device/nfc/nfc_adapter.h - platform/external/chromium_org - Git at Google

 // Copyright 2013 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 DEVICE_NFC_NFC_ADAPTER_H_
 #define DEVICE_NFC_NFC_ADAPTER_H_

 #include <map>
 #include <string>
 #include <vector>

 #include "base/callback.h"
 #include "base/memory/ref_counted.h"

 namespace device {

 class NfcPeer;
 class NfcTag;

 // NfcAdapter represents a local NFC adapter which may be used to interact with
 // NFC tags and remote NFC adapters on platforms that support NFC. Through
 // instances of this class, users can obtain important information such as if
 // and/or when an adapter is present, supported NFC technologies, and the
 // adapter's power and polling state. NfcAdapter instances can be used to power
 // up/down the NFC adapter and its Observer interface allows users to get
 // notified when new adapters are added/removed and when remote NFC tags and
 // devices were detected or lost.
 //
 // A system can contain more than one NFC adapter (e.g. external USB adapters)
 // but Chrome will have only one NfcAdapter instance. This instance will do
 // its best to represent all underlying adapters but will only allow
 // interacting with only one at a given time. If the currently represented
 // adapter is removed from the system, the NfcAdapter instance will update to
 // reflect the information from the next available adapter.
 class NfcAdapter : public base::RefCounted<NfcAdapter> {
  public:
   // Interface for observing changes from NFC adapters.
   class Observer {
    public:
     virtual ~Observer() {}

     // Called when the presence of the adapter |adapter| changes. When |present|
     // is true, this indicates that the adapter has now become present, while a
     // value of false indicates that the adapter is no longer available on the
     // current system.
     virtual void AdapterPresentChanged(NfcAdapter* adapter, bool present) {}

     // Called when the radio power state of the adapter |adapter| changes. If
     // |powered| is true, the adapter radio is turned on, otherwise it's turned
     // off.
     virtual void AdapterPoweredChanged(NfcAdapter* adapter, bool powered) {}

     // Called when the "polling" state of the adapter |adapter| changes. If
     // |polling| is true, the adapter is currently polling for remote tags and
     // devices. If false, the adapter isn't polling, either because a poll loop
     // was never started or because a connection with a tag or peer has been
     // established.
     virtual void AdapterPollingChanged(NfcAdapter* adapter, bool polling) {}

     // Called when an NFC tag |tag| has been found by the adapter |adapter|.
     // The observer can use this method to take further action on the tag object
     // |tag|, such as reading its records or writing to it. While |tag| will be
     // valid within the context of this call, its life-time cannot be guaranteed
     // once this call returns, as the object may get destroyed if the connection
     // with the tag is lost. Instead of caching the pointer directly, observers
     // should store the tag's assigned unique identifier instead, which can be
     // used to obtain a pointer to the tag, as long as it exists.
     virtual void TagFound(NfcAdapter* adapter, NfcTag* tag) {}

     // Called when the NFC tag |tag| is no longer known by the adapter
     // |adapter|. |tag| should not be cached.
     virtual void TagLost(NfcAdapter* adapter, NfcTag* tag) {}

     // Called when a remote NFC adapter |peer| has been detected, which is
     // available for peer-to-peer communication over NFC. The observer can use
     // this method to take further action on |peer| such as reading its records
     // or pushing NDEFs to it. While |peer| will be valid within the context of
     // this call, its life-time cannot be guaranteed once this call returns, as
     // the object may get destroyed if the connection with the peer is lost.
     // Instead of caching the pointer directly, observers should store the
     // peer's assigned unique identifier instead, which can be used to obtain a
     // pointer to the peer, as long as it exists.
     virtual void PeerFound(NfcAdapter* adaper, NfcPeer* peer) {}

     // Called when the remote NFC adapter |peer| is no longer known by the
     // adapter |adapter|. |peer| should not be cached.
     virtual void PeerLost(NfcAdapter* adapter, NfcPeer* peer) {}
   };

   // The ErrorCallback is used by methods to asynchronously report errors.
   typedef base::Closure ErrorCallback;

   // Typedefs for lists of NFC peer and NFC tag objects.
   typedef std::vector<NfcPeer*> PeerList;
   typedef std::vector<NfcTag*> TagList;

   // Adds and removes observers for events on this NFC adapter. If monitoring
   // multiple adapters, check the |adapter| parameter of observer methods to
   // determine which adapter is issuing the event.
   virtual void AddObserver(Observer* observer) = 0;
   virtual void RemoveObserver(Observer* observer) = 0;

