netlink_manager.h - platform/system/connectivity/shill - Gitiles

 // Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // This software provides an abstracted interface to the netlink socket
 // interface.  In its current implementation it is used, primarily, to
 // communicate with the cfg80211 kernel module and mac80211 drivers:
 //
 //         [shill]--[nl80211 library, libnl_genl/libnl libraries]
 //            |
 //     (netlink socket)
 //            |
 // [cfg80211 kernel module]
 //            |
 //    [mac80211 drivers]
 //
 // In order to send a message and handle it's response, do the following:
 // - Create a handler (it'll want to verify that it's the kind of message you
 //   want, cast it to the appropriate type, and get attributes from the cast
 //   message):
 //
 //    #include "nl80211_message.h"
 //    class SomeClass {
 //      static void MyMessageHandler(const NetlinkMessage &raw) {
 //        if (raw.message_type() != ControlNetlinkMessage::kMessageType)
 //          return;
 //        const ControlNetlinkMessage *message =
 //          reinterpret_cast<const ControlNetlinkMessage *>(&raw);
 //        if (message.command() != NewFamilyMessage::kCommand)
 //          return;
 //        uint16_t my_attribute;
 //        message->const_attributes()->GetU16AttributeValue(
 //          CTRL_ATTR_FAMILY_ID, &my_attribute);
 //      }  // MyMessageHandler.
 //    }  // class SomeClass.
 //
 // - Instantiate a message:
 //
 //    #include "nl80211_message.h"
 //    GetFamilyMessage msg;
 //
 // - And set attributes:
 //
 //    msg.attributes()->SetStringAttributeValue(CTRL_ATTR_FAMILY_NAME, "foo");
 //
 // - Then send the message, passing-in a closure to the handler you created:
 //
 //    NetlinkManager *netlink_manager = NetlinkManager::GetInstance();
 //    netlink_manager->SendMessage(&msg, Bind(&SomeClass::MyMessageHandler));
 //
 // NetlinkManager will then save your handler and send your message.  When a
 // response to your message arrives, it'll call your handler.
 //

 #ifndef SHILL_NETLINK_MANAGER_H_
 #define SHILL_NETLINK_MANAGER_H_

 #include <list>
 #include <map>
 #include <set>
 #include <string>

 #include <base/basictypes.h>
 #include <base/bind.h>
 #include <base/lazy_instance.h>
 #include <base/memory/scoped_ptr.h>
 #include <gtest/gtest_prod.h>  // for FRIEND_TEST

 #include "shill/generic_netlink_message.h"
 #include "shill/io_handler.h"
 #include "shill/netlink_message.h"
 #include "shill/shill_time.h"

 struct nlmsghdr;

 namespace shill {

 class ControlNetlinkMessage;
 class Error;
 class EventDispatcher;
 struct InputData;
 class NetlinkSocket;
 class Nl80211Message;

 // NetlinkManager is a singleton that coordinates sending netlink messages to,
 // and receiving netlink messages from, the kernel.  The first use of this is
 // to communicate between user-space and the cfg80211 module that manages wifi
 // drivers.  Bring NetlinkManager up as follows:
 //  NetlinkManager *netlink_manager_ = NetlinkManager::GetInstance();
 //  EventDispatcher dispatcher_;
 //  netlink_manager_->Init();  // Initialize the socket.
 //  // Get message types for all dynamic message types.
 //  Nl80211Message::SetMessageType(
 //      netlink_manager_->GetFamily(Nl80211Message::kMessageTypeString,
 //                              Bind(&Nl80211Message::CreateMessage)));
 //  netlink_manager_->Start(&dispatcher_);
 class NetlinkManager {
  public:
   enum AuxilliaryMessageType {
     kErrorFromKernel,
     kUnexpectedResponseType,
     kTimeoutWaitingForResponse
   };
   typedef base::Callback<void(const NetlinkMessage &)> NetlinkMessageHandler;
   typedef base::Callback<void(const ControlNetlinkMessage &)>
       ControlNetlinkMessageHandler;
   typedef base::Callback<void(const Nl80211Message &)> Nl80211MessageHandler;
   // NetlinkAuxilliaryMessageHandler handles netlink error messages, things
   // like the DoneMessage at the end of a multi-part message, and any errors
   // discovered by |NetlinkManager| (which are passed as NULL pointers because
   // there is no way to reserve a part of the ErrorAckMessage space for
   // non-netlink errors).
   typedef base::Callback<void(AuxilliaryMessageType type,
                               const NetlinkMessage *)>
       NetlinkAuxilliaryMessageHandler;

