HACK: 1. try to match RowsetProperties
[wireshark-wip.git] / file.c
bloba935438755c4b9090adcdcbf287a61bea2967d73
1 /* file.c
2 * File I/O routines
4 * $Id$
6 * Wireshark - Network traffic analyzer
7 * By Gerald Combs <gerald@wireshark.org>
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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
25 #include "config.h"
27 #ifdef HAVE_UNISTD_H
28 #include <unistd.h>
29 #endif
31 #include <time.h>
33 #include <stdlib.h>
34 #include <stdio.h>
35 #include <string.h>
36 #include <ctype.h>
37 #include <errno.h>
38 #include <signal.h>
40 #ifdef HAVE_FCNTL_H
41 #include <fcntl.h>
42 #endif
44 #include <wsutil/tempfile.h>
45 #include <wsutil/file_util.h>
47 #include <wiretap/merge.h>
49 #include <epan/exceptions.h>
50 #include <epan/epan-int.h>
51 #include <epan/epan.h>
52 #include <epan/column.h>
53 #include <epan/packet.h>
54 #include <epan/column-utils.h>
55 #include <epan/expert.h>
56 #include <epan/filesystem.h>
57 #include <epan/prefs.h>
58 #include <epan/dfilter/dfilter.h>
59 #include <epan/epan_dissect.h>
60 #include <epan/tap.h>
61 #include <epan/dissectors/packet-data.h>
62 #include <epan/dissectors/packet-ber.h>
63 #include <epan/timestamp.h>
64 #include <epan/dfilter/dfilter-macro.h>
65 #include <epan/strutil.h>
66 #include <epan/addr_resolv.h>
68 #include "color.h"
69 #include "color_filters.h"
70 #include "cfile.h"
71 #include "file.h"
72 #include "fileset.h"
73 #include "frame_tvbuff.h"
75 #include "ui/alert_box.h"
76 #include "ui/simple_dialog.h"
77 #include "ui/main_statusbar.h"
78 #include "ui/progress_dlg.h"
79 #include "ui/ui_util.h"
81 #include "version_info.h"
83 /* Needed for addrinfo */
84 #ifdef HAVE_SYS_TYPES_H
85 # include <sys/types.h>
86 #endif
88 #ifdef HAVE_SYS_SOCKET_H
89 #include <sys/socket.h>
90 #endif
92 #ifdef HAVE_NETINET_IN_H
93 # include <netinet/in.h>
94 #endif
96 #ifdef HAVE_NETDB_H
97 # include <netdb.h>
98 #endif
100 #ifdef HAVE_WINSOCK2_H
101 # include <winsock2.h>
102 #endif
104 #if defined(_WIN32) && defined(INET6)
105 # include <ws2tcpip.h>
106 #endif
108 #ifdef HAVE_LIBPCAP
109 gboolean auto_scroll_live;
110 #endif
112 static void cf_reset_state(capture_file *cf);
114 static int read_packet(capture_file *cf, dfilter_t *dfcode, epan_dissect_t *edt,
115 column_info *cinfo, gint64 offset);
117 static void rescan_packets(capture_file *cf, const char *action, const char *action_item, gboolean redissect);
119 typedef enum {
120 MR_NOTMATCHED,
121 MR_MATCHED,
122 MR_ERROR
123 } match_result;
124 static match_result match_protocol_tree(capture_file *cf, frame_data *fdata,
125 void *criterion);
126 static void match_subtree_text(proto_node *node, gpointer data);
127 static match_result match_summary_line(capture_file *cf, frame_data *fdata,
128 void *criterion);
129 static match_result match_narrow_and_wide(capture_file *cf, frame_data *fdata,
130 void *criterion);
131 static match_result match_narrow(capture_file *cf, frame_data *fdata,
132 void *criterion);
133 static match_result match_wide(capture_file *cf, frame_data *fdata,
134 void *criterion);
135 static match_result match_binary(capture_file *cf, frame_data *fdata,
136 void *criterion);
137 static match_result match_dfilter(capture_file *cf, frame_data *fdata,
138 void *criterion);
139 static match_result match_marked(capture_file *cf, frame_data *fdata,
140 void *criterion);
141 static match_result match_time_reference(capture_file *cf, frame_data *fdata,
142 void *criterion);
143 static gboolean find_packet(capture_file *cf,
144 match_result (*match_function)(capture_file *, frame_data *, void *),
145 void *criterion, search_direction dir);
147 static const char *cf_get_user_packet_comment(capture_file *cf, const frame_data *fd);
149 static void cf_open_failure_alert_box(const char *filename, int err,
150 gchar *err_info, gboolean for_writing,
151 int file_type);
152 static void cf_rename_failure_alert_box(const char *filename, int err);
153 static void cf_close_failure_alert_box(const char *filename, int err);
154 static void ref_time_packets(capture_file *cf);
155 /* Update the progress bar this many times when reading a file. */
156 #define N_PROGBAR_UPDATES 100
157 /* We read around 200k/100ms don't update the progress bar more often than that */
158 #define MIN_QUANTUM 200000
159 #define MIN_NUMBER_OF_PACKET 1500
162 * We could probably use g_signal_...() instead of the callbacks below but that
163 * would require linking our CLI programs to libgobject and creating an object
164 * instance for the signals.
166 typedef struct {
167 cf_callback_t cb_fct;
168 gpointer user_data;
169 } cf_callback_data_t;
171 static GList *cf_callbacks = NULL;
173 static void
174 cf_callback_invoke(int event, gpointer data)
176 cf_callback_data_t *cb;
177 GList *cb_item = cf_callbacks;
179 /* there should be at least one interested */
180 g_assert(cb_item != NULL);
182 while (cb_item != NULL) {
183 cb = (cf_callback_data_t *)cb_item->data;
184 cb->cb_fct(event, data, cb->user_data);
185 cb_item = g_list_next(cb_item);
190 void
191 cf_callback_add(cf_callback_t func, gpointer user_data)
193 cf_callback_data_t *cb;
195 cb = g_new(cf_callback_data_t,1);
196 cb->cb_fct = func;
197 cb->user_data = user_data;
199 cf_callbacks = g_list_prepend(cf_callbacks, cb);
202 void
203 cf_callback_remove(cf_callback_t func)
205 cf_callback_data_t *cb;
206 GList *cb_item = cf_callbacks;
208 while (cb_item != NULL) {
209 cb = (cf_callback_data_t *)cb_item->data;
210 if (cb->cb_fct == func) {
211 cf_callbacks = g_list_remove(cf_callbacks, cb);
212 g_free(cb);
213 return;
215 cb_item = g_list_next(cb_item);
218 g_assert_not_reached();
221 void
222 cf_timestamp_auto_precision(capture_file *cf)
224 int i;
225 int prec = timestamp_get_precision();
228 /* don't try to get the file's precision if none is opened */
229 if (cf->state == FILE_CLOSED) {
230 return;
233 /* if we are in auto mode, set precision of current file */
234 if (prec == TS_PREC_AUTO ||
235 prec == TS_PREC_AUTO_SEC ||
236 prec == TS_PREC_AUTO_DSEC ||
237 prec == TS_PREC_AUTO_CSEC ||
238 prec == TS_PREC_AUTO_MSEC ||
239 prec == TS_PREC_AUTO_USEC ||
240 prec == TS_PREC_AUTO_NSEC)
242 switch(wtap_file_tsprecision(cf->wth)) {
243 case(WTAP_FILE_TSPREC_SEC):
244 timestamp_set_precision(TS_PREC_AUTO_SEC);
245 break;
246 case(WTAP_FILE_TSPREC_DSEC):
247 timestamp_set_precision(TS_PREC_AUTO_DSEC);
248 break;
249 case(WTAP_FILE_TSPREC_CSEC):
250 timestamp_set_precision(TS_PREC_AUTO_CSEC);
251 break;
252 case(WTAP_FILE_TSPREC_MSEC):
253 timestamp_set_precision(TS_PREC_AUTO_MSEC);
254 break;
255 case(WTAP_FILE_TSPREC_USEC):
256 timestamp_set_precision(TS_PREC_AUTO_USEC);
257 break;
258 case(WTAP_FILE_TSPREC_NSEC):
259 timestamp_set_precision(TS_PREC_AUTO_NSEC);
260 break;
261 default:
262 g_assert_not_reached();
265 /* Set the column widths of those columns that show the time in
266 "command-line-specified" format. */
267 for (i = 0; i < cf->cinfo.num_cols; i++) {
268 if (col_has_time_fmt(&cf->cinfo, i)) {
269 packet_list_resize_column(i);
274 gulong
275 cf_get_computed_elapsed(capture_file *cf)
277 return cf->computed_elapsed;
281 * GLIB_CHECK_VERSION(2,28,0) adds g_get_real_time which could minimize or
282 * replace this
284 static void compute_elapsed(capture_file *cf, GTimeVal *start_time)
286 gdouble delta_time;
287 GTimeVal time_now;
289 g_get_current_time(&time_now);
291 delta_time = (time_now.tv_sec - start_time->tv_sec) * 1e6 +
292 time_now.tv_usec - start_time->tv_usec;
294 cf->computed_elapsed = (gulong) (delta_time / 1000); /* ms */
297 static const nstime_t *
298 ws_get_frame_ts(void *data, guint32 frame_num)
300 capture_file *cf = (capture_file *) data;
302 if (cf->prev_dis && cf->prev_dis->num == frame_num)
303 return &cf->prev_dis->abs_ts;
305 if (cf->prev_cap && cf->prev_cap->num == frame_num)
306 return &cf->prev_cap->abs_ts;
308 if (cf->frames) {
309 frame_data *fd = frame_data_sequence_find(cf->frames, frame_num);
311 return (fd) ? &fd->abs_ts : NULL;
314 return NULL;
317 static const char *
318 ws_get_user_comment(void *data, const frame_data *fd)
320 capture_file *cf = (capture_file *) data;
322 return cf_get_user_packet_comment(cf, fd);
325 static epan_t *
326 ws_epan_new(capture_file *cf)
328 epan_t *epan = epan_new();
330 epan->data = cf;
331 epan->get_frame_ts = ws_get_frame_ts;
332 epan->get_interface_name = cap_file_get_interface_name;
333 epan->get_user_comment = ws_get_user_comment;
335 return epan;
338 cf_status_t
339 cf_open(capture_file *cf, const char *fname, gboolean is_tempfile, int *err)
341 wtap *wth;
342 gchar *err_info;
344 wth = wtap_open_offline(fname, err, &err_info, TRUE);
345 if (wth == NULL)
346 goto fail;
348 /* The open succeeded. Close whatever capture file we had open,
349 and fill in the information for this file. */
350 cf_close(cf);
352 /* XXX - we really want to initialize this after we've read all
353 the packets, so we know how much we'll ultimately need. */
354 buffer_init(&cf->buf, 1500);
356 /* Create new epan session for dissection.
357 * (The old one was freed in cf_close().)
359 cf->epan = ws_epan_new(cf);
361 /* We're about to start reading the file. */
362 cf->state = FILE_READ_IN_PROGRESS;
364 cf->wth = wth;
365 cf->f_datalen = 0;
367 /* Set the file name because we need it to set the follow stream filter.
368 XXX - is that still true? We need it for other reasons, though,
369 in any case. */
370 cf->filename = g_strdup(fname);
372 /* Indicate whether it's a permanent or temporary file. */
373 cf->is_tempfile = is_tempfile;
375 /* No user changes yet. */
376 cf->unsaved_changes = FALSE;
378 cf->computed_elapsed = 0;
380 cf->cd_t = wtap_file_type_subtype(cf->wth);
381 cf->linktypes = g_array_sized_new(FALSE, FALSE, (guint) sizeof(int), 1);
382 cf->count = 0;
383 cf->packet_comment_count = 0;
384 cf->displayed_count = 0;
385 cf->marked_count = 0;
386 cf->ignored_count = 0;
387 cf->ref_time_count = 0;
388 cf->drops_known = FALSE;
389 cf->drops = 0;
390 cf->snap = wtap_snapshot_length(cf->wth);
391 if (cf->snap == 0) {
392 /* Snapshot length not known. */
393 cf->has_snap = FALSE;
394 cf->snap = WTAP_MAX_PACKET_SIZE;
395 } else
396 cf->has_snap = TRUE;
398 /* Allocate a frame_data_sequence for the frames in this file */
399 cf->frames = new_frame_data_sequence();
401 nstime_set_zero(&cf->elapsed_time);
402 cf->ref = NULL;
403 cf->prev_dis = NULL;
404 cf->prev_cap = NULL;
405 cf->cum_bytes = 0;
407 /* Adjust timestamp precision if auto is selected, col width will be adjusted */
408 cf_timestamp_auto_precision(cf);
409 /* XXX needed ? */
410 packet_list_queue_draw();
411 cf_callback_invoke(cf_cb_file_opened, cf);
413 if (cf->cd_t == WTAP_FILE_TYPE_SUBTYPE_BER) {
414 /* tell the BER dissector the file name */
415 ber_set_filename(cf->filename);
418 wtap_set_cb_new_ipv4(cf->wth, add_ipv4_name);
419 wtap_set_cb_new_ipv6(cf->wth, (wtap_new_ipv6_callback_t) add_ipv6_name);
421 return CF_OK;
423 fail:
424 cf_open_failure_alert_box(fname, *err, err_info, FALSE, 0);
425 return CF_ERROR;
429 * Add an encapsulation type to cf->linktypes.
431 static void
432 cf_add_encapsulation_type(capture_file *cf, int encap)
434 guint i;
436 for (i = 0; i < cf->linktypes->len; i++) {
437 if (g_array_index(cf->linktypes, gint, i) == encap)
438 return; /* it's already there */
440 /* It's not already there - add it. */
441 g_array_append_val(cf->linktypes, encap);
445 * Reset the state for the currently closed file, but don't do the
446 * UI callbacks; this is for use in "cf_open()", where we don't
447 * want the UI to go from "file open" to "file closed" back to
448 * "file open", we want it to go from "old file open" to "new file
449 * open and being read".
451 * XXX - currently, cf_open() calls cf_close(), rather than
452 * cf_reset_state().
454 static void
455 cf_reset_state(capture_file *cf)
457 /* Die if we're in the middle of reading a file. */
458 g_assert(cf->state != FILE_READ_IN_PROGRESS);
460 if (cf->wth) {
461 wtap_close(cf->wth);
462 cf->wth = NULL;
464 /* We have no file open... */
465 if (cf->filename != NULL) {
466 /* If it's a temporary file, remove it. */
467 if (cf->is_tempfile)
468 ws_unlink(cf->filename);
469 g_free(cf->filename);
470 cf->filename = NULL;
472 /* ...which means we have no changes to that file to save. */
473 cf->unsaved_changes = FALSE;
475 /* Free up the packet buffer. */
476 buffer_free(&cf->buf);
478 dfilter_free(cf->rfcode);
479 cf->rfcode = NULL;
480 if (cf->frames != NULL) {
481 free_frame_data_sequence(cf->frames);
482 cf->frames = NULL;
484 #ifdef WANT_PACKET_EDITOR
485 if (cf->edited_frames) {
486 g_tree_destroy(cf->edited_frames);
487 cf->edited_frames = NULL;
489 #endif
490 if (cf->frames_user_comments) {
491 g_tree_destroy(cf->frames_user_comments);
492 cf->frames_user_comments = NULL;
494 cf_unselect_packet(cf); /* nothing to select */
495 cf->first_displayed = 0;
496 cf->last_displayed = 0;
498 /* No frames, no frame selected, no field in that frame selected. */
499 cf->count = 0;
500 cf->current_frame = 0;
501 cf->current_row = 0;
502 cf->finfo_selected = NULL;
504 /* No frame link-layer types, either. */
505 g_array_free(cf->linktypes, TRUE);
506 cf->linktypes = NULL;
508 /* Clear the packet list. */
509 packet_list_freeze();
510 packet_list_clear();
511 packet_list_thaw();
513 cf->f_datalen = 0;
514 nstime_set_zero(&cf->elapsed_time);
516 reset_tap_listeners();
518 /* We have no file open. */
519 cf->state = FILE_CLOSED;
522 /* Reset everything to a pristine state */
523 void
524 cf_close(capture_file *cf)
526 if (cf->state != FILE_CLOSED) {
527 cf_callback_invoke(cf_cb_file_closing, cf);
529 /* close things, if not already closed before */
530 color_filters_cleanup();
531 cf_reset_state(cf);
532 epan_free(cf->epan);
533 cf->epan = NULL;
535 cf_callback_invoke(cf_cb_file_closed, cf);
539 static float
540 calc_progbar_val(capture_file *cf, gint64 size, gint64 file_pos, gchar *status_str, gulong status_size)
542 float progbar_val;
544 progbar_val = (gfloat) file_pos / (gfloat) size;
545 if (progbar_val > 1.0) {
547 /* The file probably grew while we were reading it.
548 * Update file size, and try again.
550 size = wtap_file_size(cf->wth, NULL);
552 if (size >= 0)
553 progbar_val = (gfloat) file_pos / (gfloat) size;
555 /* If it's still > 1, either "wtap_file_size()" failed (in which
556 * case there's not much we can do about it), or the file
557 * *shrank* (in which case there's not much we can do about
558 * it); just clip the progress value at 1.0.
560 if (progbar_val > 1.0f)
561 progbar_val = 1.0f;
564 g_snprintf(status_str, status_size,
565 "%" G_GINT64_MODIFIER "dKB of %" G_GINT64_MODIFIER "dKB",
566 file_pos / 1024, size / 1024);
568 return progbar_val;
571 cf_read_status_t
572 cf_read(capture_file *cf, gboolean reloading)
574 int err;
575 gchar *err_info;
576 gchar *name_ptr;
577 progdlg_t *progbar = NULL;
578 gboolean stop_flag;
579 GTimeVal start_time;
580 epan_dissect_t edt;
581 dfilter_t *dfcode;
582 volatile gboolean create_proto_tree;
583 guint tap_flags;
584 gboolean compiled;
586 /* Compile the current display filter.
587 * We assume this will not fail since cf->dfilter is only set in
588 * cf_filter IFF the filter was valid.
590 compiled = dfilter_compile(cf->dfilter, &dfcode);
591 g_assert(!cf->dfilter || (compiled && dfcode));
593 /* Get the union of the flags for all tap listeners. */
594 tap_flags = union_of_tap_listener_flags();
595 create_proto_tree =
596 (dfcode != NULL || have_filtering_tap_listeners() || (tap_flags & TL_REQUIRES_PROTO_TREE));
598 reset_tap_listeners();
600 name_ptr = g_filename_display_basename(cf->filename);
602 if (reloading)
603 cf_callback_invoke(cf_cb_file_reload_started, cf);
604 else
605 cf_callback_invoke(cf_cb_file_read_started, cf);
607 /* Record whether the file is compressed.
608 XXX - do we know this at open time? */
609 cf->iscompressed = wtap_iscompressed(cf->wth);
611 /* The packet list window will be empty until the file is completly loaded */
612 packet_list_freeze();
614 stop_flag = FALSE;
615 g_get_current_time(&start_time);
617 epan_dissect_init(&edt, cf->epan, create_proto_tree, FALSE);
619 TRY {
620 #ifdef HAVE_LIBPCAP
621 int displayed_once = 0;
622 #endif
623 int count = 0;
625 gint64 size;
626 gint64 file_pos;
627 gint64 data_offset;
629 gint64 progbar_quantum;
630 gint64 progbar_nextstep;
631 float progbar_val;
632 gchar status_str[100];
634 column_info *cinfo;
636 cinfo = (tap_flags & TL_REQUIRES_COLUMNS) ? &cf->cinfo : NULL;
638 /* Find the size of the file. */
639 size = wtap_file_size(cf->wth, NULL);
641 /* Update the progress bar when it gets to this value. */
642 progbar_nextstep = 0;
643 /* When we reach the value that triggers a progress bar update,
644 bump that value by this amount. */
645 if (size >= 0) {
646 progbar_quantum = size/N_PROGBAR_UPDATES;
647 if (progbar_quantum < MIN_QUANTUM)
648 progbar_quantum = MIN_QUANTUM;
649 }else
650 progbar_quantum = 0;
652 while ((wtap_read(cf->wth, &err, &err_info, &data_offset))) {
653 if (size >= 0) {
654 count++;
655 file_pos = wtap_read_so_far(cf->wth);
657 /* Create the progress bar if necessary.
658 * Check whether it should be created or not every MIN_NUMBER_OF_PACKET
660 if ((progbar == NULL) && !(count % MIN_NUMBER_OF_PACKET)) {
661 progbar_val = calc_progbar_val(cf, size, file_pos, status_str, sizeof(status_str));
662 if (reloading)
663 progbar = delayed_create_progress_dlg(cf->window, "Reloading", name_ptr,
664 TRUE, &stop_flag, &start_time, progbar_val);
665 else
666 progbar = delayed_create_progress_dlg(cf->window, "Loading", name_ptr,
667 TRUE, &stop_flag, &start_time, progbar_val);
670 /* Update the progress bar, but do it only N_PROGBAR_UPDATES times;
671 when we update it, we have to run the GTK+ main loop to get it
672 to repaint what's pending, and doing so may involve an "ioctl()"
673 to see if there's any pending input from an X server, and doing
674 that for every packet can be costly, especially on a big file. */
675 if (file_pos >= progbar_nextstep) {
676 if (progbar != NULL) {
677 progbar_val = calc_progbar_val(cf, size, file_pos, status_str, sizeof(status_str));
678 /* update the packet bar content on the first run or frequently on very large files */
679 #ifdef HAVE_LIBPCAP
680 if (progbar_quantum > 500000 || displayed_once == 0) {
681 if ((auto_scroll_live || displayed_once == 0 || cf->displayed_count < 1000) && cf->count != 0) {
682 displayed_once = 1;
683 packets_bar_update();
686 #endif /* HAVE_LIBPCAP */
687 update_progress_dlg(progbar, progbar_val, status_str);
689 progbar_nextstep += progbar_quantum;
693 if (stop_flag) {
694 /* Well, the user decided to abort the read. He/She will be warned and
695 it might be enough for him/her to work with the already loaded
696 packets.
