/* file.c * File I/O routines * * $Id$ * * Ethereal - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #ifdef HAVE_UNISTD_H #include #endif #include #include #include #include #include #include #include #ifdef HAVE_FCNTL_H #include #endif #ifdef NEED_STRERROR_H #include "strerror.h" #endif #include #include #include "color.h" #include "color_filters.h" #include #include #include "packet-range.h" #include "print.h" #include "file.h" #include "fileset.h" #include "tempfile.h" #include "merge.h" #include "alert_box.h" #include "simple_dialog.h" #include "progress_dlg.h" #include "ui_util.h" #include #include #include #include #include #include "stat_menu.h" #include "tap_dfilter_dlg.h" #include #include #include "file_util.h" #ifdef HAVE_LIBPCAP gboolean auto_scroll_live; #endif static nstime_t first_ts; static nstime_t prev_ts; static guint32 cum_bytes = 0; static void cf_reset_state(capture_file *cf); static void read_packet(capture_file *cf, long offset); static void rescan_packets(capture_file *cf, const char *action, const char *action_item, gboolean refilter, gboolean redissect); static gboolean match_protocol_tree(capture_file *cf, frame_data *fdata, void *criterion); static void match_subtree_text(proto_node *node, gpointer data); static gboolean match_summary_line(capture_file *cf, frame_data *fdata, void *criterion); static gboolean match_ascii_and_unicode(capture_file *cf, frame_data *fdata, void *criterion); static gboolean match_ascii(capture_file *cf, frame_data *fdata, void *criterion); static gboolean match_unicode(capture_file *cf, frame_data *fdata, void *criterion); static gboolean match_binary(capture_file *cf, frame_data *fdata, void *criterion); static gboolean match_dfilter(capture_file *cf, frame_data *fdata, void *criterion); static gboolean find_packet(capture_file *cf, gboolean (*match_function)(capture_file *, frame_data *, void *), void *criterion); static void cf_open_failure_alert_box(const char *filename, int err, gchar *err_info, gboolean for_writing, int file_type); static const char *file_rename_error_message(int err); static void cf_write_failure_alert_box(const char *filename, int err); static void cf_close_failure_alert_box(const char *filename, int err); static gboolean copy_binary_file(const char *from_filename, const char *to_filename); /* Update the progress bar this many times when reading a file. */ #define N_PROGBAR_UPDATES 100 /* Number of "frame_data" structures per memory chunk. XXX - is this the right number? */ #define FRAME_DATA_CHUNK_SIZE 1024 /* one callback for now, we could have a list later */ static cf_callback_t cf_cb = NULL; static gpointer cf_cb_user_data = NULL; void cf_callback_invoke(int event, gpointer data) { g_assert(cf_cb != NULL); cf_cb(event, data, cf_cb_user_data); } void cf_callback_add(cf_callback_t func, gpointer user_data) { /* More than one callback listener is currently not implemented, but should be easy to do. */ g_assert(cf_cb == NULL); cf_cb = func; cf_cb_user_data = user_data; } void cf_callback_remove(cf_callback_t func _U_) { g_assert(cf_cb != NULL); cf_cb = NULL; cf_cb_user_data = NULL; } void cf_timestamp_auto_precision(capture_file *cf) { int prec = timestamp_get_precision(); /* don't try to get the file's precision if none is opened */ if(cf->state == FILE_CLOSED) { return; } /* if we are in auto mode, set precision of current file */ if(prec == TS_PREC_AUTO || prec == TS_PREC_AUTO_SEC || prec == TS_PREC_AUTO_DSEC || prec == TS_PREC_AUTO_CSEC || prec == TS_PREC_AUTO_MSEC || prec == TS_PREC_AUTO_USEC || prec == TS_PREC_AUTO_NSEC) { switch(wtap_file_tsprecision(cf->wth)) { case(WTAP_FILE_TSPREC_SEC): timestamp_set_precision(TS_PREC_AUTO_SEC); break; case(WTAP_FILE_TSPREC_DSEC): timestamp_set_precision(TS_PREC_AUTO_DSEC); break; case(WTAP_FILE_TSPREC_CSEC): timestamp_set_precision(TS_PREC_AUTO_CSEC); break; case(WTAP_FILE_TSPREC_MSEC): timestamp_set_precision(TS_PREC_AUTO_MSEC); break; case(WTAP_FILE_TSPREC_USEC): timestamp_set_precision(TS_PREC_AUTO_USEC); break; case(WTAP_FILE_TSPREC_NSEC): timestamp_set_precision(TS_PREC_AUTO_NSEC); break; default: g_assert_not_reached(); } } } cf_status_t cf_open(capture_file *cf, const char *fname, gboolean is_tempfile, int *err) { wtap *wth; gchar *err_info; wth = wtap_open_offline(fname, err, &err_info, TRUE); if (wth == NULL) goto fail; /* The open succeeded. Close whatever capture file we had open, and fill in the information for this file. */ cf_reset_state(cf); /* Initialize all data structures used for dissection. */ init_dissection(); /* We're about to start reading the file. */ cf->state = FILE_READ_IN_PROGRESS; cf->wth = wth; cf->f_datalen = 0; /* Set the file name because we need it to set the follow stream filter. XXX - is that still true? We need it for other reasons, though, in any case. */ cf->filename = g_strdup(fname); /* Indicate whether it's a permanent or temporary file. */ cf->is_tempfile = is_tempfile; /* If it's a temporary capture buffer file, mark it as not saved. */ cf->user_saved = !is_tempfile; cf->cd_t = wtap_file_type(cf->wth); cf->count = 0; cf->displayed_count = 0; cf->marked_count = 0; cf->drops_known = FALSE; cf->drops = 0; cf->snap = wtap_snapshot_length(cf->wth); if (cf->snap == 0) { /* Snapshot length not known. */ cf->has_snap = FALSE; cf->snap = WTAP_MAX_PACKET_SIZE; } else cf->has_snap = TRUE; nstime_set_zero(&cf->elapsed_time); nstime_set_zero(&first_ts); nstime_set_zero(&prev_ts); cf->plist_chunk = g_mem_chunk_new("frame_data_chunk", sizeof(frame_data), FRAME_DATA_CHUNK_SIZE * sizeof(frame_data), G_ALLOC_AND_FREE); g_assert(cf->plist_chunk); /* change the time formats now, as we might have a new precision */ cf_change_time_formats(cf); fileset_file_opened(fname); return CF_OK; fail: cf_open_failure_alert_box(fname, *err, err_info, FALSE, 0); return CF_ERROR; } /* * Reset the state for the currently closed file, but don't do the * UI callbacks; this is for use in "cf_open()", where we don't * want the UI to go from "file open" to "file closed" back to * "file open", we want it to go from "old file open" to "new file * open and being read". */ static void cf_reset_state(capture_file *cf) { /* Die if we're in the middle of reading a file. */ g_assert(cf->state != FILE_READ_IN_PROGRESS); if (cf->wth) { wtap_close(cf->wth); cf->wth = NULL; } /* We have no file open... */ if (cf->filename != NULL) { /* If it's a temporary file, remove it. */ if (cf->is_tempfile) eth_unlink(cf->filename); g_free(cf->filename); cf->filename = NULL; } /* ...which means we have nothing to save. */ cf->user_saved = FALSE; if (cf->plist_chunk != NULL) { g_mem_chunk_destroy(cf->plist_chunk); cf->plist_chunk = NULL; } if (cf->rfcode != NULL) { dfilter_free(cf->rfcode); cf->rfcode = NULL; } cf->plist = NULL; cf->plist_end = NULL; cf_unselect_packet(cf); /* nothing to select */ cf->first_displayed = NULL; cf->last_displayed = NULL; /* No frame selected, no field in that frame selected. */ cf->current_frame = NULL; cf->finfo_selected = NULL; /* Clear the packet list. */ packet_list_freeze(); packet_list_clear(); packet_list_thaw(); cf->f_datalen = 0; cf->count = 0; nstime_set_zero(&cf->elapsed_time); reset_tap_listeners(); /* We have no file open. */ cf->state = FILE_CLOSED; fileset_file_closed(); } /* Reset everything to a pristine state */ void cf_close(capture_file *cf) { /* do GUI things even if file is already closed, * e.g. to cleanup things if a capture couldn't be started */ cf_callback_invoke(cf_cb_file_closing, cf); /* close things, if not already closed before */ if(cf->state != FILE_CLOSED) { cf_reset_state(cf); cleanup_dissection(); } cf_callback_invoke(cf_cb_file_closed, cf); } cf_read_status_t cf_read(capture_file *cf) { int err; gchar *err_info; const gchar *name_ptr; const char *errmsg; char errmsg_errno[1024+1]; gchar err_str[2048+1]; long data_offset; progdlg_t *progbar = NULL; gboolean stop_flag; gint64 size, file_pos; float progbar_val; GTimeVal start_time; gchar status_str[100]; gint64 progbar_nextstep; gint64 progbar_quantum; cum_bytes=0; reset_tap_listeners(); tap_dfilter_dlg_update(); cf_callback_invoke(cf_cb_file_read_start, cf); name_ptr = get_basename(cf->filename); /* Find the size of the file. */ size = wtap_file_size(cf->wth, NULL); /* Update the progress bar when it gets to this value. */ progbar_nextstep = 0; /* When we reach the value that triggers a progress bar update, bump that value by this amount. */ if (size >= 0) progbar_quantum = size/N_PROGBAR_UPDATES; else progbar_quantum = 0; /* Progress so far. */ progbar_val = 0.0; packet_list_freeze(); stop_flag = FALSE; g_get_current_time(&start_time); while ((wtap_read(cf->wth, &err, &err_info, &data_offset))) { if (size >= 0) { /* Create the progress bar if necessary. We check on every iteration of the loop, so that it takes no longer than the standard time to create it (otherwise, for a large file, we might take considerably longer than that standard time in order to get to the next progress bar step). */ if (progbar == NULL) { progbar = delayed_create_progress_dlg("Loading", name_ptr, TRUE, &stop_flag, &start_time, progbar_val); } /* Update the progress bar, but do it only N_PROGBAR_UPDATES times; when we update it, we have to run the GTK+ main loop to get it to repaint what's pending, and doing so may involve an "ioctl()" to see if there's any pending input from an X server, and doing that for every packet can be costly, especially on a big file. */ if (data_offset >= progbar_nextstep) { file_pos = wtap_read_so_far(cf->wth, NULL); progbar_val = (gfloat) file_pos / (gfloat) size; if (progbar_val > 1.0) { /* The file probably grew while we were reading it. Update file size, and try again. */ size = wtap_file_size(cf->wth, NULL); if (size >= 0) progbar_val = (gfloat) file_pos / (gfloat) size; /* If it's still > 1, either "wtap_file_size()" failed (in which case there's not much we can do about it), or the file *shrank* (in which case there's not much we can do about it); just clip the progress value at 1.0. */ if (progbar_val > 1.0) progbar_val = 1.0; } if (progbar != NULL) { g_snprintf(status_str, sizeof(status_str), "%" PRId64 "KB of %" PRId64 "KB", file_pos / 1024, size / 1024); update_progress_dlg(progbar, progbar_val, status_str); } progbar_nextstep += progbar_quantum; } } if (stop_flag) { /* Well, the user decided to abort the read. He/She will be warned and it might be enough for him/her to work with the already loaded packets. This is especially true for very large capture files, where you don't want to wait loading the whole file (which may last minutes or even hours even on fast machines) just to see that it was the wrong file. */ break; } read_packet(cf, data_offset); } /* We're done reading the file; destroy the progress bar if it was created. */ if (progbar != NULL) destroy_progress_dlg(progbar); /* We're done reading sequentially through the file. */ cf->state = FILE_READ_DONE; /* Close the sequential I/O side, to free up memory it requires. */ wtap_sequential_close(cf->wth); /* Allow the protocol dissectors to free up memory that they * don't need after the sequential run-through of the packets. */ postseq_cleanup_all_protocols(); /* Set the file encapsulation type now; we don't know what it is until we've looked at all the packets, as we don't know until then whether there's more than one type (and thus whether it's WTAP_ENCAP_PER_PACKET). */ cf->lnk_t = wtap_file_encap(cf->wth); cf->current_frame = cf->first_displayed; packet_list_thaw(); cf_callback_invoke(cf_cb_file_read_finished, cf); /* If we have any displayed packets to select, select the first of those packets by making the first row the selected row. */ if (cf->first_displayed != NULL) packet_list_select_row(0); if(stop_flag) { simple_dialog(ESD_TYPE_WARN, ESD_BTN_OK, "%sFile loading was cancelled!%s\n" "\n" "The remaining packets in the file were discarded.\n" "\n" "As a lot of packets from the original file will be missing,\n" "remember to be careful when saving the current content to a file.