   // ResponseHandlers provide a polymorphic context for the base::Callback
   // message handlers so that handlers for different types of messages can be
   // kept in the same container (namely, |message_handlers_|).
   class NetlinkResponseHandler :
     public base::RefCounted<NetlinkResponseHandler> {
    public:
     explicit NetlinkResponseHandler(
         const NetlinkAuxilliaryMessageHandler &error_handler);
     virtual ~NetlinkResponseHandler();
     // Calls wrapper-type-specific callback for |netlink_message|.  Returns
     // false if |netlink_message| is not the correct type.  Calls callback
     // (which is declared in the private area of derived classes) with
     // properly cast version of |netlink_message|.
     virtual bool HandleMessage(const NetlinkMessage &netlink_message) const = 0;
     void HandleError(AuxilliaryMessageType type,
                      const NetlinkMessage *netlink_message) const;
     void set_delete_after(const timeval &time) { delete_after_ = time; }
     const struct timeval &delete_after() const { return delete_after_; }

    protected:
     NetlinkResponseHandler();

    private:
     NetlinkAuxilliaryMessageHandler error_handler_;
     struct timeval delete_after_;

     DISALLOW_COPY_AND_ASSIGN(NetlinkResponseHandler);
   };

   // Encapsulates all the different things we know about a specific message
   // type like its name, and its id.
   struct MessageType {
     MessageType();

     uint16_t family_id;

     // Multicast groups supported by the family.  The string and mapping to
     // a group id are extracted from the CTRL_CMD_NEWFAMILY message.
     std::map<std::string, uint32_t> groups;
   };

   // Various kinds of events to which we can subscribe (and receive) from
   // cfg80211.
   static const char kEventTypeConfig[];
   static const char kEventTypeScan[];
   static const char kEventTypeRegulatory[];
   static const char kEventTypeMlme[];

   // NetlinkManager is a singleton and this is the way to access it.
   static NetlinkManager *GetInstance();

   // Performs non-trivial object initialization of the NetlinkManager singleton.
   bool Init();

   // Passes the job of waiting for, and the subsequent reading from, the
   // netlink socket to |dispatcher|.
   void Start(EventDispatcher *dispatcher);

   // The following methods deal with the network family table.  This table
   // associates netlink family names with family_ids (also called message
   // types).  Note that some families have static ids assigned to them but
   // others require the kernel to resolve a string describing the family into
   // a dynamically-determined id.

   // Returns the family_id (message type) associated with |family_name|,
   // calling the kernel if needed.  Returns
   // |NetlinkMessage::kIllegalMessageType| if the message type could not be
   // determined.  May block so |GetFamily| should be called before entering the
   // event loop.
   virtual uint16_t GetFamily(const std::string &family_name,
       const NetlinkMessageFactory::FactoryMethod &message_factory);

   // Install a NetlinkManager NetlinkMessageHandler.  The handler is a
   // user-supplied object to be called by the system for user-bound messages
   // that do not have a corresponding messaage-specific callback.
   // |AddBroadcastHandler| should be called before |SubscribeToEvents| since
   // the result of this call are used for that call.
   virtual bool AddBroadcastHandler(
       const NetlinkMessageHandler &message_handler);

