commit - 2c5da58d98e99f8a30a41f568d58c17725235d7c
commit + b9728ba2eac5d5d4669a1d8a0cc3d87d0a2a7247
blob - bbd43abbd077bdef075848fd338c3081e19e4392
blob + d22b0237f4ed09c16ea8094dc94ec0e9c0d29605
--- src/ngircd/conn.c
+++ src/ngircd/conn.c
* Naehere Informationen entnehmen Sie bitter der Datei COPYING. Eine Liste
* der an comBase beteiligten Autoren finden Sie in der Datei AUTHORS.
*
- * $Id: conn.c,v 1.18 2001/12/29 20:17:25 alex Exp $
+ * $Id: conn.c,v 1.19 2001/12/29 21:53:57 alex Exp $
*
* connect.h: Verwaltung aller Netz-Verbindungen ("connections")
*
* $Log: conn.c,v $
+ * Revision 1.19 2001/12/29 21:53:57 alex
+ * - Da hatte ich mich wohl ein wenig verrannt; jetzt sollte der Resolver
+ * aber tatsaechlich funktionieren.
+ *
* Revision 1.18 2001/12/29 20:17:25 alex
* - asyncronen Resolver (IP->Name) implementiert, dadurch div. Aenderungen.
*
typedef struct _Res_Stat
{
INT pid; /* PID des Child-Prozess */
- INT out_pipe[2]; /* Pipe fuer IPC: zum Client */
- INT in_pipe[2]; /* Pipe fuer IPC: vom Client */
+ INT pipe[2]; /* Pipe fuer IPC */
} RES_STAT;
LOCAL VOID Check_Connections( VOID );
LOCAL VOID Init_Conn_Struct( INT Idx );
-LOCAL RES_STAT *Resolve( CHAR *Host );
-LOCAL VOID Do_Resolve( INT r_fd, INT w_fd );
+LOCAL RES_STAT *Resolve( struct sockaddr_in *Addr );
LOCAL VOID Read_Resolver_Result( INT r_fd );
+LOCAL VOID Do_Resolve( struct sockaddr_in *Addr, INT w_fd );
LOCAL fd_set My_Listeners;
if( My_Connections[Idx].res_stat )
{
/* Resolver-Strukturen freigeben, wenn noch nicht geschehen */
- FD_CLR( My_Connections[Idx].res_stat->in_pipe[0], &My_Resolvers );
- close( My_Connections[Idx].res_stat->out_pipe[0] );
- close( My_Connections[Idx].res_stat->out_pipe[1] );
- close( My_Connections[Idx].res_stat->in_pipe[0] );
- close( My_Connections[Idx].res_stat->in_pipe[1] );
+ FD_CLR( My_Connections[Idx].res_stat->pipe[0], &My_Resolvers );
+ close( My_Connections[Idx].res_stat->pipe[0] );
+ close( My_Connections[Idx].res_stat->pipe[1] );
free( My_Connections[Idx].res_stat );
}
Log( LOG_NOTICE, "Accepted connection %d from %s:%d on socket %d.", idx, inet_ntoa( new_addr.sin_addr ), ntohs( new_addr.sin_port), Sock );
/* Hostnamen ermitteln */
- s = Resolve( inet_ntoa( new_addr.sin_addr ));
+ s = Resolve( &new_addr );
if( s )
{
/* Sub-Prozess wurde asyncron gestartet */
} /* Init_Conn_Struct */
-LOCAL RES_STAT *Resolve( CHAR *Host )
+LOCAL RES_STAT *Resolve( struct sockaddr_in *Addr )
{
/* Hostnamen (asyncron!) aufloesen. Bei Fehler, z.B. wenn der
* Child-Prozess nicht erzeugt werden kann, wird NULL geliefert.
