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gerrit.named-data.net / ndn-cxx / 09c613f7826ad1089258e562d21b6a7780369c3e / . / src / encoding / block.cpp
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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -*- */
/*
* Copyright (c) 2013, Regents of the University of California
*
* BSD license, See the LICENSE file for more information
*
* Author: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
*/
#include "encoding/block.hpp"
#include "encoding/tlv.hpp"
namespace ndn {
Block::Block()
: m_type(std::numeric_limits<uint32_t>::max())
{
}
Block::Block(const ConstBufferPtr &wire,
uint32_t type,
const Buffer::const_iterator &begin, Buffer::const_iterator &end,
const Buffer::const_iterator &valueBegin, Buffer::const_iterator &valueEnd)
: m_buffer(wire)
, m_type(type)
, m_begin(begin)
, m_end(end)
, m_size(m_end - m_begin)
, m_value_begin(valueBegin)
, m_value_end(valueEnd)
{
}
Block::Block(const ConstBufferPtr &buffer)
: m_buffer(buffer)
, m_begin(m_buffer->begin())
, m_end(m_buffer->end())
, m_size(m_end - m_begin)
{
m_value_begin = m_buffer->begin();
m_value_end = m_buffer->end();
m_type = Tlv::readType(m_value_begin, m_value_end);
uint64_t length = Tlv::readVarNumber(m_value_begin, m_value_end);
if (length != (m_value_end - m_value_begin))
{
throw Tlv::Error("TLV length doesn't match buffer length");
}
}
Block::Block(std::istream& is)
{
std::istream_iterator<uint8_t> tmp_begin(is);
std::istream_iterator<uint8_t> tmp_end;
m_type = Tlv::readType(tmp_begin, tmp_end);
uint64_t length = Tlv::readVarNumber(tmp_begin, tmp_end);
// We may still have some problem here, if some exception happens in this constructor, we may completely lose all the bytes extracted from the stream.
OBufferStream os;
size_t headerLength = Tlv::writeVarNumber(os, m_type);
headerLength += Tlv::writeVarNumber(os, length);
char* buf = new char[length];
buf[0] = *tmp_begin;
is.read(buf+1, length-1);
if(length-1 != is.gcount())
{
delete [] buf;
throw Tlv::Error("Not enough data in the buffer to fully parse TLV");
}
os.write(buf, length);
delete [] buf;
m_buffer = os.buf();
m_begin = m_buffer->begin();
m_end = m_buffer->end();
m_size = m_end - m_begin;
m_value_begin = m_buffer->begin() + headerLength;
m_value_end = m_buffer->end();
}
Block::Block(const uint8_t *buffer, size_t maxlength)
{
const uint8_t * tmp_begin = buffer;
const uint8_t * tmp_end = buffer + maxlength;
m_type = Tlv::readType(tmp_begin, tmp_end);
uint64_t length = Tlv::readVarNumber(tmp_begin, tmp_end);
if (length > (tmp_end - tmp_begin))
{
throw Tlv::Error("Not enough data in the buffer to fully parse TLV");
}
m_buffer = ptr_lib::make_shared<Buffer> (buffer, (tmp_begin - buffer) + length);
m_begin = m_buffer->begin();
m_end = m_buffer->end();
m_size = m_end - m_begin;
m_value_begin = m_buffer->begin() + (tmp_begin - buffer);
m_value_end = m_buffer->end();
}
Block::Block(const void *bufferX, size_t maxlength)
{
const uint8_t * buffer = reinterpret_cast<const uint8_t*>(bufferX);
const uint8_t * tmp_begin = buffer;
const uint8_t * tmp_end = buffer + maxlength;
m_type = Tlv::readType(tmp_begin, tmp_end);
uint64_t length = Tlv::readVarNumber(tmp_begin, tmp_end);
if (length > (tmp_end - tmp_begin))
{
throw Tlv::Error("Not enough data in the buffer to fully parse TLV");
}
m_buffer = ptr_lib::make_shared<Buffer> (buffer, (tmp_begin - buffer) + length);
m_begin = m_buffer->begin();
m_end = m_buffer->end();
m_size = m_end - m_begin;
m_value_begin = m_buffer->begin() + (tmp_begin - buffer);
m_value_end = m_buffer->end();
}
Block::Block(uint32_t type)
: m_type(type)
{
}
Block::Block(uint32_t type, const ConstBufferPtr &value)
: m_buffer(value)
, m_type(type)
, m_begin(m_buffer->end())
, m_end(m_buffer->end())
, m_value_begin(m_buffer->begin())
, m_value_end(m_buffer->end())
{
m_size = Tlv::sizeOfVarNumber(m_type) + Tlv::sizeOfVarNumber(value_size()) + value_size();
}
Block::Block(uint32_t type, const Block &value)
: m_buffer(value.m_buffer)
, m_type(type)
, m_begin(m_buffer->end())
, m_end(m_buffer->end())
, m_value_begin(m_buffer->begin())
, m_value_end(m_buffer->end())
{
m_size = Tlv::sizeOfVarNumber(m_type) + Tlv::sizeOfVarNumber(value_size()) + value_size();
}
void
Block::parse()
{
if (!m_subBlocks.empty() || value_size()==0)
return;
Buffer::const_iterator begin = value_begin(),
end = value_end();
while (begin != end)
{
Buffer::const_iterator element_begin = begin;
uint32_t type = Tlv::readType(begin, end);
uint64_t length = Tlv::readVarNumber(begin, end);
if (end-begin < length)
{
m_subBlocks.clear();
throw Tlv::Error("TLV length exceeds buffer length");
}
Buffer::const_iterator element_end = begin + length;
m_subBlocks.push_back(Block(m_buffer,
type,
element_begin, element_end,
begin, element_end));
begin = element_end;
// don't do recursive parsing, just the top level
}
}
void
Block::encode()
{
if (hasWire())
return;
OBufferStream os;
Tlv::writeVarNumber(os, type());
if (hasValue())
{
Tlv::writeVarNumber(os, value_size());
os.write(reinterpret_cast<const char*>(value()), value_size());
}
else
{
size_t valueSize = 0;
for (element_const_iterator i = m_subBlocks.begin(); i != m_subBlocks.end(); ++i) {
valueSize += i->size();
}
Tlv::writeVarNumber(os, valueSize);
for (element_const_iterator i = m_subBlocks.begin(); i != m_subBlocks.end(); ++i) {
if (i->hasWire())
os.write(reinterpret_cast<const char*>(i->wire()), i->size());
else if (i->hasValue()) {
Tlv::writeVarNumber(os, i->type());
Tlv::writeVarNumber(os, i->value_size());
os.write(reinterpret_cast<const char*>(i->value()), i->value_size());
}
else
throw Error("Underlying value buffer is empty");
}
}
// now assign correct block
m_buffer = os.buf();
m_begin = m_buffer->begin();
m_end = m_buffer->end();
m_size = m_end - m_begin;
m_value_begin = m_buffer->begin();
m_value_end = m_buffer->end();
Tlv::readType(m_value_begin, m_value_end);
Tlv::readVarNumber(m_value_begin, m_value_end);
}
} // namespace ndn