   // Indicates whether an underlying adapter is actually present on the
   // system. An adapter that was previously present can become no longer
   // present, for example, if all physical adapters that can back it up were
   // removed from the system.
   virtual bool IsPresent() const = 0;

   // Indicates whether the adapter radio is powered.
   virtual bool IsPowered() const = 0;

   // Indicates whether the adapter is polling for remote NFC tags and peers.
   virtual bool IsPolling() const = 0;

   // Indicates whether the NfcAdapter instance is initialized and ready to use.
   virtual bool IsInitialized() const = 0;

   // Requests a change to the adapter radio power. Setting |powered| to true
   // will turn on the radio and false will turn it off. On success, |callback|
   // will be invoked. On failure, |error_callback| will be invoked, which can
   // happen if the radio power is already in the requested state, or if the
   // underlying adapter is not present.
   virtual void SetPowered(bool powered,
                           const base::Closure& callback,
                           const ErrorCallback& error_callback) = 0;

   // Requests the adapter to begin its poll loop to start looking for remote
   // NFC tags and peers. On success, |callback| will be invoked. On failure,
   // |error_callback| will be invoked. This method can fail for various
   // reasons, including:
   //    - The adapter radio is not powered.
   //    - The adapter is already polling.
   //    - The adapter is busy; it has already established a connection to a
   //      remote tag or peer.
   // Bear in mind that this method may be called by multiple users of the same
   // adapter.
   virtual void StartPolling(const base::Closure& callback,
                             const ErrorCallback& error_callback) = 0;

   // Requests the adapter to stop its current poll loop. On success, |callback|
   // will be invoked. On failure, |error_callback| will be invoked. This method
   // can fail if the adapter is not polling when this method was called. Bear
   // in mind that this method may be called by multiple users of the same
   // adapter and polling may not actually stop if other callers have called
   // StartPolling() in the mean time.
   virtual void StopPolling(const base::Closure& callback,
                            const ErrorCallback& error_callback) = 0;

   // Returns a list containing all known peers in |peer_list|. If |peer_list|
   // was non-empty at the time of the call, it will be cleared. The contents of
   // |peer_list| at the end of this call are owned by the adapter.
   virtual void GetPeers(PeerList* peer_list) const;

   // Returns a list containing all known tags in |tag_list|. If |tag_list| was
   // non-empty at the time of the call, it will be cleared. The contents of
   // |tag_list| at the end of this call are owned by the adapter.
   virtual void GetTags(TagList* tag_list) const;

   // Returns a pointer to the peer with the given identifier |identifier| or
   // NULL if no such peer is known. If a non-NULL pointer is returned, the
   // instance that it points to is owned by this adapter.
   virtual NfcPeer* GetPeer(const std::string& identifier) const;

   // Returns a pointer to the tag with the given identifier |identifier| or
   // NULL if no such tag is known. If a non-NULL pointer is returned, the
   // instance that it points to is owned by this adapter.
   virtual NfcTag* GetTag(const std::string& identifier) const;

  protected:
   friend class base::RefCounted<NfcAdapter>;

   // The default constructor does nothing. The destructor deletes all known
   // NfcPeer and NfcTag instances.
   NfcAdapter();
   virtual ~NfcAdapter();

   // Peers and tags that have been found. The key is the unique identifier
   // assigned to the peer or tag and the value is a pointer to the
   // corresponding NfcPeer or NfcTag object, whose lifetime is managed by the
   // adapter instance.
   typedef std::map<const std::string, NfcPeer*> PeersMap;
   typedef std::map<const std::string, NfcTag*> TagsMap;

   // Set the given tag or peer for |identifier|. If a tag or peer for
   // |identifier| already exists, these methods won't do anything.
   void SetTag(const std::string& identifier, NfcTag* tag);
   void SetPeer(const std::string& identifier, NfcPeer* peer);

   // Removes the tag or peer for |identifier| and returns the removed object.
   // Returns NULL, if no tag or peer for |identifier| was found.
   NfcTag* RemoveTag(const std::string& identifier);
   NfcPeer* RemovePeer(const std::string& identifier);

   // Clear the peer and tag maps. These methods won't delete the tag and peer
   // objects, however after the call to these methods, the peers and tags won't
   // be returned via calls to GetPeers and GetTags.
   void ClearTags();
   void ClearPeers();

  private:
   // Peers and tags that are managed by this adapter.
   PeersMap peers_;
   TagsMap tags_;

   DISALLOW_COPY_AND_ASSIGN(NfcAdapter);
 };

 }  // namespace device

 #endif  // DEVICE_NFC_NFC_ADAPTER_H_
	// Copyright 2013 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 DEVICE_NFC_NFC_ADAPTER_H_
	#define DEVICE_NFC_NFC_ADAPTER_H_

