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/* net.c
 * Implementation of network-related stuff.
 *
 * File begun on 2007-07-20 by RGerhards (extracted from syslogd.c)
 * This file is under development and has not yet arrived at being fully
 * self-contained and a real object. So far, it is mostly an excerpt
 * of the "old" networking code without any modifications. However, it
 * helps to have things at the right place one we go to the meat of it.
 *
 * Starting 2007-12-24, I have begun to shuffle more network-related code
 * from syslogd.c to over here. I am not sure if it will stay here in the
 * long term, but it is good to have it out of syslogd.c. Maybe this here is
 * an interim location ;)
 *
 * Copyright 2007-2011 Rainer Gerhards and Adiscon GmbH.
 *
 * rgerhards, 2008-04-16: I changed this code to LGPL today. I carefully analyzed
 * that it does not borrow code from the original sysklogd and that I have 
 * permission to do so from all other contributors. My analysis found that all
 * code from sysklogd has been superseeded by our own functionality, so it 
 * is OK to move this file to LGPL. Some variable sysklogd variable names
 * remain, but even this will change as the net object evolves.
 *
 * This file is part of the rsyslog runtime library.
 *
 * The rsyslog runtime library is free software: you can redistribute it and/or modify
 * it under the terms of the GNU Lesser General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * The rsyslog runtime 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 Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public License
 * along with the rsyslog runtime library.  If not, see <http://www.gnu.org/licenses/>.
 *
 * A copy of the GPL can be found in the file "COPYING" in this distribution.
 * A copy of the LGPL can be found in the file "COPYING.LESSER" in this distribution.
 */
#include "config.h"

#include "rsyslog.h"
#include <stdio.h>
#include <stdarg.h>
#include <stdlib.h>
#include <assert.h>
#include <errno.h>
#include <string.h>
#include <signal.h>
#include <ctype.h>
#include <netdb.h>
#include <fnmatch.h>
#include <fcntl.h>
#include <unistd.h>
#if HAVE_GETIFADDRS
#include <ifaddrs.h>
#else
#include "compat/ifaddrs.h"
#endif /* HAVE_GETIFADDRS */
#include <sys/types.h>
#include <arpa/inet.h>

#include "syslogd-types.h"
#include "module-template.h"
#include "parse.h"
#include "srUtils.h"
#include "obj.h"
#include "errmsg.h"
#include "net.h"
#include "dnscache.h"
#include "prop.h"

#ifdef OS_SOLARIS
#	define	s6_addr32	_S6_un._S6_u32
	typedef unsigned int	u_int32_t;
#endif

MODULE_TYPE_LIB
MODULE_TYPE_NOKEEP

/* static data */
DEFobjStaticHelpers
DEFobjCurrIf(errmsg)
DEFobjCurrIf(glbl)
DEFobjCurrIf(prop)

/* support for defining allowed TCP and UDP senders. We use the same
 * structure to implement this (a linked list), but we define two different
 * list roots, one for UDP and one for TCP.
 * rgerhards, 2005-09-26
 */
/* All of the five below are read-only after startup */
struct AllowedSenders *pAllowedSenders_UDP = NULL; /* the roots of the allowed sender */
struct AllowedSenders *pAllowedSenders_TCP = NULL; /* lists. If NULL, all senders are ok! */
static struct AllowedSenders *pLastAllowedSenders_UDP = NULL; /* and now the pointers to the last */
static struct AllowedSenders *pLastAllowedSenders_TCP = NULL; /* element in the respective list */
#ifdef USE_GSSAPI
struct AllowedSenders *pAllowedSenders_GSS = NULL;
static struct AllowedSenders *pLastAllowedSenders_GSS = NULL;
#endif

int     ACLAddHostnameOnFail = 0; /* add hostname to acl when DNS resolving has failed */
int     ACLDontResolve = 0;       /* add hostname to acl instead of resolving it to IP(s) */


/* ------------------------------ begin permitted peers code ------------------------------ */


/* sets the correct allow root pointer based on provided type
 * rgerhards, 2008-12-01
 */
static inline rsRetVal
setAllowRoot(struct AllowedSenders **ppAllowRoot, uchar *pszType)
{
	DEFiRet;

	if(!strcmp((char*)pszType, "UDP"))
		*ppAllowRoot = pAllowedSenders_UDP;
	else if(!strcmp((char*)pszType, "TCP"))
		*ppAllowRoot = pAllowedSenders_TCP;
#ifdef USE_GSSAPI
	else if(!strcmp((char*)pszType, "GSS"))
		*ppAllowRoot = pAllowedSenders_GSS;
#endif
	else {
		dbgprintf("program error: invalid allowed sender ID '%s', denying...\n", pszType);
		ABORT_FINALIZE(RS_RET_CODE_ERR); /* everything is invalid for an invalid type */
	}

finalize_it:
	RETiRet;
}
/* re-initializes (sets to NULL) the correct allow root pointer
 * rgerhards, 2009-01-12
 */
static inline rsRetVal
reinitAllowRoot(uchar *pszType)
{
	DEFiRet;

	if(!strcmp((char*)pszType, "UDP"))
		pAllowedSenders_UDP = NULL;
	else if(!strcmp((char*)pszType, "TCP"))
		pAllowedSenders_TCP = NULL;
#ifdef USE_GSSAPI
	else if(!strcmp((char*)pszType, "GSS"))
		pAllowedSenders_GSS = NULL;
#endif
	else {
		dbgprintf("program error: invalid allowed sender ID '%s', denying...\n", pszType);
		ABORT_FINALIZE(RS_RET_CODE_ERR); /* everything is invalid for an invalid type */
	}

finalize_it:
	RETiRet;
}


/* add a wildcard entry to this permitted peer. Entries are always
 * added at the tail of the list. pszStr and lenStr identify the wildcard
 * entry to be added. Note that the string is NOT \0 terminated, so
 * we must rely on lenStr for when it is finished.
 * rgerhards, 2008-05-27
 */
static rsRetVal
AddPermittedPeerWildcard(permittedPeers_t *pPeer, uchar* pszStr, size_t lenStr)
{
	permittedPeerWildcard_t *pNew = NULL;
	size_t iSrc;
	size_t iDst;
	DEFiRet;

	assert(pPeer != NULL);
	assert(pszStr != NULL);

	CHKmalloc(pNew = calloc(1, sizeof(*pNew)));

	if(lenStr == 0) { /* empty domain components are permitted */
		pNew->wildcardType = PEER_WILDCARD_EMPTY_COMPONENT;
		FINALIZE;
	} else {
		/* alloc memory for the domain component. We may waste a byte or
		 * two, but that's ok.
		 */
		CHKmalloc(pNew->pszDomainPart = MALLOC(lenStr +1 ));
	}

	if(pszStr[0] == '*') {
		pNew->wildcardType = PEER_WILDCARD_AT_START;
		iSrc = 1; /* skip '*' */
	} else {
		iSrc = 0;
	}

	for(iDst = 0 ; iSrc < lenStr && pszStr[iSrc] != '*' ; ++iSrc, ++iDst)  {
		pNew->pszDomainPart[iDst] = pszStr[iSrc];
	}

	if(iSrc < lenStr) {
		if(iSrc + 1 == lenStr && pszStr[iSrc] == '*') {
			if(pNew->wildcardType == PEER_WILDCARD_AT_START) {
				ABORT_FINALIZE(RS_RET_INVALID_WILDCARD);
			} else {
				pNew->wildcardType = PEER_WILDCARD_AT_END;
			}
		} else {
			/* we have an invalid wildcard, something follows the asterisk! */
			ABORT_FINALIZE(RS_RET_INVALID_WILDCARD);
		}
	}

	if(lenStr == 1 && pNew->wildcardType == PEER_WILDCARD_AT_START) {
		pNew->wildcardType = PEER_WILDCARD_MATCH_ALL;
	}

