RetroShare/libretroshare/src/pqi/pqissl.cc

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/*
* "$Id: pqissl.cc,v 1.28 2007-03-17 19:32:59 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/pqissl.h"
#include "pqi/pqinetwork.h"
#include "pqi/sslfns.h"
#include "util/rsnet.h"
#include "util/rsdebug.h"
#include "util/rsstring.h"
#include <unistd.h>
#include <errno.h>
#include <openssl/err.h>
#include "pqi/pqissllistener.h"
#include "pqi/p3linkmgr.h"
const int pqisslzone = 37714;
/*********
#define WAITING_NOT 0
#define WAITING_LOCAL_ADDR 1
#define WAITING_REMOTE_ADDR 2
#define WAITING_SOCK_CONNECT 3
#define WAITING_SSL_CONNECTION 4
#define WAITING_SSL_AUTHORISE 5
#define WAITING_FAIL_INTERFACE 6
#define PQISSL_PASSIVE 0x00
#define PQISSL_ACTIVE 0x01
#define PQISSL_DEBUG 1
#define PQISSL_LOG_DEBUG 1
const int PQISSL_LOCAL_FLAG = 0x01;
const int PQISSL_REMOTE_FLAG = 0x02;
const int PQISSL_UDP_FLAG = 0x02;
***********/
static const int PQISSL_MAX_READ_ZERO_COUNT = 20;
static const time_t PQISSL_MAX_READ_ZERO_TIME = 15; // 15 seconds of no data => reset. (atm HeartBeat pkt sent 5 secs)
static const int PQISSL_SSL_CONNECT_TIMEOUT = 30;
/********** PQI SSL STUFF ******************************************
*
* A little note on the notifyEvent(FAILED)....
*
* this is called from
* (1) reset if needed!
* (2) Determine_Remote_Address (when all options have failed).
*
* reset() is only called when a TCP/SSL connection has been
* established, and there is an error. If there is a failed TCP
* connection, then an alternative address can be attempted.
*
* reset() is called from
* (1) destruction.
* (2) disconnect()
* (3) bad waiting state.
*
* // TCP/or SSL connection already established....
* (5) pqissl::SSL_Connection_Complete() <- okay -> cos we made a TCP connection already.
* (6) pqissl::accept() <- okay cos something went wrong.
* (7) moretoread()/cansend() <- okay cos
*
*/
pqissl::pqissl(pqissllistener *l, PQInterface *parent, p3LinkMgr *lm)
:NetBinInterface(parent, parent->PeerId()),
waiting(WAITING_NOT), active(false), certvalid(false),
sslmode(PQISSL_ACTIVE), ssl_connection(NULL), sockfd(-1),
pqil(l), // no init for remote_addr.
readpkt(NULL), pktlen(0),
attempt_ts(0),
sameLAN(false), n_read_zero(0), mReadZeroTS(0),
mConnectDelay(0), mConnectTS(0),
mConnectTimeout(0), mTimeoutTS(0), mLinkMgr(lm)
{
/* set address to zero */
sockaddr_clear(&remote_addr);
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone, "pqissl for PeerId: " + PeerId());
#endif
#if 0
if (!(AuthSSL::getAuthSSL()->isAuthenticated(PeerId())))
{
rslog(RSL_ALERT, pqisslzone,
"pqissl::Warning Certificate Not Approved!");
rslog(RSL_ALERT, pqisslzone,
"\t pqissl will not initialise....");
}
#else
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Warning SSL Certificate Approval Not CHECKED??");
#endif
return;
}
pqissl::~pqissl()
{
rslog(RSL_ALERT, pqisslzone,
"pqissl::~pqissl -> destroying pqissl");
stoplistening(); /* remove from pqissllistener only */
rslog(RSL_ALERT, pqisslzone, "pqissl::~pqissl() -> calling reset()");
reset();
return;
}
/********** Implementation of NetInterface *************************/
int pqissl::connect(struct sockaddr_in raddr)
{
// reset failures
remote_addr = raddr;
remote_addr.sin_family = AF_INET;
return ConnectAttempt();
}
// tells pqilistener to listen for us.
int pqissl::listen()
{
if (pqil)
{
return pqil -> addlistenaddr(PeerId(), this);
}
return 0;
}
int pqissl::stoplistening()
{
if (pqil)
{
pqil -> removeListenPort(PeerId());
}
return 1;
}
int pqissl::disconnect()
{
rslog(RSL_ALERT, pqisslzone, "pqissl::disconnect() -> calling reset()");
return reset();
}
int pqissl::getConnectAddress(struct sockaddr_in &raddr) {
raddr = remote_addr;
return (remote_addr.sin_addr.s_addr == 0);
}
/* BinInterface version of reset() for pqistreamer */
int pqissl::close()
{
rslog(RSL_ALERT, pqisslzone, "pqissl::close() -> calling reset()");
return reset();
}
// put back on the listening queue.
int pqissl::reset()
{
std::string outLog;
/* a reset shouldn't cause us to stop listening
* only reasons for stoplistening() are;
*
* (1) destruction.
* (2) connection.
* (3) WillListen state change
*
*/
outLog += "pqissl::reset():" + PeerId();
rs_sprintf_append(outLog, " (A: %d", (int) active);
rs_sprintf_append(outLog, " FD: %d", sockfd);
rs_sprintf_append(outLog, " W: %d", waiting);
rs_sprintf_append(outLog, " SSL: %p) ", ssl_connection);
#ifdef PQISSL_LOG_DEBUG
outLog += "\n";
#endif
bool neededReset = false;
if (ssl_connection != NULL)
{
//outLog << "pqissl::reset() Shutting down SSL Connection";
//outLog << std::endl;
SSL_shutdown(ssl_connection);
SSL_free (ssl_connection);
neededReset = true;
}
if (sockfd > 0)
{
#ifdef PQISSL_LOG_DEBUG
outLog += "pqissl::reset() Shutting down (active) socket\n";
#endif
net_internal_close(sockfd);
sockfd = -1;
neededReset = true;
}
active = false;
sockfd = -1;
waiting = WAITING_NOT;
ssl_connection = NULL;
sameLAN = false;
n_read_zero = 0;
mReadZeroTS = 0;
total_len = 0 ;
mTimeoutTS = 0;
if (neededReset)
{
#ifdef PQISSL_LOG_DEBUG
outLog += "pqissl::reset() Reset Required!\n";
outLog += "pqissl::reset() Will Attempt notifyEvent(FAILED)\n";
#endif
}
rslog(RSL_ALERT, pqisslzone, outLog);
// notify people of problem!
