net/base/host_resolver.h - platform/external/chromium - 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_BASE_HOST_RESOLVER_H_
 #define NET_BASE_HOST_RESOLVER_H_
 #pragma once

 #include <string>

 #include "base/memory/scoped_ptr.h"
 #include "googleurl/src/gurl.h"
 #include "net/base/address_family.h"
 #include "net/base/completion_callback.h"
 #include "net/base/host_port_pair.h"
 #include "net/base/net_export.h"
 #include "net/base/request_priority.h"

 namespace net {

 class AddressList;
 class BoundNetLog;
 class HostResolverImpl;
 class HostResolverProc;
 class NetLog;

 // This class represents the task of resolving hostnames (or IP address
 // literal) to an AddressList object.
 //
 // HostResolver can handle multiple requests at a time, so when cancelling a
 // request the RequestHandle that was returned by Resolve() needs to be
 // given.  A simpler alternative for consumers that only have 1 outstanding
 // request at a time is to create a SingleRequestHostResolver wrapper around
 // HostResolver (which will automatically cancel the single request when it
 // goes out of scope).
 class NET_EXPORT HostResolver {
  public:
   // The parameters for doing a Resolve(). A hostname and port are required,
   // the rest are optional (and have reasonable defaults).
   class NET_EXPORT RequestInfo {
    public:
     explicit RequestInfo(const HostPortPair& host_port_pair);

     const HostPortPair& host_port_pair() const { return host_port_pair_; }
     void set_host_port_pair(const HostPortPair& host_port_pair) {
       host_port_pair_ = host_port_pair;
     }

     int port() const { return host_port_pair_.port(); }
     const std::string& hostname() const { return host_port_pair_.host(); }

     AddressFamily address_family() const { return address_family_; }
     void set_address_family(AddressFamily address_family) {
       address_family_ = address_family;
     }

     HostResolverFlags host_resolver_flags() const {
       return host_resolver_flags_;
     }
     void set_host_resolver_flags(HostResolverFlags host_resolver_flags) {
       host_resolver_flags_ = host_resolver_flags;
     }

     bool allow_cached_response() const { return allow_cached_response_; }
     void set_allow_cached_response(bool b) { allow_cached_response_ = b; }

     bool only_use_cached_response() const { return only_use_cached_response_; }
     void set_only_use_cached_response(bool b) { only_use_cached_response_ = b; }

     bool is_speculative() const { return is_speculative_; }
     void set_is_speculative(bool b) { is_speculative_ = b; }

     RequestPriority priority() const { return priority_; }
     void set_priority(RequestPriority priority) { priority_ = priority; }

     const GURL& referrer() const { return referrer_; }
     void set_referrer(const GURL& referrer) { referrer_ = referrer; }

    private:
     // The hostname to resolve, and the port to use in resulting sockaddrs.
     HostPortPair host_port_pair_;

     // The address family to restrict results to.
     AddressFamily address_family_;

     // Flags to use when resolving this request.
     HostResolverFlags host_resolver_flags_;

     // Whether it is ok to return a result from the host cache.
     bool allow_cached_response_;

     // Whether the response will only use the cache.
     bool only_use_cached_response_;

     // Whether this request was started by the DNS prefetcher.
     bool is_speculative_;

     // The priority for the request.
     RequestPriority priority_;

     // Optional data for consumption by observers. This is the URL of the
     // page that lead us to the navigation, for DNS prefetcher's benefit.
     GURL referrer_;
   };

   // Interface for observing the requests that flow through a HostResolver.
   class Observer {
    public:
     virtual ~Observer() {}

     // Called at the start of HostResolver::Resolve(). |id| is a unique number
     // given to the request, so it can be matched up with a corresponding call
     // to OnFinishResolutionWithStatus() or OnCancelResolution().
     virtual void OnStartResolution(int id, const RequestInfo& info) = 0;

     // Called on completion of request |id|. Note that if the request was
     // cancelled, OnCancelResolution() will be called instead.
     virtual void OnFinishResolutionWithStatus(int id, bool was_resolved,
                                               const RequestInfo& info) = 0;

     // Called when request |id| has been cancelled. A request is "cancelled"
     // if either the HostResolver is destroyed while a resolution is in
     // progress, or HostResolver::CancelRequest() is called.
     virtual void OnCancelResolution(int id, const RequestInfo& info) = 0;
   };

   // Opaque type used to cancel a request.
   typedef void* RequestHandle;

   // This value can be passed into CreateSystemHostResolver as the
   // |max_concurrent_resolves| parameter. It will select a default level of
   // concurrency.
   static const size_t kDefaultParallelism = 0;

