Python TlvEncoder.getOutput方法代碼示例

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeForwardingEntry(self, forwardingEntry):
        """
        Encode forwardingEntry and return the encoding.

        :param forwardingEntry: The ForwardingEntry object to encode.
        :type forwardingEntry: ForwardingEntry
        :return: A Blob containing the encoding.
        :rtype: Blob
        """
        encoder = TlvEncoder(256)
        saveLength = len(encoder)

        # Encode backwards.
        encoder.writeOptionalNonNegativeIntegerTlvFromFloat(
          Tlv.FreshnessPeriod, forwardingEntry.getFreshnessPeriod())
        encoder.writeNonNegativeIntegerTlv(
          Tlv.ForwardingFlags,
          forwardingEntry.getForwardingFlags().getForwardingEntryFlags())
        encoder.writeOptionalNonNegativeIntegerTlv(
          Tlv.FaceID, forwardingEntry.getFaceId())
        self._encodeName(forwardingEntry.getPrefix(), encoder)
        if (forwardingEntry.getAction() != None and
             len(forwardingEntry.getAction()) > 0):
            # Convert str to a bytearray.
            encoder.writeBlobTlv(
              Tlv.Action, bytearray(forwardingEntry.getAction(), 'ascii'))

        encoder.writeTypeAndLength(Tlv.ForwardingEntry,
                                   len(encoder) - saveLength)

        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeEncryptedContent(self, encryptedContent):
        """
        Encode the EncryptedContent in NDN-TLV and return the encoding.

        :param EncryptedContent encryptedContent: The EncryptedContent object to
          encode.
        :return: A Blob containing the encoding.
        :rtype: Blob
        """
        encoder = TlvEncoder(256)
        saveLength = len(encoder)

        # Encode backwards.
        encoder.writeBlobTlv(
          Tlv.Encrypt_EncryptedPayload, encryptedContent.getPayload().buf())
        encoder.writeOptionalBlobTlv(
          Tlv.Encrypt_InitialVector, encryptedContent.getInitialVector().buf())
        # Assume the algorithmType value is the same as the TLV type.
        encoder.writeNonNegativeIntegerTlv(
          Tlv.Encrypt_EncryptionAlgorithm, encryptedContent.getAlgorithmType())
        Tlv0_1_1WireFormat._encodeKeyLocator(
          Tlv.KeyLocator, encryptedContent.getKeyLocator(), encoder)

        encoder.writeTypeAndLength(
          Tlv.Encrypt_EncryptedContent, len(encoder) - saveLength)

        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeControlResponse(self, controlResponse):
        """
        Encode controlResponse and return the encoding.

        :param controlResponse: The ControlResponse object to encode.
        :type controlResponse: ControlResponse
        :return: A Blob containing the encoding.
        :rtype: Blob
        """
        encoder = TlvEncoder(256)
        saveLength = len(encoder)

        # Encode backwards.

        # Encode the body.
        if controlResponse.getBodyAsControlParameters() != None:
            self._encodeControlParameters(
              controlResponse.getBodyAsControlParameters(), encoder)

        encoder.writeBlobTlv(
          Tlv.NfdCommand_StatusText, Blob(controlResponse.getStatusText()).buf())
        encoder.writeNonNegativeIntegerTlv(
          Tlv.NfdCommand_StatusCode, controlResponse.getStatusCode())

        encoder.writeTypeAndLength(Tlv.NfdCommand_ControlResponse,
                                   len(encoder) - saveLength)

        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeDelegationSet(self, delegationSet):
        """
        Encode the DelegationSet in NDN-TLV and return the encoding. Note that
        the sequence of Delegation does not have an outer TLV type and length
        because it is intended to use the type and length of a Data packet's
        Content.

