/// <summary> /// Decode the input and update this Schedule object. /// </summary> /// /// <param name="input"></param> /// <exception cref="EncodingException">For invalid encoding.</exception> public void wireDecode(ByteBuffer input) { // For now, don't use WireFormat and hardcode to use TLV since the encoding // doesn't go out over the wire, only into the local SQL database. TlvDecoder decoder = new TlvDecoder(input); int endOffset = decoder.readNestedTlvsStart(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_Schedule); // Decode the whiteIntervalList. ILOG.J2CsMapping.Collections.Collections.Clear(whiteIntervalList_); int listEndOffset = decoder .readNestedTlvsStart(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_WhiteIntervalList); while (decoder.getOffset() < listEndOffset) { ILOG.J2CsMapping.Collections.Collections.Add(whiteIntervalList_, decodeRepetitiveInterval(decoder)); } decoder.finishNestedTlvs(listEndOffset); // Decode the blackIntervalList. ILOG.J2CsMapping.Collections.Collections.Clear(blackIntervalList_); listEndOffset = decoder .readNestedTlvsStart(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_BlackIntervalList); while (decoder.getOffset() < listEndOffset) { ILOG.J2CsMapping.Collections.Collections.Add(blackIntervalList_, decodeRepetitiveInterval(decoder)); } decoder.finishNestedTlvs(listEndOffset); decoder.finishNestedTlvs(endOffset); }
/// <summary> /// Decode the input as an NDN-TLV RepetitiveInterval. /// </summary> /// /// <param name="decoder">The decoder with the input to decode.</param> /// <returns>A new RepetitiveInterval with the decoded result.</returns> private static RepetitiveInterval decodeRepetitiveInterval( TlvDecoder decoder) { int endOffset = decoder .readNestedTlvsStart(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_RepetitiveInterval); // Use Blob to convert UTF8 to a string. double startDate = fromIsoString(new Blob( decoder.readBlobTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_StartDate), true).toString()); double endDate = fromIsoString(new Blob( decoder.readBlobTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_EndDate), true).toString()); int startHour = (int)decoder .readNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_IntervalStartHour); int endHour = (int)decoder .readNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_IntervalEndHour); int nRepeats = (int)decoder .readNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_NRepeats); int repeatUnitCode = (int)decoder .readNonNegativeIntegerTlv(net.named_data.jndn.encoding.tlv.Tlv.Encrypt_RepeatUnit); RepetitiveInterval.RepeatUnit repeatUnit; if (repeatUnitCode == net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.NONE .getNumericType()) { repeatUnit = net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.NONE; } else if (repeatUnitCode == net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY .getNumericType()) { repeatUnit = net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.DAY; } else if (repeatUnitCode == net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.MONTH .getNumericType()) { repeatUnit = net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.MONTH; } else if (repeatUnitCode == net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.YEAR .getNumericType()) { repeatUnit = net.named_data.jndn.encrypt.RepetitiveInterval.RepeatUnit.YEAR; } else { throw new EncodingException( "Unrecognized RepetitiveInterval RepeatUnit code: " + repeatUnitCode); } decoder.finishNestedTlvs(endOffset); return(new RepetitiveInterval(startDate, endDate, startHour, endHour, nRepeats, repeatUnit)); }
wireDecode(ByteBuffer input) { clear(); TlvDecoder decoder = new TlvDecoder(input); int endOffset = decoder.readNestedTlvsStart(ContentMetaInfo_ContentMetaInfo); // Set copy false since we just immediately get a string. Blob contentTypeText = new Blob (decoder.readBlobTlv(ContentMetaInfo_ContentType), false); contentType_ = contentTypeText.toString(); timestamp_ = decoder.readNonNegativeIntegerTlv(ContentMetaInfo_Timestamp); hasSegments_ = decoder.readBooleanTlv (ContentMetaInfo_HasSegments, endOffset); if (decoder.peekType(ContentMetaInfo_Other, endOffset)) { other_ = new Blob(decoder.readBlobTlv(ContentMetaInfo_Other), true); } decoder.finishNestedTlvs(endOffset); }
/// <summary> /// Decode the input as an NDN-TLV SafeBag and update this object. /// </summary> /// /// <param name="input"></param> /// <exception cref="EncodingException">For invalid encoding.</exception> public void wireDecode(ByteBuffer input) { // Decode directly as TLV. We don't support the WireFormat abstraction // because this isn't meant to go directly on the wire. TlvDecoder decoder = new TlvDecoder(input); int endOffset = decoder.readNestedTlvsStart(net.named_data.jndn.encoding.tlv.Tlv.SafeBag_SafeBag); // Get the bytes of the certificate and decode. int certificateBeginOffset = decoder.getOffset(); int certificateEndOffset = decoder.readNestedTlvsStart(net.named_data.jndn.encoding.tlv.Tlv.Data); decoder.seek(certificateEndOffset); certificate_ = new Data(); certificate_.wireDecode( decoder.getSlice(certificateBeginOffset, certificateEndOffset), net.named_data.jndn.encoding.TlvWireFormat.get()); privateKeyBag_ = new Blob( decoder.readBlobTlv(net.named_data.jndn.encoding.tlv.Tlv.SafeBag_EncryptedKeyBag), true); decoder.finishNestedTlvs(endOffset); }