/*
* ngIRCd -- The Next Generation IRC Daemon
- * Copyright (c)2001,2002 by Alexander Barton (alex@barton.de)
+ * Copyright (c)2001-2003 by Alexander Barton (alex@barton.de)
*
- * Dieses Programm ist freie Software. Sie koennen es unter den Bedingungen
- * der GNU General Public License (GPL), wie von der Free Software Foundation
- * herausgegeben, weitergeben und/oder modifizieren, entweder unter Version 2
- * der Lizenz oder (wenn Sie es wuenschen) jeder spaeteren Version.
- * Naehere Informationen entnehmen Sie bitter der Datei COPYING. Eine Liste
- * der an ngIRCd beteiligten Autoren finden Sie in der Datei AUTHORS.
+ * 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.
+ * Please read the file COPYING, README and AUTHORS for more information.
*
- * $Id: resolve.c,v 1.2 2002/05/30 16:52:21 alex Exp $
- *
- * resolve.c: asyncroner Resolver
+ * Asynchronous resolver
*/
#include "portab.h"
+static char UNUSED id[] = "$Id: resolve.c,v 1.10 2005/03/05 12:57:14 alex Exp $";
+
#include "imp.h"
#include <assert.h>
#include <errno.h>
#include <arpa/inet.h>
#include <netdb.h>
+#ifdef IDENTAUTH
+#ifdef HAVE_IDENT_H
+#include <ident.h>
+#endif
+#endif
+
#include "conn.h"
#include "defines.h"
#include "log.h"
#include "resolve.h"
+#ifdef IDENTAUTH
+LOCAL VOID Do_ResolveAddr PARAMS(( struct sockaddr_in *Addr, INT Sock, INT w_fd ));
+#else
LOCAL VOID Do_ResolveAddr PARAMS(( struct sockaddr_in *Addr, INT w_fd ));
+#endif
+
LOCAL VOID Do_ResolveName PARAMS(( CHAR *Host, INT w_fd ));
#ifdef h_errno
LOCAL CHAR *Get_Error PARAMS(( INT H_Error ));
#endif
+LOCAL RES_STAT *New_Res_Stat PARAMS(( VOID ));
+
GLOBAL VOID
Resolve_Init( VOID )
{
- /* Modul initialisieren */
+ /* Initialize module */
FD_ZERO( &Resolver_FDs );
} /* Resolve_Init */
+#ifdef IDENTAUTH
+GLOBAL RES_STAT *
+Resolve_Addr( struct sockaddr_in *Addr, int Sock )
+#else
GLOBAL RES_STAT *
Resolve_Addr( struct sockaddr_in *Addr )
+#endif
{
- /* IP (asyncron!) aufloesen. Bei Fehler, z.B. wenn der
- * Child-Prozess nicht erzeugt werden kann, wird NULL geliefert.
- * Der Host kann dann nicht aufgeloest werden. */
+ /* Resolve IP (asynchronous!). On errors, e.g. if the child process
+ * can't be forked, this functions returns NULL. */
RES_STAT *s;
INT pid;
- /* Speicher anfordern */
- s = malloc( sizeof( RES_STAT ));
- if( ! s )
- {
- Log( LOG_EMERG, "Resolver: Can't allocate memory!" );
- return NULL;
- }
+ s = New_Res_Stat( );
+ if( ! s ) return NULL;
- /* Pipe fuer Antwort initialisieren */
- if( pipe( s->pipe ) != 0 )
- {
- free( s );
- Log( LOG_ALERT, "Resolver: Can't create output pipe: %s!", strerror( errno ));
- return NULL;
- }
-
- /* Sub-Prozess erzeugen */
+ /* For sub-process */
pid = fork( );
if( pid > 0 )
{
- /* Haupt-Prozess */
+ /* Main process */
Log( LOG_DEBUG, "Resolver for %s created (PID %d).", inet_ntoa( Addr->sin_addr ), pid );
FD_SET( s->pipe[0], &Resolver_FDs );
if( s->pipe[0] > Conn_MaxFD ) Conn_MaxFD = s->pipe[0];
}
else if( pid == 0 )
{
- /* Sub-Prozess */
+ /* Sub process */
Log_Init_Resolver( );
+#ifdef IDENTAUTH
+ Do_ResolveAddr( Addr, Sock, s->pipe[1] );
+#else
Do_ResolveAddr( Addr, s->pipe[1] );
+#endif
Log_Exit_Resolver( );
exit( 0 );
}
else
{
- /* Fehler */
+ /* Error! */
free( s );
Log( LOG_CRIT, "Resolver: Can't fork: %s!", strerror( errno ));
return NULL;
GLOBAL RES_STAT *
Resolve_Name( CHAR *Host )
{
- /* Hostnamen (asyncron!) aufloesen. Bei Fehler, z.B. wenn der
- * Child-Prozess nicht erzeugt werden kann, wird NULL geliefert.
