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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2013-2014 Regents of the University of California.
*
* This file is part of ndn-cxx library (NDN C++ library with eXperimental eXtensions).
*
* ndn-cxx library is free software: you can redistribute it and/or modify it under the
* terms of the GNU Lesser General Public License as published by the Free Software
* Foundation, either version 3 of the License, or (at your option) any later version.
*
* ndn-cxx library is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
* PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.
*
* You should have received copies of the GNU General Public License and GNU Lesser
* General Public License along with ndn-cxx, e.g., in COPYING.md file. If not, see
* <http://www.gnu.org/licenses/>.
*
* See AUTHORS.md for complete list of ndn-cxx authors and contributors.
*
* @author Jeff Thompson <jefft0@remap.ucla.edu>
* @author Alexander Afanasyev <http://lasr.cs.ucla.edu/afanasyev/index.html>
* @author Zhenkai Zhu <http://irl.cs.ucla.edu/~zhenkai/>
*/
#include "name-component.hpp"
#include "encoding/block-helpers.hpp"
#include "encoding/encoding-buffer.hpp"
#include "util/string-helper.hpp"
#include "util/concepts.hpp"
namespace ndn {
namespace name {
BOOST_CONCEPT_ASSERT((boost::EqualityComparable<Component>));
BOOST_CONCEPT_ASSERT((WireEncodable<Component>));
BOOST_CONCEPT_ASSERT((WireDecodable<Component>));
static_assert(std::is_base_of<tlv::Error, Component::Error>::value,
"name::Component::Error must inherit from tlv::Error");
Component::Component()
: Block(tlv::NameComponent)
{
}
Component::Component(const Block& wire)
: Block(wire)
{
if (type() != tlv::NameComponent)
throw Error("Cannot construct name::Component from not a NameComponent TLV wire block");
}
Component::Component(const ConstBufferPtr& buffer)
: Block(tlv::NameComponent, buffer)
{
}
Component::Component(const Buffer& value)
: Block(dataBlock(tlv::NameComponent, value.buf(), value.size()))
{
}
Component::Component(const uint8_t* value, size_t valueLen)
: Block(dataBlock(tlv::NameComponent, value, valueLen))
{
}
Component::Component(const char* str)
: Block(dataBlock(tlv::NameComponent, str, std::char_traits<char>::length(str)))
{
}
Component::Component(const std::string& str)
: Block(dataBlock(tlv::NameComponent, str.c_str(), str.size()))
{
}
Component
Component::fromEscapedString(const char* escapedString, size_t beginOffset, size_t endOffset)
{
std::string trimmedString(escapedString + beginOffset, escapedString + endOffset);
trim(trimmedString);
std::string value = unescape(trimmedString);
if (value.find_first_not_of(".") == std::string::npos) {
// Special case for component of only periods.
if (value.size() <= 2)
// Zero, one or two periods is illegal. Ignore this component.
throw Error("Illegal URI (name component cannot be . or ..)");
else
// Remove 3 periods.
return Component(reinterpret_cast<const uint8_t*>(&value[3]), value.size() - 3);
}
else
return Component(reinterpret_cast<const uint8_t*>(&value[0]), value.size());
}
void
Component::toUri(std::ostream& result) const
{
const uint8_t* value = this->value();
size_t valueSize = value_size();
bool gotNonDot = false;
for (size_t i = 0; i < valueSize; ++i) {
if (value[i] != 0x2e) {
gotNonDot = true;
break;
}
}
if (!gotNonDot) {
// Special case for component of zero or more periods. Add 3 periods.
result << "...";
for (size_t i = 0; i < valueSize; ++i)
result << '.';
}
else {
// In case we need to escape, set to upper case hex and save the previous flags.
std::ios::fmtflags saveFlags = result.flags(std::ios::hex | std::ios::uppercase);
for (size_t i = 0; i < valueSize; ++i) {
uint8_t x = value[i];
// Check for 0-9, A-Z, a-z, (+), (-), (.), (_)
if ((x >= 0x30 && x <= 0x39) || (x >= 0x41 && x <= 0x5a) ||
(x >= 0x61 && x <= 0x7a) || x == 0x2b || x == 0x2d ||
x == 0x2e || x == 0x5f)
result << x;
else {
result << '%';
if (x < 16)
result << '0';
result << static_cast<uint32_t>(x);
}
}
// Restore.
