RetroShare/libretroshare/src/pqi/pqiperson.cc

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/*
* libretroshare/src/pqi pqiperson.cc
*
* 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/pqi.h"
#include "pqi/pqiperson.h"
#include "pqi/pqipersongrp.h"
#include "pqi/pqissl.h"
const int pqipersonzone = 82371;
#include "util/rsdebug.h"
#include "util/rsstring.h"
#include "retroshare/rspeers.h"
/****
* #define PERSON_DEBUG 1
****/
pqiperson::pqiperson(const RsPeerId& id, pqipersongrp *pg)
:PQInterface(id), mNotifyMtx("pqiperson-notify"), mPersonMtx("pqiperson"),
active(false), activepqi(NULL),
inConnectAttempt(false), waittimes(0),
pqipg(pg)
{
/* must check id! */
return;
}
pqiperson::~pqiperson()
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
// clean up the children.
std::map<uint32_t, pqiconnect *>::iterator it;
for(it = kids.begin(); it != kids.end(); it++)
{
pqiconnect *pc = (it->second);
delete pc;
}
kids.clear();
}
// The PQInterface interface.
int pqiperson::SendItem(RsItem *i,uint32_t& serialized_size)
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
std::string out = "pqiperson::SendItem()";
if (active)
{
out += " Active: Sending On\n";
i->print_string(out, 5);
#ifdef PERSON_DEBUG
std::cerr << out << std::endl;
#endif
return activepqi -> SendItem(i,serialized_size);
}
else
{
out += " Not Active: Used to put in ToGo Store\n";
out += " Now deleting...";
delete i;
}
pqioutput(PQL_DEBUG_BASIC, pqipersonzone, out);
return 0; // queued.
}
RsItem *pqiperson::GetItem()
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
if (active)
return activepqi -> GetItem();
// else not possible.
return NULL;
}
bool pqiperson::RecvItem(RsItem *item)
{
#ifdef PERSON_DEBUG
std::cerr << "pqiperson::RecvItem()";
std::cerr << std::endl;
#endif
return pqipg->recvItem((RsRawItem *) item);
}
int pqiperson::status()
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
if (active)
return activepqi -> status();
return -1;
}
int pqiperson::receiveHeartbeat()
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
pqioutput(PQL_WARNING, pqipersonzone, "pqiperson::receiveHeartbeat() from peer : " + PeerId().toStdString());
lastHeartbeatReceived = time(NULL);
return true ;
}
// tick......
int pqiperson::tick()
{
int activeTick = 0;
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
//if lastHeartbeatReceived is 0, it might be not activated so don't do a net reset.
if (active && (lastHeartbeatReceived != 0) &&
(time(NULL) - lastHeartbeatReceived) > HEARTBEAT_REPEAT_TIME * 5)
{
int ageLastIncoming = time(NULL) - activepqi->getLastIncomingTS();
std::string out = "pqiperson::tick() WARNING No heartbeat from: " + PeerId().toStdString();
//out << " assume dead. calling pqissl::reset(), LastHeartbeat was: ";
rs_sprintf_append(out, " LastHeartbeat was: %ld secs ago", time(NULL) - lastHeartbeatReceived);
rs_sprintf_append(out, " LastIncoming was: %d secs ago", ageLastIncoming);
pqioutput(PQL_WARNING, pqipersonzone, out);
#define NO_PACKET_TIMEOUT 60
if (ageLastIncoming > NO_PACKET_TIMEOUT)
{
out = "pqiperson::tick() " + PeerId().toStdString();
out += " No Heartbeat & No Packets -> assume dead. calling pqissl::reset()";
pqioutput(PQL_WARNING, pqipersonzone, out);
this->reset_locked();
}
}
{
std::string out = "pqiperson::tick() Id: " + PeerId().toStdString() + " ";
if (active)
out += "***Active***";
else
out += ">>InActive<<";
out += "\n";
rs_sprintf_append(out, "Activepqi: %p inConnectAttempt: ", activepqi);
if (inConnectAttempt)
out += "In Connection Attempt";
else
out += " Not Connecting ";
out += "\n";
// tick the children.
std::map<uint32_t, pqiconnect *>::iterator it;
for(it = kids.begin(); it != kids.end(); it++)
{
if (0 < (it->second) -> tick())
{
activeTick = 1;
}
rs_sprintf_append(out, "\tTicking Child: %d\n", it->first);
}
pqioutput(PQL_DEBUG_ALL, pqipersonzone, out);
} // end of pqioutput.