return NULL;
}
- if( pipe( s->out_pipe ) != 0 )
+ if( pipe( s->pipe ) != 0 )
{
free( s );
Log( LOG_ALERT, "Resolver: Can't create output pipe: %s!", strerror( errno ));
return NULL;
}
- if( pipe( s->in_pipe ) != 0 )
- {
- free( s );
- Log( LOG_ALERT, "Resolver: Can't create input pipe: %s!", strerror( errno ));
- return NULL;
- }
-
pid = fork( );
if( pid > 0 )
{
/* Haupt-Prozess */
- if( write( s->out_pipe[1], Host, strlen( Host ) + 1 ) != ( strlen( Host ) + 1 ))
- {
- free( s );
- Log( LOG_ALERT, "Resolver: Can't write to child: %s!", strerror( errno ));
- return NULL;
- }
-
- FD_SET( s->in_pipe[0], &My_Resolvers );
- if( s->in_pipe[0] > My_Max_Fd ) My_Max_Fd = s->in_pipe[0];
-
+ Log( LOG_DEBUG, "Resolver process for %s (PID %d) created.", inet_ntoa( Addr->sin_addr ), pid );
+ FD_SET( s->pipe[0], &My_Resolvers );
+ if( s->pipe[0] > My_Max_Fd ) My_Max_Fd = s->pipe[0];
s->pid = pid;
-
- Log( LOG_DEBUG, "Resolver process for \"%s\" (PID %d) created.", Host, pid );
return s;
}
else if( pid == 0 )
{
/* Sub-Prozess */
Log_Init_Resolver( );
- Do_Resolve( s->out_pipe[0], s->in_pipe[1] );
+ Do_Resolve( Addr, s->pipe[1] );
Log_Exit_Resolver( );
exit( 0 );
}
for( i = 0; i < MAX_CONNECTIONS; i++ )
{
/* zugehoerige Connection suchen */
- if(( My_Connections[i].sock >= 0 ) && ( My_Connections[i].res_stat ) && ( My_Connections[i].res_stat->in_pipe[0] == r_fd )) break;
+ if(( My_Connections[i].sock >= 0 ) && ( My_Connections[i].res_stat ) && ( My_Connections[i].res_stat->pipe[0] == r_fd )) break;
}
if( i >= MAX_CONNECTIONS )
}
/* Aufraeumen */
- close( My_Connections[i].res_stat->out_pipe[0] );
- close( My_Connections[i].res_stat->out_pipe[1] );
- close( My_Connections[i].res_stat->in_pipe[0] );
- close( My_Connections[i].res_stat->in_pipe[1] );
+ close( My_Connections[i].res_stat->pipe[0] );
+ close( My_Connections[i].res_stat->pipe[1] );
free( My_Connections[i].res_stat );
My_Connections[i].res_stat = NULL;
} /* Read_Resolver_Result */
-LOCAL VOID Do_Resolve( INT r_fd, INT w_fd )
+LOCAL VOID Do_Resolve( struct sockaddr_in *Addr, INT w_fd )
{
/* Resolver Sub-Prozess: aufzuloesenden Namen aus
* der Pipe lesen, Ergebnis in Pipe schreiben. */
- CHAR host[HOST_LEN], res_host[HOST_LEN];
+ CHAR hostname[HOST_LEN];
struct hostent *h;
- /* Anfrage vom Parent lesen */
- if( read( r_fd, host, HOST_LEN) < 0 )
- {
- Log_Resolver( LOG_ALERT, "Resolver: Can't read from parent: %s!", strerror( errno ));
- close( r_fd ); close( w_fd );
- return;
- }
- host[HOST_LEN] = '\0';
+ Log_Resolver( LOG_DEBUG, "Now resolving %s ...", inet_ntoa( Addr->sin_addr ));
- Log_Resolver( LOG_DEBUG, "Now resolving \"%s\" ...", host );
-
/* Namen aufloesen */
- h = gethostbyname( host );
- if( h ) strcpy( res_host, h->h_name );
+ h = gethostbyaddr( (CHAR *)&Addr->sin_addr, sizeof( Addr->sin_addr ), AF_INET );
+ if( h ) strcpy( hostname, h->h_name );
else
{
Log_Resolver( LOG_WARNING, "Can't resolce host name (code %d)!", h_errno );
- strcpy( res_host, host );
+ strcpy( hostname, inet_ntoa( Addr->sin_addr ));
}
/* Antwort an Parent schreiben */
- if( write( w_fd, res_host, strlen( res_host ) + 1 ) != ( strlen( res_host ) + 1 ))
+ if( write( w_fd, hostname, strlen( hostname ) + 1 ) != ( strlen( hostname ) + 1 ))
{
Log_Resolver( LOG_ALERT, "Resolver: Can't write to parent: %s!", strerror( errno ));
- close( r_fd ); close( w_fd );
+ close( w_fd );
return;
}
- Log_Resolver( LOG_DEBUG, "Ok, translated \"%s\" to \"%s\".", host, res_host );
+ Log_Resolver( LOG_DEBUG, "Ok, translated %s to \"%s\".", inet_ntoa( Addr->sin_addr ), hostname );
} /* Do_Resolve */
