ndn-cpp/c/encoding/binary-xml-data.c - ndn-cxx - Gitiles

 /**
  * @author: Jeff Thompson
  * Derived from ContentObject.js by Meki Cheraoui.
  * See COPYING for copyright and distribution information.
  */

 #include "binary-xml-encoder.h"
 #include "binary-xml-decoder.h"
 #include "binary-xml-name.h"
 #include "binary-xml-publisher-public-key-digest.h"
 #include "binary-xml-data.h"

 static ndn_Error encodeSignature(struct ndn_Signature *signature, struct ndn_BinaryXmlEncoder *encoder)
 {
   ndn_Error error;
   if ((error = ndn_BinaryXmlEncoder_writeElementStartDTag(encoder, ndn_BinaryXml_DTag_Signature)))
     return error;

   // TODO: Check if digestAlgorithm is the same as the default, and skip it, otherwise encode it as UDATA.

   if ((error = ndn_BinaryXmlEncoder_writeOptionalBlobDTagElement
       (encoder, ndn_BinaryXml_DTag_Witness, signature->witness, signature->witnessLength)))
     return error;

   // Require a signature.
   if ((error = ndn_BinaryXmlEncoder_writeBlobDTagElement
       (encoder, ndn_BinaryXml_DTag_SignatureBits, signature->signature, signature->signatureLength)))
     return error;

   if ((error = ndn_BinaryXmlEncoder_writeElementClose(encoder)))
     return error;

   return NDN_ERROR_success;
 }

 static ndn_Error decodeSignature(struct ndn_Signature *signature, struct ndn_BinaryXmlDecoder *decoder)
 {
   ndn_Error error;
   if ((error = ndn_BinaryXmlDecoder_readElementStartDTag(decoder, ndn_BinaryXml_DTag_Signature)))
     return error;

   /* TODO: digestAlgorithm as UDATA */ signature->digestAlgorithm = 0; signature->digestAlgorithmLength = 0;

   if ((error = ndn_BinaryXmlDecoder_readOptionalBinaryDTagElement
       (decoder, ndn_BinaryXml_DTag_Witness, 0, &signature->witness, &signature->witnessLength)))
     return error;

   // Require a signature.
   if ((error = ndn_BinaryXmlDecoder_readBinaryDTagElement
       (decoder, ndn_BinaryXml_DTag_SignatureBits, 0, &signature->signature, &signature->signatureLength)))
     return error;

   if ((error = ndn_BinaryXmlDecoder_readElementClose(decoder)))
     return error;

   return NDN_ERROR_success;
 }

 static ndn_Error encodeSignedInfo(struct ndn_MetaInfo *metaInfo, struct ndn_BinaryXmlEncoder *encoder)
 {
   if (metaInfo->type < 0)
     return NDN_ERROR_success;

   ndn_Error error;
   if ((error = ndn_BinaryXmlEncoder_writeElementStartDTag(encoder, ndn_BinaryXml_DTag_SignedInfo)))
     return error;

   // This will skip encoding if there is no publisherPublicKeyDigest.
   if ((error = ndn_encodeBinaryXmlPublisherPublicKeyDigest(&metaInfo->publisherPublicKeyDigest, encoder)))
     return error;

   if ((error = ndn_BinaryXmlEncoder_writeOptionalTimeMillisecondsDTagElement
       (encoder, ndn_BinaryXml_DTag_Timestamp, metaInfo->timestampMilliseconds)))
     return error;

   if (!(metaInfo->type < 0 || metaInfo->type == ndn_ContentType_DATA)) {
     // Not the default of DATA, so we need to encode the type.
     unsigned char *typeBytes;
     unsigned int typeBytesLength = 3;
     if (metaInfo->type == ndn_ContentType_ENCR)
       typeBytes = "\x10\xD0\x91";
     else if (metaInfo->type == ndn_ContentType_GONE)
       typeBytes = "\x18\xE3\x44";
     else if (metaInfo->type == ndn_ContentType_KEY)
       typeBytes = "\x28\x46\x3F";
     else if (metaInfo->type == ndn_ContentType_LINK)
       typeBytes = "\x2C\x83\x4A";
     else if (metaInfo->type == ndn_ContentType_NACK)
       typeBytes = "\x34\x00\x8A";
     else
       return NDN_ERROR_unrecognized_ndn_ContentType;

     if ((error = ndn_BinaryXmlEncoder_writeBlobDTagElement
         (encoder, ndn_BinaryXml_DTag_Type, typeBytes, typeBytesLength)))
       return error;
   }

   if ((error = ndn_BinaryXmlEncoder_writeOptionalUnsignedDecimalIntDTagElement
       (encoder, ndn_BinaryXml_DTag_FreshnessSeconds, metaInfo->freshnessSeconds)))
     return error;

   if ((error = ndn_BinaryXmlEncoder_writeOptionalBlobDTagElement
       (encoder, ndn_BinaryXml_DTag_FinalBlockID, metaInfo->finalBlockID, metaInfo->finalBlockIDLength)))
     return error;

