Winsoft NFC Library for Android v6.4 for Delphi/C++ Builder 10 - 10.4 Full Source
Winsoft NFC Library for Android v6.4 for Delphi/C++ Builder 10 - 10.4 Full Source
Delphi and C++ Builder NFC library for Android.
FEATURES
Uses Android NFC API
Supports reading, writing and formatting NFC tags
Supports Android Beam data transfer
Supports foreground dispatch and reader mode
Supports host-based card emulation
Supports ISO-DEP, NDEF, NFC-A, NFC-B, NFC-F, NFC-V, MIFARE Classic and MIFARE Ultralight tags
Available for Delphi/C++ Builder 10 - 10.4
Source code included in registered version
Royalty free distribution in applications
Library API
type
TNfcMode = (moReader, moForegroundDispatch, moBeam);
TReaderFlag = (reNfcA, reNfcB, reNfcF, reNfcV, reNfcBarcode, reNoNdefCheck, reNoSound);
TReaderFlags = set of TReaderFlag;
TBeamCompleteEvent = procedure(Sender: TObject) of object;
TTagDiscoveredEvent = procedure(Sender: TObject; Tag: TNfcTag) of object;
ENfcError = class(Exception);
TNfc = class
constructor Create(Mode: TNfcMode = moReader);
function Beam(NdefMessage: TNdefMessage): Boolean;
function Beam(const Uri: Jnet_Uri): Boolean;
function Beam(const Uris: TArray<Jnet_Uri>): Boolean;
function Beam(const FileName: string): Boolean;
function Beam(const FileNames: TArray<string>): Boolean;
procedure Disable;
procedure Enable(Flags: TReaderFlags = [reNfcA, reNfcB, reNfcF, reNfcV, reNfcBarcode]; PresenceCheckDelay: Integer = -1);
procedure ShowBeamSettings;
procedure ShowSettings;
property Adapter: JNfcAdapter read;
property AdapterEnabled: Boolean read;
property BeamEnabled: Boolean read;
property Mode: TNfcMode read;
property OnBeamComplete: TBeamCompleteEvent read write;
property OnTagDiscovered: TTagDiscoveredEvent read write;
end;
TNfcTag = class
property Id: TArray<Byte> read;
property IsoDep: TIsoDep read;
property MifareClassic: TMifareClassic read;
property MifareUltralight: TMifareUltralight read;
property Ndef: TNdef read;
property NdefFormatable: TNdefFormatable read;
property NfcA: TNfcA read;
property NfcB: TNfcB read;
property NfcF: TNfcF read;
property NfcV: TNfcV read;
property Tag: JTag read;
property TechList: TArray<string> read;
end;
TIsoDep = class
function Transceive(Data: TArray<Byte>): TArray<Byte>;
property IsoDep: JIsoDep read;
property MaxTransceiveLength: Integer read;
property Tag: JTag read;
property Timeout: Integer read write;
end;
TNfcA = class
function Transceive(Data: TArray<Byte>): TArray<Byte>;
property Atqa: TArray<Byte> read;
property MaxTransceiveLength: Integer read;
property NfcA: JNfcA read;
property Sak: SmallInt read;
property Tag: JTag read;
property Timeout: Integer read write;
end;
TNfcB = class
function Transceive(Data: TArray<Byte>): TArray<Byte>;
property MaxTransceiveLength: Integer read;
property NfcB: JNfcB read;
property Tag: JTag read;
end;
TNfcF = class
function Transceive(Data: TArray<Byte>): TArray<Byte>;
property MaxTransceiveLength: Integer read;
property NfcF: JNfcF read;
property Tag: JTag read;
property Timeout: Integer read write;
end;
TNfcV = class
function EasAlarm: TArray<Byte>;
function GetSecurity(FirstBlock, BlockCount: Byte): TArray<Byte>;
function LockAfi: TArray<Byte>;
function LockBlock(Block: Byte): TArray<Byte>;
function LockDsfid: TArray<Byte>;
function LockEas: TArray<Byte>;
function ReadBlock(Block: Byte): TArray<Byte>;
function ReadBlocks(FirstBlock, BlockCount: Byte): TArray<Byte>;
function ResetEas: TArray<Byte>;
function ResetToReady: TArray<Byte>;
function SetEas: TArray<Byte>;
function Transceive(Data: TArray<Byte>): TArray<Byte>;
function WriteAfi(AFI: Byte): TArray<Byte>;
function WriteBlock(Block: Byte; Data: TArray<Byte>): TArray<Byte>;
function WriteBlocks(FirstBlock, BlockCount: Byte; Data: TArray<Byte>): TArray<Byte>;
function WriteDsfid(DSFID: Byte): TArray<Byte>;
property BlockCount: Integer read;
property BlockSize: Integer read;
property DsfId: Byte read;
property Ic: Integer read;
property Inventory: TArray<Byte> read;
property MaxTransceiveLength: Integer read;
property NfcV: JNfcV read;
property ResponseFlags: Byte read;
property SystemInformation: TArray<Byte> read;
property Tag: JTag read;
end;
TNdef = class
function MakeReadOnly: Boolean;