\n", simple_dialog_primary_start(), simple_dialog_primary_end()); return CF_READ_ERROR; } if (err != 0) { /* Put up a message box noting that the read failed somewhere along the line. Don't throw out the stuff we managed to read, though, if any. */ switch (err) { case WTAP_ERR_UNSUPPORTED_ENCAP: g_snprintf(errmsg_errno, sizeof(errmsg_errno), "The capture file has a packet with a network type that Ethereal doesn't support.\n(%s)", err_info); g_free(err_info); errmsg = errmsg_errno; break; case WTAP_ERR_CANT_READ: errmsg = "An attempt to read from the capture file failed for" " some unknown reason."; break; case WTAP_ERR_SHORT_READ: errmsg = "The capture file appears to have been cut short" " in the middle of a packet."; break; case WTAP_ERR_BAD_RECORD: g_snprintf(errmsg_errno, sizeof(errmsg_errno), "The capture file appears to be damaged or corrupt.\n(%s)", err_info); g_free(err_info); errmsg = errmsg_errno; break; default: g_snprintf(errmsg_errno, sizeof(errmsg_errno), "An error occurred while reading the" " capture file: %s.", wtap_strerror(err)); errmsg = errmsg_errno; break; } g_snprintf(err_str, sizeof err_str, errmsg); simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, err_str); return CF_READ_ERROR; } else return CF_READ_OK; } #ifdef HAVE_LIBPCAP cf_status_t cf_start_tail(capture_file *cf, const char *fname, gboolean is_tempfile, int *err) { cf_status_t cf_status; cf_status = cf_open(cf, fname, is_tempfile, err); return cf_status; } cf_read_status_t cf_continue_tail(capture_file *cf, int to_read, int *err) { long data_offset = 0; gchar *err_info; *err = 0; packet_list_freeze(); /*g_log(NULL, G_LOG_LEVEL_MESSAGE, "cf_continue_tail: %u new: %u", cf->count, to_read);*/ while (to_read != 0 && (wtap_read(cf->wth, err, &err_info, &data_offset))) { if (cf->state == FILE_READ_ABORTED) { /* Well, the user decided to exit Ethereal. Break out of the loop, and let the code below (which is called even if there aren't any packets left to read) exit. */ break; } read_packet(cf, data_offset); to_read--; } /*g_log(NULL, G_LOG_LEVEL_MESSAGE, "cf_continue_tail: count %u state: %u err: %u", cf->count, cf->state, *err);*/ /* XXX - this cheats and looks inside the packet list to find the final row number. */ if (auto_scroll_live && cf->plist_end != NULL) packet_list_moveto_end(); packet_list_thaw(); if (cf->state == FILE_READ_ABORTED) { /* Well, the user decided to exit Ethereal. Return CF_READ_ABORTED so that our caller can kill off the capture child process; this will cause an EOF on the pipe from the child, so "cf_finish_tail()" will be called, and it will clean up and exit. */ return CF_READ_ABORTED; } else if (*err != 0) { /* We got an error reading the capture file. XXX - pop up a dialog box instead? */ g_warning("Error \"%s\" while reading: \"%s\"\n", wtap_strerror(*err), cf->filename); return CF_READ_ERROR; } else return CF_READ_OK; } cf_read_status_t cf_finish_tail(capture_file *cf, int *err) { gchar *err_info; long data_offset; if(cf->wth == NULL) { cf_close(cf); return CF_READ_ERROR; } packet_list_freeze(); while ((wtap_read(cf->wth, err, &err_info, &data_offset))) { if (cf->state == FILE_READ_ABORTED) { /* Well, the user decided to abort the read. Break out of the loop, and let the code below (which is called even if there aren't any packets left to read) exit. */ break; } read_packet(cf, data_offset); } packet_list_thaw(); if (cf->state == FILE_READ_ABORTED) { /* Well, the user decided to abort the read. We're only called when the child capture process closes the pipe to us (meaning it's probably exited), so we can just close the capture file; we return CF_READ_ABORTED so our caller can do whatever is appropriate when that happens. */ cf_close(cf); return CF_READ_ABORTED; } if (auto_scroll_live && cf->plist_end != NULL) /* XXX - this cheats and looks inside the packet list to find the final row number. */ packet_list_moveto_end(); /* We're done reading sequentially through the file. */ cf->state = FILE_READ_DONE; /* We're done reading sequentially through the file; close the sequential I/O side, to free up memory it requires. */ wtap_sequential_close(cf->wth); /* Allow the protocol dissectors to free up memory that they * don't need after the sequential run-through of the packets. */ postseq_cleanup_all_protocols(); /* Set the file encapsulation type now; we don't know what it is until we've looked at all the packets, as we don't know until then whether there's more than one type (and thus whether it's WTAP_ENCAP_PER_PACKET). */ cf->lnk_t = wtap_file_encap(cf->wth); if (*err != 0) { /* We got an error reading the capture file. XXX - pop up a dialog box? */ return CF_READ_ERROR; } else { return CF_READ_OK; } } #endif /* HAVE_LIBPCAP */ const gchar * cf_get_display_name(capture_file *cf) { const gchar *displayname; /* Return a name to use in displays */ if (!cf->is_tempfile) { /* Get the last component of the file name, and use that. */ if (cf->filename){ displayname = get_basename(cf->filename); } else { displayname="(No file)"; } } else { /* The file we read is a temporary file from a live capture; we don't mention its name. */ displayname = "(Untitled)"; } return displayname; } /* XXX - use a macro instead? */ int cf_get_packet_count(capture_file *cf) { return cf->count; } /* XXX - use a macro instead? */ void cf_set_packet_count(capture_file *cf, int packet_count) { cf->count = packet_count; } /* XXX - use a macro instead? */ gboolean cf_is_tempfile(capture_file *cf) { return cf->is_tempfile; } void cf_set_tempfile(capture_file *cf, gboolean is_tempfile) { cf->is_tempfile = is_tempfile; } /* XXX - use a macro instead? */ void cf_set_drops_known(capture_file *cf, gboolean drops_known) { cf->drops_known = drops_known; } /* XXX - use a macro instead? */ void cf_set_drops(capture_file *cf, guint32 drops) { cf->drops = drops; } /* XXX - use a macro instead? */ gboolean cf_get_drops_known(capture_file *cf) { return cf->drops_known; } /* XXX - use a macro instead? */ guint32 cf_get_drops(capture_file *cf) { return cf->drops; } void cf_set_rfcode(capture_file *cf, dfilter_t *rfcode) { cf->rfcode = rfcode; } static int add_packet_to_packet_list(frame_data *fdata, capture_file *cf, union wtap_pseudo_header *pseudo_header, const guchar *buf, gboolean refilter) { gint row; gboolean create_proto_tree = FALSE; epan_dissect_t *edt; /* just add some value here until we know if it is being displayed or not */ fdata->cum_bytes = cum_bytes + fdata->pkt_len; /* If we don't have the time stamp of the first packet in the capture, it's because this is the first packet. Save the time stamp of this packet as the time stamp of the first packet. */ if (nstime_is_zero(&first_ts)) { first_ts = fdata->abs_ts; } /* if this frames is marked as a reference time frame, reset firstsec and firstusec to this frame */ if(fdata->flags.ref_time){ first_ts = fdata->abs_ts; } /* If we don't have the time stamp of the previous displayed packet, it's because this is the first displayed packet. Save the time stamp of this packet as the time stamp of the previous displayed packet. */ if (nstime_is_zero(&prev_ts)) { prev_ts = fdata->abs_ts; } /* Get the time elapsed between the first packet and this packet. */ nstime_delta(&fdata->rel_ts, &fdata->abs_ts, &first_ts); /* If it's greater than the current elapsed time, set the elapsed time to it (we check for "greater than" so as not to be confused by time moving backwards). */ if ((gint32)cf->elapsed_time.secs < fdata->rel_ts.secs || ((gint32)cf->elapsed_time.secs == fdata->rel_ts.secs && (gint32)cf->elapsed_time.nsecs < fdata->rel_ts.nsecs)) { cf->elapsed_time = fdata->rel_ts; } /* Get the time elapsed between the previous displayed packet and this packet. */ nstime_delta(&fdata->del_ts, &fdata->abs_ts, &prev_ts); /* If either we have a display filter and are re-applying it; we have a list of color filters; we have tap listeners; allocate a protocol tree root node, so that we'll construct a protocol tree against which a filter expression can be evaluated. */ if ((cf->dfcode != NULL && refilter) || color_filters_used() || num_tap_filters != 0) create_proto_tree = TRUE; /* Dissect the frame. */ edt = epan_dissect_new(create_proto_tree, FALSE); if (cf->dfcode != NULL && refilter) { epan_dissect_prime_dfilter(edt, cf->dfcode); } if (color_filters_used()) { color_filters_prime_edt(edt); } tap_queue_init(edt); epan_dissect_run(edt, pseudo_header, buf, fdata, &cf->cinfo); tap_push_tapped_queue(edt); /* If we have a display filter, apply it if we're refiltering, otherwise leave the "passed_dfilter" flag alone. If we don't have a display filter, set "passed_dfilter" to 1. */ if (cf->dfcode != NULL) { if (refilter) { fdata->flags.passed_dfilter = dfilter_apply_edt(cf->dfcode, edt) ? 1 : 0; } } else fdata->flags.passed_dfilter = 1; if( (fdata->flags.passed_dfilter) || (edt->pi.fd->flags.ref_time) ){ /* This frame either passed the display filter list or is marked as a time reference frame. All time reference frames are displayed even if they dont pass the display filter */ /* if this was a TIME REF frame we should reset the cul bytes field */ if(edt->pi.fd->flags.ref_time){ cum_bytes = fdata->pkt_len; fdata->cum_bytes = cum_bytes; } /* increase cum_bytes with this packets length */ cum_bytes += fdata->pkt_len; epan_dissect_fill_in_columns(edt); /* If we haven't yet seen the first frame, this is it. XXX - we must do this before we add the row to the display, as, if the display's GtkCList's selection mode is GTK_SELECTION_BROWSE, when the first entry is added to it, "cf_select_packet()" will be called, and it will fetch the row data for the 0th row, and will get a null pointer rather than "fdata", as "gtk_clist_append()" won't yet have returned and thus "gtk_clist_set_row_data()" won't yet have been called. We thus need to leave behind bread crumbs so that "cf_select_packet()" can find this frame. See the comment in "cf_select_packet()". */ if (cf->first_displayed == NULL) cf->first_displayed = fdata; /* This is the last frame we've seen so far. */ cf->last_displayed = fdata; row = packet_list_append(cf->cinfo.col_data, fdata); /* colorize packet: if packet is marked, use preferences, otherwise try to apply color filters */ if (fdata->flags.marked) { fdata->color_filter = NULL; packet_list_set_colors(row, &prefs.gui_marked_fg, &prefs.gui_marked_bg); } else { fdata->color_filter = color_filters_colorize_packet(row, edt); } /* Set the time of the previous displayed frame to the time of this frame. */ prev_ts = fdata->abs_ts; cf->displayed_count++; } else { /* This frame didn't pass the display filter, so it's not being added to the clist, and thus has no row. */ row = -1; } epan_dissect_free(edt); return row; } static void read_packet(capture_file *cf, long offset) { const struct wtap_pkthdr *phdr = wtap_phdr(cf->wth); union wtap_pseudo_header *pseudo_header = wtap_pseudoheader(cf->wth); const guchar *buf = wtap_buf_ptr(cf->wth); frame_data *fdata; int passed; frame_data *plist_end; epan_dissect_t *edt; /* Allocate the next list entry, and add it to the list. */ fdata = g_mem_chunk_alloc(cf->plist_chunk); fdata->num = 0; fdata->next = NULL; fdata->prev = NULL; fdata->pfd = NULL; fdata->pkt_len = phdr->len; fdata->cap_len = phdr->caplen; fdata->file_off = offset; fdata->lnk_t = phdr->pkt_encap; fdata->flags.encoding = CHAR_ASCII; fdata->flags.visited = 0; fdata->flags.marked = 0; fdata->flags.ref_time = 0; fdata->color_filter = NULL; fdata->abs_ts = *((nstime_t *) &phdr->ts); passed = TRUE; if (cf->rfcode) { edt = epan_dissect_new(TRUE, FALSE); epan_dissect_prime_dfilter(edt, cf->rfcode); epan_dissect_run(edt, pseudo_header, buf, fdata, NULL); passed = dfilter_apply_edt(cf->rfcode, edt); epan_dissect_free(edt); } if (passed) { plist_end = cf->plist_end; fdata->prev = plist_end; if (plist_end != NULL) plist_end->next = fdata; else cf->plist = fdata; cf->plist_end = fdata; cf->count++; cf->f_datalen = offset + phdr->caplen; fdata->num = cf->count; add_packet_to_packet_list(fdata, cf, pseudo_header, buf, TRUE); } else { /* XXX - if we didn't have read filters, or if we could avoid allocating the "frame_data" structure until we knew whether the frame passed the read filter, we could use a G_ALLOC_ONLY memory chunk... ...but, at least in one test I did, where I just made the chunk a G_ALLOC_ONLY chunk and read