697 This is especially true for very large capture files, where you don't
698 want to wait loading the whole file (which may last minutes or even
699 hours even on fast machines) just to see that it was the wrong file. */
700 break;
702 read_packet(cf, dfcode, &edt, cinfo, data_offset);
705 CATCH(OutOfMemoryError) {
706 simple_message_box(ESD_TYPE_ERROR, NULL,
707 "Some infos / workarounds can be found at:\n"
708 "http://wiki.wireshark.org/KnownBugs/OutOfMemory",
709 "Sorry, but Wireshark has run out of memory and has to terminate now!");
710 #if 0
711 /* Could we close the current capture and free up memory from that? */
712 #else
713 /* we have to terminate, as we cannot recover from the memory error */
714 exit(1);
715 #endif
717 ENDTRY;
719 /* Free the display name */
720 g_free(name_ptr);
722 /* Cleanup and release all dfilter resources */
723 if (dfcode != NULL) {
724 dfilter_free(dfcode);
727 epan_dissect_cleanup(&edt);
729 /* We're done reading the file; destroy the progress bar if it was created. */
730 if (progbar != NULL)
731 destroy_progress_dlg(progbar);
733 /* We're done reading sequentially through the file. */
734 cf->state = FILE_READ_DONE;
736 /* Close the sequential I/O side, to free up memory it requires. */
737 wtap_sequential_close(cf->wth);
739 /* Allow the protocol dissectors to free up memory that they
740 * don't need after the sequential run-through of the packets. */
741 postseq_cleanup_all_protocols();
743 /* compute the time it took to load the file */
744 compute_elapsed(cf, &start_time);
746 /* Set the file encapsulation type now; we don't know what it is until
747 we've looked at all the packets, as we don't know until then whether
748 there's more than one type (and thus whether it's
749 WTAP_ENCAP_PER_PACKET). */
750 cf->lnk_t = wtap_file_encap(cf->wth);
752 cf->current_frame = frame_data_sequence_find(cf->frames, cf->first_displayed);
753 cf->current_row = 0;
755 packet_list_thaw();
756 if (reloading)
757 cf_callback_invoke(cf_cb_file_reload_finished, cf);
758 else
759 cf_callback_invoke(cf_cb_file_read_finished, cf);
761 /* If we have any displayed packets to select, select the first of those
762 packets by making the first row the selected row. */
763 if (cf->first_displayed != 0) {
764 packet_list_select_first_row();
767 if (stop_flag) {
768 simple_message_box(ESD_TYPE_WARN, NULL,
769 "The remaining packets in the file were discarded.\n"
770 "\n"
771 "As a lot of packets from the original file will be missing,\n"
772 "remember to be careful when saving the current content to a file.\n",
773 "File loading was cancelled!");
774 return CF_READ_ERROR;
777 if (err != 0) {
778 /* Put up a message box noting that the read failed somewhere along
779 the line. Don't throw out the stuff we managed to read, though,
780 if any. */
781 switch (err) {
783 case WTAP_ERR_UNSUPPORTED:
784 simple_error_message_box(
785 "The capture file contains record data that Wireshark doesn't support.\n(%s)",
786 err_info);
787 g_free(err_info);
788 break;
790 case WTAP_ERR_UNSUPPORTED_ENCAP:
791 simple_error_message_box(
792 "The capture file has a packet with a network type that Wireshark doesn't support.\n(%s)",
793 err_info);
794 g_free(err_info);
795 break;
797 case WTAP_ERR_CANT_READ:
798 simple_error_message_box(
799 "An attempt to read from the capture file failed for"
800 " some unknown reason.");
801 break;
803 case WTAP_ERR_SHORT_READ:
804 simple_error_message_box(
805 "The capture file appears to have been cut short"
806 " in the middle of a packet.");
807 break;
809 case WTAP_ERR_BAD_FILE:
810 simple_error_message_box(
811 "The capture file appears to be damaged or corrupt.\n(%s)",
812 err_info);
813 g_free(err_info);
814 break;
816 case WTAP_ERR_DECOMPRESS:
817 simple_error_message_box(
818 "The compressed capture file appears to be damaged or corrupt.\n"
819 "(%s)", err_info);
820 g_free(err_info);
821 break;
823 default:
824 simple_error_message_box(
825 "An error occurred while reading the"
826 " capture file: %s.", wtap_strerror(err));
827 break;
829 return CF_READ_ERROR;
830 } else
831 return CF_READ_OK;
834 #ifdef HAVE_LIBPCAP
835 cf_read_status_t
836 cf_continue_tail(capture_file *cf, volatile int to_read, int *err)
838 gchar *err_info;
839 int newly_displayed_packets = 0;
840 dfilter_t *dfcode;
841 epan_dissect_t edt;
842 gboolean create_proto_tree;
843 guint tap_flags;
844 gboolean compiled;
846 /* Compile the current display filter.
847 * We assume this will not fail since cf->dfilter is only set in
848 * cf_filter IFF the filter was valid.
850 compiled = dfilter_compile(cf->dfilter, &dfcode);
851 g_assert(!cf->dfilter || (compiled && dfcode));
853 /* Get the union of the flags for all tap listeners. */
854 tap_flags = union_of_tap_listener_flags();
855 create_proto_tree =
856 (dfcode != NULL || have_filtering_tap_listeners() || (tap_flags & TL_REQUIRES_PROTO_TREE));
858 *err = 0;
860 packet_list_check_end();
861 /* Don't freeze/thaw the list when doing live capture */
862 /*packet_list_freeze();*/
864 /*g_log(NULL, G_LOG_LEVEL_MESSAGE, "cf_continue_tail: %u new: %u", cf->count, to_read);*/
866 epan_dissect_init(&edt, cf->epan, create_proto_tree, FALSE);
868 TRY {
869 gint64 data_offset = 0;
870 column_info *cinfo;
872 cinfo = (tap_flags & TL_REQUIRES_COLUMNS) ? &cf->cinfo : NULL;
874 while (to_read != 0) {
875 wtap_cleareof(cf->wth);
876 if (!wtap_read(cf->wth, err, &err_info, &data_offset)) {
877 break;
879 if (cf->state == FILE_READ_ABORTED) {
880 /* Well, the user decided to exit Wireshark. Break out of the
881 loop, and let the code below (which is called even if there
882 aren't any packets left to read) exit. */
883 break;
885 if (read_packet(cf, dfcode, &edt, (column_info *) cinfo, data_offset) != -1) {
886 newly_displayed_packets++;
888 to_read--;
891 CATCH(OutOfMemoryError) {
892 simple_message_box(ESD_TYPE_ERROR, NULL,
893 "Some infos / workarounds can be found at:\n"
894 "http://wiki.wireshark.org/KnownBugs/OutOfMemory",
895 "Sorry, but Wireshark has run out of memory and has to terminate now!");
896 #if 0
897 /* Could we close the current capture and free up memory from that? */
898 return CF_READ_ABORTED;
899 #else
900 /* we have to terminate, as we cannot recover from the memory error */
901 exit(1);
902 #endif
904 ENDTRY;
906 /* Update the file encapsulation; it might have changed based on the
907 packets we've read. */
908 cf->lnk_t = wtap_file_encap(cf->wth);
910 /* Cleanup and release all dfilter resources */
911 if (dfcode != NULL) {
912 dfilter_free(dfcode);
915 epan_dissect_cleanup(&edt);
917 /*g_log(NULL, G_LOG_LEVEL_MESSAGE, "cf_continue_tail: count %u state: %u err: %u",
918 cf->count, cf->state, *err);*/
920 /* Don't freeze/thaw the list when doing live capture */
921 /*packet_list_thaw();*/
922 /* With the new packet list the first packet
923 * isn't automatically selected.
925 if (!cf->current_frame)
926 packet_list_select_first_row();
928 /* moving to the end of the packet list - if the user requested so and
929 we have some new packets. */
930 if (newly_displayed_packets && auto_scroll_live && cf->count != 0)
931 packet_list_moveto_end();
933 if (cf->state == FILE_READ_ABORTED) {
934 /* Well, the user decided to exit Wireshark. Return CF_READ_ABORTED
935 so that our caller can kill off the capture child process;
936 this will cause an EOF on the pipe from the child, so
937 "cf_finish_tail()" will be called, and it will clean up
938 and exit. */
939 return CF_READ_ABORTED;
940 } else if (*err != 0) {
941 /* We got an error reading the capture file.
942 XXX - pop up a dialog box instead? */
943 g_warning("Error \"%s\" while reading: \"%s\" (\"%s\")",
944 wtap_strerror(*err), err_info, cf->filename);
945 g_free(err_info);
947 return CF_READ_ERROR;
948 } else
949 return CF_READ_OK;
952 void
953 cf_fake_continue_tail(capture_file *cf) {
954 cf->state = FILE_READ_DONE;
957 cf_read_status_t
958 cf_finish_tail(capture_file *cf, int *err)
960 gchar *err_info;
961 gint64 data_offset;
962 dfilter_t *dfcode;
963 column_info *cinfo;
964 epan_dissect_t edt;
965 gboolean create_proto_tree;
966 guint tap_flags;
967 gboolean compiled;
969 /* Compile the current display filter.
970 * We assume this will not fail since cf->dfilter is only set in
971 * cf_filter IFF the filter was valid.
973 compiled = dfilter_compile(cf->dfilter, &dfcode);
974 g_assert(!cf->dfilter || (compiled && dfcode));
976 /* Get the union of the flags for all tap listeners. */
977 tap_flags = union_of_tap_listener_flags();
978 cinfo = (tap_flags & TL_REQUIRES_COLUMNS) ? &cf->cinfo : NULL;
979 create_proto_tree =
980 (dfcode != NULL || have_filtering_tap_listeners() || (tap_flags & TL_REQUIRES_PROTO_TREE));
982 if (cf->wth == NULL) {
983 cf_close(cf);
984 return CF_READ_ERROR;
987 packet_list_check_end();
988 /* Don't freeze/thaw the list when doing live capture */
989 /*packet_list_freeze();*/
991 epan_dissect_init(&edt, cf->epan, create_proto_tree, FALSE);
993 while ((wtap_read(cf->wth, err, &err_info, &data_offset))) {
994 if (cf->state == FILE_READ_ABORTED) {
995 /* Well, the user decided to abort the read. Break out of the
996 loop, and let the code below (which is called even if there
997 aren't any packets left to read) exit. */
998 break;
1000 read_packet(cf, dfcode, &edt, cinfo, data_offset);
1003 /* Cleanup and release all dfilter resources */
1004 if (dfcode != NULL) {
1005 dfilter_free(dfcode);
1008 epan_dissect_cleanup(&edt);
1010 /* Don't freeze/thaw the list when doing live capture */
1011 /*packet_list_thaw();*/
1013 if (cf->state == FILE_READ_ABORTED) {
1014 /* Well, the user decided to abort the read. We're only called
1015 when the child capture process closes the pipe to us (meaning
1016 it's probably exited), so we can just close the capture
1017 file; we return CF_READ_ABORTED so our caller can do whatever
1018 is appropriate when that happens. */
1019 cf_close(cf);
1020 return CF_READ_ABORTED;
1023 if (auto_scroll_live && cf->count != 0)
1024 packet_list_moveto_end();
1026 /* We're done reading sequentially through the file. */
1027 cf->state = FILE_READ_DONE;
1029 /* We're done reading sequentially through the file; close the
1030 sequential I/O side, to free up memory it requires. */
1031 wtap_sequential_close(cf->wth);
1033 /* Allow the protocol dissectors to free up memory that they
1034 * don't need after the sequential run-through of the packets. */
1035 postseq_cleanup_all_protocols();
1037 /* Update the file encapsulation; it might have changed based on the
1038 packets we've read. */
1039 cf->lnk_t = wtap_file_encap(cf->wth);
1041 /* Update the details in the file-set dialog, as the capture file
1042 * has likely grown since we first stat-ed it */
1043 fileset_update_file(cf->filename);
1045 if (*err != 0) {
1046 /* We got an error reading the capture file.
1047 XXX - pop up a dialog box? */
1049 g_warning("Error \"%s\" while reading: \"%s\" (\"%s\")",
1050 wtap_strerror(*err), err_info, cf->filename);
1051 g_free(err_info);
1052 return CF_READ_ERROR;
1053 } else {
1054 return CF_READ_OK;
1057 #endif /* HAVE_LIBPCAP */
1059 gchar *
1060 cf_get_display_name(capture_file *cf)
1062 gchar *displayname;
1064 /* Return a name to use in displays */
1065 if (!cf->is_tempfile) {
1066 /* Get the last component of the file name, and use that. */
1067 if (cf->filename) {
1068 displayname = g_filename_display_basename(cf->filename);
1069 } else {
1070 displayname=g_strdup("(No file)");
1072 } else {
1073 /* The file we read is a temporary file from a live capture or
1074 a merge operation; we don't mention its name, but, if it's
1075 from a capture, give the source of the capture. */
1076 if (cf->source) {
1077 displayname = g_strdup(cf->source);
1078 } else {
1079 displayname = g_strdup("(Untitled)");
1082 return displayname;
1085 void cf_set_tempfile_source(capture_file *cf, gchar *source) {
1086 if (cf->source) {
1087 g_free(cf->source);
1090 if (source) {
1091 cf->source = g_strdup(source);
1092 } else {
1093 cf->source = g_strdup("");
1097 const gchar *cf_get_tempfile_source(capture_file *cf) {
1098 if (!cf->source) {
1099 return "";
1102 return cf->source;
1105 /* XXX - use a macro instead? */
1107 cf_get_packet_count(capture_file *cf)
1109 return cf->count;
1112 /* XXX - use a macro instead? */
1113 void
1114 cf_set_packet_count(capture_file *cf, int packet_count)
1116 cf->count = packet_count;
1119 /* XXX - use a macro instead? */
1120 gboolean
1121 cf_is_tempfile(capture_file *cf)
1123 return cf->is_tempfile;
1126 void cf_set_tempfile(capture_file *cf, gboolean is_tempfile)
1128 cf->is_tempfile = is_tempfile;
1132 /* XXX - use a macro instead? */
1133 void cf_set_drops_known(capture_file *cf, gboolean drops_known)
1135 cf->drops_known = drops_known;
1138 /* XXX - use a macro instead? */
1139 void cf_set_drops(capture_file *cf, guint32 drops)
1141 cf->drops = drops;
1144 /* XXX - use a macro instead? */
1145 gboolean cf_get_drops_known(capture_file *cf)
1147 return cf->drops_known;
1150 /* XXX - use a macro instead? */
1151 guint32 cf_get_drops(capture_file *cf)
1153 return cf->drops;
1156 void cf_set_rfcode(capture_file *cf, dfilter_t *rfcode)
1158 cf->rfcode = rfcode;
1161 static int
1162 add_packet_to_packet_list(frame_data *fdata, capture_file *cf,
1163 epan_dissect_t *edt, dfilter_t *dfcode, column_info *cinfo,
1164 struct wtap_pkthdr *phdr, const guint8 *buf, gboolean add_to_packet_list)
1166 gint row = -1;
1168 frame_data_set_before_dissect(fdata, &cf->elapsed_time,
1169 &cf->ref, cf->prev_dis);
1170 cf->prev_cap = fdata;
1172 if (dfcode != NULL) {
1173 epan_dissect_prime_dfilter(edt, dfcode);
1176 /* Dissect the frame. */
1177 epan_dissect_run_with_taps(edt, phdr, frame_tvbuff_new(fdata, buf), fdata, cinfo);
1179 /* If we don't have a display filter, set "passed_dfilter" to 1. */
1180 if (dfcode != NULL) {
1181 fdata->flags.passed_dfilter = dfilter_apply_edt(dfcode, edt) ? 1 : 0;
1183 if (fdata->flags.passed_dfilter) {
1184 /* This frame passed the display filter but it may depend on other
1185 * (potentially not displayed) frames. Find those frames and mark them
1186 * as depended upon.
1188 g_slist_foreach(edt->pi.dependent_frames, find_and_mark_frame_depended_upon, cf->frames);
1190 } else
1191 fdata->flags.passed_dfilter = 1;
1193 if (fdata->flags.passed_dfilter || fdata->flags.ref_time)
1194 cf->displayed_count++;
1196 if (add_to_packet_list) {
1197 /* We fill the needed columns from new_packet_list */
1198 row = packet_list_append(cinfo, fdata, &edt->pi);
1201 if (fdata->flags.passed_dfilter || fdata->flags.ref_time)
1203 frame_data_set_after_dissect(fdata, &cf->cum_bytes);
1204 cf->prev_dis = fdata;
1206 /* If we haven't yet seen the first frame, this is it.
1208 XXX - we must do this before we add the row to the display,
1209 as, if the display's GtkCList's selection mode is
1210 GTK_SELECTION_BROWSE, when the first entry is added to it,
1211 "cf_select_packet()" will be called, and it will fetch the row
1212 data for the 0th row, and will get a null pointer rather than
1213 "fdata", as "gtk_clist_append()" won't yet have returned and
1214 thus "gtk_clist_set_row_data()" won't yet have been called.
1216 We thus need to leave behind bread crumbs so that
1217 "cf_select_packet()" can find this frame. See the comment
1218 in "cf_select_packet()". */
1219 if (cf->first_displayed == 0)
1220 cf->first_displayed = fdata->num;
1222 /* This is the last frame we've seen so far. */
1223 cf->last_displayed = fdata->num;
1226 epan_dissect_reset(edt);
1227 return row;
1230 /* read in a new packet */
1231 /* returns the row of the new packet in the packet list or -1 if not displayed */
1232 static int
1233 read_packet(capture_file *cf, dfilter_t *dfcode, epan_dissect_t *edt,
1234 column_info *cinfo, gint64 offset)
1236 struct wtap_pkthdr *phdr = wtap_phdr(cf->wth);
1237 const guint8 *buf = wtap_buf_ptr(cf->wth);
1238 frame_data fdlocal;
1239 guint32 framenum;
1240 frame_data *fdata;
1241 int passed;
1242 int row = -1;
1244 /* Add this packet's link-layer encapsulation type to cf->linktypes, if
1245 it's not already there.
1246 XXX - yes, this is O(N), so if every packet had a different
1247 link-layer encapsulation type, it'd be O(N^2) to read the file, but
1248 there are probably going to be a small number of encapsulation types
1249 in a file. */
1250 cf_add_encapsulation_type(cf, phdr->pkt_encap);
1252 /* The frame number of this packet is one more than the count of
1253 frames in the file so far. */
1254 framenum = cf->count + 1;
1256 frame_data_init(&fdlocal, framenum, phdr, offset, cf->cum_bytes);
1258 passed = TRUE;
1259 if (cf->rfcode) {
1260 epan_dissect_t rf_edt;
1262 epan_dissect_init(&rf_edt, cf->epan, TRUE, FALSE);
1263 epan_dissect_prime_dfilter(&rf_edt, cf->rfcode);
1264 epan_dissect_run(&rf_edt, phdr, frame_tvbuff_new(&fdlocal, buf), &fdlocal, NULL);
1265 passed = dfilter_apply_edt(cf->rfcode, &rf_edt);
1266 epan_dissect_cleanup(&rf_edt);
1269 if (passed) {
1270 /* This does a shallow copy of fdlocal, which is good enough. */
1271 fdata = frame_data_sequence_add(cf->frames, &fdlocal);
1273 cf->count++;
1274 if (phdr->opt_comment != NULL)
1275 cf->packet_comment_count++;
1276 cf->f_datalen = offset + fdlocal.cap_len;
1278 if (!cf->redissecting) {
1279 row = add_packet_to_packet_list(fdata, cf, edt, dfcode,
1280 cinfo, phdr, buf, TRUE);
1284 return row;
1287 cf_status_t
1288 cf_merge_files(char **out_filenamep, int in_file_count,
1289 char *const *in_filenames, int file_type, gboolean do_append)
1291 merge_in_file_t *in_files, *in_file;
1292 char *out_filename;
1293 char *tmpname;
1294 int out_fd;
1295 wtap_dumper *pdh;
1296 int open_err, read_err, write_err, close_err;
1297 gchar *err_info;
1298 int err_fileno;
1299 int i;
1300 gboolean got_read_error = FALSE, got_write_error = FALSE;
1301 gint64 data_offset;
1302 progdlg_t *progbar = NULL;
1303 gboolean stop_flag;
1304 gint64 f_len, file_pos;
1305 float progbar_val;
1306 GTimeVal start_time;
1307 gchar status_str[100];
1308 gint64 progbar_nextstep;
1309 gint64 progbar_quantum;
1310 gchar *display_basename;
1311 int selected_frame_type;
1312 gboolean fake_interface_ids = FALSE;
1314 /* open the input files */
1315 if (!merge_open_in_files(in_file_count, in_filenames, &in_files,
1316 &open_err, &err_info, &err_fileno)) {
1317 g_free(in_files);
1318 cf_open_failure_alert_box(in_filenames[err_fileno], open_err, err_info,
1319 FALSE, 0);
1320 return CF_ERROR;
1323 if (*out_filenamep != NULL) {
1324 out_filename = *out_filenamep;
1325 out_fd = ws_open(out_filename, O_CREAT|O_TRUNC|O_BINARY, 0600);
1326 if (out_fd == -1)
1327 open_err = errno;
1328 } else {
1329 out_fd = create_tempfile(&tmpname, "wireshark");
1330 if (out_fd == -1)
1331 open_err = errno;
1332 out_filename = g_strdup(tmpname);
1333 *out_filenamep = out_filename;
1335 if (out_fd == -1) {
1336 err_info = NULL;
1337 merge_close_in_files(in_file_count, in_files);
1338 g_free(in_files);
1339 cf_open_failure_alert_box(out_filename, open_err, NULL, TRUE, file_type);
1340 return CF_ERROR;
1343 selected_frame_type = merge_select_frame_type(in_file_count, in_files);
1345 /* If we are trying to merge a number of libpcap files with different encapsulation types
1346 * change the output file type to pcapng and create SHB and IDB:s for the new file use the
1347 * interface index stored in in_files per file to change the phdr before writing the datablock.
1348 * XXX should it be an option to convert to pcapng?
1350 * We need something similar when merging pcapng files possibly with an option to say
1351 * the same interface(s) used in all in files. SHBs comments should be merged together.
