RetroShare/libretroshare/src/pqi/pqihandler.cc

/*
 * "$Id: pqihandler.cc,v 1.12 2007-03-31 09:41:32 rmf24 Exp $"
 *
 * 3P/PQI network interface for RetroShare.
 *
 * Copyright 2004-2006 by Robert Fernie.
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Library General Public
 * License Version 2 as published by the Free Software Foundation.
 *
 * This 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
 * Library General Public License for more details.
 *
 * You should have received a copy of the GNU Library General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
 * USA.
 *
 * Please report all bugs and problems to "retroshare@lunamutt.com".
 *
 */

#include "pqi/pqihandler.h"

#include "util/rsdebug.h"
#include "util/rsstring.h"
#include <stdlib.h>
#include <time.h>

using std::dec;

#include <time.h>
#include <sys/time.h>
#ifdef WINDOWS_SYS
#include <sys/timeb.h>
#endif

//#define PQI_HDL_DEBUG_UR 1

#ifdef PQI_HDL_DEBUG_UR
static double getCurrentTS()
{

#ifndef WINDOWS_SYS
        struct timeval cts_tmp;
        gettimeofday(&cts_tmp, NULL);
        double cts =  (cts_tmp.tv_sec) + ((double) cts_tmp.tv_usec) / 1000000.0;
#else
        struct _timeb timebuf;
        _ftime( &timebuf);
        double cts =  (timebuf.time) + ((double) timebuf.millitm) / 1000.0;
#endif
        return cts;
}
#endif

const int pqihandlerzone = 34283;

static const int PQI_HANDLER_NB_PRIORITY_LEVELS = 10 ;
static const float PQI_HANDLER_NB_PRIORITY_RATIO = 2 ;

/****
#define DEBUG_TICK 1
#define RSITEM_DEBUG 1
****/

pqihandler::pqihandler() : coreMtx("pqihandler")
{
	RsStackMutex stack(coreMtx); /**************** LOCKED MUTEX ****************/

	// setup minimal total+individual rates.
	rateIndiv_out = 0.01;
	rateIndiv_in = 0.01;
	rateMax_out = 0.01;
    rateMax_in = 0.01;
    rateTotal_in = 0.0 ;
    rateTotal_out = 0.0 ;
    last_m = time(NULL) ;
	nb_ticks = 0 ;
	ticks_per_sec = 5 ; // initial guess
    return;
}

int	pqihandler::tick()
{
	int moreToTick = 0;

	{
		RsStackMutex stack(coreMtx); /**************** LOCKED MUTEX ****************/

		// tick all interfaces...
		std::map<RsPeerId, SearchModule *>::iterator it;
		for(it = mods.begin(); it != mods.end(); ++it)
		{
			if (0 < ((it -> second) -> pqi) -> tick())
			{
#ifdef DEBUG_TICK
				std::cerr << "pqihandler::tick() moreToTick from mod()" << std::endl;
#endif
				moreToTick = 1;
			}
		}
#ifdef TO_BE_REMOVED
		// get the items, and queue them correctly
		if (0 < locked_GetItems())
		{
#ifdef DEBUG_TICK
			std::cerr << "pqihandler::tick() moreToTick from GetItems()" << std::endl;
#endif
			moreToTick = 1;
		}
#endif
    }

//     static time_t last_print_time = 0 ;
//     time_t now = time(NULL) ;
//     if(now > last_print_time + 3)
//     {
//         std::map<uint16_t,uint32_t> per_service_count ;
//         std::vector<uint32_t> per_priority_count ;
//
//         ExtractOutQueueStatistics(per_service_count,per_priority_count) ;
//
//         std::cerr << "PQIHandler outqueues: " << std::endl;
//
//         for(std::map<uint16_t,uint32_t>::const_iterator it=per_service_count.begin();it!=per_service_count.end();++it)
//             std::cerr << "  " << std::hex << it->first << std::dec << "  " << it->second << std::endl;
//
//         for(int i=0;i<per_priority_count.size();++i)
//             std::cerr << "  " << i << " : " << per_priority_count[i] << std::endl;
//
//         last_print_time = now ;
//     }

	UpdateRates();
	return moreToTick;
}


bool pqihandler::queueOutRsItem(RsItem *item)
{
	RsStackMutex stack(coreMtx); /**************** LOCKED MUTEX ****************/

	uint32_t size ;
    locked_HandleRsItem(item, size);