   // This will skip encoding if there is no key locator.
   if ((error = ndn_encodeBinaryXmlKeyLocator(&metaInfo->keyLocator, encoder)))
     return error;

   if ((error = ndn_BinaryXmlEncoder_writeElementClose(encoder)))
     return error;

   return NDN_ERROR_success;
 }

 static ndn_Error decodeSignedInfo(struct ndn_MetaInfo *metaInfo, struct ndn_BinaryXmlDecoder *decoder)
 {
   ndn_Error error;
   if ((error = ndn_BinaryXmlDecoder_readElementStartDTag(decoder, ndn_BinaryXml_DTag_SignedInfo)))
     return error;

   if ((error = ndn_decodeOptionalBinaryXmlPublisherPublicKeyDigest(&metaInfo->publisherPublicKeyDigest, decoder)))
     return error;

   if (error= ndn_BinaryXmlDecoder_readOptionalTimeMillisecondsDTagElement
       (decoder, ndn_BinaryXml_DTag_Timestamp, &metaInfo->timestampMilliseconds))
     return error;

   unsigned char *typeBytes;
   unsigned int typeBytesLength;
   if ((error = ndn_BinaryXmlDecoder_readOptionalBinaryDTagElement
       (decoder, ndn_BinaryXml_DTag_Type, 0, &typeBytes, &typeBytesLength)))
     return error;
   if (typeBytesLength == 0)
     // The default Type is DATA.
     metaInfo->type = ndn_ContentType_DATA;
   else if (typeBytesLength == 3) {
     // All the recognized content types are 3 bytes.
     if (ndn_memcmp(typeBytes, "\x0C\x04\xC0", typeBytesLength) == 0)
       metaInfo->type = ndn_ContentType_DATA;
     else if (ndn_memcmp(typeBytes, "\x10\xD0\x91", typeBytesLength) == 0)
       metaInfo->type = ndn_ContentType_ENCR;
     else if (ndn_memcmp(typeBytes, "\x18\xE3\x44", typeBytesLength) == 0)
       metaInfo->type = ndn_ContentType_GONE;
     else if (ndn_memcmp(typeBytes, "\x28\x46\x3F", typeBytesLength) == 0)
       metaInfo->type = ndn_ContentType_KEY;
     else if (ndn_memcmp(typeBytes, "\x2C\x83\x4A", typeBytesLength) == 0)
       metaInfo->type = ndn_ContentType_LINK;
     else if (ndn_memcmp(typeBytes, "\x34\x00\x8A", typeBytesLength) == 0)
       metaInfo->type = ndn_ContentType_NACK;
     else
       return NDN_ERROR_unrecognized_ndn_ContentType;
   }
   else
     return NDN_ERROR_unrecognized_ndn_ContentType;

   if ((error = ndn_BinaryXmlDecoder_readOptionalUnsignedIntegerDTagElement
       (decoder, ndn_BinaryXml_DTag_FreshnessSeconds, &metaInfo->freshnessSeconds)))
     return error;

   if ((error = ndn_BinaryXmlDecoder_readOptionalBinaryDTagElement
       (decoder, ndn_BinaryXml_DTag_FinalBlockID, 0, &metaInfo->finalBlockID, &metaInfo->finalBlockIDLength)))
     return error;

   if ((error = ndn_decodeOptionalBinaryXmlKeyLocator(&metaInfo->keyLocator, decoder)))
     return error;

   if ((error = ndn_BinaryXmlDecoder_readElementClose(decoder)))
     return error;

   return NDN_ERROR_success;
 }

 ndn_Error ndn_encodeBinaryXmlData
   (struct ndn_Data *data, unsigned int *signedFieldsBeginOffset, unsigned int *signedFieldsEndOffset, struct ndn_BinaryXmlEncoder *encoder)
 {
   ndn_Error error;
   if ((error = ndn_BinaryXmlEncoder_writeElementStartDTag(encoder, ndn_BinaryXml_DTag_ContentObject)))
     return error;

   if ((error = encodeSignature(&data->signature, encoder)))
     return error;