// but only if we really shut something down.
if (neededReset)
{
// clean up the streamer
if (parent())
{
parent() -> notifyEvent(this, NET_CONNECT_FAILED);
}
}
return 1;
}
bool pqissl::connect_parameter(uint32_t type, uint32_t value)
{
#ifdef PQISSL_LOG_DEBUG
{
std::string out = "pqissl::connect_parameter() Peer: " + PeerId();
rs_sprintf_append(out, " type: %u value: %u", type, value);
rslog(RSL_DEBUG_ALL, pqisslzone, out);
}
#endif
if (type == NET_PARAM_CONNECT_DELAY)
{
#ifdef PQISSL_LOG_DEBUG
std::string out = "pqissl::connect_parameter() Peer: " + PeerId();
rs_sprintf_append(out, " DELAY: %u", value);
rslog(RSL_DEBUG_BASIC, pqisslzone, out);
#endif
mConnectDelay = value;
return true;
}
else if (type == NET_PARAM_CONNECT_TIMEOUT)
{
#ifdef PQISSL_LOG_DEBUG
std::string out = "pqissl::connect_parameter() Peer: " + PeerId();
rs_sprintf_append(out, " TIMEOUT: %u", value);
rslog(RSL_DEBUG_BASIC, pqisslzone, out);
#endif
mConnectTimeout = value;
return true;
}
return false;
//return NetInterface::connect_parameter(type, value);
}
/********** End of Implementation of NetInterface ******************/
/********** Implementation of BinInterface **************************
* Only status() + tick() are here ... as they are really related
* to the NetInterface, and not the BinInterface,
*
*/
/* returns ...
* -1 if inactive.
* 0 if connecting.
* 1 if connected.
*/
int pqissl::status()
{
#ifdef PQISSL_LOG_DEBUG
std::string out = "pqissl::status()";
if (active)
{
int alg;
out += " active: \n";
// print out connection.
out += "Connected TO : " + PeerId() + "\n";
// print out cipher.
rs_sprintf_append(out, "\t\tSSL Cipher:%s", SSL_get_cipher(ssl_connection));
rs_sprintf_append(out, " (%d:%d)", SSL_get_cipher_bits(ssl_connection, &alg), alg);
rs_sprintf_append(out, "Vers:%s\n\n", SSL_get_cipher_version(ssl_connection));
}
else
{
out += " Waiting for connection!\n";
}
rslog(RSL_DEBUG_BASIC, pqisslzone, out);
#endif
if (active)
{
return 1;
}
else if (waiting > 0)
{
return 0;
}
return -1;
}
// tick......
int pqissl::tick()
{
//pqistreamer::tick();
// continue existing connection attempt.
if (!active)
{
// if we are waiting.. continue the connection (only)
if (waiting > 0)
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone, "pqissl::tick() Continuing Connection Attempt!");
#endif
ConnectAttempt();
return 1;
}
}
return 1;
}
/********** End of Implementation of BinInterface ******************/
/********** Internals of SSL Connection ****************************/
int pqissl::ConnectAttempt()
{
switch(waiting)
{
case WAITING_NOT:
sslmode = PQISSL_ACTIVE; /* we're starting this one */
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::ConnectAttempt() STATE = Not Waiting, starting connection");
#endif
case WAITING_DELAY:
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::ConnectAttempt() STATE = Waiting Delay, starting connection");
#endif
return Delay_Connection();
//return Initiate_Connection(); /* now called by Delay_Connection() */
break;
case WAITING_SOCK_CONNECT:
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::ConnectAttempt() STATE = Waiting Sock Connect");
#endif
return Initiate_SSL_Connection();
break;
case WAITING_SSL_CONNECTION:
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::ConnectAttempt() STATE = Waiting SSL Connection");
#endif
return Authorise_SSL_Connection();
break;
case WAITING_SSL_AUTHORISE:
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::ConnectAttempt() STATE = Waiting SSL Authorise");
#endif
return Authorise_SSL_Connection();
break;
case WAITING_FAIL_INTERFACE:
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::ConnectAttempt() Failed - Retrying");
#endif
return Failed_Connection();
break;
default:
rslog(RSL_ALERT, pqisslzone,
"pqissl::ConnectAttempt() STATE = Unknown - calling reset()");
reset();
break;
}
rslog(RSL_ALERT, pqisslzone, "pqissl::ConnectAttempt() Unknown");
return -1;
}
/****************************** FAILED ATTEMPT ******************************
* Determine the Remote Address.
*
* Specifics:
* TCP / UDP
* TCP - check for which interface to use.
* UDP - check for request proxies....
*
* X509 / XPGP - Same.
*
*/
int pqissl::Failed_Connection()
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::ConnectAttempt() Failed - Notifying");
#endif
if (parent())
{
parent() -> notifyEvent(this, NET_CONNECT_UNREACHABLE);
}
waiting = WAITING_NOT;
return 1;
}
/****************************** MAKE CONNECTION *****************************
* Open Socket and Initiate Connection.
*
* Specifics:
* TCP / UDP
* TCP - socket()/connect()
* UDP - tou_socket()/tou_connect()
*
* X509 / XPGP - Same.
*
*/
int pqissl::Delay_Connection()
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Delay_Connection() Attempting Outgoing Connection....");
#endif
if (waiting == WAITING_NOT)
{
waiting = WAITING_DELAY;
/* set delay */
if (mConnectDelay == 0)
{
return Initiate_Connection();
}
/* set Connection TS.