in a huge capture file, it didn't seem to save a noticeable amount of time or space. */ g_mem_chunk_free(cf->plist_chunk, fdata); } } cf_status_t cf_merge_files(char **out_filenamep, int in_file_count, char *const *in_filenames, int file_type, gboolean do_append) { merge_in_file_t *in_files; wtap *wth; char *out_filename; char tmpname[128+1]; int out_fd; wtap_dumper *pdh; int open_err, read_err, write_err, close_err; gchar *err_info; int err_fileno; int i; char errmsg_errno[1024+1]; gchar err_str[2048+1]; const char *errmsg; gboolean got_read_error = FALSE, got_write_error = FALSE; long data_offset; progdlg_t *progbar = NULL; gboolean stop_flag; gint64 f_len, file_pos; float progbar_val; GTimeVal start_time; gchar status_str[100]; gint64 progbar_nextstep; gint64 progbar_quantum; /* open the input files */ if (!merge_open_in_files(in_file_count, in_filenames, &in_files, &open_err, &err_info, &err_fileno)) { free(in_files); cf_open_failure_alert_box(in_filenames[err_fileno], open_err, err_info, FALSE, 0); return CF_ERROR; } if (*out_filenamep != NULL) { out_filename = *out_filenamep; out_fd = eth_open(out_filename, O_CREAT|O_TRUNC|O_BINARY, 0600); if (out_fd == -1) open_err = errno; } else { out_fd = create_tempfile(tmpname, sizeof tmpname, "ether"); if (out_fd == -1) open_err = errno; out_filename = g_strdup(tmpname); *out_filenamep = out_filename; } if (out_fd == -1) { err_info = NULL; merge_close_in_files(in_file_count, in_files); free(in_files); cf_open_failure_alert_box(out_filename, open_err, NULL, TRUE, file_type); return CF_ERROR; } pdh = wtap_dump_fdopen(out_fd, file_type, merge_select_frame_type(in_file_count, in_files), merge_max_snapshot_length(in_file_count, in_files), FALSE /* compressed */, &open_err); if (pdh == NULL) { eth_close(out_fd); merge_close_in_files(in_file_count, in_files); free(in_files); cf_open_failure_alert_box(out_filename, open_err, err_info, TRUE, file_type); return CF_ERROR; } /* Get the sum of the sizes of all the files. */ f_len = 0; for (i = 0; i < in_file_count; i++) f_len += in_files[i].size; /* Update the progress bar when it gets to this value. */ progbar_nextstep = 0; /* When we reach the value that triggers a progress bar update, bump that value by this amount. */ progbar_quantum = f_len/N_PROGBAR_UPDATES; /* Progress so far. */ progbar_val = 0.0; stop_flag = FALSE; g_get_current_time(&start_time); /* do the merge (or append) */ for (;;) { if (do_append) wth = merge_append_read_packet(in_file_count, in_files, &read_err, &err_info); else wth = merge_read_packet(in_file_count, in_files, &read_err, &err_info); if (wth == NULL) { if (read_err != 0) got_read_error = TRUE; break; } /* Get the sum of the data offsets in all of the files. */ data_offset = 0; for (i = 0; i < in_file_count; i++) data_offset += in_files[i].data_offset; /* Create the progress bar if necessary. We check on every iteration of the loop, so that it takes no longer than the standard time to create it (otherwise, for a large file, we might take considerably longer than that standard time in order to get to the next progress bar step). */ if (progbar == NULL) { progbar = delayed_create_progress_dlg("Merging", "files", FALSE, &stop_flag, &start_time, progbar_val); } /* Update the progress bar, but do it only N_PROGBAR_UPDATES times; when we update it, we have to run the GTK+ main loop to get it to repaint what's pending, and doing so may involve an "ioctl()" to see if there's any pending input from an X server, and doing that for every packet can be costly, especially on a big file. */ if (data_offset >= progbar_nextstep) { /* Get the sum of the seek positions in all of the files. */ file_pos = 0; for (i = 0; i < in_file_count; i++) file_pos += wtap_read_so_far(in_files[i].wth, NULL); progbar_val = (gfloat) file_pos / (gfloat) f_len; if (progbar_val > 1.0) { /* Some file probably grew while we were reading it. That "shouldn't happen", so we'll just clip the progress value at 1.0. */ progbar_val = 1.0; } if (progbar != NULL) { g_snprintf(status_str, sizeof(status_str), "%" PRId64 "KB of %" PRId64 "KB", file_pos / 1024, f_len / 1024); update_progress_dlg(progbar, progbar_val, status_str); } progbar_nextstep += progbar_quantum; } if (stop_flag) { /* Well, the user decided to abort the merge. */ break; } if (!wtap_dump(pdh, wtap_phdr(wth), wtap_pseudoheader(wth), wtap_buf_ptr(wth), &write_err)) { got_write_error = TRUE; break; } } /* We're done merging the files; destroy the progress bar if it was created. */ if (progbar != NULL) destroy_progress_dlg(progbar); merge_close_in_files(in_file_count, in_files); if (!got_read_error && !got_write_error) { if (!wtap_dump_close(pdh, &write_err)) got_write_error = TRUE; } else wtap_dump_close(pdh, &close_err); if (got_read_error) { /* * Find the file on which we got the error, and report the error. */ for (i = 0; i < in_file_count; i++) { if (in_files[i].state == GOT_ERROR) { /* Put up a message box noting that a read failed somewhere along the line. */ switch (read_err) { case WTAP_ERR_UNSUPPORTED_ENCAP: g_snprintf(errmsg_errno, sizeof(errmsg_errno), "The capture file %%s has a packet with a network type that Ethereal doesn't support.\n(%s)", err_info); g_free(err_info); errmsg = errmsg_errno; break; case WTAP_ERR_CANT_READ: errmsg = "An attempt to read from the capture file %s failed for" " some unknown reason."; break; case WTAP_ERR_SHORT_READ: errmsg = "The capture file %s appears to have been cut short" " in the middle of a packet."; break; case WTAP_ERR_BAD_RECORD: g_snprintf(errmsg_errno, sizeof(errmsg_errno), "The capture file %%s appears to be damaged or corrupt.\n(%s)", err_info); g_free(err_info); errmsg = errmsg_errno; break; default: g_snprintf(errmsg_errno, sizeof(errmsg_errno), "An error occurred while reading the" " capture file %%s: %s.", wtap_strerror(read_err)); errmsg = errmsg_errno; break; } g_snprintf(err_str, sizeof err_str, errmsg, in_files[i].filename); simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, err_str); } } } if (got_write_error) { /* Put up an alert box for the write error. */ cf_write_failure_alert_box(out_filename, write_err); } if (got_read_error || got_write_error || stop_flag) { /* Callers aren't expected to treat an error or an explicit abort differently - we put up error dialogs ourselves, so they don't have to. */ return CF_ERROR; } else return CF_READ_OK; } cf_status_t cf_filter_packets(capture_file *cf, gchar *dftext, gboolean force) { dfilter_t *dfcode; const char *filter_new = dftext ? dftext : ""; const char *filter_old = cf->dfilter ? cf->dfilter : ""; /* if new filter equals old one, do nothing unless told to do so */ if (!force && strcmp(filter_new, filter_old) == 0) { return CF_OK; } if (dftext == NULL) { /* The new filter is an empty filter (i.e., display all packets). */ dfcode = NULL; } else { /* * We have a filter; make a copy of it (as we'll be saving it), * and try to compile it. */ dftext = g_strdup(dftext); if (!dfilter_compile(dftext, &dfcode)) { /* The attempt failed; report an error. */ gchar *safe_dftext = simple_dialog_format_message(dftext); gchar *safe_dfilter_error_msg = simple_dialog_format_message( dfilter_error_msg); simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "%s%s%s\n" "\n" "The following display filter isn't a valid display filter:\n%s\n" "See the help for a description of the display filter syntax.", simple_dialog_primary_start(), safe_dfilter_error_msg, simple_dialog_primary_end(), safe_dftext); g_free(safe_dfilter_error_msg); g_free(safe_dftext); g_free(dftext); return CF_ERROR; } /* Was it empty? */ if (dfcode == NULL) { /* Yes - free the filter text, and set it to null. */ g_free(dftext); dftext = NULL; } } /* We have a valid filter. Replace the current filter. */ if (cf->dfilter != NULL) g_free(cf->dfilter); cf->dfilter = dftext; if (cf->dfcode != NULL) dfilter_free(cf->dfcode); cf->dfcode = dfcode; /* Now rescan the packet list, applying the new filter, but not throwing away information constructed on a previous pass. */ if (dftext == NULL) { rescan_packets(cf, "Resetting", "Filter", TRUE, FALSE); } else { rescan_packets(cf, "Filtering", dftext, TRUE, FALSE); } return CF_OK; } void cf_colorize_packets(capture_file *cf) { rescan_packets(cf, "Colorizing", "all packets", FALSE, FALSE); } void cf_reftime_packets(capture_file *cf) { rescan_packets(cf, "Updating Reftime", "all packets", FALSE, FALSE); } void cf_redissect_packets(capture_file *cf) { rescan_packets(cf, "Reprocessing", "all packets", TRUE, TRUE); } /* Rescan the list of packets, reconstructing the CList. "action" describes why we're doing this; it's used in the progress dialog box. "action_item" describes what we're doing; it's used in the progress dialog box. "refilter" is TRUE if we need to re-evaluate the filter expression. "redissect" is TRUE if we need to make the dissectors reconstruct any state information they have (because a preference that affects some dissector has changed, meaning some dissector might construct its state differently from the way it was constructed the last time). */ static void rescan_packets(capture_file *cf, const char *action, const char *action_item, gboolean refilter, gboolean redissect) { frame_data *fdata; progdlg_t *progbar = NULL; gboolean stop_flag; int count; int err; gchar *err_info; frame_data *selected_frame, *preceding_frame, *following_frame, *prev_frame; int selected_row, prev_row, preceding_row, following_row; gboolean selected_frame_seen; int row; float progbar_val; GTimeVal start_time; gchar status_str[100]; int progbar_nextstep; int progbar_quantum; cum_bytes=0; reset_tap_listeners(); /* Which frame, if any, is the currently selected frame? XXX - should the selected frame or the focus frame be the "current" frame, that frame being the one from which "Find Frame" searches start? */ selected_frame = cf->current_frame; /* We don't yet know what row that frame will be on, if any, after we rebuild the clist, however. */ selected_row = -1; if (redissect) { /* We need to re-initialize all the state information that protocols keep, because some preference that controls a dissector has changed, which might cause the state information to be constructed differently by that dissector. */ /* Initialize all data structures used for dissection. */ init_dissection(); } /* Freeze the packet list while we redo it, so we don't get any screen updates while it happens. */ packet_list_freeze(); /* Clear it out. */ packet_list_clear(); /* We don't yet know which will be the first and last frames displayed. */ cf->first_displayed = NULL; cf->last_displayed = NULL; /* We currently don't display any packets */ cf->displayed_count = 0; /* Iterate through the list of frames. Call a routine for each frame to check whether it should be displayed and, if so, add it to the display list. */ nstime_set_zero(&first_ts); nstime_set_zero(&prev_ts); /* Update the progress bar when it gets to this value. */ progbar_nextstep = 0; /* When we reach the value that triggers a progress bar update, bump that value by this amount. */ progbar_quantum = cf->count/N_PROGBAR_UPDATES; /* Count of packets at which we've looked. */ count = 0; /* Progress so far. */ progbar_val = 0.0; stop_flag = FALSE; g_get_current_time(&start_time); row = -1; /* no previous row yet */ prev_row = -1; prev_frame = NULL; preceding_row = -1; preceding_frame = NULL; following_row = -1; following_frame = NULL; selected_frame_seen = FALSE; for (fdata = cf->plist; fdata != NULL; fdata = fdata->next) { /* Create the progress bar if necessary. We check on every iteration of the loop, so that it takes no longer than the standard time to create it (otherwise, for a large file, we might take considerably longer than that standard time in order to get to the next progress bar step). */ if (progbar == NULL) progbar = delayed_create_progress_dlg(action, action_item, TRUE, &stop_flag, &start_time, progbar_val); /* Update the progress bar, but do it only N_PROGBAR_UPDATES times; when we update it, we have to run the GTK+ main loop to get it to repaint what's pending, and doing so may involve an "ioctl()" to see if there's any pending input from an X server, and doing that for