agent/mibgroup/mibII/tcp.c - vendor/opensource/netsnmp - Git at Google


 /*
  *  TCP MIB group implementation - tcp.c
  *
  */

 #include <net-snmp/net-snmp-config.h>
 #include "mibII_common.h"

 #if HAVE_STDLIB_H
 #include <stdlib.h>
 #endif
 #if HAVE_UNISTD_H
 #include <unistd.h>
 #endif

 #if HAVE_SYS_PROTOSW_H
 #include <sys/protosw.h>
 #endif
 #if HAVE_ARPA_INET_H
 #include <arpa/inet.h>
 #endif

 #if defined(osf4) || defined(osf5) || defined(aix4) || defined(hpux10)
 /*
  * these are undefed to remove a stupid warning on osf compilers
  * because they get redefined with a slightly different notation of the
  * same value.  -- Wes
  */
 #undef TCP_NODELAY
 #undef TCP_MAXSEG
 #endif
 #if HAVE_NETINET_TCP_H
 #include <netinet/tcp.h>
 #endif
 #if HAVE_NETINET_TCPIP_H
 #include <netinet/tcpip.h>
 #endif
 #if HAVE_NETINET_TCP_TIMER_H
 #include <netinet/tcp_timer.h>
 #endif
 #if HAVE_NETINET_TCP_VAR_H
 #include <netinet/tcp_var.h>
 #endif
 #if HAVE_NETINET_TCP_FSM_H
 #include <netinet/tcp_fsm.h>
 #endif

 #include <net-snmp/net-snmp-includes.h>
 #include <net-snmp/agent/net-snmp-agent-includes.h>
 #include <net-snmp/agent/auto_nlist.h>
 #include <net-snmp/agent/sysORTable.h>

 #include "util_funcs/MIB_STATS_CACHE_TIMEOUT.h"
 #include "tcp.h"
 #include "tcpTable.h"

 #ifndef MIB_STATS_CACHE_TIMEOUT
 #define MIB_STATS_CACHE_TIMEOUT	5
 #endif
 #ifndef TCP_STATS_CACHE_TIMEOUT
 #define TCP_STATS_CACHE_TIMEOUT	MIB_STATS_CACHE_TIMEOUT
 #endif

 #if defined(HAVE_LIBPERFSTAT_H) && (defined(aix4) || defined(aix5) || defined(aix6) || defined(aix7)) && !defined(FIRST_PROTOCOL)
 #ifdef HAVE_SYS_PROTOSW_H
 #include <sys/protosw.h>
 #endif
 #include <libperfstat.h>
 #ifdef FIRST_PROTOCOL
 perfstat_protocol_t ps_proto;
 perfstat_id_t ps_name;
 #define _USE_FIRST_PROTOCOL 1
 #endif
 #endif

         /*********************
 	 *
 	 *  Kernel & interface information,
 	 *   and internal forward declarations
 	 *
 	 *********************/

                 /*
                  * FreeBSD4 *does* need an explicit variable 'hz'
                  *   since this appears in a system header file.
                  * But only define it under FreeBSD, since it
                  *   breaks other systems (notable AIX)
                  */
 #ifdef freebsd4
 int  hz = 1000;
 #endif

 extern int TCP_Count_Connections( void );
         /*********************
 	 *
 	 *  Initialisation & common implementation functions
 	 *
 	 *********************/


 /*
  * Define the OID pointer to the top of the mib tree that we're
  * registering underneath, and the OID for the MIB module
  */
 oid             tcp_oid[]               = { SNMP_OID_MIB2, 6 };
 oid             tcp_module_oid[]        = { SNMP_OID_MIB2, 49 };

 void
 init_tcp(void)
 {
     netsnmp_handler_registration *reginfo;
     int rc;

     /*
      * register ourselves with the agent as a group of scalars...
      */
     DEBUGMSGTL(("mibII/tcpScalar", "Initialising TCP scalar group\n"));
     reginfo = netsnmp_create_handler_registration("tcp", tcp_handler,
 		    tcp_oid, OID_LENGTH(tcp_oid), HANDLER_CAN_RONLY);
     rc = netsnmp_register_scalar_group(reginfo, TCPRTOALGORITHM, TCPOUTRSTS);
     if (rc != SNMPERR_SUCCESS)
         return;

     /*
      * .... with a local cache
      *    (except for HP-UX 11, which extracts objects individually)
      */
 #ifndef hpux11
     netsnmp_inject_handler( reginfo,
 		    netsnmp_get_cache_handler(TCP_STATS_CACHE_TIMEOUT,
 			   		tcp_load, tcp_free,
 					tcp_oid, OID_LENGTH(tcp_oid)));
 #endif

     REGISTER_SYSOR_ENTRY(tcp_module_oid,
                          "The MIB module for managing TCP implementations");

 #if !defined(_USE_FIRST_PROTOCOL)
 #ifdef TCPSTAT_SYMBOL
     auto_nlist(TCPSTAT_SYMBOL, 0, 0);
 #endif
 #ifdef TCP_SYMBOL
     auto_nlist(TCP_SYMBOL, 0, 0);
 #endif
 #ifdef freebsd4
     hz = sysconf(_SC_CLK_TCK);  /* get ticks/s from system */
 #endif
 #ifdef solaris2
     init_kernel_sunos5();
 #endif
 #endif
 }

         /*********************
 	 *
 	 *  System specific implementation functions
 	 *
 	 *********************/

 #ifdef hpux11
 #define TCP_STAT_STRUCTURE	int
 #endif

 #ifdef linux
 #define TCP_STAT_STRUCTURE	struct tcp_mib
 #define USES_SNMP_DESIGNED_TCPSTAT
 #undef TCPSTAT_SYMBOL
 #endif

 #ifdef solaris2
 #define TCP_STAT_STRUCTURE	mib2_tcp_t
 #define USES_SNMP_DESIGNED_TCPSTAT
 #endif

 #ifdef NETBSD_STATS_VIA_SYSCTL
 #define TCP_STAT_STRUCTURE      struct tcp_mib
 #define USES_SNMP_DESIGNED_TCPSTAT
 #undef TCP_NSTATS
 #endif

 #ifdef HAVE_IPHLPAPI_H
 #include <iphlpapi.h>
 #define TCP_STAT_STRUCTURE     MIB_TCPSTATS
 #endif

 #ifdef HAVE_SYS_TCPIPSTATS_H
 #define TCP_STAT_STRUCTURE	struct kna
 #define USES_TRADITIONAL_TCPSTAT
 #endif