function Write(NdefRecord: TNdefRecord): Boolean;
function Write(NdefRecords: TArray<TNdefRecord>): Boolean;
function Write(NdefRecords: array of TNdefRecord): Boolean;
property CanMakeReadOnly: Boolean read;
property IsWritable: Boolean read;
property MaxSize: Integer read;
property Ndef: JNdef read;
property Records: TArray<TNdefRecord> read;
property Tag: JTag read;
property &Type: string read;
end;
TNdefFormatable = class
function Format: Boolean;
function FormatReadOnly: Boolean;
property NdefFormatable: JNdefFormatable read;
property Tag: JTag read;
end;
TMifareUltralightNTag = (muUnknown, mu203, mu210, mu212, mu213, mu215, mu216);
TMifareUltralight = class
function PageCount(NTag: TMifareUltralightNTag = muUnknown): Integer;
function ReadData(NTag: TMifareUltralightNTag = muUnknown): TArray<Byte>;
function ReadPage(PageOffset: Integer): TArray<Byte>;
function ReadPages(NTag: TMifareUltralightNTag = muUnknown): TArray<TArray<Byte>>;
procedure WritePage(PageOffset: Integer; Data: TArray<Byte>);
procedure WritePages(FirstPageOffset: Integer; Data: TArray<TArray<Byte>>);
function Transceive(Data: TArray<Byte>): TArray<Byte>;
// NTAG commmands
function GetVersion: TArray<Byte>;
function Read(Address: Byte): TArray<Byte>;
function FastRead(StartAddress, EndAddress: Byte): TArray<Byte>;
function ReadCounter: TArray<Byte>;
function ReadSignature: TArray<Byte>;
property MaxTransceiveLength: Integer read;
property MifareUltralight: JMifareUltralight read;
property Tag: JTag read;
property Timeout: Integer read write;
property &Type: Integer read;
property TypeDescription: string read;
end;
TMifareClassic = class
function ReadBlock(Index: Integer; const KeyA: TArray<Byte> = nil; const KeyB: TArray<Byte> = nil): TArray<Byte>;
function ReadBlocks(const KeyA: TArray<Byte> = nil; const KeyB: TArray<Byte> = nil): TArray<TArray<Byte>>;
function ReadData(const KeyA: TArray<Byte> = nil; const KeyB: TArray<Byte> = nil): TArray<Byte>;
property BlockCount: Integer read;
property BlockSize: Integer read;
property MifareClassic: JMifareClassic read;
property MaxTransceiveLength: Integer read;
property SectorCount: Integer read;
property Size: Integer read;
property Tag: JTag read;
property Timeout: Integer read write;
property &Type: Integer read;
property TypeDescription: string read;
end;
TNdefRecord = class
class function CreateExternalRecord(const Domain, &Type: string; const Data: TArray<Byte>): TNdefRecord;
class function CreateApplicationRecord(const PackageName: string): TNdefRecord;
class function CreateMimeRecord(const MimeType: string; const MimeData: TArray<Byte>): TNdefRecord;
class function CreateTextRecord(const Text: string; const LanguageCode: string = 'en'): TNdefRecord;
class function CreateUriRecord(const Uri: string): TNdefRecord;
property ExternalText: string read;
property IsAbsoluteUri: Boolean read;
property IsEmpty: Boolean read;
property IsExternalType: Boolean read;
property IsMimeMedia: Boolean read;
property IsText: Boolean read;
property IsUnchanged: Boolean read;
property IsUnknown: Boolean read;
property IsUri: Boolean read;
property IsWellKnown: Boolean read;
property NdefRecord: JNdefRecord read;
property Payload: TArray<Byte> read;
property PayloadUtf8: string read;
property Text: string read;
property TextLanguageCode: string read;
property TnfDescription: string read;
property Uri: string read;
end;
TNdefMessage = class
constructor Create(NdefRecord: TNdefRecord);
constructor Create(NdefRecords: TArray<TNdefRecord>);
property Records: TArray<TNdefRecord> read;
property NdefMessage: JNdefMessage read;
end;
// utilities
function BytesToHex(Bytes: TJavaArray<Byte>; Separator: Char = ':'): string;
function BytesToHex(const Bytes: TArray<Byte>; Separator: Char = ':'): string;
function BytesToHex(const Bytes: TArray<Byte>; From, Count: Integer; Separator: Char = ':'): string;
function BytesToHexReverse(Bytes: TJavaArray<Byte>; Separator: Char = ':'): string;
function BytesToHexReverse(const Bytes: TArray<Byte>; Separator: Char = ':'): string;
function BytesToHexReverse(const Bytes: TArray<Byte>; From, Count: Integer; Separator: Char = ':'): string;
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