   *signedFieldsBeginOffset = encoder->offset;

   if ((error = ndn_encodeBinaryXmlName(&data->name, encoder)))
     return error;

   if ((error = encodeSignedInfo(&data->metaInfo, encoder)))
     return error;

   if ((error = ndn_BinaryXmlEncoder_writeBlobDTagElement
       (encoder, ndn_BinaryXml_DTag_Content, data->content, data->contentLength)))
     return error;

   *signedFieldsEndOffset = encoder->offset;

   if ((error = ndn_BinaryXmlEncoder_writeElementClose(encoder)))
     return error;

   return NDN_ERROR_success;
 }

 ndn_Error ndn_decodeBinaryXmlData
   (struct ndn_Data *data, unsigned int *signedFieldsBeginOffset, unsigned int *signedFieldsEndOffset, struct ndn_BinaryXmlDecoder *decoder)
 {
   ndn_Error error;
   if ((error = ndn_BinaryXmlDecoder_readElementStartDTag(decoder, ndn_BinaryXml_DTag_ContentObject)))
     return error;

   int gotExpectedTag;
   if ((error = ndn_BinaryXmlDecoder_peekDTag(decoder, ndn_BinaryXml_DTag_Signature, &gotExpectedTag)))
     return error;
   if (gotExpectedTag) {
     if ((error = decodeSignature(&data->signature, decoder)))
       return error;
   }
   else
     ndn_Signature_initialize(&data->signature);

   *signedFieldsBeginOffset = decoder->offset;

   if ((error = ndn_decodeBinaryXmlName(&data->name, decoder)))
     return error;

   if ((error = ndn_BinaryXmlDecoder_peekDTag(decoder, ndn_BinaryXml_DTag_SignedInfo, &gotExpectedTag)))
     return error;
   if (gotExpectedTag) {
     if ((error = decodeSignedInfo(&data->metaInfo, decoder)))
       return error;
   }
   else
     ndn_MetaInfo_initialize(&data->metaInfo, data->metaInfo.keyLocator.keyName.components, data->metaInfo.keyLocator.keyName.maxComponents);

   // Require a Content element, but set allowNull to allow a missing BLOB.
   if ((error = ndn_BinaryXmlDecoder_readBinaryDTagElement
       (decoder, ndn_BinaryXml_DTag_Content, 1, &data->content, &data->contentLength)))
     return error;

   *signedFieldsEndOffset = decoder->offset;

   if ((error = ndn_BinaryXmlDecoder_readElementClose(decoder)))
     return error;

   return NDN_ERROR_success;
 }
	/**
	* @author: Jeff Thompson
	* Derived from ContentObject.js by Meki Cheraoui.
	* See COPYING for copyright and distribution information.
	*/

	#include "binary-xml-encoder.h"
	#include "binary-xml-decoder.h"
	#include "binary-xml-name.h"
	#include "binary-xml-publisher-public-key-digest.h"
	#include "binary-xml-data.h"

	static ndn_Error encodeSignature(struct ndn_Signature signature, struct ndn_BinaryXmlEncoder encoder)
	{
	ndn_Error error;
	if ((error = ndn_BinaryXmlEncoder_writeElementStartDTag(encoder, ndn_BinaryXml_DTag_Signature)))
	return error;

	// TODO: Check if digestAlgorithm is the same as the default, and skip it, otherwise encode it as UDATA.

	if ((error = ndn_BinaryXmlEncoder_writeOptionalBlobDTagElement
	(encoder, ndn_BinaryXml_DTag_Witness, signature->witness, signature->witnessLength)))
	return error;

	// Require a signature.
	if ((error = ndn_BinaryXmlEncoder_writeBlobDTagElement
	(encoder, ndn_BinaryXml_DTag_SignatureBits, signature->signature, signature->signatureLength)))
	return error;

	if ((error = ndn_BinaryXmlEncoder_writeElementClose(encoder)))
	return error;

	return NDN_ERROR_success;
	}

	static ndn_Error decodeSignature(struct ndn_Signature signature, struct ndn_BinaryXmlDecoder decoder)
	{
	ndn_Error error;
	if ((error = ndn_BinaryXmlDecoder_readElementStartDTag(decoder, ndn_BinaryXml_DTag_Signature)))
	return error;

	/* TODO: digestAlgorithm as UDATA */ signature->digestAlgorithm = 0; signature->digestAlgorithmLength = 0;

	if ((error = ndn_BinaryXmlDecoder_readOptionalBinaryDTagElement
	(decoder, ndn_BinaryXml_DTag_Witness, 0, &signature->witness, &signature->witnessLength)))
	return error;

