An NDEF record always contains: *
The underlying record * representation may be chunked across several NDEF records when the payload is * large. *
This is an immutable data class. */ public final class NdefRecord implements Parcelable { /** * Indicates no type, id, or payload is associated with this NDEF Record. *
* Type, id and payload fields must all be empty to be a valid TNF_EMPTY * record. */ public static final short TNF_EMPTY = 0x00; /** * Indicates the type field uses the RTD type name format. *
* Use this TNF with RTD types such as RTD_TEXT, RTD_URI. */ public static final short TNF_WELL_KNOWN = 0x01; /** * Indicates the type field contains a value that follows the media-type BNF * construct defined by RFC 2046. */ public static final short TNF_MIME_MEDIA = 0x02; /** * Indicates the type field contains a value that follows the absolute-URI * BNF construct defined by RFC 3986. */ public static final short TNF_ABSOLUTE_URI = 0x03; /** * Indicates the type field contains a value that follows the RTD external * name specification. *
* Note this TNF should not be used with RTD_TEXT or RTD_URI constants. * Those are well known RTD constants, not external RTD constants. */ public static final short TNF_EXTERNAL_TYPE = 0x04; /** * Indicates the payload type is unknown. *
* This is similar to the "application/octet-stream" MIME type. The payload * type is not explicitly encoded within the NDEF Message. *
* The type field must be empty to be a valid TNF_UNKNOWN record. */ public static final short TNF_UNKNOWN = 0x05; /** * Indicates the payload is an intermediate or final chunk of a chunked * NDEF Record. *
* The payload type is specified in the first chunk, and subsequent chunks * must use TNF_UNCHANGED with an empty type field. TNF_UNCHANGED must not * be used in any other situation. */ public static final short TNF_UNCHANGED = 0x06; /** * Reserved TNF type. *
* The NFC Forum NDEF Specification v1.0 suggests for NDEF parsers to treat this * value like TNF_UNKNOWN. * @hide */ public static final short TNF_RESERVED = 0x07; /** * RTD Text type. For use with TNF_WELL_KNOWN. */ public static final byte[] RTD_TEXT = {0x54}; // "T" /** * RTD URI type. For use with TNF_WELL_KNOWN. */ public static final byte[] RTD_URI = {0x55}; // "U" /** * RTD Smart Poster type. For use with TNF_WELL_KNOWN. */ public static final byte[] RTD_SMART_POSTER = {0x53, 0x70}; // "Sp" /** * RTD Alternative Carrier type. For use with TNF_WELL_KNOWN. */ public static final byte[] RTD_ALTERNATIVE_CARRIER = {0x61, 0x63}; // "ac" /** * RTD Handover Carrier type. For use with TNF_WELL_KNOWN. */ public static final byte[] RTD_HANDOVER_CARRIER = {0x48, 0x63}; // "Hc" /** * RTD Handover Request type. For use with TNF_WELL_KNOWN. */ public static final byte[] RTD_HANDOVER_REQUEST = {0x48, 0x72}; // "Hr" /** * RTD Handover Select type. For use with TNF_WELL_KNOWN. */ public static final byte[] RTD_HANDOVER_SELECT = {0x48, 0x73}; // "Hs" private static final byte FLAG_MB = (byte) 0x80; private static final byte FLAG_ME = (byte) 0x40; private static final byte FLAG_CF = (byte) 0x20; private static final byte FLAG_SR = (byte) 0x10; private static final byte FLAG_IL = (byte) 0x08; private final byte mFlags; private final short mTnf; private final byte[] mType; private final byte[] mId; private final byte[] mPayload; /** * Construct an NDEF Record. *
* Applications should not attempt to manually chunk NDEF Records - the * implementation of android.nfc will automatically chunk an NDEF Record * when necessary (and only present a single logical NDEF Record to the * application). So applications should not use TNF_UNCHANGED. * * @param tnf a 3-bit TNF constant * @param type byte array, containing zero to 255 bytes, must not be null * @param id byte array, containing zero to 255 bytes, must not be null * @param payload byte array, containing zero to (2 ** 32 - 1) bytes, * must not be null */ public NdefRecord(short tnf, byte[] type, byte[] id, byte[] payload) { /* check arguments */ if ((type == null) || (id == null) || (payload == null)) { throw new IllegalArgumentException("Illegal null argument"); } if (tnf < 0 || tnf > 0x07) { throw new IllegalArgumentException("TNF out of range " + tnf); } /* generate flag */ byte flags = FLAG_MB | FLAG_ME; /* Determine if it is a short record */ if(payload.length < 0xFF) { flags |= FLAG_SR; } /* Determine if an id is present */ if(id.length != 0) { flags |= FLAG_IL; } mFlags = flags; mTnf = tnf; mType = type.clone(); mId = id.clone(); mPayload = payload.clone(); } /** * Construct an NDEF Record from raw bytes. *
* Validation is performed to make sure the header is valid, and that * the id, type and payload sizes appear to be valid. * * @throws FormatException if the data is not a valid NDEF record */ public NdefRecord(byte[] data) throws FormatException { /* Prevent compiler to complain about unassigned final fields */ mFlags = 0; mTnf = 0; mType = null; mId = null; mPayload = null; /* Perform actual parsing */ if (parseNdefRecord(data) == -1) { throw new FormatException("Error while parsing NDEF record"); } } /** * Returns the 3-bit TNF. *
* TNF is the top-level type. */ public short getTnf() { return mTnf; } /** * Returns the variable length Type field. *
* This should be used in conjunction with the TNF field to determine the
* payload format.
*/
public byte[] getType() {
return mType.clone();
}
/**
* Returns the variable length ID.
*/
public byte[] getId() {
return mId.clone();
}
/**
* Returns the variable length payload.
*/
public byte[] getPayload() {
return mPayload.clone();
}
/**
* Returns this entire NDEF Record as a byte array.
*/
public byte[] toByteArray() {
return generate(mFlags, mTnf, mType, mId, mPayload);
}
public int describeContents() {
return 0;
}
public void writeToParcel(Parcel dest, int flags) {
dest.writeInt(mTnf);
dest.writeInt(mType.length);
dest.writeByteArray(mType);
dest.writeInt(mId.length);
dest.writeByteArray(mId);
dest.writeInt(mPayload.length);
dest.writeByteArray(mPayload);
}
public static final Parcelable.Creator