#ifdef DEBUG_QOS
	if(item->priority_level() == QOS_PRIORITY_UNKNOWN)
		std::cerr << "Caught an unprioritized item !" << std::endl;

	print() ;
#endif
	return true ;
}

int	pqihandler::status()
{
	std::map<RsPeerId, SearchModule *>::iterator it;
	RsStackMutex stack(coreMtx); /**************** LOCKED MUTEX ****************/

	{ // for output
		std::string out = "pqihandler::status() Active Modules:\n";

		// display all interfaces...
		for(it = mods.begin(); it != mods.end(); ++it)
		{
			rs_sprintf_append(out, "\tModule [%s] Pointer <%p>", it -> first.toStdString().c_str(), (void *) ((it -> second) -> pqi));
		}

		pqioutput(PQL_DEBUG_BASIC, pqihandlerzone, out);

	} // end of output.


	// status all interfaces...
	for(it = mods.begin(); it != mods.end(); ++it)
	{
		((it -> second) -> pqi) -> status();
	}
	return 1;
}

bool	pqihandler::AddSearchModule(SearchModule *mod)
{
	RsStackMutex stack(coreMtx); /**************** LOCKED MUTEX ****************/
	// if peerid used -> error.
	std::map<RsPeerId, SearchModule *>::iterator it;
	if (mod->peerid != mod->pqi->PeerId())
	{
		// ERROR!
		pqioutput(PQL_ALERT, pqihandlerzone, "ERROR peerid != PeerId!");
		return false;
	}

	if (mod->peerid.isNull())
	{
		// ERROR!
		pqioutput(PQL_ALERT, pqihandlerzone, "ERROR peerid == NULL");
		return false;
	}

	if (mods.find(mod->peerid) != mods.end())
	{
		// ERROR!
		pqioutput(PQL_ALERT, pqihandlerzone, "ERROR PeerId Module already exists!");
		return false;
	}

	// store.
	mods[mod->peerid] = mod;
	return true;
}

bool	pqihandler::RemoveSearchModule(SearchModule *mod)
{
	RsStackMutex stack(coreMtx); /**************** LOCKED MUTEX ****************/
	std::map<RsPeerId, SearchModule *>::iterator it;
	for(it = mods.begin(); it != mods.end(); ++it)
	{
		if (mod == it -> second)
		{
			mods.erase(it);
			return true;
		}
	}
	return false;
}

// generalised output
int	pqihandler::locked_HandleRsItem(RsItem *item, uint32_t& computed_size)
{
	computed_size = 0 ;
	std::map<RsPeerId, SearchModule *>::iterator it;
	pqioutput(PQL_DEBUG_BASIC, pqihandlerzone,
	  "pqihandler::HandleRsItem()");

	pqioutput(PQL_DEBUG_BASIC, pqihandlerzone,
	  "pqihandler::HandleRsItem() Sending to One Channel");
#ifdef DEBUG_TICK
        std::cerr << "pqihandler::HandleRsItem() Sending to One Channel" << std::endl;
#endif


	// find module.
	if ((it = mods.find(item->PeerId())) == mods.end())
	{
		std::string out = "pqihandler::HandleRsItem() Invalid chan!";
		pqioutput(PQL_DEBUG_BASIC, pqihandlerzone, out);
#ifdef DEBUG_TICK
		std::cerr << out << std::endl;
#endif

		delete item;
		return -1;
	}

		std::string out = "pqihandler::HandleRsItem() sending to chan: " + it -> first.toStdString();
		pqioutput(PQL_DEBUG_BASIC, pqihandlerzone, out);
#ifdef DEBUG_TICK
		std::cerr << out << std::endl;
#endif

		// if yes send on item.
		((it -> second) -> pqi) -> SendItem(item,computed_size);
		return 1;
}

int     pqihandler::SendRsRawItem(RsRawItem *ns)
{
	pqioutput(PQL_DEBUG_BASIC, pqihandlerzone, "pqihandler::SendRsRawItem()");

	// directly send item to streamers

	return queueOutRsItem(ns) ;
}

#ifdef TO_BE_REMOVED

// inputs. This is a very basic
// system that is completely biased and slow...
// someone please fix.

