/*
* Copyright (c) 1998-2004, Index Data.
* See the file LICENSE for details.
*
* $Id: yaz-pdu-assoc.cpp,v 1.46 2006/03/30 11:58:00 adam Exp $
*/
#include <assert.h>
#include <string.h>
#include <yaz/log.h>
#include <yaz/tcpip.h>
#include <yazpp/pdu-assoc.h>
using namespace yazpp_1;
void PDU_Assoc::init(ISocketObservable *socketObservable)
{
m_state = Closed;
m_cs = 0;
m_socketObservable = socketObservable;
m_PDU_Observer = 0;
m_queue_out = 0;
m_queue_in = 0;
m_input_buf = 0;
m_input_len = 0;
m_children = 0;
m_parent = 0;
m_next = 0;
m_destroyed = 0;
m_idleTime = 0;
m_log = YLOG_DEBUG;
}
PDU_Assoc::PDU_Assoc(ISocketObservable *socketObservable)
{
init (socketObservable);
}
PDU_Assoc::PDU_Assoc(ISocketObservable *socketObservable,
COMSTACK cs)
{
init(socketObservable);
m_cs = cs;
unsigned mask = 0;
if (cs->io_pending & CS_WANT_WRITE)
mask |= SOCKET_OBSERVE_WRITE;
if (cs->io_pending & CS_WANT_READ)
mask |= SOCKET_OBSERVE_READ;
m_socketObservable->addObserver(cs_fileno(cs), this);
if (!mask)
{
yaz_log (m_log, "new PDU_Assoc. Ready");
m_state = Ready;
flush_PDU();
}
else
{
yaz_log (m_log, "new PDU_Assoc. Accepting");
// assume comstack is accepting...
m_state = Accepting;
m_socketObservable->addObserver(cs_fileno(cs), this);
yaz_log(m_log, "maskObserver 1");
m_socketObservable->maskObserver(this,
mask |SOCKET_OBSERVE_EXCEPT);
}
}
IPDU_Observable *PDU_Assoc::clone()
{
PDU_Assoc *copy = new PDU_Assoc(m_socketObservable);
return copy;
}
void PDU_Assoc::socketNotify(int event)
{
yaz_log (m_log, "PDU_Assoc::socketNotify p=%p state=%d event = %d",
this, m_state, event);
if (event & SOCKET_OBSERVE_EXCEPT)
{
close();
m_PDU_Observer->failNotify();
return;
}
else if (event & SOCKET_OBSERVE_TIMEOUT)
{
m_PDU_Observer->timeoutNotify();
return;
}
switch (m_state)
{
case Accepting:
if (!cs_accept (m_cs))
{
yaz_log (m_log, "PDU_Assoc::cs_accept failed");
m_cs = 0;
close();
m_PDU_Observer->failNotify();
}
else
{
unsigned mask = 0;
if (m_cs->io_pending & CS_WANT_WRITE)
mask |= SOCKET_OBSERVE_WRITE;
if (m_cs->io_pending & CS_WANT_READ)
mask |= SOCKET_OBSERVE_READ;
if (!mask)
{ // accept is complete. turn to ready state and write if needed
m_state = Ready;
flush_PDU();
}
else
{ // accept still incomplete.
yaz_log(m_log, "maskObserver 2");
m_socketObservable->maskObserver(this,
mask|SOCKET_OBSERVE_EXCEPT);
}
}
break;
case Connecting:
if (event & SOCKET_OBSERVE_READ &&
event & SOCKET_OBSERVE_WRITE)
{
// For Unix: if both read and write is set, then connect failed.
close();
m_PDU_Observer->failNotify();
}
else
{
yaz_log (m_log, "cs_rcvconnect");
int res = cs_rcvconnect (m_cs);
if (res == 1)
{
unsigned mask = SOCKET_OBSERVE_EXCEPT;
if (m_cs->io_pending & CS_WANT_WRITE)
mask |= SOCKET_OBSERVE_WRITE;
if (m_cs->io_pending & CS_WANT_READ)
mask |= SOCKET_OBSERVE_READ;
yaz_log(m_log, "maskObserver 3");
m_socketObservable->maskObserver(this, mask);
}
else
{
m_state = Ready;
if (m_PDU_Observer)
m_PDU_Observer->connectNotify();
flush_PDU();
}
}
break;
case Listen:
if (event & SOCKET_OBSERVE_READ)
{
int res;
COMSTACK new_line;
if ((res = cs_listen(m_cs, 0, 0)) == 1)
return;
if (res < 0)
{
yaz_log(YLOG_FATAL|YLOG_ERRNO, "cs_listen failed");
return;
}
if (!(new_line = cs_accept(m_cs)))
return;
/* 1. create socket-manager
2. create pdu-assoc
3. create top-level object
setup observer for child fileid in pdu-assoc
4. start thread
*/
yaz_log (m_log, "new session: parent fd=%d child fd=%d",
cs_fileno(m_cs), cs_fileno(new_line));
childNotify (new_line);
}
break;
case Writing:
if (event & (SOCKET_OBSERVE_READ|SOCKET_OBSERVE_WRITE))
flush_PDU();
break;
case Ready:
if (event & (SOCKET_OBSERVE_READ|SOCKET_OBSERVE_WRITE))
{
do
{
int res = cs_get (m_cs, &m_input_buf, &m_input_len);
if (res == 1)
{
unsigned mask = SOCKET_OBSERVE_EXCEPT;
if (m_cs->io_pending & CS_WANT_WRITE)
mask |= SOCKET_OBSERVE_WRITE;
if (m_cs->io_pending & CS_WANT_READ)
mask |= SOCKET_OBSERVE_READ;
yaz_log(m_log, "maskObserver 4");
m_socketObservable->maskObserver(this, mask);
return;
}
else if (res <= 0)
{
yaz_log (m_log, "PDU_Assoc::Connection closed by peer");
close();
if (m_PDU_Observer)
m_PDU_Observer->failNotify(); // problem here..