   // Uninstall a NetlinkMessage Handler.
   virtual bool RemoveBroadcastHandler(
       const NetlinkMessageHandler &message_handler);

   // Determines whether a handler is in the list of broadcast handlers.
   bool FindBroadcastHandler(const NetlinkMessageHandler &message_handler) const;

   // Uninstall all broadcast netlink message handlers.
   void ClearBroadcastHandlers();

   // Sends a netlink message to the kernel using the NetlinkManager socket after
   // installing a handler to deal with the kernel's response to the message.
   // TODO(wdg): Eventually, this should also include a timeout and a callback
   // to call in case of timeout.
   virtual bool SendControlMessage(
       ControlNetlinkMessage *message,
       const ControlNetlinkMessageHandler &message_handler,
       const NetlinkAuxilliaryMessageHandler &error_handler);
   virtual bool SendNl80211Message(
       Nl80211Message *message,
       const Nl80211MessageHandler &message_handler,
       const NetlinkAuxilliaryMessageHandler &error_handler);

   // Generic erroneous message handler everyone can use.
   static void OnNetlinkMessageError(AuxilliaryMessageType type,
                                     const NetlinkMessage *raw_message);

   // Uninstall the handler for a specific netlink message.
   bool RemoveMessageHandler(const NetlinkMessage &message);

   // Sign-up to receive and log multicast events of a specific type (once wifi
   // is up).
   virtual bool SubscribeToEvents(const std::string &family,
                                  const std::string &group);

   // Gets the next sequence number for a NetlinkMessage to be sent over
   // NetlinkManager's netlink socket.
   uint32_t GetSequenceNumber();

  protected:
   friend struct base::DefaultLazyInstanceTraits<NetlinkManager>;

   explicit NetlinkManager();

  private:
   friend class NetlinkManagerTest;
   friend class NetlinkMessageTest;
   friend class ShillDaemonTest;
   FRIEND_TEST(NetlinkManagerTest, AddLinkTest);
   FRIEND_TEST(NetlinkManagerTest, BroadcastHandler);
   FRIEND_TEST(NetlinkManagerTest, GetFamilyOneInterstitialMessage);
   FRIEND_TEST(NetlinkManagerTest, GetFamilyTimeout);
   FRIEND_TEST(NetlinkManagerTest, MessageHandler);
   FRIEND_TEST(NetlinkManagerTest, MultipartMessageHandler);
   FRIEND_TEST(NetlinkManagerTest, OnInvalidRawNlMessageReceived);
   FRIEND_TEST(NetlinkManagerTest, TimeoutResponseHandlers);
   FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_ASSOCIATE);
   FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_AUTHENTICATE);
   FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_CONNECT);
   FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_DEAUTHENTICATE);
   FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_DISASSOCIATE);
   FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_DISCONNECT);
   FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_NEW_SCAN_RESULTS);
   FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_NEW_STATION);
   FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_NOTIFY_CQM);
   FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_TRIGGER_SCAN);

   typedef scoped_refptr<NetlinkResponseHandler> NetlinkResponseHandlerRefPtr;

   // These need to be member variables, even though they're only used once in
   // the code, since they're needed for unittests.
   static const long kMaximumNewFamilyWaitSeconds;  // NOLINT
   static const long kMaximumNewFamilyWaitMicroSeconds;  // NOLINT
   static const long kResponseTimeoutSeconds;  // NOLINT
   static const long kResponseTimeoutMicroSeconds;  // NOLINT

   // Returns the file descriptor of socket used to read wifi data.
   int file_descriptor() const;

   // EventDispatcher calls this when data is available on our socket.  This
   // method passes each, individual, message in the input to
   // |OnNlMessageReceived|.  Each part of a multipart message gets handled,
   // individually, by this method.
   void OnRawNlMessageReceived(InputData *data);