/////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////
// THIS CODE SHOULD BE ABLE TO BE REMOVED!
/////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////

int pqihandler::locked_GetItems()
{
	std::map<RsPeerId, SearchModule *>::iterator it;

	RsItem *item;
	int count = 0;

	// loop through modules....
	for(it = mods.begin(); it != mods.end(); ++it)
	{
		SearchModule *mod = (it -> second);

		// check security... is output allowed.
		if(0 < secpolicy_check((it -> second) -> sp,
					0, PQI_INCOMING)) // PQI_ITEM_TYPE_ITEM, PQI_INCOMING))
		{
			// if yes... attempt to read.
			while((item = (mod -> pqi) -> GetItem()) != NULL)
			{

				static int ntimes =0 ;
//				if(++ntimes < 20)
				{
		std::cerr << "pqihandler::locked_GetItems() pqi->GetItem()";
        std::cerr << " should never happen anymore!";
        std::cerr << std::endl;
				}

#ifdef RSITEM_DEBUG
				std::string out;
				rs_sprintf(out, "pqihandler::GetItems() Incoming Item from: %p\n", mod -> pqi);
				item -> print_string(out);

				pqioutput(PQL_DEBUG_BASIC,
						pqihandlerzone, out);
#endif

				if (item->PeerId() != (mod->pqi)->PeerId())
				{
					/* ERROR */
					pqioutput(PQL_ALERT,
						pqihandlerzone, "ERROR PeerIds dont match!");
					item->PeerId(mod->pqi->PeerId());
				}

				locked_SortnStoreItem(item);
				count++;
			}
		}
		else
		{
			// not allowed to recieve from here....
			while((item = (mod -> pqi) -> GetItem()) != NULL)
			{
				std::string out;
				rs_sprintf(out, "pqihandler::GetItems() Incoming Item from: %p\n", mod -> pqi);
				item -> print_string(out);
				out += "\nItem Not Allowed (Sec Pol). deleting!";

				pqioutput(PQL_DEBUG_BASIC,
						pqihandlerzone, out);

				delete item;
			}
		}
	}
	return count;
}

void pqihandler::locked_SortnStoreItem(RsItem *item)
{
	/* get class type / subtype out of the item */
	uint8_t vers    = item -> PacketVersion();

	/* whole Version reserved for SERVICES/CACHES */
	if (vers == RS_PKT_VERSION_SERVICE)
	{
	    pqioutput(PQL_DEBUG_BASIC, pqihandlerzone,
	      "SortnStore -> Service");
	    in_service.push_back(item);
	    item = NULL;
	    return;
	}
	std::cerr << "pqihandler::locked_SortnStoreItem() : unhandled item! Will be deleted. This is certainly a bug." << std::endl;

	if (vers != RS_PKT_VERSION1)
	{
		pqioutput(PQL_DEBUG_BASIC, pqihandlerzone, "SortnStore -> Invalid VERSION! Deleting!");
		delete item;
		item = NULL;
		return;
	}

	if (item)
	{
	    pqioutput(PQL_DEBUG_BASIC, pqihandlerzone, "SortnStore -> Deleting Unsorted Item");
	    delete item;
	}

	return;
}

RsRawItem *pqihandler::GetRsRawItem()
{
	RsStackMutex stack(coreMtx); /**************** LOCKED MUTEX ****************/

	if (in_service.size() != 0)
	{
		RsRawItem *fi = dynamic_cast<RsRawItem *>(in_service.front());
		if (!fi) { delete in_service.front(); }
		in_service.pop_front();
		return fi;
	}
	return NULL;
}

/////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////
// ABOVE CODE SHOULD BE ABLE TO BE REMOVED!
/////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////

#endif

static const float MIN_RATE = 0.01; // 10 B/s

int     pqihandler::ExtractTrafficInfo(std::list<RSTrafficClue>& out_lst,std::list<RSTrafficClue>& in_lst)
{
    in_lst.clear() ;
    out_lst.clear() ;

    for( std::map<RsPeerId, SearchModule *>::iterator it = mods.begin(); it != mods.end(); ++it)
    {
        std::list<RSTrafficClue> ilst,olst ;

        (it -> second)->pqi->gatherStatistics(olst,ilst) ;

        for(std::list<RSTrafficClue>::const_iterator it(ilst.begin());it!=ilst.end();++it) in_lst.push_back(*it) ;
        for(std::list<RSTrafficClue>::const_iterator it(olst.begin());it!=olst.end();++it) out_lst.push_back(*it) ;
    }

    return 1 ;
}

// NEW extern fn to extract rates.
int     pqihandler::ExtractRates(std::map<RsPeerId, RsBwRates> &ratemap, RsBwRates &total)
{
	total.mMaxRateIn = getMaxRate(true);
	total.mMaxRateOut = getMaxRate(false);
	total.mRateIn = 0;
	total.mRateOut = 0;
	total.mQueueIn = 0;
	total.mQueueOut = 0;

