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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2016-2019, Regents of the University of California,
* Colorado State University,
* University Pierre & Marie Curie, Sorbonne University.
*
* This file is part of ndn-tools (Named Data Networking Essential Tools).
* See AUTHORS.md for complete list of ndn-tools authors and contributors.
*
* ndn-tools 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.
*
* ndn-tools 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
* ndn-tools, 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 Shuo Yang
* @author Weiwei Liu
* @author Chavoosh Ghasemi
* @author Klaus Schneider
*/
#ifndef NDN_TOOLS_CHUNKS_CATCHUNKS_PIPELINE_INTERESTS_ADAPTIVE_HPP
#define NDN_TOOLS_CHUNKS_CATCHUNKS_PIPELINE_INTERESTS_ADAPTIVE_HPP
#include "options.hpp"
#include "rtt-estimator.hpp"
#include "pipeline-interests.hpp"
#include <queue>
#include <unordered_map>
namespace ndn {
namespace chunks {
class PipelineInterestsAdaptiveOptions : public Options
{
public:
explicit
PipelineInterestsAdaptiveOptions(const Options& options = Options())
: Options(options)
{
}
public:
double initCwnd = 1.0; ///< initial congestion window size
double initSsthresh = std::numeric_limits<double>::max(); ///< initial slow start threshold
double aiStep = 1.0; ///< additive increase step (in segments)
double mdCoef = 0.5; ///< multiplicative decrease coefficient
time::milliseconds rtoCheckInterval{10}; ///< interval for checking retransmission timer
bool disableCwa = false; ///< disable Conservative Window Adaptation
bool resetCwndToInit = false; ///< reduce cwnd to initCwnd when loss event occurs
bool ignoreCongMarks = false; ///< disable window decrease after congestion marks
};
/**
* @brief indicates the state of the segment
*/
enum class SegmentState {
FirstTimeSent, ///< segment has been sent for the first time
InRetxQueue, ///< segment is in retransmission queue
Retransmitted, ///< segment has been retransmitted
};
std::ostream&
operator<<(std::ostream& os, SegmentState state);
/**
* @brief Wraps up information that's necessary for segment transmission
*/
struct SegmentInfo
{
ScopedPendingInterestHandle interestHdl;
time::steady_clock::TimePoint timeSent;
Milliseconds rto;
SegmentState state;
};
/**
* @brief Service for retrieving Data via an Interest pipeline
*
* Retrieves all segmented Data under the specified prefix by maintaining a dynamic
* congestion window combined with a Conservative Loss Adaptation algorithm. For details,
* please refer to the description in section "Interest pipeline types in ndncatchunks" of
* tools/chunks/README.md
*
* Provides retrieved Data on arrival with no ordering guarantees. Data is delivered to the
* PipelineInterests' user via callback immediately upon arrival.
*/
class PipelineInterestsAdaptive : public PipelineInterests
{
public:
typedef PipelineInterestsAdaptiveOptions Options;
public:
/**
* @brief create a PipelineInterestsAdaptive service
*
* Configures the pipelining service without specifying the retrieval namespace. After this
* configuration the method run must be called to start the Pipeline.
*/
PipelineInterestsAdaptive(Face& face, RttEstimator& rttEstimator,
const Options& options = Options());
~PipelineInterestsAdaptive() final;
/**
* @brief Signals when cwnd changes
*
* The callback function should be: void(Milliseconds age, double cwnd) where age is the
* duration since pipeline starts, and cwnd is the new congestion window size (in segments).
*/
signal::Signal<PipelineInterestsAdaptive, Milliseconds, double> afterCwndChange;
private:
/**
* @brief fetch all the segments between 0 and lastSegment of the specified prefix
*
* Starts the pipeline with an adaptive window algorithm to control the window size.
* The pipeline will fetch every segment until the last segment is successfully received
* or an error occurs.
*/
void
doRun() final;
/**
* @brief stop all fetch operations
*/
void
doCancel() final;
/**
* @brief check RTO for all sent-but-not-acked segments.
*/
void
checkRto();
/**
* @param segNo the segment # of the to-be-sent Interest
* @param isRetransmission true if this is a retransmission
*/
void
sendInterest(uint64_t segNo, bool isRetransmission);
void
schedulePackets();
void
handleData(const Interest& interest, const Data& data);
void
handleNack(const Interest& interest, const lp::Nack& nack);
void
handleLifetimeExpiration(const Interest& interest);
void
recordTimeout();
void
enqueueForRetransmission(uint64_t segNo);
void
handleFail(uint64_t segNo, const std::string& reason);
/**
* @brief increase congestion window size
*/
void
increaseWindow();
/**
* @brief decrease congestion window size
*/
void
decreaseWindow();
void
cancelInFlightSegmentsGreaterThan(uint64_t segNo);
PUBLIC_WITH_TESTS_ELSE_PRIVATE:
void
printSummary() const final;
PUBLIC_WITH_TESTS_ELSE_PRIVATE:
static constexpr double MIN_SSTHRESH = 2.0;
const Options m_options;
RttEstimator& m_rttEstimator;
Scheduler m_scheduler;
scheduler::ScopedEventId m_checkRtoEvent;
uint64_t m_highData; ///< the highest segment number of the Data packet the consumer has received so far
uint64_t m_highInterest; ///< the highest segment number of the Interests the consumer has sent so far
uint64_t m_recPoint; ///< the value of m_highInterest when a packet loss event occurred,
///< it remains fixed until the next packet loss event happens
int64_t m_nInFlight; ///< # of segments in flight
int64_t m_nLossDecr; ///< # of window decreases caused by packet loss
int64_t m_nMarkDecr; ///< # of window decreases caused by congestion marks
int64_t m_nTimeouts; ///< # of timed out segments
int64_t m_nSkippedRetx; ///< # of segments queued for retransmission but received before the
///< retransmission occurred
int64_t m_nRetransmitted; ///< # of retransmitted segments
int64_t m_nCongMarks; ///< # of data packets with congestion mark
int64_t m_nSent; ///< # of interest packets sent out (including retransmissions)
double m_cwnd; ///< current congestion window size (in segments)
double m_ssthresh; ///< current slow start threshold
std::unordered_map<uint64_t, SegmentInfo> m_segmentInfo; ///< keeps all the internal information
///< on sent but not acked segments
std::unordered_map<uint64_t, int> m_retxCount; ///< maps segment number to its retransmission count;
///< if the count reaches to the maximum number of
///< timeout/nack retries, the pipeline will be aborted
std::queue<uint64_t> m_retxQueue;
bool m_hasFailure;
uint64_t m_failedSegNo;
std::string m_failureReason;
};
std::ostream&
operator<<(std::ostream& os, const PipelineInterestsAdaptiveOptions& options);
} // namespace chunks
} // namespace ndn
#endif // NDN_TOOLS_CHUNKS_CATCHUNKS_PIPELINE_INTERESTS_ADAPTIVE_HPP