   // This method processes a message from |OnRawNlMessageReceived| by passing
   // the message to either the NetlinkManager callback that matches the sequence
   // number of the message or, if there isn't one, to all of the default
   // NetlinkManager callbacks in |broadcast_handlers_|.
   void OnNlMessageReceived(nlmsghdr *msg);

   // Called by InputHandler on exceptional events.
   void OnReadError(const Error &error);

   // Just for tests, this method turns off WiFi and clears the subscribed
   // events list. If |full| is true, also clears state set by Init.
   void Reset(bool full);

   // Handles a CTRL_CMD_NEWFAMILY message from the kernel.
   void OnNewFamilyMessage(const ControlNetlinkMessage &message);

   // Sends a netlink message to the kernel using the NetlinkManager socket after
   // installing a handler to deal with the kernel's response to the message.
   // Adds a serial number to |message| before it is sent.
   bool SendMessageInternal(
       NetlinkMessage *message,
       NetlinkResponseHandler *message_wrapper);  // Passes ownership.

   // NetlinkManager Handlers, OnRawNlMessageReceived invokes each of these
   // User-supplied callback object when _it_ gets called to read libnl data.
   std::list<NetlinkMessageHandler> broadcast_handlers_;

   // Message-specific callbacks, mapped by message ID.
   std::map<uint32_t, NetlinkResponseHandlerRefPtr> message_handlers_;

   // Hooks needed to be called by shill's EventDispatcher.
   EventDispatcher *dispatcher_;
   base::WeakPtrFactory<NetlinkManager> weak_ptr_factory_;
   base::Callback<void(InputData *)> dispatcher_callback_;
   scoped_ptr<IOHandler> dispatcher_handler_;

   NetlinkSocket *sock_;
   std::map<const std::string, MessageType> message_types_;
   NetlinkMessageFactory message_factory_;
   Time *time_;

   DISALLOW_COPY_AND_ASSIGN(NetlinkManager);
 };

 }  // namespace shill

 #endif  // SHILL_NETLINK_MANAGER_H_
	// Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// This software provides an abstracted interface to the netlink socket
	// interface. In its current implementation it is used, primarily, to
	// communicate with the cfg80211 kernel module and mac80211 drivers:
	//
	// [shill]--[nl80211 library, libnl_genl/libnl libraries]
	// \|
	// (netlink socket)
	// \|
	// [cfg80211 kernel module]
	// \|
	// [mac80211 drivers]
	//
	// In order to send a message and handle it's response, do the following:
	// - Create a handler (it'll want to verify that it's the kind of message you
	// want, cast it to the appropriate type, and get attributes from the cast
	// message):
	//
	// #include "nl80211_message.h"
	// class SomeClass {
	// static void MyMessageHandler(const NetlinkMessage &raw) {
	// if (raw.message_type() != ControlNetlinkMessage::kMessageType)
	// return;
	// const ControlNetlinkMessage *message =
	// reinterpret_cast<const ControlNetlinkMessage *>(&raw);
	// if (message.command() != NewFamilyMessage::kCommand)
	// return;
	// uint16_t my_attribute;
	// message->const_attributes()->GetU16AttributeValue(
	// CTRL_ATTR_FAMILY_ID, &my_attribute);
	// } // MyMessageHandler.
	// } // class SomeClass.
	//
	// - Instantiate a message:
	//
	// #include "nl80211_message.h"
	// GetFamilyMessage msg;
	//
	// - And set attributes:
	//
	// msg.attributes()->SetStringAttributeValue(CTRL_ATTR_FAMILY_NAME, "foo");
	//
	// - Then send the message, passing-in a closure to the handler you created:
	//
	// NetlinkManager *netlink_manager = NetlinkManager::GetInstance();
	// netlink_manager->SendMessage(&msg, Bind(&SomeClass::MyMessageHandler));
	//
	// NetlinkManager will then save your handler and send your message. When a
	// response to your message arrives, it'll call your handler.
	//