 #ifdef dragonfly
 #define TCP_STAT_STRUCTURE	struct tcp_stats
 #define USES_TRADITIONAL_TCPSTAT
 #endif

 #if !defined(TCP_STAT_STRUCTURE)
 #define TCP_STAT_STRUCTURE	struct tcpstat
 #define USES_TRADITIONAL_TCPSTAT
 #endif

 TCP_STAT_STRUCTURE tcpstat;


         /*********************
 	 *
 	 *  System independent handler (mostly)
 	 *
 	 *********************/


 int
 tcp_handler(netsnmp_mib_handler          *handler,
             netsnmp_handler_registration *reginfo,
             netsnmp_agent_request_info   *reqinfo,
             netsnmp_request_info         *requests)
 {
     netsnmp_request_info  *request;
     netsnmp_variable_list *requestvb;
     long     ret_value = -1;
     oid      subid;
     int      type = ASN_COUNTER;

     /*
      * The cached data should already have been loaded by the
      *    cache handler, higher up the handler chain.
      * But just to be safe, check this and load it manually if necessary
      */
 #if defined(_USE_FIRST_PROTOCOL)
     tcp_load(NULL, NULL);
 #endif


     /*
      *
      *
      */
     DEBUGMSGTL(("mibII/tcpScalar", "Handler - mode %s\n",
                     se_find_label_in_slist("agent_mode", reqinfo->mode)));
     switch (reqinfo->mode) {
     case MODE_GET:
         for (request=requests; request; request=request->next) {
             requestvb = request->requestvb;
             subid = requestvb->name[OID_LENGTH(tcp_oid)];  /* XXX */

             DEBUGMSGTL(( "mibII/tcpScalar", "oid: "));
             DEBUGMSGOID(("mibII/tcpScalar", requestvb->name,
                                             requestvb->name_length));
             DEBUGMSG((   "mibII/tcpScalar", "\n"));
             switch (subid) {
 #ifdef USES_SNMP_DESIGNED_TCPSTAT
     case TCPRTOALGORITHM:
         ret_value = tcpstat.tcpRtoAlgorithm;
         type = ASN_INTEGER;
         break;
     case TCPRTOMIN:
         ret_value = tcpstat.tcpRtoMin;
         type = ASN_INTEGER;
         break;
     case TCPRTOMAX:
         ret_value = tcpstat.tcpRtoMax;
         type = ASN_INTEGER;
         break;
     case TCPMAXCONN:
         ret_value = tcpstat.tcpMaxConn;
         type = ASN_INTEGER;
         break;
     case TCPACTIVEOPENS:
         ret_value = tcpstat.tcpActiveOpens;
         break;
     case TCPPASSIVEOPENS:
         ret_value = tcpstat.tcpPassiveOpens;
         break;
     case TCPATTEMPTFAILS:
         ret_value = tcpstat.tcpAttemptFails;
         break;
     case TCPESTABRESETS:
         ret_value = tcpstat.tcpEstabResets;
         break;
     case TCPCURRESTAB:
         ret_value = tcpstat.tcpCurrEstab;
         type = ASN_GAUGE;
         break;
     case TCPINSEGS:
         ret_value = tcpstat.tcpInSegs & 0xffffffff;
         break;
     case TCPOUTSEGS:
         ret_value = tcpstat.tcpOutSegs & 0xffffffff;
         break;
     case TCPRETRANSSEGS:
         ret_value = tcpstat.tcpRetransSegs;
         break;
     case TCPINERRS:
 #ifdef solaris2
         ret_value = tcp_load(NULL, (void *)TCPINERRS);
 	if (ret_value == -1) {
             netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
             continue;
 	}
         break;
 #elif defined(linux)
         if (tcpstat.tcpInErrsValid) {
             ret_value = tcpstat.tcpInErrs;
             break;
 	} else {
             netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
             continue;
 	}
 #else			/* linux */
         netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
         continue;
 #endif			/* solaris2 */
     case TCPOUTRSTS:
 #ifdef linux
         if (tcpstat.tcpOutRstsValid) {
             ret_value = tcpstat.tcpOutRsts;
             break;
 	}
 #endif			/* linux */
         netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
         continue;
 #elif defined(USES_TRADITIONAL_TCPSTAT) && !defined(_USE_FIRST_PROTOCOL)
 #ifdef HAVE_SYS_TCPIPSTATS_H
     /*
      * This actually reads statistics for *all* the groups together,
      * so we need to isolate the TCP-specific bits.
      */
 #define tcpstat          tcpstat.tcpstat
 #endif
     case TCPRTOALGORITHM:      /* Assume Van Jacobsen's algorithm */
         ret_value = 4;
         type = ASN_INTEGER;
         break;
     case TCPRTOMIN:
 #ifdef TCPTV_NEEDS_HZ
         ret_value = TCPTV_MIN;
 #else
         ret_value = TCPTV_MIN / PR_SLOWHZ * 1000;
 #endif
         type = ASN_INTEGER;
         break;
     case TCPRTOMAX:
 #ifdef TCPTV_NEEDS_HZ
         ret_value = TCPTV_REXMTMAX;
 #else
         ret_value = TCPTV_REXMTMAX / PR_SLOWHZ * 1000;
 #endif
         type = ASN_INTEGER;
         break;
     case TCPMAXCONN:
         ret_value = -1;		/* Dynamic maximum */
         type = ASN_INTEGER;
         break;
     case TCPACTIVEOPENS:
         ret_value = tcpstat.tcps_connattempt;
         break;
     case TCPPASSIVEOPENS:
         ret_value = tcpstat.tcps_accepts;