- * Der Host kann dann nicht aufgeloest werden. */
+ /* Resolve hostname (asynchronous!). On errors, e.g. if the child
+ * process can't be forked, this functions returns NULL. */
RES_STAT *s;
INT pid;
- /* Speicher anfordern */
- s = malloc( sizeof( RES_STAT ));
- if( ! s )
- {
- Log( LOG_EMERG, "Resolver: Can't allocate memory!" );
- return NULL;
- }
+ s = New_Res_Stat( );
+ if( ! s ) return NULL;
- /* Pipe fuer Antwort initialisieren */
- if( pipe( s->pipe ) != 0 )
- {
- free( s );
- Log( LOG_ALERT, "Resolver: Can't create output pipe: %s!", strerror( errno ));
- return NULL;
- }
-
- /* Sub-Prozess erzeugen */
+ /* Fork sub-process */
pid = fork( );
if( pid > 0 )
{
- /* Haupt-Prozess */
+ /* Main process */
Log( LOG_DEBUG, "Resolver for \"%s\" created (PID %d).", Host, pid );
FD_SET( s->pipe[0], &Resolver_FDs );
if( s->pipe[0] > Conn_MaxFD ) Conn_MaxFD = s->pipe[0];
}
else if( pid == 0 )
{
- /* Sub-Prozess */
+ /* Sub process */
Log_Init_Resolver( );
Do_ResolveName( Host, s->pipe[1] );
Log_Exit_Resolver( );
}
else
{
- /* Fehler */
+ /* Error! */
free( s );
Log( LOG_CRIT, "Resolver: Can't fork: %s!", strerror( errno ));
return NULL;
} /* Resolve_Name */
+#ifdef IDENTAUTH
+LOCAL VOID
+Do_ResolveAddr( struct sockaddr_in *Addr, int Sock, INT w_fd )
+#else
LOCAL VOID
Do_ResolveAddr( struct sockaddr_in *Addr, INT w_fd )
+#endif
{
- /* Resolver Sub-Prozess: IP aufloesen und Ergebnis in Pipe schreiben. */
+ /* Resolver sub-process: resolve IP address and write result into
+ * pipe to parent. */
CHAR hostname[HOST_LEN];
struct hostent *h;
+ INT len;
+#ifdef IDENTAUTH
+ CHAR *res;
+#endif
+ /* Resolve IP address */
Log_Resolver( LOG_DEBUG, "Now resolving %s ...", inet_ntoa( Addr->sin_addr ));
-
- /* Namen aufloesen */
h = gethostbyaddr( (CHAR *)&Addr->sin_addr, sizeof( Addr->sin_addr ), AF_INET );
- if( h ) strcpy( hostname, h->h_name );
+ if( h ) strlcpy( hostname, h->h_name, sizeof( hostname ));
else
{
#ifdef h_errno
#else
Log_Resolver( LOG_WARNING, "Can't resolve address \"%s\"!", inet_ntoa( Addr->sin_addr ));
#endif
- strcpy( hostname, inet_ntoa( Addr->sin_addr ));
+ strlcpy( hostname, inet_ntoa( Addr->sin_addr ), sizeof( hostname ));
}
+ Log_Resolver( LOG_DEBUG, "Ok, translated %s to \"%s\".", inet_ntoa( Addr->sin_addr ), hostname );
- /* Antwort an Parent schreiben */
- if( write( w_fd, hostname, strlen( hostname ) + 1 ) != ( strlen( hostname ) + 1 ))
+ /* Write resolver result into pipe to parent */
+ len = strlen( hostname );
+ hostname[len] = '\n'; len++;
+ if( (size_t)write( w_fd, hostname, len ) != (size_t)len )
{
Log_Resolver( LOG_CRIT, "Resolver: Can't write to parent: %s!", strerror( errno ));