	#ifndef SHILL_NETLINK_MANAGER_H_
	#define SHILL_NETLINK_MANAGER_H_

	#include <list>
	#include <map>
	#include <set>
	#include <string>

	#include <base/basictypes.h>
	#include <base/bind.h>
	#include <base/lazy_instance.h>
	#include <base/memory/scoped_ptr.h>
	#include <gtest/gtest_prod.h> // for FRIEND_TEST

	#include "shill/generic_netlink_message.h"
	#include "shill/io_handler.h"
	#include "shill/netlink_message.h"
	#include "shill/shill_time.h"

	struct nlmsghdr;

	namespace shill {

	class ControlNetlinkMessage;
	class Error;
	class EventDispatcher;
	struct InputData;
	class NetlinkSocket;
	class Nl80211Message;

	// NetlinkManager is a singleton that coordinates sending netlink messages to,
	// and receiving netlink messages from, the kernel. The first use of this is
	// to communicate between user-space and the cfg80211 module that manages wifi
	// drivers. Bring NetlinkManager up as follows:
	// NetlinkManager *netlink_manager_ = NetlinkManager::GetInstance();
	// EventDispatcher dispatcher_;
	// netlink_manager_->Init(); // Initialize the socket.
	// // Get message types for all dynamic message types.
	// Nl80211Message::SetMessageType(
	// netlink_manager_->GetFamily(Nl80211Message::kMessageTypeString,
	// Bind(&Nl80211Message::CreateMessage)));
	// netlink_manager_->Start(&dispatcher_);
	class NetlinkManager {
	public:
	enum AuxilliaryMessageType {
	kErrorFromKernel,
	kUnexpectedResponseType,
	kTimeoutWaitingForResponse
	};
	typedef base::Callback<void(const NetlinkMessage &)> NetlinkMessageHandler;
	typedef base::Callback<void(const ControlNetlinkMessage &)>
	ControlNetlinkMessageHandler;
	typedef base::Callback<void(const Nl80211Message &)> Nl80211MessageHandler;
	// NetlinkAuxilliaryMessageHandler handles netlink error messages, things
	// like the DoneMessage at the end of a multi-part message, and any errors
	// discovered by \|NetlinkManager\| (which are passed as NULL pointers because
	// there is no way to reserve a part of the ErrorAckMessage space for
	// non-netlink errors).
	typedef base::Callback<void(AuxilliaryMessageType type,
	const NetlinkMessage *)>
	NetlinkAuxilliaryMessageHandler;

	// ResponseHandlers provide a polymorphic context for the base::Callback
	// message handlers so that handlers for different types of messages can be
	// kept in the same container (namely, \|message_handlers_\|).
	class NetlinkResponseHandler :
	public base::RefCounted<NetlinkResponseHandler> {
	public:
	explicit NetlinkResponseHandler(
	const NetlinkAuxilliaryMessageHandler &error_handler);
	virtual ~NetlinkResponseHandler();
	// Calls wrapper-type-specific callback for \|netlink_message\|. Returns
	// false if \|netlink_message\| is not the correct type. Calls callback
	// (which is declared in the private area of derived classes) with
	// properly cast version of \|netlink_message\|.
	virtual bool HandleMessage(const NetlinkMessage &netlink_message) const = 0;
	void HandleError(AuxilliaryMessageType type,
	const NetlinkMessage *netlink_message) const;
	void set_delete_after(const timeval &time) { delete_after_ = time; }
	const struct timeval &delete_after() const { return delete_after_; }

	protected:
	NetlinkResponseHandler();

	private:
	NetlinkAuxilliaryMessageHandler error_handler_;
	struct timeval delete_after_;

	DISALLOW_COPY_AND_ASSIGN(NetlinkResponseHandler);
	};

	// Encapsulates all the different things we know about a specific message
	// type like its name, and its id.
	struct MessageType {
	MessageType();

	uint16_t family_id;

