Implement OCSP stapling in Windows BoringSSL port.
[chromium-blink-merge.git] / device / nfc / nfc_tag.h
blob039fc78133df437eb462aa25fc3b44fa68c73849
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_H_
6 #define DEVICE_NFC_NFC_TAG_H_
8 #include "device/nfc/nfc_tag_technology.h"
10 namespace device {
12 // NfcTag represents a remote NFC tag. An NFC tag is a passive NFC device,
13 // powered by the NFC field of the local adapter while it is in range. Tags
14 // can come in many forms, such as stickers, key fobs, or even embedded in a
15 // more sofisticated device.
17 // Tags can have a wide range of capabilities. Simple tags just offer
18 // read/write semantics, and contain some one time programmable areas to make
19 // read-only. More complex tags offer math operations and per-sector access
20 // control and authentication. The most sophisticated tags contain operating
21 // environments allowing complex interactions with the code executing on the
22 // tag.
24 // The NfcTag class facilitates possible interactions with a tag. The most
25 // common usage of a tag is to exchange NDEF messages, but different kinds of
26 // I/O can be performed using the NfcTagTechnology classes.
27 class NfcTag {
28 public:
29 // NFC tag types.
30 enum TagType {
31 kTagType1,
32 kTagType2,
33 kTagType3,
34 kTagType4,
35 kTagTypeUnknown,
38 // NFC protocols that a tag can support. A tag will usually support only one
39 // of these.
40 enum Protocol {
41 kProtocolFelica,
42 kProtocolIsoDep,
43 kProtocolJewel,
44 kProtocolMifare,
45 kProtocolNfcDep,
46 kProtocolUnknown
49 // Interface for observing changes from NFC tags.
50 class Observer {
51 public:
52 virtual ~Observer() {}
54 // Called when the tag type has been determined.
55 virtual void TagTypeChanged(NfcTag* tag, TagType type) {}
57 // Called when the write access to the tag has been determined or changed.
58 virtual void TagWritePermissionChanged(NfcTag* tag, bool read_only) {}
60 // Called when the underlying NFC protocol has been determined.
61 virtual void TagSupportedProtocolChanged(NfcTag* tag, Protocol protocol) {}
63 // Called when all initial values of the tag properties have been received
64 // from the remote tag and |tag| is ready to use.
65 virtual void TagReady(NfcTag* tag) {}
68 virtual ~NfcTag();
70 // Adds and removes observers for events on this NFC tag. If monitoring
71 // multiple tags, check the |tag| parameter of observer methods to determine
72 // which tag is issuing the event.
73 virtual void AddObserver(Observer* observer) = 0;
74 virtual void RemoveObserver(Observer* observer) = 0;
76 // Returns the unique identifier assigned to this tag.
77 virtual std::string GetIdentifier() const = 0;
79 // Returns the current tag's NFC forum specified "type".
80 virtual TagType GetType() const = 0;
82 // Returns true, if this tag is read-only and cannot be written to.
83 virtual bool IsReadOnly() const = 0;
85 // Returns the current tag's supported NFC protocol.
86 virtual Protocol GetSupportedProtocol() const = 0;
88 // Returns a bitmask of the tag I/O technologies supported by this tag.
89 virtual NfcTagTechnology::TechnologyTypeMask
90 GetSupportedTechnologies() const = 0;
92 // Returns true, if all tag properties have been received from the remote tag
93 // and this object is ready to use.
94 virtual bool IsReady() const = 0;
96 // Returns a pointer to the NDEF technology object that allows I/O on NDEF
97 // records. If NDEF is not supported by this tag, operations that are
98 // performed on the returned instance may not succeed. Users can determine
99 // support by calling NfcTagTechnology::IsSupportedByTag. The returned
100 // instance is owned by this tag.
101 virtual NfcNdefTagTechnology* GetNdefTagTechnology() = 0;
103 protected:
104 NfcTag();
106 private:
107 DISALLOW_COPY_AND_ASSIGN(NfcTag);
110 } // namespace device
112 #endif // DEVICE_NFC_NFC_TAG_H_