RetroShare/libretroshare/src/dht/connectstatebox.cc

987 lines
21 KiB
C++
Raw Normal View History

/*
* libretroshare/src/dht: connectstatebox.cc
*
* RetroShare DHT C++ Interface.
*
* Copyright 2011-2011 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 "dht/connectstatebox.h"
#include "retroshare/rsconfig.h"
#include "util/rsrandom.h"
#include <iostream>
#include <sstream>
#define TESTING_PERIODS 1
/* Have made the PROXY Attempts + MAX_TIME much larger,
* have have potential for this to take a while.
*/
#ifdef TESTING_PERIODS
#define FAILED_WAIT_TIME (1800) // 5 minutes.
#define TCP_WAIT_TIME (10) // 1/6 minutes.
#define DIRECT_MAX_WAIT_TIME (30) // 1/6 minutes.
#define PROXY_MAX_WAIT_TIME (120) // 1/6 minutes.
#define RELAY_MAX_WAIT_TIME (30) // 1/6 minutes.
#define REVERSE_WAIT_TIME (30) // 1/2 minutes.
#define MAX_DIRECT_ATTEMPTS (3)
#define MAX_PROXY_ATTEMPTS (10)
#define MAX_RELAY_ATTEMPTS (3)
#define MAX_DIRECT_FAILED_ATTEMPTS (1)
#define MAX_PROXY_FAILED_ATTEMPTS (2)
#define MAX_RELAY_FAILED_ATTEMPTS (1)
#else
#define FAILED_WAIT_TIME (1800) // 30 minutes.
#define TCP_WAIT_TIME (60) // 1 minutes.
#define DIRECT_MAX_WAIT_TIME (60) // 1 minutes.
#define PROXY_MAX_WAIT_TIME (120) // 1 minutes.
#define RELAY_MAX_WAIT_TIME (60) // 1 minutes.
#define REVERSE_WAIT_TIME (300) // 5 minutes.
#define MAX_DIRECT_ATTEMPTS (10)
#define MAX_PROXY_ATTEMPTS (20)
#define MAX_RELAY_ATTEMPTS (10)
#define MAX_DIRECT_FAILED_ATTEMPTS (3)
#define MAX_PROXY_FAILED_ATTEMPTS (3)
#define MAX_RELAY_FAILED_ATTEMPTS (3)
#endif
PeerConnectStateBox::PeerConnectStateBox()
{
//mPeerId = id;
time_t now = time(NULL);
mState = CSB_START;
mNetState = CSB_NETSTATE_UNKNOWN;
mStateTS = now;
mNoAttempts = 0;
mNoFailedAttempts = 0;
mNextAttemptTS = now;
mAttemptLength = 0;
}
std::string NetStateAsString(uint32_t netstate)
{
std::string str;
switch(netstate)
{
case CSB_NETSTATE_FORWARD:
str = "Forwarded";
break;
case CSB_NETSTATE_STABLENAT:
str = "StableNat";
break;
case CSB_NETSTATE_EXCLUSIVENAT:
str = "ExclusiveNat";
break;
case CSB_NETSTATE_FIREWALLED:
str = "Firewalled";
break;
default:
str = "Unknown NetState";
break;
}
return str;
}
std::string StateAsString(uint32_t state)
{
std::string str;
switch(state)
{
case CSB_START:
str = "Start";
break;
case CSB_TCP_WAIT:
str = "TCP Wait";
break;
case CSB_DIRECT_ATTEMPT:
str = "Direct Attempt";
break;
case CSB_DIRECT_WAIT:
str = "Direct Wait";
break;
case CSB_PROXY_ATTEMPT:
str = "Proxy Attempt:";
break;
case CSB_PROXY_WAIT:
str = "Proxy Wait:";
break;
case CSB_RELAY_ATTEMPT:
str = "Relay Attempt:";
break;
case CSB_RELAY_WAIT:
str = "Relay Wait:";
break;
case CSB_REVERSE_WAIT:
str = "Reverse Wait:";
break;
case CSB_FAILED_WAIT:
str = "Failed Wait:";
break;
case CSB_CONNECTED:
str = "Connected:";
break;
default:
str = "Unknown State";
break;
}
return str;
}
std::string UpdateAsString(uint32_t update)
{
std::string str;
switch(update)
{
case CSB_UPDATE_NONE:
str = "none";
break;
case CSB_UPDATE_CONNECTED:
str = "Connected";
break;
case CSB_UPDATE_DISCONNECTED:
str = "Disconnected";
break;
case CSB_UPDATE_AUTH_DENIED:
str = "Auth Denied";
break;
case CSB_UPDATE_FAILED_ATTEMPT:
str = "Failed Attempt:";
break;
case CSB_UPDATE_MODE_UNAVAILABLE:
str = "Mode Unavailable:";
break;
default:
str = "Unknown Update";
break;
}
return str;
}
void PeerConnectStateBox::errorMsg(std::ostream &out, std::string msg, uint32_t updateParam)
{
out << "PeerConnectStateBox::ERROR " << msg;
out << " NetState: " << NetStateAsString(mNetState);
out << " State: " << StateAsString(mState);
out << " Update: " << UpdateAsString(updateParam);
out << " for peer: " << mPeerId;
out << std::endl;
}
void PeerConnectStateBox::stateMsg(std::ostream &out, std::string msg, uint32_t updateParam)
{
out << "PeerConnectStateBox::MSG " << msg;
out << " NetState: " << NetStateAsString(mNetState);
out << " State: " << StateAsString(mState);
out << " Update: " << UpdateAsString(updateParam);
out << " for peer: " << mPeerId;
out << std::endl;
}
std::string PeerConnectStateBox::connectState() const
{
std::string str = StateAsString(mState);
std::ostringstream out;
time_t now = time(NULL);
out << str << "(" << mNoAttempts << "/" << mNoFailedAttempts << ") for " << now - mStateTS << " secs";
if ( (mState == CSB_CONNECTED) || (mState == CSB_DIRECT_ATTEMPT) ||
(mState == CSB_PROXY_ATTEMPT) || (mState == CSB_RELAY_ATTEMPT) ||
(mState == CSB_FAILED_WAIT) )
{
out << " Last Attempt: " << mAttemptLength;
}
else
{
out << " LA: " << mAttemptLength;
out << " NextAttempt: " << mNextAttemptTS - now;
}
return out.str();
}
uint32_t convertNetStateToInternal(uint32_t netmode, uint32_t nathole, uint32_t nattype)
{
uint32_t connNet = CSB_NETSTATE_UNKNOWN;
if (netmode == RSNET_NETWORK_EXTERNALIP)
{
connNet = CSB_NETSTATE_FORWARD;
}
else if ((nathole != RSNET_NATHOLE_UNKNOWN) && (nathole != RSNET_NATHOLE_NONE))
{
connNet = CSB_NETSTATE_FORWARD;
}
else if (netmode == RSNET_NETWORK_BEHINDNAT)
{
if ((nattype == RSNET_NATTYPE_RESTRICTED_CONE) ||
(nattype == RSNET_NATTYPE_FULL_CONE))
{
connNet = CSB_NETSTATE_STABLENAT;
}
else if (nattype == RSNET_NATTYPE_DETERM_SYM)
{
connNet = CSB_NETSTATE_EXCLUSIVENAT;
}
else
{
connNet = CSB_NETSTATE_FIREWALLED;
}
}
return connNet;
}
bool shouldUseProxyPortInternal(uint32_t netstate)
{
if (netstate == CSB_NETSTATE_FORWARD)
{
return false;
}
return true;
}