	// Multicast groups supported by the family. The string and mapping to
	// a group id are extracted from the CTRL_CMD_NEWFAMILY message.
	std::map<std::string, uint32_t> groups;
	};

	// Various kinds of events to which we can subscribe (and receive) from
	// cfg80211.
	static const char kEventTypeConfig[];
	static const char kEventTypeScan[];
	static const char kEventTypeRegulatory[];
	static const char kEventTypeMlme[];

	// NetlinkManager is a singleton and this is the way to access it.
	static NetlinkManager *GetInstance();

	// Performs non-trivial object initialization of the NetlinkManager singleton.
	bool Init();

	// Passes the job of waiting for, and the subsequent reading from, the
	// netlink socket to \|dispatcher\|.
	void Start(EventDispatcher *dispatcher);

	// The following methods deal with the network family table. This table
	// associates netlink family names with family_ids (also called message
	// types). Note that some families have static ids assigned to them but
	// others require the kernel to resolve a string describing the family into
	// a dynamically-determined id.

	// Returns the family_id (message type) associated with \|family_name\|,
	// calling the kernel if needed. Returns
	// \|NetlinkMessage::kIllegalMessageType\| if the message type could not be
	// determined. May block so \|GetFamily\| should be called before entering the
	// event loop.
	virtual uint16_t GetFamily(const std::string &family_name,
	const NetlinkMessageFactory::FactoryMethod &message_factory);

	// Install a NetlinkManager NetlinkMessageHandler. The handler is a
	// user-supplied object to be called by the system for user-bound messages
	// that do not have a corresponding messaage-specific callback.
	// \|AddBroadcastHandler\| should be called before \|SubscribeToEvents\| since
	// the result of this call are used for that call.
	virtual bool AddBroadcastHandler(
	const NetlinkMessageHandler &message_handler);

	// Uninstall a NetlinkMessage Handler.
	virtual bool RemoveBroadcastHandler(
	const NetlinkMessageHandler &message_handler);

	// Determines whether a handler is in the list of broadcast handlers.
	bool FindBroadcastHandler(const NetlinkMessageHandler &message_handler) const;

	// Uninstall all broadcast netlink message handlers.
	void ClearBroadcastHandlers();

	// Sends a netlink message to the kernel using the NetlinkManager socket after
	// installing a handler to deal with the kernel's response to the message.
	// TODO(wdg): Eventually, this should also include a timeout and a callback
	// to call in case of timeout.
	virtual bool SendControlMessage(
	ControlNetlinkMessage *message,
	const ControlNetlinkMessageHandler &message_handler,
	const NetlinkAuxilliaryMessageHandler &error_handler);
	virtual bool SendNl80211Message(
	Nl80211Message *message,
	const Nl80211MessageHandler &message_handler,
	const NetlinkAuxilliaryMessageHandler &error_handler);

	// Generic erroneous message handler everyone can use.
	static void OnNetlinkMessageError(AuxilliaryMessageType type,
	const NetlinkMessage *raw_message);

	// Uninstall the handler for a specific netlink message.
	bool RemoveMessageHandler(const NetlinkMessage &message);

	// Sign-up to receive and log multicast events of a specific type (once wifi
	// is up).
	virtual bool SubscribeToEvents(const std::string &family,
	const std::string &group);