}
// handle Notify Events that were generated.
processNotifyEvents();
return activeTick;
}
// callback function for the child - notify of a change.
// This is only used for out-of-band info....
// otherwise could get dangerous loops.
// - Actually, now we have - must store and process later.
int pqiperson::notifyEvent(NetInterface *ni, int newState, const struct sockaddr_storage &remote_peer_address)
{
if (mPersonMtx.trylock())
{
handleNotifyEvent_locked(ni, newState, remote_peer_address);
mPersonMtx.unlock();
return 1;
}
RsStackMutex stack(mNotifyMtx); /**** LOCK MUTEX ****/
mNotifyQueue.push_back(NotifyData(ni, newState, remote_peer_address));
return 1;
}
void pqiperson::processNotifyEvents()
{
NetInterface *ni;
int state;
struct sockaddr_storage addr;
while(1)
{
{
RsStackMutex stack(mNotifyMtx); /**** LOCK MUTEX ****/
if (mNotifyQueue.empty())
{
return;
}
NotifyData &data = mNotifyQueue.front();
ni = data.mNi;
state = data.mState;
addr = data.mAddr;
mNotifyQueue.pop_front();
}
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
handleNotifyEvent_locked(ni, state, addr);
}
return;
}
int pqiperson::handleNotifyEvent_locked(NetInterface *ni, int newState, const struct sockaddr_storage &remote_peer_address)
{
{
std::string out = "pqiperson::notifyEvent() Id: " + PeerId().toStdString() + "\n";
rs_sprintf_append(out, "Message: %d from: %p\n", newState, ni);
rs_sprintf_append(out, "Active pqi : %p", activepqi);
pqioutput(PQL_DEBUG_BASIC, pqipersonzone, out);
}
/* find the pqi, */
pqiconnect *pqi = NULL;
uint32_t type = 0;
std::map<uint32_t, pqiconnect *>::iterator it;
/* start again */
int i = 0;
for(it = kids.begin(); it != kids.end(); it++)
{
std::string out;
rs_sprintf(out, "pqiperson::connectattempt() Kid# %d of %u\n", i, kids.size());
rs_sprintf_append(out, " type: %u in_ni: %p", it->first, ni);
pqioutput(PQL_DEBUG_BASIC, pqipersonzone, out);
i++;
if ((it->second)->thisNetInterface(ni))
{
pqi = (it->second);
type = (it->first);
}
}
if (!pqi)
{
pqioutput(PQL_WARNING, pqipersonzone, "Unknown notfyEvent Source!");
return -1;
}
switch(newState)
{
case CONNECT_RECEIVED:
case CONNECT_SUCCESS:
/* notify */
if (pqipg) {
pqipg->notifyConnect(PeerId(), type, true, remote_peer_address);
}
if ((active) && (activepqi != pqi)) // already connected - trouble
{
pqioutput(PQL_WARNING, pqipersonzone, "pqiperson::notifyEvent() Id: " + PeerId().toStdString() + " CONNECT_SUCCESS+active-> activing new connection, shutting others");
// This is the RESET that's killing the connections.....
//activepqi -> reset();
// this causes a recursive call back into this fn.
// which cleans up state.
// we only do this if its not going to mess with new conn.
}
/* now install a new one. */
{
pqioutput(PQL_WARNING, pqipersonzone, "pqiperson::notifyEvent() Id: " + PeerId().toStdString() + " CONNECT_SUCCESS->marking so! (resetting others)");
// mark as active.
active = true;
lastHeartbeatReceived = 0;
activepqi = pqi;
inConnectAttempt = false;
activepqi->start(); // STARTUP THREAD.
/* reset all other children? (clear up long UDP attempt) */
for(it = kids.begin(); it != kids.end(); it++)
{
if (!(it->second)->thisNetInterface(ni))
{
std::string out;
rs_sprintf(out, "Resetting pqi ref : %p", &(it->second));
pqioutput(PQL_DEBUG_BASIC, pqipersonzone, out);
it->second->reset();
} else {
//std::cerr << "Active pqi : not resetting." << std::endl;
}
}
return 1;
}
break;
case CONNECT_UNREACHABLE:
case CONNECT_FIREWALLED:
case CONNECT_FAILED:
if (active)
{
if (activepqi == pqi)
{
pqioutput(PQL_WARNING, pqipersonzone, "pqiperson::notifyEvent() Id: " + PeerId().toStdString() + " CONNECT_FAILED->marking so!");
activepqi->stop(); // STOP THREAD.
