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Junxiao Shi0e42c572014-10-05 20:33:48 -07001/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
2/**
3 * Copyright (c) 2014, Regents of the University of California,
4 * Arizona Board of Regents,
5 * Colorado State University,
6 * University Pierre & Marie Curie, Sorbonne University,
7 * Washington University in St. Louis,
8 * Beijing Institute of Technology,
9 * The University of Memphis
10 *
11 * This file is part of NFD (Named Data Networking Forwarding Daemon).
12 * See AUTHORS.md for complete list of NFD authors and contributors.
13 *
14 * NFD is free software: you can redistribute it and/or modify it under the terms
15 * of the GNU General Public License as published by the Free Software Foundation,
16 * either version 3 of the License, or (at your option) any later version.
17 *
18 * NFD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
19 * without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
20 * PURPOSE. See the GNU General Public License for more details.
21 *
22 * You should have received a copy of the GNU General Public License along with
23 * NFD, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
24 */
25
26#include "dead-nonce-list.hpp"
27#include "core/city-hash.hpp"
28#include "core/logger.hpp"
29
30NFD_LOG_INIT("DeadNonceList");
31
32namespace nfd {
33
34const time::nanoseconds DeadNonceList::DEFAULT_LIFETIME = time::seconds(6);
35const time::nanoseconds DeadNonceList::MIN_LIFETIME = time::milliseconds(1);
36const size_t DeadNonceList::INITIAL_CAPACITY = (1 << 7);
37const size_t DeadNonceList::MIN_CAPACITY = (1 << 3);
38const size_t DeadNonceList::MAX_CAPACITY = (1 << 24);
39const DeadNonceList::Entry DeadNonceList::MARK = 0;
40const size_t DeadNonceList::EXPECTED_MARK_COUNT = 5;
41const double DeadNonceList::CAPACITY_UP = 1.2;
42const double DeadNonceList::CAPACITY_DOWN = 0.9;
43const size_t DeadNonceList::EVICT_LIMIT = (1 << 6);
44
45DeadNonceList::DeadNonceList(const time::nanoseconds& lifetime)
46 : m_lifetime(lifetime)
47 , m_queue(m_index.get<0>())
48 , m_ht(m_index.get<1>())
49 , m_capacity(INITIAL_CAPACITY)
50 , m_markInterval(m_lifetime / EXPECTED_MARK_COUNT)
51 , m_adjustCapacityInterval(m_lifetime)
52{
53 if (m_lifetime < MIN_LIFETIME) {
Spyridon Mastorakis149e02c2015-07-27 13:22:22 -070054 BOOST_THROW_EXCEPTION(std::invalid_argument("lifetime is less than MIN_LIFETIME"));
Junxiao Shi0e42c572014-10-05 20:33:48 -070055 }
56
57 for (size_t i = 0; i < EXPECTED_MARK_COUNT; ++i) {
58 m_queue.push_back(MARK);
59 }
60
61 m_markEvent = scheduler::schedule(m_markInterval, bind(&DeadNonceList::mark, this));
62 m_adjustCapacityEvent = scheduler::schedule(m_adjustCapacityInterval,
63 bind(&DeadNonceList::adjustCapacity, this));
64}
65
66DeadNonceList::~DeadNonceList()
67{
68 scheduler::cancel(m_markEvent);
69 scheduler::cancel(m_adjustCapacityEvent);
70
Junxiao Shi3a8b1b52014-11-08 21:26:07 -070071 BOOST_ASSERT_MSG(DEFAULT_LIFETIME >= MIN_LIFETIME, "DEFAULT_LIFETIME is too small");
72 static_assert(INITIAL_CAPACITY >= MIN_CAPACITY, "INITIAL_CAPACITY is too small");
73 static_assert(INITIAL_CAPACITY <= MAX_CAPACITY, "INITIAL_CAPACITY is too large");
74 BOOST_ASSERT_MSG(static_cast<size_t>(MIN_CAPACITY * CAPACITY_UP) > MIN_CAPACITY,