every packet can be costly, especially on a big file. */ if (count >= progbar_nextstep) { /* let's not divide by zero. I should never be started * with count == 0, so let's assert that */ g_assert(cf->count > 0); progbar_val = (gfloat) count / cf->count; if (progbar != NULL) { g_snprintf(status_str, sizeof(status_str), "%4u of %u frames", count, cf->count); update_progress_dlg(progbar, progbar_val, status_str); } progbar_nextstep += progbar_quantum; } if (stop_flag) { /* Well, the user decided to abort the filtering. Just stop. XXX - go back to the previous filter? Users probably just want not to wait for a filtering operation to finish; unless we cancel by having no filter, reverting to the previous filter will probably be even more expensive than continuing the filtering, as it involves going back to the beginning and filtering, and even with no filter we currently have to re-generate the entire clist, which is also expensive. I'm not sure what Network Monitor does, but it doesn't appear to give you an unfiltered display if you cancel. */ break; } count++; if (redissect) { /* Since all state for the frame was destroyed, mark the frame * as not visited, free the GSList referring to the state * data (the per-frame data itself was freed by * "init_dissection()"), and null out the GSList pointer. */ fdata->flags.visited = 0; if (fdata->pfd) { g_slist_free(fdata->pfd); fdata->pfd = NULL; } } if (!wtap_seek_read (cf->wth, fdata->file_off, &cf->pseudo_header, cf->pd, fdata->cap_len, &err, &err_info)) { simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, cf_read_error_message(err, err_info), cf->filename); break; } /* If the previous frame is displayed, and we haven't yet seen the selected frame, remember that frame - it's the closest one we've yet seen before the selected frame. */ if (prev_row != -1 && !selected_frame_seen) { preceding_row = prev_row; preceding_frame = prev_frame; } row = add_packet_to_packet_list(fdata, cf, &cf->pseudo_header, cf->pd, refilter); /* If this frame is displayed, and this is the first frame we've seen displayed after the selected frame, remember this frame - it's the closest one we've yet seen at or after the selected frame. */ if (row != -1 && selected_frame_seen && following_row == -1) { following_row = row; following_frame = fdata; } if (fdata == selected_frame) { selected_row = row; selected_frame_seen = TRUE; } /* Remember this row/frame - it'll be the previous row/frame on the next pass through the loop. */ prev_row = row; prev_frame = fdata; } if (redissect) { /* Clear out what remains of the visited flags and per-frame data pointers. XXX - that may cause various forms of bogosity when dissecting these frames, as they won't have been seen by this sequential pass, but the only alternative I see is to keep scanning them even though the user requested that the scan stop, and that would leave the user stuck with an Ethereal grinding on until it finishes. Should we just stick them with that? */ for (; fdata != NULL; fdata = fdata->next) { fdata->flags.visited = 0; if (fdata->pfd) { g_slist_free(fdata->pfd); fdata->pfd = NULL; } } } /* We're done filtering the packets; destroy the progress bar if it was created. */ if (progbar != NULL) destroy_progress_dlg(progbar); /* Unfreeze the packet list. */ packet_list_thaw(); if (selected_row == -1) { /* The selected frame didn't pass the filter. */ if (selected_frame == NULL) { /* That's because there *was* no selected frame. Make the first displayed frame the current frame. */ selected_row = 0; } else { /* Find the nearest displayed frame to the selected frame (whether it's before or after that frame) and make that the current frame. If the next and previous displayed frames are equidistant from the selected frame, choose the next one. */ g_assert(following_frame == NULL || following_frame->num >= selected_frame->num); g_assert(preceding_frame == NULL || preceding_frame->num <= selected_frame->num); if (following_frame == NULL) { /* No frame after the selected frame passed the filter, so we have to select the last displayed frame before the selected frame. */ selected_row = preceding_row; } else if (preceding_frame == NULL) { /* No frame before the selected frame passed the filter, so we have to select the first displayed frame after the selected frame. */ selected_row = following_row; } else { /* Choose the closer of the last displayed frame before the selected frame and the first displayed frame after the selected frame; in case of a tie, choose the first displayed frame after the selected frame. */ if (following_frame->num - selected_frame->num <= selected_frame->num - preceding_frame->num) { selected_row = following_row; } else { /* The previous frame is closer to the selected frame than the next frame. */ selected_row = preceding_row; } } } } if (selected_row == -1) { /* There are no frames displayed at all. */ cf_unselect_packet(cf); } else { /* Either the frame that was selected passed the filter, or we've found the nearest displayed frame to that frame. Select it, make it the focus row, and make it visible. */ packet_list_set_selected_row(selected_row); } } typedef enum { PSP_FINISHED, PSP_STOPPED, PSP_FAILED } psp_return_t; static psp_return_t process_specified_packets(capture_file *cf, packet_range_t *range, const char *string1, const char *string2, gboolean terminate_is_stop, gboolean (*callback)(capture_file *, frame_data *, union wtap_pseudo_header *, const guint8 *, void *), void *callback_args) { frame_data *fdata; int err; gchar *err_info; union wtap_pseudo_header pseudo_header; guint8 pd[WTAP_MAX_PACKET_SIZE+1]; psp_return_t ret = PSP_FINISHED; progdlg_t *progbar = NULL; int progbar_count; float progbar_val; gboolean progbar_stop_flag; GTimeVal progbar_start_time; gchar progbar_status_str[100]; int progbar_nextstep; int progbar_quantum; range_process_e process_this; /* Update the progress bar when it gets to this value. */ progbar_nextstep = 0; /* When we reach the value that triggers a progress bar update, bump that value by this amount. */ progbar_quantum = cf->count/N_PROGBAR_UPDATES; /* Count of packets at which we've looked. */ progbar_count = 0; /* Progress so far. */ progbar_val = 0.0; progbar_stop_flag = FALSE; g_get_current_time(&progbar_start_time); packet_range_process_init(range); /* Iterate through the list of packets, printing the packets that were selected by the current display filter. */ for (fdata = cf->plist; fdata != NULL; fdata = fdata->next) { /* Create the progress bar if necessary. We check on every iteration of the loop, so that it takes no longer than the standard time to create it (otherwise, for a large file, we might take considerably longer than that standard time in order to get to the next progress bar step). */ if (progbar == NULL) progbar = delayed_create_progress_dlg(string1, string2, terminate_is_stop, &progbar_stop_flag, &progbar_start_time, progbar_val); /* Update the progress bar, but do it only N_PROGBAR_UPDATES times; when we update it, we have to run the GTK+ main loop to get it to repaint what's pending, and doing so may involve an "ioctl()" to see if there's any pending input from an X server, and doing that for every packet can be costly, especially on a big file. */ if (progbar_count >= progbar_nextstep) { /* let's not divide by zero. I should never be started * with count == 0, so let's assert that */ g_assert(cf->count > 0); progbar_val = (gfloat) progbar_count / cf->count; if (progbar != NULL) { g_snprintf(progbar_status_str, sizeof(progbar_status_str), "%4u of %u packets", progbar_count, cf->count); update_progress_dlg(progbar, progbar_val, progbar_status_str); } progbar_nextstep += progbar_quantum; } if (progbar_stop_flag) { /* Well, the user decided to abort the operation. Just stop, and arrange to return PSP_STOPPED to our caller, so they know it was stopped explicitly. */ ret = PSP_STOPPED; break; } progbar_count++; /* do we have to process this packet? */ process_this = packet_range_process_packet(range, fdata); if (process_this == range_process_next) { /* this packet uninteresting, continue with next one */ continue; } else if (process_this == range_processing_finished) { /* all interesting packets processed, stop the loop */ break; } /* Get the packet */ if (!wtap_seek_read(cf->wth, fdata->file_off, &pseudo_header, pd, fdata->cap_len, &err, &err_info)) { /* Attempt to get the packet failed. */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, cf_read_error_message(err, err_info), cf->filename); ret = PSP_FAILED; break; } /* Process the packet */ if (!callback(cf, fdata, &pseudo_header, pd, callback_args)) { /* Callback failed. We assume it reported the error appropriately. */ ret = PSP_FAILED; break; } } /* We're done printing the packets; destroy the progress bar if it was created. */ if (progbar != NULL) destroy_progress_dlg(progbar); return ret; } static gboolean retap_packet(capture_file *cf _U_, frame_data *fdata, union wtap_pseudo_header *pseudo_header, const guint8 *pd, void *argsp) { column_info *cinfo = argsp; epan_dissect_t *edt; /* If we have tap listeners, allocate a protocol tree root node, so that we'll construct a protocol tree against which a filter expression can be evaluated. */ edt = epan_dissect_new(num_tap_filters != 0, FALSE); tap_queue_init(edt); epan_dissect_run(edt, pseudo_header, pd, fdata, cinfo); tap_push_tapped_queue(edt); epan_dissect_free(edt); return TRUE; } cf_read_status_t cf_retap_packets(capture_file *cf, gboolean do_columns) { packet_range_t range; /* Reset the tap listeners. */ reset_tap_listeners(); /* Iterate through the list of packets, dissecting all packets and re-running the taps. */ packet_range_init(&range); packet_range_process_init(&range); switch (process_specified_packets(cf, &range, "Refiltering statistics on", "all packets", TRUE, retap_packet, do_columns ? &cf->cinfo : NULL)) { case PSP_FINISHED: /* Completed successfully. */ return CF_OK; case PSP_STOPPED: /* Well, the user decided to abort the refiltering. Return CF_READ_ABORTED so our caller knows they did that. */ return CF_READ_ABORTED; case PSP_FAILED: /* Error while retapping. */ return CF_READ_ERROR; } g_assert_not_reached(); return CF_READ_OK; } typedef struct { print_args_t *print_args; gboolean print_header_line; char *header_line_buf; int header_line_buf_len; gboolean print_formfeed; gboolean print_separator; char *line_buf; int line_buf_len; gint *col_widths; } print_callback_args_t; static gboolean print_packet(capture_file *cf, frame_data *fdata, union wtap_pseudo_header *pseudo_header, const guint8 *pd, void *argsp) { print_callback_args_t *args = argsp; epan_dissect_t *edt; int i; char *cp; int line_len; int column_len; int cp_off; gboolean proto_tree_needed; char bookmark_name[9+10+1]; /* "__frameNNNNNNNNNN__\0" */ char bookmark_title[6+10+1]; /* "Frame NNNNNNNNNN__\0" */ /* Create the protocol tree, and make it visible, if we're printing the dissection or the hex data. XXX - do we need it if we're just printing the hex data? */ proto_tree_needed = args->print_args->print_dissections != print_dissections_none || args->print_args->print_hex; edt = epan_dissect_new(proto_tree_needed, proto_tree_needed); /* Fill in the column information if we're printing the summary information. */ if (args->print_args->print_summary) { epan_dissect_run(edt, pseudo_header, pd, fdata, &cf->cinfo); epan_dissect_fill_in_columns(edt); } else epan_dissect_run(edt, pseudo_header, pd, fdata, NULL); if (args->print_formfeed) { if (!new_page(args->print_args->stream)) goto fail; } else { if (args->print_separator) { if (!print_line(args->print_args->stream, 0, "")) goto fail; } } /* * We generate bookmarks, if the output format supports them. * The name is "__frameN__". */ g_snprintf(bookmark_name, sizeof bookmark_name, "__frame%u__", fdata->num); if (args->print_args->print_summary) { if (args->print_header_line) { if (!print_line(args->print_args->stream, 0, args->header_line_buf)) goto fail; args->print_header_line = FALSE; /* we might not need to print any more */ } cp = &args->line_buf[0]; line_len = 0; for (i = 0; i < cf->cinfo.num_cols; i++) { /* Find the length of the string for this