active = false;
activepqi = NULL;
}
else
{
pqioutput(PQL_WARNING, pqipersonzone, "pqiperson::notifyEvent() Id: " + PeerId().toStdString() + " CONNECT_FAILED-> from an unactive connection, don't flag the peer as not connected, just try next attempt !");
}
}
else
{
pqioutput(PQL_WARNING, pqipersonzone, "pqiperson::notifyEvent() Id: " + PeerId().toStdString() + " CONNECT_FAILED+NOT active -> try connect again");
}
/* notify up */
if (pqipg)
{
pqipg->notifyConnect(PeerId(), type, false, remote_peer_address);
}
return 1;
break;
default:
break;
}
return -1;
}
/***************** Not PQInterface Fns ***********************/
int pqiperson::reset()
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
return reset_locked();
}
int pqiperson::reset_locked()
{
pqioutput(PQL_WARNING, pqipersonzone, "pqiperson::reset() resetting all pqiconnect for Id: " + PeerId().toStdString());
std::map<uint32_t, pqiconnect *>::iterator it;
for(it = kids.begin(); it != kids.end(); it++)
{
(it->second) -> stop(); // STOP THREAD.
(it->second) -> reset();
}
activepqi = NULL;
active = false;
lastHeartbeatReceived = 0;
return 1;
}
int pqiperson::fullstopthreads()
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
pqioutput(PQL_WARNING, pqipersonzone, "pqiperson::fullstopthreads() for Id: " + PeerId().toStdString());
std::map<uint32_t, pqiconnect *>::iterator it;
for(it = kids.begin(); it != kids.end(); it++)
{
(it->second) -> fullstop(); // WAIT FOR THREAD TO STOP.
}
activepqi = NULL;
active = false;
lastHeartbeatReceived = 0;
return 1;
}
int pqiperson::addChildInterface(uint32_t type, pqiconnect *pqi)
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
{
std::string out;
rs_sprintf(out, "pqiperson::addChildInterface() : Id %s %u", PeerId().toStdString().c_str(), type);
pqioutput(PQL_DEBUG_BASIC, pqipersonzone, out);
}
kids[type] = pqi;
return 1;
}
/***************** PRIVATE FUNCTIONS ***********************/
// functions to iterate over the connects and change state.
int pqiperson::listen()
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
pqioutput(PQL_DEBUG_BASIC, pqipersonzone, "pqiperson::listen() Id: " + PeerId().toStdString());
if (!active)
{
std::map<uint32_t, pqiconnect *>::iterator it;
for(it = kids.begin(); it != kids.end(); it++)
{
// set them all listening.
(it->second) -> listen();
}
}
return 1;
}
int pqiperson::stoplistening()
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
pqioutput(PQL_DEBUG_BASIC, pqipersonzone, "pqiperson::stoplistening() Id: " + PeerId().toStdString());
std::map<uint32_t, pqiconnect *>::iterator it;
for(it = kids.begin(); it != kids.end(); it++)
{
// set them all listening.
(it->second) -> stoplistening();
}
return 1;
}
int pqiperson::connect(uint32_t type, const struct sockaddr_storage &raddr,
const struct sockaddr_storage &proxyaddr, const struct sockaddr_storage &srcaddr,
uint32_t delay, uint32_t period, uint32_t timeout, uint32_t flags, uint32_t bandwidth,
const std::string &domain_addr, uint16_t domain_port)
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
#ifdef PERSON_DEBUG
#endif
{
std::string out = "pqiperson::connect() Id: " + PeerId().toStdString();
rs_sprintf_append(out, " type: %u", type);
out += " addr: ";
out += sockaddr_storage_tostring(raddr);
out += " proxyaddr: ";
out += sockaddr_storage_tostring(proxyaddr);
out += " srcaddr: ";
out += sockaddr_storage_tostring(srcaddr);
rs_sprintf_append(out, " delay: %u", delay);
rs_sprintf_append(out, " period: %u", period);
rs_sprintf_append(out, " timeout: %u", timeout);
rs_sprintf_append(out, " flags: %u", flags);
rs_sprintf_append(out, " bandwidth: %u", bandwidth);
//std::cerr << out.str();
pqioutput(PQL_WARNING, pqipersonzone, out);
}
std::map<uint32_t, pqiconnect *>::iterator it;
it = kids.find(type);
if (it == kids.end())
{
#ifdef PERSON_DEBUG
//pqioutput(PQL_DEBUG_BASIC, pqipersonzone, "pqiperson::connect() missing pqiconnect");
#endif
/* notify of fail! */
pqipg->notifyConnect(PeerId(), type, false, raddr);
return 0;
}
#ifdef PERSON_DEBUG
std::cerr << "pqiperson::connect() WARNING, resetting for new connection attempt" << std::endl;
#endif
/* set the parameters */
pqioutput(PQL_WARNING, pqipersonzone, "pqiperson::connect reset() before connection attempt");
(it->second)->reset();
#ifdef PERSON_DEBUG
std::cerr << "pqiperson::connect() WARNING, clearing rate cap" << std::endl;
#endif
setRateCap_locked(0,0);
#ifdef PERSON_DEBUG
std::cerr << "pqiperson::connect() setting connect_parameters" << std::endl;
#endif
// These two are universal.