*/
#ifdef PQISSL_LOG_DEBUG
{
std::string out;
rs_sprintf(out, "pqissl::Delay_Connection() Delaying Connection to %s for %lu seconds", PeerId().c_str(), mConnectDelay);
rslog(RSL_DEBUG_BASIC, pqisslzone, out);
}
#endif
mConnectTS = time(NULL) + mConnectDelay;
return 0;
}
else if (waiting == WAITING_DELAY)
{
#ifdef PQISSL_LOG_DEBUG
{
std::string out;
rs_sprintf(out, "pqissl::Delay_Connection() Connection to %s starting in %ld seconds", PeerId().c_str(), mConnectTS - time(NULL));
rslog(RSL_DEBUG_BASIC, pqisslzone, out);
}
#endif
if (time(NULL) > mConnectTS)
{
return Initiate_Connection();
}
return 0;
}
rslog(RSL_WARNING, pqisslzone,
"pqissl::Initiate_Connection() Already Attempt in Progress!");
return -1;
}
int pqissl::Initiate_Connection()
{
int err;
struct sockaddr_in addr = remote_addr;
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Initiate_Connection() Attempting Outgoing Connection....");
#endif
if (waiting != WAITING_DELAY)
{
rslog(RSL_WARNING, pqisslzone,
"pqissl::Initiate_Connection() Already Attempt in Progress!");
return -1;
}
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Initiate_Connection() Opening Socket");
#endif
// open socket connection to addr.
int osock = unix_socket(PF_INET, SOCK_STREAM, 0);
#ifdef PQISSL_LOG_DEBUG
{
std::string out;
rs_sprintf(out, "pqissl::Initiate_Connection() osock = %d", osock);
rslog(RSL_DEBUG_BASIC, pqisslzone, out);
}
#endif
if (osock < 0)
{
std::string out = "pqissl::Initiate_Connection() Failed to open socket!\n";
out += "Socket Error:" + socket_errorType(errno);
rslog(RSL_WARNING, pqisslzone, out);
net_internal_close(osock);
waiting = WAITING_FAIL_INTERFACE;
return -1;
}
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Initiate_Connection() Making Non-Blocking");
#endif
err = unix_fcntl_nonblock(osock);
if (err < 0)
{
std::string out;
rs_sprintf(out, "pqissl::Initiate_Connection() Error: Cannot make socket NON-Blocking: %d", err);
rslog(RSL_WARNING, pqisslzone, out);
waiting = WAITING_FAIL_INTERFACE;
net_internal_close(osock);
return -1;
}
{
std::string out;
rs_sprintf(out, "pqissl::Initiate_Connection() Connecting To: %s via: %s:%u", PeerId().c_str(), rs_inet_ntoa(addr.sin_addr).c_str(), ntohs(addr.sin_port));
rslog(RSL_WARNING, pqisslzone, out);
}
if (addr.sin_addr.s_addr == 0)
{
rslog(RSL_WARNING, pqisslzone, "pqissl::Initiate_Connection() Invalid (0.0.0.0) Remote Address, Aborting Connect.");
waiting = WAITING_FAIL_INTERFACE;
net_internal_close(osock);
return -1;
}
#ifdef WINDOWS_SYS
/* Set TCP buffer size for Windows systems */
int sockbufsize = 0;
int size = sizeof(int);
err = getsockopt(osock, SOL_SOCKET, SO_RCVBUF, (char *)&sockbufsize, &size);
#ifdef PQISSL_DEBUG
if (err == 0) {
std::cerr << "pqissl::Initiate_Connection: Current TCP receive buffer size " << sockbufsize << std::endl;
} else {
std::cerr << "pqissl::Initiate_Connection: Error getting TCP receive buffer size. Error " << err << std::endl;
}
#endif
sockbufsize = 0;
err = getsockopt(osock, SOL_SOCKET, SO_SNDBUF, (char *)&sockbufsize, &size);
#ifdef PQISSL_DEBUG
if (err == 0) {
std::cerr << "pqissl::Initiate_Connection: Current TCP send buffer size " << sockbufsize << std::endl;
} else {
std::cerr << "pqissl::Initiate_Connection: Error getting TCP send buffer size. Error " << err << std::endl;
}
#endif
sockbufsize = WINDOWS_TCP_BUFFER_SIZE;
err = setsockopt(osock, SOL_SOCKET, SO_RCVBUF, (char *)&sockbufsize, sizeof(sockbufsize));
#ifdef PQISSL_DEBUG
if (err == 0) {
std::cerr << "pqissl::Initiate_Connection: TCP receive buffer size set to " << sockbufsize << std::endl;
} else {
std::cerr << "pqissl::Initiate_Connection: Error setting TCP receive buffer size. Error " << err << std::endl;
}
#endif
err = setsockopt(osock, SOL_SOCKET, SO_SNDBUF, (char *)&sockbufsize, sizeof(sockbufsize));
#ifdef PQISSL_DEBUG
if (err == 0) {
std::cerr << "pqissl::Initiate_Connection: TCP send buffer size set to " << sockbufsize << std::endl;
} else {
std::cerr << "pqissl::Initiate_Connection: Error setting TCP send buffer size. Error " << err << std::endl;
}
#endif
#endif // WINDOWS_SYS
mTimeoutTS = time(NULL) + mConnectTimeout;
//std::cerr << "Setting Connect Timeout " << mConnectTimeout << " Seconds into Future " << std::endl;
if (0 != (err = unix_connect(osock, (struct sockaddr *) &addr, sizeof(addr))))
{
std::string out;
rs_sprintf(out, "pqissl::Initiate_Connection() connect returns:%d -> errno: %d error: %s\n", err, errno, socket_errorType(errno).c_str());
if (errno == EINPROGRESS)
{
// set state to waiting.....
waiting = WAITING_SOCK_CONNECT;
sockfd = osock;
#ifdef PQISSL_LOG_DEBUG
out += " EINPROGRESS Waiting for Socket Connection";
rslog(RSL_DEBUG_BASIC, pqisslzone, out);
#endif
return 0;
}
else if ((errno == ENETUNREACH) || (errno == ETIMEDOUT))
{
out += "ENETUNREACHABLE: cert: " + PeerId();
rslog(RSL_WARNING, pqisslzone, out);
// Then send unreachable message.
net_internal_close(osock);
osock=-1;
//reset();
waiting = WAITING_FAIL_INTERFACE;
return -1;
}
/* IF we get here ---- we Failed for some other reason.