	/* Lock once rates have been retrieved */
	RsStackMutex stack(coreMtx); /**************** LOCKED MUTEX ****************/

	std::map<RsPeerId, SearchModule *>::iterator it;
	for(it = mods.begin(); it != mods.end(); ++it)
	{
		SearchModule *mod = (it -> second);

		RsBwRates peerRates;
		mod -> pqi -> getRates(peerRates);

		total.mRateIn  += peerRates.mRateIn;
		total.mRateOut += peerRates.mRateOut;
		total.mQueueIn  += peerRates.mQueueIn;
		total.mQueueOut += peerRates.mQueueOut;

		ratemap[it->first] = peerRates;

	}

	return 1;
}



// internal fn to send updates
int     pqihandler::UpdateRates()
{
#ifdef PQI_HDL_DEBUG_UR
	uint64_t t_now;
#endif

	std::map<RsPeerId, SearchModule *>::iterator it;

	float avail_in = getMaxRate(true);
	float avail_out = getMaxRate(false);

	float used_bw_in = 0;
	float used_bw_out = 0;

	/* Lock once rates have been retrieved */
	RsStackMutex stack(coreMtx); /**************** LOCKED MUTEX ****************/

	int num_sm = mods.size();
	float used_bw_in_table[num_sm];         /* table of in bandwidth currently used by each module */
	float used_bw_out_table[num_sm];        /* table of out bandwidth currently used by each module */

	int effectiveUploadsSm = 0;
	int effectiveDownloadsSm = 0;

	// loop through modules to get the used bandwith and the number of modules that are affectively transfering
#ifdef PQI_HDL_DEBUG_UR
	std::cerr << " Looping through modules" << std::endl;
#endif

	int index = 0;

	for(it = mods.begin(); it != mods.end(); ++it)
	{
		SearchModule *mod = (it -> second);
		float crate_in = mod -> pqi -> getRate(true);
		if ((crate_in > 0.01 * avail_in) || (crate_in > 0.1))
		{
			++effectiveDownloadsSm;
		}

		float crate_out = mod -> pqi -> getRate(false);
		if ((crate_out > 0.01 * avail_out) || (crate_out > 0.1))
		{
			++effectiveUploadsSm;
		}

		used_bw_in += crate_in;
		used_bw_out += crate_out;

		/* fill the table of bandwidth */
		used_bw_in_table[index] = crate_in;
		used_bw_out_table[index] = crate_out;
		++index;
	}

#ifdef PQI_HDL_DEBUG_UR
	t_now = 1000 * getCurrentTS();
	std::cerr << dec << t_now << " pqihandler::UpdateRates(): Sorting used_bw_out_table: " << num_sm << " entries" << std::endl;
#endif

	/* Sort the used bw in/out table in ascending order */
	std::sort(used_bw_in_table, used_bw_in_table + num_sm);
	std::sort(used_bw_out_table, used_bw_out_table + num_sm);

#ifdef PQI_HDL_DEBUG_UR
	t_now = 1000 * getCurrentTS();
	std::cerr << dec << t_now << " pqihandler::UpdateRates(): Done." << std::endl;
	std::cerr << dec << t_now << " pqihandler::UpdateRates(): used_bw_out " << used_bw_out << std::endl;
#endif

	/* Calculate the optimal out_max value, taking into account avail_out and the out bw requested by modules */

	float out_remaining_bw = avail_out;
	float out_max_bw = 0;
	bool keep_going = true;
	int mod_index = 0;

	while (keep_going && (mod_index < num_sm)) {
		float result = (num_sm - mod_index) * (used_bw_out_table[mod_index] - out_max_bw);
		if (result > out_remaining_bw) {
			/* There is not enough remaining out bw to satisfy all modules,
			   distribute the remaining out bw among modules, then exit */
			out_max_bw += out_remaining_bw / (num_sm - mod_index);
			out_remaining_bw = 0;
			keep_going = false;
		} else {
			/* Grant the requested out bandwidth to all modules,
			   then recalculate the remaining out bandwidth */
			out_remaining_bw -= result;
			out_max_bw = used_bw_out_table[mod_index];
			++mod_index;
		}
	}