         break;
         /*
          * NB:  tcps_drops is actually the sum of the two MIB
          *      counters tcpAttemptFails and tcpEstabResets.
          */
     case TCPATTEMPTFAILS:
         ret_value = tcpstat.tcps_conndrops;
         break;
     case TCPESTABRESETS:
         ret_value = tcpstat.tcps_drops;
         break;
     case TCPCURRESTAB:
 #ifdef USING_MIBII_TCPTABLE_MODULE
         ret_value = TCP_Count_Connections();
 #else
         ret_value = 0;
 #endif
         type = ASN_GAUGE;
         break;
     case TCPINSEGS:
         ret_value = tcpstat.tcps_rcvtotal & 0xffffffff;
         break;
     case TCPOUTSEGS:
         /*
          * RFC 1213 defines this as the number of segments sent
          * "excluding those containing only retransmitted octets"
          */
         ret_value = (tcpstat.tcps_sndtotal - tcpstat.tcps_sndrexmitpack) & 0xffffffff;
         break;
     case TCPRETRANSSEGS:
         ret_value = tcpstat.tcps_sndrexmitpack;
         break;
     case TCPINERRS:
         ret_value = tcpstat.tcps_rcvbadsum + tcpstat.tcps_rcvbadoff
 #ifdef HAVE_STRUCT_TCPSTAT_TCPS_RCVMEMDROP
             + tcpstat.tcps_rcvmemdrop
 #endif
             + tcpstat.tcps_rcvshort;
         break;
     case TCPOUTRSTS:
         ret_value = tcpstat.tcps_sndctrl - tcpstat.tcps_closed;
         break;
 #ifdef HAVE_SYS_TCPIPSTATS_H
 #undef tcpstat
 #endif
 #elif defined(hpux11)
     case TCPRTOALGORITHM:
     case TCPRTOMIN:
     case TCPRTOMAX:
     case TCPMAXCONN:
     case TCPCURRESTAB:
         if (subid == TCPCURRESTAB)
            type = ASN_GAUGE;
 	else
            type = ASN_INTEGER;
     case TCPACTIVEOPENS:
     case TCPPASSIVEOPENS:
     case TCPATTEMPTFAILS:
     case TCPESTABRESETS:
     case TCPINSEGS:
     case TCPOUTSEGS:
     case TCPRETRANSSEGS:
     case TCPINERRS:
     case TCPOUTRSTS:
 	/*
 	 * This is a bit of a hack, to shoehorn the HP-UX 11
 	 * single-object retrieval approach into the caching
 	 * architecture.
 	 */
 	if (tcp_load(NULL, (void*)subid) == -1 ) {
             netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
             continue;
 	}
         ret_value = tcpstat;
         break;
 #elif defined (WIN32) || defined (cygwin)
     case TCPRTOALGORITHM:
         ret_value = tcpstat.dwRtoAlgorithm;
         type = ASN_INTEGER;
         break;
     case TCPRTOMIN:
         ret_value = tcpstat.dwRtoMin;
         type = ASN_INTEGER;
         break;
     case TCPRTOMAX:
         ret_value = tcpstat.dwRtoMax;
         type = ASN_INTEGER;
         break;
     case TCPMAXCONN:
         ret_value = tcpstat.dwMaxConn;
         type = ASN_INTEGER;
         break;
     case TCPACTIVEOPENS:
         ret_value = tcpstat.dwActiveOpens;
         break;
     case TCPPASSIVEOPENS:
         ret_value = tcpstat.dwPassiveOpens;
         break;
     case TCPATTEMPTFAILS:
         ret_value = tcpstat.dwAttemptFails;
         break;
     case TCPESTABRESETS:
         ret_value = tcpstat.dwEstabResets;
         break;
     case TCPCURRESTAB:
         ret_value = tcpstat.dwCurrEstab;
         type = ASN_GAUGE;
         break;
     case TCPINSEGS:
         ret_value = tcpstat.dwInSegs;
         break;
     case TCPOUTSEGS:
         ret_value = tcpstat.dwOutSegs;
         break;
     case TCPRETRANSSEGS:
         ret_value = tcpstat.dwRetransSegs;
         break;
     case TCPINERRS:
         ret_value = tcpstat.dwInErrs;
         break;
     case TCPOUTRSTS:
         ret_value = tcpstat.dwOutRsts;
         break;
 #elif defined(_USE_FIRST_PROTOCOL)
     case TCPRTOALGORITHM:
         ret_value = 4;
         type = ASN_INTEGER;
         break;
     case TCPRTOMIN:
         ret_value = 0;
         type = ASN_INTEGER;
         break;
     case TCPRTOMAX:
         ret_value = 0;
         type = ASN_INTEGER;
         break;
     case TCPMAXCONN:
         ret_value = -1;
         type = ASN_INTEGER;
         break;
     case TCPACTIVEOPENS:
         ret_value = ps_proto.u.tcp.initiated;
         break;
     case TCPPASSIVEOPENS:
         ret_value = ps_proto.u.tcp.accepted;
         break;
     case TCPATTEMPTFAILS:
         ret_value = ps_proto.u.tcp.dropped;
         break;
     case TCPESTABRESETS:
         ret_value = ps_proto.u.tcp.dropped;
         break;
     case TCPCURRESTAB:
         /* this value is currently missing */
         ret_value = 0; /*ps_proto.u.tcp.established;*/
         type = ASN_GAUGE;
         break;
     case TCPINSEGS:
         ret_value = ps_proto.u.tcp.ipackets;
         break;
     case TCPOUTSEGS:
         ret_value = ps_proto.u.tcp.opackets;
         break;
     case TCPRETRANSSEGS:
         ret_value = 0;
         break;
     case TCPINERRS:
         ret_value = ps_proto.u.tcp.ierrors;
         break;
     case TCPOUTRSTS:
         ret_value = 0;
         break;
 #endif			/* USES_SNMP_DESIGNED_TCPSTAT */