1353 if ((selected_frame_type == WTAP_ENCAP_PER_PACKET)&&(file_type == WTAP_FILE_TYPE_SUBTYPE_PCAP)) {
1354 /* Write output in pcapng format */
1355 wtapng_section_t *shb_hdr;
1356 wtapng_iface_descriptions_t *idb_inf, *idb_inf_merge_file;
1357 wtapng_if_descr_t int_data, *file_int_data;
1358 GString *comment_gstr;
1360 fake_interface_ids = TRUE;
1361 /* Create SHB info */
1362 shb_hdr = wtap_file_get_shb_info(in_files[0].wth);
1363 comment_gstr = g_string_new("");
1364 g_string_append_printf(comment_gstr, "%s \n",shb_hdr->opt_comment);
1365 g_string_append_printf(comment_gstr, "File created by merging: \n");
1366 file_type = WTAP_FILE_TYPE_SUBTYPE_PCAPNG;
1368 for (i = 0; i < in_file_count; i++) {
1369 g_string_append_printf(comment_gstr, "File%d: %s \n",i+1,in_files[i].filename);
1371 shb_hdr->section_length = -1;
1372 /* options */
1373 shb_hdr->opt_comment = g_string_free(comment_gstr, FALSE); /* NULL if not available */
1374 shb_hdr->shb_hardware = NULL; /* NULL if not available, UTF-8 string containing the */
1375 /* description of the hardware used to create this section. */
1376 shb_hdr->shb_os = NULL; /* NULL if not available, UTF-8 string containing the name */
1377 /* of the operating system used to create this section. */
1378 shb_hdr->shb_user_appl = "Wireshark"; /* NULL if not available, UTF-8 string containing the name */
1379 /* of the application used to create this section. */
1381 /* create fake IDB info */
1382 idb_inf = g_new(wtapng_iface_descriptions_t,1);
1383 idb_inf->number_of_interfaces = in_file_count; /* TODO make this the number of DIFFERENT encapsulation types
1384 * check that snaplength is the same too?
1386 idb_inf->interface_data = g_array_new(FALSE, FALSE, sizeof(wtapng_if_descr_t));
1388 for (i = 0; i < in_file_count; i++) {
1389 idb_inf_merge_file = wtap_file_get_idb_info(in_files[i].wth);
1390 /* read the interface data from the in file to our combined interfca data */
1391 file_int_data = &g_array_index (idb_inf_merge_file->interface_data, wtapng_if_descr_t, 0);
1392 int_data.wtap_encap = file_int_data->wtap_encap;
1393 int_data.time_units_per_second = file_int_data->time_units_per_second;
1394 int_data.link_type = file_int_data->link_type;
1395 int_data.snap_len = file_int_data->snap_len;
1396 int_data.if_name = g_strdup(file_int_data->if_name);
1397 int_data.opt_comment = NULL;
1398 int_data.if_description = NULL;
1399 int_data.if_speed = 0;
1400 int_data.if_tsresol = 6;
1401 int_data.if_filter_str = NULL;
1402 int_data.bpf_filter_len = 0;
1403 int_data.if_filter_bpf_bytes = NULL;
1404 int_data.if_os = NULL;
1405 int_data.if_fcslen = -1;
1406 int_data.num_stat_entries = 0; /* Number of ISB:s */
1407 int_data.interface_statistics = NULL;
1409 g_array_append_val(idb_inf->interface_data, int_data);
1410 g_free(idb_inf_merge_file);
1412 /* Set fake interface Id in per file data */
1413 in_files[i].interface_id = i;
1416 pdh = wtap_dump_fdopen_ng(out_fd, file_type,
1417 selected_frame_type,
1418 merge_max_snapshot_length(in_file_count, in_files),
1419 FALSE /* compressed */, shb_hdr, idb_inf /* wtapng_iface_descriptions_t *idb_inf */, &open_err);
1421 if (pdh == NULL) {
1422 ws_close(out_fd);
1423 merge_close_in_files(in_file_count, in_files);
1424 g_free(in_files);
1425 cf_open_failure_alert_box(out_filename, open_err, err_info, TRUE,
1426 file_type);
1427 return CF_ERROR;
1430 } else {
1432 pdh = wtap_dump_fdopen(out_fd, file_type,
1433 selected_frame_type,
1434 merge_max_snapshot_length(in_file_count, in_files),
1435 FALSE /* compressed */, &open_err);
1436 if (pdh == NULL) {
1437 ws_close(out_fd);
1438 merge_close_in_files(in_file_count, in_files);
1439 g_free(in_files);
1440 cf_open_failure_alert_box(out_filename, open_err, err_info, TRUE,
1441 file_type);
1442 return CF_ERROR;
1446 /* Get the sum of the sizes of all the files. */
1447 f_len = 0;
1448 for (i = 0; i < in_file_count; i++)
1449 f_len += in_files[i].size;
1451 /* Update the progress bar when it gets to this value. */
1452 progbar_nextstep = 0;
1453 /* When we reach the value that triggers a progress bar update,
1454 bump that value by this amount. */
1455 progbar_quantum = f_len/N_PROGBAR_UPDATES;
1456 /* Progress so far. */
1457 progbar_val = 0.0f;
1459 stop_flag = FALSE;
1460 g_get_current_time(&start_time);
1462 /* do the merge (or append) */
1463 for (;;) {
1464 if (do_append)
1465 in_file = merge_append_read_packet(in_file_count, in_files, &read_err,
1466 &err_info);
1467 else
1468 in_file = merge_read_packet(in_file_count, in_files, &read_err,
1469 &err_info);
1470 if (in_file == NULL) {
1471 /* EOF */
1472 break;
1475 if (read_err != 0) {
1476 /* I/O error reading from in_file */
1477 got_read_error = TRUE;
1478 break;
1481 /* Get the sum of the data offsets in all of the files. */
1482 data_offset = 0;
1483 for (i = 0; i < in_file_count; i++)
1484 data_offset += in_files[i].data_offset;
1486 /* Create the progress bar if necessary.
1487 We check on every iteration of the loop, so that it takes no
1488 longer than the standard time to create it (otherwise, for a
1489 large file, we might take considerably longer than that standard
1490 time in order to get to the next progress bar step). */
1491 if (progbar == NULL) {
1492 progbar = delayed_create_progress_dlg(NULL, "Merging", "files",
1493 FALSE, &stop_flag, &start_time, progbar_val);
1496 /* Update the progress bar, but do it only N_PROGBAR_UPDATES times;
1497 when we update it, we have to run the GTK+ main loop to get it
1498 to repaint what's pending, and doing so may involve an "ioctl()"
1499 to see if there's any pending input from an X server, and doing
1500 that for every packet can be costly, especially on a big file. */
1501 if (data_offset >= progbar_nextstep) {
1502 /* Get the sum of the seek positions in all of the files. */
1503 file_pos = 0;
1504 for (i = 0; i < in_file_count; i++)
1505 file_pos += wtap_read_so_far(in_files[i].wth);
1506 progbar_val = (gfloat) file_pos / (gfloat) f_len;
1507 if (progbar_val > 1.0f) {
1508 /* Some file probably grew while we were reading it.
1509 That "shouldn't happen", so we'll just clip the progress
1510 value at 1.0. */
1511 progbar_val = 1.0f;
1513 if (progbar != NULL) {
1514 g_snprintf(status_str, sizeof(status_str),
1515 "%" G_GINT64_MODIFIER "dKB of %" G_GINT64_MODIFIER "dKB",
1516 file_pos / 1024, f_len / 1024);
1517 update_progress_dlg(progbar, progbar_val, status_str);
1519 progbar_nextstep += progbar_quantum;
1522 if (stop_flag) {
1523 /* Well, the user decided to abort the merge. */
1524 break;
1527 /* If we have WTAP_ENCAP_PER_PACKET and the infiles are of type
1528 * WTAP_FILE_TYPE_SUBTYPE_PCAP, we need to set the interface id
1529 * in the paket header = the interface index we used in the IDBs
1530 * interface description for this file(encapsulation type).
1532 if (fake_interface_ids) {
1533 struct wtap_pkthdr *phdr;
1535 phdr = wtap_phdr(in_file->wth);
1536 phdr->interface_id = in_file->interface_id;
1537 phdr->presence_flags = phdr->presence_flags | WTAP_HAS_INTERFACE_ID;
1539 if (!wtap_dump(pdh, wtap_phdr(in_file->wth),
1540 wtap_buf_ptr(in_file->wth), &write_err)) {
1541 got_write_error = TRUE;
1542 break;
1546 /* We're done merging the files; destroy the progress bar if it was created. */
1547 if (progbar != NULL)
1548 destroy_progress_dlg(progbar);
1550 merge_close_in_files(in_file_count, in_files);
1551 if (!got_read_error && !got_write_error) {
1552 if (!wtap_dump_close(pdh, &write_err))
1553 got_write_error = TRUE;
1554 } else
1555 wtap_dump_close(pdh, &close_err);
1557 if (got_read_error) {
1559 * Find the file on which we got the error, and report the error.
1561 for (i = 0; i < in_file_count; i++) {
1562 if (in_files[i].state == GOT_ERROR) {
1563 /* Put up a message box noting that a read failed somewhere along
1564 the line. */
1565 display_basename = g_filename_display_basename(in_files[i].filename);
1566 switch (read_err) {
1568 case WTAP_ERR_UNSUPPORTED_ENCAP:
1569 simple_error_message_box(
1570 "The capture file %s has a packet with a network type that Wireshark doesn't support.\n(%s)",
1571 display_basename, err_info);
1572 g_free(err_info);
1573 break;
1575 case WTAP_ERR_CANT_READ:
1576 simple_error_message_box(
1577 "An attempt to read from the capture file %s failed for"
1578 " some unknown reason.", display_basename);
1579 break;
1581 case WTAP_ERR_SHORT_READ:
1582 simple_error_message_box(
1583 "The capture file %s appears to have been cut short"
1584 " in the middle of a packet.", display_basename);
1585 break;
1587 case WTAP_ERR_BAD_FILE:
1588 simple_error_message_box(
1589 "The capture file %s appears to be damaged or corrupt.\n(%s)",
1590 display_basename, err_info);
1591 g_free(err_info);
1592 break;
1594 case WTAP_ERR_DECOMPRESS:
1595 simple_error_message_box(
1596 "The compressed capture file %s appears to be damaged or corrupt.\n"
1597 "(%s)", display_basename, err_info);
1598 g_free(err_info);
1599 break;
1601 default:
1602 simple_error_message_box(
1603 "An error occurred while reading the"
1604 " capture file %s: %s.",
1605 display_basename, wtap_strerror(read_err));
1606 break;
1608 g_free(display_basename);
1613 if (got_write_error) {
1614 /* Put up an alert box for the write error. */
1615 if (write_err < 0) {
1616 /* Wiretap error. */
1617 switch (write_err) {
1619 case WTAP_ERR_UNSUPPORTED_ENCAP:
1621 * This is a problem with the particular frame we're writing;
1622 * note that, and give the frame number.
1624 display_basename = g_filename_display_basename(in_file->filename);
1625 simple_error_message_box(
1626 "Frame %u of \"%s\" has a network type that can't be saved in a \"%s\" file.",
1627 in_file->packet_num, display_basename,
1628 wtap_file_type_subtype_string(file_type));
1629 g_free(display_basename);
1630 break;
1632 default:
1633 display_basename = g_filename_display_basename(out_filename);
1634 simple_error_message_box(
1635 "An error occurred while writing to the file \"%s\": %s.",
1636 out_filename, wtap_strerror(write_err));
1637 g_free(display_basename);
1638 break;
1640 } else {
1641 /* OS error. */
1642 write_failure_alert_box(out_filename, write_err);
1646 if (got_read_error || got_write_error || stop_flag) {
1647 /* Callers aren't expected to treat an error or an explicit abort
1648 differently - we put up error dialogs ourselves, so they don't
1649 have to. */
1650 return CF_ERROR;
1651 } else
1652 return CF_OK;
1655 cf_status_t
1656 cf_filter_packets(capture_file *cf, gchar *dftext, gboolean force)
1658 const char *filter_new = dftext ? dftext : "";
1659 const char *filter_old = cf->dfilter ? cf->dfilter : "";
1660 dfilter_t *dfcode;
1661 GTimeVal start_time;
1663 /* if new filter equals old one, do nothing unless told to do so */
1664 if (!force && strcmp(filter_new, filter_old) == 0) {
1665 return CF_OK;
1668 dfcode=NULL;
1670 if (dftext == NULL) {
1671 /* The new filter is an empty filter (i.e., display all packets).
1672 * so leave dfcode==NULL
1674 } else {
1676 * We have a filter; make a copy of it (as we'll be saving it),
1677 * and try to compile it.
1679 dftext = g_strdup(dftext);
1680 if (!dfilter_compile(dftext, &dfcode)) {
1681 /* The attempt failed; report an error. */
1682 simple_message_box(ESD_TYPE_ERROR, NULL,
1683 "See the help for a description of the display filter syntax.",
1684 "\"%s\" isn't a valid display filter: %s",
1685 dftext, dfilter_error_msg);
1686 g_free(dftext);
1687 return CF_ERROR;
1690 /* Was it empty? */
1691 if (dfcode == NULL) {
1692 /* Yes - free the filter text, and set it to null. */
1693 g_free(dftext);
1694 dftext = NULL;
1698 /* We have a valid filter. Replace the current filter. */
1699 g_free(cf->dfilter);
1700 cf->dfilter = dftext;
1701 g_get_current_time(&start_time);
1704 /* Now rescan the packet list, applying the new filter, but not
1705 throwing away information constructed on a previous pass. */
1706 if (dftext == NULL) {
1707 rescan_packets(cf, "Resetting", "Filter", FALSE);
1708 } else {
1709 rescan_packets(cf, "Filtering", dftext, FALSE);
1712 /* Cleanup and release all dfilter resources */
1713 dfilter_free(dfcode);
1715 return CF_OK;
1718 void
1719 cf_reftime_packets(capture_file *cf)
1721 ref_time_packets(cf);
1724 void
1725 cf_redissect_packets(capture_file *cf)
1727 if (cf->state != FILE_CLOSED) {
1728 rescan_packets(cf, "Reprocessing", "all packets", TRUE);
1732 gboolean
1733 cf_read_frame_r(capture_file *cf, const frame_data *fdata,
1734 struct wtap_pkthdr *phdr, Buffer *buf)
1736 int err;
1737 gchar *err_info;
1738 gchar *display_basename;
1740 #ifdef WANT_PACKET_EDITOR
1741 /* if fdata->file_off == -1 it means packet was edited, and we must find data inside edited_frames tree */
1742 if (G_UNLIKELY(fdata->file_off == -1)) {
1743 const modified_frame_data *frame = (const modified_frame_data *) g_tree_lookup(cf->edited_frames, GINT_TO_POINTER(fdata->num));
1745 if (!frame) {
1746 simple_error_message_box("fdata->file_off == -1, but can't find modified frame!");
1747 return FALSE;
1750 *phdr = frame->phdr;
1751 buffer_assure_space(buf, frame->phdr.caplen);
1752 memcpy(buffer_start_ptr(buf), frame->pd, frame->phdr.caplen);
1753 return TRUE;
1755 #endif
1757 if (!wtap_seek_read(cf->wth, fdata->file_off, phdr, buf,
1758 fdata->cap_len, &err, &err_info)) {
1759 display_basename = g_filename_display_basename(cf->filename);
1760 switch (err) {
1762 case WTAP_ERR_UNSUPPORTED_ENCAP:
1763 simple_error_message_box("The file \"%s\" has a packet with a network type that Wireshark doesn't support.\n(%s)",
1764 display_basename, err_info);
1765 g_free(err_info);
1766 break;
1768 case WTAP_ERR_BAD_FILE:
1769 simple_error_message_box("An error occurred while reading from the file \"%s\": %s.\n(%s)",
1770 display_basename, wtap_strerror(err), err_info);
1771 g_free(err_info);
1772 break;
1774 default:
1775 simple_error_message_box(
1776 "An error occurred while reading from the file \"%s\": %s.",
1777 display_basename, wtap_strerror(err));
1778 break;
1780 g_free(display_basename);
1781 return FALSE;
1783 return TRUE;
1786 gboolean
1787 cf_read_frame(capture_file *cf, frame_data *fdata)
1789 return cf_read_frame_r(cf, fdata, &cf->phdr, &cf->buf);
1792 /* Rescan the list of packets, reconstructing the CList.
1794 "action" describes why we're doing this; it's used in the progress
1795 dialog box.
1797 "action_item" describes what we're doing; it's used in the progress
1798 dialog box.
1800 "redissect" is TRUE if we need to make the dissectors reconstruct
1801 any state information they have (because a preference that affects
1802 some dissector has changed, meaning some dissector might construct
1803 its state differently from the way it was constructed the last time). */
1804 static void
1805 rescan_packets(capture_file *cf, const char *action, const char *action_item, gboolean redissect)
1807 /* Rescan packets new packet list */
1808 guint32 framenum;
1809 frame_data *fdata;
1810 progdlg_t *progbar = NULL;
1811 gboolean stop_flag;
1812 int count;
1813 frame_data *selected_frame, *preceding_frame, *following_frame, *prev_frame;
1814 int selected_frame_num, preceding_frame_num, following_frame_num, prev_frame_num;
1815 gboolean selected_frame_seen;
1816 float progbar_val;
1817 GTimeVal start_time;
1818 gchar status_str[100];
1819 int progbar_nextstep;
1820 int progbar_quantum;
1821 epan_dissect_t edt;
1822 dfilter_t *dfcode;
1823 column_info *cinfo;
1824 gboolean create_proto_tree;
1825 guint tap_flags;
1826 gboolean add_to_packet_list = FALSE;
1827 gboolean compiled;
1828 guint32 frames_count;
1830 /* Compile the current display filter.
1831 * We assume this will not fail since cf->dfilter is only set in
1832 * cf_filter IFF the filter was valid.
1834 compiled = dfilter_compile(cf->dfilter, &dfcode);
1835 g_assert(!cf->dfilter || (compiled && dfcode));
1837 /* Get the union of the flags for all tap listeners. */
1838 tap_flags = union_of_tap_listener_flags();
1839 cinfo = (tap_flags & TL_REQUIRES_COLUMNS) ? &cf->cinfo : NULL;
1840 create_proto_tree =
1841 (dfcode != NULL || have_filtering_tap_listeners() || (tap_flags & TL_REQUIRES_PROTO_TREE));
1843 reset_tap_listeners();
1844 /* Which frame, if any, is the currently selected frame?
1845 XXX - should the selected frame or the focus frame be the "current"
1846 frame, that frame being the one from which "Find Frame" searches
1847 start? */
1848 selected_frame = cf->current_frame;
1850 /* Mark frame num as not found */
1851 selected_frame_num = -1;
1853 /* Freeze the packet list while we redo it, so we don't get any
1854 screen updates while it happens. */
1855 packet_list_freeze();
1857 if (redissect) {
1858 /* We need to re-initialize all the state information that protocols
1859 keep, because some preference that controls a dissector has changed,
1860 which might cause the state information to be constructed differently
1861 by that dissector. */
1863 /* We might receive new packets while redissecting, and we don't
1864 want to dissect those before their time. */
1865 cf->redissecting = TRUE;
1867 /* 'reset' dissection session */
1868 epan_free(cf->epan);
1869 cf->epan = ws_epan_new(cf);
1871 /* We need to redissect the packets so we have to discard our old
1872 * packet list store. */
1873 packet_list_clear();
1874 add_to_packet_list = TRUE;
1877 /* We don't yet know which will be the first and last frames displayed. */
1878 cf->first_displayed = 0;
1879 cf->last_displayed = 0;
1881 /* We currently don't display any packets */
1882 cf->displayed_count = 0;
1884 /* Iterate through the list of frames. Call a routine for each frame
1885 to check whether it should be displayed and, if so, add it to
1886 the display list. */
1887 cf->ref = NULL;
1888 cf->prev_dis = NULL;
1889 cf->prev_cap = NULL;
1890 cf->cum_bytes = 0;
1892 /* Update the progress bar when it gets to this value. */
1893 progbar_nextstep = 0;
1894 /* When we reach the value that triggers a progress bar update,
1895 bump that value by this amount. */
1896 progbar_quantum = cf->count/N_PROGBAR_UPDATES;
1897 /* Count of packets at which we've looked. */
1898 count = 0;
1899 /* Progress so far. */
1900 progbar_val = 0.0f;
1902 stop_flag = FALSE;
1903 g_get_current_time(&start_time);
1905 /* no previous row yet */
1906 prev_frame_num = -1;
1907 prev_frame = NULL;
1909 preceding_frame_num = -1;
1910 preceding_frame = NULL;
1911 following_frame_num = -1;
1912 following_frame = NULL;
1914 selected_frame_seen = FALSE;
1916 frames_count = cf->count;
1918 epan_dissect_init(&edt, cf->epan, create_proto_tree, FALSE);
1920 for (framenum = 1; framenum <= frames_count; framenum++) {
1921 fdata = frame_data_sequence_find(cf->frames, framenum);
1923 /* Create the progress bar if necessary.
1924 We check on every iteration of the loop, so that it takes no
1925 longer than the standard time to create it (otherwise, for a
1926 large file, we might take considerably longer than that standard
1927 time in order to get to the next progress bar step). */
1928 if (progbar == NULL)
1929 progbar = delayed_create_progress_dlg(cf->window, action, action_item, TRUE,
1930 &stop_flag, &start_time,
1931 progbar_val);
1933 /* Update the progress bar, but do it only N_PROGBAR_UPDATES times;
1934 when we update it, we have to run the GTK+ main loop to get it
1935 to repaint what's pending, and doing so may involve an "ioctl()"
1936 to see if there's any pending input from an X server, and doing
1937 that for every packet can be costly, especially on a big file. */
1938 if (count >= progbar_nextstep) {
1939 /* let's not divide by zero. I should never be started
1940 * with count == 0, so let's assert that
1942 g_assert(cf->count > 0);
1943 progbar_val = (gfloat) count / frames_count;
1945 if (progbar != NULL) {
1946 g_snprintf(status_str, sizeof(status_str),
1947 "%4u of %u frames", count, frames_count);
1948 update_progress_dlg(progbar, progbar_val, status_str);
1951 progbar_nextstep += progbar_quantum;
1954 if (stop_flag) {
1955 /* Well, the user decided to abort the filtering. Just stop.
