src/fetcher.cpp - ChronoShare - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2013-2017, Regents of the University of California.
  *
  * This file is part of ChronoShare, a decentralized file sharing application over NDN.
  *
  * ChronoShare 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.
  *
  * ChronoShare 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 copies of the GNU General Public License along with
  * ChronoShare, e.g., in COPYING.md file.  If not, see <http://www.gnu.org/licenses/>.
  *
  * See AUTHORS.md for complete list of ChronoShare authors and contributors.
  */

 #include "fetcher.h"
 #include "ccnx-pco.h"
 #include "fetch-manager.h"
 #include "logging.h"

 #include <boost/date_time/posix_time/posix_time.hpp>
 #include <boost/make_shared.hpp>
 #include <boost/ref.hpp>
 #include <boost/throw_exception.hpp>

 _LOG_INIT(Fetcher);

 using namespace boost;
 using namespace std;
 using namespace Ndnx;

 Fetcher::Fetcher(Ccnx::CcnxWrapperPtr ccnx, ExecutorPtr executor,
                  const SegmentCallback& segmentCallback, const FinishCallback& finishCallback,
                  OnFetchCompleteCallback onFetchComplete, OnFetchFailedCallback onFetchFailed,
                  const Ccnx::Name& deviceName, const Ccnx::Name& name, int64_t minSeqNo,
                  int64_t maxSeqNo,
                  boost::posix_time::time_duration timeout /* = boost::posix_time::seconds (30)*/,
                  const Ccnx::Name& forwardingHint /* = Ccnx::Name ()*/)
   : m_ccnx(ccnx)

   , m_segmentCallback(segmentCallback)
   , m_onFetchComplete(onFetchComplete)
   , m_onFetchFailed(onFetchFailed)
   , m_finishCallback(finishCallback)

   , m_active(false)
   , m_timedwait(false)
   , m_name(name)
   , m_deviceName(deviceName)
   , m_forwardingHint(forwardingHint)
   , m_maximumNoActivityPeriod(timeout)

   , m_minSendSeqNo(minSeqNo - 1)
   , m_maxInOrderRecvSeqNo(minSeqNo - 1)
   , m_minSeqNo(minSeqNo)
   , m_maxSeqNo(maxSeqNo)

   , m_pipeline(6) // initial "congestion window"
   , m_activePipeline(0)
   , m_retryPause(0)
   , m_nextScheduledRetry(date_time::second_clock<boost::posix_time::ptime>::universal_time())
   , m_executor(executor) // must be 1
 {
 }

 Fetcher::~Fetcher()
 {
 }

 void
 Fetcher::RestartPipeline()
 {
   m_active = true;
   m_minSendSeqNo = m_maxInOrderRecvSeqNo;
   // cout << "Restart: " << m_minSendSeqNo << endl;
   m_lastPositiveActivity = date_time::second_clock<boost::posix_time::ptime>::universal_time();

   m_executor->execute(bind(&Fetcher::FillPipeline, this));
 }

 void
 Fetcher::SetForwardingHint(const Ccnx::Name& forwardingHint)
 {
   m_forwardingHint = forwardingHint;
 }

 void
 Fetcher::FillPipeline()
 {
   for (; m_minSendSeqNo < m_maxSeqNo && m_activePipeline < m_pipeline; m_minSendSeqNo++) {
     unique_lock<mutex> lock(m_seqNoMutex);

     if (m_outOfOrderRecvSeqNo.find(m_minSendSeqNo + 1) != m_outOfOrderRecvSeqNo.end())
       continue;

     if (m_inActivePipeline.find(m_minSendSeqNo + 1) != m_inActivePipeline.end())
       continue;

     m_inActivePipeline.insert(m_minSendSeqNo + 1);

     _LOG_DEBUG(" >>> i " << Name(m_forwardingHint)(m_name) << ", seq = " << (m_minSendSeqNo + 1));