   // 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 ~HostResolver();

   // Resolves the given hostname (or IP address literal), filling out the
   // |addresses| object upon success.  The |info.port| parameter will be set as
   // the sin(6)_port field of the sockaddr_in{6} struct.  Returns OK if
   // successful or an error code upon failure.
   //
   // When callback is null, the operation completes synchronously.
   //
   // When callback is non-null, the operation may be performed asynchronously.
   // If the operation cannnot be completed synchronously, ERR_IO_PENDING will
   // be returned and the real result code will be passed to the completion
   // callback.  Otherwise the result code is returned immediately from this
   // call.
   // If |out_req| is non-NULL, then |*out_req| will be filled with a handle to
   // the async request. This handle is not valid after the request has
   // completed.
   //
   // Profiling information for the request is saved to |net_log| if non-NULL.
   virtual int Resolve(const RequestInfo& info,
                       AddressList* addresses,
                       CompletionCallback* callback,
                       RequestHandle* out_req,
                       const BoundNetLog& net_log) = 0;

   // Cancels the specified request. |req| is the handle returned by Resolve().
   // After a request is cancelled, its completion callback will not be called.
   virtual void CancelRequest(RequestHandle req) = 0;

   // Adds an observer to this resolver. The observer will be notified of the
   // start and completion of all requests (excluding cancellation). |observer|
   // must remain valid for the duration of this HostResolver's lifetime.
   virtual void AddObserver(Observer* observer) = 0;

   // Unregisters an observer previously added by AddObserver().
   virtual void RemoveObserver(Observer* observer) = 0;

   // Sets the default AddressFamily to use when requests have left it
   // unspecified. For example, this could be used to restrict resolution
   // results to AF_INET by passing in ADDRESS_FAMILY_IPV4, or to
   // AF_INET6 by passing in ADDRESS_FAMILY_IPV6.
   virtual void SetDefaultAddressFamily(AddressFamily address_family) {}
   virtual AddressFamily GetDefaultAddressFamily() const;

   // Returns |this| cast to a HostResolverImpl*, or NULL if the subclass
   // is not compatible with HostResolverImpl. Used primarily to expose
   // additional functionality on the about:net-internals page.
   virtual HostResolverImpl* GetAsHostResolverImpl();

   // Does additional cleanup prior to destruction.
   virtual void Shutdown() {}

  protected:
   HostResolver();

  private:
   DISALLOW_COPY_AND_ASSIGN(HostResolver);
 };

 // This class represents the task of resolving a hostname (or IP address
 // literal) to an AddressList object.  It wraps HostResolver to resolve only a
 // single hostname at a time and cancels this request when going out of scope.
 class NET_EXPORT SingleRequestHostResolver {
  public:
   // |resolver| must remain valid for the lifetime of |this|.
   explicit SingleRequestHostResolver(HostResolver* resolver);

   // If a completion callback is pending when the resolver is destroyed, the
   // host resolution is cancelled, and the completion callback will not be
   // called.
   ~SingleRequestHostResolver();

   // Resolves the given hostname (or IP address literal), filling out the
   // |addresses| object upon success. See HostResolver::Resolve() for details.
   int Resolve(const HostResolver::RequestInfo& info,
               AddressList* addresses,
               CompletionCallback* callback,
               const BoundNetLog& net_log);

   // Cancels the in-progress request, if any. This prevents the callback
   // from being invoked. Resolve() can be called again after cancelling.
   void Cancel();

  private:
   // Callback for when the request to |resolver_| completes, so we dispatch
   // to the user's callback.
   void OnResolveCompletion(int result);

   // The actual host resolver that will handle the request.
   HostResolver* const resolver_;

   // The current request (if any).
   HostResolver::RequestHandle cur_request_;
   CompletionCallback* cur_request_callback_;

   // Completion callback for when request to |resolver_| completes.
   CompletionCallbackImpl<SingleRequestHostResolver> callback_;

   DISALLOW_COPY_AND_ASSIGN(SingleRequestHostResolver);
 };

 // Creates a HostResolver implementation using |resolver_proc| as resolver,
 // (which if NULL, will default to getaddrinfo() wrapper) that queries the
 // underlying system, |max_concurrent_resolves| is how many resolve
 // requests will be allowed to run in parallel. Pass
 // HostResolver::kDefaultParallelism to choose a default value.
 NET_EXPORT HostResolver* CreateSystemHostResolver(size_t max_concurrent_resolves,
                                                   HostResolverProc* resolver_proc,
                                                   NetLog* net_log);