	#include <map>
	#include <string>
	#include <vector>

	#include "base/callback.h"
	#include "base/memory/ref_counted.h"

	namespace device {

	class NfcPeer;
	class NfcTag;

	// NfcAdapter represents a local NFC adapter which may be used to interact with
	// NFC tags and remote NFC adapters on platforms that support NFC. Through
	// instances of this class, users can obtain important information such as if
	// and/or when an adapter is present, supported NFC technologies, and the
	// adapter's power and polling state. NfcAdapter instances can be used to power
	// up/down the NFC adapter and its Observer interface allows users to get
	// notified when new adapters are added/removed and when remote NFC tags and
	// devices were detected or lost.
	//
	// A system can contain more than one NFC adapter (e.g. external USB adapters)
	// but Chrome will have only one NfcAdapter instance. This instance will do
	// its best to represent all underlying adapters but will only allow
	// interacting with only one at a given time. If the currently represented
	// adapter is removed from the system, the NfcAdapter instance will update to
	// reflect the information from the next available adapter.
	class NfcAdapter : public base::RefCounted<NfcAdapter> {
	public:
	// Interface for observing changes from NFC adapters.
	class Observer {
	public:
	virtual ~Observer() {}

	// Called when the presence of the adapter \|adapter\| changes. When \|present\|
	// is true, this indicates that the adapter has now become present, while a
	// value of false indicates that the adapter is no longer available on the
	// current system.
	virtual void AdapterPresentChanged(NfcAdapter* adapter, bool present) {}

	// Called when the radio power state of the adapter \|adapter\| changes. If
	// \|powered\| is true, the adapter radio is turned on, otherwise it's turned
	// off.
	virtual void AdapterPoweredChanged(NfcAdapter* adapter, bool powered) {}

	// Called when the "polling" state of the adapter \|adapter\| changes. If
	// \|polling\| is true, the adapter is currently polling for remote tags and
	// devices. If false, the adapter isn't polling, either because a poll loop
	// was never started or because a connection with a tag or peer has been
	// established.
	virtual void AdapterPollingChanged(NfcAdapter* adapter, bool polling) {}

	// Called when an NFC tag \|tag\| has been found by the adapter \|adapter\|.
	// The observer can use this method to take further action on the tag object
	// \|tag\|, such as reading its records or writing to it. While \|tag\| will be
	// valid within the context of this call, its life-time cannot be guaranteed
	// once this call returns, as the object may get destroyed if the connection
	// with the tag is lost. Instead of caching the pointer directly, observers
	// should store the tag's assigned unique identifier instead, which can be
	// used to obtain a pointer to the tag, as long as it exists.
	virtual void TagFound(NfcAdapter* adapter, NfcTag* tag) {}

	// Called when the NFC tag \|tag\| is no longer known by the adapter
	// \|adapter\|. \|tag\| should not be cached.
	virtual void TagLost(NfcAdapter* adapter, NfcTag* tag) {}

	// Called when a remote NFC adapter \|peer\| has been detected, which is
	// available for peer-to-peer communication over NFC. The observer can use
	// this method to take further action on \|peer\| such as reading its records
	// or pushing NDEFs to it. While \|peer\| will be valid within the context of
	// this call, its life-time cannot be guaranteed once this call returns, as
	// the object may get destroyed if the connection with the peer is lost.
	// Instead of caching the pointer directly, observers should store the
	// peer's assigned unique identifier instead, which can be used to obtain a
	// pointer to the peer, as long as it exists.
	virtual void PeerFound(NfcAdapter* adaper, NfcPeer* peer) {}

	// Called when the remote NFC adapter \|peer\| is no longer known by the
	// adapter \|adapter\|. \|peer\| should not be cached.
	virtual void PeerLost(NfcAdapter* adapter, NfcPeer* peer) {}
	};

	// The ErrorCallback is used by methods to asynchronously report errors.
	typedef base::Closure ErrorCallback;

	// Typedefs for lists of NFC peer and NFC tag objects.
	typedef std::vector<NfcPeer*> PeerList;
	typedef std::vector<NfcTag*> TagList;

	// Adds and removes observers for events on this NFC adapter. If monitoring
	// multiple adapters, check the \|adapter\| parameter of observer methods to
	// determine which adapter is issuing the event.
	virtual void AddObserver(Observer* observer) = 0;
	virtual void RemoveObserver(Observer* observer) = 0;