1957 XXX - go back to the previous filter? Users probably just
1958 want not to wait for a filtering operation to finish;
1959 unless we cancel by having no filter, reverting to the
1960 previous filter will probably be even more expensive than
1961 continuing the filtering, as it involves going back to the
1962 beginning and filtering, and even with no filter we currently
1963 have to re-generate the entire clist, which is also expensive.
1965 I'm not sure what Network Monitor does, but it doesn't appear
1966 to give you an unfiltered display if you cancel. */
1967 break;
1970 count++;
1972 if (redissect) {
1973 /* Since all state for the frame was destroyed, mark the frame
1974 * as not visited, free the GSList referring to the state
1975 * data (the per-frame data itself was freed by
1976 * "init_dissection()"), and null out the GSList pointer. */
1977 frame_data_reset(fdata);
1978 frames_count = cf->count;
1981 /* Frame dependencies from the previous dissection/filtering are no longer valid. */
1982 fdata->flags.dependent_of_displayed = 0;
1984 if (!cf_read_frame(cf, fdata))
1985 break; /* error reading the frame */
1987 /* If the previous frame is displayed, and we haven't yet seen the
1988 selected frame, remember that frame - it's the closest one we've
1989 yet seen before the selected frame. */
1990 if (prev_frame_num != -1 && !selected_frame_seen && prev_frame->flags.passed_dfilter) {
1991 preceding_frame_num = prev_frame_num;
1992 preceding_frame = prev_frame;
1995 add_packet_to_packet_list(fdata, cf, &edt, dfcode,
1996 cinfo, &cf->phdr,
1997 buffer_start_ptr(&cf->buf),
1998 add_to_packet_list);
2000 /* If this frame is displayed, and this is the first frame we've
2001 seen displayed after the selected frame, remember this frame -
2002 it's the closest one we've yet seen at or after the selected
2003 frame. */
2004 if (fdata->flags.passed_dfilter && selected_frame_seen && following_frame_num == -1) {
2005 following_frame_num = fdata->num;
2006 following_frame = fdata;
2008 if (fdata == selected_frame) {
2009 selected_frame_seen = TRUE;
2010 if (fdata->flags.passed_dfilter)
2011 selected_frame_num = fdata->num;
2014 /* Remember this frame - it'll be the previous frame
2015 on the next pass through the loop. */
2016 prev_frame_num = fdata->num;
2017 prev_frame = fdata;
2020 epan_dissect_cleanup(&edt);
2022 /* We are done redissecting the packet list. */
2023 cf->redissecting = FALSE;
2025 if (redissect) {
2026 frames_count = cf->count;
2027 /* Clear out what remains of the visited flags and per-frame data
2028 pointers.
2030 XXX - that may cause various forms of bogosity when dissecting
2031 these frames, as they won't have been seen by this sequential
2032 pass, but the only alternative I see is to keep scanning them
2033 even though the user requested that the scan stop, and that
2034 would leave the user stuck with an Wireshark grinding on
2035 until it finishes. Should we just stick them with that? */
2036 for (; framenum <= frames_count; framenum++) {
2037 fdata = frame_data_sequence_find(cf->frames, framenum);
2038 frame_data_reset(fdata);
2042 /* We're done filtering the packets; destroy the progress bar if it
2043 was created. */
2044 if (progbar != NULL)
2045 destroy_progress_dlg(progbar);
2047 /* Unfreeze the packet list. */
2048 if (!add_to_packet_list)
2049 packet_list_recreate_visible_rows();
2051 /* Compute the time it took to filter the file */
2052 compute_elapsed(cf, &start_time);
2054 packet_list_thaw();
2056 if (selected_frame_num == -1) {
2057 /* The selected frame didn't pass the filter. */
2058 if (selected_frame == NULL) {
2059 /* That's because there *was* no selected frame. Make the first
2060 displayed frame the current frame. */
2061 selected_frame_num = 0;
2062 } else {
2063 /* Find the nearest displayed frame to the selected frame (whether
2064 it's before or after that frame) and make that the current frame.
2065 If the next and previous displayed frames are equidistant from the
2066 selected frame, choose the next one. */
2067 g_assert(following_frame == NULL ||
2068 following_frame->num >= selected_frame->num);
2069 g_assert(preceding_frame == NULL ||
2070 preceding_frame->num <= selected_frame->num);
2071 if (following_frame == NULL) {
2072 /* No frame after the selected frame passed the filter, so we
2073 have to select the last displayed frame before the selected
2074 frame. */
2075 selected_frame_num = preceding_frame_num;
2076 selected_frame = preceding_frame;
2077 } else if (preceding_frame == NULL) {
2078 /* No frame before the selected frame passed the filter, so we
2079 have to select the first displayed frame after the selected
2080 frame. */
2081 selected_frame_num = following_frame_num;
2082 selected_frame = following_frame;
2083 } else {
2084 /* Frames before and after the selected frame passed the filter, so
2085 we'll select the previous frame */
2086 selected_frame_num = preceding_frame_num;
2087 selected_frame = preceding_frame;
2092 if (selected_frame_num == -1) {
2093 /* There are no frames displayed at all. */
2094 cf_unselect_packet(cf);
2095 } else {
2096 /* Either the frame that was selected passed the filter, or we've
2097 found the nearest displayed frame to that frame. Select it, make
2098 it the focus row, and make it visible. */
2099 /* Set to invalid to force update of packet list and packet details */
2100 cf->current_row = -1;
2101 if (selected_frame_num == 0) {
2102 packet_list_select_first_row();
2103 }else{
2104 if (!packet_list_select_row_from_data(selected_frame)) {
2105 /* We didn't find a row corresponding to this frame.
2106 This means that the frame isn't being displayed currently,
2107 so we can't select it. */
2108 simple_message_box(ESD_TYPE_INFO, NULL,
2109 "The capture file is probably not fully dissected.",
2110 "End of capture exceeded!");
2115 /* Cleanup and release all dfilter resources */
2116 dfilter_free(dfcode);
2121 * Scan trough all frame data and recalculate the ref time
2122 * without rereading the file.
2123 * XXX - do we need a progres bar or is this fast enough?
2125 static void
2126 ref_time_packets(capture_file *cf)
2128 guint32 framenum;
2129 frame_data *fdata;
2130 nstime_t rel_ts;
2132 cf->ref = NULL;
2133 cf->prev_dis = NULL;
2134 cf->cum_bytes = 0;
2136 for (framenum = 1; framenum <= cf->count; framenum++) {
2137 fdata = frame_data_sequence_find(cf->frames, framenum);
2139 /* just add some value here until we know if it is being displayed or not */
2140 fdata->cum_bytes = cf->cum_bytes + fdata->pkt_len;
2143 *Timestamps
2146 /* If we don't have the time stamp of the first packet in the
2147 capture, it's because this is the first packet. Save the time
2148 stamp of this packet as the time stamp of the first packet. */
2149 if (cf->ref == NULL)
2150 cf->ref = fdata;
2151 /* if this frames is marked as a reference time frame, reset
2152 firstsec and firstusec to this frame */
2153 if (fdata->flags.ref_time)
2154 cf->ref = fdata;
2156 /* If we don't have the time stamp of the previous displayed packet,
2157 it's because this is the first displayed packet. Save the time
2158 stamp of this packet as the time stamp of the previous displayed
2159 packet. */
2160 if (cf->prev_dis == NULL) {
2161 cf->prev_dis = fdata;
2164 /* Get the time elapsed between the first packet and this packet. */
2165 fdata->frame_ref_num = (fdata != cf->ref) ? cf->ref->num : 0;
2166 nstime_delta(&rel_ts, &fdata->abs_ts, &cf->ref->abs_ts);
2168 /* If it's greater than the current elapsed time, set the elapsed time
2169 to it (we check for "greater than" so as not to be confused by
2170 time moving backwards). */
2171 if ((gint32)cf->elapsed_time.secs < rel_ts.secs
2172 || ((gint32)cf->elapsed_time.secs == rel_ts.secs && (gint32)cf->elapsed_time.nsecs < rel_ts.nsecs)) {
2173 cf->elapsed_time = rel_ts;
2176 /* If this frame is displayed, get the time elapsed between the
2177 previous displayed packet and this packet. */
2178 if ( fdata->flags.passed_dfilter ) {
2179 fdata->prev_dis_num = cf->prev_dis->num;
2180 cf->prev_dis = fdata;
2184 * Byte counts
2186 if ( (fdata->flags.passed_dfilter) || (fdata->flags.ref_time) ) {
2187 /* This frame either passed the display filter list or is marked as
2188 a time reference frame. All time reference frames are displayed
2189 even if they dont pass the display filter */
2190 if (fdata->flags.ref_time) {
2191 /* if this was a TIME REF frame we should reset the cum_bytes field */
2192 cf->cum_bytes = fdata->pkt_len;
2193 fdata->cum_bytes = cf->cum_bytes;
2194 } else {
2195 /* increase cum_bytes with this packets length */
2196 cf->cum_bytes += fdata->pkt_len;
2202 typedef enum {
2203 PSP_FINISHED,
2204 PSP_STOPPED,
2205 PSP_FAILED
2206 } psp_return_t;
2208 static psp_return_t
2209 process_specified_packets(capture_file *cf, packet_range_t *range,
2210 const char *string1, const char *string2, gboolean terminate_is_stop,
2211 gboolean (*callback)(capture_file *, frame_data *,
2212 struct wtap_pkthdr *, const guint8 *, void *),
2213 void *callback_args)
2215 guint32 framenum;
2216 frame_data *fdata;
2217 Buffer buf;
2218 psp_return_t ret = PSP_FINISHED;
2220 progdlg_t *progbar = NULL;
2221 int progbar_count;
2222 float progbar_val;
2223 gboolean progbar_stop_flag;
2224 GTimeVal progbar_start_time;
2225 gchar progbar_status_str[100];
2226 int progbar_nextstep;
2227 int progbar_quantum;
2228 range_process_e process_this;
2229 struct wtap_pkthdr phdr;
2231 memset(&phdr, 0, sizeof(struct wtap_pkthdr));
2232 buffer_init(&buf, 1500);
2234 /* Update the progress bar when it gets to this value. */
2235 progbar_nextstep = 0;
2236 /* When we reach the value that triggers a progress bar update,
2237 bump that value by this amount. */
2238 progbar_quantum = cf->count/N_PROGBAR_UPDATES;
2239 /* Count of packets at which we've looked. */
2240 progbar_count = 0;
2241 /* Progress so far. */
2242 progbar_val = 0.0f;
2244 progbar_stop_flag = FALSE;
2245 g_get_current_time(&progbar_start_time);
2247 if (range != NULL)
2248 packet_range_process_init(range);
2250 /* Iterate through all the packets, printing the packets that
2251 were selected by the current display filter. */
2252 for (framenum = 1; framenum <= cf->count; framenum++) {
2253 fdata = frame_data_sequence_find(cf->frames, framenum);
2255 /* Create the progress bar if necessary.
2256 We check on every iteration of the loop, so that it takes no
2257 longer than the standard time to create it (otherwise, for a
2258 large file, we might take considerably longer than that standard
2259 time in order to get to the next progress bar step). */
2260 if (progbar == NULL)
2261 progbar = delayed_create_progress_dlg(cf->window, string1, string2,
2262 terminate_is_stop,
2263 &progbar_stop_flag,
2264 &progbar_start_time,
2265 progbar_val);
2267 /* Update the progress bar, but do it only N_PROGBAR_UPDATES times;
2268 when we update it, we have to run the GTK+ main loop to get it
2269 to repaint what's pending, and doing so may involve an "ioctl()"
2270 to see if there's any pending input from an X server, and doing
2271 that for every packet can be costly, especially on a big file. */
2272 if (progbar_count >= progbar_nextstep) {
2273 /* let's not divide by zero. I should never be started
2274 * with count == 0, so let's assert that
2276 g_assert(cf->count > 0);
2277 progbar_val = (gfloat) progbar_count / cf->count;
2279 if (progbar != NULL) {
2280 g_snprintf(progbar_status_str, sizeof(progbar_status_str),
2281 "%4u of %u packets", progbar_count, cf->count);
2282 update_progress_dlg(progbar, progbar_val, progbar_status_str);
2285 progbar_nextstep += progbar_quantum;
2288 if (progbar_stop_flag) {
2289 /* Well, the user decided to abort the operation. Just stop,
2290 and arrange to return PSP_STOPPED to our caller, so they know
2291 it was stopped explicitly. */
2292 ret = PSP_STOPPED;
2293 break;
2296 progbar_count++;
2298 if (range != NULL) {
2299 /* do we have to process this packet? */
2300 process_this = packet_range_process_packet(range, fdata);
2301 if (process_this == range_process_next) {
2302 /* this packet uninteresting, continue with next one */
2303 continue;
2304 } else if (process_this == range_processing_finished) {
2305 /* all interesting packets processed, stop the loop */
2306 break;
2310 /* Get the packet */
2311 if (!cf_read_frame_r(cf, fdata, &phdr, &buf)) {
2312 /* Attempt to get the packet failed. */
2313 ret = PSP_FAILED;
2314 break;
2316 /* Process the packet */
2317 if (!callback(cf, fdata, &phdr, buffer_start_ptr(&buf), callback_args)) {
2318 /* Callback failed. We assume it reported the error appropriately. */
2319 ret = PSP_FAILED;
2320 break;
2324 /* We're done printing the packets; destroy the progress bar if
2325 it was created. */
2326 if (progbar != NULL)
2327 destroy_progress_dlg(progbar);
2329 buffer_free(&buf);
2331 return ret;
2334 typedef struct {
2335 epan_dissect_t edt;
2336 column_info *cinfo;
2337 } retap_callback_args_t;
2339 static gboolean
2340 retap_packet(capture_file *cf _U_, frame_data *fdata,
2341 struct wtap_pkthdr *phdr, const guint8 *pd,
2342 void *argsp)
2344 retap_callback_args_t *args = (retap_callback_args_t *)argsp;
2346 epan_dissect_run_with_taps(&args->edt, phdr, frame_tvbuff_new(fdata, pd), fdata, args->cinfo);
2347 epan_dissect_reset(&args->edt);
2349 return TRUE;
2352 cf_read_status_t
2353 cf_retap_packets(capture_file *cf)
2355 packet_range_t range;
2356 retap_callback_args_t callback_args;
2357 gboolean construct_protocol_tree;
2358 gboolean filtering_tap_listeners;
2359 guint tap_flags;
2360 psp_return_t ret;
2362 /* Do we have any tap listeners with filters? */
2363 filtering_tap_listeners = have_filtering_tap_listeners();
2365 tap_flags = union_of_tap_listener_flags();
2367 /* If any tap listeners have filters, or require the protocol tree,
2368 construct the protocol tree. */
2369 construct_protocol_tree = filtering_tap_listeners ||
2370 (tap_flags & TL_REQUIRES_PROTO_TREE);
2372 /* If any tap listeners require the columns, construct them. */
2373 callback_args.cinfo = (tap_flags & TL_REQUIRES_COLUMNS) ? &cf->cinfo : NULL;
2375 /* Reset the tap listeners. */
2376 reset_tap_listeners();
2378 epan_dissect_init(&callback_args.edt, cf->epan, construct_protocol_tree, FALSE);
2380 /* Iterate through the list of packets, dissecting all packets and
2381 re-running the taps. */
2382 packet_range_init(&range, cf);
2383 packet_range_process_init(&range);
2385 ret = process_specified_packets(cf, &range, "Recalculating statistics on",
2386 "all packets", TRUE, retap_packet,
2387 &callback_args);
2389 epan_dissect_cleanup(&callback_args.edt);
2391 switch (ret) {
2392 case PSP_FINISHED:
2393 /* Completed successfully. */
2394 return CF_READ_OK;
2396 case PSP_STOPPED:
2397 /* Well, the user decided to abort the refiltering.
2398 Return CF_READ_ABORTED so our caller knows they did that. */
2399 return CF_READ_ABORTED;
2401 case PSP_FAILED:
2402 /* Error while retapping. */
2403 return CF_READ_ERROR;
2406 g_assert_not_reached();
2407 return CF_READ_OK;
2410 typedef struct {
2411 print_args_t *print_args;
2412 gboolean print_header_line;
2413 char *header_line_buf;
2414 int header_line_buf_len;
2415 gboolean print_formfeed;
2416 gboolean print_separator;
2417 char *line_buf;
2418 int line_buf_len;
2419 gint *col_widths;
2420 int num_visible_cols;
2421 gint *visible_cols;
2422 epan_dissect_t edt;
2423 } print_callback_args_t;
2425 static gboolean
2426 print_packet(capture_file *cf, frame_data *fdata,
2427 struct wtap_pkthdr *phdr, const guint8 *pd,
2428 void *argsp)
2430 print_callback_args_t *args = (print_callback_args_t *)argsp;
2431 int i;
2432 char *cp;
2433 int line_len;
2434 int column_len;
2435 int cp_off;
2436 char bookmark_name[9+10+1]; /* "__frameNNNNNNNNNN__\0" */
2437 char bookmark_title[6+10+1]; /* "Frame NNNNNNNNNN__\0" */
2439 /* Fill in the column information if we're printing the summary
2440 information. */
2441 if (args->print_args->print_summary) {
2442 col_custom_prime_edt(&args->edt, &cf->cinfo);
2443 epan_dissect_run(&args->edt, phdr, frame_tvbuff_new(fdata, pd), fdata, &cf->cinfo);
2444 epan_dissect_fill_in_columns(&args->edt, FALSE, TRUE);
2445 } else
2446 epan_dissect_run(&args->edt, phdr, frame_tvbuff_new(fdata, pd), fdata, NULL);
2448 if (args->print_formfeed) {
2449 if (!new_page(args->print_args->stream))
2450 goto fail;
2451 } else {
2452 if (args->print_separator) {
2453 if (!print_line(args->print_args->stream, 0, ""))
2454 goto fail;
2459 * We generate bookmarks, if the output format supports them.
2460 * The name is "__frameN__".
2462 g_snprintf(bookmark_name, sizeof bookmark_name, "__frame%u__", fdata->num);
2464 if (args->print_args->print_summary) {
2465 if (!args->print_args->print_col_headings)
2466 args->print_header_line = FALSE;
2467 if (args->print_header_line) {
2468 if (!print_line(args->print_args->stream, 0, args->header_line_buf))
2469 goto fail;
2470 args->print_header_line = FALSE; /* we might not need to print any more */
2472 cp = &args->line_buf[0];
2473 line_len = 0;
2474 for (i = 0; i < args->num_visible_cols; i++) {
2475 /* Find the length of the string for this column. */
2476 column_len = (int) strlen(cf->cinfo.col_data[args->visible_cols[i]]);
2477 if (args->col_widths[i] > column_len)
2478 column_len = args->col_widths[i];
2480 /* Make sure there's room in the line buffer for the column; if not,
2481 double its length. */
2482 line_len += column_len + 1; /* "+1" for space */
2483 if (line_len > args->line_buf_len) {
2484 cp_off = (int) (cp - args->line_buf);
2485 args->line_buf_len = 2 * line_len;
2486 args->line_buf = (char *)g_realloc(args->line_buf, args->line_buf_len + 1);
2487 cp = args->line_buf + cp_off;
2490 /* Right-justify the packet number column. */
2491 if (cf->cinfo.col_fmt[args->visible_cols[i]] == COL_NUMBER)
2492 g_snprintf(cp, column_len+1, "%*s", args->col_widths[i], cf->cinfo.col_data[args->visible_cols[i]]);
2493 else
2494 g_snprintf(cp, column_len+1, "%-*s", args->col_widths[i], cf->cinfo.col_data[args->visible_cols[i]]);
2495 cp += column_len;
2496 if (i != args->num_visible_cols - 1)
2497 *cp++ = ' ';
2499 *cp = '\0';
2502 * Generate a bookmark, using the summary line as the title.
2504 if (!print_bookmark(args->print_args->stream, bookmark_name,
2505 args->line_buf))
2506 goto fail;
2508 if (!print_line(args->print_args->stream, 0, args->line_buf))
2509 goto fail;
2510 } else {
2512 * Generate a bookmark, using "Frame N" as the title, as we're not
2513 * printing the summary line.
