xwords/relay/lstnrmgr.cpp

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/* -*-mode: C; fill-column: 78; c-basic-offset: 4; -*- */
/*
* Copyright 2007 by Eric House (xwords@eehouse.org). All rights reserved.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <assert.h>
#include <algorithm>
#include "lstnrmgr.h"
#include "mlock.h"
bool
ListenerMgr::AddListener( int port )
{
logf( XW_LOGINFO, "%s(%d)", __func__, port );
MutexLock ml( &m_mutex );
return addOne( port );
}
void
ListenerMgr::SetAll( const vector<int>* ivp )
{
logf( XW_LOGINFO, "%s", __func__ );
MutexLock ml( &m_mutex );
vector<int> have;
map<int,int>::iterator iter2 = m_socks_to_ports.begin();
while ( iter2 != m_socks_to_ports.end() ) {
have.push_back(iter2->second);
++iter2;
}
std::sort(have.begin(), have.end());
vector<int> want = *ivp;
std::sort(want.begin(), want.end());
/* Now go through both lists in order, removing and adding as
appropriate. */
size_t iWant = 0;
size_t iHave = 0;
while ( (iHave < have.size()) || (iWant < want.size()) ) {
assert( iHave <= have.size() && iWant <= want.size() );
while( (iWant < want.size())
&& ((iHave == have.size() || want[iWant] < have[iHave])) ) {
addOne( want[iWant] );
++iWant;
}
while ( (iHave < have.size())
&& (iWant == want.size() || (have[iHave] < want[iWant])) ) {
removePort( have[iHave] );
++iHave;
}
while ( (iHave < have.size()) && (iWant < want.size())
&& (have[iHave] == want[iWant]) ) {
/* keep both */
++iWant; ++iHave;
}
}
} /* SetAll */
/* void */
/* ListenerMgr::RemoveListener( int listener ) */
/* { */
/* MutexLock ml( &m_mutex ); */
/* removeFD( listener ); */
/* } */
void
ListenerMgr::RemoveAll()
{
MutexLock ml( &m_mutex );
for ( ; ; ) {
map<int,int>::const_iterator iter = m_socks_to_ports.begin();
if ( iter == m_socks_to_ports.end() ) {
break;
}
removeSocket( iter->first );
}
}
void
ListenerMgr::AddToFDSet( fd_set* rfds )
{
MutexLock ml( &m_mutex );
map<int,int>::const_iterator iter = m_socks_to_ports.begin();
while ( iter != m_socks_to_ports.end() ) {
FD_SET( iter->first, rfds );
++iter;
}
}
int
ListenerMgr::GetHighest()
{
int highest = 0;
MutexLock ml( &m_mutex );
map<int,int>::const_iterator iter = m_socks_to_ports.begin();
while ( iter != m_socks_to_ports.end() ) {
if ( iter->first > highest ) {
highest = iter->first;
}
++iter;
}
return highest;
}
bool
ListenerMgr::PortInUse( int port )
{
MutexLock ml( &m_mutex );
return portInUse( port );
}
void
ListenerMgr::removeSocket( int sock )
{
/* Assumption: we have the mutex! */
logf( XW_LOGINFO, "%s(%d)", __func__, sock );
map<int,int>::iterator iter = m_socks_to_ports.find( sock );
assert( iter != m_socks_to_ports.end() );
m_socks_to_ports.erase(iter);
close(sock);
}
void
ListenerMgr::removePort( int port )
{
/* Assumption: we have the mutex! */
logf( XW_LOGINFO, "%s(%d)", __func__, port );
map<int,int>::iterator iter = m_socks_to_ports.begin();
while ( iter != m_socks_to_ports.end() ) {
if ( iter->second == port ) {
int sock = iter->first;
close(sock);
m_socks_to_ports.erase(iter);
break;
}
++iter;
}
assert( iter != m_socks_to_ports.end() ); /* we must have found it! */
}
bool
ListenerMgr::addOne( int port )
{
logf( XW_LOGINFO, "%s(%d)", __func__, port );
/* Assumption: we have the mutex! */
assert( !portInUse(port) );
bool success = false;
int sock = make_socket( INADDR_ANY, port );
success = sock != -1;
if ( success ) {
m_socks_to_ports.insert( pair<int,int>(sock, port) );
}
return success;
}
bool
ListenerMgr::portInUse( int port )
{
/* Assumption: we have the mutex! */
bool found = false;
map<int,int>::const_iterator iter = m_socks_to_ports.begin();
while ( iter != m_socks_to_ports.end() ) {
if ( iter->second == port ) {
found = true;
break;
}
++iter;
}
return found;
}
int
ListenersIter::next()
{
int result = -1;
if ( m_iter != m_lm->m_socks_to_ports.end() ) {
result = m_fds? m_iter->first : m_iter->second;
++m_iter;
}
/* logf( XW_LOGINFO, "%s=>%d", __func__, result ); */
return result;
}