bool PeerConnectStateBox::shouldUseProxyPort(uint32_t netmode, uint32_t nathole, uint32_t nattype)
{
uint32_t netstate = convertNetStateToInternal(netmode, nathole, nattype);
return shouldUseProxyPortInternal(netstate);
}
uint32_t PeerConnectStateBox::calcNetState(uint32_t netmode, uint32_t nathole, uint32_t nattype)
{
uint32_t netstate = convertNetStateToInternal(netmode, nathole, nattype);
return netstate;
}
uint32_t PeerConnectStateBox::connectCb(uint32_t cbtype, uint32_t netmode, uint32_t nathole, uint32_t nattype)
{
uint32_t netstate = convertNetStateToInternal(netmode, nathole, nattype);
std::cerr << "PeerConnectStateBox::connectCb(";
if (cbtype == CSB_CONNECT_DIRECT)
{
std::cerr << "DIRECT";
}
else
{
std::cerr << "UNREACHABLE";
}
std::cerr << "," << NetStateAsString(netstate) << ")";
std::cerr << std::endl;
if (netstate != mNetState)
{
std::cerr << "PeerConnectStateBox::connectCb() WARNING Changing NetState from: ";
std::cerr << " from: " << NetStateAsString(mNetState);
std::cerr << " to: " << NetStateAsString(netstate);
std::cerr << " for peer: " << mPeerId;
std::cerr << std::endl;
mNetState = netstate;
}
if (cbtype == CSB_CONNECT_DIRECT)
{
return connectCb_direct();
}
else
{
return connectCb_unreachable();
}
}
uint32_t PeerConnectStateBox::connectCb_direct()
{
uint32_t retval = 0;
time_t now = time(NULL);
switch(mState)
{
case CSB_DIRECT_ATTEMPT:
{
errorMsg(std::cerr, "mState == DIRECT_ATTEMPT", 0);
retval = CSB_ACTION_WAIT;
}
break;
case CSB_PROXY_ATTEMPT:
{
errorMsg(std::cerr, "mState == PROXY_ATTEMPT", 0);
retval = CSB_ACTION_WAIT;
}
break;
case CSB_RELAY_ATTEMPT:
{
errorMsg(std::cerr, "mState == RELAY_ATTEMPT", 0);
retval = CSB_ACTION_WAIT;
}
break;
case CSB_FAILED_WAIT:
{
/* if too soon */
//if (now - mStateTS < FAILED_WAIT_TIME)
if (mNextAttemptTS > now)
{
/* same state */
retval = CSB_ACTION_WAIT;
break;
}
} /* FALLTHROUGH TO START CASE */
default:
case CSB_REVERSE_WAIT:
case CSB_PROXY_WAIT:
case CSB_RELAY_WAIT:
{
if (mState != CSB_FAILED_WAIT)
{
/* ERROR */
errorMsg(std::cerr, "mState != FAILED_WAIT", 0);
}
} /* FALLTHROUGH TO START CASE */
case CSB_START:
{
/* starting up the connection */
mState = CSB_TCP_WAIT;
retval = CSB_ACTION_TCP_CONN;
mStateTS = now;
mNoAttempts = 0;
mNoFailedAttempts = 0;
mNextAttemptTS = now + TCP_WAIT_TIME;
}
break;
case CSB_TCP_WAIT:
{
/* if too soon */
//if (now - mStateTS < TCP_WAIT_TIME)
if (mNextAttemptTS > now)
{
/* same state */
retval = CSB_ACTION_WAIT;
}
else
{
/* try again */
mState = CSB_DIRECT_ATTEMPT;
retval = CSB_ACTION_DIRECT_CONN | CSB_ACTION_DHT_PORT;
mStateTS = now;
mNoAttempts = 0;
mNoFailedAttempts = 0;
}
}
break;
case CSB_DIRECT_WAIT:
{
/* if too soon */
//if (now - mStateTS < DIRECT_WAIT_TIME)
if (mNextAttemptTS > now)