	/* if we reach this point, we had a valid wildcard. We now need to
	 * properly terminate the domain component string.
	 */
	pNew->pszDomainPart[iDst] = '\0';
	pNew->lenDomainPart = strlen((char*)pNew->pszDomainPart);

finalize_it:
	if(iRet != RS_RET_OK) {
		if(pNew != NULL) {
			if(pNew->pszDomainPart != NULL)
				free(pNew->pszDomainPart);
			free(pNew);
		}
	} else {
		/* enqueue the element */
		if(pPeer->pWildcardRoot == NULL) {
			pPeer->pWildcardRoot = pNew;
			pPeer->pWildcardLast = pNew;
		} else {
			pPeer->pWildcardLast->pNext = pNew;
		}
		pPeer->pWildcardLast = pNew;
	}

	RETiRet;
}


/* Destruct a permitted peer's wildcard list -- rgerhards, 2008-05-27 */
static rsRetVal
DestructPermittedPeerWildcards(permittedPeers_t *pPeer)
{
	permittedPeerWildcard_t *pCurr;
	permittedPeerWildcard_t *pDel;
	DEFiRet;

	assert(pPeer != NULL);

	for(pCurr = pPeer->pWildcardRoot ; pCurr != NULL ; /*EMPTY*/) {
		pDel = pCurr;
		pCurr = pCurr->pNext;
		free(pDel->pszDomainPart);
		free(pDel);
	}

	pPeer->pWildcardRoot = NULL;
	pPeer->pWildcardLast = NULL;

	RETiRet;
}


/* add a permitted peer. PermittedPeers is an interim solution until we can provide
 * access control via enhanced RainerScript methods.
 * Note: the provided string is handed over to this function, caller must
 * no longer access it. -- rgerhards, 2008-05-19
 */
static rsRetVal
AddPermittedPeer(permittedPeers_t **ppRootPeer, uchar* pszID)
{
	permittedPeers_t *pNew = NULL;
	DEFiRet;

	assert(ppRootPeer != NULL);
	assert(pszID != NULL);

	CHKmalloc(pNew = calloc(1, sizeof(permittedPeers_t))); /* we use calloc() for consistency with "real" objects */
	CHKmalloc(pNew->pszID = (uchar*)strdup((char*)pszID));

	if(*ppRootPeer != NULL) {
		pNew->pNext = *ppRootPeer;
	}
	*ppRootPeer = pNew;
		
finalize_it:
	if(iRet != RS_RET_OK) {
		if(pNew != NULL)
			free(pNew);
	}
	RETiRet;
}


/* Destruct a permitted peers list -- rgerhards, 2008-05-19 */
static rsRetVal
DestructPermittedPeers(permittedPeers_t **ppRootPeer)
{
	permittedPeers_t *pCurr;
	permittedPeers_t *pDel;
	DEFiRet;

	assert(ppRootPeer != NULL);

	for(pCurr = *ppRootPeer ; pCurr != NULL ; /*EMPTY*/) {
		pDel = pCurr;
		pCurr = pCurr->pNext;
		DestructPermittedPeerWildcards(pDel);
		free(pDel->pszID);
		free(pDel);
	}

	*ppRootPeer = NULL;

	RETiRet;
}


/* Compile a wildcard. The function first checks if there is a wildcard
 * present and compiles it only if so ;) It sets the etryType status
 * accordingly.
 * rgerhards, 2008-05-27
 */
static rsRetVal
PermittedPeerWildcardCompile(permittedPeers_t *pPeer)
{
	uchar *pC;
	uchar *pStart;
	DEFiRet;

	assert(pPeer != NULL);
	assert(pPeer->pszID != NULL);

	/* first check if we have a wildcard */
	for(pC = pPeer->pszID ; *pC != '\0' && *pC != '*' ; ++pC)
		/*EMPTY, just skip*/;

	if(*pC == '\0') {
		/* no wildcard found, we are mostly done */
		pPeer->etryType = PERM_PEER_TYPE_PLAIN;
		FINALIZE;
	}

	/* if we reach this point, the string contains wildcards. So let's
	 * compile the structure. To do so, we must parse from dot to dot
	 * and create a wildcard entry for each domain component we find.
	 * We must also flag problems if we have an asterisk in the middle
	 * of the text (it is supported at the start or end only).
	 */
	pPeer->etryType = PERM_PEER_TYPE_WILDCARD;
	pC = pPeer->pszID;
	while(*pC != '\0') {
		pStart = pC;
		/* find end of domain component */
		for( ; *pC != '\0' && *pC != '.' ; ++pC)
			/*EMPTY, just skip*/;
		CHKiRet(AddPermittedPeerWildcard(pPeer, pStart, pC - pStart));
		/* now check if we have an empty component at end of string */
		if(*pC == '.' && *(pC + 1) == '\0') {
			/* pStart is a dummy, it is not used if length is 0 */
			CHKiRet(AddPermittedPeerWildcard(pPeer, pStart, 0)); 
		}
		if(*pC != '\0')
			++pC;
	}

finalize_it:
	if(iRet != RS_RET_OK) {
		errmsg.LogError(0, iRet, "error compiling wildcard expression '%s'",
			 pPeer->pszID);
	}
	RETiRet;
}


/* Do a (potential) wildcard match. The function first checks if the wildcard
 * has already been compiled and, if not, compiles it. If the peer entry in
 * question does NOT contain a wildcard, a simple strcmp() is done.
 * *pbIsMatching is set to 0 if there is no match and something else otherwise.
 * rgerhards, 2008-05-27 */
static rsRetVal
PermittedPeerWildcardMatch(permittedPeers_t *pPeer, uchar *pszNameToMatch, int *pbIsMatching)
{
	permittedPeerWildcard_t *pWildcard;
	uchar *pC;
	uchar *pStart; /* start of current domain component */
	size_t iWildcard, iName; /* work indexes for backward comparisons */
	DEFiRet;

	assert(pPeer != NULL);
	assert(pszNameToMatch != NULL);
	assert(pbIsMatching != NULL);

	if(pPeer->etryType == PERM_PEER_TYPE_UNDECIDED) {
		PermittedPeerWildcardCompile(pPeer);
	}

	if(pPeer->etryType == PERM_PEER_TYPE_PLAIN) {
		*pbIsMatching = !strcmp((char*)pPeer->pszID, (char*)pszNameToMatch);
		FINALIZE;
	}

	/* we have a wildcard, so we need to extract the domain components and
	 * check then against the provided wildcards.
	 */
	pWildcard = pPeer->pWildcardRoot;
	pC = pszNameToMatch;
	while(*pC != '\0') {
		if(pWildcard == NULL) {
			/* we have more domain components than we have wildcards --> no match */
			*pbIsMatching = 0;
			FINALIZE;
		}
		pStart = pC;
		while(*pC != '\0' && *pC != '.') {
			++pC;
		}