2515 g_snprintf(bookmark_title, sizeof bookmark_title, "Frame %u", fdata->num);
2516 if (!print_bookmark(args->print_args->stream, bookmark_name,
2517 bookmark_title))
2518 goto fail;
2519 } /* if (print_summary) */
2521 if (args->print_args->print_dissections != print_dissections_none) {
2522 if (args->print_args->print_summary) {
2523 /* Separate the summary line from the tree with a blank line. */
2524 if (!print_line(args->print_args->stream, 0, ""))
2525 goto fail;
2528 /* Print the information in that tree. */
2529 if (!proto_tree_print(args->print_args, &args->edt, args->print_args->stream))
2530 goto fail;
2532 /* Print a blank line if we print anything after this (aka more than one packet). */
2533 args->print_separator = TRUE;
2535 /* Print a header line if we print any more packet summaries */
2536 if (args->print_args->print_col_headings)
2537 args->print_header_line = TRUE;
2540 if (args->print_args->print_hex) {
2541 if (args->print_args->print_summary || (args->print_args->print_dissections != print_dissections_none)) {
2542 if (!print_line(args->print_args->stream, 0, ""))
2543 goto fail;
2545 /* Print the full packet data as hex. */
2546 if (!print_hex_data(args->print_args->stream, &args->edt))
2547 goto fail;
2549 /* Print a blank line if we print anything after this (aka more than one packet). */
2550 args->print_separator = TRUE;
2552 /* Print a header line if we print any more packet summaries */
2553 if (args->print_args->print_col_headings)
2554 args->print_header_line = TRUE;
2555 } /* if (args->print_args->print_dissections != print_dissections_none) */
2557 epan_dissect_reset(&args->edt);
2559 /* do we want to have a formfeed between each packet from now on? */
2560 if (args->print_args->print_formfeed) {
2561 args->print_formfeed = TRUE;
2564 return TRUE;
2566 fail:
2567 epan_dissect_reset(&args->edt);
2568 return FALSE;
2571 cf_print_status_t
2572 cf_print_packets(capture_file *cf, print_args_t *print_args)
2574 print_callback_args_t callback_args;
2575 gint data_width;
2576 char *cp;
2577 int i, cp_off, column_len, line_len;
2578 int num_visible_col = 0, last_visible_col = 0, visible_col_count;
2579 psp_return_t ret;
2580 GList *clp;
2581 fmt_data *cfmt;
2582 gboolean proto_tree_needed;
2584 callback_args.print_args = print_args;
2585 callback_args.print_header_line = print_args->print_col_headings;
2586 callback_args.header_line_buf = NULL;
2587 callback_args.header_line_buf_len = 256;
2588 callback_args.print_formfeed = FALSE;
2589 callback_args.print_separator = FALSE;
2590 callback_args.line_buf = NULL;
2591 callback_args.line_buf_len = 256;
2592 callback_args.col_widths = NULL;
2593 callback_args.num_visible_cols = 0;
2594 callback_args.visible_cols = NULL;
2596 if (!print_preamble(print_args->stream, cf->filename, wireshark_svnversion)) {
2597 destroy_print_stream(print_args->stream);
2598 return CF_PRINT_WRITE_ERROR;
2601 if (print_args->print_summary) {
2602 /* We're printing packet summaries. Allocate the header line buffer
2603 and get the column widths. */
2604 callback_args.header_line_buf = (char *)g_malloc(callback_args.header_line_buf_len + 1);
2606 /* Find the number of visible columns and the last visible column */
2607 for (i = 0; i < prefs.num_cols; i++) {
2609 clp = g_list_nth(prefs.col_list, i);
2610 if (clp == NULL) /* Sanity check, Invalid column requested */
2611 continue;
2613 cfmt = (fmt_data *) clp->data;
2614 if (cfmt->visible) {
2615 num_visible_col++;
2616 last_visible_col = i;
2620 /* Find the widths for each of the columns - maximum of the
2621 width of the title and the width of the data - and construct
2622 a buffer with a line containing the column titles. */
2623 callback_args.num_visible_cols = num_visible_col;
2624 callback_args.col_widths = (gint *) g_malloc(sizeof(gint) * num_visible_col);
2625 callback_args.visible_cols = (gint *) g_malloc(sizeof(gint) * num_visible_col);
2626 cp = &callback_args.header_line_buf[0];
2627 line_len = 0;
2628 visible_col_count = 0;
2629 for (i = 0; i < cf->cinfo.num_cols; i++) {
2631 clp = g_list_nth(prefs.col_list, i);
2632 if (clp == NULL) /* Sanity check, Invalid column requested */
2633 continue;
2635 cfmt = (fmt_data *) clp->data;
2636 if (cfmt->visible == FALSE)
2637 continue;
2639 /* Save the order of visible columns */
2640 callback_args.visible_cols[visible_col_count] = i;
2642 /* Don't pad the last column. */
2643 if (i == last_visible_col)
2644 callback_args.col_widths[visible_col_count] = 0;
2645 else {
2646 callback_args.col_widths[visible_col_count] = (gint) strlen(cf->cinfo.col_title[i]);
2647 data_width = get_column_char_width(get_column_format(i));
2648 if (data_width > callback_args.col_widths[visible_col_count])
2649 callback_args.col_widths[visible_col_count] = data_width;
2652 /* Find the length of the string for this column. */
2653 column_len = (int) strlen(cf->cinfo.col_title[i]);
2654 if (callback_args.col_widths[i] > column_len)
2655 column_len = callback_args.col_widths[visible_col_count];
2657 /* Make sure there's room in the line buffer for the column; if not,
2658 double its length. */
2659 line_len += column_len + 1; /* "+1" for space */
2660 if (line_len > callback_args.header_line_buf_len) {
2661 cp_off = (int) (cp - callback_args.header_line_buf);
2662 callback_args.header_line_buf_len = 2 * line_len;
2663 callback_args.header_line_buf = (char *)g_realloc(callback_args.header_line_buf,
2664 callback_args.header_line_buf_len + 1);
2665 cp = callback_args.header_line_buf + cp_off;
2668 /* Right-justify the packet number column. */
2669 /* if (cf->cinfo.col_fmt[i] == COL_NUMBER)
2670 g_snprintf(cp, column_len+1, "%*s", callback_args.col_widths[visible_col_count], cf->cinfo.col_title[i]);
2671 else*/
2672 g_snprintf(cp, column_len+1, "%-*s", callback_args.col_widths[visible_col_count], cf->cinfo.col_title[i]);
2673 cp += column_len;
2674 if (i != cf->cinfo.num_cols - 1)
2675 *cp++ = ' ';
2677 visible_col_count++;
2679 *cp = '\0';
2681 /* Now start out the main line buffer with the same length as the
2682 header line buffer. */
2683 callback_args.line_buf_len = callback_args.header_line_buf_len;
2684 callback_args.line_buf = (char *)g_malloc(callback_args.line_buf_len + 1);
2685 } /* if (print_summary) */
2687 /* Create the protocol tree, and make it visible, if we're printing
2688 the dissection or the hex data.
2689 XXX - do we need it if we're just printing the hex data? */
2690 proto_tree_needed =
2691 callback_args.print_args->print_dissections != print_dissections_none ||
2692 callback_args.print_args->print_hex ||
2693 have_custom_cols(&cf->cinfo);
2694 epan_dissect_init(&callback_args.edt, cf->epan, proto_tree_needed, proto_tree_needed);
2696 /* Iterate through the list of packets, printing the packets we were
2697 told to print. */
2698 ret = process_specified_packets(cf, &print_args->range, "Printing",
2699 "selected packets", TRUE, print_packet,
2700 &callback_args);
2701 epan_dissect_cleanup(&callback_args.edt);
2702 g_free(callback_args.header_line_buf);
2703 g_free(callback_args.line_buf);
2704 g_free(callback_args.col_widths);
2705 g_free(callback_args.visible_cols);
2707 switch (ret) {
2709 case PSP_FINISHED:
2710 /* Completed successfully. */
2711 break;
2713 case PSP_STOPPED:
2714 /* Well, the user decided to abort the printing.
2716 XXX - note that what got generated before they did that
2717 will get printed if we're piping to a print program; we'd
2718 have to write to a file and then hand that to the print
2719 program to make it actually not print anything. */
2720 break;
2722 case PSP_FAILED:
2723 /* Error while printing.
2725 XXX - note that what got generated before they did that
2726 will get printed if we're piping to a print program; we'd
2727 have to write to a file and then hand that to the print
2728 program to make it actually not print anything. */
2729 destroy_print_stream(print_args->stream);
2730 return CF_PRINT_WRITE_ERROR;
2733 if (!print_finale(print_args->stream)) {
2734 destroy_print_stream(print_args->stream);
2735 return CF_PRINT_WRITE_ERROR;
2738 if (!destroy_print_stream(print_args->stream))
2739 return CF_PRINT_WRITE_ERROR;
2741 return CF_PRINT_OK;
2744 typedef struct {
2745 FILE *fh;
2746 epan_dissect_t edt;
2747 } write_packet_callback_args_t;
2749 static gboolean
2750 write_pdml_packet(capture_file *cf _U_, frame_data *fdata,
2751 struct wtap_pkthdr *phdr, const guint8 *pd,
2752 void *argsp)
2754 write_packet_callback_args_t *args = (write_packet_callback_args_t *)argsp;
2756 /* Create the protocol tree, but don't fill in the column information. */
2757 epan_dissect_run(&args->edt, phdr, frame_tvbuff_new(fdata, pd), fdata, NULL);
2759 /* Write out the information in that tree. */
2760 proto_tree_write_pdml(&args->edt, args->fh);
2762 epan_dissect_reset(&args->edt);
2764 return !ferror(args->fh);
2767 cf_print_status_t
2768 cf_write_pdml_packets(capture_file *cf, print_args_t *print_args)
2770 write_packet_callback_args_t callback_args;
2771 FILE *fh;
2772 psp_return_t ret;
2774 fh = ws_fopen(print_args->file, "w");
2775 if (fh == NULL)
2776 return CF_PRINT_OPEN_ERROR; /* attempt to open destination failed */
2778 write_pdml_preamble(fh, cf->filename);
2779 if (ferror(fh)) {
2780 fclose(fh);
2781 return CF_PRINT_WRITE_ERROR;
2784 callback_args.fh = fh;
2785 epan_dissect_init(&callback_args.edt, cf->epan, TRUE, TRUE);
2787 /* Iterate through the list of packets, printing the packets we were
2788 told to print. */
2789 ret = process_specified_packets(cf, &print_args->range, "Writing PDML",
2790 "selected packets", TRUE,
2791 write_pdml_packet, &callback_args);
2793 epan_dissect_cleanup(&callback_args.edt);
2795 switch (ret) {
2797 case PSP_FINISHED:
2798 /* Completed successfully. */
2799 break;
2801 case PSP_STOPPED:
2802 /* Well, the user decided to abort the printing. */
2803 break;
2805 case PSP_FAILED:
2806 /* Error while printing. */
2807 fclose(fh);
2808 return CF_PRINT_WRITE_ERROR;
2811 write_pdml_finale(fh);
2812 if (ferror(fh)) {
2813 fclose(fh);
2814 return CF_PRINT_WRITE_ERROR;
2817 /* XXX - check for an error */
2818 fclose(fh);
2820 return CF_PRINT_OK;
2823 static gboolean
2824 write_psml_packet(capture_file *cf, frame_data *fdata,
2825 struct wtap_pkthdr *phdr, const guint8 *pd,
2826 void *argsp)
2828 write_packet_callback_args_t *args = (write_packet_callback_args_t *)argsp;
2830 col_custom_prime_edt(&args->edt, &cf->cinfo);
2831 epan_dissect_run(&args->edt, phdr, frame_tvbuff_new(fdata, pd), fdata, &cf->cinfo);
2832 epan_dissect_fill_in_columns(&args->edt, FALSE, TRUE);
2834 /* Write out the information in that tree. */
2835 proto_tree_write_psml(&args->edt, args->fh);
2837 epan_dissect_reset(&args->edt);
2839 return !ferror(args->fh);
2842 cf_print_status_t
2843 cf_write_psml_packets(capture_file *cf, print_args_t *print_args)
2845 write_packet_callback_args_t callback_args;
2846 FILE *fh;
2847 psp_return_t ret;
2849 gboolean proto_tree_needed;
2851 fh = ws_fopen(print_args->file, "w");
2852 if (fh == NULL)
2853 return CF_PRINT_OPEN_ERROR; /* attempt to open destination failed */
2855 write_psml_preamble(fh);
2856 if (ferror(fh)) {
2857 fclose(fh);
2858 return CF_PRINT_WRITE_ERROR;
2861 callback_args.fh = fh;
2863 /* Fill in the column information, only create the protocol tree
2864 if having custom columns. */
2865 proto_tree_needed = have_custom_cols(&cf->cinfo);
2866 epan_dissect_init(&callback_args.edt, cf->epan, proto_tree_needed, proto_tree_needed);
2868 /* Iterate through the list of packets, printing the packets we were
2869 told to print. */
2870 ret = process_specified_packets(cf, &print_args->range, "Writing PSML",
2871 "selected packets", TRUE,
2872 write_psml_packet, &callback_args);
2874 epan_dissect_cleanup(&callback_args.edt);
2876 switch (ret) {
2878 case PSP_FINISHED:
2879 /* Completed successfully. */
2880 break;
2882 case PSP_STOPPED:
2883 /* Well, the user decided to abort the printing. */
2884 break;
2886 case PSP_FAILED:
2887 /* Error while printing. */
2888 fclose(fh);
2889 return CF_PRINT_WRITE_ERROR;
2892 write_psml_finale(fh);
2893 if (ferror(fh)) {
2894 fclose(fh);
2895 return CF_PRINT_WRITE_ERROR;
2898 /* XXX - check for an error */
2899 fclose(fh);
2901 return CF_PRINT_OK;
2904 static gboolean
2905 write_csv_packet(capture_file *cf, frame_data *fdata,
2906 struct wtap_pkthdr *phdr, const guint8 *pd,
2907 void *argsp)
2909 write_packet_callback_args_t *args = (write_packet_callback_args_t *)argsp;
2911 /* Fill in the column information */
2912 col_custom_prime_edt(&args->edt, &cf->cinfo);
2913 epan_dissect_run(&args->edt, phdr, frame_tvbuff_new(fdata, pd), fdata, &cf->cinfo);
2914 epan_dissect_fill_in_columns(&args->edt, FALSE, TRUE);
2916 /* Write out the information in that tree. */
2917 proto_tree_write_csv(&args->edt, args->fh);
2919 epan_dissect_reset(&args->edt);
2921 return !ferror(args->fh);
2924 cf_print_status_t
2925 cf_write_csv_packets(capture_file *cf, print_args_t *print_args)
2927 write_packet_callback_args_t callback_args;
2928 gboolean proto_tree_needed;
2929 FILE *fh;
2930 psp_return_t ret;
2932 fh = ws_fopen(print_args->file, "w");
2933 if (fh == NULL)
2934 return CF_PRINT_OPEN_ERROR; /* attempt to open destination failed */
2936 write_csv_preamble(fh);
2937 if (ferror(fh)) {
2938 fclose(fh);
2939 return CF_PRINT_WRITE_ERROR;
2942 callback_args.fh = fh;
2944 /* only create the protocol tree if having custom columns. */
2945 proto_tree_needed = have_custom_cols(&cf->cinfo);
2946 epan_dissect_init(&callback_args.edt, cf->epan, proto_tree_needed, proto_tree_needed);
2948 /* Iterate through the list of packets, printing the packets we were
2949 told to print. */
2950 ret = process_specified_packets(cf, &print_args->range, "Writing CSV",
2951 "selected packets", TRUE,
2952 write_csv_packet, fh);
2954 epan_dissect_cleanup(&callback_args.edt);
2956 switch (ret) {
2958 case PSP_FINISHED:
2959 /* Completed successfully. */
2960 break;
2962 case PSP_STOPPED:
2963 /* Well, the user decided to abort the printing. */
2964 break;
2966 case PSP_FAILED:
2967 /* Error while printing. */
2968 fclose(fh);
2969 return CF_PRINT_WRITE_ERROR;
2972 write_csv_finale(fh);
2973 if (ferror(fh)) {
2974 fclose(fh);
2975 return CF_PRINT_WRITE_ERROR;
2978 /* XXX - check for an error */
2979 fclose(fh);
2981 return CF_PRINT_OK;
2984 static gboolean
2985 write_carrays_packet(capture_file *cf _U_, frame_data *fdata,
2986 struct wtap_pkthdr *phdr,
2987 const guint8 *pd, void *argsp)
2989 write_packet_callback_args_t *args = (write_packet_callback_args_t *)argsp;
2991 epan_dissect_run(&args->edt, phdr, frame_tvbuff_new(fdata, pd), fdata, NULL);
2992 proto_tree_write_carrays(fdata->num, args->fh, &args->edt);
2993 epan_dissect_reset(&args->edt);
2995 return !ferror(args->fh);
2998 cf_print_status_t
2999 cf_write_carrays_packets(capture_file *cf, print_args_t *print_args)
3001 write_packet_callback_args_t callback_args;
3002 FILE *fh;
3003 psp_return_t ret;
3005 fh = ws_fopen(print_args->file, "w");
3007 if (fh == NULL)
3008 return CF_PRINT_OPEN_ERROR; /* attempt to open destination failed */
3010 write_carrays_preamble(fh);
3012 if (ferror(fh)) {
3013 fclose(fh);
3014 return CF_PRINT_WRITE_ERROR;
3017 callback_args.fh = fh;
3018 epan_dissect_init(&callback_args.edt, cf->epan, TRUE, TRUE);
3020 /* Iterate through the list of packets, printing the packets we were
3021 told to print. */
3022 ret = process_specified_packets(cf, &print_args->range,
3023 "Writing C Arrays",
3024 "selected packets", TRUE,
3025 write_carrays_packet, &callback_args);
3027 epan_dissect_cleanup(&callback_args.edt);
3029 switch (ret) {
3030 case PSP_FINISHED:
3031 /* Completed successfully. */
3032 break;
3033 case PSP_STOPPED:
3034 /* Well, the user decided to abort the printing. */
3035 break;
3036 case PSP_FAILED:
3037 /* Error while printing. */
3038 fclose(fh);
3039 return CF_PRINT_WRITE_ERROR;
3042 write_carrays_finale(fh);
3044 if (ferror(fh)) {
3045 fclose(fh);
3046 return CF_PRINT_WRITE_ERROR;
3049 fclose(fh);
3050 return CF_PRINT_OK;
3053 gboolean
3054 cf_find_packet_protocol_tree(capture_file *cf, const char *string,
3055 search_direction dir)
3057 match_data mdata;
3059 mdata.string = string;
3060 mdata.string_len = strlen(string);
3061 return find_packet(cf, match_protocol_tree, &mdata, dir);
3064 gboolean
3065 cf_find_string_protocol_tree(capture_file *cf, proto_tree *tree, match_data *mdata)
3067 mdata->frame_matched = FALSE;
3068 mdata->string = convert_string_case(cf->sfilter, cf->case_type);
3069 mdata->string_len = strlen(mdata->string);
3070 mdata->cf = cf;
3071 /* Iterate through all the nodes looking for matching text */
3072 proto_tree_children_foreach(tree, match_subtree_text, mdata);
3073 return mdata->frame_matched ? MR_MATCHED : MR_NOTMATCHED;
3076 static match_result
3077 match_protocol_tree(capture_file *cf, frame_data *fdata, void *criterion)
3079 match_data *mdata = (match_data *)criterion;
3080 epan_dissect_t edt;
3082 /* Load the frame's data. */
3083 if (!cf_read_frame(cf, fdata)) {
3084 /* Attempt to get the packet failed. */
3085 return MR_ERROR;
3088 /* Construct the protocol tree, including the displayed text */
3089 epan_dissect_init(&edt, cf->epan, TRUE, TRUE);
3090 /* We don't need the column information */
3091 epan_dissect_run(&edt, &cf->phdr, frame_tvbuff_new_buffer(fdata, &cf->buf), fdata, NULL);
3093 /* Iterate through all the nodes, seeing if they have text that matches. */
3094 mdata->cf = cf;
3095 mdata->frame_matched = FALSE;
3096 proto_tree_children_foreach(edt.tree, match_subtree_text, mdata);
3097 epan_dissect_cleanup(&edt);
3098 return mdata->frame_matched ? MR_MATCHED : MR_NOTMATCHED;
3101 static void
3102 match_subtree_text(proto_node *node, gpointer data)
3104 match_data *mdata = (match_data *) data;
3105 const gchar *string = mdata->string;
3106 size_t string_len = mdata->string_len;
3107 capture_file *cf = mdata->cf;
3108 field_info *fi = PNODE_FINFO(node);
3109 gchar label_str[ITEM_LABEL_LENGTH];
3110 gchar *label_ptr;
3111 size_t label_len;
3112 guint32 i;
3113 guint8 c_char;
3114 size_t c_match = 0;
3116 /* dissection with an invisible proto tree? */
3117 g_assert(fi);
3119 if (mdata->frame_matched) {
3120 /* We already had a match; don't bother doing any more work. */
3121 return;
3124 /* Don't match invisible entries. */
3125 if (PROTO_ITEM_IS_HIDDEN(node))
3126 return;
3128 /* was a free format label produced? */
3129 if (fi->rep) {
3130 label_ptr = fi->rep->representation;
3131 } else {
3132 /* no, make a generic label */
3133 label_ptr = label_str;
3134 proto_item_fill_label(fi, label_str);
3137 /* Does that label match? */
3138 label_len = strlen(label_ptr);
3139 for (i = 0; i < label_len; i++) {
3140 c_char = label_ptr[i];
3141 if (cf->case_type)
3142 c_char = toupper(c_char);
3143 if (c_char == string[c_match]) {
3144 c_match++;
3145 if (c_match == string_len) {
3146 /* No need to look further; we have a match */
3147 mdata->frame_matched = TRUE;
3148 mdata->finfo = fi;
3149 return;
3151 } else
3152 c_match = 0;
3155 /* Recurse into the subtree, if it exists */
3156 if (node->first_child != NULL)
3157 proto_tree_children_foreach(node, match_subtree_text, mdata);
3160 gboolean
3161 cf_find_packet_summary_line(capture_file *cf, const char *string,
3162 search_direction dir)
3164 match_data mdata;
3166 mdata.string = string;
3167 mdata.string_len = strlen(string);
3168 return find_packet(cf, match_summary_line, &mdata, dir);
3171 static match_result
3172 match_summary_line(capture_file *cf, frame_data *fdata, void *criterion)
3174 match_data *mdata = (match_data *)criterion;
3175 const gchar *string = mdata->string;
3176 size_t string_len = mdata->string_len;
3177 epan_dissect_t edt;
3178 const char *info_column;
3179 size_t info_column_len;
3180 match_result result = MR_NOTMATCHED;
3181 gint colx;
3182 guint32 i;
3183 guint8 c_char;
3184 size_t c_match = 0;
3186 /* Load the frame's data. */
3187 if (!cf_read_frame(cf, fdata)) {
3188 /* Attempt to get the packet failed. */
3189 return MR_ERROR;
3192 /* Don't bother constructing the protocol tree */
3193 epan_dissect_init(&edt, cf->epan, FALSE, FALSE);
3194 /* Get the column information */
3195 epan_dissect_run(&edt, &cf->phdr, frame_tvbuff_new_buffer(fdata, &cf->buf), fdata,
3196 &cf->cinfo);
3198 /* Find the Info column */
3199 for (colx = 0; colx < cf->cinfo.num_cols; colx++) {
3200 if (cf->cinfo.fmt_matx[colx][COL_INFO]) {
3201 /* Found it. See if we match. */
3202 info_column = edt.pi.cinfo->col_data[colx];
3203 info_column_len = strlen(info_column);
3204 for (i = 0; i < info_column_len; i++) {
3205 c_char = info_column[i];
3206 if (cf->case_type)
3207 c_char = toupper(c_char);
3208 if (c_char == string[c_match]) {
3209 c_match++;
3210 if (c_match == string_len) {
3211 result = MR_MATCHED;
3212 break;
3214 } else
3215 c_match = 0;
3217 break;
3220 epan_dissect_cleanup(&edt);
3221 return result;
3224 typedef struct {
3225 const guint8 *data;
3226 size_t data_len;
3227 } cbs_t; /* "Counted byte string" */
3231 * The current match_* routines only support ASCII case insensitivity and don't
3232 * convert UTF-8 inputs to UTF-16 for matching.