	// Require a signature.
	if ((error = ndn_BinaryXmlDecoder_readBinaryDTagElement
	(decoder, ndn_BinaryXml_DTag_SignatureBits, 0, &signature->signature, &signature->signatureLength)))
	return error;

	if ((error = ndn_BinaryXmlDecoder_readElementClose(decoder)))
	return error;

	return NDN_ERROR_success;
	}

	static ndn_Error encodeSignedInfo(struct ndn_MetaInfo metaInfo, struct ndn_BinaryXmlEncoder encoder)
	{
	if (metaInfo->type < 0)
	return NDN_ERROR_success;

	ndn_Error error;
	if ((error = ndn_BinaryXmlEncoder_writeElementStartDTag(encoder, ndn_BinaryXml_DTag_SignedInfo)))
	return error;

	// This will skip encoding if there is no publisherPublicKeyDigest.
	if ((error = ndn_encodeBinaryXmlPublisherPublicKeyDigest(&metaInfo->publisherPublicKeyDigest, encoder)))
	return error;

	if ((error = ndn_BinaryXmlEncoder_writeOptionalTimeMillisecondsDTagElement
	(encoder, ndn_BinaryXml_DTag_Timestamp, metaInfo->timestampMilliseconds)))
	return error;

	if (!(metaInfo->type < 0 \|\| metaInfo->type == ndn_ContentType_DATA)) {
	// Not the default of DATA, so we need to encode the type.
	unsigned char *typeBytes;
	unsigned int typeBytesLength = 3;
	if (metaInfo->type == ndn_ContentType_ENCR)
	typeBytes = "\x10\xD0\x91";
	else if (metaInfo->type == ndn_ContentType_GONE)
	typeBytes = "\x18\xE3\x44";
	else if (metaInfo->type == ndn_ContentType_KEY)
	typeBytes = "\x28\x46\x3F";
	else if (metaInfo->type == ndn_ContentType_LINK)
	typeBytes = "\x2C\x83\x4A";
	else if (metaInfo->type == ndn_ContentType_NACK)
	typeBytes = "\x34\x00\x8A";
	else
	return NDN_ERROR_unrecognized_ndn_ContentType;

	if ((error = ndn_BinaryXmlEncoder_writeBlobDTagElement
	(encoder, ndn_BinaryXml_DTag_Type, typeBytes, typeBytesLength)))
	return error;
	}

	if ((error = ndn_BinaryXmlEncoder_writeOptionalUnsignedDecimalIntDTagElement
	(encoder, ndn_BinaryXml_DTag_FreshnessSeconds, metaInfo->freshnessSeconds)))
	return error;

	if ((error = ndn_BinaryXmlEncoder_writeOptionalBlobDTagElement
	(encoder, ndn_BinaryXml_DTag_FinalBlockID, metaInfo->finalBlockID, metaInfo->finalBlockIDLength)))
	return error;

	// This will skip encoding if there is no key locator.
	if ((error = ndn_encodeBinaryXmlKeyLocator(&metaInfo->keyLocator, encoder)))
	return error;

	if ((error = ndn_BinaryXmlEncoder_writeElementClose(encoder)))
	return error;

	return NDN_ERROR_success;
	}

	static ndn_Error decodeSignedInfo(struct ndn_MetaInfo metaInfo, struct ndn_BinaryXmlDecoder decoder)
	{
	ndn_Error error;
	if ((error = ndn_BinaryXmlDecoder_readElementStartDTag(decoder, ndn_BinaryXml_DTag_SignedInfo)))
	return error;

	if ((error = ndn_decodeOptionalBinaryXmlPublisherPublicKeyDigest(&metaInfo->publisherPublicKeyDigest, decoder)))
	return error;

	if (error= ndn_BinaryXmlDecoder_readOptionalTimeMillisecondsDTagElement
	(decoder, ndn_BinaryXml_DTag_Timestamp, &metaInfo->timestampMilliseconds))
	return error;

	unsigned char *typeBytes;
	unsigned int typeBytesLength;
	if ((error = ndn_BinaryXmlDecoder_readOptionalBinaryDTagElement
	(decoder, ndn_BinaryXml_DTag_Type, 0, &typeBytes, &typeBytesLength)))
	return error;
	if (typeBytesLength == 0)
	// The default Type is DATA.
	metaInfo->type = ndn_ContentType_DATA;
	else if (typeBytesLength == 3) {
	// All the recognized content types are 3 bytes.
	if (ndn_memcmp(typeBytes, "\x0C\x04\xC0", typeBytesLength) == 0)
	metaInfo->type = ndn_ContentType_DATA;
	else if (ndn_memcmp(typeBytes, "\x10\xD0\x91", typeBytesLength) == 0)
	metaInfo->type = ndn_ContentType_ENCR;
	else if (ndn_memcmp(typeBytes, "\x18\xE3\x44", typeBytesLength) == 0)
	metaInfo->type = ndn_ContentType_GONE;
	else if (ndn_memcmp(typeBytes, "\x28\x46\x3F", typeBytesLength) == 0)
	metaInfo->type = ndn_ContentType_KEY;
	else if (ndn_memcmp(typeBytes, "\x2C\x83\x4A", typeBytesLength) == 0)
	metaInfo->type = ndn_ContentType_LINK;
	else if (ndn_memcmp(typeBytes, "\x34\x00\x8A", typeBytesLength) == 0)
	metaInfo->type = ndn_ContentType_NACK;
	else
	return NDN_ERROR_unrecognized_ndn_ContentType;
	}
	else
	return NDN_ERROR_unrecognized_ndn_ContentType;

