2 * smbstat 2003 Ronnie Sahlberg
6 * Ethereal - Network traffic analyzer
7 * By Gerald Combs <gerald@ethereal.com>
8 * Copyright 1998 Gerald Combs
10 * This program is free software; you can redistribute it and/or
11 * modify it under the terms of the GNU General Public License
12 * as published by the Free Software Foundation; either version 2
13 * of the License, or (at your option) any later version.
15 * This program is distributed in the hope that it will be useful,
16 * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 * GNU General Public License for more details.
20 * You should have received a copy of the GNU General Public License
21 * along with this program; if not, write to the Free Software
22 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
31 #ifdef HAVE_SYS_TYPES_H
32 # include <sys/types.h>
36 #include "epan/packet_info.h"
38 #include "epan/value_string.h"
41 #include "timestats.h"
43 /* used to keep track of the statistics for an entire program interface */
44 typedef struct _smbstat_t {
47 timestat_t trans2[256];
48 timestat_t nt_trans[256];
54 smbstat_packet(void *pss, packet_info *pinfo, epan_dissect_t *edt _U_, const void *psi)
56 smbstat_t *ss=(smbstat_t *)pss;
57 const smb_info_t *si=psi;
61 /* we are only interested in reply packets */
65 /* if we havnt seen the request, just ignore it */
71 smb_nt_transact_info_t *sti=(smb_nt_transact_info_t *)si->sip->extra_info;
75 sp=&(ss->nt_trans[sti->subcmd]);
77 } else if(si->cmd==0x32){
78 smb_transact2_info_t *st2i=(smb_transact2_info_t *)si->sip->extra_info;
82 sp=&(ss->trans2[st2i->subcmd]);
85 sp=&(ss->proc[si->cmd]);
88 /* calculate time delta between request and reply */
89 delta.secs=pinfo->fd->abs_secs-si->sip->req_time.secs;
90 delta.nsecs=pinfo->fd->abs_usecs*1000-si->sip->req_time.nsecs;
92 delta.nsecs+=1000000000;
97 time_stat_update(sp,&delta, pinfo);
104 smbstat_draw(void *pss)
106 smbstat_t *ss=(smbstat_t *)pss;
114 printf("===================================================================\n");
115 printf("SMB RTT Statistics:\n");
116 printf("Filter: %s\n",ss->filter?ss->filter:"");
117 printf("Commands Calls Min RTT Max RTT Avg RTT\n");
119 /* nothing seen, nothing to do */
120 if(ss->proc[i].num==0){
124 /* we deal with transaction2 later */
129 /* we deal with nt transaction later */
134 /* scale it to units of 10us.*/
135 /* for long captures with a large tot time, this can overflow on 32bit */
136 td=(int)ss->proc[i].tot.secs;
137 td=td*100000+(int)ss->proc[i].tot.nsecs/10000;
144 printf("%-25s %6d %3d.%05d %3d.%05d %3d.%05d\n",
145 val_to_str(i, smb_cmd_vals, "Unknown (0x%02x)"),
147 (int)ss->proc[i].min.secs,ss->proc[i].min.nsecs/10000,
148 (int)ss->proc[i].max.secs,ss->proc[i].max.nsecs/10000,
154 printf("Transaction2 Commands Calls Min RTT Max RTT Avg RTT\n");
156 /* nothing seen, nothing to do */
157 if(ss->trans2[i].num==0){
161 /* scale it to units of 10us.*/
162 /* for long captures with a large tot time, this can overflow on 32bit */
163 td=(int)ss->trans2[i].tot.secs;
164 td=td*100000+(int)ss->trans2[i].tot.nsecs/10000;
165 if(ss->trans2[i].num){
166 td/=ss->trans2[i].num;
171 printf("%-25s %6d %3d.%05d %3d.%05d %3d.%05d\n",
172 val_to_str(i, trans2_cmd_vals, "Unknown (0x%02x)"),
174 (int)ss->trans2[i].min.secs,ss->trans2[i].min.nsecs/10000,
175 (int)ss->trans2[i].max.secs,ss->trans2[i].max.nsecs/10000,
181 printf("NT Transaction Commands Calls Min RTT Max RTT Avg RTT\n");
183 /* nothing seen, nothing to do */
184 if(ss->nt_trans[i].num==0){
188 /* scale it to units of 10us.*/
189 /* for long captures with a large tot time, this can overflow on 32bit */
190 td=(int)ss->nt_trans[i].tot.secs;
191 td=td*100000+(int)ss->nt_trans[i].tot.nsecs/10000;
192 if(ss->nt_trans[i].num){
193 td/=ss->nt_trans[i].num;
198 printf("%-25s %6d %3d.%05d %3d.%05d %3d.%05d\n",
199 val_to_str(i, nt_cmd_vals, "Unknown (0x%02x)"),
201 (int)ss->nt_trans[i].min.secs,ss->nt_trans[i].min.nsecs/10000,
202 (int)ss->nt_trans[i].max.secs,ss->nt_trans[i].max.nsecs/10000,
207 printf("===================================================================\n");
212 smbstat_init(char *optarg)
217 GString *error_string;
219 if(!strncmp(optarg,"smb,rtt,",8)){
225 ss=g_malloc(sizeof(smbstat_t));
227 ss->filter=g_malloc(strlen(filter)+1);
228 strcpy(ss->filter, filter);
235 ss->proc[i].min_num=0;
236 ss->proc[i].max_num=0;
237 ss->proc[i].min.secs=0;
238 ss->proc[i].min.nsecs=0;
239 ss->proc[i].max.secs=0;
240 ss->proc[i].max.nsecs=0;
241 ss->proc[i].tot.secs=0;
242 ss->proc[i].tot.nsecs=0;
245 ss->trans2[i].min_num=0;
246 ss->trans2[i].max_num=0;
247 ss->trans2[i].min.secs=0;
248 ss->trans2[i].min.nsecs=0;
249 ss->trans2[i].max.secs=0;
250 ss->trans2[i].max.nsecs=0;
251 ss->trans2[i].tot.secs=0;
252 ss->trans2[i].tot.nsecs=0;
254 ss->nt_trans[i].num=0;
255 ss->nt_trans[i].min_num=0;
256 ss->nt_trans[i].max_num=0;
257 ss->nt_trans[i].min.secs=0;
258 ss->nt_trans[i].min.nsecs=0;
259 ss->nt_trans[i].max.secs=0;
260 ss->nt_trans[i].max.nsecs=0;
261 ss->nt_trans[i].tot.secs=0;
262 ss->nt_trans[i].tot.nsecs=0;
265 error_string=register_tap_listener("smb", ss, filter, NULL, smbstat_packet, smbstat_draw);
267 /* error, we failed to attach to the tap. clean up */
271 fprintf(stderr, "tethereal: Couldn't register smb,rtt tap: %s\n",
273 g_string_free(error_string, TRUE);
280 register_tap_listener_smbstat(void)
282 register_ethereal_tap("smb,rtt", smbstat_init);