return;
}
// lock it, so we know if recv_PDU deletes it.
int destroyed = 0;
m_destroyed = &destroyed;
if (!m_PDU_Observer)
return;
#if 0
PDU_Queue **pq = &m_queue_in;
while (*pq)
pq = &(*pq)->m_next;
*pq = new PDU_Queue(m_input_buf, res);
#else
m_PDU_Observer->recv_PDU(m_input_buf, res);
#endif
if (destroyed) // it really was destroyed, return now.
return;
m_destroyed = 0;
} while (m_cs && cs_more (m_cs));
if (m_cs && m_state == Ready)
{
yaz_log(m_log, "maskObserver 5");
m_socketObservable->maskObserver(this,
SOCKET_OBSERVE_EXCEPT|
SOCKET_OBSERVE_READ);
}
}
break;
case Closed:
yaz_log (m_log, "CLOSING state=%d event was %d", m_state, event);
close();
m_PDU_Observer->failNotify();
break;
default:
yaz_log (m_log, "Unknown state=%d event was %d", m_state, event);
close();
m_PDU_Observer->failNotify();
}
}
void PDU_Assoc::close()
{
PDU_Assoc *ch;
for (ch = m_children; ch; ch = ch->m_next)
ch->close();
m_socketObservable->deleteObserver(this);
m_state = Closed;
if (m_cs)
{
yaz_log (m_log, "PDU_Assoc::close fd=%d", cs_fileno(m_cs));
cs_close (m_cs);
}
m_cs = 0;
while (m_queue_out)
{
PDU_Queue *q_this = m_queue_out;
m_queue_out = m_queue_out->m_next;
delete q_this;
}
xfree (m_input_buf);
m_input_buf = 0;
m_input_len = 0;
}
void PDU_Assoc::destroy()
{
close();
if (m_destroyed)
*m_destroyed = 1;
PDU_Assoc **c;
// delete from parent's child list (if any)
if (m_parent)
{
c = &m_parent->m_children;
while (*c != this)
{
assert (*c);
c = &(*c)->m_next;
}
*c = (*c)->m_next;
}
// delete all children ...
c = &m_children;
while (*c)
{
PDU_Assoc *here = *c;
*c = (*c)->m_next;
here->m_parent = 0;
delete here;
}
yaz_log (m_log, "PDU_Assoc::destroy this=%p", this);
}
PDU_Assoc::PDU_Queue::PDU_Queue(const char *buf, int len)
{
m_buf = (char *) xmalloc (len);
memcpy (m_buf, buf, len);
m_len = len;
m_next = 0;
}
PDU_Assoc::PDU_Queue::~PDU_Queue()
{
xfree (m_buf);
}
int PDU_Assoc::flush_PDU()
{
int r;
if (m_state != Ready && m_state != Writing)
{
yaz_log (m_log, "YAZ_PDU_Assoc::flush_PDU, not ready");
return 1;
}
PDU_Queue *q = m_queue_out;
if (!q)
{
m_state = Ready;
yaz_log (m_log, "YAZ_PDU_Assoc::flush_PDU queue empty");
yaz_log(m_log, "maskObserver 6");
m_socketObservable->maskObserver(this, SOCKET_OBSERVE_READ|
SOCKET_OBSERVE_WRITE|
SOCKET_OBSERVE_EXCEPT);
return 0;
}
r = cs_put (m_cs, q->m_buf, q->m_len);
if (r < 0)
{
yaz_log (m_log, "PDU_Assoc::flush_PDU cs_put failed");
close();
m_PDU_Observer->failNotify();
return r;
}
if (r == 1)
{
unsigned mask = SOCKET_OBSERVE_EXCEPT;
m_state = Writing;
if (m_cs->io_pending & CS_WANT_WRITE)
mask |= SOCKET_OBSERVE_WRITE;
if (m_cs->io_pending & CS_WANT_READ)
mask |= SOCKET_OBSERVE_READ;
mask |= SOCKET_OBSERVE_WRITE;
yaz_log(m_log, "maskObserver 7");
m_socketObservable->maskObserver(this, mask);
yaz_log (m_log, "PDU_Assoc::flush_PDU cs_put %d bytes fd=%d (inc)",
q->m_len, cs_fileno(m_cs));
return r;
}
yaz_log (m_log, "PDU_Assoc::flush_PDU cs_put %d bytes", q->m_len);
// whole packet sent... delete this and proceed to next ...