        :param DelegationSet delegationSet: The DelegationSet object to
          encode.
        :return: A Blob containing the encoding.
        :rtype: Blob
        """
        encoder = TlvEncoder(256)

        # Encode backwards.
        for i in range(delegationSet.size() - 1, -1, -1):
            saveLength = len(encoder)

            Tlv0_1_1WireFormat._encodeName(delegationSet.get(i).getName(), encoder)
            encoder.writeNonNegativeIntegerTlv(
              Tlv.Link_Preference, delegationSet.get(i).getPreference())

            encoder.writeTypeAndLength(
              Tlv.Link_Delegation, len(encoder) - saveLength)

        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeData(self, data):
        """
        Encode data in NDN-TLV and return the encoding and signed offsets.

        :param Data data: The Data object to encode.
        :return: A Tuple of (encoding, signedPortionBeginOffset,
          signedPortionEndOffset) where encoding is a Blob containing the
          encoding, signedPortionBeginOffset is the offset in the encoding of
          the beginning of the signed portion, and signedPortionEndOffset is
          the offset in the encoding of the end of the signed portion.
        :rtype: (Blob, int, int)
        """
        encoder = TlvEncoder(1500)
        saveLength = len(encoder)

        # Encode backwards.
        # TODO: The library needs to handle other signature types than
        #   SignatureSha256WithRsa.
        encoder.writeBlobTlv(Tlv.SignatureValue,
                             data.getSignature().getSignature().buf())
        signedPortionEndOffsetFromBack = len(encoder)

        self._encodeSignatureSha256WithRsa(data.getSignature(), encoder)
        encoder.writeBlobTlv(Tlv.Content, data.getContent().buf())
        self._encodeMetaInfo(data.getMetaInfo(), encoder)
        self._encodeName(data.getName(), encoder)
        signedPortionBeginOffsetFromBack = len(encoder)

        encoder.writeTypeAndLength(Tlv.Data, len(encoder) - saveLength)
        signedPortionBeginOffset = (len(encoder) -
                                    signedPortionBeginOffsetFromBack)
        signedPortionEndOffset = len(encoder) - signedPortionEndOffsetFromBack

        return (Blob(encoder.getOutput(), False), signedPortionBeginOffset,
                signedPortionEndOffset)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def wireEncode(self):
        """
        Encode this Schedule.

        :return: The encoded buffer.
        :rtype: Blob
        """
        # 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.
        encoder = TlvEncoder(256)
        saveLength = len(encoder)

        # Encode backwards.
        # Encode the blackIntervalList.
        saveLengthForList = len(encoder)
        for i in range(len(self._blackIntervalList) - 1, -1, -1):
            Schedule._encodeRepetitiveInterval(self._blackIntervalList[i], encoder)
        encoder.writeTypeAndLength(Tlv.Encrypt_BlackIntervalList, len(encoder) - saveLengthForList)

        # Encode the whiteIntervalList.
        saveLengthForList = len(encoder)
        for i in range(len(self._whiteIntervalList) - 1, -1, -1):
            Schedule._encodeRepetitiveInterval(self._whiteIntervalList[i], encoder)
        encoder.writeTypeAndLength(Tlv.Encrypt_WhiteIntervalList, len(encoder) - saveLengthForList)

        encoder.writeTypeAndLength(Tlv.Encrypt_Schedule, len(encoder) - saveLength)

        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeName(self, name):
        """
        Encode name in NDN-TLV and return the encoding.

        :param Name name: The Name object to encode.
        :return: A Blob containing the encoding.
        :rtype: Blob
        """
        encoder = TlvEncoder(256)
        self._encodeName(name, encoder)
        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeControlParameters(self, controlParameters):
        """
        Encode controlParameters and return the encoding.