     // cout << ">>> " << m_minSendSeqNo+1 << endl;
     m_ccnx->sendInterest(Name(m_forwardingHint)(m_name)(m_minSendSeqNo + 1),
                          Closure(bind(&Fetcher::OnData, this, m_minSendSeqNo + 1, _1, _2),
                                  bind(&Fetcher::OnTimeout, this, m_minSendSeqNo + 1, _1, _2, _3)),
                          Selectors().interestLifetime(1)); // Alex: this lifetime should be changed to RTO
     _LOG_DEBUG(" >>> i ok");

     m_activePipeline++;
   }
 }

 void
 Fetcher::OnData(uint64_t seqno, const Ccnx::Name& name, PcoPtr data)
 {
   m_executor->execute(bind(&Fetcher::OnData_Execute, this, seqno, name, data));
 }

 void
 Fetcher::OnData_Execute(uint64_t seqno, Ccnx::Name name, Ccnx::PcoPtr data)
 {
   _LOG_DEBUG(" <<< d " << name.getPartialName(0, name.size() - 1) << ", seq = " << seqno);

   if (m_forwardingHint == Name()) {
     // TODO: check verified!!!!
     if (true) {
       if (!m_segmentCallback.empty()) {
         m_segmentCallback(m_deviceName, m_name, seqno, data);
       }
     }
     else {
       _LOG_ERROR("Can not verify signature content. Name = " << data->name());
       // probably needs to do more in the future
     }
     // we don't have to tell FetchManager about this
   }
   else {
     // in this case we don't care whether "data" is verified,  in fact, we expect it is unverified
     try {
       PcoPtr pco = make_shared<ParsedContentObject>(*data->contentPtr());

       // we need to verify this pco and apply callback only when verified
       // TODO: check verified !!!
       if (true) {
         if (!m_segmentCallback.empty()) {
           m_segmentCallback(m_deviceName, m_name, seqno, pco);
         }
       }
       else {
         _LOG_ERROR("Can not verify signature content. Name = " << pco->name());
         // probably needs to do more in the future
       }
     }
     catch (MisformedContentObjectException& e) {
       cerr << "MisformedContentObjectException..." << endl;
       // no idea what should do...
       // let's ignore for now
     }
   }

   m_activePipeline--;
   m_lastPositiveActivity = date_time::second_clock<boost::posix_time::ptime>::universal_time();

   {
     unique_lock<mutex> lock (m_pipelineMutex);
     if(m_slowStart){
       m_pipeline++;
       if(m_pipeline == m_threshold)
         m_slowStart = false;
     }
     else{
       m_roundCount++;
       _LOG_DEBUG ("roundCount: " << m_roundCount);
       if(m_roundCount == m_pipeline){
         m_pipeline++;
         m_roundCount = 0;
       }
     }
   }

   _LOG_DEBUG ("slowStart: " << boolalpha << m_slowStart << " pipeline: " << m_pipeline << " threshold: " << m_threshold);


   ////////////////////////////////////////////////////////////////////////////
   unique_lock<mutex> lock(m_seqNoMutex);

   m_outOfOrderRecvSeqNo.insert(seqno);
   m_inActivePipeline.erase(seqno);
   _LOG_DEBUG("Total segments received: " << m_outOfOrderRecvSeqNo.size());
   set<int64_t>::iterator inOrderSeqNo = m_outOfOrderRecvSeqNo.begin();
   for (; inOrderSeqNo != m_outOfOrderRecvSeqNo.end(); inOrderSeqNo++) {
     _LOG_TRACE("Checking " << *inOrderSeqNo << " and " << m_maxInOrderRecvSeqNo + 1);
     if (*inOrderSeqNo == m_maxInOrderRecvSeqNo + 1) {
       m_maxInOrderRecvSeqNo = *inOrderSeqNo;
     }
     else if (*inOrderSeqNo < m_maxInOrderRecvSeqNo + 1) // not possible anymore, but just in case
     {
       continue;
     }
     else
       break;
   }
   m_outOfOrderRecvSeqNo.erase(m_outOfOrderRecvSeqNo.begin(), inOrderSeqNo);
   ////////////////////////////////////////////////////////////////////////////

   _LOG_TRACE("Max in order received: " << m_maxInOrderRecvSeqNo
                                        << ", max seqNo to request: " << m_maxSeqNo);

   if (m_maxInOrderRecvSeqNo == m_maxSeqNo) {
     _LOG_TRACE("Fetch finished: " << m_name);
     m_active = false;
     // invoke callback
     if (!m_finishCallback.empty()) {
       _LOG_TRACE("Notifying callback");
       m_finishCallback(m_deviceName, m_name);
     }