     case TCPCONNTABLE:
         /*
 	 * This is not actually a valid scalar object.
 	 * The table registration should take precedence,
 	 *   so skip this subtree, regardless of architecture.
 	 */
         netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
         continue;

 	    }
 	    snmp_set_var_typed_value(request->requestvb, (u_char)type,
 			             (u_char *)&ret_value, sizeof(ret_value));
 	}
         break;

     case MODE_GETNEXT:
     case MODE_GETBULK:
     case MODE_SET_RESERVE1:
     case MODE_SET_RESERVE2:
     case MODE_SET_ACTION:
     case MODE_SET_COMMIT:
     case MODE_SET_FREE:
     case MODE_SET_UNDO:
         snmp_log(LOG_WARNING, "mibII/tcp: Unsupported mode (%d)\n",
                                reqinfo->mode);
         break;
     default:
         snmp_log(LOG_WARNING, "mibII/tcp: Unrecognised mode (%d)\n",
                                reqinfo->mode);
         break;
     }

     return SNMP_ERR_NOERROR;
 }


         /*********************
 	 *
 	 *  Internal implementation functions
 	 *
 	 *********************/

 #ifdef hpux11
 int
 tcp_load(netsnmp_cache *cache, void *vmagic)
 {
     int             fd;
     struct nmparms  p;
     unsigned int    ulen;
     int             ret;
     int             magic = (int) vmagic;

     if ((fd = open_mib("/dev/ip", O_RDONLY, 0, NM_ASYNC_OFF)) < 0) {
         DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP object %d (hpux11)\n", magic));
         return (-1);            /* error */
     }

     switch (magic) {
     case TCPRTOALGORITHM:
         p.objid = ID_tcpRtoAlgorithm;
         break;
     case TCPRTOMIN:
         p.objid = ID_tcpRtoMin;
         break;
     case TCPRTOMAX:
         p.objid = ID_tcpRtoMax;
         break;
     case TCPMAXCONN:
         p.objid = ID_tcpMaxConn;
         break;
     case TCPACTIVEOPENS:
         p.objid = ID_tcpActiveOpens;
         break;
     case TCPPASSIVEOPENS:
         p.objid = ID_tcpPassiveOpens;
         break;
     case TCPATTEMPTFAILS:
         p.objid = ID_tcpAttemptFails;
         break;
     case TCPESTABRESETS:
         p.objid = ID_tcpEstabResets;
         break;
     case TCPCURRESTAB:
         p.objid = ID_tcpCurrEstab;
         break;
     case TCPINSEGS:
         p.objid = ID_tcpInSegs;
         break;
     case TCPOUTSEGS:
         p.objid = ID_tcpOutSegs;
         break;
     case TCPRETRANSSEGS:
         p.objid = ID_tcpRetransSegs;
         break;
     case TCPINERRS:
         p.objid = ID_tcpInErrs;
         break;
     case TCPOUTRSTS:
         p.objid = ID_tcpOutRsts;
         break;
     default:
         tcpstat = 0;
         close_mib(fd);
         return -1;
     }

     p.buffer = (void *)&tcpstat;
     ulen = sizeof(TCP_STAT_STRUCTURE);
     p.len = &ulen;
     ret = get_mib_info(fd, &p);
     close_mib(fd);

     DEBUGMSGTL(("mibII/tcpScalar", "%s TCP object %d (hpux11)\n",
                (ret < 0 ? "Failed to load" : "Loaded"),  magic));
     return (ret);         /* 0: ok, < 0: error */
 }
 #elif defined(linux)
 int
 tcp_load(netsnmp_cache *cache, void *vmagic)
 {
     long ret_value = -1;

     ret_value = linux_read_tcp_stat(&tcpstat);

     if ( ret_value < 0 ) {
         DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (linux)\n"));
     } else {
         DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (linux)\n"));
     }
     return ret_value;
 }
 #elif defined(solaris2)
 int
 tcp_load(netsnmp_cache *cache, void *vmagic)
 {
     long ret_value = -1;
     int  magic = (int)vmagic;
     mib2_ip_t ipstat;

     /*
      * tcpInErrs is actually implemented as part of the MIB_IP group
      * so we need to retrieve this independently
      */
     if (magic == TCPINERRS) {
         if (getMibstat
             (MIB_IP, &ipstat, sizeof(mib2_ip_t), GET_FIRST,
              &Get_everything, NULL) < 0) {
             DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP object %d (solaris)\n", magic));
             return -1;
         } else {
             DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP object %d (solaris)\n", magic));
             return ipstat.tcpInErrs;
         }
     }

     /*
      * Otherwise, retrieve the whole of the MIB_TCP group (and cache it)
      */
     ret_value = getMibstat(MIB_TCP, &tcpstat, sizeof(mib2_tcp_t),
                            GET_FIRST, &Get_everything, NULL);

     if ( ret_value < 0 ) {
         DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (solaris)\n"));
     } else {
         DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (solaris)\n"));
     }
     return ret_value;
 }
 #elif defined(NETBSD_STATS_VIA_SYSCTL)
 int
 tcp_load(netsnmp_cache *cache, void *vmagic)
 {
     long ret_value = -1;

     ret_value = netbsd_read_tcp_stat(&tcpstat);

     if ( ret_value < 0 ) {
        DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (netbsd)\n"));
     } else {
         DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (netbsd)\n"));
     }
     return ret_value;
 }
 #elif defined (WIN32) || defined (cygwin)
 int
 tcp_load(netsnmp_cache *cache, void *vmagic)
 {
     long ret_value = -1;

     ret_value = GetTcpStatistics(&tcpstat);

     if ( ret_value < 0 ) {
         DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (win32)\n"));
     } else {
         DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (win32)\n"));
     }
     return ret_value;
 }
 #elif defined(_USE_FIRST_PROTOCOL)
 int
 tcp_load(netsnmp_cache *cache, void *vmagic)
 {
     long ret_value = -1;

     strcpy(ps_name.name, "tcp");
     ret_value = perfstat_protocol(&ps_name, &ps_proto, sizeof(ps_proto), 1);

     if ( ret_value < 0 ) {
         DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (AIX)\n"));
     } else {
         ret_value = 0;
         DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (AIX)\n"));
     }
     return ret_value;
 }
 #elif (defined(NETSNMP_CAN_USE_SYSCTL) && defined(TCPCTL_STATS))
 int
 tcp_load(netsnmp_cache *cache, void *vmagic)
 {
     int     sname[4]  = { CTL_NET, PF_INET, IPPROTO_TCP, TCPCTL_STATS };
     size_t  len       = sizeof(tcpstat);
     long    ret_value = -1;

     ret_value = sysctl(sname, 4, &tcpstat, &len, 0, 0);

     if ( ret_value < 0 ) {
         DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (sysctl)\n"));
     } else {
         DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (sysctl)\n"));
     }
     return ret_value;
 }
 #elif defined(HAVE_SYS_TCPIPSTATS_H)
 int
 tcp_load(netsnmp_cache *cache, void *vmagic)
 {
     long ret_value = -1;

     ret_value = sysmp(MP_SAGET, MPSA_TCPIPSTATS, &tcpstat, sizeof(tcpstat));

     if ( ret_value < 0 ) {
         DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (tcpipstats)\n"));
     } else {
         DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (tcpipstats)\n"));
     }
     return ret_value;
 }
 #elif defined(TCPSTAT_SYMBOL)
 int
 tcp_load(netsnmp_cache *cache, void *vmagic)
 {
     long ret_value = -1;

     if (auto_nlist(TCPSTAT_SYMBOL, (char *)&tcpstat, sizeof(tcpstat)))
         ret_value = 0;

     if ( ret_value < 0 ) {
         DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (tcpstat)\n"));
     } else {
         DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (tcpstat)\n"));
     }
     return ret_value;
 }
 #else				/* TCPSTAT_SYMBOL */
 int
 tcp_load(netsnmp_cache *cache, void *vmagic)
 {
     long ret_value = -1;

     DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (null)\n"));
     return ret_value;
 }
 #endif                          /* WIN32 cygwin */


 void
 tcp_free(netsnmp_cache *cache, void *magic)
 {
 #if defined(_USE_FIRST_PROTOCOL)
     memset(&ps_proto, 0, sizeof(ps_proto));
 #else
     memset(&tcpstat, 0, sizeof(tcpstat));
 #endif
 }

