Retrieve access token, --help print, and auth_code functionality implemented.
[chromium-blink-merge.git] / device / nfc / nfc_tag_technology.h
blob8ada39b01bee45000eeec39f4666705adbdfbf67
1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef DEVICE_NFC_NFC_TAG_TECHNOLOGY_H_
6 #define DEVICE_NFC_NFC_TAG_TECHNOLOGY_H_
8 #include "base/callback.h"
9 #include "device/nfc/nfc_ndef_record.h"
11 namespace device {
13 class NfcTag;
15 // NfcTagTechnology represents an NFC technology that allows a certain type of
16 // I/O operation on an NFC tag. NFC tags can support a wide array of protocols.
17 // The NfcTagTechnology hierarchy allows both raw and high-level I/O operations
18 // on NFC tags. Do not create instances of these objects directly. Instead,
19 // obtain a handle directly from an NfcTag object.
20 class NfcTagTechnology {
21 public:
22 // The various I/O technologies that an NFC tag can support.
23 enum TechnologyType {
24 kTechnologyTypeNfcA = 1 << 0,
25 kTechnologyTypeNfcB = 1 << 1,
26 kTechnologyTypeNfcF = 1 << 2,
27 kTechnologyTypeNfcV = 1 << 3,
28 kTechnologyTypeIsoDep = 1 << 4,
29 kTechnologyTypeNdef = 1 << 5
31 typedef uint32 TechnologyTypeMask;
33 virtual ~NfcTagTechnology();
35 // Returns true, if the underlying tag supports the NFC tag technology that
36 // this instance represents.
37 virtual bool IsSupportedByTag() const = 0;
39 // Returns a pointer to the associated NfcTag instance.
40 NfcTag* tag() const { return tag_; }
42 protected:
43 // Constructs a technology instance, where |tag| is the NFC tag that this
44 // instance will operate on. Clients aren't allowed to instantiate classes
45 // directly. They should use the static "Create" methods defined in each
46 // subclass to obtain the platform specific implementation.
47 explicit NfcTagTechnology(NfcTag* tag);
49 private:
50 NfcTagTechnology();
52 // The underlying NfcTag instance that data exchange operations through this
53 // instance are performed on.
54 NfcTag* tag_;
56 DISALLOW_COPY_AND_ASSIGN(NfcTagTechnology);
59 // NfcNdefTagTechnology allows reading and writing NDEF messages to a tag. This
60 // is the most commonly used data exchange format in NFC. NDEF is a data
61 // exchange format and is the top most layer of the protocol stack. NDEF itself
62 // is not a protocol; data is typically formatted in a way that is defined by
63 // the NDEF format and then transmitted via one of the underlying protocols.
64 // Hence all tags are capable of NDEF data exchange, however, all tags don't
65 // necessarily use NDEF to operate (e.g. a tag may contain a smart chip that
66 // does data processing on ISO-DEP based APDUs and ignores NDEF). This is why,
67 // even if a tag inherently supports NDEF, operations done via this class may
68 // not necessarily succeed.
69 class NfcNdefTagTechnology : public NfcTagTechnology {
70 public:
71 // The ErrorCallback is used by methods to asynchronously report errors.
72 typedef base::Closure ErrorCallback;
74 ~NfcNdefTagTechnology() override;
76 // Interface for observing changes from NFC tags related to NDEF records.
77 class Observer {
78 public:
79 virtual ~Observer() {}
81 // This method will be called when an NDEF record |record|, stored on the
82 // NFC tag |tag| has been read. This method will be called multiple times
83 // as records are read from the tag or when the tag's records change (e.g.
84 // when the tag has been rewritten). All received records can be accessed by
85 // calling GetNdefMessage().
86 virtual void RecordReceived(NfcTag* tag, const NfcNdefRecord* record) {}
89 // Adds and removes observers for events on this NFC tag. If monitoring
90 // multiple tags, check the |tag| parameter of observer methods to determine
91 // which tag is issuing the event.
92 virtual void AddObserver(Observer* observer) = 0;
93 virtual void RemoveObserver(Observer* observer) = 0;
95 // NfcTagTechnology override.
96 bool IsSupportedByTag() const override;
98 // Returns all NDEF records that were received from the tag in the form of an
99 // NDEF message. If the returned NDEF message contains no records, this only
100 // means that no records have yet been received from the tag. Users should
101 // use this method in conjunction with the NfcTag::Observer::RecordsReceived
102 // method to be notified when the records are ready.
103 virtual const NfcNdefMessage& GetNdefMessage() const = 0;
105 // Writes the given NDEF message to the underlying tag, overwriting any
106 // existing NDEF message on it. On success, |callback| will be invoked. On
107 // failure, |error_callback| will be invoked. This method can fail, if the
108 // underlying tag does not support NDEF as a technology.
109 virtual void WriteNdef(const NfcNdefMessage& message,
110 const base::Closure& callback,
111 const ErrorCallback& error_callback) = 0;
113 protected:
114 // Constructs a technology instance, where |tag| is the NFC tag that this
115 // instance will operate on.
116 explicit NfcNdefTagTechnology(NfcTag* tag);
118 DISALLOW_COPY_AND_ASSIGN(NfcNdefTagTechnology);
121 } // namespace device
123 #endif // DEVICE_NFC_NFC_TAG_TECHNOLOGY_H_