     // tell FetchManager that we have finish our job
     // m_onFetchComplete (*this);
     // using executor, so we won't be deleted if there is scheduled FillPipeline call
     if (!m_onFetchComplete.empty()) {
       m_timedwait = true;
       m_executor->execute(bind(m_onFetchComplete, ref(*this), m_deviceName, m_name));
     }
   }
   else {
     m_executor->execute(bind(&Fetcher::FillPipeline, this));
   }
 }

 void
 Fetcher::OnTimeout(uint64_t seqno, const Ccnx::Name& name, const Closure& closure, Selectors selectors)
 {
   _LOG_DEBUG(this << ", " << m_executor.get());
   m_executor->execute(bind(&Fetcher::OnTimeout_Execute, this, seqno, name, closure, selectors));
 }

 void
 Fetcher::OnTimeout_Execute(uint64_t seqno, Ccnx::Name name, Ccnx::Closure closure,
                            Ccnx::Selectors selectors)
 {
   _LOG_DEBUG(" <<< :( timeout " << name.getPartialName(0, name.size() - 1) << ", seq = " << seqno);

   // cout << "Fetcher::OnTimeout: " << name << endl;
   // cout << "Last: " << m_lastPositiveActivity << ", config: " << m_maximumNoActivityPeriod
   //      << ", now: " << date_time::second_clock<boost::posix_time::ptime>::universal_time()
   //      << ", oldest: " << (date_time::second_clock<boost::posix_time::ptime>::universal_time() - m_maximumNoActivityPeriod) << endl;

   if (m_lastPositiveActivity < (date_time::second_clock<boost::posix_time::ptime>::universal_time() -
                                 m_maximumNoActivityPeriod)) {
     bool done = false;
     {
       unique_lock<mutex> lock(m_seqNoMutex);
       m_inActivePipeline.erase(seqno);
       m_activePipeline--;

       if (m_activePipeline == 0) {
         done = true;
       }
     }

     if (done) {
       {
         unique_lock<mutex> lock(m_seqNoMutex);
         _LOG_DEBUG("Telling that fetch failed");
         _LOG_DEBUG("Active pipeline size should be zero: " << m_inActivePipeline.size());
       }

       m_active = false;
       if (!m_onFetchFailed.empty()) {
         m_onFetchFailed(ref(*this));
       }
       // this is not valid anymore, but we still should be able finish work
     }
   }
   else {
     _LOG_DEBUG("Asking to reexpress seqno: " << seqno);
     m_ccnx->sendInterest(name, closure, selectors);
   }
 }
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2013-2017, Regents of the University of California.
	*
	* This file is part of ChronoShare, a decentralized file sharing application over NDN.
	*
	* ChronoShare 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.
	*
	* ChronoShare 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 copies of the GNU General Public License along with
	* ChronoShare, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
	*
	* See AUTHORS.md for complete list of ChronoShare authors and contributors.
	*/

	#include "fetcher.h"
	#include "ccnx-pco.h"
	#include "fetch-manager.h"
	#include "logging.h"

	#include <boost/date_time/posix_time/posix_time.hpp>
	#include <boost/make_shared.hpp>
	#include <boost/ref.hpp>
	#include <boost/throw_exception.hpp>

	_LOG_INIT(Fetcher);

	using namespace boost;
	using namespace std;
	using namespace Ndnx;

	Fetcher::Fetcher(Ccnx::CcnxWrapperPtr ccnx, ExecutorPtr executor,
	const SegmentCallback& segmentCallback, const FinishCallback& finishCallback,
	OnFetchCompleteCallback onFetchComplete, OnFetchFailedCallback onFetchFailed,
	const Ccnx::Name& deviceName, const Ccnx::Name& name, int64_t minSeqNo,
	int64_t maxSeqNo,
	boost::posix_time::time_duration timeout /* = boost::posix_time::seconds (30)*/,
	const Ccnx::Name& forwardingHint /* = Ccnx::Name ()*/)
	: m_ccnx(ccnx)

	, m_segmentCallback(segmentCallback)
	, m_onFetchComplete(onFetchComplete)
	, m_onFetchFailed(onFetchFailed)
	, m_finishCallback(finishCallback)

	, m_active(false)
	, m_timedwait(false)
	, m_name(name)
	, m_deviceName(deviceName)
	, m_forwardingHint(forwardingHint)
	, m_maximumNoActivityPeriod(timeout)

	, m_minSendSeqNo(minSeqNo - 1)
	, m_maxInOrderRecvSeqNo(minSeqNo - 1)
	, m_minSeqNo(minSeqNo)
	, m_maxSeqNo(maxSeqNo)