{
/* same state */
retval = CSB_ACTION_WAIT;
}
else if ((mNoAttempts >= MAX_DIRECT_ATTEMPTS) ||
(mNoFailedAttempts >= MAX_DIRECT_FAILED_ATTEMPTS))
{
/* if too many attempts */
/* no RELAY attempt => FAILED_WAIT */
mState = CSB_FAILED_WAIT;
retval = CSB_ACTION_WAIT;
mStateTS = now;
mNoAttempts = 0;
mNoFailedAttempts = 0;
mNextAttemptTS = now + FAILED_WAIT_TIME;
}
else
{
/* try again */
mState = CSB_DIRECT_ATTEMPT;
retval = CSB_ACTION_DIRECT_CONN | CSB_ACTION_DHT_PORT;
mStateTS = now;
mNoAttempts++;
}
}
break;
case CSB_CONNECTED:
{
retval = CSB_ACTION_WAIT;
}
break;
}
return retval;
}
uint32_t PeerConnectStateBox::connectCb_unreachable()
{
uint32_t retval = 0;
uint32_t proxyPortMode = CSB_ACTION_PROXY_PORT;
if (!shouldUseProxyPortInternal(mNetState))
{
proxyPortMode = CSB_ACTION_DHT_PORT;
}
time_t now = time(NULL);
switch(mState)
{
case CSB_DIRECT_ATTEMPT:
{
errorMsg(std::cerr, "mState == DIRECT_ATTEMPT", 0);
retval = CSB_ACTION_WAIT;
}
break;
case CSB_PROXY_ATTEMPT:
{
errorMsg(std::cerr, "mState == PROXY_ATTEMPT", 0);
retval = CSB_ACTION_WAIT;
}
break;
case CSB_RELAY_ATTEMPT:
{
errorMsg(std::cerr, "mState == RELAY_ATTEMPT", 0);
retval = CSB_ACTION_WAIT;
}
break;
case CSB_FAILED_WAIT:
{
/* if too soon */
//if (now - mStateTS < FAILED_WAIT_TIME)
if (mNextAttemptTS > now)
{
/* same state */
stateMsg(std::cerr, "too soon, no action", 0);
retval = CSB_ACTION_WAIT;
break;
}
} /* FALLTHROUGH TO START CASE */
default:
case CSB_DIRECT_WAIT:
{
if (mState != CSB_FAILED_WAIT)
{
/* ERROR */
errorMsg(std::cerr, "mState != FAILED_WAIT", 0);
}
} /* FALLTHROUGH TO START CASE */
case CSB_START:
{
/* starting up the connection */
mState = CSB_TCP_WAIT;
retval = CSB_ACTION_WAIT; /* NO POINT TRYING A TCP_CONN */
mStateTS = now;
mNoAttempts = 0;
mNoFailedAttempts = 0;
mNextAttemptTS = now + TCP_WAIT_TIME;
}
break;
case CSB_TCP_WAIT:
{
/* if too soon */
if (mNextAttemptTS > now)
{
/* same state */
retval = CSB_ACTION_WAIT;
}
else
{
/* starting up the connection */
if (mState != CSB_NETSTATE_FIREWALLED)
{
stateMsg(std::cerr, "not Firewalled => PROXY_ATTEMPT", 0);
mState = CSB_PROXY_ATTEMPT;
retval = CSB_ACTION_PROXY_CONN | proxyPortMode;
}
else
{
stateMsg(std::cerr, "Firewalled => RELAY_ATTEMPT", 0);
mState = CSB_RELAY_ATTEMPT;
retval = CSB_ACTION_RELAY_CONN | CSB_ACTION_DHT_PORT;
}
mStateTS = now;
mNoAttempts = 0;
mNoFailedAttempts = 0;
}
}
break;
case CSB_PROXY_WAIT:
{
/* if too soon */
if (mNextAttemptTS > now)
{
/* same state */
stateMsg(std::cerr, "too soon, no action", 0);
retval = CSB_ACTION_WAIT;
}
else if ((mNoAttempts >= MAX_PROXY_ATTEMPTS) ||
(mNoFailedAttempts >= MAX_PROXY_FAILED_ATTEMPTS))
{
/* if too many attempts */
/* switch to RELAY attempt */