75 "CAPACITY_UP must be able to increase from MIN_CAPACITY");
76 BOOST_ASSERT_MSG(static_cast<size_t>(MAX_CAPACITY * CAPACITY_DOWN) < MAX_CAPACITY,
77 "CAPACITY_DOWN must be able to decrease from MAX_CAPACITY");
78 BOOST_ASSERT_MSG(CAPACITY_UP > 1.0, "CAPACITY_UP must adjust up");
79 BOOST_ASSERT_MSG(CAPACITY_DOWN < 1.0, "CAPACITY_DOWN must adjust down");
80 static_assert(EVICT_LIMIT >= 1, "EVICT_LIMIT must be at least 1");
Junxiao Shi0e42c572014-10-05 20:33:48 -070081}
82
83size_t
84DeadNonceList::size() const
85{
86 return m_queue.size() - this->countMarks();
87}
88
89bool
90DeadNonceList::has(const Name& name, uint32_t nonce) const
91{
92 Entry entry = DeadNonceList::makeEntry(name, nonce);
93 return m_ht.find(entry) != m_ht.end();
94}
95
96void
97DeadNonceList::add(const Name& name, uint32_t nonce)
98{
Junxiao Shi3a8b1b52014-11-08 21:26:07 -070099 Entry entry = DeadNonceList::makeEntry(name, nonce);
Junxiao Shi0e42c572014-10-05 20:33:48 -0700100 m_queue.push_back(entry);
101
102 this->evictEntries();
103}
104
105DeadNonceList::Entry
106DeadNonceList::makeEntry(const Name& name, uint32_t nonce)
107{
108 Block nameWire = name.wireEncode();
109 return CityHash64WithSeed(reinterpret_cast<const char*>(nameWire.wire()), nameWire.size(),
110 static_cast<uint64_t>(nonce));
111}
112
113size_t
114DeadNonceList::countMarks() const
115{
116 return m_ht.count(MARK);
117}
118
119void
120DeadNonceList::mark()
121{
122 m_queue.push_back(MARK);
123 size_t nMarks = this->countMarks();
124 m_actualMarkCounts.insert(nMarks);
125
Davide Pesavento0e97a972015-02-22 03:50:21 +0100126 NFD_LOG_TRACE("mark nMarks=" << nMarks);
Junxiao Shi0e42c572014-10-05 20:33:48 -0700127
128 scheduler::schedule(m_markInterval, bind(&DeadNonceList::mark, this));
129}
130
131void
132DeadNonceList::adjustCapacity()
133{
134 std::pair<std::multiset<size_t>::iterator, std::multiset<size_t>::iterator> equalRange =
135 m_actualMarkCounts.equal_range(EXPECTED_MARK_COUNT);
136
137 if (equalRange.second == m_actualMarkCounts.begin()) {
138 // all counts are above expected count, adjust down
139 m_capacity = std::max(MIN_CAPACITY,
140 static_cast<size_t>(m_capacity * CAPACITY_DOWN));
Davide Pesavento0e97a972015-02-22 03:50:21 +0100141 NFD_LOG_TRACE("adjustCapacity DOWN capacity=" << m_capacity);
Junxiao Shi0e42c572014-10-05 20:33:48 -0700142 }
143 else if (equalRange.first == m_actualMarkCounts.end()) {
144 // all counts are below expected count, adjust up
145 m_capacity = std::min(MAX_CAPACITY,
146 static_cast<size_t>(m_capacity * CAPACITY_UP));
Davide Pesavento0e97a972015-02-22 03:50:21 +0100147 NFD_LOG_TRACE("adjustCapacity UP capacity=" << m_capacity);
Junxiao Shi0e42c572014-10-05 20:33:48 -0700148 }
149
150 m_actualMarkCounts.clear();
151
152 this->evictEntries();
153
154 m_adjustCapacityEvent = scheduler::schedule(m_adjustCapacityInterval,
155 bind(&DeadNonceList::adjustCapacity, this));
156}
157
158void
159DeadNonceList::evictEntries()
160{
161 ssize_t nOverCapacity = m_queue.size() - m_capacity;
162 if (nOverCapacity <= 0) // not over capacity
163 return;
164
165 for (ssize_t nEvict = std::min<ssize_t>(nOverCapacity, EVICT_LIMIT); nEvict > 0; --nEvict) {
166 m_queue.erase(m_queue.begin());
167 }
168 BOOST_ASSERT(m_queue.size() >= m_capacity);
169}
170
171} // namespace nfd