* Should abandon this interface
* Known reasons to get here: EINVAL (bad address)
*/
rs_sprintf_append(out, "Error: Connection Failed: %d - %s", errno, socket_errorType(errno).c_str());
net_internal_close(osock);
osock=-1;
waiting = WAITING_FAIL_INTERFACE;
rslog(RSL_WARNING, pqisslzone, out);
// extra output for the moment.
//std::cerr << out.str();
return -1;
}
else
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Init_Connection() connect returned 0");
#endif
}
waiting = WAITING_SOCK_CONNECT;
sockfd = osock;
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Initiate_Connection() Waiting for Socket Connect");
#endif
return 1;
}
/****************************** CHECK SOCKET *****************************
* Check the Socket.
*
* select() and getsockopt().
*
* Specifics:
* TCP / UDP
* TCP - select()/getsockopt()
* UDP - tou_error()
*
* X509 / XPGP - Same.
*
*/
int pqissl::Basic_Connection_Complete()
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Basic_Connection_Complete()...");
#endif
/* new TimeOut code. */
if (time(NULL) > mTimeoutTS)
{
std::string out;
rs_sprintf(out, "pqissl::Basic_Connection_Complete() Connection Timed Out. Peer: %s Period: %lu", PeerId().c_str(), mConnectTimeout);
rslog(RSL_WARNING, pqisslzone, out);
/* as sockfd is valid, this should close it all up */
rslog(RSL_ALERT, pqisslzone, "pqissl::Basic_Connection_Complete() -> calling reset()");
reset();
return -1;
}
if (waiting != WAITING_SOCK_CONNECT)
{
rslog(RSL_ALERT, pqisslzone,
"pqissl::Basic_Connection_Complete() Wrong Mode");
return -1;
}
if (sockfd == -1)
{
rslog(RSL_ALERT, pqisslzone,
"pqissl::Basic_Connection_Complete() problem with the socket descriptor. Aborting");
rslog(RSL_ALERT, pqisslzone, "pqissl::Basic_Connection_Complete() -> calling reset()");
reset();
return -1;
}
// use select on the opened socket.
// Interestingly - This code might be portable....
fd_set ReadFDs, WriteFDs, ExceptFDs;
FD_ZERO(&ReadFDs);
FD_ZERO(&WriteFDs);
FD_ZERO(&ExceptFDs);
FD_SET(sockfd, &ReadFDs);
FD_SET(sockfd, &WriteFDs);
FD_SET(sockfd, &ExceptFDs);
struct timeval timeout;
timeout.tv_sec = 0;
timeout.tv_usec = 0;
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Basic_Connection_Complete() Selecting ....");
#endif
int sr = 0;
if (0 > (sr = select(sockfd + 1,
&ReadFDs, &WriteFDs, &ExceptFDs, &timeout)))
{
// select error.
rslog(RSL_WARNING, pqisslzone,
"pqissl::Basic_Connection_Complete() Select ERROR(1)");
net_internal_close(sockfd);
sockfd=-1;
//reset();
waiting = WAITING_FAIL_INTERFACE;
return -1;
}
#ifdef PQISSL_LOG_DEBUG
{
std::string out;
rs_sprintf(out, "pqissl::Basic_Connection_Complete() Select returned %d", sr);
rslog(RSL_DEBUG_BASIC, pqisslzone, out);
}
#endif
if (FD_ISSET(sockfd, &ExceptFDs))
{
// error - reset socket.
// this is a definite bad socket!.
rslog(RSL_WARNING, pqisslzone,
"pqissl::Basic_Connection_Complete() Select ERROR(2)");
net_internal_close(sockfd);
sockfd=-1;
//reset();
waiting = WAITING_FAIL_INTERFACE;
return -1;
}
if (FD_ISSET(sockfd, &WriteFDs))
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Basic_Connection_Complete() Can Write!");
#endif
}
else
{
#ifdef PQISSL_LOG_DEBUG
// happens frequently so switched to debug msg.
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Basic_Connection_Complete() Not Yet Ready!");
#endif
return 0;
}
if (FD_ISSET(sockfd, &ReadFDs))
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Basic_Connection_Complete() Can Read!");
#endif
}
else
{
#ifdef PQISSL_LOG_DEBUG
// not ready return -1;
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Basic_Connection_Complete() Cannot Read!");
#endif
}
int err = 1;
if (0==unix_getsockopt_error(sockfd, &err))
{
if (err == 0)
{
{
std::string out;
rs_sprintf(out, "pqissl::Basic_Connection_Complete() TCP Connection Complete: cert: %s on osock: ", PeerId().c_str(), sockfd);
rslog(RSL_WARNING, pqisslzone, out);
}
return 1;
}
else if (err == EINPROGRESS)
{
rslog(RSL_WARNING, pqisslzone, "pqissl::Basic_Connection_Complete() EINPROGRESS: cert: " + PeerId());
return 0;
}
else if ((err == ENETUNREACH) || (err == ETIMEDOUT))
{
rslog(RSL_WARNING, pqisslzone, "pqissl::Basic_Connection_Complete() ENETUNREACH/ETIMEDOUT: cert: " + PeerId());
// Then send unreachable message.
net_internal_close(sockfd);
sockfd=-1;
//reset();
waiting = WAITING_FAIL_INTERFACE;
return -1;
}
else if ((err == EHOSTUNREACH) || (err == EHOSTDOWN))
{
rslog(RSL_WARNING, pqisslzone, "pqissl::Basic_Connection_Complete() EHOSTUNREACH/EHOSTDOWN: cert: " + PeerId());
// Then send unreachable message.
net_internal_close(sockfd);
sockfd=-1;
//reset();
waiting = WAITING_FAIL_INTERFACE;
return -1;
}
else if ((err == ECONNREFUSED))
{
rslog(RSL_WARNING, pqisslzone, "pqissl::Basic_Connection_Complete() ECONNREFUSED: cert: " + PeerId());
// Then send unreachable message.
net_internal_close(sockfd);
sockfd=-1;
//reset();
waiting = WAITING_FAIL_INTERFACE;
return -1;
}
std::string out;
rs_sprintf(out, "Error: Connection Failed UNKNOWN ERROR: %d - %s", err, socket_errorType(err).c_str());
rslog(RSL_WARNING, pqisslzone, out);
net_internal_close(sockfd);
sockfd=-1;
//reset(); // which will send Connect Failed,
return -1;
}
rslog(RSL_ALERT, pqisslzone,
"pqissl::Basic_Connection_Complete() BAD GETSOCKOPT!");
waiting = WAITING_FAIL_INTERFACE;
return -1;
}
int pqissl::Initiate_SSL_Connection()
{
int err;
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Initiate_SSL_Connection() Checking Basic Connection");
#endif
if (0 >= (err = Basic_Connection_Complete()))
{
return err;
}
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Initiate_SSL_Connection() Basic Connection Okay");
#endif
// setup timeout value.
ssl_connect_timeout = time(NULL) + PQISSL_SSL_CONNECT_TIMEOUT;
// Perform SSL magic.