stateMsg(std::cerr, "too many PROXY => RELAY_ATTEMPT", 0);
mState = CSB_RELAY_ATTEMPT;
retval = CSB_ACTION_RELAY_CONN | CSB_ACTION_DHT_PORT;
mStateTS = now;
mNoAttempts = 0;
mNoFailedAttempts = 0;
}
else
{
/* try again */
stateMsg(std::cerr, "PROXY_ATTEMPT try again", 0);
mState = CSB_PROXY_ATTEMPT;
retval = CSB_ACTION_PROXY_CONN | proxyPortMode;
mStateTS = now;
mNoAttempts++;
}
}
break;
case CSB_REVERSE_WAIT:
{
/* if too soon */
//if (now - mStateTS < REVERSE_WAIT_TIME)
if (mNextAttemptTS > now)
{
/* same state */
stateMsg(std::cerr, "too soon, no action", 0);
retval = CSB_ACTION_WAIT;
}
else
{
stateMsg(std::cerr, "timeout => RELAY_ATTEMPT", 0);
/* switch to RELAY attempt */
mState = CSB_RELAY_ATTEMPT;
retval = CSB_ACTION_RELAY_CONN | CSB_ACTION_DHT_PORT;
mStateTS = now;
mNoAttempts = 0;
mNoFailedAttempts = 0;
}
}
break;
case CSB_RELAY_WAIT:
{
/* if too soon */
if (mNextAttemptTS > now)
{
/* same state */
stateMsg(std::cerr, "too soon, no action", 0);
retval = CSB_ACTION_WAIT;
}
else if ((mNoAttempts >= MAX_RELAY_ATTEMPTS) ||
(mNoFailedAttempts >= MAX_RELAY_FAILED_ATTEMPTS))
{
/* if too many attempts */
/* switch to RELAY attempt */
stateMsg(std::cerr, "too many RELAY => FAILED_WAIT", 0);
mState = CSB_FAILED_WAIT;
retval = CSB_ACTION_WAIT;
mStateTS = now;
mNoAttempts = 0;
mNoFailedAttempts = 0;
mNextAttemptTS = now + FAILED_WAIT_TIME;
}
else
{
/* try again */
stateMsg(std::cerr, "RELAY_ATTEMPT try again", 0);
mState = CSB_RELAY_ATTEMPT;
retval = CSB_ACTION_RELAY_CONN | CSB_ACTION_DHT_PORT;
mStateTS = now;
mNoAttempts++;
}
}
break;
case CSB_CONNECTED:
{
stateMsg(std::cerr, "connected => no action", 0);
retval = CSB_ACTION_WAIT;
}
break;
}
return retval;
}
uint32_t PeerConnectStateBox::updateCb(uint32_t update)
{
/* The Error Callback doesn't trigger another connection.
* but can change the connection state
*
* Possible Errors:
* 1) AUTH DENIED. (fatal)
* 2) MODE UNAVILABLE
* 3) RETRY ATTEMPT
* 4) FAILED ATTEMPT
* 5) CONNECTION
* 6) DISCONNECTED.
*
* Fitting these into the states:
case CSB_START:
CONNECTION => CSB_CONNECTED
error if: AUTH DENIED, MODE UNAVAILABLE, FAILED ATTEMPT, RETRY ATTEMPT, DISCONNECTED
case CSB_CONNECTED:
CONNECTION => CSB_CONNECTED
DISCONNECTED => CSB_START
error if: AUTH DENIED, MODE UNAVAILABLE, FAILED ATTEMPT, RETRY ATTEMPT
case CSB_FAILED_WAIT:
CONNECTION => CSB_CONNECTED
error if: AUTH DENIED, MODE UNAVAILABLE, FAILED ATTEMPT, RETRY ATTEMPT, DISCONNECTED
case CSB_REVERSE_WAIT:
CONNECTION => CSB_CONNECTED
error if: AUTH DENIED, MODE UNAVAILABLE, FAILED ATTEMPT, RETRY ATTEMPT, DISCONNECTED
case CSB_DIRECT_ATTEMPT:
CONNECTION => CSB_CONNECTED
AUTH DENIED => CSB_FAILED_WAIT
FAILED ATTEMPT => stay here.
