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/**
* @author: Jeff Thompson
* See COPYING for copyright and distribution information.
*/
#ifndef NDN_BINARYXMLENCODER_H
#define NDN_BINARYXMLENCODER_H
#include "../errors.h"
#include "../util/dynamic-uchar-array.h"
#include "binary-xml.h"
#ifdef __cplusplus
extern "C" {
#endif
/** An ndn_BinaryXmlEncoder struct is used by all the encoding functions. You should initialize it with
* ndn_BinaryXmlEncoder_init.
*/
struct ndn_BinaryXmlEncoder {
struct ndn_DynamicUCharArray output; /**< receives the encoded output */
unsigned int offset; /**< the offset into output.array for the next encoding */
};
/**
* Initialize an ndn_BinaryXmlEncoder_init struct with the arguments for initializing the ndn_DynamicUCharArray.
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param outputArray the allocated array buffer to receive the encoding
* @param outputArrayLength the length of outputArray
* @param reallocFunction the realloc function used by ndn_DynamicUCharArray_ensureLength. If outputArrayLength
* is large enough to receive the entire encoding, this can be 0.
*/
static inline void ndn_BinaryXmlEncoder_init
(struct ndn_BinaryXmlEncoder *self, unsigned char *outputArray, unsigned int outputArrayLength,
unsigned char * (*reallocFunction)(unsigned char *, unsigned int))
{
ndn_DynamicUCharArray_init(&self->output, outputArray, outputArrayLength, reallocFunction);
self->offset = 0;
}
/**
* Encode a header with the type and value and write it to self->output.
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param type the header type
* @param value the header value
* @return 0 for success, else an error code
*/
ndn_Error ndn_BinaryXmlEncoder_encodeTypeAndValue(struct ndn_BinaryXmlEncoder *self, unsigned int type, unsigned int value);
/**
* Write an element start header using DTAG with the tag to self->output.
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param tag the DTAG tag
* @return 0 for success, else an error code
*/
static inline ndn_Error ndn_BinaryXmlEncoder_writeElementStartDTag(struct ndn_BinaryXmlEncoder *self, unsigned int tag)
{
return ndn_BinaryXmlEncoder_encodeTypeAndValue(self, ndn_BinaryXml_DTAG, tag);
}
/**
* Write an element close to self->output.
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @return 0 for success, else an error code
*/
ndn_Error ndn_BinaryXmlEncoder_writeElementClose(struct ndn_BinaryXmlEncoder *self);
/**
* Write a BLOB header, then the bytes of the blob value to self->output.
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param value an array of bytes for the blob value
* @param valueLength the length of the array
* @return 0 for success, else an error code
*/
ndn_Error ndn_BinaryXmlEncoder_writeBlob(struct ndn_BinaryXmlEncoder *self, unsigned char *value, unsigned int valueLength);
/**
* Write an element start header using DTAG with the tag to self->output, then the blob, then an element close.
* (If you want to just write the blob, use ndn_BinaryXmlEncoder_writeBlob .)
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param tag the DTAG tag
* @param value an array of bytes for the blob value
* @param valueLength the length of the array
* @return 0 for success, else an error code
*/
ndn_Error ndn_BinaryXmlEncoder_writeBlobDTagElement(struct ndn_BinaryXmlEncoder *self, unsigned int tag, unsigned char *value, unsigned int valueLength);
/**
* If value or valueLen is 0 then do nothing, otherwise call ndn_BinaryXmlEncoder_writeBlobDTagElement.
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param tag the DTAG tag
* @param value an array of bytes for the blob value
* @param valueLength the length of the array
* @return 0 for success, else an error code
*/
static inline ndn_Error ndn_BinaryXmlEncoder_writeOptionalBlobDTagElement
(struct ndn_BinaryXmlEncoder *self, unsigned int tag, unsigned char *value, unsigned int valueLength)
{
if (value && valueLength > 0)
return ndn_BinaryXmlEncoder_writeBlobDTagElement(self, tag, value, valueLength);
else
return (ndn_Error)0;
}
/**
* Write a UDATA header, then the value as an unsigned decimal integer.
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param value the unsigned int
* @return 0 for success, else an error code
*/
ndn_Error ndn_BinaryXmlEncoder_writeUnsignedDecimalInt(struct ndn_BinaryXmlEncoder *self, unsigned int value);
/**
* Write an element start header using DTAG with the tag to self->output, then the value as an unsigned decimal integer,
* then an element close.
* (If you want to just write the integer, use ndn_BinaryXmlEncoder_writeUnsignedDecimalInt .)
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param tag the DTAG tag
* @param value the unsigned int
* @return 0 for success, else an error code
*/
ndn_Error ndn_BinaryXmlEncoder_writeUnsignedDecimalIntDTagElement(struct ndn_BinaryXmlEncoder *self, unsigned int tag, unsigned int value);
/**
* If value is negative then do nothing, otherwise call ndn_BinaryXmlEncoder_writeUnsignedDecimalIntDTagElement.
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param tag the DTAG tag
* @param value negative for none, otherwise use (unsigned int)value
* @return 0 for success, else an error code
*/
static inline ndn_Error ndn_BinaryXmlEncoder_writeOptionalUnsignedDecimalIntDTagElement(struct ndn_BinaryXmlEncoder *self, unsigned int tag, int value)
{
if (value >= 0)
return ndn_BinaryXmlEncoder_writeUnsignedDecimalIntDTagElement(self, tag, (unsigned int)value);
else
return (ndn_Error)0;
}
/**
* Write a BLOB header, then the absolute value of value to self->output encoded as big endian.
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param value the double to encode as big endian. If value is 0, the big endian encoding has zero bytes.
* The value is converted to absolute value.
* @return 0 for success, else an error code
*/
ndn_Error ndn_BinaryXmlEncoder_writeAbsDoubleBigEndianBlob(struct ndn_BinaryXmlEncoder *self, double value);
/**
* Write an element start header using DTAG with the tag to self->output, then the absolute value of milliseconds
* as a big endian BLOB converted to 4096 ticks per second, then an element close.
* (If you want to just write the integer, use ndn_BinaryXmlEncoder_writeUnsignedDecimalInt .)
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param tag the DTAG tag
* @param milliseconds the the number of milliseconds
* @return 0 for success, else an error code
*/
ndn_Error ndn_BinaryXmlEncoder_writeTimeMillisecondsDTagElement(struct ndn_BinaryXmlEncoder *self, unsigned int tag, double milliseconds);
/**
* If milliseconds is negative then do nothing, otherwise call ndn_BinaryXmlEncoder_writeTimeMillisecondsDTagElement.
* @param self pointer to the ndn_BinaryXmlEncoder struct
* @param tag the DTAG tag
* @param milliseconds negative for none, otherwise the number of milliseconds
* @return 0 for success, else an error code
*/
static inline ndn_Error ndn_BinaryXmlEncoder_writeOptionalTimeMillisecondsDTagElement
(struct ndn_BinaryXmlEncoder *self, unsigned int tag, double milliseconds)
{
if (milliseconds >= 0)
return ndn_BinaryXmlEncoder_writeTimeMillisecondsDTagElement(self, tag, milliseconds);
else
return (ndn_Error)0;
}
#ifdef __cplusplus
}
#endif
#endif