		/* got the component, now do the match */
		switch(pWildcard->wildcardType) {
			case PEER_WILDCARD_NONE:
				if(   pWildcard->lenDomainPart != (size_t) (pC - pStart)
				   || strncmp((char*)pStart, (char*)pWildcard->pszDomainPart, pC - pStart)) {
					*pbIsMatching = 0;
					FINALIZE;
				}
				break;
			case PEER_WILDCARD_AT_START:
				/* we need to do the backwards-matching manually */
				if(pWildcard->lenDomainPart > (size_t) (pC - pStart)) {
					*pbIsMatching = 0;
					FINALIZE;
				}
				iName = (size_t) (pC - pStart) - pWildcard->lenDomainPart;
				iWildcard = 0;
				while(iWildcard < pWildcard->lenDomainPart) {
					if(pWildcard->pszDomainPart[iWildcard] != pStart[iName]) {
						*pbIsMatching = 0;
						FINALIZE;
					}
					++iName;
					++iWildcard;
				}
				break;
			case PEER_WILDCARD_AT_END:
				if(   pWildcard->lenDomainPart > (size_t) (pC - pStart)
				   || strncmp((char*)pStart, (char*)pWildcard->pszDomainPart, pWildcard->lenDomainPart)) {
					*pbIsMatching = 0;
					FINALIZE;
				}
				break;
			case PEER_WILDCARD_MATCH_ALL:
				/* everything is OK, just continue */
				break;
			case PEER_WILDCARD_EMPTY_COMPONENT:
				if(pC - pStart > 0) {
				   	/* if it is not empty, it is no match... */
					*pbIsMatching = 0;
					FINALIZE;
				}
				break;
		}
		pWildcard =  pWildcard->pNext; /* we processed this entry */

		/* skip '.' if we had it and so prepare for next iteration */
		if(*pC == '.')
			++pC;
	}

	if(pWildcard != NULL) {
		/* we have more domain components than in the name to be
		 * checked. So this is no match.
		 */
		*pbIsMatching = 0;
		FINALIZE;
	}

	*pbIsMatching = 1; /* finally... it matches ;) */

finalize_it:
	RETiRet;
}


/* ------------------------------ end permitted peers code ------------------------------ */


/* Code for handling allowed/disallowed senders
 */
static inline void MaskIP6 (struct in6_addr *addr, uint8_t bits) {
	register uint8_t i;
	
	assert (addr != NULL);
	assert (bits <= 128);
	
	i = bits/32;
	if (bits%32)
		addr->s6_addr32[i++] &= htonl(0xffffffff << (32 - (bits % 32)));
	for (; i < (sizeof addr->s6_addr32)/4; i++)
		addr->s6_addr32[i] = 0;
}

static inline void MaskIP4 (struct in_addr  *addr, uint8_t bits) {
	
	assert (addr != NULL);
	assert (bits <=32 );
	
	addr->s_addr &= htonl(0xffffffff << (32 - bits));
}

#define SIN(sa)  ((struct sockaddr_in  *)(void*)(sa))
#define SIN6(sa) ((struct sockaddr_in6 *)(void*)(sa))


/* This is a cancel-safe getnameinfo() version, because we learned
 * (via drd/valgrind) that getnameinfo() seems to have some issues
 * when being cancelled, at least if the module was dlloaded.
 * rgerhards, 2008-09-30
 */
static inline int
mygetnameinfo(const struct sockaddr *sa, socklen_t salen,
                       char *host, size_t hostlen,
                       char *serv, size_t servlen, int flags)
{
	int iCancelStateSave;
	int i;

	pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &iCancelStateSave);
	i = getnameinfo(sa, salen, host, hostlen, serv, servlen, flags);
	pthread_setcancelstate(iCancelStateSave, NULL);
	return i;
}


/* This function adds an allowed sender entry to the ACL linked list.
 * In any case, a single entry is added. If an error occurs, the
 * function does its error reporting itself. All validity checks
 * must already have been done by the caller.
 * This is a helper to AddAllowedSender().
 * rgerhards, 2007-07-17
 */
static rsRetVal AddAllowedSenderEntry(struct AllowedSenders **ppRoot, struct AllowedSenders **ppLast,
		     		      struct NetAddr *iAllow, uint8_t iSignificantBits)
{
	struct AllowedSenders *pEntry = NULL;

	assert(ppRoot != NULL);
	assert(ppLast != NULL);
	assert(iAllow != NULL);

	if((pEntry = (struct AllowedSenders*) calloc(1, sizeof(struct AllowedSenders))) == NULL) {
		return RS_RET_OUT_OF_MEMORY; /* no options left :( */
	}
	
	memcpy(&(pEntry->allowedSender), iAllow, sizeof (struct NetAddr));
	pEntry->pNext = NULL;
	pEntry->SignificantBits = iSignificantBits;
	
	/* enqueue */
	if(*ppRoot == NULL) {
		*ppRoot = pEntry;
	} else {
		(*ppLast)->pNext = pEntry;
	}
	*ppLast = pEntry;
	
	return RS_RET_OK;
}

/* function to clear the allowed sender structure in cases where
 * it must be freed (occurs most often when HUPed).
 * rgerhards, 2008-12-02: revamped this code when we fixed the interface
 * definition. Now an iterative algorithm is used.
 */
static void
clearAllowedSenders(uchar *pszType)
{
	struct AllowedSenders *pPrev;
	struct AllowedSenders *pCurr = NULL;

	if(setAllowRoot(&pCurr, pszType) != RS_RET_OK)
		return;	/* if something went wrong, so let's leave */
	
	while(pCurr != NULL) {
		pPrev = pCurr;
		pCurr = pCurr->pNext;
		/* now delete the entry we are right now processing */
		if(F_ISSET(pPrev->allowedSender.flags, ADDR_NAME))
			free(pPrev->allowedSender.addr.HostWildcard);
		else
			free(pPrev->allowedSender.addr.NetAddr);
		free(pPrev);
	}

	/* indicate root pointer is de-init (was forgotten previously, resulting in
	 * all kinds of interesting things) -- rgerhards, 2009-01-12
	 */
	reinitAllowRoot(pszType);
}


/* function to add an allowed sender to the allowed sender list. The
 * root of the list is caller-provided, so it can be used for all
 * supported lists. The caller must provide a pointer to the root,
 * as it eventually needs to be updated. Also, a pointer to the
 * pointer to the last element must be provided (to speed up adding
 * list elements).
 * rgerhards, 2005-09-26
 * If a hostname is given there are possible multiple entries
 * added (all addresses from that host).
 */
static rsRetVal AddAllowedSender(struct AllowedSenders **ppRoot, struct AllowedSenders **ppLast,
		     		 struct NetAddr *iAllow, uint8_t iSignificantBits)
{
	DEFiRet;

	assert(ppRoot != NULL);
	assert(ppLast != NULL);
	assert(iAllow != NULL);

	if (!F_ISSET(iAllow->flags, ADDR_NAME)) {
		if(iSignificantBits == 0)
			/* we handle this seperatly just to provide a better
			 * error message.
			 */
			errmsg.LogError(0, NO_ERRCODE, "You can not specify 0 bits of the netmask, this would "
				 "match ALL systems. If you really intend to do that, "
				 "remove all $AllowedSender directives.");
		
		switch (iAllow->addr.NetAddr->sa_family) {
		case AF_INET:
			if((iSignificantBits < 1) || (iSignificantBits > 32)) {
				errmsg.LogError(0, NO_ERRCODE, "Invalid number of bits (%d) in IPv4 address - adjusted to 32",
					    (int)iSignificantBits);
				iSignificantBits = 32;
			}
			