RETRY ATTEMPT => stay here
MODE UNAVAILABLE - probably error => CSB_FAILED_WAIT
error if: MODE UNAVAILABLE, DISCONNECTED
case CSB_PROXY_ATTEMPT:
CONNECTION => CSB_CONNECTED
AUTH DENIED => CSB_FAILED_WAIT
FAILED ATTEMPT => stay here.
RETRY ATTEMPT => stay here
MODE_UNAVAILABLE => CSB_REVERSE_WAIT | CSB_RELAY_ATTEMPT
error if: DISCONNECTED
case CSB_RELAY_ATTEMPT:
CONNECTION => CSB_CONNECTED
AUTH DENIED => CSB_FAILED_WAIT
FAILED ATTEMPT => stay here.
RETRY ATTEMPT => stay here
MODE_UNAVAILABLE => CSB_FAILED_WAIT
error if: DISCONNECTED
case CSB_DIRECT_WAIT:
CONNECTION => CSB_CONNECTED
error if: AUTH DENIED, MODE UNAVAILABLE, FAILED ATTEMPT, RETRY ATTEMPT, DISCONNECTED
case CSB_PROXY_WAIT:
CONNECTION => CSB_CONNECTED
error if: AUTH_DENIED, MODE UNAVAILABLE, FAILED ATTEMPT, RETRY ATTEMPT, DISCONNECTED
case CSB_RELAY_ATTEMPT:
CONNECTION => CSB_CONNECTED
error if: AUTH_DENIED, MODE UNAVAILABLE, FAILED ATTEMPT, RETRY ATTEMPT, DISCONNECTED
*/
/* DO Connect / Disconnect Updates ... very specific! */
time_t now = time(NULL);
switch(update)
{
case CSB_UPDATE_CONNECTED:
{
if ((mState == CSB_DIRECT_ATTEMPT) || (mState == CSB_PROXY_ATTEMPT) || (mState == CSB_PROXY_ATTEMPT))
{
mAttemptLength = now - mStateTS;
}
else
{
mAttemptLength = 0;
}
stateMsg(std::cerr, "=> CONNECTED", update);
mState = CSB_CONNECTED;
mStateTS = now;
return 0;
}
break;
case CSB_UPDATE_DISCONNECTED:
{
if (mState != CSB_CONNECTED)
{
/* ERROR, ignore (as already in disconnected state) */
errorMsg(std::cerr, "mState != CSB_CONNECTED", update);
}
else
{
stateMsg(std::cerr, "=> START", update);
/* move to START state */
mState = CSB_START;
mStateTS = now;
return 1;
}
return 0;
}
break;
}
/* Now catch errors for feedback when we should be WAITING */
switch(mState)
{
default:
case CSB_DIRECT_WAIT:
case CSB_PROXY_WAIT:
case CSB_RELAY_WAIT:
case CSB_REVERSE_WAIT:
case CSB_FAILED_WAIT:
case CSB_START:
case CSB_CONNECTED: /* impossible */
{
/* ERROR */
/* shouldn't receive anything here! */
errorMsg(std::cerr, "shouldnt get anything", update);
return 0;
}
break;
case CSB_DIRECT_ATTEMPT:
case CSB_PROXY_ATTEMPT:
case CSB_RELAY_ATTEMPT:
{
/* OKAY */
}
break;
}
switch(update)
{
/* if AUTH_DENIED ... => FAILED_WAIT */
case CSB_UPDATE_AUTH_DENIED:
{
stateMsg(std::cerr, "=> FAILED WAIT", update);
mState = CSB_FAILED_WAIT;
mStateTS = now;
mAttemptLength = now - mStateTS;
mNextAttemptTS = now + FAILED_WAIT_TIME;
return 1;
}
break;
/* if standard FAIL => stay where we are */
case CSB_UPDATE_RETRY_ATTEMPT:
{
stateMsg(std::cerr, "RETRY FAIL => switch to wait state", update);
mAttemptLength = now - mStateTS;
switch(mState)
{
case CSB_DIRECT_ATTEMPT:
mState = CSB_DIRECT_WAIT;
mStateTS = now;
mNextAttemptTS = now + RSRandom::random_u32() % DIRECT_MAX_WAIT_TIME;