	/*
	* TCP MIB group implementation - tcp.c
	*
	*/

	#include <net-snmp/net-snmp-config.h>
	#include "mibII_common.h"

	#if HAVE_STDLIB_H
	#include <stdlib.h>
	#endif
	#if HAVE_UNISTD_H
	#include <unistd.h>
	#endif

	#if HAVE_SYS_PROTOSW_H
	#include <sys/protosw.h>
	#endif
	#if HAVE_ARPA_INET_H
	#include <arpa/inet.h>
	#endif

	#if defined(osf4) \|\| defined(osf5) \|\| defined(aix4) \|\| defined(hpux10)
	/*
	* these are undefed to remove a stupid warning on osf compilers
	* because they get redefined with a slightly different notation of the
	* same value. -- Wes
	*/
	#undef TCP_NODELAY
	#undef TCP_MAXSEG
	#endif
	#if HAVE_NETINET_TCP_H
	#include <netinet/tcp.h>
	#endif
	#if HAVE_NETINET_TCPIP_H
	#include <netinet/tcpip.h>
	#endif
	#if HAVE_NETINET_TCP_TIMER_H
	#include <netinet/tcp_timer.h>
	#endif
	#if HAVE_NETINET_TCP_VAR_H
	#include <netinet/tcp_var.h>
	#endif
	#if HAVE_NETINET_TCP_FSM_H
	#include <netinet/tcp_fsm.h>
	#endif

	#include <net-snmp/net-snmp-includes.h>
	#include <net-snmp/agent/net-snmp-agent-includes.h>
	#include <net-snmp/agent/auto_nlist.h>
	#include <net-snmp/agent/sysORTable.h>

	#include "util_funcs/MIB_STATS_CACHE_TIMEOUT.h"
	#include "tcp.h"
	#include "tcpTable.h"

	#ifndef MIB_STATS_CACHE_TIMEOUT
	#define MIB_STATS_CACHE_TIMEOUT 5
	#endif
	#ifndef TCP_STATS_CACHE_TIMEOUT
	#define TCP_STATS_CACHE_TIMEOUT MIB_STATS_CACHE_TIMEOUT
	#endif

	#if defined(HAVE_LIBPERFSTAT_H) && (defined(aix4) \|\| defined(aix5) \|\| defined(aix6) \|\| defined(aix7)) && !defined(FIRST_PROTOCOL)
	#ifdef HAVE_SYS_PROTOSW_H
	#include <sys/protosw.h>
	#endif
	#include <libperfstat.h>
	#ifdef FIRST_PROTOCOL
	perfstat_protocol_t ps_proto;
	perfstat_id_t ps_name;
	#define _USE_FIRST_PROTOCOL 1
	#endif
	#endif

	/*********************
	*
	* Kernel & interface information,
	* and internal forward declarations
	*
	*********************/

	/*
	* FreeBSD4 does need an explicit variable 'hz'
	* since this appears in a system header file.
	* But only define it under FreeBSD, since it
	* breaks other systems (notable AIX)
	*/
	#ifdef freebsd4
	int hz = 1000;
	#endif

	extern int TCP_Count_Connections( void );
	/*********************
	*
	* Initialisation & common implementation functions
	*
	*********************/


	/*
	* Define the OID pointer to the top of the mib tree that we're
	* registering underneath, and the OID for the MIB module
	*/
	oid tcp_oid[] = { SNMP_OID_MIB2, 6 };
	oid tcp_module_oid[] = { SNMP_OID_MIB2, 49 };

	void
	init_tcp(void)
	{
	netsnmp_handler_registration *reginfo;
	int rc;

	/*
	* register ourselves with the agent as a group of scalars...
	*/
	DEBUGMSGTL(("mibII/tcpScalar", "Initialising TCP scalar group\n"));
	reginfo = netsnmp_create_handler_registration("tcp", tcp_handler,
	tcp_oid, OID_LENGTH(tcp_oid), HANDLER_CAN_RONLY);
	rc = netsnmp_register_scalar_group(reginfo, TCPRTOALGORITHM, TCPOUTRSTS);
	if (rc != SNMPERR_SUCCESS)
	return;

	/*
	* .... with a local cache
	* (except for HP-UX 11, which extracts objects individually)
	*/
	#ifndef hpux11
	netsnmp_inject_handler( reginfo,
	netsnmp_get_cache_handler(TCP_STATS_CACHE_TIMEOUT,
	tcp_load, tcp_free,
	tcp_oid, OID_LENGTH(tcp_oid)));
	#endif

	REGISTER_SYSOR_ENTRY(tcp_module_oid,
	"The MIB module for managing TCP implementations");

	#if !defined(_USE_FIRST_PROTOCOL)
	#ifdef TCPSTAT_SYMBOL
	auto_nlist(TCPSTAT_SYMBOL, 0, 0);
	#endif
	#ifdef TCP_SYMBOL
	auto_nlist(TCP_SYMBOL, 0, 0);
	#endif
	#ifdef freebsd4
	hz = sysconf(_SC_CLK_TCK); /* get ticks/s from system */
	#endif
	#ifdef solaris2
	init_kernel_sunos5();
	#endif
	#endif
	}

	/*********************
	*
	* System specific implementation functions
	*
	*********************/

	#ifdef hpux11
	#define TCP_STAT_STRUCTURE int
	#endif

	#ifdef linux
	#define TCP_STAT_STRUCTURE struct tcp_mib
	#define USES_SNMP_DESIGNED_TCPSTAT
	#undef TCPSTAT_SYMBOL
	#endif

	#ifdef solaris2
	#define TCP_STAT_STRUCTURE mib2_tcp_t
	#define USES_SNMP_DESIGNED_TCPSTAT
	#endif

	#ifdef NETBSD_STATS_VIA_SYSCTL
	#define TCP_STAT_STRUCTURE struct tcp_mib
	#define USES_SNMP_DESIGNED_TCPSTAT
	#undef TCP_NSTATS
	#endif

	#ifdef HAVE_IPHLPAPI_H
	#include <iphlpapi.h>
	#define TCP_STAT_STRUCTURE MIB_TCPSTATS
	#endif

	#ifdef HAVE_SYS_TCPIPSTATS_H
	#define TCP_STAT_STRUCTURE struct kna
	#define USES_TRADITIONAL_TCPSTAT
	#endif

	#ifdef dragonfly
	#define TCP_STAT_STRUCTURE struct tcp_stats
	#define USES_TRADITIONAL_TCPSTAT
	#endif

