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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2013-2015 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 Alexander Afanasyev <http://lasr.cs.ucla.edu/afanasyev/index.html>
*/
#include "exclude.hpp"
#include "util/concepts.hpp"
#include <boost/range/adaptors.hpp>
namespace ndn {
BOOST_CONCEPT_ASSERT((boost::EqualityComparable<Exclude>));
BOOST_CONCEPT_ASSERT((WireEncodable<Exclude>));
BOOST_CONCEPT_ASSERT((WireDecodable<Exclude>));
static_assert(std::is_base_of<tlv::Error, Exclude::Error>::value,
"Exclude::Error must inherit from tlv::Error");
Exclude::Exclude()
{
}
Exclude::Exclude(const Block& wire)
{
wireDecode(wire);
}
template<encoding::Tag TAG>
size_t
Exclude::wireEncode(EncodingImpl<TAG>& block) const
{
if (m_exclude.empty()) {
throw Error("Exclude filter cannot be empty");
}
size_t totalLength = 0;
// Exclude ::= EXCLUDE-TYPE TLV-LENGTH Any? (NameComponent (Any)?)+
// Any ::= ANY-TYPE TLV-LENGTH(=0)
for (const auto& item : m_exclude) {
if (item.second) {
totalLength += prependBooleanBlock(block, tlv::Any);
}
if (!item.first.empty() || !item.second) {
totalLength += item.first.wireEncode(block);
}
}
totalLength += block.prependVarNumber(totalLength);
totalLength += block.prependVarNumber(tlv::Exclude);
return totalLength;
}
template size_t
Exclude::wireEncode<encoding::EncoderTag>(EncodingImpl<encoding::EncoderTag>& block) const;
template size_t
Exclude::wireEncode<encoding::EstimatorTag>(EncodingImpl<encoding::EstimatorTag>& block) const;
const Block&
Exclude::wireEncode() const
{
if (m_wire.hasWire())
return m_wire;
EncodingEstimator estimator;
size_t estimatedSize = wireEncode(estimator);
EncodingBuffer buffer(estimatedSize, 0);
wireEncode(buffer);
m_wire = buffer.block();
return m_wire;
}
void
Exclude::wireDecode(const Block& wire)
{
clear();
if (wire.type() != tlv::Exclude)
throw tlv::Error("Unexpected TLV type when decoding Exclude");
m_wire = wire;
m_wire.parse();
if (m_wire.elements_size() == 0) {
throw Error("Exclude element cannot be empty");
}
// Exclude ::= EXCLUDE-TYPE TLV-LENGTH Any? (NameComponent (Any)?)+
// Any ::= ANY-TYPE TLV-LENGTH(=0)
Block::element_const_iterator i = m_wire.elements_begin();
if (i->type() == tlv::Any) {
appendExclude(name::Component(), true);
++i;
}
while (i != m_wire.elements_end()) {
name::Component excludedComponent;
try {
excludedComponent = std::move(name::Component(*i));
}
catch (const name::Component::Error&) {
throw Error("Incorrect format of Exclude filter");
}
++i;
if (i != m_wire.elements_end()) {
if (i->type() == tlv::Any) {
appendExclude(excludedComponent, true);
++i;
}
else {
appendExclude(excludedComponent, false);
}
}
else {
appendExclude(excludedComponent, false);
}
}
}
// example: ANY /b /d ANY /f
//
// ordered in map as:
//
// /f (false); /d (true); /b (false); / (true)
//
// lower_bound(/) -> / (true) <-- excluded (equal)
// lower_bound(/a) -> / (true) <-- excluded (any)
// lower_bound(/b) -> /b (false) <--- excluded (equal)
// lower_bound(/c) -> /b (false) <--- not excluded (not equal and no ANY)
// lower_bound(/d) -> /d (true) <- excluded
// lower_bound(/e) -> /d (true) <- excluded
bool
Exclude::isExcluded(const name::Component& comp) const
{
const_iterator lowerBound = m_exclude.lower_bound(comp);
if (lowerBound == end())
return false;
if (lowerBound->second)
return true;
else
return lowerBound->first == comp;
}
Exclude&
Exclude::excludeOne(const name::Component& comp)
{
if (!isExcluded(comp)) {
m_exclude.insert(std::make_pair(comp, false));
m_wire.reset();
}
return *this;
}
// example: ANY /b0 /d0 ANY /f0
//
// ordered in map as:
//
// /f0 (false); /d0 (true); /b0 (false); / (true)
//
// lower_bound(/) -> / (true) <-- excluded (equal)
// lower_bound(/a0) -> / (true) <-- excluded (any)
// lower_bound(/b0) -> /b0 (false) <--- excluded (equal)
// lower_bound(/c0) -> /b0 (false) <--- not excluded (not equal and no ANY)
// lower_bound(/d0) -> /d0 (true) <- excluded
// lower_bound(/e0) -> /d0 (true) <- excluded
// examples with desired outcomes
// excludeRange(/, /f0) -> ANY /f0
// /f0 (false); / (true)
// excludeRange(/, /f1) -> ANY /f1
// /f1 (false); / (true)
// excludeRange(/a0, /e0) -> ANY /f0
// /f0 (false); / (true)
// excludeRange(/a0, /e0) -> ANY /f0
// /f0 (false); / (true)
// excludeRange(/b1, /c0) -> ANY /b0 /b1 ANY /c0 /d0 ANY /f0
// /f0 (false); /d0 (true); /c0 (false); /b1 (true); /b0 (false); / (true)
Exclude&
Exclude::excludeRange(const name::Component& from, const name::Component& to)
{
if (from >= to) {
throw Error("Invalid exclude range [" + from.toUri() + ", " + to.toUri() + "] "
"(for single name exclude use Exclude::excludeOne)");
}
iterator newFrom = m_exclude.lower_bound(from);
if (newFrom == end() || !newFrom->second /*without ANY*/) {
std::pair<iterator, bool> fromResult = m_exclude.insert(std::make_pair(from, true));
newFrom = fromResult.first;
if (!fromResult.second) {
// this means that the lower bound is equal to the item itself. So, just update ANY flag
newFrom->second = true;
}
}
// else
// nothing special if start of the range already exists with ANY flag set
iterator newTo = m_exclude.lower_bound(to); // !newTo cannot be end()
if (newTo == newFrom || !newTo->second) {
std::pair<iterator, bool> toResult = m_exclude.insert(std::make_pair(to, false));
newTo = toResult.first;
++ newTo;
}
// else
// nothing to do really
m_exclude.erase(newTo, newFrom); // remove any intermediate node, since all of the are excluded
m_wire.reset();
return *this;
}
Exclude&
Exclude::excludeAfter(const name::Component& from)
{
iterator newFrom = m_exclude.lower_bound(from);
if (newFrom == end() || !newFrom->second /*without ANY*/) {
std::pair<iterator, bool> fromResult = m_exclude.insert(std::make_pair(from, true));
newFrom = fromResult.first;
if (!fromResult.second) {
// this means that the lower bound is equal to the item itself. So, just update ANY flag
newFrom->second = true;
}
}
// else
// nothing special if start of the range already exists with ANY flag set
if (newFrom != m_exclude.begin()) {
// remove any intermediate node, since all of the are excluded
m_exclude.erase(m_exclude.begin(), newFrom);
}
m_wire.reset();
return *this;
}
std::ostream&
operator<<(std::ostream& os, const Exclude& exclude)
{
bool isFirst = true;
for (const auto& item : exclude | boost::adaptors::reversed) {
if (!item.first.empty() || !item.second) {
if (!isFirst)
os << ",";
os << item.first.toUri();
isFirst = false;
}
if (item.second) {
if (!isFirst)
os << ",";
os << "*";
isFirst = false;
}
}
return os;
}
std::string
Exclude::toUri() const
{
std::ostringstream os;
os << *this;
return os.str();
}
bool
Exclude::operator==(const Exclude& other) const
{
if (empty() && other.empty())
return true;
if (empty() || other.empty())
return false;
return wireEncode() == other.wireEncode();
}
} // namespace ndn