column. */ column_len = strlen(cf->cinfo.col_data[i]); if (args->col_widths[i] > column_len) column_len = args->col_widths[i]; /* Make sure there's room in the line buffer for the column; if not, double its length. */ line_len += column_len + 1; /* "+1" for space */ if (line_len > args->line_buf_len) { cp_off = cp - args->line_buf; args->line_buf_len = 2 * line_len; args->line_buf = g_realloc(args->line_buf, args->line_buf_len + 1); cp = args->line_buf + cp_off; } /* Right-justify the packet number column. */ if (cf->cinfo.col_fmt[i] == COL_NUMBER) sprintf(cp, "%*s", args->col_widths[i], cf->cinfo.col_data[i]); else sprintf(cp, "%-*s", args->col_widths[i], cf->cinfo.col_data[i]); cp += column_len; if (i != cf->cinfo.num_cols - 1) *cp++ = ' '; } *cp = '\0'; /* * Generate a bookmark, using the summary line as the title. */ if (!print_bookmark(args->print_args->stream, bookmark_name, args->line_buf)) goto fail; if (!print_line(args->print_args->stream, 0, args->line_buf)) goto fail; } else { /* * Generate a bookmark, using "Frame N" as the title, as we're not * printing the summary line. */ g_snprintf(bookmark_title, sizeof bookmark_title, "Frame %u", fdata->num); if (!print_bookmark(args->print_args->stream, bookmark_name, bookmark_title)) goto fail; } /* if (print_summary) */ if (args->print_args->print_dissections != print_dissections_none) { if (args->print_args->print_summary) { /* Separate the summary line from the tree with a blank line. */ if (!print_line(args->print_args->stream, 0, "")) goto fail; } /* Print the information in that tree. */ if (!proto_tree_print(args->print_args, edt, args->print_args->stream)) goto fail; /* Print a blank line if we print anything after this (aka more than one packet). */ args->print_separator = TRUE; /* Print a header line if we print any more packet summaries */ args->print_header_line = TRUE; } if (args->print_args->print_hex) { /* Print the full packet data as hex. */ if (!print_hex_data(args->print_args->stream, edt)) goto fail; /* Print a blank line if we print anything after this (aka more than one packet). */ args->print_separator = TRUE; /* Print a header line if we print any more packet summaries */ args->print_header_line = TRUE; } /* if (args->print_args->print_dissections != print_dissections_none) */ epan_dissect_free(edt); /* do we want to have a formfeed between each packet from now on? */ if(args->print_args->print_formfeed) { args->print_formfeed = TRUE; } return TRUE; fail: epan_dissect_free(edt); return FALSE; } cf_print_status_t cf_print_packets(capture_file *cf, print_args_t *print_args) { int i; print_callback_args_t callback_args; gint data_width; char *cp; int cp_off; int column_len; int line_len; psp_return_t ret; callback_args.print_args = print_args; callback_args.print_header_line = TRUE; callback_args.header_line_buf = NULL; callback_args.header_line_buf_len = 256; callback_args.print_formfeed = FALSE; callback_args.print_separator = FALSE; callback_args.line_buf = NULL; callback_args.line_buf_len = 256; callback_args.col_widths = NULL; if (!print_preamble(print_args->stream, cf->filename)) { destroy_print_stream(print_args->stream); return CF_PRINT_WRITE_ERROR; } if (print_args->print_summary) { /* We're printing packet summaries. Allocate the header line buffer and get the column widths. */ callback_args.header_line_buf = g_malloc(callback_args.header_line_buf_len + 1); /* Find the widths for each of the columns - maximum of the width of the title and the width of the data - and construct a buffer with a line containing the column titles. */ callback_args.col_widths = (gint *) g_malloc(sizeof(gint) * cf->cinfo.num_cols); cp = &callback_args.header_line_buf[0]; line_len = 0; for (i = 0; i < cf->cinfo.num_cols; i++) { /* Don't pad the last column. */ if (i == cf->cinfo.num_cols - 1) callback_args.col_widths[i] = 0; else { callback_args.col_widths[i] = strlen(cf->cinfo.col_title[i]); data_width = get_column_char_width(get_column_format(i)); if (data_width > callback_args.col_widths[i]) callback_args.col_widths[i] = data_width; } /* Find the length of the string for this column. */ column_len = strlen(cf->cinfo.col_title[i]); if (callback_args.col_widths[i] > column_len) column_len = callback_args.col_widths[i]; /* Make sure there's room in the line buffer for the column; if not, double its length. */ line_len += column_len + 1; /* "+1" for space */ if (line_len > callback_args.header_line_buf_len) { cp_off = cp - callback_args.header_line_buf; callback_args.header_line_buf_len = 2 * line_len; callback_args.header_line_buf = g_realloc(callback_args.header_line_buf, callback_args.header_line_buf_len + 1); cp = callback_args.header_line_buf + cp_off; } /* Right-justify the packet number column. */ /* if (cf->cinfo.col_fmt[i] == COL_NUMBER) sprintf(cp, "%*s", callback_args.col_widths[i], cf->cinfo.col_title[i]); else*/ sprintf(cp, "%-*s", callback_args.col_widths[i], cf->cinfo.col_title[i]); cp += column_len; if (i != cf->cinfo.num_cols - 1) *cp++ = ' '; } *cp = '\0'; /* Now start out the main line buffer with the same length as the header line buffer. */ callback_args.line_buf_len = callback_args.header_line_buf_len; callback_args.line_buf = g_malloc(callback_args.line_buf_len + 1); } /* if (print_summary) */ /* Iterate through the list of packets, printing the packets we were told to print. */ ret = process_specified_packets(cf, &print_args->range, "Printing", "selected packets", TRUE, print_packet, &callback_args); if (callback_args.header_line_buf != NULL) g_free(callback_args.header_line_buf); if (callback_args.line_buf != NULL) g_free(callback_args.line_buf); if (callback_args.col_widths != NULL) g_free(callback_args.col_widths); switch (ret) { case PSP_FINISHED: /* Completed successfully. */ break; case PSP_STOPPED: /* Well, the user decided to abort the printing. XXX - note that what got generated before they did that will get printed if we're piping to a print program; we'd have to write to a file and then hand that to the print program to make it actually not print anything. */ break; case PSP_FAILED: /* Error while printing. XXX - note that what got generated before they did that will get printed if we're piping to a print program; we'd have to write to a file and then hand that to the print program to make it actually not print anything. */ destroy_print_stream(print_args->stream); return CF_PRINT_WRITE_ERROR; } if (!print_finale(print_args->stream)) { destroy_print_stream(print_args->stream); return CF_PRINT_WRITE_ERROR; } if (!destroy_print_stream(print_args->stream)) return CF_PRINT_WRITE_ERROR; return CF_PRINT_OK; } static gboolean write_pdml_packet(capture_file *cf _U_, frame_data *fdata, union wtap_pseudo_header *pseudo_header, const guint8 *pd, void *argsp) { FILE *fh = argsp; epan_dissect_t *edt; /* Create the protocol tree, but don't fill in the column information. */ edt = epan_dissect_new(TRUE, TRUE); epan_dissect_run(edt, pseudo_header, pd, fdata, NULL); /* Write out the information in that tree. */ proto_tree_write_pdml(edt, fh); epan_dissect_free(edt); return !ferror(fh); } cf_print_status_t cf_write_pdml_packets(capture_file *cf, print_args_t *print_args) { FILE *fh; psp_return_t ret; fh = eth_fopen(print_args->file, "w"); if (fh == NULL) return CF_PRINT_OPEN_ERROR; /* attempt to open destination failed */ write_pdml_preamble(fh); if (ferror(fh)) { fclose(fh); return CF_PRINT_WRITE_ERROR; } /* Iterate through the list of packets, printing the packets we were told to print. */ ret = process_specified_packets(cf, &print_args->range, "Writing PDML", "selected packets", TRUE, write_pdml_packet, fh); switch (ret) { case PSP_FINISHED: /* Completed successfully. */ break; case PSP_STOPPED: /* Well, the user decided to abort the printing. */ break; case PSP_FAILED: /* Error while printing. */ fclose(fh); return CF_PRINT_WRITE_ERROR; } write_pdml_finale(fh); if (ferror(fh)) { fclose(fh); return CF_PRINT_WRITE_ERROR; } /* XXX - check for an error */ fclose(fh); return CF_PRINT_OK; } static gboolean write_psml_packet(capture_file *cf, frame_data *fdata, union wtap_pseudo_header *pseudo_header, const guint8 *pd, void *argsp) { FILE *fh = argsp; epan_dissect_t *edt; /* Fill in the column information, but don't create the protocol tree. */ edt = epan_dissect_new(FALSE, FALSE); epan_dissect_run(edt, pseudo_header, pd, fdata, &cf->cinfo); epan_dissect_fill_in_columns(edt); /* Write out the information in that tree. */ proto_tree_write_psml(edt, fh); epan_dissect_free(edt); return !ferror(fh); } cf_print_status_t cf_write_psml_packets(capture_file *cf, print_args_t *print_args) { FILE *fh; psp_return_t ret; fh = eth_fopen(print_args->file, "w"); if (fh == NULL) return CF_PRINT_OPEN_ERROR; /* attempt to open destination failed */ write_psml_preamble(fh); if (ferror(fh)) { fclose(fh); return CF_PRINT_WRITE_ERROR; } /* Iterate through the list of packets, printing the packets we were told to print. */ ret = process_specified_packets(cf, &print_args->range, "Writing PSML", "selected packets", TRUE, write_psml_packet, fh); switch (ret) { case PSP_FINISHED: /* Completed successfully. */ break; case PSP_STOPPED: /* Well, the user decided to abort the printing. */ break; case PSP_FAILED: /* Error while printing. */ fclose(fh); return CF_PRINT_WRITE_ERROR; } write_psml_finale(fh); if (ferror(fh)) { fclose(fh); return CF_PRINT_WRITE_ERROR; } /* XXX - check for an error */ fclose(fh); return CF_PRINT_OK; } static gboolean write_csv_packet(capture_file *cf, frame_data *fdata, union wtap_pseudo_header *pseudo_header, const guint8 *pd, void *argsp) { FILE *fh = argsp; epan_dissect_t *edt; /* Fill in the column information, but don't create the protocol tree. */ edt = epan_dissect_new(FALSE, FALSE); epan_dissect_run(edt, pseudo_header, pd, fdata, &cf->cinfo); epan_dissect_fill_in_columns(edt); /* Write out the information in that tree. */ proto_tree_write_csv(edt, fh); epan_dissect_free(edt); return !ferror(fh); } cf_print_status_t cf_write_csv_packets(capture_file *cf, print_args_t *print_args) { FILE *fh; psp_return_t ret; fh = eth_fopen(print_args->file, "w"); if (fh == NULL) return CF_PRINT_OPEN_ERROR; /* attempt to open destination failed */ write_csv_preamble(fh); if (ferror(fh)) { fclose(fh); return CF_PRINT_WRITE_ERROR; } /* Iterate through the list of packets, printing the packets we were told to print. */ ret = process_specified_packets(cf, &print_args->range, "Writing CSV", "selected packets", TRUE, write_csv_packet, fh); switch (ret) { case PSP_FINISHED: /* Completed successfully. */ break; case PSP_STOPPED: /* Well, the user decided to abort the printing. */ break; case PSP_FAILED: /* Error while printing. */ fclose(fh); return CF_PRINT_WRITE_ERROR; } write_csv_finale(fh); if (ferror(fh)) { fclose(fh); return CF_PRINT_WRITE_ERROR; } /* XXX - check for an error */ fclose(fh); return CF_PRINT_OK; } /* Scan through the packet list and change all columns that use the "command-line-specified" time stamp format to use the current value of that format. */ void cf_change_time_formats(capture_file *cf) { frame_data *fdata; progdlg_t *progbar = NULL; gboolean stop_flag; int count; int row; int i; float progbar_val; GTimeVal start_time; gchar status_str[100]; int progbar_nextstep; int progbar_quantum; int first, last; gboolean sorted_by_frame_column; /* adjust timestamp precision if auto is selected */ cf_timestamp_auto_precision(cf); /* Are there any columns with time stamps in the "command-line-specified" format? XXX - we have to force the "column is writable" flag on, as it might be off from the last frame that was dissected. */ col_set_writable(&cf->cinfo, TRUE); if (!check_col(&cf->cinfo, COL_CLS_TIME)) { /* No, there aren't any columns in that format, so we have no work to do. */ return; } first = cf->cinfo.col_first[COL_CLS_TIME]; g_assert(first >= 0); last = cf->cinfo.col_last[COL_CLS_TIME]; /* Freeze the packet list while we redo it, so we don't get any screen updates while it happens. */ packet_list_freeze(); /* Update the progress bar when it gets to this value. */ progbar_nextstep = 0; /* When we reach the value that triggers a progress bar update, bump that value by this