result.flags(saveFlags);
}
}
std::string
Component::toUri() const
{
std::ostringstream os;
toUri(os);
return os.str();
}
bool
Component::isNumber() const
{
return (value_size() == 1 || value_size() == 2 ||
value_size() == 4 || value_size() == 8);
}
bool
Component::isNumberWithMarker(uint8_t marker) const
{
return (!empty() && value()[0] == marker &&
(value_size() == 2 || value_size() == 3 ||
value_size() == 5 || value_size() == 9));
}
bool
Component::isVersion() const
{
return isNumberWithMarker(VERSION_MARKER);
}
bool
Component::isSegment() const
{
return isNumberWithMarker(SEGMENT_MARKER);
}
bool
Component::isSegmentOffset() const
{
return isNumberWithMarker(SEGMENT_OFFSET_MARKER);
}
bool
Component::isTimestamp() const
{
return isNumberWithMarker(TIMESTAMP_MARKER);
}
bool
Component::isSequenceNumber() const
{
return isNumberWithMarker(SEQUENCE_NUMBER_MARKER);
}
uint64_t
Component::toNumber() const
{
if (!isNumber())
throw Error("Name component does not have nonNegativeInteger value");
return readNonNegativeInteger(*this);
}
uint64_t
Component::toNumberWithMarker(uint8_t marker) const
{
if (!isNumberWithMarker(marker))
throw Error("Name component does not have the requested marker "
"or the value is not a nonNegativeInteger");
Buffer::const_iterator valueBegin = value_begin() + 1;
return tlv::readNonNegativeInteger(value_size() - 1, valueBegin, value_end());
}
uint64_t
Component::toVersion() const
{
return toNumberWithMarker(VERSION_MARKER);
}
uint64_t
Component::toSegment() const
{
return toNumberWithMarker(SEGMENT_MARKER);
}
uint64_t
Component::toSegmentOffset() const
{
return toNumberWithMarker(SEGMENT_OFFSET_MARKER);
}
time::system_clock::TimePoint
Component::toTimestamp() const
{
uint64_t value = toNumberWithMarker(TIMESTAMP_MARKER);
return time::getUnixEpoch() + time::microseconds(value);
}
uint64_t
Component::toSequenceNumber() const
{
return toNumberWithMarker(SEQUENCE_NUMBER_MARKER);
}
Component
Component::fromNumber(uint64_t number)
{
/// \todo Change to tlv::NumberComponent
return nonNegativeIntegerBlock(tlv::NameComponent, number);
}
Component
Component::fromNumberWithMarker(uint8_t marker, uint64_t number)
{
EncodingEstimator estimator;
size_t valueLength = estimator.prependNonNegativeInteger(number);
valueLength += estimator.prependByteArray(&marker, 1);
size_t totalLength = valueLength;
totalLength += estimator.prependVarNumber(valueLength);
totalLength += estimator.prependVarNumber(tlv::NameComponent);
EncodingBuffer encoder(totalLength, 0);
encoder.prependNonNegativeInteger(number);
encoder.prependByteArray(&marker, 1);
encoder.prependVarNumber(valueLength);
encoder.prependVarNumber(tlv::NameComponent);
return encoder.block();
}
Component
Component::fromVersion(uint64_t version)
{
return fromNumberWithMarker(VERSION_MARKER, version);
}
Component
Component::fromSegment(uint64_t segmentNo)
{
return fromNumberWithMarker(SEGMENT_MARKER, segmentNo);
}
Component
Component::fromSegmentOffset(uint64_t offset)
{
return fromNumberWithMarker(SEGMENT_OFFSET_MARKER, offset);
}
Component
Component::fromTimestamp(const time::system_clock::TimePoint& timePoint)
{
using namespace time;
uint64_t value = duration_cast<microseconds>(timePoint - getUnixEpoch()).count();
return fromNumberWithMarker(TIMESTAMP_MARKER, value);
}
Component
Component::fromSequenceNumber(uint64_t seqNo)
{
return fromNumberWithMarker(SEQUENCE_NUMBER_MARKER, seqNo);
}
int
Component::compare(const Component& other) const
{
// Imitate ndn_Exclude_compareComponents.
if (value_size() < other.value_size())
return -1;
if (value_size() > other.value_size())
return 1;
if (value_size() == 0)
return 0;
// The components are equal length. Just do a byte compare.
return std::memcmp(value(), other.value(), value_size());
}
Component
Component::getSuccessor() const
{
size_t totalLength = 0;
EncodingBuffer encoder(size() + 1, 1); // + 1 in case there is an overflow
// in unlikely case TLV length increases,
// EncodingBuffer will take care of that
bool isOverflow = true;
size_t i = value_size();
for (; isOverflow && i > 0; i--) {
uint8_t newValue = static_cast<uint8_t>((value()[i - 1] + 1) & 0xFF);
totalLength += encoder.prependByte(newValue);
isOverflow = (newValue == 0);
}
totalLength += encoder.prependByteArray(value(), i);
if (isOverflow) {
// new name components has to be extended
totalLength += encoder.appendByte(0);
}
totalLength += encoder.prependVarNumber(totalLength);
totalLength += encoder.prependVarNumber(tlv::NameComponent);
return encoder.block();
}
template<bool T>
size_t
Component::wireEncode(EncodingImpl<T>& block) const
{
size_t totalLength = 0;
if (value_size() > 0)
totalLength += block.prependByteArray(value(), value_size());
totalLength += block.prependVarNumber(value_size());
totalLength += block.prependVarNumber(tlv::NameComponent);
return totalLength;
}
template size_t
Component::wireEncode<true>(EncodingImpl<true>& block) const;
template size_t
Component::wireEncode<false>(EncodingImpl<false>& block) const;
const Block&
Component::wireEncode() const
{
if (this->hasWire())
return *this;
EncodingEstimator estimator;
size_t estimatedSize = wireEncode(estimator);
EncodingBuffer buffer(estimatedSize, 0);
wireEncode(buffer);
const_cast<Component&>(*this) = buffer.block();
return *this;
}
void
Component::wireDecode(const Block& wire)
{
if (wire.type() != tlv::NameComponent)
throw Error("name::Component::wireDecode called on not a NameComponent TLV wire block");
*this = wire;
}
} // namespace name
} // namespace ndn