3234 * We could modify them to use the GLib Unicode routines or the International
3235 * Components for Unicode library but it's not apparent that we could do so
3236 * without consuming a lot more CPU and memory or that searching would be
3237 * significantly better.
3240 gboolean
3241 cf_find_packet_data(capture_file *cf, const guint8 *string, size_t string_size,
3242 search_direction dir)
3244 cbs_t info;
3246 info.data = string;
3247 info.data_len = string_size;
3249 /* String or hex search? */
3250 if (cf->string) {
3251 /* String search - what type of string? */
3252 switch (cf->scs_type) {
3254 case SCS_NARROW_AND_WIDE:
3255 return find_packet(cf, match_narrow_and_wide, &info, dir);
3257 case SCS_NARROW:
3258 return find_packet(cf, match_narrow, &info, dir);
3260 case SCS_WIDE:
3261 return find_packet(cf, match_wide, &info, dir);
3263 default:
3264 g_assert_not_reached();
3265 return FALSE;
3267 } else
3268 return find_packet(cf, match_binary, &info, dir);
3271 static match_result
3272 match_narrow_and_wide(capture_file *cf, frame_data *fdata, void *criterion)
3274 cbs_t *info = (cbs_t *)criterion;
3275 const guint8 *ascii_text = info->data;
3276 size_t textlen = info->data_len;
3277 match_result result;
3278 guint32 buf_len;
3279 guint8 *pd;
3280 guint32 i;
3281 guint8 c_char;
3282 size_t c_match = 0;
3284 /* Load the frame's data. */
3285 if (!cf_read_frame(cf, fdata)) {
3286 /* Attempt to get the packet failed. */
3287 return MR_ERROR;
3290 result = MR_NOTMATCHED;
3291 buf_len = fdata->cap_len;
3292 pd = buffer_start_ptr(&cf->buf);
3293 i = 0;
3294 while (i < buf_len) {
3295 c_char = pd[i];
3296 if (cf->case_type)
3297 c_char = toupper(c_char);
3298 if (c_char != '\0') {
3299 if (c_char == ascii_text[c_match]) {
3300 c_match += 1;
3301 if (c_match == textlen) {
3302 result = MR_MATCHED;
3303 cf->search_pos = i; /* Save the position of the last character
3304 for highlighting the field. */
3305 break;
3308 else {
3309 g_assert(i>=c_match);
3310 i -= (guint32)c_match;
3311 c_match = 0;
3314 i += 1;
3316 return result;
3319 static match_result
3320 match_narrow(capture_file *cf, frame_data *fdata, void *criterion)
3322 guint8 *pd;
3323 cbs_t *info = (cbs_t *)criterion;
3324 const guint8 *ascii_text = info->data;
3325 size_t textlen = info->data_len;
3326 match_result result;
3327 guint32 buf_len;
3328 guint32 i;
3329 guint8 c_char;
3330 size_t c_match = 0;
3332 /* Load the frame's data. */
3333 if (!cf_read_frame(cf, fdata)) {
3334 /* Attempt to get the packet failed. */
3335 return MR_ERROR;
3338 result = MR_NOTMATCHED;
3339 buf_len = fdata->cap_len;
3340 pd = buffer_start_ptr(&cf->buf);
3341 i = 0;
3342 while (i < buf_len) {
3343 c_char = pd[i];
3344 if (cf->case_type)
3345 c_char = toupper(c_char);
3346 if (c_char == ascii_text[c_match]) {
3347 c_match += 1;
3348 if (c_match == textlen) {
3349 result = MR_MATCHED;
3350 cf->search_pos = i; /* Save the position of the last character
3351 for highlighting the field. */
3352 break;
3355 else {
3356 g_assert(i>=c_match);
3357 i -= (guint32)c_match;
3358 c_match = 0;
3360 i += 1;
3363 return result;
3366 static match_result
3367 match_wide(capture_file *cf, frame_data *fdata, void *criterion)
3369 cbs_t *info = (cbs_t *)criterion;
3370 const guint8 *ascii_text = info->data;
3371 size_t textlen = info->data_len;
3372 match_result result;
3373 guint32 buf_len;
3374 guint8 *pd;
3375 guint32 i;
3376 guint8 c_char;
3377 size_t c_match = 0;
3379 /* Load the frame's data. */
3380 if (!cf_read_frame(cf, fdata)) {
3381 /* Attempt to get the packet failed. */
3382 return MR_ERROR;
3385 result = MR_NOTMATCHED;
3386 buf_len = fdata->cap_len;
3387 pd = buffer_start_ptr(&cf->buf);
3388 i = 0;
3389 while (i < buf_len) {
3390 c_char = pd[i];
3391 if (cf->case_type)
3392 c_char = toupper(c_char);
3393 if (c_char == ascii_text[c_match]) {
3394 c_match += 1;
3395 if (c_match == textlen) {
3396 result = MR_MATCHED;
3397 cf->search_pos = i; /* Save the position of the last character
3398 for highlighting the field. */
3399 break;
3401 i += 1;
3403 else {
3404 g_assert(i>=(c_match*2));
3405 i -= (guint32)c_match*2;
3406 c_match = 0;
3408 i += 1;
3410 return result;
3413 static match_result
3414 match_binary(capture_file *cf, frame_data *fdata, void *criterion)
3416 cbs_t *info = (cbs_t *)criterion;
3417 const guint8 *binary_data = info->data;
3418 size_t datalen = info->data_len;
3419 match_result result;
3420 guint32 buf_len;
3421 guint8 *pd;
3422 guint32 i;
3423 size_t c_match = 0;
3425 /* Load the frame's data. */
3426 if (!cf_read_frame(cf, fdata)) {
3427 /* Attempt to get the packet failed. */
3428 return MR_ERROR;
3431 result = MR_NOTMATCHED;
3432 buf_len = fdata->cap_len;
3433 pd = buffer_start_ptr(&cf->buf);
3434 i = 0;
3435 while (i < buf_len) {
3436 if (pd[i] == binary_data[c_match]) {
3437 c_match += 1;
3438 if (c_match == datalen) {
3439 result = MR_MATCHED;
3440 cf->search_pos = i; /* Save the position of the last character
3441 for highlighting the field. */
3442 break;
3445 else {
3446 g_assert(i>=c_match);
3447 i -= (guint32)c_match;
3448 c_match = 0;
3450 i += 1;
3452 return result;
3455 gboolean
3456 cf_find_packet_dfilter(capture_file *cf, dfilter_t *sfcode,
3457 search_direction dir)
3459 return find_packet(cf, match_dfilter, sfcode, dir);
3462 gboolean
3463 cf_find_packet_dfilter_string(capture_file *cf, const char *filter,
3464 search_direction dir)
3466 dfilter_t *sfcode;
3467 gboolean result;
3469 if (!dfilter_compile(filter, &sfcode)) {
3471 * XXX - this shouldn't happen, as the filter string is machine
3472 * generated
3474 return FALSE;
3476 if (sfcode == NULL) {
3478 * XXX - this shouldn't happen, as the filter string is machine
3479 * generated.
3481 return FALSE;
3483 result = find_packet(cf, match_dfilter, sfcode, dir);
3484 dfilter_free(sfcode);
3485 return result;
3488 static match_result
3489 match_dfilter(capture_file *cf, frame_data *fdata, void *criterion)
3491 dfilter_t *sfcode = (dfilter_t *)criterion;
3492 epan_dissect_t edt;
3493 match_result result;
3495 /* Load the frame's data. */
3496 if (!cf_read_frame(cf, fdata)) {
3497 /* Attempt to get the packet failed. */
3498 return MR_ERROR;
3501 epan_dissect_init(&edt, cf->epan, TRUE, FALSE);
3502 epan_dissect_prime_dfilter(&edt, sfcode);
3503 epan_dissect_run(&edt, &cf->phdr, frame_tvbuff_new_buffer(fdata, &cf->buf), fdata, NULL);
3504 result = dfilter_apply_edt(sfcode, &edt) ? MR_MATCHED : MR_NOTMATCHED;
3505 epan_dissect_cleanup(&edt);
3506 return result;
3509 gboolean
3510 cf_find_packet_marked(capture_file *cf, search_direction dir)
3512 return find_packet(cf, match_marked, NULL, dir);
3515 static match_result
3516 match_marked(capture_file *cf _U_, frame_data *fdata, void *criterion _U_)
3518 return fdata->flags.marked ? MR_MATCHED : MR_NOTMATCHED;
3521 gboolean
3522 cf_find_packet_time_reference(capture_file *cf, search_direction dir)
3524 return find_packet(cf, match_time_reference, NULL, dir);
3527 static match_result
3528 match_time_reference(capture_file *cf _U_, frame_data *fdata, void *criterion _U_)
3530 return fdata->flags.ref_time ? MR_MATCHED : MR_NOTMATCHED;
3533 static gboolean
3534 find_packet(capture_file *cf,
3535 match_result (*match_function)(capture_file *, frame_data *, void *),
3536 void *criterion, search_direction dir)
3538 frame_data *start_fd;
3539 guint32 framenum;
3540 frame_data *fdata;
3541 frame_data *new_fd = NULL;
3542 progdlg_t *progbar = NULL;
3543 gboolean stop_flag;
3544 int count;
3545 gboolean found;
3546 float progbar_val;
3547 GTimeVal start_time;
3548 gchar status_str[100];
3549 int progbar_nextstep;
3550 int progbar_quantum;
3551 const char *title;
3552 match_result result;
3554 start_fd = cf->current_frame;
3555 if (start_fd != NULL) {
3556 /* Iterate through the list of packets, starting at the packet we've
3557 picked, calling a routine to run the filter on the packet, see if
3558 it matches, and stop if so. */
3559 count = 0;
3560 framenum = start_fd->num;
3562 /* Update the progress bar when it gets to this value. */
3563 progbar_nextstep = 0;
3564 /* When we reach the value that triggers a progress bar update,
3565 bump that value by this amount. */
3566 progbar_quantum = cf->count/N_PROGBAR_UPDATES;
3567 /* Progress so far. */
3568 progbar_val = 0.0f;
3570 stop_flag = FALSE;
3571 g_get_current_time(&start_time);
3573 title = cf->sfilter?cf->sfilter:"";
3574 for (;;) {
3575 /* Create the progress bar if necessary.
3576 We check on every iteration of the loop, so that it takes no
3577 longer than the standard time to create it (otherwise, for a
3578 large file, we might take considerably longer than that standard
3579 time in order to get to the next progress bar step). */
3580 if (progbar == NULL)
3581 progbar = delayed_create_progress_dlg(cf->window, "Searching", title,
3582 FALSE, &stop_flag, &start_time, progbar_val);
3584 /* Update the progress bar, but do it only N_PROGBAR_UPDATES times;
3585 when we update it, we have to run the GTK+ main loop to get it
3586 to repaint what's pending, and doing so may involve an "ioctl()"
3587 to see if there's any pending input from an X server, and doing
3588 that for every packet can be costly, especially on a big file. */
3589 if (count >= progbar_nextstep) {
3590 /* let's not divide by zero. I should never be started
3591 * with count == 0, so let's assert that
3593 g_assert(cf->count > 0);
3595 progbar_val = (gfloat) count / cf->count;
3597 if (progbar != NULL) {
3598 g_snprintf(status_str, sizeof(status_str),
3599 "%4u of %u packets", count, cf->count);
3600 update_progress_dlg(progbar, progbar_val, status_str);
3603 progbar_nextstep += progbar_quantum;
3606 if (stop_flag) {
3607 /* Well, the user decided to abort the search. Go back to the
3608 frame where we started. */
3609 new_fd = start_fd;
3610 break;
3613 /* Go past the current frame. */
3614 if (dir == SD_BACKWARD) {
3615 /* Go on to the previous frame. */
3616 if (framenum == 1) {
3618 * XXX - other apps have a bit more of a detailed message
3619 * for this, and instead of offering "OK" and "Cancel",
3620 * they offer things such as "Continue" and "Cancel";
3621 * we need an API for popping up alert boxes with
3622 * {Verb} and "Cancel".
3625 if (prefs.gui_find_wrap)
3627 statusbar_push_temporary_msg("Search reached the beginning. Continuing at end.");
3628 framenum = cf->count; /* wrap around */
3630 else
3632 statusbar_push_temporary_msg("Search reached the beginning.");
3633 framenum = start_fd->num; /* stay on previous packet */
3635 } else
3636 framenum--;
3637 } else {
3638 /* Go on to the next frame. */
3639 if (framenum == cf->count) {
3640 if (prefs.gui_find_wrap)
3642 statusbar_push_temporary_msg("Search reached the end. Continuing at beginning.");
3643 framenum = 1; /* wrap around */
3645 else
3647 statusbar_push_temporary_msg("Search reached the end.");
3648 framenum = start_fd->num; /* stay on previous packet */
3650 } else
3651 framenum++;
3653 fdata = frame_data_sequence_find(cf->frames, framenum);
3655 count++;
3657 /* Is this packet in the display? */
3658 if (fdata->flags.passed_dfilter) {
3659 /* Yes. Does it match the search criterion? */
3660 result = (*match_function)(cf, fdata, criterion);
3661 if (result == MR_ERROR) {
3662 /* Error; our caller has reported the error. Go back to the frame
3663 where we started. */
3664 new_fd = start_fd;
3665 break;
3666 } else if (result == MR_MATCHED) {
3667 /* Yes. Go to the new frame. */
3668 new_fd = fdata;
3669 break;
3673 if (fdata == start_fd) {
3674 /* We're back to the frame we were on originally, and that frame
3675 doesn't match the search filter. The search failed. */
3676 break;
3680 /* We're done scanning the packets; destroy the progress bar if it
3681 was created. */
3682 if (progbar != NULL)
3683 destroy_progress_dlg(progbar);
3686 if (new_fd != NULL) {
3687 /* Find and select */
3688 cf->search_in_progress = TRUE;
3689 found = packet_list_select_row_from_data(new_fd);
3690 cf->search_in_progress = FALSE;
3691 cf->search_pos = 0; /* Reset the position */
3692 if (!found) {
3693 /* We didn't find a row corresponding to this frame.
3694 This means that the frame isn't being displayed currently,
3695 so we can't select it. */
3696 simple_message_box(ESD_TYPE_INFO, NULL,
3697 "The capture file is probably not fully dissected.",
3698 "End of capture exceeded!");
3699 return FALSE;
3701 return TRUE; /* success */
3702 } else
3703 return FALSE; /* failure */
3706 gboolean
3707 cf_goto_frame(capture_file *cf, guint fnumber)
3709 frame_data *fdata;
3711 fdata = frame_data_sequence_find(cf->frames, fnumber);
3713 if (fdata == NULL) {
3714 /* we didn't find a packet with that packet number */
3715 statusbar_push_temporary_msg("There is no packet number %u.", fnumber);
3716 return FALSE; /* we failed to go to that packet */
3718 if (!fdata->flags.passed_dfilter) {
3719 /* that packet currently isn't displayed */
3720 /* XXX - add it to the set of displayed packets? */
3721 statusbar_push_temporary_msg("Packet number %u isn't displayed.", fnumber);
3722 return FALSE; /* we failed to go to that packet */
3725 if (!packet_list_select_row_from_data(fdata)) {
3726 /* We didn't find a row corresponding to this frame.
3727 This means that the frame isn't being displayed currently,
3728 so we can't select it. */
3729 simple_message_box(ESD_TYPE_INFO, NULL,
3730 "The capture file is probably not fully dissected.",
3731 "End of capture exceeded!");
3732 return FALSE;
3734 return TRUE; /* we got to that packet */
3737 gboolean
3738 cf_goto_top_frame(void)
3740 /* Find and select */
3741 packet_list_select_first_row();
3742 return TRUE; /* we got to that packet */
3745 gboolean
3746 cf_goto_bottom_frame(void)
3748 /* Find and select */
3749 packet_list_select_last_row();
3750 return TRUE; /* we got to that packet */
3754 * Go to frame specified by currently selected protocol tree item.
3756 gboolean
3757 cf_goto_framenum(capture_file *cf)
3759 header_field_info *hfinfo;
3760 guint32 framenum;
3762 if (cf->finfo_selected) {
3763 hfinfo = cf->finfo_selected->hfinfo;
3764 g_assert(hfinfo);
3765 if (hfinfo->type == FT_FRAMENUM) {
3766 framenum = fvalue_get_uinteger(&cf->finfo_selected->value);
3767 if (framenum != 0)
3768 return cf_goto_frame(cf, framenum);
3772 return FALSE;
3775 /* Select the packet on a given row. */
3776 void
3777 cf_select_packet(capture_file *cf, int row)
3779 epan_dissect_t *old_edt;
3780 frame_data *fdata;
3782 /* Get the frame data struct pointer for this frame */
3783 fdata = packet_list_get_row_data(row);
3785 if (fdata == NULL) {
3786 /* XXX - if a GtkCList's selection mode is GTK_SELECTION_BROWSE, when
3787 the first entry is added to it by "real_insert_row()", that row
3788 is selected (see "real_insert_row()", in "ui/gtk/gtkclist.c", in both
3789 our version and the vanilla GTK+ version).
3791 This means that a "select-row" signal is emitted; this causes
3792 "packet_list_select_cb()" to be called, which causes "cf_select_packet()"
3793 to be called.
3795 "cf_select_packet()" fetches, above, the data associated with the
3796 row that was selected; however, as "gtk_clist_append()", which
3797 called "real_insert_row()", hasn't yet returned, we haven't yet
3798 associated any data with that row, so we get back a null pointer.
3800 We can't assume that there's only one frame in the frame list,
3801 either, as we may be filtering the display.
3803 We therefore assume that, if "row" is 0, i.e. the first row
3804 is being selected, and "cf->first_displayed" equals
3805 "cf->last_displayed", i.e. there's only one frame being
3806 displayed, that frame is the frame we want.
3808 This means we have to set "cf->first_displayed" and
3809 "cf->last_displayed" before adding the row to the
3810 GtkCList; see the comment in "add_packet_to_packet_list()". */
3812 if (row == 0 && cf->first_displayed == cf->last_displayed)
3813 fdata = frame_data_sequence_find(cf->frames, cf->first_displayed);
3816 /* If fdata _still_ isn't set simply give up. */
3817 if (fdata == NULL) {
3818 return;
3821 /* Get the data in that frame. */
3822 if (!cf_read_frame (cf, fdata)) {
3823 return;
3826 /* Record that this frame is the current frame. */
3827 cf->current_frame = fdata;
3828 cf->current_row = row;
3830 old_edt = cf->edt;
3831 /* Create the logical protocol tree. */
3832 /* We don't need the columns here. */
3833 cf->edt = epan_dissect_new(cf->epan, TRUE, TRUE);
3835 tap_build_interesting(cf->edt);
3836 epan_dissect_run(cf->edt, &cf->phdr, frame_tvbuff_new_buffer(cf->current_frame, &cf->buf),
3837 cf->current_frame, NULL);
3839 dfilter_macro_build_ftv_cache(cf->edt->tree);
3841 cf_callback_invoke(cf_cb_packet_selected, cf);
3843 if (old_edt != NULL)
3844 epan_dissect_free(old_edt);
3848 /* Unselect the selected packet, if any. */
3849 void
3850 cf_unselect_packet(capture_file *cf)
3852 epan_dissect_t *old_edt = cf->edt;
3854 cf->edt = NULL;
3856 /* No packet is selected. */
3857 cf->current_frame = NULL;
3858 cf->current_row = 0;
3860 cf_callback_invoke(cf_cb_packet_unselected, cf);
3862 /* No protocol tree means no selected field. */
3863 cf_unselect_field(cf);
3865 /* Destroy the epan_dissect_t for the unselected packet. */
3866 if (old_edt != NULL)
3867 epan_dissect_free(old_edt);
3870 /* Unset the selected protocol tree field, if any. */
3871 void
3872 cf_unselect_field(capture_file *cf)
3874 cf->finfo_selected = NULL;
3876 cf_callback_invoke(cf_cb_field_unselected, cf);
3880 * Mark a particular frame.
3882 void
3883 cf_mark_frame(capture_file *cf, frame_data *frame)
3885 if (! frame->flags.marked) {
3886 frame->flags.marked = TRUE;
3887 if (cf->count > cf->marked_count)
3888 cf->marked_count++;
3893 * Unmark a particular frame.
3895 void
3896 cf_unmark_frame(capture_file *cf, frame_data *frame)
3898 if (frame->flags.marked) {
3899 frame->flags.marked = FALSE;
3900 if (cf->marked_count > 0)
3901 cf->marked_count--;
3906 * Ignore a particular frame.
3908 void
3909 cf_ignore_frame(capture_file *cf, frame_data *frame)
3911 if (! frame->flags.ignored) {
3912 frame->flags.ignored = TRUE;
3913 if (cf->count > cf->ignored_count)
3914 cf->ignored_count++;
3919 * Un-ignore a particular frame.