			MaskIP4 (&(SIN(iAllow->addr.NetAddr)->sin_addr), iSignificantBits);
			break;
		case AF_INET6:
			if((iSignificantBits < 1) || (iSignificantBits > 128)) {
				errmsg.LogError(0, NO_ERRCODE, "Invalid number of bits (%d) in IPv6 address - adjusted to 128",
					    iSignificantBits);
				iSignificantBits = 128;
			}

			MaskIP6 (&(SIN6(iAllow->addr.NetAddr)->sin6_addr), iSignificantBits);
			break;
		default:
			/* rgerhards, 2007-07-16: We have an internal program error in this
			 * case. However, there is not much we can do against it right now. Of
			 * course, we could abort, but that would probably cause more harm
			 * than good. So we continue to run. We simply do not add this line - the
			 * worst thing that happens is that one host will not be allowed to
			 * log.
			 */
			errmsg.LogError(0, NO_ERRCODE, "Internal error caused AllowedSender to be ignored, AF = %d",
				    iAllow->addr.NetAddr->sa_family);
			ABORT_FINALIZE(RS_RET_ERR);
		}
		/* OK, entry constructed, now lets add it to the ACL list */
		iRet = AddAllowedSenderEntry(ppRoot, ppLast, iAllow, iSignificantBits);
	} else {
		/* we need to process a hostname ACL */
		if(glbl.GetDisableDNS()) {
			errmsg.LogError(0, NO_ERRCODE, "Ignoring hostname based ACLs because DNS is disabled.");
			ABORT_FINALIZE(RS_RET_OK);
		}
		
		if (!strchr (iAllow->addr.HostWildcard, '*') &&
		    !strchr (iAllow->addr.HostWildcard, '?') &&
		    ACLDontResolve == 0) {
			/* single host - in this case, we pull its IP addresses from DNS
			* and add IP-based ACLs.
			*/
			struct addrinfo hints, *res, *restmp;
			struct NetAddr allowIP;
			
			memset (&hints, 0, sizeof (struct addrinfo));
			hints.ai_family = AF_UNSPEC;
			hints.ai_socktype = SOCK_DGRAM;
#			ifdef AI_ADDRCONFIG /* seems not to be present on all systems */
				hints.ai_flags  = AI_ADDRCONFIG;
#			endif

			if (getaddrinfo (iAllow->addr.HostWildcard, NULL, &hints, &res) != 0) {
			        errmsg.LogError(0, NO_ERRCODE, "DNS error: Can't resolve \"%s\"", iAllow->addr.HostWildcard);
				
				if (ACLAddHostnameOnFail) {
				        errmsg.LogError(0, NO_ERRCODE, "Adding hostname \"%s\" to ACL as a wildcard entry.", iAllow->addr.HostWildcard);
				        iRet = AddAllowedSenderEntry(ppRoot, ppLast, iAllow, iSignificantBits);
					FINALIZE;
				} else {
				        errmsg.LogError(0, NO_ERRCODE, "Hostname \"%s\" WON\'T be added to ACL.", iAllow->addr.HostWildcard);
				        ABORT_FINALIZE(RS_RET_NOENTRY);
				}
			}
			
			for (restmp = res ; res != NULL ; res = res->ai_next) {
				switch (res->ai_family) {
				case AF_INET: /* add IPv4 */
					iSignificantBits = 32;
					allowIP.flags = 0;
					if((allowIP.addr.NetAddr = MALLOC(res->ai_addrlen)) == NULL) {
						ABORT_FINALIZE(RS_RET_OUT_OF_MEMORY);
					}
					memcpy(allowIP.addr.NetAddr, res->ai_addr, res->ai_addrlen);
					
					if((iRet = AddAllowedSenderEntry(ppRoot, ppLast, &allowIP, iSignificantBits))
						!= RS_RET_OK) {
						free(allowIP.addr.NetAddr);
						FINALIZE;
					}
					break;
				case AF_INET6: /* IPv6 - but need to check if it is a v6-mapped IPv4 */
					if(IN6_IS_ADDR_V4MAPPED (&SIN6(res->ai_addr)->sin6_addr)) {
						/* extract & add IPv4 */
						
						iSignificantBits = 32;
						allowIP.flags = 0;
						if((allowIP.addr.NetAddr = (struct sockaddr *) MALLOC(sizeof(struct sockaddr_in)))
						    == NULL) {
							ABORT_FINALIZE(RS_RET_OUT_OF_MEMORY);
						}
						SIN(allowIP.addr.NetAddr)->sin_family = AF_INET;
#ifdef HAVE_STRUCT_SOCKADDR_SA_LEN    
                                                SIN(allowIP.addr.NetAddr)->sin_len    = sizeof (struct sockaddr_in);
#endif
						SIN(allowIP.addr.NetAddr)->sin_port   = 0;
						memcpy(&(SIN(allowIP.addr.NetAddr)->sin_addr.s_addr),
							&(SIN6(res->ai_addr)->sin6_addr.s6_addr32[3]),
							sizeof (in_addr_t));

						if((iRet = AddAllowedSenderEntry(ppRoot, ppLast, &allowIP,
								iSignificantBits))
							!= RS_RET_OK) {
							free(allowIP.addr.NetAddr);
							FINALIZE;
						}
					} else {
						/* finally add IPv6 */
						
						iSignificantBits = 128;
						allowIP.flags = 0;
						if((allowIP.addr.NetAddr = MALLOC(res->ai_addrlen)) == NULL) {
							ABORT_FINALIZE(RS_RET_OUT_OF_MEMORY);
						}
						memcpy(allowIP.addr.NetAddr, res->ai_addr, res->ai_addrlen);
						
						if((iRet = AddAllowedSenderEntry(ppRoot, ppLast, &allowIP,
								iSignificantBits))
							!= RS_RET_OK) {
							free(allowIP.addr.NetAddr);
							FINALIZE;
						}
					}
					break;
				}
			}
			freeaddrinfo (restmp);
		} else {
			/* wildcards in hostname - we need to add a text-based ACL.
			 * For this, we already have everything ready and just need
			 * to pass it along...
			 */
			iRet =  AddAllowedSenderEntry(ppRoot, ppLast, iAllow, iSignificantBits);
		}
	}

finalize_it:
	RETiRet;
}


/* Print an allowed sender list. The caller must tell us which one.
 * iListToPrint = 1 means UDP, 2 means TCP
 * rgerhards, 2005-09-27
 */
void PrintAllowedSenders(int iListToPrint)
{
	struct AllowedSenders *pSender;
	uchar szIP[64];
	
	assert((iListToPrint == 1) || (iListToPrint == 2)
#ifdef USE_GSSAPI
	       || (iListToPrint == 3)
#endif
	       );

	dbgprintf("Allowed %s Senders:\n",
	       (iListToPrint == 1) ? "UDP" :
#ifdef USE_GSSAPI
	       (iListToPrint == 3) ? "GSS" :
#endif
	       "TCP");

	pSender = (iListToPrint == 1) ? pAllowedSenders_UDP :
#ifdef USE_GSSAPI
		(iListToPrint == 3) ? pAllowedSenders_GSS :
#endif
		pAllowedSenders_TCP;
	if(pSender == NULL) {
		dbgprintf("\tNo restrictions set.\n");
	} else {
		while(pSender != NULL) {
			if (F_ISSET(pSender->allowedSender.flags, ADDR_NAME))
				dbgprintf ("\t%s\n", pSender->allowedSender.addr.HostWildcard);
			else {
				if(mygetnameinfo (pSender->allowedSender.addr.NetAddr,
						     SALEN(pSender->allowedSender.addr.NetAddr),
						     (char*)szIP, 64, NULL, 0, NI_NUMERICHOST) == 0) {
					dbgprintf ("\t%s/%u\n", szIP, pSender->SignificantBits);
				} else {
					/* getnameinfo() failed - but as this is only a
					 * debug function, we simply spit out an error and do
					 * not care much about it.
					 */
					dbgprintf("\tERROR in getnameinfo() - something may be wrong "
						"- ignored for now\n");
				}
			}
			pSender = pSender->pNext;
		}
	}
}


