyright (c) 2010 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_BASE_HOST_RESOLVER_IMPL_H_
	#define NET_BASE_HOST_RESOLVER_IMPL_H_
	#pragma once

	#include <vector>

	#include "base/non_thread_safe.h"
	#include "base/scoped_ptr.h"
	#include "net/base/capturing_net_log.h"
	#include "net/base/host_cache.h"
	#include "net/base/host_resolver.h"
	#include "net/base/host_resolver_proc.h"
	#include "net/base/net_log.h"
	#include "net/base/network_change_notifier.h"

	namespace net {

	// For each hostname that is requested, HostResolver creates a
	// HostResolverImpl::Job. This job gets dispatched to a thread in the global
	// WorkerPool, where it runs SystemHostResolverProc(). If requests for that same
	// host are made while the job is already outstanding, then they are attached
	// to the existing job rather than creating a new one. This avoids doing
	// parallel resolves for the same host.
	//
	// The way these classes fit together is illustrated by:
	//
	//
	// +----------- HostResolverImpl -------------+
	// \| \| \|
	// Job Job Job
	// (for host1, fam1) (for host2, fam2) (for hostx, famx)
	// / \| \| / \| \| / \| \|
	// Request ... Request Request ... Request Request ... Request
	// (port1) (port2) (port3) (port4) (port5) (portX)
	//
	//
	// When a HostResolverImpl::Job finishes its work in the threadpool, the
	// callbacks of each waiting request are run on the origin thread.
	//
	// Thread safety: This class is not threadsafe, and must only be called
	// from one thread!
	//
	// The HostResolverImpl enforces \|max_jobs_\| as the maximum number of concurrent
	// threads.
	//
	// Requests are ordered in the queue based on their priority.

	class HostResolverImpl : public HostResolver,
	public NonThreadSafe,
	public NetworkChangeNotifier::Observer {
	public:
	// The index into \|job_pools_\| for the various job pools. Pools with a higher
	// index have lower priority.
	//
	// Note: This is currently unused, since there is a single pool
	// for all requests.
	enum JobPoolIndex {
	POOL_NORMAL = 0,
	POOL_COUNT,
	};

	// Creates a HostResolver that first uses the local cache \|cache\|, and then
	// falls back to \|resolver_proc\|.
	//
	// If \|cache\| is NULL, then no caching is used. Otherwise we take
	// ownership of the \|cache\| pointer, and will free it during destructor.
	//
	// \|resolver_proc\| is used to perform the actual resolves; it must be
	// thread-safe since it is run from multiple worker threads. If
	// \|resolver_proc\| is NULL then the default host resolver procedure is
	// used (which is SystemHostResolverProc except if overridden).
	// \|max_jobs\| specifies the maximum number of threads that the host resolver
	// will use. Use SetPoolConstraints() to specify finer-grain settings.
	//
	// \|net_log\| must remain valid for the life of the HostResolverImpl.
	HostResolverImpl(HostResolverProc* resolver_proc,
	HostCache* cache,
	size_t max_jobs,
	NetLog* net_log);

	// If any completion callbacks are pending when the resolver is destroyed,
	// the host resolutions are cancelled, and the completion callbacks will not
	// be called.
	virtual ~HostResolverImpl();

	// HostResolver methods:
	virtual int Resolve(const RequestInfo& info,
	AddressList* addresses,
	CompletionCallback* callback,
	RequestHandle* out_req,
	const BoundNetLog& source_net_log);
	virtual void CancelRequest(RequestHandle req);
	virtual void AddObserver(HostResolver::Observer* observer);
	virtual void RemoveObserver(HostResolver::Observer* observer);

	// Set address family, and disable IPv6 probe support.
	virtual void SetDefaultAddressFamily(AddressFamily address_family);
	virtual AddressFamily GetDefaultAddressFamily() const;

	// Continuously observe whether IPv6 is supported, and set the allowable
	// address family to IPv4 iff IPv6 is not supported.
	void ProbeIPv6Support();

	virtual HostResolverImpl* GetAsHostResolverImpl() { return this; }

	// TODO(eroman): hack for http://crbug.com/15513
	virtual void Shutdown();

	// Returns the cache this resolver uses, or NULL if caching is disabled.
	HostCache* cache() { return cache_.get(); }

	// Applies a set of constraints for requests that belong to the specified
	// pool. NOTE: Don't call this after requests have been already been started.
	//
	// \|pool_index\| -- Specifies which pool these constraints should be applied
	// to.
	// \|max_outstanding_jobs\| -- How many concurrent jobs are allowed for this
	// pool.
	// \|max_pending_requests\| -- How many requests can be enqueued for this pool
	// before we start dropping requests. Dropped
	// requests fail with
	// ERR_HOST_RESOLVER_QUEUE_TOO_LARGE.
	void SetPoolConstraints(JobPoolIndex pool_index,
	size_t max_outstanding_jobs,
	size_t max_pending_requests);

	private:
	class Job;
	class JobPool;
	class IPv6ProbeJob;
	class Request;
	typedef std::vector<Request*> RequestsList;
	typedef HostCache::Key Key;
	typedef std::map<Key, scoped_refptr<Job> > JobMap;
	typedef std::vector<HostResolver::Observer*> ObserversList;

