blob: a2fd405f89bf841eadc95cf3259806e69118d79a [file] [log] [blame]
/*
* Author: Jeff Thompson
*
* BSD license, See the LICENSE file for more information.
*/
#include "../util/ndn_memory.h"
#include "BinaryXML.h"
#include "BinaryXMLDecoder.h"
#include "BinaryXMLStructureDecoder.h"
void ndn_BinaryXMLStructureDecoder_init(struct ndn_BinaryXMLStructureDecoder *self)
{
self->gotElementEnd = 0;
self->offset = 0;
self->level = 0;
self->state = ndn_BinaryXMLStructureDecoder_READ_HEADER_OR_CLOSE;
self->headerLength = 0;
self->useHeaderBuffer = 0;
self->nBytesToRead = 0;
}
/**
* Set the state to READ_HEADER_OR_CLOSE and set up to start reading the header.
*/
static inline void startHeader(struct ndn_BinaryXMLStructureDecoder *self)
{
self->headerLength = 0;
self->useHeaderBuffer = 0;
self->state = ndn_BinaryXMLStructureDecoder_READ_HEADER_OR_CLOSE;
}
char *ndn_BinaryXMLStructureDecoder_findElementEnd
(struct ndn_BinaryXMLStructureDecoder *self, unsigned char *input, unsigned int inputLength)
{
if (self->gotElementEnd)
// Someone is calling when we already got the end.
return 0;
struct ndn_BinaryXMLDecoder decoder;
ndn_BinaryXMLDecoder_init(&decoder, input, inputLength);
while (1) {
if (self->offset >= inputLength)
// All the cases assume we have some input. Return and wait for more.
return 0;
if (self->state == ndn_BinaryXMLStructureDecoder_READ_HEADER_OR_CLOSE) {
// First check for CLOSE.
if (self->headerLength == 0 && input[self->offset] == ndn_BinaryXML_CLOSE) {
++self->offset;
// Close the level.
--self->level;
if (self->level == 0) {
// Finished.
self->gotElementEnd = 1;
return 0;
}
if (self->level < 0)
return "ndn_BinaryXMLStructureDecoder_findElementEnd: Unexpected close tag";
// Get ready for the next header.
startHeader(self);
continue;
}
unsigned int startingHeaderLength = self->headerLength;
while (1) {
if (self->offset >= inputLength) {
// We can't get all of the header bytes from this input. Save in headerBuffer.
if (self->headerLength > sizeof(self->headerBuffer))
return "ndn_BinaryXMLStructureDecoder_findElementEnd: Can't store more header bytes than the size of headerBuffer";
self->useHeaderBuffer = 1;
unsigned int nNewBytes = self->headerLength - startingHeaderLength;
ndn_memcpy(self->headerBuffer + startingHeaderLength, input + (self->offset - nNewBytes), nNewBytes);
return 0;
}
unsigned int headerByte = (unsigned int)input[self->offset++];
++self->headerLength;
if (headerByte & ndn_BinaryXML_TT_FINAL)
// Break and read the header.
break;
}
unsigned int type;
unsigned int value;
if (self->useHeaderBuffer) {
// Copy the remaining bytes into headerBuffer.
if (self->headerLength > sizeof(self->headerBuffer))
return "ndn_BinaryXMLStructureDecoder_findElementEnd: Can't store more header bytes than the size of headerBuffer";
unsigned int nNewBytes = self->headerLength - startingHeaderLength;
ndn_memcpy(self->headerBuffer + startingHeaderLength, input + (self->offset - nNewBytes), nNewBytes);
// Use a local decoder just for the headerBuffer.
struct ndn_BinaryXMLDecoder bufferDecoder;
ndn_BinaryXMLDecoder_init(&bufferDecoder, self->headerBuffer, sizeof(self->headerBuffer));
if (ndn_BinaryXMLDecoder_decodeTypeAndValue(&bufferDecoder, &type, &value))
return "ndn_BinaryXMLStructureDecoder_findElementEnd: Can't read header type and value";
}
else {
// We didn't have to use the headerBuffer.
ndn_BinaryXMLDecoder_seek(&decoder, self->offset - self->headerLength);
if (ndn_BinaryXMLDecoder_decodeTypeAndValue(&decoder, &type, &value))
return "ndn_BinaryXMLStructureDecoder_findElementEnd: Can't read header type and value";
}
// Set the next state based on the type.
if (type == ndn_BinaryXML_DATTR)
// We already consumed the item. READ_HEADER_OR_CLOSE again.
// Binary XML has rules about what must follow an attribute, but we are just scanning.
startHeader(self);
else if (type == ndn_BinaryXML_DTAG || type == ndn_BinaryXML_EXT) {
// Start a new level and READ_HEADER_OR_CLOSE again.
++self->level;
startHeader(self);
}
else if (type == ndn_BinaryXML_TAG || type == ndn_BinaryXML_ATTR) {
if (type == ndn_BinaryXML_TAG)
// Start a new level and read the tag.
++self->level;
// Minimum tag or attribute length is 1.
self->nBytesToRead = value + 1;
self->state = ndn_BinaryXMLStructureDecoder_READ_BYTES;
// Binary XML has rules about what must follow an attribute, but we are just scanning.
}
else if (type == ndn_BinaryXML_BLOB || type == ndn_BinaryXML_UDATA) {
self->nBytesToRead = value;
self->state = ndn_BinaryXMLStructureDecoder_READ_BYTES;
}
else
return "ndn_BinaryXMLStructureDecoder_findElementEnd: Unrecognized header type";
}
else if (self->state == ndn_BinaryXMLStructureDecoder_READ_BYTES) {
unsigned int nRemainingBytes = inputLength - self->offset;
if (nRemainingBytes < self->nBytesToRead) {
// Need more.
self->offset += nRemainingBytes;
self->nBytesToRead -= nRemainingBytes;
return 0;
}
// Got the bytes. Read a new header or close.
self->offset += self->nBytesToRead;
startHeader(self);
}
else
// We don't expect this to happen.
return "ndn_BinaryXMLStructureDecoder_findElementEnd: Unrecognized state";
}
}