// library already inited by sslroot().
SSL *ssl = SSL_new(AuthSSL::getAuthSSL()->getCTX());
if (ssl == NULL)
{
rslog(RSL_ALERT, pqisslzone,
"pqissl::Initiate_SSL_Connection() SSL_new failed!");
exit(1);
return -1;
}
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Initiate_SSL_Connection() SSL Connection Okay");
#endif
ssl_connection = ssl;
net_internal_SSL_set_fd(ssl, sockfd);
if (err < 1)
{
std::string out = "pqissl::Initiate_SSL_Connection() SSL_set_fd failed!\n";
printSSLError(ssl, err, SSL_get_error(ssl, err), ERR_get_error(), out);
rslog(RSL_ALERT, pqisslzone, out);
}
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Initiate_SSL_Connection() Waiting for SSL Connection");
#endif
waiting = WAITING_SSL_CONNECTION;
return 1;
}
int pqissl::SSL_Connection_Complete()
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::SSL_Connection_Complete()??? ... Checking");
#endif
if (waiting == WAITING_SSL_AUTHORISE)
{
rslog(RSL_ALERT, pqisslzone,
"pqissl::SSL_Connection_Complete() Waiting = W_SSL_AUTH");
return 1;
}
if (waiting != WAITING_SSL_CONNECTION)
{
rslog(RSL_ALERT, pqisslzone,
"pqissl::SSL_Connection_Complete() Still Waiting..");
return -1;
}
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::SSL_Connection_Complete() Attempting SSL_connect");
#endif
/* if we are passive - then accept! */
int err;
if (sslmode)
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone, "--------> Active Connect!");
#endif
err = SSL_connect(ssl_connection);
}
else
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone, "--------> Passive Accept!");
#endif
err = SSL_accept(ssl_connection);
}
if (err != 1)
{
int serr = SSL_get_error(ssl_connection, err);
if ((serr == SSL_ERROR_WANT_READ)
|| (serr == SSL_ERROR_WANT_WRITE))
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"Waiting for SSL handshake!");
#endif
waiting = WAITING_SSL_CONNECTION;
return 0;
}
std::string out;
rs_sprintf(out, "pqissl::SSL_Connection_Complete()\nIssues with SSL Connect(%d)!\n", err);
printSSLError(ssl_connection, err, serr, ERR_get_error(), out);
rslog(RSL_WARNING, pqisslzone, out);
// attempt real error.
Extract_Failed_SSL_Certificate();
rslog(RSL_ALERT, pqisslzone, "pqissl::SSL_Connection_Complete() -> calling reset()");
reset();
waiting = WAITING_FAIL_INTERFACE;
return -1;
}
// if we get here... success v quickly.
rslog(RSL_WARNING, pqisslzone, "pqissl::SSL_Connection_Complete() Success!: Peer: " + PeerId());
waiting = WAITING_SSL_AUTHORISE;
return 1;
}
int pqissl::Extract_Failed_SSL_Certificate()
{
std::cerr << "pqissl::Extract_Failed_SSL_Certificate() FAILED Connection due to Security Issues";
std::cerr << std::endl;
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Extract_Failed_SSL_Certificate()");
#endif
// Get the Peer Certificate....
X509 *peercert = SSL_get_peer_certificate(ssl_connection);
if (peercert == NULL)
{
rslog(RSL_WARNING, pqisslzone,
"pqissl::Extract_Failed_SSL_Certificate() Peer Didnt Give Cert");
std::cerr << "pqissl::Extract_Failed_SSL_Certificate() ERROR Peer Didn't Give Us Certificate";
std::cerr << std::endl;
return -1;
}
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Extract_Failed_SSL_Certificate() Have Peer Cert - Registering");
#endif
std::cerr << "pqissl::Extract_Failed_SSL_Certificate() Passing FAILED Cert to AuthSSL for analysis";
std::cerr << std::endl;
// save certificate... (and ip locations)
// false for outgoing....
// we actually connected to remote_addr,
// which could be
// (pqissl's case) sslcert->serveraddr or sslcert->localaddr.
std::string sslid ;
getX509id(peercert, sslid) ;
std::string gpgid = getX509CNString(peercert->cert_info->issuer);
std::string sslcn = getX509CNString(peercert->cert_info->subject);
AuthSSL::getAuthSSL()->FailedCertificate(peercert, gpgid,sslid,sslcn,remote_addr, false);
return 1;
}
int pqissl::Authorise_SSL_Connection()
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Authorise_SSL_Connection()");
#endif
if (time(NULL) > ssl_connect_timeout)
{
rslog(RSL_WARNING, pqisslzone,
"pqissl::Authorise_SSL_Connection() Connection Timed Out!");
/* as sockfd is valid, this should close it all up */
rslog(RSL_ALERT, pqisslzone, "pqissl::Authorise_Connection_Complete() -> calling reset()");
reset();
}
int err;
if (0 >= (err = SSL_Connection_Complete()))
{
return err;
}
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Authorise_SSL_Connection() SSL_Connection_Complete");
#endif
// reset switch.
waiting = WAITING_NOT;
X509 *peercert = SSL_get_peer_certificate(ssl_connection);
if (peercert == NULL)
{
rslog(RSL_WARNING, pqisslzone,
"pqissl::Authorise_SSL_Connection() Peer Didnt Give Cert");
rslog(RSL_ALERT, pqisslzone, "pqissl::Authorise_Connection_Complete() -> calling reset()");
// Failed completely
reset();
return -1;
}
std::string certPeerId;
getX509id(peercert, certPeerId);
if (certPeerId != PeerId()) {
rslog(RSL_WARNING, pqisslzone,
"pqissl::Authorise_SSL_Connection() the cert Id doesn't match the Peer id we're trying to connect to.");
rslog(RSL_ALERT, pqisslzone, "pqissl::Authorise_Connection_Complete() -> calling reset()");
// Failed completely
reset();
return -1;
}
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::Authorise_SSL_Connection() Have Peer Cert");
#endif
// save certificate... (and ip locations)
// false for outgoing....