	, m_pipeline(6) // initial "congestion window"
	, m_activePipeline(0)
	, m_retryPause(0)
	, m_nextScheduledRetry(date_time::second_clock<boost::posix_time::ptime>::universal_time())
	, m_executor(executor) // must be 1
	{
	}

	Fetcher::~Fetcher()
	{
	}

	void
	Fetcher::RestartPipeline()
	{
	m_active = true;
	m_minSendSeqNo = m_maxInOrderRecvSeqNo;
	// cout << "Restart: " << m_minSendSeqNo << endl;
	m_lastPositiveActivity = date_time::second_clock<boost::posix_time::ptime>::universal_time();

	m_executor->execute(bind(&Fetcher::FillPipeline, this));
	}

	void
	Fetcher::SetForwardingHint(const Ccnx::Name& forwardingHint)
	{
	m_forwardingHint = forwardingHint;
	}

	void
	Fetcher::FillPipeline()
	{
	for (; m_minSendSeqNo < m_maxSeqNo && m_activePipeline < m_pipeline; m_minSendSeqNo++) {
	unique_lock<mutex> lock(m_seqNoMutex);

	if (m_outOfOrderRecvSeqNo.find(m_minSendSeqNo + 1) != m_outOfOrderRecvSeqNo.end())
	continue;

	if (m_inActivePipeline.find(m_minSendSeqNo + 1) != m_inActivePipeline.end())
	continue;

	m_inActivePipeline.insert(m_minSendSeqNo + 1);

	_LOG_DEBUG(" >>> i " << Name(m_forwardingHint)(m_name) << ", seq = " << (m_minSendSeqNo + 1));

	// cout << ">>> " << m_minSendSeqNo+1 << endl;
	m_ccnx->sendInterest(Name(m_forwardingHint)(m_name)(m_minSendSeqNo + 1),
	Closure(bind(&Fetcher::OnData, this, m_minSendSeqNo + 1, _1, _2),
	bind(&Fetcher::OnTimeout, this, m_minSendSeqNo + 1, _1, _2, _3)),
	Selectors().interestLifetime(1)); // Alex: this lifetime should be changed to RTO
	_LOG_DEBUG(" >>> i ok");

	m_activePipeline++;
	}
	}

	void
	Fetcher::OnData(uint64_t seqno, const Ccnx::Name& name, PcoPtr data)
	{
	m_executor->execute(bind(&Fetcher::OnData_Execute, this, seqno, name, data));
	}

	void
	Fetcher::OnData_Execute(uint64_t seqno, Ccnx::Name name, Ccnx::PcoPtr data)
	{
	_LOG_DEBUG(" <<< d " << name.getPartialName(0, name.size() - 1) << ", seq = " << seqno);

	if (m_forwardingHint == Name()) {
	// TODO: check verified!!!!
	if (true) {
	if (!m_segmentCallback.empty()) {
	m_segmentCallback(m_deviceName, m_name, seqno, data);
	}
	}
	else {
	_LOG_ERROR("Can not verify signature content. Name = " << data->name());
	// probably needs to do more in the future
	}
	// we don't have to tell FetchManager about this
	}
	else {
	// in this case we don't care whether "data" is verified, in fact, we expect it is unverified
	try {
	PcoPtr pco = make_shared<ParsedContentObject>(*data->contentPtr());

	// we need to verify this pco and apply callback only when verified
	// TODO: check verified !!!
	if (true) {
	if (!m_segmentCallback.empty()) {
	m_segmentCallback(m_deviceName, m_name, seqno, pco);
	}
	}
	else {
	_LOG_ERROR("Can not verify signature content. Name = " << pco->name());
	// probably needs to do more in the future
	}
	}
	catch (MisformedContentObjectException& e) {
	cerr << "MisformedContentObjectException..." << endl;
	// no idea what should do...
	// let's ignore for now
	}
	}

	m_activePipeline--;
	m_lastPositiveActivity = date_time::second_clock<boost::posix_time::ptime>::universal_time();

	{
	unique_lock<mutex> lock (m_pipelineMutex);
	if(m_slowStart){
	m_pipeline++;
	if(m_pipeline == m_threshold)
	m_slowStart = false;
	}
	else{
	m_roundCount++;
	_LOG_DEBUG ("roundCount: " << m_roundCount);
	if(m_roundCount == m_pipeline){
	m_pipeline++;
	m_roundCount = 0;
	}
	}
	}