	#if !defined(TCP_STAT_STRUCTURE)
	#define TCP_STAT_STRUCTURE struct tcpstat
	#define USES_TRADITIONAL_TCPSTAT
	#endif

	TCP_STAT_STRUCTURE tcpstat;



	/*********************
	*
	* System independent handler (mostly)
	*
	*********************/



	int
	tcp_handler(netsnmp_mib_handler *handler,
	netsnmp_handler_registration *reginfo,
	netsnmp_agent_request_info *reqinfo,
	netsnmp_request_info *requests)
	{
	netsnmp_request_info *request;
	netsnmp_variable_list *requestvb;
	long ret_value = -1;
	oid subid;
	int type = ASN_COUNTER;

	/*
	* The cached data should already have been loaded by the
	* cache handler, higher up the handler chain.
	* But just to be safe, check this and load it manually if necessary
	*/
	#if defined(_USE_FIRST_PROTOCOL)
	tcp_load(NULL, NULL);
	#endif


	/*
	*
	*
	*/
	DEBUGMSGTL(("mibII/tcpScalar", "Handler - mode %s\n",
	se_find_label_in_slist("agent_mode", reqinfo->mode)));
	switch (reqinfo->mode) {
	case MODE_GET:
	for (request=requests; request; request=request->next) {
	requestvb = request->requestvb;
	subid = requestvb->name[OID_LENGTH(tcp_oid)]; /* XXX */

	DEBUGMSGTL(( "mibII/tcpScalar", "oid: "));
	DEBUGMSGOID(("mibII/tcpScalar", requestvb->name,
	requestvb->name_length));
	DEBUGMSG(( "mibII/tcpScalar", "\n"));
	switch (subid) {
	#ifdef USES_SNMP_DESIGNED_TCPSTAT
	case TCPRTOALGORITHM:
	ret_value = tcpstat.tcpRtoAlgorithm;
	type = ASN_INTEGER;
	break;
	case TCPRTOMIN:
	ret_value = tcpstat.tcpRtoMin;
	type = ASN_INTEGER;
	break;
	case TCPRTOMAX:
	ret_value = tcpstat.tcpRtoMax;
	type = ASN_INTEGER;
	break;
	case TCPMAXCONN:
	ret_value = tcpstat.tcpMaxConn;
	type = ASN_INTEGER;
	break;
	case TCPACTIVEOPENS:
	ret_value = tcpstat.tcpActiveOpens;
	break;
	case TCPPASSIVEOPENS:
	ret_value = tcpstat.tcpPassiveOpens;
	break;
	case TCPATTEMPTFAILS:
	ret_value = tcpstat.tcpAttemptFails;
	break;
	case TCPESTABRESETS:
	ret_value = tcpstat.tcpEstabResets;
	break;
	case TCPCURRESTAB:
	ret_value = tcpstat.tcpCurrEstab;
	type = ASN_GAUGE;
	break;
	case TCPINSEGS:
	ret_value = tcpstat.tcpInSegs & 0xffffffff;
	break;
	case TCPOUTSEGS:
	ret_value = tcpstat.tcpOutSegs & 0xffffffff;
	break;
	case TCPRETRANSSEGS:
	ret_value = tcpstat.tcpRetransSegs;
	break;
	case TCPINERRS:
	#ifdef solaris2
	ret_value = tcp_load(NULL, (void *)TCPINERRS);
	if (ret_value == -1) {
	netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
	continue;
	}
	break;
	#elif defined(linux)
	if (tcpstat.tcpInErrsValid) {
	ret_value = tcpstat.tcpInErrs;
	break;
	} else {
	netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
	continue;
	}
	#else /* linux */
	netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
	continue;
	#endif /* solaris2 */
	case TCPOUTRSTS:
	#ifdef linux
	if (tcpstat.tcpOutRstsValid) {
	ret_value = tcpstat.tcpOutRsts;
	break;
	}
	#endif /* linux */
	netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
	continue;
	#elif defined(USES_TRADITIONAL_TCPSTAT) && !defined(_USE_FIRST_PROTOCOL)
	#ifdef HAVE_SYS_TCPIPSTATS_H
	/*
	* This actually reads statistics for all the groups together,
	* so we need to isolate the TCP-specific bits.
	*/
	#define tcpstat tcpstat.tcpstat
	#endif
	case TCPRTOALGORITHM: /* Assume Van Jacobsen's algorithm */
	ret_value = 4;
	type = ASN_INTEGER;
	break;
	case TCPRTOMIN:
	#ifdef TCPTV_NEEDS_HZ
	ret_value = TCPTV_MIN;
	#else
	ret_value = TCPTV_MIN / PR_SLOWHZ * 1000;
	#endif
	type = ASN_INTEGER;
	break;
	case TCPRTOMAX:
	#ifdef TCPTV_NEEDS_HZ
	ret_value = TCPTV_REXMTMAX;
	#else
	ret_value = TCPTV_REXMTMAX / PR_SLOWHZ * 1000;
	#endif
	type = ASN_INTEGER;
	break;
	case TCPMAXCONN:
	ret_value = -1; /* Dynamic maximum */
	type = ASN_INTEGER;
	break;
	case TCPACTIVEOPENS:
	ret_value = tcpstat.tcps_connattempt;
	break;
	case TCPPASSIVEOPENS:
	ret_value = tcpstat.tcps_accepts;
	break;