m_queue_out = q->m_next;
delete q;
// don't select on write if queue is empty ...
if (!m_queue_out)
{
m_state = Ready;
yaz_log(m_log, "maskObserver 8");
m_socketObservable->maskObserver(this, SOCKET_OBSERVE_READ|
SOCKET_OBSERVE_EXCEPT);
}
return r;
}
int PDU_Assoc::send_PDU(const char *buf, int len)
{
yaz_log (m_log, "PDU_Assoc::send_PDU");
PDU_Queue **pq = &m_queue_out;
int is_idle = (*pq ? 0 : 1);
if (!m_cs)
{
yaz_log (m_log, "PDU_Assoc::send_PDU failed, m_cs == 0");
return -1;
}
while (*pq)
pq = &(*pq)->m_next;
*pq = new PDU_Queue(buf, len);
if (is_idle)
return flush_PDU ();
else
yaz_log (m_log, "PDU_Assoc::cannot send_PDU fd=%d",
cs_fileno(m_cs));
return 0;
}
COMSTACK PDU_Assoc::comstack(const char *type_and_host, void **vp)
{
return cs_create_host(type_and_host, 2, vp);
}
int PDU_Assoc::listen(IPDU_Observer *observer, const char *addr)
{
close();
m_PDU_Observer = observer;
void *ap;
m_cs = comstack(addr, &ap);
if (!m_cs)
return -1;
if (cs_bind(m_cs, ap, CS_SERVER) < 0)
return -2;
m_socketObservable->addObserver(cs_fileno(m_cs), this);
yaz_log(m_log, "maskObserver 9");
m_socketObservable->maskObserver(this, SOCKET_OBSERVE_READ|
SOCKET_OBSERVE_EXCEPT);
yaz_log (m_log, "PDU_Assoc::listen ok fd=%d", cs_fileno(m_cs));
m_state = Listen;
return 0;
}
void PDU_Assoc::idleTime(int idleTime)
{
m_idleTime = idleTime;
yaz_log (m_log, "PDU_Assoc::idleTime(%d)", idleTime);
m_socketObservable->timeoutObserver(this, m_idleTime);
}
int PDU_Assoc::connect(IPDU_Observer *observer, const char *addr)
{
yaz_log (m_log, "PDU_Assoc::connect %s", addr);
close();
m_PDU_Observer = observer;
void *ap;
m_cs = comstack(addr, &ap);
if (!m_cs)
return -1;
int res = cs_connect (m_cs, ap);
yaz_log (m_log, "PDU_Assoc::connect fd=%d res=%d", cs_fileno(m_cs),
res);
m_socketObservable->addObserver(cs_fileno(m_cs), this);
if (res == 0)
{ // Connect complete
m_state = Connecting;
unsigned mask = SOCKET_OBSERVE_EXCEPT;
mask |= SOCKET_OBSERVE_WRITE;
mask |= SOCKET_OBSERVE_READ;
yaz_log(m_log, "maskObserver 11");
m_socketObservable->maskObserver(this, mask);
}
else if (res > 0)
{ // Connect pending
m_state = Connecting;
unsigned mask = SOCKET_OBSERVE_EXCEPT;
if (m_cs->io_pending & CS_WANT_WRITE)
mask |= SOCKET_OBSERVE_WRITE;
if (m_cs->io_pending & CS_WANT_READ)
mask |= SOCKET_OBSERVE_READ;
yaz_log(m_log, "maskObserver 11");
m_socketObservable->maskObserver(this, mask);
}
else
{ // Connect failed immediately
// Since m_state is Closed we can distinguish this case from
// normal connect in socketNotify handler
yaz_log(m_log, "maskObserver 12");
m_socketObservable->maskObserver(this, SOCKET_OBSERVE_WRITE|
SOCKET_OBSERVE_EXCEPT);
}
return 0;
}
// Single-threaded... Only useful for non-blocking handlers
void PDU_Assoc::childNotify(COMSTACK cs)
{
PDU_Assoc *new_observable =
new PDU_Assoc (m_socketObservable, cs);
// Clone PDU Observer
new_observable->m_PDU_Observer = m_PDU_Observer->sessionNotify
(new_observable, cs_fileno(cs));
if (!new_observable->m_PDU_Observer)
{
new_observable->close();
delete new_observable;
return;
}
new_observable->m_next = m_children;
m_children = new_observable;
new_observable->m_parent = this;
}
const char*PDU_Assoc::getpeername()
{
if (!m_cs)
return 0;
return cs_addrstr(m_cs);
}
/*
* Local variables:
* c-basic-offset: 4
* indent-tabs-mode: nil
* End:
* vim: shiftwidth=4 tabstop=8 expandtab
*/
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