	_LOG_DEBUG ("slowStart: " << boolalpha << m_slowStart << " pipeline: " << m_pipeline << " threshold: " << m_threshold);


	////////////////////////////////////////////////////////////////////////////
	unique_lock<mutex> lock(m_seqNoMutex);

	m_outOfOrderRecvSeqNo.insert(seqno);
	m_inActivePipeline.erase(seqno);
	_LOG_DEBUG("Total segments received: " << m_outOfOrderRecvSeqNo.size());
	set<int64_t>::iterator inOrderSeqNo = m_outOfOrderRecvSeqNo.begin();
	for (; inOrderSeqNo != m_outOfOrderRecvSeqNo.end(); inOrderSeqNo++) {
	_LOG_TRACE("Checking " << *inOrderSeqNo << " and " << m_maxInOrderRecvSeqNo + 1);
	if (*inOrderSeqNo == m_maxInOrderRecvSeqNo + 1) {
	m_maxInOrderRecvSeqNo = *inOrderSeqNo;
	}
	else if (*inOrderSeqNo < m_maxInOrderRecvSeqNo + 1) // not possible anymore, but just in case
	{
	continue;
	}
	else
	break;
	}
	m_outOfOrderRecvSeqNo.erase(m_outOfOrderRecvSeqNo.begin(), inOrderSeqNo);
	////////////////////////////////////////////////////////////////////////////

	_LOG_TRACE("Max in order received: " << m_maxInOrderRecvSeqNo
	<< ", max seqNo to request: " << m_maxSeqNo);

	if (m_maxInOrderRecvSeqNo == m_maxSeqNo) {
	_LOG_TRACE("Fetch finished: " << m_name);
	m_active = false;
	// invoke callback
	if (!m_finishCallback.empty()) {
	_LOG_TRACE("Notifying callback");
	m_finishCallback(m_deviceName, m_name);
	}

	// tell FetchManager that we have finish our job
	// m_onFetchComplete (*this);
	// using executor, so we won't be deleted if there is scheduled FillPipeline call
	if (!m_onFetchComplete.empty()) {
	m_timedwait = true;
	m_executor->execute(bind(m_onFetchComplete, ref(*this), m_deviceName, m_name));
	}
	}
	else {
	m_executor->execute(bind(&Fetcher::FillPipeline, this));
	}
	}

	void
	Fetcher::OnTimeout(uint64_t seqno, const Ccnx::Name& name, const Closure& closure, Selectors selectors)
	{
	_LOG_DEBUG(this << ", " << m_executor.get());
	m_executor->execute(bind(&Fetcher::OnTimeout_Execute, this, seqno, name, closure, selectors));
	}

	void
	Fetcher::OnTimeout_Execute(uint64_t seqno, Ccnx::Name name, Ccnx::Closure closure,
	Ccnx::Selectors selectors)
	{
	_LOG_DEBUG(" <<< :( timeout " << name.getPartialName(0, name.size() - 1) << ", seq = " << seqno);

	// cout << "Fetcher::OnTimeout: " << name << endl;
	// cout << "Last: " << m_lastPositiveActivity << ", config: " << m_maximumNoActivityPeriod
	// << ", now: " << date_time::second_clock<boost::posix_time::ptime>::universal_time()
	// << ", oldest: " << (date_time::second_clock<boost::posix_time::ptime>::universal_time() - m_maximumNoActivityPeriod) << endl;

	if (m_lastPositiveActivity < (date_time::second_clock<boost::posix_time::ptime>::universal_time() -
	m_maximumNoActivityPeriod)) {
	bool done = false;
	{
	unique_lock<mutex> lock(m_seqNoMutex);
	m_inActivePipeline.erase(seqno);
	m_activePipeline--;

	if (m_activePipeline == 0) {
	done = true;
	}
	}

	if (done) {
	{
	unique_lock<mutex> lock(m_seqNoMutex);
	_LOG_DEBUG("Telling that fetch failed");
	_LOG_DEBUG("Active pipeline size should be zero: " << m_inActivePipeline.size());
	}

	m_active = false;
	if (!m_onFetchFailed.empty()) {
	m_onFetchFailed(ref(*this));
	}
	// this is not valid anymore, but we still should be able finish work
	}
	}
	else {
	_LOG_DEBUG("Asking to reexpress seqno: " << seqno);
	m_ccnx->sendInterest(name, closure, selectors);
	}
	}