// we actually connected to remote_addr,
// which could be
// (pqissl's case) sslcert->serveraddr or sslcert->localaddr.
AuthSSL::getAuthSSL()->CheckCertificate(PeerId(), peercert);
bool certCorrect = true; /* WE know it okay already! */
// check it's the right one.
if (certCorrect)
{
// then okay...
rslog(RSL_WARNING, pqisslzone, "pqissl::Authorise_SSL_Connection() Accepting Conn. Peer: " + PeerId());
accept(ssl_connection, sockfd, remote_addr);
return 1;
}
rslog(RSL_WARNING, pqisslzone, "pqissl::Authorise_SSL_Connection() Something Wrong ... Shutdown. Peer: " + PeerId());
// else shutdown ssl connection.
rslog(RSL_ALERT, pqisslzone, "pqissl::Authorise_Connection_Complete() -> calling reset()");
reset();
return 0;
}
int pqissl::accept(SSL *ssl, int fd, struct sockaddr_in foreign_addr) // initiate incoming connection.
{
if (waiting != WAITING_NOT)
{
rslog(RSL_WARNING, pqisslzone, "pqissl::accept() Peer: " + PeerId() + " - Two connections in progress - Shut 1 down!");
// outgoing connection in progress.
// shut this baby down.
//
// Thought I should shut down one in progress, and continue existing one!
// But the existing one might be broke.... take second.
// all we need is to never stop listening.
switch(waiting)
{
case WAITING_SOCK_CONNECT:
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::accept() STATE = Waiting Sock Connect - close the socket");
#endif
break;
case WAITING_SSL_CONNECTION:
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::accept() STATE = Waiting SSL Connection - close sockfd + ssl_conn");
#endif
break;
case WAITING_SSL_AUTHORISE:
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::accept() STATE = Waiting SSL Authorise - close sockfd + ssl_conn");
#endif
break;
case WAITING_FAIL_INTERFACE:
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::accept() STATE = Failed, ignore?");
#endif
break;
default:
rslog(RSL_ALERT, pqisslzone,
"pqissl::accept() STATE = Unknown - ignore?");
rslog(RSL_ALERT, pqisslzone, "pqissl::accept() -> calling reset()");
reset();
break;
}
//waiting = WAITING_FAIL_INTERFACE;
//return -1;
}
/* shutdown existing - in all cases use the new one */
if ((ssl_connection) && (ssl_connection != ssl))
{
rslog(RSL_ALERT, pqisslzone,
"pqissl::accept() closing Previous/Existing ssl_connection");
SSL_shutdown(ssl_connection);
}
if ((sockfd > -1) && (sockfd != fd))
{
rslog(RSL_ALERT, pqisslzone,
"pqissl::accept() closing Previous/Existing sockfd");
net_internal_close(sockfd);
}
// save ssl + sock.
ssl_connection = ssl;
sockfd = fd;
/* if we connected - then just writing the same over,
* but if from ssllistener then we need to save the address.
*/
remote_addr = foreign_addr;
/* check whether it is on the same LAN */
struct sockaddr_in localaddr = mLinkMgr->getLocalAddress();
sameLAN = isSameSubnet(&(remote_addr.sin_addr), &(localaddr.sin_addr));
{
std::string out = "pqissl::accept() SUCCESSFUL connection to: " + PeerId();
out += " localaddr: " + rs_inet_ntoa(localaddr.sin_addr);
out += " remoteaddr: " + rs_inet_ntoa(remote_addr.sin_addr);
if (sameLAN)
{
out += " SAME LAN";
}
else
{
out += " DIFF LANs";
}
rslog(RSL_WARNING, pqisslzone, out);
}
// establish the ssl details.
// cipher name.
int err;
#ifdef PQISSL_LOG_DEBUG
{
int alg;
std::string out;
rs_sprintf(out, "SSL Cipher:%s\n", SSL_get_cipher(ssl));
rs_sprintf_append(out, "SSL Cipher Bits:%d - %d\n", SSL_get_cipher_bits(ssl, &alg), alg);
rs_sprintf_append(out, "SSL Cipher Version:%s\n", SSL_get_cipher_version(ssl));
rslog(RSL_DEBUG_BASIC, pqisslzone, out);
}
#endif
// make non-blocking / or check.....
if ((err = net_internal_fcntl_nonblock(sockfd)) < 0)
{
rslog(RSL_ALERT, pqisslzone, "Error: Cannot make socket NON-Blocking: ");
active = false;
waiting = WAITING_FAIL_INTERFACE;
// failed completely.
rslog(RSL_ALERT, pqisslzone, "pqissl::accept() -> calling reset()");
reset();
return -1;
}
else
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone, "pqissl::accept() Socket Made Non-Blocking!");
#endif
}
// we want to continue listening - incase this socket is crap, and they try again.
//stoplistening();
active = true;
waiting = WAITING_NOT;
// Notify the pqiperson.... (Both Connect/Receive)
if (parent())
{
parent() -> notifyEvent(this, NET_CONNECT_SUCCESS);
}
return 1;
}
/********** Implementation of BinInterface **************************
* All the rest of the BinInterface.
*
*/
int pqissl::senddata(void *data, int len)
{
int tmppktlen ;
#ifdef PQISSL_DEBUG
std::cout << "Sending data thread=" << pthread_self() << ", ssl=" << (void*)this << ", size=" << len << std::endl ;
#endif
tmppktlen = SSL_write(ssl_connection, data, len) ;
if (len != tmppktlen)
{
std::string out = "pqissl::senddata() " + PeerId();
rs_sprintf_append(out, " Partial Send: len: %d sent: %d ", len, tmppktlen);
int err = SSL_get_error(ssl_connection, tmppktlen);
// incomplete operations - to repeat....