	// Indicates whether an underlying adapter is actually present on the
	// system. An adapter that was previously present can become no longer
	// present, for example, if all physical adapters that can back it up were
	// removed from the system.
	virtual bool IsPresent() const = 0;

	// Indicates whether the adapter radio is powered.
	virtual bool IsPowered() const = 0;

	// Indicates whether the adapter is polling for remote NFC tags and peers.
	virtual bool IsPolling() const = 0;

	// Indicates whether the NfcAdapter instance is initialized and ready to use.
	virtual bool IsInitialized() const = 0;

	// Requests a change to the adapter radio power. Setting \|powered\| to true
	// will turn on the radio and false will turn it off. On success, \|callback\|
	// will be invoked. On failure, \|error_callback\| will be invoked, which can
	// happen if the radio power is already in the requested state, or if the
	// underlying adapter is not present.
	virtual void SetPowered(bool powered,
	const base::Closure& callback,
	const ErrorCallback& error_callback) = 0;

	// Requests the adapter to begin its poll loop to start looking for remote
	// NFC tags and peers. On success, \|callback\| will be invoked. On failure,
	// \|error_callback\| will be invoked. This method can fail for various
	// reasons, including:
	// - The adapter radio is not powered.
	// - The adapter is already polling.
	// - The adapter is busy; it has already established a connection to a
	// remote tag or peer.
	// Bear in mind that this method may be called by multiple users of the same
	// adapter.
	virtual void StartPolling(const base::Closure& callback,
	const ErrorCallback& error_callback) = 0;

	// Requests the adapter to stop its current poll loop. On success, \|callback\|
	// will be invoked. On failure, \|error_callback\| will be invoked. This method
	// can fail if the adapter is not polling when this method was called. Bear
	// in mind that this method may be called by multiple users of the same
	// adapter and polling may not actually stop if other callers have called
	// StartPolling() in the mean time.
	virtual void StopPolling(const base::Closure& callback,
	const ErrorCallback& error_callback) = 0;

	// Returns a list containing all known peers in \|peer_list\|. If \|peer_list\|
	// was non-empty at the time of the call, it will be cleared. The contents of
	// \|peer_list\| at the end of this call are owned by the adapter.
	virtual void GetPeers(PeerList* peer_list) const;

	// Returns a list containing all known tags in \|tag_list\|. If \|tag_list\| was
	// non-empty at the time of the call, it will be cleared. The contents of
	// \|tag_list\| at the end of this call are owned by the adapter.
	virtual void GetTags(TagList* tag_list) const;

	// Returns a pointer to the peer with the given identifier \|identifier\| or
	// NULL if no such peer is known. If a non-NULL pointer is returned, the
	// instance that it points to is owned by this adapter.
	virtual NfcPeer* GetPeer(const std::string& identifier) const;

	// Returns a pointer to the tag with the given identifier \|identifier\| or
	// NULL if no such tag is known. If a non-NULL pointer is returned, the
	// instance that it points to is owned by this adapter.
	virtual NfcTag* GetTag(const std::string& identifier) const;

	protected:
	friend class base::RefCounted<NfcAdapter>;

	// The default constructor does nothing. The destructor deletes all known
	// NfcPeer and NfcTag instances.
	NfcAdapter();
	virtual ~NfcAdapter();

	// Peers and tags that have been found. The key is the unique identifier
	// assigned to the peer or tag and the value is a pointer to the
	// corresponding NfcPeer or NfcTag object, whose lifetime is managed by the
	// adapter instance.
	typedef std::map<const std::string, NfcPeer*> PeersMap;
	typedef std::map<const std::string, NfcTag*> TagsMap;

	// Set the given tag or peer for \|identifier\|. If a tag or peer for
	// \|identifier\| already exists, these methods won't do anything.
	void SetTag(const std::string& identifier, NfcTag* tag);
	void SetPeer(const std::string& identifier, NfcPeer* peer);

	// Removes the tag or peer for \|identifier\| and returns the removed object.
	// Returns NULL, if no tag or peer for \|identifier\| was found.
	NfcTag* RemoveTag(const std::string& identifier);
	NfcPeer* RemovePeer(const std::string& identifier);

	// Clear the peer and tag maps. These methods won't delete the tag and peer
	// objects, however after the call to these methods, the peers and tags won't
	// be returned via calls to GetPeers and GetTags.
	void ClearTags();
	void ClearPeers();

	private:
	// Peers and tags that are managed by this adapter.
	PeersMap peers_;
	TagsMap tags_;

	DISALLOW_COPY_AND_ASSIGN(NfcAdapter);
	};

	} // namespace device

	#endif // DEVICE_NFC_NFC_ADAPTER_H_