 }  // namespace net

 #endif  // NET_BASE_HOST_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_BASE_HOST_RESOLVER_H_
	#define NET_BASE_HOST_RESOLVER_H_
	#pragma once

	#include <string>

	#include "base/memory/scoped_ptr.h"
	#include "googleurl/src/gurl.h"
	#include "net/base/address_family.h"
	#include "net/base/completion_callback.h"
	#include "net/base/host_port_pair.h"
	#include "net/base/net_export.h"
	#include "net/base/request_priority.h"

	namespace net {

	class AddressList;
	class BoundNetLog;
	class HostResolverImpl;
	class HostResolverProc;
	class NetLog;

	// This class represents the task of resolving hostnames (or IP address
	// literal) to an AddressList object.
	//
	// HostResolver can handle multiple requests at a time, so when cancelling a
	// request the RequestHandle that was returned by Resolve() needs to be
	// given. A simpler alternative for consumers that only have 1 outstanding
	// request at a time is to create a SingleRequestHostResolver wrapper around
	// HostResolver (which will automatically cancel the single request when it
	// goes out of scope).
	class NET_EXPORT HostResolver {
	public:
	// The parameters for doing a Resolve(). A hostname and port are required,
	// the rest are optional (and have reasonable defaults).
	class NET_EXPORT RequestInfo {
	public:
	explicit RequestInfo(const HostPortPair& host_port_pair);

	const HostPortPair& host_port_pair() const { return host_port_pair_; }
	void set_host_port_pair(const HostPortPair& host_port_pair) {
	host_port_pair_ = host_port_pair;
	}

	int port() const { return host_port_pair_.port(); }
	const std::string& hostname() const { return host_port_pair_.host(); }

	AddressFamily address_family() const { return address_family_; }
	void set_address_family(AddressFamily address_family) {
	address_family_ = address_family;
	}

	HostResolverFlags host_resolver_flags() const {
	return host_resolver_flags_;
	}
	void set_host_resolver_flags(HostResolverFlags host_resolver_flags) {
	host_resolver_flags_ = host_resolver_flags;
	}

	bool allow_cached_response() const { return allow_cached_response_; }
	void set_allow_cached_response(bool b) { allow_cached_response_ = b; }

	bool only_use_cached_response() const { return only_use_cached_response_; }
	void set_only_use_cached_response(bool b) { only_use_cached_response_ = b; }

	bool is_speculative() const { return is_speculative_; }
	void set_is_speculative(bool b) { is_speculative_ = b; }

	RequestPriority priority() const { return priority_; }
	void set_priority(RequestPriority priority) { priority_ = priority; }

	const GURL& referrer() const { return referrer_; }
	void set_referrer(const GURL& referrer) { referrer_ = referrer; }

	private:
	// The hostname to resolve, and the port to use in resulting sockaddrs.
	HostPortPair host_port_pair_;

	// The address family to restrict results to.
	AddressFamily address_family_;

	// Flags to use when resolving this request.
	HostResolverFlags host_resolver_flags_;

	// Whether it is ok to return a result from the host cache.
	bool allow_cached_response_;

	// Whether the response will only use the cache.
	bool only_use_cached_response_;

	// Whether this request was started by the DNS prefetcher.
	bool is_speculative_;

	// The priority for the request.
	RequestPriority priority_;

	// Optional data for consumption by observers. This is the URL of the
	// page that lead us to the navigation, for DNS prefetcher's benefit.
	GURL referrer_;
	};

	// Interface for observing the requests that flow through a HostResolver.
	class Observer {
	public:
	virtual ~Observer() {}

	// Called at the start of HostResolver::Resolve(). \|id\| is a unique number
	// given to the request, so it can be matched up with a corresponding call
	// to OnFinishResolutionWithStatus() or OnCancelResolution().
	virtual void OnStartResolution(int id, const RequestInfo& info) = 0;

	// Called on completion of request \|id\|. Note that if the request was
	// cancelled, OnCancelResolution() will be called instead.
	virtual void OnFinishResolutionWithStatus(int id, bool was_resolved,
	const RequestInfo& info) = 0;

	// Called when request \|id\| has been cancelled. A request is "cancelled"
	// if either the HostResolver is destroyed while a resolution is in
	// progress, or HostResolver::CancelRequest() is called.
	virtual void OnCancelResolution(int id, const RequestInfo& info) = 0;
	};

	// Opaque type used to cancel a request.
	typedef void* RequestHandle;

	// This value can be passed into CreateSystemHostResolver as the
	// \|max_concurrent_resolves\| parameter. It will select a default level of
	// concurrency.
	static const size_t kDefaultParallelism = 0;

	// 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 ~HostResolver();