        :param controlParameters: The ControlParameters object to encode.
        :type controlParameters: ControlParameters
        :return: A Blob containing the encoding.
        :rtype: Blob
        """
        encoder = TlvEncoder(256)
        self._encodeControlParameters(controlParameters, encoder)
        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def wireEncode(self):
    #    if self.m_wire.hasWire():
    #       return m_wire;

    #    EncodingEstimator estimator;
    #    size_t estimatedSize = wireEncode(estimator);

        buffer = TlvEncoder()
        
        # Ummm, this is not how polymorphism should look
        self.wireEncodeX(buffer)
        output = buffer.getOutput()
        return Blob((output), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeSignatureInfo(self, signature):
        """
        Encode signature as an NDN-TLV SignatureInfo and return the encoding.

        :param signature: An object of a subclass of Signature to encode.
        :type signature: An object of a subclass of Signature
        :return: A Blob containing the encoding.
        :rtype: Blob
        """
        encoder = TlvEncoder(256)
        self._encodeSignatureInfo(signature, encoder)

        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeSignatureValue(self, signature):
        """
        Encode the signatureValue in the Signature object as an NDN-TLV
        SignatureValue (the signature bits) and return the encoding.

        :param signature: An object of a subclass of Signature with the
          signature value to encode.
        :type signature: An object of a subclass of Signature
        :return: A Blob containing the encoding.
        :rtype: Blob
        """
        encoder = TlvEncoder(256)
        encoder.writeBlobTlv(Tlv.SignatureValue, signature.getSignature().buf())

        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def generate(self, interest, keyChain, certificateName, wireFormat = None):
        """
        Append a timestamp component and a random value component to interest's
        name. This ensures that the timestamp is greater than the timestamp used 
        in the previous call. Then use keyChain to sign the interest which 
        appends a SignatureInfo component and a component with the signature 
        bits. If the interest lifetime is not set, this sets it.

        :param Interest interest: The interest whose name is append with 
          components.
        :param KeyChain keyChain: The KeyChain for calling sign.
        :param Name certificateName: The certificate name of the key to use for 
          signing.
        :param wireFormat: (optional) A WireFormat object used to encode the 
          SignatureInfo and to encode interest name for signing. If omitted, use
          WireFormat.getDefaultWireFormat().
        :type wireFormat: A subclass of WireFormat
        """
        if wireFormat == None:
            # Don't use a default argument since getDefaultWireFormat can change.
            wireFormat = WireFormat.getDefaultWireFormat()

        timestamp =  round(Common.getNowMilliseconds())
        while timestamp <= self._lastTimestamp:
          timestamp += 1.0

        # The timestamp is encoded as a TLV nonNegativeInteger.
        encoder = TlvEncoder(8)
        encoder.writeNonNegativeInteger(int(timestamp))
        interest.getName().append(Blob(encoder.getOutput(), False))
        
        # The random value is a TLV nonNegativeInteger too, but we know it is 8 
        # bytes, so we don't need to call the nonNegativeInteger encoder.        
        randomBuffer = bytearray(8)
        for i in range(len(randomBuffer)):
            randomBuffer[i] = _systemRandom.randint(0, 0xff)                
        interest.getName().append(Blob(randomBuffer, False))

        keyChain.sign(interest, certificateName, wireFormat)

        if (interest.getInterestLifetimeMilliseconds() == None or
            interest.getInterestLifetimeMilliseconds()< 0):
          # The caller has not set the interest lifetime, so set it here.
          interest.setInterestLifetimeMilliseconds(1000.0)

        # We successfully signed the interest, so update the timestamp.
        self._lastTimestamp = timestamp
        

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encode(message):
        """
        Encode the Protobuf message object as NDN-TLV.

        :param google.protobuf.message message: The Protobuf message object.
          This calls message.IsInitialized() to ensure that all required fields
          are present and raises an exception if not.
        :return: The encoded buffer in a Blob object.
        :rtype: Blob
        """
        if not message.IsInitialized():
            raise RuntimeError("message is not initialized")
        encoder = TlvEncoder(256)

        ProtobufTlv._encodeMessageValue(message, encoder)
        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeInterest(self, interest):
        """
        Encode interest in NDN-TLV and return the encoding.