	// Returns the HostResolverProc to use for this instance.
	HostResolverProc* effective_resolver_proc() const {
	return resolver_proc_ ?
	resolver_proc_.get() : HostResolverProc::GetDefault();
	}

	// Adds a job to outstanding jobs list.
	void AddOutstandingJob(Job* job);

	// Returns the outstanding job for \|key\|, or NULL if there is none.
	Job* FindOutstandingJob(const Key& key);

	// Removes \|job\| from the outstanding jobs list.
	void RemoveOutstandingJob(Job* job);

	// Callback for when \|job\| has completed with \|net_error\| and \|addrlist\|.
	void OnJobComplete(Job* job, int net_error, int os_error,
	const AddressList& addrlist);

	// Aborts \|job\|. Same as OnJobComplete() except does not remove \|job\|
	// from \|jobs_\| and does not cache the result (ERR_ABORTED).
	void AbortJob(Job* job);

	// Used by both OnJobComplete() and AbortJob();
	void OnJobCompleteInternal(Job* job, int net_error, int os_error,
	const AddressList& addrlist);

	// Called when a request has just been started.
	void OnStartRequest(const BoundNetLog& source_net_log,
	const BoundNetLog& request_net_log,
	int request_id,
	const RequestInfo& info);

	// Called when a request has just completed (before its callback is run).
	void OnFinishRequest(const BoundNetLog& source_net_log,
	const BoundNetLog& request_net_log,
	int request_id,
	const RequestInfo& info,
	int net_error,
	int os_error);

	// Called when a request has been cancelled.
	void OnCancelRequest(const BoundNetLog& source_net_log,
	const BoundNetLog& request_net_log,
	int request_id,
	const RequestInfo& info);

	// NetworkChangeNotifier::Observer methods:
	virtual void OnIPAddressChanged();

	// Notify IPv6ProbeJob not to call back, and discard reference to the job.
	void DiscardIPv6ProbeJob();

	// Callback from IPv6 probe activity.
	void IPv6ProbeSetDefaultAddressFamily(AddressFamily address_family);

	// Returns true if the constraints for \|pool\| are met, and a new job can be
	// created for this pool.
	bool CanCreateJobForPool(const JobPool& pool) const;

	// Returns the index of the pool that request \|req\| maps to.
	static JobPoolIndex GetJobPoolIndexForRequest(const Request* req);

	JobPool* GetPoolForRequest(const Request* req) {
	return job_pools_[GetJobPoolIndexForRequest(req)];
	}

	// Starts up to 1 job given the current pool constraints. This job
	// may have multiple requests attached to it.
	void ProcessQueuedRequests();

	// Returns the (hostname, address_family) key to use for \|info\|, choosing an
	// "effective" address family by inheriting the resolver's default address
	// family when the request leaves it unspecified.
	Key GetEffectiveKeyForRequest(const RequestInfo& info) const;

	// Attaches \|req\| to a new job, and starts it. Returns that job.
	Job* CreateAndStartJob(Request* req);

	// Adds a pending request \|req\| to \|pool\|.
	int EnqueueRequest(JobPool* pool, Request* req);

	// Cancels all jobs.
	void CancelAllJobs();

	// Aborts all in progress jobs (but might start new ones).
	void AbortAllInProgressJobs();

	// Cache of host resolution results.
	scoped_ptr<HostCache> cache_;

	// Map from hostname to outstanding job.
	JobMap jobs_;

	// Maximum number of concurrent jobs allowed, across all pools.
	size_t max_jobs_;

	// The information to track pending requests for a JobPool, as well as
	// how many outstanding jobs the pool already has, and its constraints.
	JobPool* job_pools_[POOL_COUNT];

	// The job that OnJobComplete() is currently processing (needed in case
	// HostResolver gets deleted from within the callback).
	scoped_refptr<Job> cur_completing_job_;

	// The observers to notify when a request starts/ends.
	ObserversList observers_;

	// Monotonically increasing ID number to assign to the next request.
	// Observers are the only consumers of this ID number.
	int next_request_id_;

	// Monotonically increasing ID number to assign to the next job.
	// The only consumer of this ID is the requests tracing code.
	int next_job_id_;

	// The procedure to use for resolving host names. This will be NULL, except
	// in the case of unit-tests which inject custom host resolving behaviors.
	scoped_refptr<HostResolverProc> resolver_proc_;

	// Address family to use when the request doesn't specify one.
	AddressFamily default_address_family_;

	// TODO(eroman): hack for http://crbug.com/15513
	bool shutdown_;

	// Indicate if probing is done after each network change event to set address
	// family.
	// When false, explicit setting of address family is used.
	bool ipv6_probe_monitoring_;

	// The last un-cancelled IPv6ProbeJob (if any).
	scoped_refptr<IPv6ProbeJob> ipv6_probe_job_;

	// Any resolver flags that should be added to a request by default.
	HostResolverFlags additional_resolver_flags_;

	NetLog* net_log_;

	DISALLOW_COPY_AND_ASSIGN(HostResolverImpl);
	};

	} // namespace net

	#endif // NET_BASE_HOST_RESOLVER_IMPL_H_