// handled by the pqistreamer...
if (err == SSL_ERROR_SYSCALL)
{
rs_sprintf_append(out, "SSL_write() SSL_ERROR_SYSCALL SOCKET_DEAD -> calling reset() errno: %d ", errno);
out += socket_errorType(errno);
std::cerr << out << std::endl;
rslog(RSL_ALERT, pqisslzone, out);
/* extra debugging - based on SSL_get_error() man page */
{
int errsys = errno;
int sslerr = 0;
std::string out2;
rs_sprintf(out2, "SSL_ERROR_SYSCALL, ret == %d errno: %d %s\n", tmppktlen, errsys, socket_errorType(errsys).c_str());
while(0 != (sslerr = ERR_get_error()))
{
rs_sprintf_append(out2, "SSLERR:%d:", sslerr);
char sslbuf[256] = {0};
out2 += ERR_error_string(sslerr, sslbuf);
out2 += "\n";
}
rslog(RSL_ALERT, pqisslzone, out2);
}
rslog(RSL_ALERT, pqisslzone, "pqissl::senddata() -> calling reset()");
reset();
return -1;
}
else if (err == SSL_ERROR_WANT_WRITE)
{
out += "SSL_write() SSL_ERROR_WANT_WRITE";
rslog(RSL_WARNING, pqisslzone, out);
return -1;
}
else if (err == SSL_ERROR_WANT_READ)
{
out += "SSL_write() SSL_ERROR_WANT_READ";
rslog(RSL_WARNING, pqisslzone, out);
//std::cerr << out << std::endl;
return -1;
}
else
{
rs_sprintf_append(out, "SSL_write() UNKNOWN ERROR: %d\n", err);
printSSLError(ssl_connection, tmppktlen, err, ERR_get_error(), out);
out += "\n\tResetting!";
std::cerr << out << std::endl;
rslog(RSL_ALERT, pqisslzone, out);
rslog(RSL_ALERT, pqisslzone, "pqissl::senddata() -> calling reset()");
reset();
return -1;
}
}
return tmppktlen;
}
int pqissl::readdata(void *data, int len)
{
#ifdef PQISSL_DEBUG
std::cout << "Reading data thread=" << pthread_self() << ", ssl=" << (void*)this << std::endl ;
#endif
// There is a do, because packets can be splitted into multiple ssl buffers
// when they are larger than 16384 bytes. Such packets have to be read in
// multiple slices.
do
{
int tmppktlen ;
#ifdef PQISSL_DEBUG
std::cerr << "calling SSL_read. len=" << len << ", total_len=" << total_len << std::endl ;
#endif
tmppktlen = SSL_read(ssl_connection, (void*)( &(((uint8_t*)data)[total_len])), len-total_len) ;
#ifdef PQISSL_DEBUG
std::cerr << "have read " << tmppktlen << " bytes" << std::endl ;
std::cerr << "data[0] = "
<< (int)((uint8_t*)data)[total_len+0] << " "
<< (int)((uint8_t*)data)[total_len+1] << " "
<< (int)((uint8_t*)data)[total_len+2] << " "
<< (int)((uint8_t*)data)[total_len+3] << " "
<< (int)((uint8_t*)data)[total_len+4] << " "
<< (int)((uint8_t*)data)[total_len+5] << " "
<< (int)((uint8_t*)data)[total_len+6] << " "
<< (int)((uint8_t*)data)[total_len+7] << std::endl ;
#endif
// Need to catch errors.....
//
if (tmppktlen <= 0) // probably needs a reset.
{
std::string out;
int error = SSL_get_error(ssl_connection, tmppktlen);
unsigned long err2 = ERR_get_error();
//printSSLError(ssl_connection, tmppktlen, error, err2, out);
if ((error == SSL_ERROR_ZERO_RETURN) && (err2 == 0))
{
/* this code will be called when
* (1) moretoread -> returns true. +
* (2) SSL_read fails.
*
* There are two ways this can happen:
* (1) there is a little data on the socket, but not enough
* for a full SSL record, so there legimitately is no error, and the moretoread()
* was correct, but the read fails.
*
* (2) the socket has been closed correctly. this leads to moretoread() -> true,
* and ZERO error.... we catch this case by counting how many times
* it occurs in a row (cos the other one will not).
*/
if (n_read_zero == 0)
{
/* first read_zero */
mReadZeroTS = time(NULL);
}
++n_read_zero;
out += "pqissl::readdata() " + PeerId();
rs_sprintf_append(out, " SSL_read() SSL_ERROR_ZERO_RETURN : nReadZero: %d", n_read_zero);
if ((PQISSL_MAX_READ_ZERO_COUNT < n_read_zero)
&& (time(NULL) - mReadZeroTS > PQISSL_MAX_READ_ZERO_TIME))
{
out += " Count passed Limit, shutting down!";
rs_sprintf_append(out, " ReadZero Age: %ld", time(NULL) - mReadZeroTS);
rslog(RSL_ALERT, pqisslzone, "pqissl::readdata() -> calling reset()");
reset();
}
rslog(RSL_ALERT, pqisslzone, out);
std::cerr << out << std::endl ;
return -1;
}
/* the only real error we expect */
if (error == SSL_ERROR_SYSCALL)
{
out += "pqissl::readdata() " + PeerId();
out += " SSL_read() SSL_ERROR_SYSCALL";
out += " SOCKET_DEAD -> calling reset()";
rs_sprintf_append(out, " errno: %d", errno);
out += " " + socket_errorType(errno);
rslog(RSL_ALERT, pqisslzone, out);
/* extra debugging - based on SSL_get_error() man page */
{
int syserr = errno;
int sslerr = 0;
std::string out2;
rs_sprintf(out2, "SSL_ERROR_SYSCALL, ret == %d errno: %d %s\n", tmppktlen, syserr, socket_errorType(syserr).c_str());
while(0 != (sslerr = ERR_get_error()))
{
rs_sprintf_append(out2, "SSLERR:%d : ", sslerr);
char sslbuf[256] = {0};
out2 += ERR_error_string(sslerr, sslbuf);
out2 += "\n";
}
rslog(RSL_ALERT, pqisslzone, out2);
}
rslog(RSL_ALERT, pqisslzone, "pqissl::readdata() -> calling reset()");
reset();
std::cerr << out << std::endl ;
return -1;
}
else if (error == SSL_ERROR_WANT_WRITE)
{
out += "SSL_read() SSL_ERROR_WANT_WRITE";
rslog(RSL_WARNING, pqisslzone, out);
std::cerr << out << std::endl ;
return -1;
}
else if (error == SSL_ERROR_WANT_READ)
{
// SSL_WANT_READ is not a crittical error. It's just a sign that
// the internal SSL buffer is not ready to accept more data. So -1
// is returned, and the connexion will be retried as is on next
// call of readdata().