3921 void
3922 cf_unignore_frame(capture_file *cf, frame_data *frame)
3924 if (frame->flags.ignored) {
3925 frame->flags.ignored = FALSE;
3926 if (cf->ignored_count > 0)
3927 cf->ignored_count--;
3932 * Read the comment in SHB block
3935 const gchar *
3936 cf_read_shb_comment(capture_file *cf)
3938 wtapng_section_t *shb_inf;
3939 const gchar *temp_str;
3941 /* Get info from SHB */
3942 shb_inf = wtap_file_get_shb_info(cf->wth);
3943 if (shb_inf == NULL)
3944 return NULL;
3945 temp_str = shb_inf->opt_comment;
3946 g_free(shb_inf);
3948 return temp_str;
3952 void
3953 cf_update_capture_comment(capture_file *cf, gchar *comment)
3955 wtapng_section_t *shb_inf;
3957 /* Get info from SHB */
3958 shb_inf = wtap_file_get_shb_info(cf->wth);
3960 /* See if the comment has changed or not */
3961 if (shb_inf && shb_inf->opt_comment) {
3962 if (strcmp(shb_inf->opt_comment, comment) == 0) {
3963 g_free(comment);
3964 g_free(shb_inf);
3965 return;
3969 g_free(shb_inf);
3971 /* The comment has changed, let's update it */
3972 wtap_write_shb_comment(cf->wth, comment);
3973 /* Mark the file as having unsaved changes */
3974 cf->unsaved_changes = TRUE;
3977 static const char *
3978 cf_get_user_packet_comment(capture_file *cf, const frame_data *fd)
3980 if (cf->frames_user_comments)
3981 return (const char *)g_tree_lookup(cf->frames_user_comments, fd);
3983 /* g_warning? */
3984 return NULL;
3987 char *
3988 cf_get_comment(capture_file *cf, const frame_data *fd)
3990 /* fetch user comment */
3991 if (fd->flags.has_user_comment)
3992 return g_strdup(cf_get_user_packet_comment(cf, fd));
3994 /* fetch phdr comment */
3995 if (fd->flags.has_phdr_comment) {
3996 struct wtap_pkthdr phdr; /* Packet header */
3997 Buffer buf; /* Packet data */
3999 phdr.opt_comment = NULL;
4001 buffer_init(&buf, 1500);
4002 if (!cf_read_frame_r(cf, fd, &phdr, &buf))
4003 { /* XXX, what we can do here? */ }
4005 buffer_free(&buf);
4006 return phdr.opt_comment;
4008 return NULL;
4011 static int
4012 frame_cmp(gconstpointer a, gconstpointer b, gpointer user_data _U_)
4014 const frame_data *fdata1 = (const frame_data *) a;
4015 const frame_data *fdata2 = (const frame_data *) b;
4017 return (fdata1->num < fdata2->num) ? -1 :
4018 (fdata1->num > fdata2->num) ? 1 :
4022 gboolean
4023 cf_set_user_packet_comment(capture_file *cf, frame_data *fd, const gchar *new_comment)
4025 char *pkt_comment = cf_get_comment(cf, fd);
4027 /* Check if the comment has changed */
4028 if (!g_strcmp0(pkt_comment, new_comment)) {
4029 g_free(pkt_comment);
4030 return FALSE;
4032 g_free(pkt_comment);
4034 if (pkt_comment)
4035 cf->packet_comment_count--;
4037 if (new_comment)
4038 cf->packet_comment_count++;
4040 fd->flags.has_user_comment = TRUE;
4042 if (!cf->frames_user_comments)
4043 cf->frames_user_comments = g_tree_new_full(frame_cmp, NULL, NULL, g_free);
4045 /* insert new packet comment */
4046 g_tree_replace(cf->frames_user_comments, fd, g_strdup(new_comment));
4048 expert_update_comment_count(cf->packet_comment_count);
4050 /* OK, we have unsaved changes. */
4051 cf->unsaved_changes = TRUE;
4052 return TRUE;
4056 * What types of comments does this capture file have?
4058 guint32
4059 cf_comment_types(capture_file *cf)
4061 guint32 comment_types = 0;
4063 if (cf_read_shb_comment(cf) != NULL)
4064 comment_types |= WTAP_COMMENT_PER_SECTION;
4065 if (cf->packet_comment_count != 0)
4066 comment_types |= WTAP_COMMENT_PER_PACKET;
4067 return comment_types;
4070 typedef struct {
4071 wtap_dumper *pdh;
4072 const char *fname;
4073 int file_type;
4074 } save_callback_args_t;
4077 * Save a capture to a file, in a particular format, saving either
4078 * all packets, all currently-displayed packets, or all marked packets.
4080 * Returns TRUE if it succeeds, FALSE otherwise; if it fails, it pops
4081 * up a message box for the failure.
4083 static gboolean
4084 save_packet(capture_file *cf _U_, frame_data *fdata,
4085 struct wtap_pkthdr *phdr, const guint8 *pd,
4086 void *argsp)
4088 save_callback_args_t *args = (save_callback_args_t *)argsp;
4089 struct wtap_pkthdr hdr;
4090 int err;
4091 gchar *display_basename;
4092 const char *pkt_comment;
4094 if (fdata->flags.has_user_comment)
4095 pkt_comment = cf_get_user_packet_comment(cf, fdata);
4096 else
4097 pkt_comment = phdr->opt_comment;
4099 /* init the wtap header for saving */
4100 /* TODO: reuse phdr */
4101 /* XXX - these are the only flags that correspond to data that we have
4102 in the frame_data structure and that matter on a per-packet basis.
4104 For WTAP_HAS_CAP_LEN, either the file format has separate "captured"
4105 and "on the wire" lengths, or it doesn't.
4107 For WTAP_HAS_DROP_COUNT, Wiretap doesn't actually supply the value
4108 to its callers.
4110 For WTAP_HAS_PACK_FLAGS, we currently don't save the FCS length
4111 from the packet flags. */
4112 hdr.presence_flags = 0;
4113 if (fdata->flags.has_ts)
4114 hdr.presence_flags |= WTAP_HAS_TS;
4115 if (phdr->presence_flags & WTAP_HAS_INTERFACE_ID)
4116 hdr.presence_flags |= WTAP_HAS_INTERFACE_ID;
4117 if (phdr->presence_flags & WTAP_HAS_PACK_FLAGS)
4118 hdr.presence_flags |= WTAP_HAS_PACK_FLAGS;
4119 hdr.ts.secs = fdata->abs_ts.secs;
4120 hdr.ts.nsecs = fdata->abs_ts.nsecs;
4121 hdr.caplen = fdata->cap_len;
4122 hdr.len = fdata->pkt_len;
4123 hdr.pkt_encap = fdata->lnk_t;
4124 /* pcapng */
4125 hdr.interface_id = phdr->interface_id; /* identifier of the interface. */
4126 /* options */
4127 hdr.pack_flags = phdr->pack_flags;
4128 hdr.opt_comment = g_strdup(pkt_comment);
4130 /* pseudo */
4131 hdr.pseudo_header = phdr->pseudo_header;
4132 #if 0
4133 hdr.drop_count =
4134 hdr.pack_flags = /* XXX - 0 for now (any value for "we don't have it"?) */
4135 #endif
4136 /* and save the packet */
4137 if (!wtap_dump(args->pdh, &hdr, pd, &err)) {
4138 if (err < 0) {
4139 /* Wiretap error. */
4140 switch (err) {
4142 case WTAP_ERR_UNSUPPORTED_ENCAP:
4144 * This is a problem with the particular frame we're writing;
4145 * note that, and give the frame number.
4147 simple_error_message_box(
4148 "Frame %u has a network type that can't be saved in a \"%s\" file.",
4149 fdata->num, wtap_file_type_subtype_string(args->file_type));
4150 break;
4152 default:
4153 display_basename = g_filename_display_basename(args->fname);
4154 simple_error_message_box(
4155 "An error occurred while writing to the file \"%s\": %s.",
4156 display_basename, wtap_strerror(err));
4157 g_free(display_basename);
4158 break;
4160 } else {
4161 /* OS error. */
4162 write_failure_alert_box(args->fname, err);
4164 return FALSE;
4167 g_free(hdr.opt_comment);
4168 return TRUE;
4172 * Can this capture file be written out in any format using Wiretap
4173 * rather than by copying the raw data?
4175 gboolean
4176 cf_can_write_with_wiretap(capture_file *cf)
4178 /* We don't care whether we support the comments in this file or not;
4179 if we can't, we'll offer the user the option of discarding the
4180 comments. */
4181 return wtap_dump_can_write(cf->linktypes, 0);
4185 * Should we let the user do a save?
4187 * We should if:
4189 * the file has unsaved changes, and we can save it in some
4190 * format through Wiretap
4192 * or
4194 * the file is a temporary file and has no unsaved changes (so
4195 * that "saving" it just means copying it).
4197 * XXX - we shouldn't allow files to be edited if they can't be saved,
4198 * so cf->unsaved_changes should be true only if the file can be saved.
4200 * We don't care whether we support the comments in this file or not;
4201 * if we can't, we'll offer the user the option of discarding the
4202 * comments.
4204 gboolean
4205 cf_can_save(capture_file *cf)
4207 if (cf->unsaved_changes && wtap_dump_can_write(cf->linktypes, 0)) {
4208 /* Saved changes, and we can write it out with Wiretap. */
4209 return TRUE;
4212 if (cf->is_tempfile && !cf->unsaved_changes) {
4214 * Temporary file with no unsaved changes, so we can just do a
4215 * raw binary copy.
4217 return TRUE;
4220 /* Nothing to save. */
4221 return FALSE;
4225 * Should we let the user do a "save as"?
4227 * That's true if:
4229 * we can save it in some format through Wiretap
4231 * or
4233 * the file is a temporary file and has no unsaved changes (so
4234 * that "saving" it just means copying it).
4236 * XXX - we shouldn't allow files to be edited if they can't be saved,
4237 * so cf->unsaved_changes should be true only if the file can be saved.
4239 * We don't care whether we support the comments in this file or not;
4240 * if we can't, we'll offer the user the option of discarding the
4241 * comments.
4243 gboolean
4244 cf_can_save_as(capture_file *cf)
4246 if (wtap_dump_can_write(cf->linktypes, 0)) {
4247 /* We can write it out with Wiretap. */
4248 return TRUE;
4251 if (cf->is_tempfile && !cf->unsaved_changes) {
4253 * Temporary file with no unsaved changes, so we can just do a
4254 * raw binary copy.
4256 return TRUE;
4259 /* Nothing to save. */
4260 return FALSE;
4264 * Does this file have unsaved data?
4266 gboolean
4267 cf_has_unsaved_data(capture_file *cf)
4270 * If this is a temporary file, or a file with unsaved changes, it
4271 * has unsaved data.
4273 return cf->is_tempfile || cf->unsaved_changes;
4277 * Quick scan to find packet offsets.
4279 static cf_read_status_t
4280 rescan_file(capture_file *cf, const char *fname, gboolean is_tempfile, int *err)
4282 const struct wtap_pkthdr *phdr;
4283 gchar *err_info;
4284 gchar *name_ptr;
4285 gint64 data_offset;
4286 gint64 file_pos;
4287 progdlg_t *progbar = NULL;
4288 gboolean stop_flag;
4289 gint64 size;
4290 float progbar_val;
4291 GTimeVal start_time;
4292 gchar status_str[100];
4293 gint64 progbar_nextstep;
4294 gint64 progbar_quantum;
4295 guint32 framenum;
4296 frame_data *fdata;
4297 int count = 0;
4298 #ifdef HAVE_LIBPCAP
4299 int displayed_once = 0;
4300 #endif
4302 /* Close the old handle. */
4303 wtap_close(cf->wth);
4305 /* Open the new file. */
4306 cf->wth = wtap_open_offline(fname, err, &err_info, TRUE);
4307 if (cf->wth == NULL) {
4308 cf_open_failure_alert_box(fname, *err, err_info, FALSE, 0);
4309 return CF_READ_ERROR;
4312 /* We're scanning a file whose contents should be the same as what
4313 we had before, so we don't discard dissection state etc.. */
4314 cf->f_datalen = 0;
4316 /* Set the file name because we need it to set the follow stream filter.
4317 XXX - is that still true? We need it for other reasons, though,
4318 in any case. */
4319 cf->filename = g_strdup(fname);
4321 /* Indicate whether it's a permanent or temporary file. */
4322 cf->is_tempfile = is_tempfile;
4324 /* No user changes yet. */
4325 cf->unsaved_changes = FALSE;
4327 cf->cd_t = wtap_file_type_subtype(cf->wth);
4328 cf->linktypes = g_array_sized_new(FALSE, FALSE, (guint) sizeof(int), 1);
4330 cf->snap = wtap_snapshot_length(cf->wth);
4331 if (cf->snap == 0) {
4332 /* Snapshot length not known. */
4333 cf->has_snap = FALSE;
4334 cf->snap = WTAP_MAX_PACKET_SIZE;
4335 } else
4336 cf->has_snap = TRUE;
4338 name_ptr = g_filename_display_basename(cf->filename);
4340 cf_callback_invoke(cf_cb_file_rescan_started, cf);
4342 /* Record whether the file is compressed.
4343 XXX - do we know this at open time? */
4344 cf->iscompressed = wtap_iscompressed(cf->wth);
4346 /* Find the size of the file. */
4347 size = wtap_file_size(cf->wth, NULL);
4349 /* Update the progress bar when it gets to this value. */
4350 progbar_nextstep = 0;
4351 /* When we reach the value that triggers a progress bar update,
4352 bump that value by this amount. */
4353 if (size >= 0) {
4354 progbar_quantum = size/N_PROGBAR_UPDATES;
4355 if (progbar_quantum < MIN_QUANTUM)
4356 progbar_quantum = MIN_QUANTUM;
4357 }else
4358 progbar_quantum = 0;
4360 stop_flag = FALSE;
4361 g_get_current_time(&start_time);
4363 framenum = 0;
4364 phdr = wtap_phdr(cf->wth);
4365 while ((wtap_read(cf->wth, err, &err_info, &data_offset))) {
4366 framenum++;
4367 fdata = frame_data_sequence_find(cf->frames, framenum);
4368 fdata->file_off = data_offset;
4369 if (size >= 0) {
4370 count++;
4371 file_pos = wtap_read_so_far(cf->wth);
4373 /* Create the progress bar if necessary.
4374 * Check whether it should be created or not every MIN_NUMBER_OF_PACKET
4376 if ((progbar == NULL) && !(count % MIN_NUMBER_OF_PACKET)) {
4377 progbar_val = calc_progbar_val(cf, size, file_pos, status_str, sizeof(status_str));
4378 progbar = delayed_create_progress_dlg(cf->window, "Rescanning", name_ptr,
4379 TRUE, &stop_flag, &start_time, progbar_val);
4382 /* Update the progress bar, but do it only N_PROGBAR_UPDATES times;
4383 when we update it, we have to run the GTK+ main loop to get it
4384 to repaint what's pending, and doing so may involve an "ioctl()"
4385 to see if there's any pending input from an X server, and doing
4386 that for every packet can be costly, especially on a big file. */
4387 if (file_pos >= progbar_nextstep) {
4388 if (progbar != NULL) {
4389 progbar_val = calc_progbar_val(cf, size, file_pos, status_str, sizeof(status_str));
4390 /* update the packet bar content on the first run or frequently on very large files */
4391 #ifdef HAVE_LIBPCAP
4392 if (progbar_quantum > 500000 || displayed_once == 0) {
4393 if ((auto_scroll_live || displayed_once == 0 || cf->displayed_count < 1000) && cf->count != 0) {
4394 displayed_once = 1;
4395 packets_bar_update();
4398 #endif /* HAVE_LIBPCAP */
4399 update_progress_dlg(progbar, progbar_val, status_str);
4401 progbar_nextstep += progbar_quantum;
4405 if (stop_flag) {
4406 /* Well, the user decided to abort the rescan. Sadly, as this
4407 isn't a reread, recovering is difficult, so we'll just
4408 close the current capture. */
4409 break;
4412 /* Add this packet's link-layer encapsulation type to cf->linktypes, if
4413 it's not already there.
4414 XXX - yes, this is O(N), so if every packet had a different
4415 link-layer encapsulation type, it'd be O(N^2) to read the file, but
4416 there are probably going to be a small number of encapsulation types
4417 in a file. */
4418 cf_add_encapsulation_type(cf, phdr->pkt_encap);
4421 /* Free the display name */
4422 g_free(name_ptr);
4424 /* We're done reading the file; destroy the progress bar if it was created. */
4425 if (progbar != NULL)
4426 destroy_progress_dlg(progbar);
4428 /* We're done reading sequentially through the file. */
4429 cf->state = FILE_READ_DONE;
4431 /* Close the sequential I/O side, to free up memory it requires. */
4432 wtap_sequential_close(cf->wth);
4434 /* compute the time it took to load the file */
4435 compute_elapsed(cf, &start_time);
4437 /* Set the file encapsulation type now; we don't know what it is until
4438 we've looked at all the packets, as we don't know until then whether
4439 there's more than one type (and thus whether it's
4440 WTAP_ENCAP_PER_PACKET). */
4441 cf->lnk_t = wtap_file_encap(cf->wth);
4443 cf_callback_invoke(cf_cb_file_rescan_finished, cf);
4445 if (stop_flag) {
4446 /* Our caller will give up at this point. */
4447 return CF_READ_ABORTED;
4450 if (*err != 0) {
4451 /* Put up a message box noting that the read failed somewhere along
4452 the line. Don't throw out the stuff we managed to read, though,
4453 if any. */
4454 switch (*err) {
4456 case WTAP_ERR_UNSUPPORTED:
4457 simple_error_message_box(
4458 "The capture file contains record data that Wireshark doesn't support.\n(%s)",
4459 err_info);
4460 g_free(err_info);
4461 break;
4463 case WTAP_ERR_UNSUPPORTED_ENCAP:
4464 simple_error_message_box(
4465 "The capture file has a packet with a network type that Wireshark doesn't support.\n(%s)",
4466 err_info);
4467 g_free(err_info);
4468 break;
4470 case WTAP_ERR_CANT_READ:
4471 simple_error_message_box(
4472 "An attempt to read from the capture file failed for"
4473 " some unknown reason.");
4474 break;
4476 case WTAP_ERR_SHORT_READ:
4477 simple_error_message_box(
4478 "The capture file appears to have been cut short"
4479 " in the middle of a packet.");
4480 break;
4482 case WTAP_ERR_BAD_FILE:
4483 simple_error_message_box(
4484 "The capture file appears to be damaged or corrupt.\n(%s)",
4485 err_info);
4486 g_free(err_info);
4487 break;
4489 case WTAP_ERR_DECOMPRESS:
4490 simple_error_message_box(
4491 "The compressed capture file appears to be damaged or corrupt.\n"
4492 "(%s)", err_info);
4493 g_free(err_info);
4494 break;
4496 default:
4497 simple_error_message_box(
4498 "An error occurred while reading the"
4499 " capture file: %s.", wtap_strerror(*err));
4500 break;
4502 return CF_READ_ERROR;
4503 } else
4504 return CF_READ_OK;
4507 cf_write_status_t
4508 cf_save_packets(capture_file *cf, const char *fname, guint save_format,
4509 gboolean compressed, gboolean discard_comments,
4510 gboolean dont_reopen)
4512 gchar *err_info;
4513 gchar *fname_new = NULL;
4514 wtap_dumper *pdh;
4515 frame_data *fdata;
4516 addrinfo_lists_t *addr_lists;
4517 guint framenum;
4518 int err;
4519 #ifdef _WIN32
4520 gchar *display_basename;
4521 #endif
4522 enum {
4523 SAVE_WITH_MOVE,
4524 SAVE_WITH_COPY,
4525 SAVE_WITH_WTAP
4526 } how_to_save;
4527 save_callback_args_t callback_args;
4529 cf_callback_invoke(cf_cb_file_save_started, (gpointer)fname);
4531 addr_lists = get_addrinfo_list();
4533 if (save_format == cf->cd_t && compressed == cf->iscompressed
4534 && !discard_comments && !cf->unsaved_changes
4535 && !(addr_lists && wtap_dump_has_name_resolution(save_format))) {
4536 /* We're saving in the format it's already in, and we're
4537 not discarding comments, and there are no changes we have
4538 in memory that aren't saved to the file, and we have no name
4539 resolution blocks to write, so we can just move or copy the raw data. */
4541 if (cf->is_tempfile) {
4542 /* The file being saved is a temporary file from a live
4543 capture, so it doesn't need to stay around under that name;
4544 first, try renaming the capture buffer file to the new name.
4545 This acts as a "safe save", in that, if the file already
4546 exists, the existing file will be removed only if the rename
4547 succeeds.
4549 Sadly, on Windows, as we have the current capture file
4550 open, even MoveFileEx() with MOVEFILE_REPLACE_EXISTING
4551 (to cause the rename to remove an existing target), as
4552 done by ws_stdio_rename() (ws_rename() is #defined to
4553 be ws_stdio_rename() on Windows) will fail.
4555 According to the MSDN documentation for CreateFile(), if,
4556 when we open a capture file, we were to directly do a CreateFile(),
4557 opening with FILE_SHARE_DELETE|FILE_SHARE_READ, and then
4558 convert it to a file descriptor with _open_osfhandle(),
4559 that would allow the file to be renamed out from under us.