	// Resolves the given hostname (or IP address literal), filling out the
	// \|addresses\| object upon success. The \|info.port\| parameter will be set as
	// the sin(6)_port field of the sockaddr_in{6} struct. Returns OK if
	// successful or an error code upon failure.
	//
	// When callback is null, the operation completes synchronously.
	//
	// When callback is non-null, the operation may be performed asynchronously.
	// If the operation cannnot be completed synchronously, ERR_IO_PENDING will
	// be returned and the real result code will be passed to the completion
	// callback. Otherwise the result code is returned immediately from this
	// call.
	// If \|out_req\| is non-NULL, then \|*out_req\| will be filled with a handle to
	// the async request. This handle is not valid after the request has
	// completed.
	//
	// Profiling information for the request is saved to \|net_log\| if non-NULL.
	virtual int Resolve(const RequestInfo& info,
	AddressList* addresses,
	CompletionCallback* callback,
	RequestHandle* out_req,
	const BoundNetLog& net_log) = 0;

	// Cancels the specified request. \|req\| is the handle returned by Resolve().
	// After a request is cancelled, its completion callback will not be called.
	virtual void CancelRequest(RequestHandle req) = 0;

	// Adds an observer to this resolver. The observer will be notified of the
	// start and completion of all requests (excluding cancellation). \|observer\|
	// must remain valid for the duration of this HostResolver's lifetime.
	virtual void AddObserver(Observer* observer) = 0;

	// Unregisters an observer previously added by AddObserver().
	virtual void RemoveObserver(Observer* observer) = 0;

	// Sets the default AddressFamily to use when requests have left it
	// unspecified. For example, this could be used to restrict resolution
	// results to AF_INET by passing in ADDRESS_FAMILY_IPV4, or to
	// AF_INET6 by passing in ADDRESS_FAMILY_IPV6.
	virtual void SetDefaultAddressFamily(AddressFamily address_family) {}
	virtual AddressFamily GetDefaultAddressFamily() const;

	// Returns \|this\| cast to a HostResolverImpl*, or NULL if the subclass
	// is not compatible with HostResolverImpl. Used primarily to expose
	// additional functionality on the about:net-internals page.
	virtual HostResolverImpl* GetAsHostResolverImpl();

	// Does additional cleanup prior to destruction.
	virtual void Shutdown() {}

	protected:
	HostResolver();

	private:
	DISALLOW_COPY_AND_ASSIGN(HostResolver);
	};

	// This class represents the task of resolving a hostname (or IP address
	// literal) to an AddressList object. It wraps HostResolver to resolve only a
	// single hostname at a time and cancels this request when going out of scope.
	class NET_EXPORT SingleRequestHostResolver {
	public:
	// \|resolver\| must remain valid for the lifetime of \|this\|.
	explicit SingleRequestHostResolver(HostResolver* resolver);

	// If a completion callback is pending when the resolver is destroyed, the
	// host resolution is cancelled, and the completion callback will not be
	// called.
	~SingleRequestHostResolver();

	// Resolves the given hostname (or IP address literal), filling out the
	// \|addresses\| object upon success. See HostResolver::Resolve() for details.
	int Resolve(const HostResolver::RequestInfo& info,
	AddressList* addresses,
	CompletionCallback* callback,
	const BoundNetLog& net_log);

	// Cancels the in-progress request, if any. This prevents the callback
	// from being invoked. Resolve() can be called again after cancelling.
	void Cancel();

	private:
	// Callback for when the request to \|resolver_\| completes, so we dispatch
	// to the user's callback.
	void OnResolveCompletion(int result);

	// The actual host resolver that will handle the request.
	HostResolver* const resolver_;

	// The current request (if any).
	HostResolver::RequestHandle cur_request_;
	CompletionCallback* cur_request_callback_;

	// Completion callback for when request to \|resolver_\| completes.
	CompletionCallbackImpl<SingleRequestHostResolver> callback_;

	DISALLOW_COPY_AND_ASSIGN(SingleRequestHostResolver);
	};

	// Creates a HostResolver implementation using \|resolver_proc\| as resolver,
	// (which if NULL, will default to getaddrinfo() wrapper) that queries the
	// underlying system, \|max_concurrent_resolves\| is how many resolve
	// requests will be allowed to run in parallel. Pass
	// HostResolver::kDefaultParallelism to choose a default value.
	NET_EXPORT HostResolver* CreateSystemHostResolver(size_t max_concurrent_resolves,
	HostResolverProc* resolver_proc,
	NetLog* net_log);

	} // namespace net

	#endif // NET_BASE_HOST_RESOLVER_H_