(it->second)->connect_parameter(NET_PARAM_CONNECT_DELAY, delay);
(it->second)->connect_parameter(NET_PARAM_CONNECT_TIMEOUT, timeout);
// these 5 are only used by UDP connections.
(it->second)->connect_parameter(NET_PARAM_CONNECT_PERIOD, period);
(it->second)->connect_parameter(NET_PARAM_CONNECT_FLAGS, flags);
(it->second)->connect_parameter(NET_PARAM_CONNECT_BANDWIDTH, bandwidth);
(it->second)->connect_additional_address(NET_PARAM_CONNECT_PROXY, proxyaddr);
(it->second)->connect_additional_address(NET_PARAM_CONNECT_SOURCE, srcaddr);
// These are used by Proxy/Hidden
(it->second)->connect_parameter(NET_PARAM_CONNECT_DOMAIN_ADDRESS, domain_addr);
(it->second)->connect_parameter(NET_PARAM_CONNECT_REMOTE_PORT, domain_port);
(it->second)->connect(raddr);
// flag if we started a new connectionAttempt.
inConnectAttempt = true;
return 1;
}
void pqiperson::getRates(RsBwRates &rates)
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
// get the rate from the active one.
if ((!active) || (activepqi == NULL))
return;
activepqi -> getRates(rates);
}
int pqiperson::getQueueSize(bool in)
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
// get the rate from the active one.
if ((!active) || (activepqi == NULL))
return 0;
return activepqi -> getQueueSize(in);
}
bool pqiperson::getCryptoParams(RsPeerCryptoParams& params)
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
if(active && activepqi != NULL)
return activepqi->getCryptoParams(params) ;
else
{
params.connexion_state = 0 ;
params.cipher_name.clear() ;
params.cipher_bits_1 = 0 ;
params.cipher_bits_2 = 0 ;
params.cipher_version.clear() ;
return false ;
}
}
bool pqiconnect::getCryptoParams(RsPeerCryptoParams& params)
{
pqissl *ssl = dynamic_cast<pqissl*>(ni) ;
if(ssl != NULL)
{
ssl->getCryptoParams(params) ;
return true ;
}
else
{
params.connexion_state = 0 ;
params.cipher_name.clear() ;
params.cipher_bits_1 = 0 ;
params.cipher_bits_2 = 0 ;
params.cipher_version.clear() ;
return false ;
}
}
float pqiperson::getRate(bool in)
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
// get the rate from the active one.
if ((!active) || (activepqi == NULL))
return 0;
return activepqi -> getRate(in);
}
void pqiperson::setMaxRate(bool in, float val)
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
// set to all of them. (and us)
PQInterface::setMaxRate(in, val);
// clean up the children.
std::map<uint32_t, pqiconnect *>::iterator it;
for(it = kids.begin(); it != kids.end(); it++)
{
(it->second) -> setMaxRate(in, val);
}
}
void pqiperson::setRateCap(float val_in, float val_out)
{
RsStackMutex stack(mPersonMtx); /**** LOCK MUTEX ****/
return setRateCap_locked(val_in, val_out);
}
void pqiperson::setRateCap_locked(float val_in, float val_out)
{
// set to all of them. (and us)
PQInterface::setRateCap(val_in, val_out);
// clean up the children.
std::map<uint32_t, pqiconnect *>::iterator it;
for(it = kids.begin(); it != kids.end(); it++)
{
(it->second) -> setRateCap(val_in, val_out);
}
}