/* parse an allowed sender config line and add the allowed senders
 * (if the line is correct).
 * rgerhards, 2005-09-27
 */
rsRetVal addAllowedSenderLine(char* pName, uchar** ppRestOfConfLine)
{
	struct AllowedSenders **ppRoot;
	struct AllowedSenders **ppLast;
	rsParsObj *pPars;
	rsRetVal iRet;
	struct NetAddr *uIP = NULL;
	int iBits;

	assert(pName != NULL);
	assert(ppRestOfConfLine != NULL);
	assert(*ppRestOfConfLine != NULL);

	if(!strcasecmp(pName, "udp")) {
		ppRoot = &pAllowedSenders_UDP;
		ppLast = &pLastAllowedSenders_UDP;
	} else if(!strcasecmp(pName, "tcp")) {
		ppRoot = &pAllowedSenders_TCP;
		ppLast = &pLastAllowedSenders_TCP;
#ifdef USE_GSSAPI
	} else if(!strcasecmp(pName, "gss")) {
		ppRoot = &pAllowedSenders_GSS;
		ppLast = &pLastAllowedSenders_GSS;
#endif
	} else {
		errmsg.LogError(0, RS_RET_ERR, "Invalid protocol '%s' in allowed sender "
		           "list, line ignored", pName);
		return RS_RET_ERR;
	}

	/* OK, we now know the protocol and have valid list pointers.
	 * So let's process the entries. We are using the parse class
	 * for this.
	 */
	/* create parser object starting with line string without leading colon */
	if((iRet = rsParsConstructFromSz(&pPars, (uchar*) *ppRestOfConfLine) != RS_RET_OK)) {
		errmsg.LogError(0, iRet, "Error %d constructing parser object - ignoring allowed sender list", iRet);
		return(iRet);
	}

	while(!parsIsAtEndOfParseString(pPars)) {
		if(parsPeekAtCharAtParsPtr(pPars) == '#')
			break; /* a comment-sign stops processing of line */
		/* now parse a single IP address */
		if((iRet = parsAddrWithBits(pPars, &uIP, &iBits)) != RS_RET_OK) {
			errmsg.LogError(0, iRet, "Error %d parsing address in allowed sender"
				    "list - ignoring.", iRet);
			rsParsDestruct(pPars);
			return(iRet);
		}
		if((iRet = AddAllowedSender(ppRoot, ppLast, uIP, iBits)) != RS_RET_OK) {
		        if(iRet == RS_RET_NOENTRY) {
			        errmsg.LogError(0, iRet, "Error %d adding allowed sender entry "
					    "- ignoring.", iRet);
		        } else {
			        errmsg.LogError(0, iRet, "Error %d adding allowed sender entry "
					    "- terminating, nothing more will be added.", iRet);
				rsParsDestruct(pPars);
				free(uIP);
				return(iRet);
		        }
		}
		free (uIP); /* copy stored in AllowedSenders list */ 
	}

	/* cleanup */
	*ppRestOfConfLine += parsGetCurrentPosition(pPars);
	return rsParsDestruct(pPars);
}



/* compares a host to an allowed sender list entry. Handles all subleties
 * including IPv4/v6 as well as domain name wildcards.
 * This is a helper to isAllowedSender. As it is only called once, it is
 * declared inline.
 * Returns 0 if they do not match, 1 if they match and 2 if a DNS name would have been required.
 * contributed 2007-07-16 by mildew@gmail.com
 */
static inline int
MaskCmp(struct NetAddr *pAllow, uint8_t bits, struct sockaddr *pFrom, const char *pszFromHost, int bChkDNS)
{
	assert(pAllow != NULL);
	assert(pFrom != NULL);

	if(F_ISSET(pAllow->flags, ADDR_NAME)) {
		if(bChkDNS == 0)
			return 2;
		dbgprintf("MaskCmp: host=\"%s\"; pattern=\"%s\"\n", pszFromHost, pAllow->addr.HostWildcard);
		
#		if !defined(FNM_CASEFOLD)
			/* TODO: I don't know if that then works, seen on HP UX, what I have not in lab... ;) */
			return(fnmatch(pAllow->addr.HostWildcard, pszFromHost, FNM_NOESCAPE) == 0);
#		else
			return(fnmatch(pAllow->addr.HostWildcard, pszFromHost, FNM_NOESCAPE|FNM_CASEFOLD) == 0);
#		endif
	} else {/* We need to compare an IP address */
		switch (pFrom->sa_family) {
		case AF_INET:
			if (AF_INET == pAllow->addr.NetAddr->sa_family)
				return(( SIN(pFrom)->sin_addr.s_addr & htonl(0xffffffff << (32 - bits)) )
				       == SIN(pAllow->addr.NetAddr)->sin_addr.s_addr);
			else
				return 0;
			break;
		case AF_INET6:
			switch (pAllow->addr.NetAddr->sa_family) {
			case AF_INET6: {
				struct in6_addr ip, net;
				register uint8_t i;
				
				memcpy (&ip,  &(SIN6(pFrom))->sin6_addr, sizeof (struct in6_addr));
				memcpy (&net, &(SIN6(pAllow->addr.NetAddr))->sin6_addr, sizeof (struct in6_addr));
				
				i = bits/32;
				if (bits % 32)
					ip.s6_addr32[i++] &= htonl(0xffffffff << (32 - (bits % 32)));
				for (; i < (sizeof ip.s6_addr32)/4; i++)
					ip.s6_addr32[i] = 0;
				
				return (memcmp (ip.s6_addr, net.s6_addr, sizeof ip.s6_addr) == 0 &&
					(SIN6(pAllow->addr.NetAddr)->sin6_scope_id != 0 ?
					 SIN6(pFrom)->sin6_scope_id == SIN6(pAllow->addr.NetAddr)->sin6_scope_id : 1));
			}
			case AF_INET: {
				struct in6_addr *ip6 = &(SIN6(pFrom))->sin6_addr;
				struct in_addr  *net = &(SIN(pAllow->addr.NetAddr))->sin_addr;
				
				if ((ip6->s6_addr32[3] & (u_int32_t) htonl((0xffffffff << (32 - bits)))) == net->s_addr &&
#if BYTE_ORDER == LITTLE_ENDIAN
				    (ip6->s6_addr32[2] == (u_int32_t)0xffff0000) &&
#else
				    (ip6->s6_addr32[2] == (u_int32_t)0x0000ffff) &&
#endif
				    (ip6->s6_addr32[1] == 0) && (ip6->s6_addr32[0] == 0))
					return 1;
				else
					return 0;
			}
			default:
				/* Unsupported AF */
				return 0;
			}
		default:
			/* Unsupported AF */
			return 0;
		}
	}
}