break;
case CSB_PROXY_ATTEMPT:
mState = CSB_PROXY_WAIT;
mStateTS = now;
mNextAttemptTS = now + RSRandom::random_u32() % PROXY_MAX_WAIT_TIME;
break;
case CSB_RELAY_ATTEMPT:
mState = CSB_RELAY_WAIT;
mStateTS = now;
mNextAttemptTS = now + RSRandom::random_u32() % RELAY_MAX_WAIT_TIME;
break;
default:
stateMsg(std::cerr, "RETRY FAIL, but unusual state", update);
break;
}
return 1;
}
/* if standard FAIL => stay where we are */
case CSB_UPDATE_FAILED_ATTEMPT:
{
stateMsg(std::cerr, "STANDARD FAIL => switch to wait state", update);
mNoFailedAttempts++;
mAttemptLength = now - mStateTS;
switch(mState)
{
case CSB_DIRECT_ATTEMPT:
mState = CSB_DIRECT_WAIT;
mStateTS = now;
mNextAttemptTS = now + RSRandom::random_u32() % DIRECT_MAX_WAIT_TIME;
break;
case CSB_PROXY_ATTEMPT:
mState = CSB_PROXY_WAIT;
mStateTS = now;
mNextAttemptTS = now + RSRandom::random_u32() % PROXY_MAX_WAIT_TIME;
break;
case CSB_RELAY_ATTEMPT:
mState = CSB_RELAY_WAIT;
mStateTS = now;
mNextAttemptTS = now + RSRandom::random_u32() % RELAY_MAX_WAIT_TIME;
break;
default:
stateMsg(std::cerr, "STANDARD FAIL, but unusual state", update);
break;
}
return 1;
}
break;
/* finally MODE_UNAVAILABLE */
case CSB_UPDATE_MODE_UNAVAILABLE:
{
mAttemptLength = now - mStateTS;
if (mState == CSB_PROXY_ATTEMPT)
{
if (mNetState == CSB_NETSTATE_FORWARD)
{
stateMsg(std::cerr, "as FORWARDED => REVERSE_WAIT", update);
mState = CSB_REVERSE_WAIT;
mStateTS = now;
mNextAttemptTS = now + REVERSE_WAIT_TIME;
}
else
{
stateMsg(std::cerr, "as !FORWARDED => RELAY_ATTEMPT", update);
mState = CSB_RELAY_WAIT;
mNoAttempts = 0;
mStateTS = now;
mNextAttemptTS = now + RSRandom::random_u32() % RELAY_MAX_WAIT_TIME;
}
return 1;
}
else
{
stateMsg(std::cerr, "MODE UNAVAIL => FAILED_WAIT", update);
mState = CSB_FAILED_WAIT;
mStateTS = now;
mNextAttemptTS = now + FAILED_WAIT_TIME;
if ((mState == CSB_DIRECT_ATTEMPT)
|| (mState == CSB_PROXY_ATTEMPT))
{
/* OKAY */
return 1;
}
else
{
/* ERROR */
errorMsg(std::cerr, "strange MODE", update);
return 0;
}
}
}
break;
default:
{
/* ERROR */
errorMsg(std::cerr, "impossible default", update);
}
break;
}
/* if we get here... ERROR */
errorMsg(std::cerr, "if we get here => ERROR", update);
return 0;
}
bool PeerConnectStateBox::storeProxyPortChoice(uint32_t flags, bool useProxyPort)
{
mProxyPortFlags = flags;
mProxyPortChoice = useProxyPort;
mProxyPortTS = time(NULL);
return useProxyPort;
}
bool PeerConnectStateBox::getProxyPortChoice()
{
time_t now = time(NULL);
std::cerr << "PeerConnectStateBox::getProxyPortChoice() Using ConnectLogic Info from: ";
std::cerr << now-mProxyPortTS << " ago. Flags: " << mProxyPortFlags;
std::cerr << " UseProxyPort? " << mProxyPortChoice;
std::cerr << std::endl;
return mProxyPortChoice;
}