	/*
	* NB: tcps_drops is actually the sum of the two MIB
	* counters tcpAttemptFails and tcpEstabResets.
	*/
	case TCPATTEMPTFAILS:
	ret_value = tcpstat.tcps_conndrops;
	break;
	case TCPESTABRESETS:
	ret_value = tcpstat.tcps_drops;
	break;
	case TCPCURRESTAB:
	#ifdef USING_MIBII_TCPTABLE_MODULE
	ret_value = TCP_Count_Connections();
	#else
	ret_value = 0;
	#endif
	type = ASN_GAUGE;
	break;
	case TCPINSEGS:
	ret_value = tcpstat.tcps_rcvtotal & 0xffffffff;
	break;
	case TCPOUTSEGS:
	/*
	* RFC 1213 defines this as the number of segments sent
	* "excluding those containing only retransmitted octets"
	*/
	ret_value = (tcpstat.tcps_sndtotal - tcpstat.tcps_sndrexmitpack) & 0xffffffff;
	break;
	case TCPRETRANSSEGS:
	ret_value = tcpstat.tcps_sndrexmitpack;
	break;
	case TCPINERRS:
	ret_value = tcpstat.tcps_rcvbadsum + tcpstat.tcps_rcvbadoff
	#ifdef HAVE_STRUCT_TCPSTAT_TCPS_RCVMEMDROP
	+ tcpstat.tcps_rcvmemdrop
	#endif
	+ tcpstat.tcps_rcvshort;
	break;
	case TCPOUTRSTS:
	ret_value = tcpstat.tcps_sndctrl - tcpstat.tcps_closed;
	break;
	#ifdef HAVE_SYS_TCPIPSTATS_H
	#undef tcpstat
	#endif
	#elif defined(hpux11)
	case TCPRTOALGORITHM:
	case TCPRTOMIN:
	case TCPRTOMAX:
	case TCPMAXCONN:
	case TCPCURRESTAB:
	if (subid == TCPCURRESTAB)
	type = ASN_GAUGE;
	else
	type = ASN_INTEGER;
	case TCPACTIVEOPENS:
	case TCPPASSIVEOPENS:
	case TCPATTEMPTFAILS:
	case TCPESTABRESETS:
	case TCPINSEGS:
	case TCPOUTSEGS:
	case TCPRETRANSSEGS:
	case TCPINERRS:
	case TCPOUTRSTS:
	/*
	* This is a bit of a hack, to shoehorn the HP-UX 11
	* single-object retrieval approach into the caching
	* architecture.
	*/
	if (tcp_load(NULL, (void*)subid) == -1 ) {
	netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
	continue;
	}
	ret_value = tcpstat;
	break;
	#elif defined (WIN32) \|\| defined (cygwin)
	case TCPRTOALGORITHM:
	ret_value = tcpstat.dwRtoAlgorithm;
	type = ASN_INTEGER;
	break;
	case TCPRTOMIN:
	ret_value = tcpstat.dwRtoMin;
	type = ASN_INTEGER;
	break;
	case TCPRTOMAX:
	ret_value = tcpstat.dwRtoMax;
	type = ASN_INTEGER;
	break;
	case TCPMAXCONN:
	ret_value = tcpstat.dwMaxConn;
	type = ASN_INTEGER;
	break;
	case TCPACTIVEOPENS:
	ret_value = tcpstat.dwActiveOpens;
	break;
	case TCPPASSIVEOPENS:
	ret_value = tcpstat.dwPassiveOpens;
	break;
	case TCPATTEMPTFAILS:
	ret_value = tcpstat.dwAttemptFails;
	break;
	case TCPESTABRESETS:
	ret_value = tcpstat.dwEstabResets;
	break;
	case TCPCURRESTAB:
	ret_value = tcpstat.dwCurrEstab;
	type = ASN_GAUGE;
	break;
	case TCPINSEGS:
	ret_value = tcpstat.dwInSegs;
	break;
	case TCPOUTSEGS:
	ret_value = tcpstat.dwOutSegs;
	break;
	case TCPRETRANSSEGS:
	ret_value = tcpstat.dwRetransSegs;
	break;
	case TCPINERRS:
	ret_value = tcpstat.dwInErrs;
	break;
	case TCPOUTRSTS:
	ret_value = tcpstat.dwOutRsts;
	break;
	#elif defined(_USE_FIRST_PROTOCOL)
	case TCPRTOALGORITHM:
	ret_value = 4;
	type = ASN_INTEGER;
	break;
	case TCPRTOMIN:
	ret_value = 0;
	type = ASN_INTEGER;
	break;
	case TCPRTOMAX:
	ret_value = 0;
	type = ASN_INTEGER;
	break;
	case TCPMAXCONN:
	ret_value = -1;
	type = ASN_INTEGER;
	break;
	case TCPACTIVEOPENS:
	ret_value = ps_proto.u.tcp.initiated;
	break;
	case TCPPASSIVEOPENS:
	ret_value = ps_proto.u.tcp.accepted;
	break;
	case TCPATTEMPTFAILS:
	ret_value = ps_proto.u.tcp.dropped;
	break;
	case TCPESTABRESETS:
	ret_value = ps_proto.u.tcp.dropped;
	break;
	case TCPCURRESTAB:
	/* this value is currently missing */
	ret_value = 0; /ps_proto.u.tcp.established;/
	type = ASN_GAUGE;
	break;
	case TCPINSEGS:
	ret_value = ps_proto.u.tcp.ipackets;
	break;
	case TCPOUTSEGS:
	ret_value = ps_proto.u.tcp.opackets;
	break;
	case TCPRETRANSSEGS:
	ret_value = 0;
	break;
	case TCPINERRS:
	ret_value = ps_proto.u.tcp.ierrors;
	break;
	case TCPOUTRSTS:
	ret_value = 0;
	break;
	#endif /* USES_SNMP_DESIGNED_TCPSTAT */