/* check if a sender is allowed. The root of the the allowed sender.
 * list must be proveded by the caller. As such, this function can be
 * used to check both UDP and TCP allowed sender lists.
 * returns 1, if the sender is allowed, 0 if not and 2 if we could not 
 * obtain a result because we would need a dns name, which we don't have
 * (2 was added rgerhards, 2009-11-16).
 * rgerhards, 2005-09-26
 */
static int isAllowedSender2(uchar *pszType, struct sockaddr *pFrom, const char *pszFromHost, int bChkDNS)
{
	struct AllowedSenders *pAllow;
	struct AllowedSenders *pAllowRoot = NULL;
	int bNeededDNS = 0;	/* partial check because we could not resolve DNS? */
	int ret;

	assert(pFrom != NULL);
	
	if(setAllowRoot(&pAllowRoot, pszType) != RS_RET_OK)
		return 0;	/* if something went wrong, we deny access - that's the better choice... */

	if(pAllowRoot == NULL)
		return 1; /* checking disabled, everything is valid! */
	
	/* now we loop through the list of allowed senders. As soon as
	 * we find a match, we return back (indicating allowed). We loop
	 * until we are out of allowed senders. If so, we fall through the
	 * loop and the function's terminal return statement will indicate
	 * that the sender is disallowed.
	 */
	for(pAllow = pAllowRoot ; pAllow != NULL ; pAllow = pAllow->pNext) {
		ret = MaskCmp (&(pAllow->allowedSender), pAllow->SignificantBits, pFrom, pszFromHost, bChkDNS);
		if(ret == 1)
			return 1;
		else if(ret == 2)
			bNeededDNS = 2;
	}
	return bNeededDNS;
}


/* legacy API, not to be used any longer */
static int
isAllowedSender(uchar *pszType, struct sockaddr *pFrom, const char *pszFromHost) {
	return isAllowedSender2(pszType, pFrom, pszFromHost, 1);
}


/* The following #ifdef sequence is a small compatibility 
 * layer. It tries to work around the different availality
 * levels of SO_BSDCOMPAT on linuxes...
 * I borrowed this code from
 *    http://www.erlang.org/ml-archive/erlang-questions/200307/msg00037.html
 * It still needs to be a bit better adapted to rsyslog.
 * rgerhards 2005-09-19
 */
#include <sys/utsname.h>
static int
should_use_so_bsdcompat(void)
{
#ifndef OS_BSD
    static int init_done = 0;
    static int so_bsdcompat_is_obsolete = 0;

    if (!init_done) {
	struct utsname myutsname;
	unsigned int version, patchlevel;

	init_done = 1;
	if (uname(&myutsname) < 0) {
		char errStr[1024];
		dbgprintf("uname: %s\r\n", rs_strerror_r(errno, errStr, sizeof(errStr)));
		return 1;
	}
	/* Format is <version>.<patchlevel>.<sublevel><extraversion>
	   where the first three are unsigned integers and the last
	   is an arbitrary string. We only care about the first two. */
	if (sscanf(myutsname.release, "%u.%u", &version, &patchlevel) != 2) {
	    dbgprintf("uname: unexpected release '%s'\r\n",
		    myutsname.release);
	    return 1;
	}
	/* SO_BSCOMPAT is deprecated and triggers warnings in 2.5
	   kernels. It is a no-op in 2.4 but not in 2.2 kernels. */
	if (version > 2 || (version == 2 && patchlevel >= 5))
	    so_bsdcompat_is_obsolete = 1;
    }
    return !so_bsdcompat_is_obsolete;
#else	/* #ifndef OS_BSD */
    return 1;
#endif	/* #ifndef OS_BSD */
}
#ifndef SO_BSDCOMPAT
/* this shall prevent compiler errors due to undfined name */
#define SO_BSDCOMPAT 0
#endif


/* print out which socket we are listening on. This is only
 * a debug aid. rgerhards, 2007-07-02
 */
void debugListenInfo(int fd, char *type)
{
	char *szFamily;
	int port;
	struct sockaddr_storage sa;
	socklen_t saLen = sizeof(sa);

	if(getsockname(fd, (struct sockaddr *) &sa, &saLen) == 0) {
		switch(sa.ss_family) {
		case PF_INET:
			szFamily = "IPv4";
			port = ntohs(((struct sockaddr_in *) &sa)->sin_port);
			break;
		case PF_INET6:
			szFamily = "IPv6";
			port = ntohs(((struct sockaddr_in6 *) &sa)->sin6_port);
			break;
		default:
			szFamily = "other";
			port = -1;
			break;
		}
		dbgprintf("Listening on %s syslogd socket %d (%s/port %d).\n",
			type, fd, szFamily, port);
		return;
	}

	/* we can not obtain peer info. We are just providing
	 * debug info, so this is no reason to break the program
	 * or do any serious error reporting.
	 */
	dbgprintf("Listening on syslogd socket %d - could not obtain peer info.\n", fd);
}


/* Return a printable representation of a host addresses. If
 * a parameter is NULL, it is not set.  rgerhards, 2013-01-22
 */
rsRetVal
cvthname(struct sockaddr_storage *f, prop_t **localName, prop_t **fqdn, prop_t **ip)
{
	DEFiRet;
	assert(f != NULL);
	iRet = dnscacheLookup(f, NULL, fqdn, localName, ip);
	RETiRet;
}


/* get the name of the local host. A pointer to a character pointer is passed
 * in, which on exit points to the local hostname. This buffer is dynamically
 * allocated and must be free()ed by the caller. If the functions returns an
 * error, the pointer is NULL. This function is based on GNU/Hurd's localhostname
 * function.
 * rgerhards, 20080-04-10
 */
static rsRetVal
getLocalHostname(uchar **ppName)
{
	DEFiRet;
	uchar *buf = NULL;
	size_t buf_len = 0;

	assert(ppName != NULL);

	do {
		if(buf == NULL) {
			buf_len = 128;        /* Initial guess */
			CHKmalloc(buf = MALLOC(buf_len));
		} else {
			uchar *p;

			buf_len += buf_len;
			CHKmalloc(p = realloc (buf, buf_len));
			buf = p;
		}
	} while((gethostname((char*)buf, buf_len) == 0 && !memchr (buf, '\0', buf_len)) || errno == ENAMETOOLONG);

	*ppName = buf;
	buf = NULL;

finalize_it:
	if(iRet != RS_RET_OK) {
		if(buf != NULL)
			free(buf);
	}
	RETiRet;
}


/* closes the UDP listen sockets (if they exist) and frees
 * all dynamically assigned memory. 
 */
void closeUDPListenSockets(int *pSockArr)
{
	register int i;

	assert(pSockArr != NULL);
        if(pSockArr != NULL) {
	        for (i = 0; i < *pSockArr; i++)
	                close(pSockArr[i+1]);
		free(pSockArr);
	}
}


/* creates the UDP listen sockets
 * hostname and/or pszPort may be NULL, but not both!
 * bIsServer indicates if a server socket should be created
 * 1 - server, 0 - client
 * param rcvbuf indicates desired rcvbuf size; 0 means OS default
 */
int *create_udp_socket(uchar *hostname, uchar *pszPort, int bIsServer, int rcvbuf)
{
        struct addrinfo hints, *res, *r;
        int error, maxs, *s, *socks, on = 1;
	int sockflags;
	int actrcvbuf;
	socklen_t optlen;
	char errStr[1024];

	assert(!((pszPort == NULL) && (hostname == NULL)));
        memset(&hints, 0, sizeof(hints));
	if(bIsServer)
		hints.ai_flags = AI_PASSIVE | AI_NUMERICSERV;
	else
		hints.ai_flags = AI_NUMERICSERV;
        hints.ai_family = glbl.GetDefPFFamily();
        hints.ai_socktype = SOCK_DGRAM;
        error = getaddrinfo((char*) hostname, (char*) pszPort, &hints, &res);
        if(error) {
               errmsg.LogError(0, NO_ERRCODE, "%s",  gai_strerror(error));
	       errmsg.LogError(0, NO_ERRCODE, "UDP message reception disabled due to error logged in last message.\n");
	       return NULL;
	}