4561 However, that doesn't work in practice. Perhaps the problem
4562 is that the process doing the rename is the process that
4563 has the file open. */
4564 #ifndef _WIN32
4565 if (ws_rename(cf->filename, fname) == 0) {
4566 /* That succeeded - there's no need to copy the source file. */
4567 how_to_save = SAVE_WITH_MOVE;
4568 } else {
4569 if (errno == EXDEV) {
4570 /* They're on different file systems, so we have to copy the
4571 file. */
4572 how_to_save = SAVE_WITH_COPY;
4573 } else {
4574 /* The rename failed, but not because they're on different
4575 file systems - put up an error message. (Or should we
4576 just punt and try to copy? The only reason why I'd
4577 expect the rename to fail and the copy to succeed would
4578 be if we didn't have permission to remove the file from
4579 the temporary directory, and that might be fixable - but
4580 is it worth requiring the user to go off and fix it?) */
4581 cf_rename_failure_alert_box(fname, errno);
4582 goto fail;
4585 #else
4586 how_to_save = SAVE_WITH_COPY;
4587 #endif
4588 } else {
4589 /* It's a permanent file, so we should copy it, and not remove the
4590 original. */
4591 how_to_save = SAVE_WITH_COPY;
4594 if (how_to_save == SAVE_WITH_COPY) {
4595 /* Copy the file, if we haven't moved it. If we're overwriting
4596 an existing file, we do it with a "safe save", by writing
4597 to a new file and, if the write succeeds, renaming the
4598 new file on top of the old file. */
4599 if (file_exists(fname)) {
4600 fname_new = g_strdup_printf("%s~", fname);
4601 if (!copy_file_binary_mode(cf->filename, fname_new))
4602 goto fail;
4603 } else {
4604 if (!copy_file_binary_mode(cf->filename, fname))
4605 goto fail;
4608 } else {
4609 /* Either we're saving in a different format or we're saving changes,
4610 such as added, modified, or removed comments, that haven't yet
4611 been written to the underlying file; we can't do that by copying
4612 or moving the capture file, we have to do it by writing the packets
4613 out in Wiretap. */
4615 wtapng_section_t *shb_hdr = NULL;
4616 wtapng_iface_descriptions_t *idb_inf = NULL;
4617 int encap;
4619 shb_hdr = wtap_file_get_shb_info(cf->wth);
4620 idb_inf = wtap_file_get_idb_info(cf->wth);
4622 /* Determine what file encapsulation type we should use. */
4623 encap = wtap_dump_file_encap_type(cf->linktypes);
4625 if (file_exists(fname)) {
4626 /* We're overwriting an existing file; write out to a new file,
4627 and, if that succeeds, rename the new file on top of the
4628 old file. That makes this a "safe save", so that we don't
4629 lose the old file if we have a problem writing out the new
4630 file. (If the existing file is the current capture file,
4631 we *HAVE* to do that, otherwise we're overwriting the file
4632 from which we're reading the packets that we're writing!) */
4633 fname_new = g_strdup_printf("%s~", fname);
4634 pdh = wtap_dump_open_ng(fname_new, save_format, encap, cf->snap,
4635 compressed, shb_hdr, idb_inf, &err);
4636 } else {
4637 pdh = wtap_dump_open_ng(fname, save_format, encap, cf->snap,
4638 compressed, shb_hdr, idb_inf, &err);
4640 g_free(idb_inf);
4641 idb_inf = NULL;
4643 if (pdh == NULL) {
4644 cf_open_failure_alert_box(fname, err, NULL, TRUE, save_format);
4645 goto fail;
4648 /* Add address resolution */
4649 wtap_dump_set_addrinfo_list(pdh, addr_lists);
4651 /* Iterate through the list of packets, processing all the packets. */
4652 callback_args.pdh = pdh;
4653 callback_args.fname = fname;
4654 callback_args.file_type = save_format;
4655 switch (process_specified_packets(cf, NULL, "Saving", "packets",
4656 TRUE, save_packet, &callback_args)) {
4658 case PSP_FINISHED:
4659 /* Completed successfully. */
4660 break;
4662 case PSP_STOPPED:
4663 /* The user decided to abort the saving.
4664 If we're writing to a temporary file, remove it.
4665 XXX - should we do so even if we're not writing to a
4666 temporary file? */
4667 wtap_dump_close(pdh, &err);
4668 if (fname_new != NULL)
4669 ws_unlink(fname_new);
4670 cf_callback_invoke(cf_cb_file_save_stopped, NULL);
4671 return CF_WRITE_ABORTED;
4673 case PSP_FAILED:
4674 /* Error while saving.
4675 If we're writing to a temporary file, remove it. */
4676 if (fname_new != NULL)
4677 ws_unlink(fname_new);
4678 wtap_dump_close(pdh, &err);
4679 goto fail;
4682 if (!wtap_dump_close(pdh, &err)) {
4683 cf_close_failure_alert_box(fname, err);
4684 goto fail;
4687 how_to_save = SAVE_WITH_WTAP;
4690 if (fname_new != NULL) {
4691 /* We wrote out to fname_new, and should rename it on top of
4692 fname. fname_new is now closed, so that should be possible even
4693 on Windows. However, on Windows, we first need to close whatever
4694 file descriptors we have open for fname. */
4695 #ifdef _WIN32
4696 wtap_fdclose(cf->wth);
4697 #endif
4698 /* Now do the rename. */
4699 if (ws_rename(fname_new, fname) == -1) {
4700 /* Well, the rename failed. */
4701 cf_rename_failure_alert_box(fname, errno);
4702 #ifdef _WIN32
4703 /* Attempt to reopen the random file descriptor using the
4704 current file's filename. (At this point, the sequential
4705 file descriptor is closed.) */
4706 if (!wtap_fdreopen(cf->wth, cf->filename, &err)) {
4707 /* Oh, well, we're screwed. */
4708 display_basename = g_filename_display_basename(cf->filename);
4709 simple_error_message_box(
4710 file_open_error_message(err, FALSE), display_basename);
4711 g_free(display_basename);
4713 #endif
4714 goto fail;
4718 cf_callback_invoke(cf_cb_file_save_finished, NULL);
4719 cf->unsaved_changes = FALSE;
4721 if (!dont_reopen) {
4722 switch (how_to_save) {
4724 case SAVE_WITH_MOVE:
4725 /* We just moved the file, so the wtap structure refers to the
4726 new file, and all the information other than the filename
4727 and the "is temporary" status applies to the new file; just
4728 update that. */
4729 g_free(cf->filename);
4730 cf->filename = g_strdup(fname);
4731 cf->is_tempfile = FALSE;
4732 cf_callback_invoke(cf_cb_file_fast_save_finished, cf);
4733 break;
4735 case SAVE_WITH_COPY:
4736 /* We just copied the file, s all the information other than
4737 the wtap structure, the filename, and the "is temporary"
4738 status applies to the new file; just update that. */
4739 wtap_close(cf->wth);
4740 cf->wth = wtap_open_offline(fname, &err, &err_info, TRUE);
4741 if (cf->wth == NULL) {
4742 cf_open_failure_alert_box(fname, err, err_info, FALSE, 0);
4743 cf_close(cf);
4744 } else {
4745 g_free(cf->filename);
4746 cf->filename = g_strdup(fname);
4747 cf->is_tempfile = FALSE;
4749 cf_callback_invoke(cf_cb_file_fast_save_finished, cf);
4750 break;
4752 case SAVE_WITH_WTAP:
4753 /* Open and read the file we saved to.
4755 XXX - this is somewhat of a waste; we already have the
4756 packets, all this gets us is updated file type information
4757 (which we could just stuff into "cf"), and having the new
4758 file be the one we have opened and from which we're reading
4759 the data, and it means we have to spend time opening and
4760 reading the file, which could be a significant amount of
4761 time if the file is large.
4763 If the capture-file-writing code were to return the
4764 seek offset of each packet it writes, we could save that
4765 in the frame_data structure for the frame, and just open
4766 the file without reading it again...
4768 ...as long as, for gzipped files, the process of writing
4769 out the file *also* generates the information needed to
4770 support fast random access to the compressed file. */
4771 if (rescan_file(cf, fname, FALSE, &err) != CF_READ_OK) {
4772 /* The rescan failed; just close the file. Either
4773 a dialog was popped up for the failure, so the
4774 user knows what happened, or they stopped the
4775 rescan, in which case they know what happened. */
4776 cf_close(cf);
4778 break;
4781 /* If we were told to discard the comments, do so. */
4782 if (discard_comments) {
4783 /* Remove SHB comment, if any. */
4784 wtap_write_shb_comment(cf->wth, NULL);
4786 /* remove all user comments */
4787 for (framenum = 1; framenum <= cf->count; framenum++) {
4788 fdata = frame_data_sequence_find(cf->frames, framenum);
4790 fdata->flags.has_phdr_comment = FALSE;
4791 fdata->flags.has_user_comment = FALSE;
4794 if (cf->frames_user_comments) {
4795 g_tree_destroy(cf->frames_user_comments);
4796 cf->frames_user_comments = NULL;
4799 cf->packet_comment_count = 0;
4802 return CF_WRITE_OK;
4804 fail:
4805 if (fname_new != NULL) {
4806 /* We were trying to write to a temporary file; get rid of it if it
4807 exists. (We don't care whether this fails, as, if it fails,
4808 there's not much we can do about it. I guess if it failed for
4809 a reason other than "it doesn't exist", we could report an
4810 error, so the user knows there's a junk file that they might
4811 want to clean up.) */
4812 ws_unlink(fname_new);
4813 g_free(fname_new);
4815 cf_callback_invoke(cf_cb_file_save_failed, NULL);
4816 return CF_WRITE_ERROR;
4819 cf_write_status_t
4820 cf_export_specified_packets(capture_file *cf, const char *fname,
4821 packet_range_t *range, guint save_format,
4822 gboolean compressed)
4824 gchar *fname_new = NULL;
4825 int err;
4826 wtap_dumper *pdh;
4827 save_callback_args_t callback_args;
4828 wtapng_section_t *shb_hdr;
4829 wtapng_iface_descriptions_t *idb_inf;
4830 int encap;
4832 cf_callback_invoke(cf_cb_file_export_specified_packets_started, (gpointer)fname);
4834 packet_range_process_init(range);
4836 /* We're writing out specified packets from the specified capture
4837 file to another file. Even if all captured packets are to be
4838 written, don't special-case the operation - read each packet
4839 and then write it out if it's one of the specified ones. */
4841 shb_hdr = wtap_file_get_shb_info(cf->wth);
4842 idb_inf = wtap_file_get_idb_info(cf->wth);
4844 /* Determine what file encapsulation type we should use. */
4845 encap = wtap_dump_file_encap_type(cf->linktypes);
4847 if (file_exists(fname)) {
4848 /* We're overwriting an existing file; write out to a new file,
4849 and, if that succeeds, rename the new file on top of the
4850 old file. That makes this a "safe save", so that we don't
4851 lose the old file if we have a problem writing out the new
4852 file. (If the existing file is the current capture file,
4853 we *HAVE* to do that, otherwise we're overwriting the file
4854 from which we're reading the packets that we're writing!) */
4855 fname_new = g_strdup_printf("%s~", fname);
4856 pdh = wtap_dump_open_ng(fname_new, save_format, encap, cf->snap,
4857 compressed, shb_hdr, idb_inf, &err);
4858 } else {
4859 pdh = wtap_dump_open_ng(fname, save_format, encap, cf->snap,
4860 compressed, shb_hdr, idb_inf, &err);
4862 g_free(idb_inf);
4863 idb_inf = NULL;
4865 if (pdh == NULL) {
4866 cf_open_failure_alert_box(fname, err, NULL, TRUE, save_format);
4867 goto fail;
4870 /* Add address resolution */
4871 wtap_dump_set_addrinfo_list(pdh, get_addrinfo_list());
4873 /* Iterate through the list of packets, processing the packets we were
4874 told to process.
4876 XXX - we've already called "packet_range_process_init(range)", but
4877 "process_specified_packets()" will do it again. Fortunately,
4878 that's harmless in this case, as we haven't done anything to
4879 "range" since we initialized it. */
4880 callback_args.pdh = pdh;
4881 callback_args.fname = fname;
4882 callback_args.file_type = save_format;
4883 switch (process_specified_packets(cf, range, "Writing", "specified packets",
4884 TRUE, save_packet, &callback_args)) {
4886 case PSP_FINISHED:
4887 /* Completed successfully. */
4888 break;
4890 case PSP_STOPPED:
4891 /* The user decided to abort the saving.
4892 If we're writing to a temporary file, remove it.
4893 XXX - should we do so even if we're not writing to a
4894 temporary file? */
4895 wtap_dump_close(pdh, &err);
4896 if (fname_new != NULL)
4897 ws_unlink(fname_new);
4898 cf_callback_invoke(cf_cb_file_export_specified_packets_stopped, NULL);
4899 return CF_WRITE_ABORTED;
4900 break;
4902 case PSP_FAILED:
4903 /* Error while saving.
4904 If we're writing to a temporary file, remove it. */
4905 if (fname_new != NULL)
4906 ws_unlink(fname_new);
4907 wtap_dump_close(pdh, &err);
4908 goto fail;
4911 if (!wtap_dump_close(pdh, &err)) {
4912 cf_close_failure_alert_box(fname, err);
4913 goto fail;
4916 if (fname_new != NULL) {
4917 /* We wrote out to fname_new, and should rename it on top of
4918 fname; fname is now closed, so that should be possible even
4919 on Windows. Do the rename. */
4920 if (ws_rename(fname_new, fname) == -1) {
4921 /* Well, the rename failed. */
4922 cf_rename_failure_alert_box(fname, errno);
4923 goto fail;
4927 cf_callback_invoke(cf_cb_file_export_specified_packets_finished, NULL);
4928 return CF_WRITE_OK;
4930 fail:
4931 if (fname_new != NULL) {
4932 /* We were trying to write to a temporary file; get rid of it if it
4933 exists. (We don't care whether this fails, as, if it fails,
4934 there's not much we can do about it. I guess if it failed for
4935 a reason other than "it doesn't exist", we could report an
4936 error, so the user knows there's a junk file that they might
4937 want to clean up.) */
4938 ws_unlink(fname_new);
4939 g_free(fname_new);
4941 cf_callback_invoke(cf_cb_file_export_specified_packets_failed, NULL);
4942 return CF_WRITE_ERROR;
4945 static void
4946 cf_open_failure_alert_box(const char *filename, int err, gchar *err_info,
4947 gboolean for_writing, int file_type)
4949 gchar *display_basename;
4951 if (err < 0) {
4952 /* Wiretap error. */
4953 display_basename = g_filename_display_basename(filename);
4954 switch (err) {
4956 case WTAP_ERR_NOT_REGULAR_FILE:
4957 simple_error_message_box(
4958 "The file \"%s\" is a \"special file\" or socket or other non-regular file.",
4959 display_basename);
4960 break;
4962 case WTAP_ERR_RANDOM_OPEN_PIPE:
4963 /* Seen only when opening a capture file for reading. */
4964 simple_error_message_box(
4965 "The file \"%s\" is a pipe or FIFO; Wireshark can't read pipe or FIFO files.\n"
4966 "To capture from a pipe or FIFO use wireshark -i -",
4967 display_basename);
4968 break;
4970 case WTAP_ERR_FILE_UNKNOWN_FORMAT:
4971 /* Seen only when opening a capture file for reading. */
4972 simple_error_message_box(
4973 "The file \"%s\" isn't a capture file in a format Wireshark understands.",
4974 display_basename);
4975 break;
4977 case WTAP_ERR_UNSUPPORTED:
4978 /* Seen only when opening a capture file for reading. */
4979 simple_error_message_box(
4980 "The file \"%s\" isn't a capture file in a format Wireshark understands.\n"
4981 "(%s)",
4982 display_basename, err_info);
4983 g_free(err_info);
4984 break;
4986 case WTAP_ERR_CANT_WRITE_TO_PIPE:
4987 /* Seen only when opening a capture file for writing. */
4988 simple_error_message_box(
4989 "The file \"%s\" is a pipe, and %s capture files can't be "
4990 "written to a pipe.",
4991 display_basename, wtap_file_type_subtype_string(file_type));
4992 break;
4994 case WTAP_ERR_UNSUPPORTED_FILE_TYPE:
4995 /* Seen only when opening a capture file for writing. */
4996 simple_error_message_box(
4997 "Wireshark doesn't support writing capture files in that format.");
4998 break;
5000 case WTAP_ERR_UNSUPPORTED_ENCAP:
5001 if (for_writing) {
5002 simple_error_message_box("Wireshark can't save this capture in that format.");
5003 } else {
5004 simple_error_message_box(
5005 "The file \"%s\" is a capture for a network type that Wireshark doesn't support.\n"
5006 "(%s)",
5007 display_basename, err_info);
5008 g_free(err_info);
5010 break;
5012 case WTAP_ERR_ENCAP_PER_PACKET_UNSUPPORTED:
5013 if (for_writing) {
5014 simple_error_message_box(
5015 "Wireshark can't save this capture in that format.");
5016 } else {
5017 simple_error_message_box(
5018 "The file \"%s\" is a capture for a network type that Wireshark doesn't support.",
5019 display_basename);
5021 break;
5023 case WTAP_ERR_BAD_FILE:
5024 /* Seen only when opening a capture file for reading. */
5025 simple_error_message_box(
5026 "The file \"%s\" appears to be damaged or corrupt.\n"
5027 "(%s)",
5028 display_basename, err_info);
5029 g_free(err_info);
5030 break;
5032 case WTAP_ERR_CANT_OPEN:
5033 if (for_writing) {
5034 simple_error_message_box(
5035 "The file \"%s\" could not be created for some unknown reason.",
5036 display_basename);
5037 } else {
5038 simple_error_message_box(
5039 "The file \"%s\" could not be opened for some unknown reason.",
5040 display_basename);
5042 break;
5044 case WTAP_ERR_SHORT_READ:
5045 simple_error_message_box(
5046 "The file \"%s\" appears to have been cut short"
5047 " in the middle of a packet or other data.",
5048 display_basename);
5049 break;
5051 case WTAP_ERR_SHORT_WRITE:
5052 simple_error_message_box(
5053 "A full header couldn't be written to the file \"%s\".",
5054 display_basename);
5055 break;
5057 case WTAP_ERR_COMPRESSION_NOT_SUPPORTED:
5058 simple_error_message_box(
5059 "This file type cannot be written as a compressed file.");
5060 break;
5062 case WTAP_ERR_DECOMPRESS:
5063 simple_error_message_box(
5064 "The compressed file \"%s\" appears to be damaged or corrupt.\n"
5065 "(%s)", display_basename, err_info);
5066 g_free(err_info);
5067 break;
5069 default:
5070 simple_error_message_box(
5071 "The file \"%s\" could not be %s: %s.",
5072 display_basename,
5073 for_writing ? "created" : "opened",
5074 wtap_strerror(err));
5075 break;
5077 g_free(display_basename);
5078 } else {
5079 /* OS error. */
5080 open_failure_alert_box(filename, err, for_writing);
5085 * XXX - whether we mention the source pathname, the target pathname,
5086 * or both depends on the error and on what we find if we look for
5087 * one or both of them.
5089 static void
5090 cf_rename_failure_alert_box(const char *filename, int err)
5092 gchar *display_basename;
5094 display_basename = g_filename_display_basename(filename);
5095 switch (err) {
5097 case ENOENT:
5098 /* XXX - should check whether the source exists and, if not,
5099 report it as the problem and, if so, report the destination
5100 as the problem. */
5101 simple_error_message_box("The path to the file \"%s\" doesn't exist.",
5102 display_basename);
5103 break;
5105 case EACCES:
5106 /* XXX - if we're doing a rename after a safe save, we should
5107 probably say something else. */
5108 simple_error_message_box("You don't have permission to move the capture file to \"%s\".",
5109 display_basename);
5110 break;
5112 default:
5113 /* XXX - this should probably mention both the source and destination
5114 pathnames. */
5115 simple_error_message_box("The file \"%s\" could not be moved: %s.",
5116 display_basename, wtap_strerror(err));
5117 break;
5119 g_free(display_basename);
5122 /* Check for write errors - if the file is being written to an NFS server,
5123 a write error may not show up until the file is closed, as NFS clients
5124 might not send writes to the server until the "write()" call finishes,
5125 so that the write may fail on the server but the "write()" may succeed. */
5126 static void
5127 cf_close_failure_alert_box(const char *filename, int err)
5129 gchar *display_basename;
5131 if (err < 0) {
5132 /* Wiretap error. */
5133 display_basename = g_filename_display_basename(filename);
5134 switch (err) {
5136 case WTAP_ERR_CANT_CLOSE:
5137 simple_error_message_box(
5138 "The file \"%s\" couldn't be closed for some unknown reason.",
5139 display_basename);
5140 break;
5142 case WTAP_ERR_SHORT_WRITE:
5143 simple_error_message_box(
5144 "Not all the packets could be written to the file \"%s\".",
5145 display_basename);
5146 break;
5148 default:
5149 simple_error_message_box(
5150 "An error occurred while closing the file \"%s\": %s.",
5151 display_basename, wtap_strerror(err));
5152 break;
5154 g_free(display_basename);
5155 } else {
5156 /* OS error.
5157 We assume that a close error from the OS is really a write error. */
5158 write_failure_alert_box(filename, err);
5162 /* Reload the current capture file. */
5163 void
5164 cf_reload(capture_file *cf) {
5165 gchar *filename;
5166 gboolean is_tempfile;
5167 int err;
5169 /* If the file could be opened, "cf_open()" calls "cf_close()"
5170 to get rid of state for the old capture file before filling in state
5171 for the new capture file. "cf_close()" will remove the file if
5172 it's a temporary file; we don't want that to happen (for one thing,
5173 it'd prevent subsequent reopens from working). Remember whether it's
5174 a temporary file, mark it as not being a temporary file, and then
5175 reopen it as the type of file it was.
5177 Also, "cf_close()" will free "cf->filename", so we must make
5178 a copy of it first. */
5179 filename = g_strdup(cf->filename);
5180 is_tempfile = cf->is_tempfile;
5181 cf->is_tempfile = FALSE;
5182 if (cf_open(cf, filename, is_tempfile, &err) == CF_OK) {
5183 switch (cf_read(cf, TRUE)) {
5185 case CF_READ_OK:
5186 case CF_READ_ERROR:
5187 /* Just because we got an error, that doesn't mean we were unable
5188 to read any of the file; we handle what we could get from the
5189 file. */
5190 break;
5192 case CF_READ_ABORTED:
5193 /* The user bailed out of re-reading the capture file; the
5194 capture file has been closed - just free the capture file name
5195 string and return (without changing the last containing
5196 directory). */
5197 g_free(filename);
5198 return;
5200 } else {
5201 /* The open failed, so "cf->is_tempfile" wasn't set to "is_tempfile".
5202 Instead, the file was left open, so we should restore "cf->is_tempfile"
5203 ourselves.
5205 XXX - change the menu? Presumably "cf_open()" will do that;
5206 make sure it does! */
5207 cf->is_tempfile = is_tempfile;
5209 /* "cf_open()" made a copy of the file name we handed it, so
5210 we should free up our copy. */
5211 g_free(filename);
5215 * Editor modelines
5217 * Local Variables:
5218 * c-basic-offset: 2
5219 * tab-width: 8
5220 * indent-tabs-mode: nil
5221 * End:
5223 * ex: set shiftwidth=2 tabstop=8 expandtab:
5224 * :indentSize=2:tabSize=8:noTabs=true: