daemon/table/name-tree.cpp - NFD - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2014-2016,  Regents of the University of California,
  *                           Arizona Board of Regents,
  *                           Colorado State University,
  *                           University Pierre & Marie Curie, Sorbonne University,
  *                           Washington University in St. Louis,
  *                           Beijing Institute of Technology,
  *                           The University of Memphis.
  *
  * This file is part of NFD (Named Data Networking Forwarding Daemon).
  * See AUTHORS.md for complete list of NFD authors and contributors.
  *
  * NFD is free software: you can redistribute it and/or modify it under the terms
  * of the GNU General Public License as published by the Free Software Foundation,
  * either version 3 of the License, or (at your option) any later version.
  *
  * NFD 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 General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License along with
  * NFD, e.g., in COPYING.md file.  If not, see <http://www.gnu.org/licenses/>.
  */

 #include "name-tree.hpp"
 #include "core/logger.hpp"

 #include <boost/concept/assert.hpp>
 #include <boost/concept_check.hpp>
 #include <type_traits>

 namespace nfd {
 namespace name_tree {

 NFD_LOG_INIT("NameTree");

 NameTree::NameTree(size_t nBuckets)
   : m_ht(HashtableOptions(nBuckets))
 {
 }

 shared_ptr<Entry>
 NameTree::lookup(const Name& name)
 {
   NFD_LOG_TRACE("lookup " << name);

   HashSequence hashes = computeHashes(name);
   const Node* node = nullptr;
   Entry* parent = nullptr;

   for (size_t prefixLen = 0; prefixLen <= name.size(); ++prefixLen) {
     bool isNew = false;
     std::tie(node, isNew) = m_ht.insert(name, prefixLen, hashes);

     if (isNew && parent != nullptr) {
       node->entry->setParent(*parent);
     }
     parent = node->entry.get();
   }
   return node->entry;
 }

 shared_ptr<Entry>
 NameTree::lookup(const fib::Entry& fibEntry) const
 {
   shared_ptr<Entry> nte = this->getEntry(fibEntry);
   BOOST_ASSERT(nte == nullptr || nte->getFibEntry() == &fibEntry);
   return nte;
 }

 shared_ptr<Entry>
 NameTree::lookup(const pit::Entry& pitEntry)
 {
   shared_ptr<Entry> nte = this->getEntry(pitEntry);
   if (nte == nullptr) {
     return nullptr;
   }

   if (nte->getName().size() == pitEntry.getName().size()) {
     return nte;
   }

   BOOST_ASSERT(pitEntry.getName().at(-1).isImplicitSha256Digest());
   BOOST_ASSERT(nte->getName() == pitEntry.getName().getPrefix(-1));
   return this->lookup(pitEntry.getName());
 }

 shared_ptr<Entry>
 NameTree::lookup(const measurements::Entry& measurementsEntry) const
 {
   shared_ptr<Entry> nte = this->getEntry(measurementsEntry);
   BOOST_ASSERT(nte == nullptr || nte->getMeasurementsEntry() == &measurementsEntry);
   return nte;
 }

 shared_ptr<Entry>
 NameTree::lookup(const strategy_choice::Entry& strategyChoiceEntry) const
 {
   shared_ptr<Entry> nte = this->getEntry(strategyChoiceEntry);
   BOOST_ASSERT(nte == nullptr || nte->getStrategyChoiceEntry() == &strategyChoiceEntry);
   return nte;
 }

 size_t
 NameTree::eraseIfEmpty(Entry* entry)
 {
   BOOST_ASSERT(entry != nullptr);

   size_t nErased = 0;
   for (Entry* parent = nullptr; entry != nullptr && entry->isEmpty(); entry = parent) {
     parent = entry->getParent();

     if (parent != nullptr) {
       entry->unsetParent();
     }

     m_ht.erase(getNode(*entry));
     ++nErased;
   }

   if (nErased == 0) {
     NFD_LOG_TRACE("not-erase " << entry->getName());
   }
   return nErased;
 }

 shared_ptr<Entry>
 NameTree::findExactMatch(const Name& name) const
 {
   const Node* node = m_ht.find(name, name.size());
   return node == nullptr ? nullptr : node->entry;
 }