        :param Interest interest: The Interest object to encode.
        :return: A Blob containing the encoding.
        :rtype: Blob
        """
        encoder = TlvEncoder(256)
        saveLength = len(encoder)

        # Encode backwards.
        encoder.writeOptionalNonNegativeIntegerTlvFromFloat(
          Tlv.InterestLifetime, interest.getInterestLifetimeMilliseconds())
        encoder.writeOptionalNonNegativeIntegerTlv(
          Tlv.Scope, interest.getScope())

        # Encode the Nonce as 4 bytes.
        if interest.getNonce().size() == 0:
            # This is the most common case. Generate a nonce.
            nonce = bytearray(4)
            for i in range(4):
                nonce[i] = _systemRandom.randint(0, 0xff)
            encoder.writeBlobTlv(Tlv.Nonce, nonce)
        elif interest.getNonce().size() < 4:
            nonce = bytearray(4)
            # Copy existing nonce bytes.
            nonce[:interest.getNonce().size()] = interest.getNonce().buf()

            # Generate random bytes for remaining bytes in the nonce.
            for i in range(interest.getNonce().size(), 4):
                nonce[i] = _systemRandom.randint(0, 0xff)

            encoder.writeBlobTlv(Tlv.Nonce, nonce)
        elif interest.getNonce().size() == 4:
            # Use the nonce as-is.
            encoder.writeBlobTlv(Tlv.Nonce, interest.getNonce().buf())
        else:
            # Truncate.
            encoder.writeBlobTlv(Tlv.Nonce, interest.getNonce().buf()[:4])

        self._encodeSelectors(interest, encoder)
        self._encodeName(interest.getName(), encoder)

        encoder.writeTypeAndLength(Tlv.Interest, len(encoder) - saveLength)

        return Blob(encoder.getOutput(), False)

# 需要導入模塊: from pyndn.encoding.tlv.tlv_encoder import TlvEncoder [as 別名]
# 或者: from pyndn.encoding.tlv.tlv_encoder.TlvEncoder import getOutput [as 別名]
    def encodeControlParameters(self, controlParameters):
        """
        Encode controlParameters and return the encoding.

        :param controlParameters: The ControlParameters object to encode.
        :type controlParameters: ControlParameters
        :return: A Blob containing the encoding.
        :rtype: Blob
        """
        encoder = TlvEncoder(256)
        saveLength = len(encoder)

        # Encode backwards.
        encoder.writeOptionalNonNegativeIntegerTlvFromFloat(
          Tlv.ControlParameters_ExpirationPeriod,
          controlParameters.getExpirationPeriod())

        # TODO: Encode Strategy.

        flags = controlParameters.getForwardingFlags().getNfdForwardingFlags()
        if (flags != ForwardingFlags().getNfdForwardingFlags()):
            # The flags are not the default value.
            encoder.writeNonNegativeIntegerTlv(
              Tlv.ControlParameters_Flags, flags)

        encoder.writeOptionalNonNegativeIntegerTlv(
          Tlv.ControlParameters_Cost, controlParameters.getCost())
        encoder.writeOptionalNonNegativeIntegerTlv(
          Tlv.ControlParameters_Origin, controlParameters.getOrigin())
        encoder.writeOptionalNonNegativeIntegerTlv(
          Tlv.ControlParameters_LocalControlFeature,
          controlParameters.getLocalControlFeature())

        # TODO: Encode Uri.

        encoder.writeOptionalNonNegativeIntegerTlv(
          Tlv.ControlParameters_FaceId, controlParameters.getFaceId())
        if controlParameters.getName().size() > 0:
          self._encodeName(controlParameters.getName(), encoder)

        encoder.writeTypeAndLength(Tlv.ControlParameters_ControlParameters,
                                   len(encoder) - saveLength)

        return Blob(encoder.getOutput(), False)