amount. */ progbar_quantum = cf->count/N_PROGBAR_UPDATES; /* Count of packets at which we've looked. */ count = 0; /* Progress so far. */ progbar_val = 0.0; /* If the rows are currently sorted by the frame column then we know * the row number of each packet: it's the row number of the previously * displayed packet + 1. * * Otherwise, if the display is sorted by a different column then we have * to use the O(N) packet_list_find_row_from_data() (thus making the job * of changing the time display format O(N**2)). * * (XXX - In fact it's still O(N**2) because gtk_clist_set_text() takes * the row number and walks that many elements down the clist to find * the appropriate element.) */ sorted_by_frame_column = FALSE; for (i = 0; i < cf->cinfo.num_cols; i++) { if (cf->cinfo.col_fmt[i] == COL_NUMBER) { sorted_by_frame_column = (i == packet_list_get_sort_column()); break; } } stop_flag = FALSE; g_get_current_time(&start_time); /* Iterate through the list of packets, checking whether the packet is in a row of the summary list and, if so, whether there are any columns that show the time in the "command-line-specified" format and, if so, update that row. */ for (fdata = cf->plist, row = -1; fdata != NULL; fdata = fdata->next) { /* Create the progress bar if necessary. We check on every iteration of the loop, so that it takes no longer than the standard time to create it (otherwise, for a large file, we might take considerably longer than that standard time in order to get to the next progress bar step). */ if (progbar == NULL) progbar = delayed_create_progress_dlg("Changing", "time display", TRUE, &stop_flag, &start_time, progbar_val); /* Update the progress bar, but do it only N_PROGBAR_UPDATES times; when we update it, we have to run the GTK+ main loop to get it to repaint what's pending, and doing so may involve an "ioctl()" to see if there's any pending input from an X server, and doing that for every packet can be costly, especially on a big file. */ if (count >= progbar_nextstep) { /* let's not divide by zero. I should never be started * with count == 0, so let's assert that */ g_assert(cf->count > 0); progbar_val = (gfloat) count / cf->count; if (progbar != NULL) { g_snprintf(status_str, sizeof(status_str), "%4u of %u packets", count, cf->count); update_progress_dlg(progbar, progbar_val, status_str); } progbar_nextstep += progbar_quantum; } if (stop_flag) { /* Well, the user decided to abort the redisplay. Just stop. XXX - this leaves the time field in the old format in frames we haven't yet processed. So it goes; should we simply not offer them the option of stopping? */ break; } count++; /* Find what row this packet is in. */ if (!sorted_by_frame_column) { /* This function is O(N), so we try to avoid using it... */ row = packet_list_find_row_from_data(fdata); } else { /* ...which we do by maintaining a count of packets that are being displayed (i.e., that have passed the display filter), and using the current value of that count as the row number (which is why we can only do it when the display is sorted by the frame number). */ if (fdata->flags.passed_dfilter) row++; else continue; } if (row != -1) { /* This packet is in the summary list, on row "row". */ for (i = first; i <= last; i++) { if (cf->cinfo.fmt_matx[i][COL_CLS_TIME]) { /* This is one of the columns that shows the time in "command-line-specified" format; update it. */ cf->cinfo.col_buf[i][0] = '\0'; col_set_cls_time(fdata, &cf->cinfo, i); packet_list_set_text(row, i, cf->cinfo.col_data[i]); } } } } /* We're done redisplaying the packets; destroy the progress bar if it was created. */ if (progbar != NULL) destroy_progress_dlg(progbar); /* Set the column widths of those columns that show the time in "command-line-specified" format. */ for (i = first; i <= last; i++) { if (cf->cinfo.fmt_matx[i][COL_CLS_TIME]) { packet_list_set_cls_time_width(i); } } /* Unfreeze the packet list. */ packet_list_thaw(); } typedef struct { const char *string; size_t string_len; capture_file *cf; gboolean frame_matched; } match_data; gboolean cf_find_packet_protocol_tree(capture_file *cf, const char *string) { match_data mdata; mdata.string = string; mdata.string_len = strlen(string); return find_packet(cf, match_protocol_tree, &mdata); } static gboolean match_protocol_tree(capture_file *cf, frame_data *fdata, void *criterion) { match_data *mdata = criterion; epan_dissect_t *edt; /* Construct the protocol tree, including the displayed text */ edt = epan_dissect_new(TRUE, TRUE); /* We don't need the column information */ epan_dissect_run(edt, &cf->pseudo_header, cf->pd, fdata, NULL); /* Iterate through all the nodes, seeing if they have text that matches. */ mdata->cf = cf; mdata->frame_matched = FALSE; proto_tree_children_foreach(edt->tree, match_subtree_text, mdata); epan_dissect_free(edt); return mdata->frame_matched; } static void match_subtree_text(proto_node *node, gpointer data) { match_data *mdata = (match_data*) data; const gchar *string = mdata->string; size_t string_len = mdata->string_len; capture_file *cf = mdata->cf; field_info *fi = PITEM_FINFO(node); gchar label_str[ITEM_LABEL_LENGTH]; gchar *label_ptr; size_t label_len; guint32 i; guint8 c_char; size_t c_match = 0; if (mdata->frame_matched) { /* We already had a match; don't bother doing any more work. */ return; } /* Don't match invisible entries. */ if (PROTO_ITEM_IS_HIDDEN(node)) return; /* was a free format label produced? */ if (fi->rep) { label_ptr = fi->rep->representation; } else { /* no, make a generic label */ label_ptr = label_str; proto_item_fill_label(fi, label_str); } /* Does that label match? */ label_len = strlen(label_ptr); for (i = 0; i < label_len; i++) { c_char = label_ptr[i]; if (cf->case_type) c_char = toupper(c_char); if (c_char == string[c_match]) { c_match++; if (c_match == string_len) { /* No need to look further; we have a match */ mdata->frame_matched = TRUE; return; } } else c_match = 0; } /* Recurse into the subtree, if it exists */ if (node->first_child != NULL) proto_tree_children_foreach(node, match_subtree_text, mdata); } gboolean cf_find_packet_summary_line(capture_file *cf, const char *string) { match_data mdata; mdata.string = string; mdata.string_len = strlen(string); return find_packet(cf, match_summary_line, &mdata); } static gboolean match_summary_line(capture_file *cf, frame_data *fdata, void *criterion) { match_data *mdata = criterion; const gchar *string = mdata->string; size_t string_len = mdata->string_len; epan_dissect_t *edt; const char *info_column; size_t info_column_len; gboolean frame_matched = FALSE; gint colx; guint32 i; guint8 c_char; size_t c_match = 0; /* Don't bother constructing the protocol tree */ edt = epan_dissect_new(FALSE, FALSE); /* Get the column information */ epan_dissect_run(edt, &cf->pseudo_header, cf->pd, fdata, &cf->cinfo); /* Find the Info column */ for (colx = 0; colx < cf->cinfo.num_cols; colx++) { if (cf->cinfo.fmt_matx[colx][COL_INFO]) { /* Found it. See if we match. */ info_column = edt->pi.cinfo->col_data[colx]; info_column_len = strlen(info_column); for (i = 0; i < info_column_len; i++) { c_char = info_column[i]; if (cf->case_type) c_char = toupper(c_char); if (c_char == string[c_match]) { c_match++; if (c_match == string_len) { frame_matched = TRUE; break; } } else c_match = 0; } break; } } epan_dissect_free(edt); return frame_matched; } typedef struct { const guint8 *data; size_t data_len; } cbs_t; /* "Counted byte string" */ gboolean cf_find_packet_data(capture_file *cf, const guint8 *string, size_t string_size) { cbs_t info; info.data = string; info.data_len = string_size; /* String or hex search? */ if (cf->string) { /* String search - what type of string? */ switch (cf->scs_type) { case SCS_ASCII_AND_UNICODE: return find_packet(cf, match_ascii_and_unicode, &info); case SCS_ASCII: return find_packet(cf, match_ascii, &info); case SCS_UNICODE: return find_packet(cf, match_unicode, &info); default: g_assert_not_reached(); return FALSE; } } else return find_packet(cf, match_binary, &info); } static gboolean match_ascii_and_unicode(capture_file *cf, frame_data *fdata, void *criterion) { cbs_t *info = criterion; const char *ascii_text = info->data; size_t textlen = info->data_len; gboolean frame_matched; guint32 buf_len; guint32 i; guint8 c_char; size_t c_match = 0; frame_matched = FALSE; buf_len = fdata->pkt_len; for (i = 0; i < buf_len; i++) { c_char = cf->pd[i]; if (cf->case_type) c_char = toupper(c_char); if (c_char != 0) { if (c_char == ascii_text[c_match]) { c_match++; if (c_match == textlen) { frame_matched = TRUE; break; } } else c_match = 0; } } return frame_matched; } static gboolean match_ascii(capture_file *cf, frame_data *fdata, void *criterion) { cbs_t *info = criterion; const char *ascii_text = info->data; size_t textlen = info->data_len; gboolean frame_matched; guint32 buf_len; guint32 i; guint8 c_char; size_t c_match = 0; frame_matched = FALSE; buf_len = fdata->pkt_len; for (i = 0; i < buf_len; i++) { c_char = cf->pd[i]; if (cf->case_type) c_char = toupper(c_char); if (c_char == ascii_text[c_match]) { c_match++; if (c_match == textlen) { frame_matched = TRUE; break; } } else c_match = 0; } return frame_matched; } static gboolean match_unicode(capture_file *cf, frame_data *fdata, void *criterion) { cbs_t *info = criterion; const char *ascii_text = info->data; size_t textlen = info->data_len; gboolean frame_matched; guint32 buf_len; guint32 i; guint8 c_char; size_t c_match = 0; frame_matched = FALSE; buf_len = fdata->pkt_len; for (i = 0; i < buf_len; i++) { c_char = cf->pd[i]; if (cf->case_type) c_char = toupper(c_char); if (c_char == ascii_text[c_match]) { c_match++; i++; if (c_match == textlen) { frame_matched = TRUE; break; } } else c_match = 0; } return frame_matched; } static gboolean match_binary(capture_file *cf, frame_data *fdata, void *criterion) { cbs_t *info = criterion; const guint8 *binary_data = info->data; size_t datalen = info->data_len; gboolean frame_matched; guint32 buf_len; guint32 i; size_t c_match = 0; frame_matched = FALSE; buf_len = fdata->pkt_len; for (i = 0; i < buf_len; i++) { if (cf->pd[i] == binary_data[c_match]) { c_match++; if (c_match == datalen) { frame_matched = TRUE; break; } } else c_match = 0; } return frame_matched; } gboolean cf_find_packet_dfilter(capture_file *cf, dfilter_t *sfcode) { return find_packet(cf, match_dfilter, sfcode); } static gboolean match_dfilter(capture_file *cf, frame_data *fdata, void *criterion) { dfilter_t *sfcode = criterion; epan_dissect_t *edt; gboolean frame_matched; edt = epan_dissect_new(TRUE, FALSE); epan_dissect_prime_dfilter(edt, sfcode); epan_dissect_run(edt, &cf->pseudo_header, cf->pd, fdata, NULL); frame_matched = dfilter_apply_edt(sfcode, edt); epan_dissect_free(edt); return frame_matched; } static gboolean find_packet(capture_file *cf, gboolean (*match_function)(capture_file *, frame_data *, void *), void *criterion) { frame_data *start_fd; frame_data *fdata; frame_data *new_fd = NULL; progdlg_t *progbar = NULL; gboolean stop_flag; int count; int err; gchar *err_info; int row; float progbar_val; GTimeVal start_time; gchar status_str[100]; int progbar_nextstep; int progbar_quantum; char *title; start_fd = cf->current_frame; if (start_fd != NULL) { /* Iterate through the list of packets, starting at the packet we've picked, calling a routine to run the filter on the packet, see if it matches, and stop if so. */ count = 0; fdata = start_fd; /* Update the progress bar when it gets to this value. */ progbar_nextstep = 0; /* When we reach the value that triggers a progress bar update, bump that value by this amount. */ progbar_quantum = cf->count/N_PROGBAR_UPDATES; /* Progress so far. */ progbar_val = 0.0; stop_flag = FALSE; g_get_current_time(&start_time); fdata = start_fd; title = cf->sfilter?cf->sfilter:""; for (;;) { /* Create the progress bar if necessary. We check on every iteration of the loop, so that it takes no longer than the standard time to create it (otherwise, for a large file, we might take considerably longer than that standard time in order to get to the next progress bar step). */ if (progbar == NULL) progbar = delayed_create_progress_dlg("Searching", title, FALSE, &stop_flag, &start_time, progbar_val); /* Update the progress bar, but do it only N_PROGBAR_UPDATES times; when we update it, we have to run the GTK+ main loop to get it to repaint what's pending, and doing so may involve an "ioctl()" to see if there's any pending input from an X server, and doing that for every packet can be costly, especially on a big file. */ if (count >= progbar_nextstep) { /* let's not divide by zero. I should never be started * with count == 0, so let's assert that */ g_assert(cf->count > 0); progbar_val = (gfloat) count / cf->count; if (progbar != NULL) { g_snprintf(status_str, sizeof(status_str), "%4u of %u packets", count, cf->count); update_progress_dlg(progbar, progbar_val, status_str); } progbar_nextstep += progbar_quantum; } if (stop_flag) { /* Well, the user decided to abort the search. Go back to the frame where we started. */ new_fd = start_fd; break; } /* Go past the current frame. */ if (cf->sbackward) { /* Go on to the previous frame. */ fdata = fdata->prev; if (fdata == NULL) { /* * XXX - other apps have a bit more of a detailed message * for this, and instead of offering "OK" and "Cancel", * they offer things such as "Continue" and "Cancel"; * we need an API for popping up alert boxes with * {Verb} and "Cancel". */ if (prefs.gui_find_wrap) { simple_dialog(ESD_TYPE_INFO, ESD_BTN_OK, "%sBeginning of capture exceeded!