 // Longest Prefix Match
 shared_ptr<Entry>
 NameTree::findLongestPrefixMatch(const Name& name, const EntrySelector& entrySelector) const
 {
   HashSequence hashes = computeHashes(name);

   for (ssize_t prefixLen = name.size(); prefixLen >= 0; --prefixLen) {
     const Node* node = m_ht.find(name, prefixLen, hashes);
     if (node != nullptr && entrySelector(*node->entry)) {
       return node->entry;
     }
   }

   return nullptr;
 }

 shared_ptr<Entry>
 NameTree::findLongestPrefixMatch(shared_ptr<Entry> entry1,
                                  const EntrySelector& entrySelector) const
 {
   Entry* entry = entry1.get();
   while (entry != nullptr) {
     if (entrySelector(*entry)) {
       return entry->shared_from_this();
     }
     entry = entry->getParent();
   }
   return nullptr;
 }

 shared_ptr<Entry>
 NameTree::findLongestPrefixMatch(const pit::Entry& pitEntry) const
 {
   shared_ptr<Entry> nte = this->getEntry(pitEntry);
   BOOST_ASSERT(nte != nullptr);
   if (nte->getName().size() == pitEntry.getName().size()) {
     return nte;
   }

   BOOST_ASSERT(pitEntry.getName().at(-1).isImplicitSha256Digest());
   BOOST_ASSERT(nte->getName() == pitEntry.getName().getPrefix(-1));
   shared_ptr<Entry> exact = this->findExactMatch(pitEntry.getName());
   return exact == nullptr ? nte : exact;
 }

 boost::iterator_range<NameTree::const_iterator>
 NameTree::findAllMatches(const Name& name, const EntrySelector& entrySelector) const
 {
   NFD_LOG_TRACE("NameTree::findAllMatches" << name);

   // As we are using Name Prefix Hash Table, and the current LPM() is
   // implemented as starting from full name, and reduce the number of
   // components by 1 each time, we could use it here.
   // For trie-like design, it could be more efficient by walking down the
   // trie from the root node.

   shared_ptr<Entry> entry = findLongestPrefixMatch(name, entrySelector);
   return {Iterator(make_shared<PrefixMatchImpl>(*this, entrySelector), entry.get()), end()};
 }

 boost::iterator_range<NameTree::const_iterator>
 NameTree::fullEnumerate(const EntrySelector& entrySelector) const
 {
   NFD_LOG_TRACE("fullEnumerate");

   return {Iterator(make_shared<FullEnumerationImpl>(*this, entrySelector), nullptr), end()};
 }

 boost::iterator_range<NameTree::const_iterator>
 NameTree::partialEnumerate(const Name& prefix,
                            const EntrySubTreeSelector& entrySubTreeSelector) const
 {
   // the first step is to process the root node
   shared_ptr<Entry> entry = findExactMatch(prefix);
   return {Iterator(make_shared<PartialEnumerationImpl>(*this, entrySubTreeSelector), entry.get()), end()};
 }

 } // namespace name_tree
 } // namespace nfd
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2014-2016, Regents of the University of California,
	* Arizona Board of Regents,
	* Colorado State University,
	* University Pierre & Marie Curie, Sorbonne University,
	* Washington University in St. Louis,
	* Beijing Institute of Technology,
	* The University of Memphis.
	*
	* This file is part of NFD (Named Data Networking Forwarding Daemon).
	* See AUTHORS.md for complete list of NFD authors and contributors.
	*
	* NFD is free software: you can redistribute it and/or modify it under the terms
	* of the GNU General Public License as published by the Free Software Foundation,
	* either version 3 of the License, or (at your option) any later version.
	*
	* NFD 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 General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License along with
	* NFD, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
	*/

	#include "name-tree.hpp"
	#include "core/logger.hpp"

	#include <boost/concept/assert.hpp>
	#include <boost/concept_check.hpp>
	#include <type_traits>

	namespace nfd {
	namespace name_tree {

	NFD_LOG_INIT("NameTree");

	NameTree::NameTree(size_t nBuckets)
	: m_ht(HashtableOptions(nBuckets))
	{
	}

	shared_ptr<Entry>
	NameTree::lookup(const Name& name)
	{
	NFD_LOG_TRACE("lookup " << name);

	HashSequence hashes = computeHashes(name);
	const Node* node = nullptr;
	Entry* parent = nullptr;

	for (size_t prefixLen = 0; prefixLen <= name.size(); ++prefixLen) {
	bool isNew = false;
	std::tie(node, isNew) = m_ht.insert(name, prefixLen, hashes);

	if (isNew && parent != nullptr) {
	node->entry->setParent(*parent);
	}
	parent = node->entry.get();
	}
	return node->entry;
	}

	shared_ptr<Entry>
	NameTree::lookup(const fib::Entry& fibEntry) const
	{
	shared_ptr<Entry> nte = this->getEntry(fibEntry);
	BOOST_ASSERT(nte == nullptr \|\| nte->getFibEntry() == &fibEntry);
	return nte;
	}

	shared_ptr<Entry>
	NameTree::lookup(const pit::Entry& pitEntry)
	{
	shared_ptr<Entry> nte = this->getEntry(pitEntry);
	if (nte == nullptr) {
	return nullptr;
	}