#ifdef PQISSL_DEBUG
out += "SSL_read() SSL_ERROR_WANT_READ";
rslog(RSL_DEBUG_BASIC, pqisslzone, out);
#endif
return -1;
}
else
{
rs_sprintf_append(out, "SSL_read() UNKNOWN ERROR: %d Resetting!", error);
rslog(RSL_ALERT, pqisslzone, out);
std::cerr << out << std::endl ;
rslog(RSL_ALERT, pqisslzone, "pqissl::readdata() -> calling reset()");
reset();
return -1;
}
rslog(RSL_ALERT, pqisslzone, out);
//exit(1);
}
else
total_len+=tmppktlen ;
} while(total_len < len) ;
#ifdef PQISSL_DEBUG
std::cerr << "pqissl: have read data of length " << total_len << ", expected is " << len << std::endl ;
#endif
if (len != total_len)
{
std::string out;
rs_sprintf(out, "pqissl::readdata() Full Packet Not read!\n -> Expected len(%d) actually read(%d)", len, total_len);
std::cerr << out << std::endl;
rslog(RSL_WARNING, pqisslzone, out);
}
total_len = 0 ; // reset the packet pointer as we have finished a packet.
n_read_zero = 0;
return len;//tmppktlen;
}
// dummy function currently.
int pqissl::netstatus()
{
return 1;
}
int pqissl::isactive()
{
return active;
}
bool pqissl::moretoread()
{
#ifdef PQISSL_DEBUG
{
std::string out;
rs_sprintf(out, "pqissl::moretoread() polling socket (%d)", sockfd);
rslog(RSL_DEBUG_ALL, pqisslzone, out);
}
#endif
fd_set ReadFDs, WriteFDs, ExceptFDs;
FD_ZERO(&ReadFDs);
FD_ZERO(&WriteFDs);
FD_ZERO(&ExceptFDs);
FD_SET(sockfd, &ReadFDs);
FD_SET(sockfd, &WriteFDs);
FD_SET(sockfd, &ExceptFDs);
struct timeval timeout;
timeout.tv_sec = 0;
timeout.tv_usec = 0;
if (select(sockfd + 1, &ReadFDs, &WriteFDs, &ExceptFDs, &timeout) < 0)
{
rslog(RSL_ALERT, pqisslzone,
"pqissl::moretoread() Select ERROR!");
return 0;
}
if (FD_ISSET(sockfd, &ExceptFDs))
{
// error - reset socket.
rslog(RSL_ALERT, pqisslzone,
"pqissl::moretoread() Select Exception ERROR!");
// this is a definite bad socket!.
// reset.
rslog(RSL_ALERT, pqisslzone, "pqissl::moretoread() -> calling reset()");
reset();
return 0;
}
if (FD_ISSET(sockfd, &WriteFDs))
{
#ifdef PQISSL_DEBUG
// write can work.
rslog(RSL_DEBUG_ALL, pqisslzone,
"pqissl::moretoread() Can Write!");
#endif
}
else
{
#ifdef PQISSL_DEBUG
// write can work.
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::moretoread() Can *NOT* Write!");
#endif
}
if (FD_ISSET(sockfd, &ReadFDs))
{
#ifdef PQISSL_LOG_DEBUG
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::moretoread() Data to Read!");
#endif
return 1;
}
else
{
#ifdef PQISSL_DEBUG
rslog(RSL_DEBUG_ALL, pqisslzone,
"pqissl::moretoread() No Data to Read!");
#endif
return 0;
}
}
bool pqissl::cansend()
{
#ifdef PQISSL_DEBUG
rslog(RSL_DEBUG_ALL, pqisslzone,
"pqissl::cansend() polling socket!");
#endif
// Interestingly - This code might be portable....
fd_set ReadFDs, WriteFDs, ExceptFDs;
FD_ZERO(&ReadFDs);
FD_ZERO(&WriteFDs);
FD_ZERO(&ExceptFDs);
FD_SET(sockfd, &ReadFDs);
FD_SET(sockfd, &WriteFDs);
FD_SET(sockfd, &ExceptFDs);
struct timeval timeout;
timeout.tv_sec = 0;
timeout.tv_usec = 0;
if (select(sockfd + 1, &ReadFDs, &WriteFDs, &ExceptFDs, &timeout) < 0)
{
// select error.
rslog(RSL_ALERT, pqisslzone,
"pqissl::cansend() Select Error!");
return 0;
}
if (FD_ISSET(sockfd, &ExceptFDs))
{
// error - reset socket.
rslog(RSL_ALERT, pqisslzone,
"pqissl::cansend() Select Exception!");
// this is a definite bad socket!.
// reset.
rslog(RSL_ALERT, pqisslzone, "pqissl::cansend() -> calling reset()");
reset();
return 0;
}
if (FD_ISSET(sockfd, &WriteFDs))
{
#ifdef PQISSL_DEBUG
// write can work.
rslog(RSL_DEBUG_ALL, pqisslzone,
"pqissl::cansend() Can Write!");
#endif
return 1;
}
else
{
#ifdef PQISSL_DEBUG
// write can work.
rslog(RSL_DEBUG_BASIC, pqisslzone,
"pqissl::cansend() Can *NOT* Write!");
#endif
return 0;
}
}
std::string pqissl::gethash()
{
std::string dummyhash;
return dummyhash;
}
/********** End of Implementation of BinInterface ******************/