#ifdef PQI_HDL_DEBUG_UR
	t_now = 1000 * getCurrentTS();
	std::cerr << dec << t_now << " pqihandler::UpdateRates(): mod_index " << mod_index << " out_max_bw " << out_max_bw << " remaining out bw " << out_remaining_bw << std::endl;
#endif

	/* Allocate only half the remaining out bw, if any, to make it smoother */
	out_max_bw = out_max_bw + out_remaining_bw / 2;

	/* Calculate the optimal in_max value, taking into account avail_in and the in bw requested by modules */

	float in_remaining_bw = avail_in;
	float in_max_bw = 0;
	keep_going = true;
	mod_index = 0;

	while (keep_going && mod_index < num_sm) {
		float result = (num_sm - mod_index) * (used_bw_in_table[mod_index] - in_max_bw);
		if (result > in_remaining_bw) {
			/* There is not enough remaining in bw to satisfy all modules,
			   distribute the remaining in bw among modules, then exit */
			in_max_bw += in_remaining_bw / (num_sm - mod_index);
			in_remaining_bw = 0;
			keep_going = false;
		} else {
			/* Grant the requested in bandwidth to all modules,
			   then recalculate the remaining in bandwidth */
			in_remaining_bw -= result;
			in_max_bw = used_bw_in_table[mod_index];
			++mod_index;
		}
	}

#ifdef PQI_HDL_DEBUG_UR
	t_now = 1000 * getCurrentTS();
	std::cerr << dec << t_now << " pqihandler::UpdateRates(): mod_index " << mod_index << " in_max_bw " << in_max_bw << " remaining in bw " << in_remaining_bw << std::endl;
#endif

	/* Allocate only half the remaining in bw, if any, to make it smoother */
	in_max_bw = in_max_bw + in_remaining_bw / 2;


#ifdef DEBUG_QOS
//	std::cerr << "Totals (In) Used B/W " << used_bw_in;
//	std::cerr << " Available B/W " << avail_in;
//	std::cerr << " Effective transfers " << effectiveDownloadsSm << std::endl;
//	std::cerr << "Totals (Out) Used B/W " << used_bw_out;
//	std::cerr << " Available B/W " << avail_out;
//	std::cerr << " Effective transfers " << effectiveUploadsSm << std::endl;
#endif

	locked_StoreCurrentRates(used_bw_in, used_bw_out);

	//computing average rates for effective transfers
	float max_in_effective = avail_in / num_sm;
	if (effectiveDownloadsSm != 0) {
	    max_in_effective = avail_in / effectiveDownloadsSm;
	}
	float max_out_effective = avail_out / num_sm;
	if (effectiveUploadsSm != 0) {
	    max_out_effective = avail_out / effectiveUploadsSm;
	}

	//modify the in and out limit
#ifdef PQI_HDL_DEBUG_UR
	t_now = 1000 * getCurrentTS();
	std::cerr << dec << t_now << " pqihandler::UpdateRates(): setting new out_max " << out_max_bw << " in_max " << in_max_bw << std::endl;
#endif

	for(it = mods.begin(); it != mods.end(); ++it)
	{
		SearchModule *mod = (it -> second);
		mod -> pqi -> setMaxRate(true,   in_max_bw);
		mod -> pqi -> setMaxRate(false, out_max_bw);
	}


	//cap the rates
	for(it = mods.begin(); it != mods.end(); ++it)
	{
		SearchModule *mod = (it -> second);
		if (mod -> pqi -> getMaxRate(false) < max_out_effective) {
			mod -> pqi -> setMaxRate(false, max_out_effective);
		}
		if (mod -> pqi -> getMaxRate(false) > avail_out) {
			mod -> pqi -> setMaxRate(false, avail_out);
		}
		if (mod -> pqi -> getMaxRate(true) < max_in_effective) {
			mod -> pqi -> setMaxRate(true, max_in_effective);
		}
		if (mod -> pqi -> getMaxRate(true) > avail_in) {
			mod -> pqi -> setMaxRate(true, avail_in);
		}
	}

	return 1;
}

void    pqihandler::getCurrentRates(float &in, float &out)
{
	RsStackMutex stack(coreMtx); /**************** LOCKED MUTEX ****************/

	in = rateTotal_in;
	out = rateTotal_out;
}

void    pqihandler::locked_StoreCurrentRates(float in, float out)
{
	rateTotal_in = in;
	rateTotal_out = out;
}