        /* Count max number of sockets we may open */
        for (maxs = 0, r = res; r != NULL ; r = r->ai_next, maxs++)
		/* EMPTY */;
        socks = MALLOC((maxs+1) * sizeof(int));
        if (socks == NULL) {
               errmsg.LogError(0, NO_ERRCODE, "couldn't allocate memory for UDP sockets, suspending UDP message reception");
               freeaddrinfo(res);
               return NULL;
        }

        *socks = 0;   /* num of sockets counter at start of array */
        s = socks + 1;
	for (r = res; r != NULL ; r = r->ai_next) {
               *s = socket(r->ai_family, r->ai_socktype, r->ai_protocol);
        	if (*s < 0) {
			if(!(r->ai_family == PF_INET6 && errno == EAFNOSUPPORT))
				errmsg.LogError(errno, NO_ERRCODE, "create_udp_socket(), socket");
				/* it is debateble if PF_INET with EAFNOSUPPORT should
				 * also be ignored...
				 */
                        continue;
                }

#		ifdef IPV6_V6ONLY
                if (r->ai_family == AF_INET6) {
                	int ion = 1;
			if (setsockopt(*s, IPPROTO_IPV6, IPV6_V6ONLY,
			      (char *)&ion, sizeof (ion)) < 0) {
			errmsg.LogError(errno, NO_ERRCODE, "setsockopt");
			close(*s);
			*s = -1;
			continue;
                	}
                }
#		endif

		/* if we have an error, we "just" suspend that socket. Eventually
		 * other sockets will work. At the end of this function, we check
		 * if we managed to open at least one socket. If not, we'll write
		 * a "inet suspended" message and declare failure. Else we use
		 * what we could obtain.
		 * rgerhards, 2007-06-22
		 */
       		if (setsockopt(*s, SOL_SOCKET, SO_REUSEADDR,
			       (char *) &on, sizeof(on)) < 0 ) {
			errmsg.LogError(errno, NO_ERRCODE, "setsockopt(REUSEADDR)");
                        close(*s);
			*s = -1;
			continue;
		}

		/* We need to enable BSD compatibility. Otherwise an attacker
		 * could flood our log files by sending us tons of ICMP errors.
		 */
#if !defined(OS_BSD) && !defined(__hpux)
		if (should_use_so_bsdcompat()) {
			if (setsockopt(*s, SOL_SOCKET, SO_BSDCOMPAT,
					(char *) &on, sizeof(on)) < 0) {
				errmsg.LogError(errno, NO_ERRCODE, "setsockopt(BSDCOMPAT)");
                                close(*s);
				*s = -1;
				continue;
			}
		}
#endif
		/* We must not block on the network socket, in case a packet
		 * gets lost between select and recv, otherwise the process
		 * will stall until the timeout, and other processes trying to
		 * log will also stall.
		 * Patch vom Colin Phipps <cph@cph.demon.co.uk> to the original
		 * sysklogd source. Applied to rsyslogd on 2005-10-19.
		 */
		if ((sockflags = fcntl(*s, F_GETFL)) != -1) {
			sockflags |= O_NONBLOCK;
			/* SETFL could fail too, so get it caught by the subsequent
			 * error check.
			 */
			sockflags = fcntl(*s, F_SETFL, sockflags);
		}
		if (sockflags == -1) {
			errmsg.LogError(errno, NO_ERRCODE, "fcntl(O_NONBLOCK)");
                        close(*s);
			*s = -1;
			continue;
		}

		if(rcvbuf != 0) {
#			if defined(SO_RCVBUFFORCE)
			if(setsockopt(*s, SOL_SOCKET, SO_RCVBUFFORCE, &rcvbuf, sizeof(rcvbuf)) < 0)
#			endif
			{
				/* if we fail, try to do it the regular way. Experiments show that at 
				 * least some platforms do not return an error here, but silently set
				 * it to the max permitted value. So we do our error check a bit
				 * differently by querying the size below.
				 */
				setsockopt(*s, SOL_SOCKET, SO_RCVBUF, &rcvbuf, sizeof(rcvbuf));
			}
		}

		if(Debug || rcvbuf != 0) {
			optlen = sizeof(actrcvbuf);
			if(getsockopt(*s, SOL_SOCKET, SO_RCVBUF, &actrcvbuf, &optlen) == 0) {
				dbgprintf("socket %d, actual os socket rcvbuf size %d\n", *s, actrcvbuf);
				if(rcvbuf != 0 && actrcvbuf/2 != rcvbuf) {
					errmsg.LogError(errno, NO_ERRCODE,
						"cannot set os socket rcvbuf size %d for socket %d, value now is %d",
						rcvbuf, *s, actrcvbuf/2);
				}
			} else {
				dbgprintf("could not obtain os socket rcvbuf size for socket %d: %s\n",
					*s, rs_strerror_r(errno, errStr, sizeof(errStr)));
			}
		}

		if(bIsServer) {
			/* rgerhards, 2007-06-22: if we run on a kernel that does not support
			 * the IPV6_V6ONLY socket option, we need to use a work-around. On such
			 * systems the IPv6 socket does also accept IPv4 sockets. So an IPv4
			 * socket can not listen on the same port as an IPv6 socket. The only
			 * workaround is to ignore the "socket in use" error. This is what we
			 * do if we have to.
			 */
			if(     (bind(*s, r->ai_addr, r->ai_addrlen) < 0)
	#		ifndef IPV6_V6ONLY
			     && (errno != EADDRINUSE)
	#		endif
			   ) {
				errmsg.LogError(errno, NO_ERRCODE, "bind");
				close(*s);
				*s = -1;
				continue;
			}
		}

                (*socks)++;
                s++;
	}

        if(res != NULL)
               freeaddrinfo(res);

	if(Debug && *socks != maxs)
		dbgprintf("We could initialize %d UDP listen sockets out of %d we received "
		 	"- this may or may not be an error indication.\n", *socks, maxs);

        if(*socks == 0) {
		errmsg.LogError(0, NO_ERRCODE, "No UDP listen socket could successfully be initialized, "
			 "message reception via UDP disabled.\n");
		/* we do NOT need to free any sockets, because there were none... */
        	free(socks);
		return(NULL);
	}

	return(socks);
}


/* check if two provided socket addresses point to the same host. Note that the
 * length of the sockets must be provided as third parameter. This is necessary to
 * compare non IPv4/v6 hosts, in which case we do a simple memory compare of the
 * address structure (in that case, the same host may not reliably be detected).
 * Note that we need to do the comparison not on the full structure, because it contains things
 * like the port, which we do not need to look at when thinking about hostnames. So we look
 * at the relevant fields, what means a somewhat more complicated processing.
 * Also note that we use a non-standard calling interface, as this is much more natural and
 * it looks extremely unlikely that we get an exception of any kind here. What we
 * return is mimiced after memcmp(), and as such useful for building binary trees 
 * (the order relation may be a bit arbritrary, but at least it is consistent).
 * rgerhards, 2009-09-03
 */
static int CmpHost(struct sockaddr_storage *s1, struct sockaddr_storage* s2, size_t socklen)
{
	int ret;

	if(((struct sockaddr*) s1)->sa_family != ((struct sockaddr*) s2)->sa_family) {
		ret = memcmp(s1, s2, socklen);
		goto finalize_it;
	}

	if(((struct sockaddr*) s1)->sa_family == AF_INET) {
		if(((struct sockaddr_in *) s1)->sin_addr.s_addr == ((struct sockaddr_in*)s2)->sin_addr.s_addr) {
			ret = 0;
		} else if(((struct sockaddr_in *) s1)->sin_addr.s_addr < ((struct sockaddr_in*)s2)->sin_addr.s_addr) {
			ret = -1;
		} else {
			ret = 1;
		}
	} else if(((struct sockaddr*) s1)->sa_family == AF_INET6) {
		/* IPv6 addresses are always 16 octets long */
		ret = memcmp(((struct sockaddr_in6 *)s1)->sin6_addr.s6_addr, ((struct sockaddr_in6*)s2)->sin6_addr.s6_addr, 16);
	} else {
		ret = memcmp(s1, s2, socklen);
	}

finalize_it:
	return ret;
}



/* check if restrictions (ALCs) exists. The goal of this function is to disable the
 * somewhat time-consuming ACL checks if no restrictions are defined (the usual case).
 * This also permits to gain some speedup by using firewall-based ACLs instead of
 * rsyslog ACLs (the recommended method.
 * rgerhards, 2009-11-16
 */
static rsRetVal
HasRestrictions(uchar *pszType, int *bHasRestrictions) {
	struct AllowedSenders *pAllowRoot = NULL;
	DEFiRet;

	CHKiRet(setAllowRoot(&pAllowRoot, pszType));

	*bHasRestrictions = (pAllowRoot == NULL) ? 0 : 1;

finalize_it:
	if(iRet != RS_RET_OK) {
		*bHasRestrictions = 1; /* in this case it is better to check individually */
		DBGPRINTF("Error %d trying to obtain ACL restriction state of '%s'\n", iRet, pszType);
	}
	RETiRet;
}


/* return the IP address (IPv4/6) for the provided interface. Returns
 * RS_RET_NOT_FOUND if interface can not be found in interface list.
 * The family must be correct (AF_INET vs. AF_INET6, AF_UNSPEC means
 * either of *these two*).
 * The function re-queries the interface list (at least in theory).
 * However, it caches entries in order to avoid too-frequent requery.
 * rgerhards, 2012-03-06
 */
static rsRetVal
getIFIPAddr(uchar *szif, int family, uchar *pszbuf, int lenBuf)
{
	struct ifaddrs * ifaddrs = NULL;
	struct ifaddrs * ifa;
	void * pAddr;
	DEFiRet;

 	if(getifaddrs(&ifaddrs) != 0) {
		ABORT_FINALIZE(RS_RET_ERR);
	}

	for (ifa = ifaddrs; ifa != NULL; ifa = ifa->ifa_next) {
		if(strcmp(ifa->ifa_name, (char*)szif))
			continue;
		if(   (family == AF_INET6 || family == AF_UNSPEC)
		   && ifa->ifa_addr->sa_family == AF_INET6) {
			pAddr = &((struct sockaddr_in6 *)ifa->ifa_addr)->sin6_addr;
			inet_ntop(AF_INET6, pAddr, (char*)pszbuf, lenBuf);
			break;
		} else if(/*   (family == AF_INET || family == AF_UNSPEC)
		         &&*/ ifa->ifa_addr->sa_family == AF_INET) {
			pAddr = &((struct sockaddr_in *)ifa->ifa_addr)->sin_addr;
			inet_ntop(AF_INET, pAddr, (char*)pszbuf, lenBuf);
			break;
		} 
	}

	if(ifaddrs != NULL)
		freeifaddrs(ifaddrs);

	if(ifa == NULL)
		iRet = RS_RET_NOT_FOUND;

finalize_it:
	RETiRet;

}


/* queryInterface function
 * rgerhards, 2008-03-05
 */
BEGINobjQueryInterface(net)
CODESTARTobjQueryInterface(net)
	if(pIf->ifVersion != netCURR_IF_VERSION) { /* check for current version, increment on each change */
		ABORT_FINALIZE(RS_RET_INTERFACE_NOT_SUPPORTED);
	}

	/* ok, we have the right interface, so let's fill it
	 * Please note that we may also do some backwards-compatibility
	 * work here (if we can support an older interface version - that,
	 * of course, also affects the "if" above).
	 */
	pIf->cvthname = cvthname;
	/* things to go away after proper modularization */
	pIf->addAllowedSenderLine = addAllowedSenderLine;
	pIf->PrintAllowedSenders = PrintAllowedSenders;
	pIf->clearAllowedSenders = clearAllowedSenders;
	pIf->debugListenInfo = debugListenInfo;
	pIf->create_udp_socket = create_udp_socket;
	pIf->closeUDPListenSockets = closeUDPListenSockets;
	pIf->isAllowedSender = isAllowedSender;
	pIf->isAllowedSender2 = isAllowedSender2;
	pIf->should_use_so_bsdcompat = should_use_so_bsdcompat;
	pIf->getLocalHostname = getLocalHostname;
	pIf->AddPermittedPeer = AddPermittedPeer;
	pIf->DestructPermittedPeers = DestructPermittedPeers;
	pIf->PermittedPeerWildcardMatch = PermittedPeerWildcardMatch;
	pIf->CmpHost = CmpHost;
	pIf->HasRestrictions = HasRestrictions;
	pIf->GetIFIPAddr = getIFIPAddr;
	/* data members */
	pIf->pACLAddHostnameOnFail = &ACLAddHostnameOnFail;
	pIf->pACLDontResolve = &ACLDontResolve;
finalize_it:
ENDobjQueryInterface(net)


/* exit our class
 * rgerhards, 2008-03-10
 */
BEGINObjClassExit(net, OBJ_IS_LOADABLE_MODULE) /* CHANGE class also in END MACRO! */
CODESTARTObjClassExit(net)
	/* release objects we no longer need */
	objRelease(glbl, CORE_COMPONENT);
	objRelease(prop, CORE_COMPONENT);
	objRelease(errmsg, CORE_COMPONENT);
ENDObjClassExit(net)


/* Initialize the net class. Must be called as the very first method
 * before anything else is called inside this class.
 * rgerhards, 2008-02-19
 */
BEGINAbstractObjClassInit(net, 1, OBJ_IS_CORE_MODULE) /* class, version */
	/* request objects we use */
	CHKiRet(objUse(errmsg, CORE_COMPONENT));
	CHKiRet(objUse(glbl, CORE_COMPONENT));
	CHKiRet(objUse(prop, CORE_COMPONENT));

	/* set our own handlers */
ENDObjClassInit(net)


/* --------------- here now comes the plumbing that makes as a library module --------------- */


BEGINmodExit
CODESTARTmodExit
	netClassExit();
ENDmodExit


BEGINqueryEtryPt
CODESTARTqueryEtryPt
CODEqueryEtryPt_STD_LIB_QUERIES
ENDqueryEtryPt


BEGINmodInit()
CODESTARTmodInit
	*ipIFVersProvided = CURR_MOD_IF_VERSION; /* we only support the current interface specification */

	/* Initialize all classes that are in our module - this includes ourselfs */
	CHKiRet(netClassInit(pModInfo)); /* must be done after tcps_sess, as we use it */
ENDmodInit
/* vi:set ai:
 */