	case TCPCONNTABLE:
	/*
	* This is not actually a valid scalar object.
	* The table registration should take precedence,
	* so skip this subtree, regardless of architecture.
	*/
	netsnmp_set_request_error(reqinfo, request, SNMP_NOSUCHOBJECT);
	continue;

	}
	snmp_set_var_typed_value(request->requestvb, (u_char)type,
	(u_char *)&ret_value, sizeof(ret_value));
	}
	break;

	case MODE_GETNEXT:
	case MODE_GETBULK:
	case MODE_SET_RESERVE1:
	case MODE_SET_RESERVE2:
	case MODE_SET_ACTION:
	case MODE_SET_COMMIT:
	case MODE_SET_FREE:
	case MODE_SET_UNDO:
	snmp_log(LOG_WARNING, "mibII/tcp: Unsupported mode (%d)\n",
	reqinfo->mode);
	break;
	default:
	snmp_log(LOG_WARNING, "mibII/tcp: Unrecognised mode (%d)\n",
	reqinfo->mode);
	break;
	}

	return SNMP_ERR_NOERROR;
	}



	/*********************
	*
	* Internal implementation functions
	*
	*********************/

	#ifdef hpux11
	int
	tcp_load(netsnmp_cache cache, void vmagic)
	{
	int fd;
	struct nmparms p;
	unsigned int ulen;
	int ret;
	int magic = (int) vmagic;

	if ((fd = open_mib("/dev/ip", O_RDONLY, 0, NM_ASYNC_OFF)) < 0) {
	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP object %d (hpux11)\n", magic));
	return (-1); /* error */
	}

	switch (magic) {
	case TCPRTOALGORITHM:
	p.objid = ID_tcpRtoAlgorithm;
	break;
	case TCPRTOMIN:
	p.objid = ID_tcpRtoMin;
	break;
	case TCPRTOMAX:
	p.objid = ID_tcpRtoMax;
	break;
	case TCPMAXCONN:
	p.objid = ID_tcpMaxConn;
	break;
	case TCPACTIVEOPENS:
	p.objid = ID_tcpActiveOpens;
	break;
	case TCPPASSIVEOPENS:
	p.objid = ID_tcpPassiveOpens;
	break;
	case TCPATTEMPTFAILS:
	p.objid = ID_tcpAttemptFails;
	break;
	case TCPESTABRESETS:
	p.objid = ID_tcpEstabResets;
	break;
	case TCPCURRESTAB:
	p.objid = ID_tcpCurrEstab;
	break;
	case TCPINSEGS:
	p.objid = ID_tcpInSegs;
	break;
	case TCPOUTSEGS:
	p.objid = ID_tcpOutSegs;
	break;
	case TCPRETRANSSEGS:
	p.objid = ID_tcpRetransSegs;
	break;
	case TCPINERRS:
	p.objid = ID_tcpInErrs;
	break;
	case TCPOUTRSTS:
	p.objid = ID_tcpOutRsts;
	break;
	default:
	tcpstat = 0;
	close_mib(fd);
	return -1;
	}

	p.buffer = (void *)&tcpstat;
	ulen = sizeof(TCP_STAT_STRUCTURE);
	p.len = &ulen;
	ret = get_mib_info(fd, &p);
	close_mib(fd);

	DEBUGMSGTL(("mibII/tcpScalar", "%s TCP object %d (hpux11)\n",
	(ret < 0 ? "Failed to load" : "Loaded"), magic));
	return (ret); /* 0: ok, < 0: error */
	}
	#elif defined(linux)
	int
	tcp_load(netsnmp_cache cache, void vmagic)
	{
	long ret_value = -1;

	ret_value = linux_read_tcp_stat(&tcpstat);

	if ( ret_value < 0 ) {
	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (linux)\n"));
	} else {
	DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (linux)\n"));
	}
	return ret_value;
	}
	#elif defined(solaris2)
	int
	tcp_load(netsnmp_cache cache, void vmagic)
	{
	long ret_value = -1;
	int magic = (int)vmagic;
	mib2_ip_t ipstat;

	/*
	* tcpInErrs is actually implemented as part of the MIB_IP group
	* so we need to retrieve this independently
	*/
	if (magic == TCPINERRS) {
	if (getMibstat
	(MIB_IP, &ipstat, sizeof(mib2_ip_t), GET_FIRST,
	&Get_everything, NULL) < 0) {
	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP object %d (solaris)\n", magic));
	return -1;
	} else {
	DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP object %d (solaris)\n", magic));
	return ipstat.tcpInErrs;
	}
	}

	/*
	* Otherwise, retrieve the whole of the MIB_TCP group (and cache it)
	*/
	ret_value = getMibstat(MIB_TCP, &tcpstat, sizeof(mib2_tcp_t),
	GET_FIRST, &Get_everything, NULL);

	if ( ret_value < 0 ) {
	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (solaris)\n"));
	} else {
	DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (solaris)\n"));
	}
	return ret_value;
	}
	#elif defined(NETBSD_STATS_VIA_SYSCTL)
	int
	tcp_load(netsnmp_cache cache, void vmagic)
	{
	long ret_value = -1;

	ret_value = netbsd_read_tcp_stat(&tcpstat);

	if ( ret_value < 0 ) {
	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (netbsd)\n"));
	} else {
	DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (netbsd)\n"));
	}
	return ret_value;
	}
	#elif defined (WIN32) \|\| defined (cygwin)
	int
	tcp_load(netsnmp_cache cache, void vmagic)
	{
	long ret_value = -1;

	ret_value = GetTcpStatistics(&tcpstat);

	if ( ret_value < 0 ) {
	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (win32)\n"));
	} else {
	DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (win32)\n"));
	}
	return ret_value;
	}
	#elif defined(_USE_FIRST_PROTOCOL)
	int
	tcp_load(netsnmp_cache cache, void vmagic)
	{
	long ret_value = -1;

	strcpy(ps_name.name, "tcp");
	ret_value = perfstat_protocol(&ps_name, &ps_proto, sizeof(ps_proto), 1);

	if ( ret_value < 0 ) {
	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (AIX)\n"));
	} else {
	ret_value = 0;
	DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (AIX)\n"));
	}
	return ret_value;
	}
	#elif (defined(NETSNMP_CAN_USE_SYSCTL) && defined(TCPCTL_STATS))
	int
	tcp_load(netsnmp_cache cache, void vmagic)
	{
	int sname[4] = { CTL_NET, PF_INET, IPPROTO_TCP, TCPCTL_STATS };
	size_t len = sizeof(tcpstat);
	long ret_value = -1;

	ret_value = sysctl(sname, 4, &tcpstat, &len, 0, 0);

	if ( ret_value < 0 ) {
	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (sysctl)\n"));
	} else {
	DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (sysctl)\n"));
	}
	return ret_value;
	}
	#elif defined(HAVE_SYS_TCPIPSTATS_H)
	int
	tcp_load(netsnmp_cache cache, void vmagic)
	{
	long ret_value = -1;

	ret_value = sysmp(MP_SAGET, MPSA_TCPIPSTATS, &tcpstat, sizeof(tcpstat));

	if ( ret_value < 0 ) {
	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (tcpipstats)\n"));
	} else {
	DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (tcpipstats)\n"));
	}
	return ret_value;
	}
	#elif defined(TCPSTAT_SYMBOL)
	int
	tcp_load(netsnmp_cache cache, void vmagic)
	{
	long ret_value = -1;

	if (auto_nlist(TCPSTAT_SYMBOL, (char *)&tcpstat, sizeof(tcpstat)))
	ret_value = 0;

	if ( ret_value < 0 ) {
	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (tcpstat)\n"));
	} else {
	DEBUGMSGTL(("mibII/tcpScalar", "Loaded TCP scalar Group (tcpstat)\n"));
	}
	return ret_value;
	}
	#else /* TCPSTAT_SYMBOL */
	int
	tcp_load(netsnmp_cache cache, void vmagic)
	{
	long ret_value = -1;

	DEBUGMSGTL(("mibII/tcpScalar", "Failed to load TCP scalar Group (null)\n"));
	return ret_value;
	}
	#endif /* WIN32 cygwin */


	void
	tcp_free(netsnmp_cache cache, void magic)
	{
	#if defined(_USE_FIRST_PROTOCOL)
	memset(&ps_proto, 0, sizeof(ps_proto));
	#else
	memset(&tcpstat, 0, sizeof(tcpstat));
	#endif
	}