	// Gets the next sequence number for a NetlinkMessage to be sent over
	// NetlinkManager's netlink socket.
	uint32_t GetSequenceNumber();

	protected:
	friend struct base::DefaultLazyInstanceTraits<NetlinkManager>;

	explicit NetlinkManager();

	private:
	friend class NetlinkManagerTest;
	friend class NetlinkMessageTest;
	friend class ShillDaemonTest;
	FRIEND_TEST(NetlinkManagerTest, AddLinkTest);
	FRIEND_TEST(NetlinkManagerTest, BroadcastHandler);
	FRIEND_TEST(NetlinkManagerTest, GetFamilyOneInterstitialMessage);
	FRIEND_TEST(NetlinkManagerTest, GetFamilyTimeout);
	FRIEND_TEST(NetlinkManagerTest, MessageHandler);
	FRIEND_TEST(NetlinkManagerTest, MultipartMessageHandler);
	FRIEND_TEST(NetlinkManagerTest, OnInvalidRawNlMessageReceived);
	FRIEND_TEST(NetlinkManagerTest, TimeoutResponseHandlers);
	FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_ASSOCIATE);
	FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_AUTHENTICATE);
	FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_CONNECT);
	FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_DEAUTHENTICATE);
	FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_DISASSOCIATE);
	FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_DISCONNECT);
	FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_NEW_SCAN_RESULTS);
	FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_NEW_STATION);
	FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_NOTIFY_CQM);
	FRIEND_TEST(NetlinkMessageTest, Parse_NL80211_CMD_TRIGGER_SCAN);

	typedef scoped_refptr<NetlinkResponseHandler> NetlinkResponseHandlerRefPtr;

	// These need to be member variables, even though they're only used once in
	// the code, since they're needed for unittests.
	static const long kMaximumNewFamilyWaitSeconds; // NOLINT
	static const long kMaximumNewFamilyWaitMicroSeconds; // NOLINT
	static const long kResponseTimeoutSeconds; // NOLINT
	static const long kResponseTimeoutMicroSeconds; // NOLINT

	// Returns the file descriptor of socket used to read wifi data.
	int file_descriptor() const;

	// EventDispatcher calls this when data is available on our socket. This
	// method passes each, individual, message in the input to
	// \|OnNlMessageReceived\|. Each part of a multipart message gets handled,
	// individually, by this method.
	void OnRawNlMessageReceived(InputData *data);

	// This method processes a message from \|OnRawNlMessageReceived\| by passing
	// the message to either the NetlinkManager callback that matches the sequence
	// number of the message or, if there isn't one, to all of the default
	// NetlinkManager callbacks in \|broadcast_handlers_\|.
	void OnNlMessageReceived(nlmsghdr *msg);

	// Called by InputHandler on exceptional events.
	void OnReadError(const Error &error);

	// Just for tests, this method turns off WiFi and clears the subscribed
	// events list. If \|full\| is true, also clears state set by Init.
	void Reset(bool full);

	// Handles a CTRL_CMD_NEWFAMILY message from the kernel.
	void OnNewFamilyMessage(const ControlNetlinkMessage &message);

	// Sends a netlink message to the kernel using the NetlinkManager socket after
	// installing a handler to deal with the kernel's response to the message.
	// Adds a serial number to \|message\| before it is sent.
	bool SendMessageInternal(
	NetlinkMessage *message,
	NetlinkResponseHandler *message_wrapper); // Passes ownership.

	// NetlinkManager Handlers, OnRawNlMessageReceived invokes each of these
	// User-supplied callback object when _it_ gets called to read libnl data.
	std::list<NetlinkMessageHandler> broadcast_handlers_;

	// Message-specific callbacks, mapped by message ID.
	std::map<uint32_t, NetlinkResponseHandlerRefPtr> message_handlers_;

	// Hooks needed to be called by shill's EventDispatcher.
	EventDispatcher *dispatcher_;
	base::WeakPtrFactory<NetlinkManager> weak_ptr_factory_;
	base::Callback<void(InputData *)> dispatcher_callback_;
	scoped_ptr<IOHandler> dispatcher_handler_;

	NetlinkSocket *sock_;
	std::map<const std::string, MessageType> message_types_;
	NetlinkMessageFactory message_factory_;
	Time *time_;

	DISALLOW_COPY_AND_ASSIGN(NetlinkManager);
	};

	} // namespace shill

	#endif // SHILL_NETLINK_MANAGER_H_