%s\n\n" "Search is continued from the end of the capture.", simple_dialog_primary_start(), simple_dialog_primary_end()); fdata = cf->plist_end; /* wrap around */ } else { simple_dialog(ESD_TYPE_INFO, ESD_BTN_OK, "%sBeginning of capture exceeded!%s\n\n" "Try searching forwards.", simple_dialog_primary_start(), simple_dialog_primary_end()); fdata = start_fd; /* stay on previous packet */ } } } else { /* Go on to the next frame. */ fdata = fdata->next; if (fdata == NULL) { if (prefs.gui_find_wrap) { simple_dialog(ESD_TYPE_INFO, ESD_BTN_OK, "%sEnd of capture exceeded!%s\n\n" "Search is continued from the start of the capture.", simple_dialog_primary_start(), simple_dialog_primary_end()); fdata = cf->plist; /* wrap around */ } else { simple_dialog(ESD_TYPE_INFO, ESD_BTN_OK, "%sEnd of capture exceeded!%s\n\n" "Try searching backwards.", simple_dialog_primary_start(), simple_dialog_primary_end()); fdata = start_fd; /* stay on previous packet */ } } } count++; /* Is this packet in the display? */ if (fdata->flags.passed_dfilter) { /* Yes. Load its data. */ if (!wtap_seek_read(cf->wth, fdata->file_off, &cf->pseudo_header, cf->pd, fdata->cap_len, &err, &err_info)) { /* Read error. Report the error, and go back to the frame where we started. */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, cf_read_error_message(err, err_info), cf->filename); new_fd = start_fd; break; } /* Does it match the search criterion? */ if ((*match_function)(cf, fdata, criterion)) { new_fd = fdata; break; /* found it! */ } } if (fdata == start_fd) { /* We're back to the frame we were on originally, and that frame doesn't match the search filter. The search failed. */ break; } } /* We're done scanning the packets; destroy the progress bar if it was created. */ if (progbar != NULL) destroy_progress_dlg(progbar); } if (new_fd != NULL) { /* We found a frame. Find what row it's in. */ row = packet_list_find_row_from_data(new_fd); g_assert(row != -1); /* Select that row, make it the focus row, and make it visible. */ packet_list_set_selected_row(row); return TRUE; /* success */ } else return FALSE; /* failure */ } gboolean cf_goto_frame(capture_file *cf, guint fnumber) { frame_data *fdata; int row; for (fdata = cf->plist; fdata != NULL && fdata->num < fnumber; fdata = fdata->next) ; if (fdata == NULL) { /* we didn't find a packet with that packet number */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "There is no packet with the packet number %u.", fnumber); return FALSE; /* we failed to go to that packet */ } if (!fdata->flags.passed_dfilter) { /* that packet currently isn't displayed */ /* XXX - add it to the set of displayed packets? */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The packet number %u isn't currently being displayed.", fnumber); return FALSE; /* we failed to go to that packet */ } /* We found that packet, and it's currently being displayed. Find what row it's in. */ row = packet_list_find_row_from_data(fdata); g_assert(row != -1); /* Select that row, make it the focus row, and make it visible. */ packet_list_set_selected_row(row); return TRUE; /* we got to that packet */ } gboolean cf_goto_top_frame(capture_file *cf) { frame_data *fdata; int row; frame_data *lowest_fdata = NULL; for (fdata = cf->plist; fdata != NULL; fdata = fdata->next) { if (fdata->flags.passed_dfilter) { lowest_fdata = fdata; break; } } if (lowest_fdata == NULL) { return FALSE; } /* We found that packet, and it's currently being displayed. Find what row it's in. */ row = packet_list_find_row_from_data(lowest_fdata); g_assert(row != -1); /* Select that row, make it the focus row, and make it visible. */ packet_list_set_selected_row(row); return TRUE; /* we got to that packet */ } gboolean cf_goto_bottom_frame(capture_file *cf) { frame_data *fdata; int row; frame_data *highest_fdata = NULL; for (fdata = cf->plist; fdata != NULL; fdata = fdata->next) { if (fdata->flags.passed_dfilter) { highest_fdata = fdata; } } if (highest_fdata == NULL) { return FALSE; } /* We found that packet, and it's currently being displayed. Find what row it's in. */ row = packet_list_find_row_from_data(highest_fdata); g_assert(row != -1); /* Select that row, make it the focus row, and make it visible. */ packet_list_set_selected_row(row); return TRUE; /* we got to that packet */ } /* * Go to frame specified by currently selected protocol tree item. */ gboolean cf_goto_framenum(capture_file *cf) { header_field_info *hfinfo; guint32 framenum; if (cf->finfo_selected) { hfinfo = cf->finfo_selected->hfinfo; g_assert(hfinfo); if (hfinfo->type == FT_FRAMENUM) { framenum = fvalue_get_integer(&cf->finfo_selected->value); if (framenum != 0) return cf_goto_frame(cf, framenum); } } return FALSE; } /* Select the packet on a given row. */ void cf_select_packet(capture_file *cf, int row) { frame_data *fdata; int err; gchar *err_info; /* Get the frame data struct pointer for this frame */ fdata = (frame_data *)packet_list_get_row_data(row); if (fdata == NULL) { /* XXX - if a GtkCList's selection mode is GTK_SELECTION_BROWSE, when the first entry is added to it by "real_insert_row()", that row is selected (see "real_insert_row()", in "gtk/gtkclist.c", in both our version and the vanilla GTK+ version). This means that a "select-row" signal is emitted; this causes "packet_list_select_cb()" to be called, which causes "cf_select_packet()" to be called. "cf_select_packet()" fetches, above, the data associated with the row that was selected; however, as "gtk_clist_append()", which called "real_insert_row()", hasn't yet returned, we haven't yet associated any data with that row, so we get back a null pointer. We can't assume that there's only one frame in the frame list, either, as we may be filtering the display. We therefore assume that, if "row" is 0, i.e. the first row is being selected, and "cf->first_displayed" equals "cf->last_displayed", i.e. there's only one frame being displayed, that frame is the frame we want. This means we have to set "cf->first_displayed" and "cf->last_displayed" before adding the row to the GtkCList; see the comment in "add_packet_to_packet_list()". */ if (row == 0 && cf->first_displayed == cf->last_displayed) fdata = cf->first_displayed; } /* If fdata _still_ isn't set simply give up. */ if (fdata == NULL) { return; } /* Get the data in that frame. */ if (!wtap_seek_read (cf->wth, fdata->file_off, &cf->pseudo_header, cf->pd, fdata->cap_len, &err, &err_info)) { simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, cf_read_error_message(err, err_info), cf->filename); return; } /* Record that this frame is the current frame. */ cf->current_frame = fdata; /* Create the logical protocol tree. */ if (cf->edt != NULL) { epan_dissect_free(cf->edt); cf->edt = NULL; } /* We don't need the columns here. */ cf->edt = epan_dissect_new(TRUE, TRUE); epan_dissect_run(cf->edt, &cf->pseudo_header, cf->pd, cf->current_frame, NULL); cf_callback_invoke(cf_cb_packet_selected, cf); } /* Unselect the selected packet, if any. */ void cf_unselect_packet(capture_file *cf) { /* Destroy the epan_dissect_t for the unselected packet. */ if (cf->edt != NULL) { epan_dissect_free(cf->edt); cf->edt = NULL; } /* No packet is selected. */ cf->current_frame = NULL; cf_callback_invoke(cf_cb_packet_unselected, cf); /* No protocol tree means no selected field. */ cf_unselect_field(cf); } /* Unset the selected protocol tree field, if any. */ void cf_unselect_field(capture_file *cf) { cf->finfo_selected = NULL; cf_callback_invoke(cf_cb_field_unselected, cf); } /* * Mark a particular frame. */ void cf_mark_frame(capture_file *cf, frame_data *frame) { if (! frame->flags.marked) { frame->flags.marked = TRUE; if (cf->count > cf->marked_count) cf->marked_count++; } } /* * Unmark a particular frame. */ void cf_unmark_frame(capture_file *cf, frame_data *frame) { if (frame->flags.marked) { frame->flags.marked = FALSE; if (cf->marked_count > 0) cf->marked_count--; } } typedef struct { wtap_dumper *pdh; const char *fname; } save_callback_args_t; /* * Save a capture to a file, in a particular format, saving either * all packets, all currently-displayed packets, or all marked packets. * * Returns TRUE if it succeeds, FALSE otherwise; if it fails, it pops * up a message box for the failure. */ static gboolean save_packet(capture_file *cf _U_, frame_data *fdata, union wtap_pseudo_header *pseudo_header, const guint8 *pd, void *argsp) { save_callback_args_t *args = argsp; struct wtap_pkthdr hdr; int err; /* init the wtap header for saving */ hdr.ts = *(struct wtap_nstime *) &fdata->abs_ts; hdr.caplen = fdata->cap_len; hdr.len = fdata->pkt_len; hdr.pkt_encap = fdata->lnk_t; /* and save the packet */ if (!wtap_dump(args->pdh, &hdr, pseudo_header, pd, &err)) { cf_write_failure_alert_box(args->fname, err); return FALSE; } return TRUE; } cf_status_t cf_save(capture_file *cf, const char *fname, packet_range_t *range, guint save_format, gboolean compressed) { gchar *from_filename; int err; gboolean do_copy; wtap_dumper *pdh; save_callback_args_t callback_args; cf_callback_invoke(cf_cb_file_safe_started, (gpointer) fname); /* don't write over an existing file. */ /* this should've been already checked by our caller, just to be sure... */ if (file_exists(fname)) { simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "%sCapture file: \"%s\" already exists!