	if (nte->getName().size() == pitEntry.getName().size()) {
	return nte;
	}

	BOOST_ASSERT(pitEntry.getName().at(-1).isImplicitSha256Digest());
	BOOST_ASSERT(nte->getName() == pitEntry.getName().getPrefix(-1));
	return this->lookup(pitEntry.getName());
	}

	shared_ptr<Entry>
	NameTree::lookup(const measurements::Entry& measurementsEntry) const
	{
	shared_ptr<Entry> nte = this->getEntry(measurementsEntry);
	BOOST_ASSERT(nte == nullptr \|\| nte->getMeasurementsEntry() == &measurementsEntry);
	return nte;
	}

	shared_ptr<Entry>
	NameTree::lookup(const strategy_choice::Entry& strategyChoiceEntry) const
	{
	shared_ptr<Entry> nte = this->getEntry(strategyChoiceEntry);
	BOOST_ASSERT(nte == nullptr \|\| nte->getStrategyChoiceEntry() == &strategyChoiceEntry);
	return nte;
	}

	size_t
	NameTree::eraseIfEmpty(Entry* entry)
	{
	BOOST_ASSERT(entry != nullptr);

	size_t nErased = 0;
	for (Entry* parent = nullptr; entry != nullptr && entry->isEmpty(); entry = parent) {
	parent = entry->getParent();

	if (parent != nullptr) {
	entry->unsetParent();
	}

	m_ht.erase(getNode(*entry));
	++nErased;
	}

	if (nErased == 0) {
	NFD_LOG_TRACE("not-erase " << entry->getName());
	}
	return nErased;
	}

	shared_ptr<Entry>
	NameTree::findExactMatch(const Name& name) const
	{
	const Node* node = m_ht.find(name, name.size());
	return node == nullptr ? nullptr : node->entry;
	}

	// Longest Prefix Match
	shared_ptr<Entry>
	NameTree::findLongestPrefixMatch(const Name& name, const EntrySelector& entrySelector) const
	{
	HashSequence hashes = computeHashes(name);

	for (ssize_t prefixLen = name.size(); prefixLen >= 0; --prefixLen) {
	const Node* node = m_ht.find(name, prefixLen, hashes);
	if (node != nullptr && entrySelector(*node->entry)) {
	return node->entry;
	}
	}

	return nullptr;
	}

	shared_ptr<Entry>
	NameTree::findLongestPrefixMatch(shared_ptr<Entry> entry1,
	const EntrySelector& entrySelector) const
	{
	Entry* entry = entry1.get();
	while (entry != nullptr) {
	if (entrySelector(*entry)) {
	return entry->shared_from_this();
	}
	entry = entry->getParent();
	}
	return nullptr;
	}

	shared_ptr<Entry>
	NameTree::findLongestPrefixMatch(const pit::Entry& pitEntry) const
	{
	shared_ptr<Entry> nte = this->getEntry(pitEntry);
	BOOST_ASSERT(nte != nullptr);
	if (nte->getName().size() == pitEntry.getName().size()) {
	return nte;
	}

	BOOST_ASSERT(pitEntry.getName().at(-1).isImplicitSha256Digest());
	BOOST_ASSERT(nte->getName() == pitEntry.getName().getPrefix(-1));
	shared_ptr<Entry> exact = this->findExactMatch(pitEntry.getName());
	return exact == nullptr ? nte : exact;
	}

	boost::iterator_range<NameTree::const_iterator>
	NameTree::findAllMatches(const Name& name, const EntrySelector& entrySelector) const
	{
	NFD_LOG_TRACE("NameTree::findAllMatches" << name);

	// As we are using Name Prefix Hash Table, and the current LPM() is
	// implemented as starting from full name, and reduce the number of
	// components by 1 each time, we could use it here.
	// For trie-like design, it could be more efficient by walking down the
	// trie from the root node.

	shared_ptr<Entry> entry = findLongestPrefixMatch(name, entrySelector);
	return {Iterator(make_shared<PrefixMatchImpl>(*this, entrySelector), entry.get()), end()};
	}

	boost::iterator_range<NameTree::const_iterator>
	NameTree::fullEnumerate(const EntrySelector& entrySelector) const
	{
	NFD_LOG_TRACE("fullEnumerate");

	return {Iterator(make_shared<FullEnumerationImpl>(*this, entrySelector), nullptr), end()};
	}

	boost::iterator_range<NameTree::const_iterator>
	NameTree::partialEnumerate(const Name& prefix,
	const EntrySubTreeSelector& entrySubTreeSelector) const
	{
	// the first step is to process the root node
	shared_ptr<Entry> entry = findExactMatch(prefix);
	return {Iterator(make_shared<PartialEnumerationImpl>(*this, entrySubTreeSelector), entry.get()), end()};
	}

	} // namespace name_tree
	} // namespace nfd