close( w_fd );
return;
}
- Log_Resolver( LOG_DEBUG, "Ok, translated %s to \"%s\".", inet_ntoa( Addr->sin_addr ), hostname );
+#ifdef IDENTAUTH
+ /* Do "IDENT" (aka "AUTH") lookup and write result to parent */
+ Log_Resolver( LOG_DEBUG, "Doing IDENT lookup on socket %d ...", Sock );
+ res = ident_id( Sock, 10 );
+ Log_Resolver( LOG_DEBUG, "Ok, IDENT lookup on socket %d done: \"%s\"", Sock, res ? res : "" );
+
+ /* Write IDENT result into pipe to parent */
+ len = strlen( res ? res : "" );
+ if( res != NULL ) res[len] = '\n';
+ len++;
+ if( (size_t)write( w_fd, res ? res : "\n", len ) != (size_t)len )
+ {
+ Log_Resolver( LOG_CRIT, "Resolver: Can't write to parent (IDENT): %s!", strerror( errno ));
+ close( w_fd );
+ }
+ free( res );
+#endif
} /* Do_ResolveAddr */
LOCAL VOID
Do_ResolveName( CHAR *Host, INT w_fd )
{
- /* Resolver Sub-Prozess: Name aufloesen und Ergebnis in Pipe schreiben. */
+ /* Resolver sub-process: resolve name and write result into pipe
+ * to parent. */
CHAR ip[16];
struct hostent *h;
struct in_addr *addr;
+ INT len;
Log_Resolver( LOG_DEBUG, "Now resolving \"%s\" ...", Host );
- /* Namen aufloesen */
+ /* Resolve hostname */
h = gethostbyname( Host );
if( h )
{
addr = (struct in_addr *)h->h_addr;
- strcpy( ip, inet_ntoa( *addr ));
+ strlcpy( ip, inet_ntoa( *addr ), sizeof( ip ));
}
else
{
#else
Log_Resolver( LOG_WARNING, "Can't resolve \"%s\"!", Host );
#endif
- strcpy( ip, "" );
+ ip[0] = '\0';
}
+ if( ip[0] ) Log_Resolver( LOG_DEBUG, "Ok, translated \"%s\" to %s.", Host, ip );
- /* Antwort an Parent schreiben */
- if( write( w_fd, ip, strlen( ip ) + 1 ) != ( strlen( ip ) + 1 ))
+ /* Write result into pipe to parent */
+ len = strlen( ip );
+ ip[len] = '\n'; len++;
+ if( (size_t)write( w_fd, ip, len ) != (size_t)len )
{
Log_Resolver( LOG_CRIT, "Resolver: Can't write to parent: %s!", strerror( errno ));
close( w_fd );
- return;
}
-
- if( ip[0] ) Log_Resolver( LOG_DEBUG, "Ok, translated \"%s\" to %s.", Host, ip );
} /* Do_ResolveName */
LOCAL CHAR *
Get_Error( INT H_Error )
{
- /* Fehlerbeschreibung fuer H_Error liefern */
+ /* Get error message for H_Error */
switch( H_Error )
{
#endif
+LOCAL RES_STAT *
+New_Res_Stat( VOID )
+{
+ RES_STAT *s;
+
+ /* Allocate memory */
+ s = (RES_STAT *)malloc( sizeof( RES_STAT ));
+ if( ! s )
+ {
+ Log( LOG_EMERG, "Resolver: Can't allocate memory! [Resolve_Addr]" );
+ return NULL;
+ }
+
+ /* Initialize pipe for result */
+ if( pipe( s->pipe ) != 0 )
+ {
+ free( s );
+ Log( LOG_ALERT, "Resolver: Can't create output pipe: %s!", strerror( errno ));
+ return NULL;
+ }
+
+ s->stage = 0;
+ s->bufpos = 0;
+ s->pid = -1;
+
+ return s;
+} /* New_Res_Stat */
+
+
/* -eof- */