%s\n\n" "Please choose a different filename.", simple_dialog_primary_start(), fname, simple_dialog_primary_end()); goto fail; } packet_range_process_init(range); if (packet_range_process_all(range) && save_format == cf->cd_t) { /* We're not filtering packets, and we're saving it in the format it's already in, so we can just move or copy the raw data. */ if (cf->is_tempfile) { /* The file being saved is a temporary file from a live capture, so it doesn't need to stay around under that name; first, try renaming the capture buffer file to the new name. */ #ifndef _WIN32 if (eth_rename(cf->filename, fname) == 0) { /* That succeeded - there's no need to copy the source file. */ from_filename = NULL; do_copy = FALSE; } else { if (errno == EXDEV) { /* They're on different file systems, so we have to copy the file. */ do_copy = TRUE; from_filename = cf->filename; } else { /* The rename failed, but not because they're on different file systems - put up an error message. (Or should we just punt and try to copy? The only reason why I'd expect the rename to fail and the copy to succeed would be if we didn't have permission to remove the file from the temporary directory, and that might be fixable - but is it worth requiring the user to go off and fix it?) */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, file_rename_error_message(errno), fname); goto fail; } } #else do_copy = TRUE; from_filename = cf->filename; #endif } else { /* It's a permanent file, so we should copy it, and not remove the original. */ do_copy = TRUE; from_filename = cf->filename; } if (do_copy) { /* Copy the file, if we haven't moved it. */ if (!copy_binary_file(from_filename, fname)) goto fail; } } else { /* Either we're filtering packets, or we're saving in a different format; we can't do that by copying or moving the capture file, we have to do it by writing the packets out in Wiretap. */ pdh = wtap_dump_open(fname, save_format, cf->lnk_t, cf->snap, compressed, &err); if (pdh == NULL) { cf_open_failure_alert_box(fname, err, NULL, TRUE, save_format); goto fail; } /* XXX - we let the user save a subset of the packets. If we do that, should we make that file the current file? If so, it means we can no longer get at the other packets. What does NetMon do? */ /* Iterate through the list of packets, processing the packets we were told to process. XXX - we've already called "packet_range_process_init(range)", but "process_specified_packets()" will do it again. Fortunately, that's harmless in this case, as we haven't done anything to "range" since we initialized it. */ callback_args.pdh = pdh; callback_args.fname = fname; switch (process_specified_packets(cf, range, "Saving", "selected packets", TRUE, save_packet, &callback_args)) { case PSP_FINISHED: /* Completed successfully. */ break; case PSP_STOPPED: /* The user decided to abort the saving. XXX - remove the output file? */ break; case PSP_FAILED: /* Error while saving. */ wtap_dump_close(pdh, &err); goto fail; } if (!wtap_dump_close(pdh, &err)) { cf_close_failure_alert_box(fname, err); goto fail; } } cf_callback_invoke(cf_cb_file_safe_finished, NULL); if (packet_range_process_all(range)) { /* We saved the entire capture, not just some packets from it. Open and read the file we saved it to. XXX - this is somewhat of a waste; we already have the packets, all this gets us is updated file type information (which we could just stuff into "cf"), and having the new file be the one we have opened and from which we're reading the data, and it means we have to spend time opening and reading the file, which could be a significant amount of time if the file is large. */ cf->user_saved = TRUE; if ((cf_open(cf, fname, FALSE, &err)) == CF_OK) { /* XXX - report errors if this fails? What should we return if it fails or is aborted? */ switch (cf_read(cf)) { case CF_READ_OK: case CF_READ_ERROR: /* Just because we got an error, that doesn't mean we were unable to read any of the file; we handle what we could get from the file. */ break; case CF_READ_ABORTED: /* The user bailed out of re-reading the capture file; the capture file has been closed - just return (without changing any menu settings; "cf_close()" set them correctly for the "no capture file open" state). */ break; } cf_callback_invoke(cf_cb_file_safe_reload_finished, NULL); } } return CF_OK; fail: cf_callback_invoke(cf_cb_file_safe_failed, NULL); return CF_ERROR; } static void cf_open_failure_alert_box(const char *filename, int err, gchar *err_info, gboolean for_writing, int file_type) { if (err < 0) { /* Wiretap error. */ switch (err) { case WTAP_ERR_NOT_REGULAR_FILE: simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" is a \"special file\" or socket or other non-regular file.", filename); break; case WTAP_ERR_RANDOM_OPEN_PIPE: /* Seen only when opening a capture file for reading. */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" is a pipe or FIFO; Ethereal can't read pipe or FIFO files.", filename); break; case WTAP_ERR_FILE_UNKNOWN_FORMAT: /* Seen only when opening a capture file for reading. */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" isn't a capture file in a format Ethereal understands.", filename); break; case WTAP_ERR_UNSUPPORTED: /* Seen only when opening a capture file for reading. */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" isn't a capture file in a format Ethereal understands.\n" "(%s)", filename, err_info); g_free(err_info); break; case WTAP_ERR_CANT_WRITE_TO_PIPE: /* Seen only when opening a capture file for writing. */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" is a pipe, and %s capture files can't be " "written to a pipe.", filename, wtap_file_type_string(file_type)); break; case WTAP_ERR_UNSUPPORTED_FILE_TYPE: /* Seen only when opening a capture file for writing. */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "Ethereal doesn't support writing capture files in that format."); break; case WTAP_ERR_UNSUPPORTED_ENCAP: if (for_writing) { simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "Ethereal can't save this capture in that format."); } else { simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" is a capture for a network type that Ethereal doesn't support.\n" "(%s)", filename, err_info); g_free(err_info); } break; case WTAP_ERR_ENCAP_PER_PACKET_UNSUPPORTED: if (for_writing) { simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "Ethereal can't save this capture in that format."); } else { simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" is a capture for a network type that Ethereal doesn't support.", filename); } break; case WTAP_ERR_BAD_RECORD: /* Seen only when opening a capture file for reading. */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" appears to be damaged or corrupt.\n" "(%s)", filename, err_info); g_free(err_info); break; case WTAP_ERR_CANT_OPEN: if (for_writing) { simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" could not be created for some unknown reason.", filename); } else { simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" could not be opened for some unknown reason.", filename); } break; case WTAP_ERR_SHORT_READ: simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" appears to have been cut short" " in the middle of a packet or other data.", filename); break; case WTAP_ERR_SHORT_WRITE: simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "A full header couldn't be written to the file \"%s\".", filename); break; case WTAP_ERR_COMPRESSION_NOT_SUPPORTED: simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "Gzip compression not supported by this file type."); break; default: simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" could not be %s: %s.", filename, for_writing ? "created" : "opened", wtap_strerror(err)); break; } } else { /* OS error. */ open_failure_alert_box(filename, err, for_writing); } } static const char * file_rename_error_message(int err) { const char *errmsg; static char errmsg_errno[1024+1]; switch (err) { case ENOENT: errmsg = "The path to the file \"%s\" doesn't exist."; break; case EACCES: errmsg = "You don't have permission to move the capture file to \"%s\"."; break; default: g_snprintf(errmsg_errno, sizeof(errmsg_errno), "The file \"%%s\" could not be moved: %s.", wtap_strerror(err)); errmsg = errmsg_errno; break; } return errmsg; } char * cf_read_error_message(int err, const gchar *err_info) { static char errmsg_errno[1024+1]; switch (err) { case WTAP_ERR_UNSUPPORTED_ENCAP: g_snprintf(errmsg_errno, sizeof(errmsg_errno), "The file \"%%s\" has a packet with a network type that Ethereal doesn't support.\n(%s)", err_info); break; case WTAP_ERR_BAD_RECORD: g_snprintf(errmsg_errno, sizeof(errmsg_errno), "An error occurred while reading from the file \"%%s\": %s.\n(%s)", wtap_strerror(err), err_info); break; default: g_snprintf(errmsg_errno, sizeof(errmsg_errno), "An error occurred while reading from the file \"%%s\": %s.", wtap_strerror(err)); break; } return errmsg_errno; } static void cf_write_failure_alert_box(const char *filename, int err) { if (err < 0) { /* Wiretap error. */ simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "An error occurred while writing to the file \"%s\": %s.", filename, wtap_strerror(err)); } else { /* OS error. */ write_failure_alert_box(filename, err); } } /* Check for write errors - if the file is being written to an NFS server, a write error may not show up until the file is closed, as NFS clients might not send writes to the server until the "write()" call finishes, so that the write may fail on the server but the "write()" may succeed. */ static void cf_close_failure_alert_box(const char *filename, int err) { if (err < 0) { /* Wiretap error. */ switch (err) { case WTAP_ERR_CANT_CLOSE: simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "The file \"%s\" couldn't be closed for some unknown reason.", filename); break; case WTAP_ERR_SHORT_WRITE: simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "Not all the packets could be written to the file \"%s\".", filename); break; default: simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "An error occurred while closing the file \"%s\": %s.", filename, wtap_strerror(err)); break; } } else { /* OS error. We assume that a close error from the OS is really a write error. */ write_failure_alert_box(filename, err); } } /* Reload the current capture file. */ void cf_reload(capture_file *cf) { gchar *filename; gboolean is_tempfile; int err; /* If the file could be opened, "cf_open()" calls "cf_close()" to get rid of state for the old capture file before filling in state for the new capture file. "cf_close()" will remove the file if it's a temporary file; we don't want that to happen (for one thing, it'd prevent subsequent reopens from working). Remember whether it's a temporary file, mark it as not being a temporary file, and then reopen it as the type of file it was. Also, "cf_close()" will free "cf->filename", so we must make a copy of it first. */ filename = g_strdup(cf->filename); is_tempfile = cf->is_tempfile; cf->is_tempfile = FALSE; if (cf_open(cf, filename, is_tempfile, &err) == CF_OK) { switch (cf_read(cf)) { case CF_READ_OK: case CF_READ_ERROR: /* Just because we got an error, that doesn't mean we were unable to read any of the file; we handle what we could get from the file. */ break; case CF_READ_ABORTED: /* The user bailed out of re-reading the capture file; the capture file has been closed - just free the capture file name string and return (without changing the last containing directory). */ g_free(filename); return; } } else { /* The open failed, so "cf->is_tempfile" wasn't set to "is_tempfile". Instead, the file was left open, so we should restore "cf->is_tempfile" ourselves. XXX - change the menu? Presumably "cf_open()" will do that; make sure it does! */ cf->is_tempfile = is_tempfile; } /* "cf_open()" made a copy of the file name we handed it, so we should free up our copy. */ g_free(filename); } /* Copies a file in binary mode, for those operating systems that care about * such things. * Returns TRUE on success, FALSE on failure. If a failure, it also * displays a simple dialog window with the error message. */ static gboolean copy_binary_file(const char *from_filename, const char *to_filename) { int from_fd, to_fd, nread, nwritten, err; guint8 pd[65536]; /* Copy the raw bytes of the file. */ from_fd = eth_open(from_filename, O_RDONLY | O_BINARY, 0000 /* no creation so don't matter */); if (from_fd < 0) { open_failure_alert_box(from_filename, errno, FALSE); goto done; } /* Use open() instead of creat() so that we can pass the O_BINARY flag, which is relevant on Win32; it appears that "creat()" may open the file in text mode, not binary mode, but we want to copy the raw bytes of the file, so we need the output file to be open in binary mode. */ to_fd = eth_open(to_filename, O_WRONLY | O_CREAT | O_TRUNC | O_BINARY, 0644); if (to_fd < 0) { open_failure_alert_box(to_filename, errno, TRUE); eth_close(from_fd); goto done; } while ((nread = eth_read(from_fd, pd, sizeof pd)) > 0) { nwritten = eth_write(to_fd, pd, nread); if (nwritten < nread) { if (nwritten < 0) err = errno; else err = WTAP_ERR_SHORT_WRITE; write_failure_alert_box(to_filename, err); eth_close(from_fd); eth_close(to_fd); goto done; } } if (nread < 0) { err = errno; simple_dialog(ESD_TYPE_ERROR, ESD_BTN_OK, "An error occurred while reading from the file \"%s\": %s.", from_filename, strerror(err)); eth_close(from_fd); eth_close(to_fd); goto done; } eth_close(from_fd); if (eth_close(to_fd) < 0) { write_failure_alert_box(to_filename, errno); goto done; } return TRUE; done: return FALSE; }