	if ((error = ndn_BinaryXmlDecoder_readOptionalUnsignedIntegerDTagElement
	(decoder, ndn_BinaryXml_DTag_FreshnessSeconds, &metaInfo->freshnessSeconds)))
	return error;

	if ((error = ndn_BinaryXmlDecoder_readOptionalBinaryDTagElement
	(decoder, ndn_BinaryXml_DTag_FinalBlockID, 0, &metaInfo->finalBlockID, &metaInfo->finalBlockIDLength)))
	return error;

	if ((error = ndn_decodeOptionalBinaryXmlKeyLocator(&metaInfo->keyLocator, decoder)))
	return error;

	if ((error = ndn_BinaryXmlDecoder_readElementClose(decoder)))
	return error;

	return NDN_ERROR_success;
	}

	ndn_Error ndn_encodeBinaryXmlData
	(struct ndn_Data data, unsigned int signedFieldsBeginOffset, unsigned int signedFieldsEndOffset, struct ndn_BinaryXmlEncoder encoder)
	{
	ndn_Error error;
	if ((error = ndn_BinaryXmlEncoder_writeElementStartDTag(encoder, ndn_BinaryXml_DTag_ContentObject)))
	return error;

	if ((error = encodeSignature(&data->signature, encoder)))
	return error;

	*signedFieldsBeginOffset = encoder->offset;

	if ((error = ndn_encodeBinaryXmlName(&data->name, encoder)))
	return error;

	if ((error = encodeSignedInfo(&data->metaInfo, encoder)))
	return error;

	if ((error = ndn_BinaryXmlEncoder_writeBlobDTagElement
	(encoder, ndn_BinaryXml_DTag_Content, data->content, data->contentLength)))
	return error;

	*signedFieldsEndOffset = encoder->offset;

	if ((error = ndn_BinaryXmlEncoder_writeElementClose(encoder)))
	return error;

	return NDN_ERROR_success;
	}

	ndn_Error ndn_decodeBinaryXmlData
	(struct ndn_Data data, unsigned int signedFieldsBeginOffset, unsigned int signedFieldsEndOffset, struct ndn_BinaryXmlDecoder decoder)
	{
	ndn_Error error;
	if ((error = ndn_BinaryXmlDecoder_readElementStartDTag(decoder, ndn_BinaryXml_DTag_ContentObject)))
	return error;

	int gotExpectedTag;
	if ((error = ndn_BinaryXmlDecoder_peekDTag(decoder, ndn_BinaryXml_DTag_Signature, &gotExpectedTag)))
	return error;
	if (gotExpectedTag) {
	if ((error = decodeSignature(&data->signature, decoder)))
	return error;
	}
	else
	ndn_Signature_initialize(&data->signature);

	*signedFieldsBeginOffset = decoder->offset;

	if ((error = ndn_decodeBinaryXmlName(&data->name, decoder)))
	return error;

	if ((error = ndn_BinaryXmlDecoder_peekDTag(decoder, ndn_BinaryXml_DTag_SignedInfo, &gotExpectedTag)))
	return error;
	if (gotExpectedTag) {
	if ((error = decodeSignedInfo(&data->metaInfo, decoder)))
	return error;
	}
	else
	ndn_MetaInfo_initialize(&data->metaInfo, data->metaInfo.keyLocator.keyName.components, data->metaInfo.keyLocator.keyName.maxComponents);

	// Require a Content element, but set allowNull to allow a missing BLOB.
	if ((error = ndn_BinaryXmlDecoder_readBinaryDTagElement
	(decoder, ndn_BinaryXml_DTag_Content, 1, &data->content, &data->contentLength)))
	return error;

	*signedFieldsEndOffset = decoder->offset;

	if ((error = ndn_BinaryXmlDecoder_readElementClose(decoder)))
	return error;

	return NDN_ERROR_success;
	}