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/* frame_data.c
* Routines for packet disassembly
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
*
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
#include "config.h"
#include <glib.h>
#include <epan/epan.h>
#include <epan/frame_data.h>
#include <epan/column-utils.h>
#include <epan/timestamp.h>
#include <wiretap/wtap.h>
#include <wsutil/ws_assert.h>
#define COMPARE_FRAME_NUM() ((fdata1->num < fdata2->num) ? -1 : \
(fdata1->num > fdata2->num) ? 1 : \
0)
#define COMPARE_NUM(f) ((fdata1->f < fdata2->f) ? -1 : \
(fdata1->f > fdata2->f) ? 1 : \
COMPARE_FRAME_NUM())
/* Compare time stamps.
A packet whose time is a reference time is considered to have
a lower time stamp than any frame with a non-reference time;
if both packets' times are reference times, we compare the
times of the packets. */
#define COMPARE_TS_REAL(time1, time2) \
((fdata1->ref_time && !fdata2->ref_time) ? -1 : \
(!fdata1->ref_time && fdata2->ref_time) ? 1 : \
((time1).secs < (time2).secs) ? -1 : \
((time1).secs > (time2).secs) ? 1 : \
((time1).nsecs < (time2).nsecs) ? -1 :\
((time1).nsecs > (time2).nsecs) ? 1 : \
COMPARE_FRAME_NUM())
#define COMPARE_TS(ts) COMPARE_TS_REAL(fdata1->ts, fdata2->ts)
void
frame_delta_abs_time(const struct epan_session *epan, const frame_data *fdata, uint32_t prev_num, nstime_t *delta)
{
const nstime_t *prev_abs_ts = (prev_num) ? epan_get_frame_ts(epan, prev_num) : NULL;
if (prev_abs_ts) {
nstime_delta(delta, &fdata->abs_ts, prev_abs_ts);
} else {
/* If we don't have the time stamp of the previous packet,
it's because we have no displayed/captured packets prior to this.
Set the delta time to zero. */
nstime_set_zero(delta);
}
}
static int
frame_data_time_delta_compare(const struct epan_session *epan, const frame_data *fdata1, const frame_data *fdata2)
{
nstime_t del_cap_ts1, del_cap_ts2;
frame_delta_abs_time(epan, fdata1, fdata1->num - 1, &del_cap_ts1);
frame_delta_abs_time(epan, fdata2, fdata2->num - 1, &del_cap_ts2);
return COMPARE_TS_REAL(del_cap_ts1, del_cap_ts2);
}
static int
frame_data_time_delta_rel_compare(const struct epan_session *epan, const frame_data *fdata1, const frame_data *fdata2)
{
nstime_t del_rel_ts1, del_rel_ts2;
frame_delta_abs_time(epan, fdata1, fdata1->frame_ref_num, &del_rel_ts1);
frame_delta_abs_time(epan, fdata2, fdata2->frame_ref_num, &del_rel_ts2);
return COMPARE_TS_REAL(del_rel_ts1, del_rel_ts2);
}
static int
frame_data_time_delta_dis_compare(const struct epan_session *epan, const frame_data *fdata1, const frame_data *fdata2)
{
nstime_t del_dis_ts1, del_dis_ts2;
frame_delta_abs_time(epan, fdata1, fdata1->prev_dis_num, &del_dis_ts1);
frame_delta_abs_time(epan, fdata2, fdata2->prev_dis_num, &del_dis_ts2);
return COMPARE_TS_REAL(del_dis_ts1, del_dis_ts2);
}
int
frame_data_compare(const struct epan_session *epan, const frame_data *fdata1, const frame_data *fdata2, int field)
{
switch (field) {
case COL_NUMBER:
return COMPARE_FRAME_NUM();
case COL_CLS_TIME:
switch (timestamp_get_type()) {
case TS_ABSOLUTE:
case TS_ABSOLUTE_WITH_YMD:
case TS_ABSOLUTE_WITH_YDOY:
case TS_UTC:
case TS_UTC_WITH_YMD:
case TS_UTC_WITH_YDOY:
case TS_EPOCH:
return COMPARE_TS(abs_ts);
case TS_RELATIVE:
return frame_data_time_delta_rel_compare(epan, fdata1, fdata2);
case TS_DELTA:
return frame_data_time_delta_compare(epan, fdata1, fdata2);
case TS_DELTA_DIS:
return frame_data_time_delta_dis_compare(epan, fdata1, fdata2);
case TS_NOT_SET:
return 0;
}
return 0;
case COL_ABS_TIME:
case COL_ABS_YMD_TIME:
case COL_ABS_YDOY_TIME:
case COL_UTC_TIME:
case COL_UTC_YMD_TIME:
case COL_UTC_YDOY_TIME:
return COMPARE_TS(abs_ts);
case COL_REL_TIME:
return frame_data_time_delta_rel_compare(epan, fdata1, fdata2);
case COL_DELTA_TIME:
return frame_data_time_delta_compare(epan, fdata1, fdata2);
case COL_DELTA_TIME_DIS:
return frame_data_time_delta_dis_compare(epan, fdata1, fdata2);
case COL_PACKET_LENGTH:
return COMPARE_NUM(pkt_len);
case COL_CUMULATIVE_BYTES:
return COMPARE_NUM(cum_bytes);
}
g_return_val_if_reached(0);
}
void
frame_data_init(frame_data *fdata, uint32_t num, const wtap_rec *rec,
int64_t offset, uint32_t cum_bytes)
{
fdata->pfd = NULL;
fdata->num = num;
fdata->file_off = offset;
fdata->passed_dfilter = 1;
fdata->dependent_of_displayed = 0;
fdata->dependent_frames = NULL;
fdata->encoding = PACKET_CHAR_ENC_CHAR_ASCII;
fdata->visited = 0;
fdata->marked = 0;
fdata->ref_time = 0;
fdata->ignored = 0;
fdata->has_ts = (rec->presence_flags & WTAP_HAS_TS) ? 1 : 0;
fdata->tcp_snd_manual_analysis = 0;
switch (rec->rec_type) {
case REC_TYPE_PACKET:
fdata->pkt_len = rec->rec_header.packet_header.len;
fdata->cum_bytes = cum_bytes + rec->rec_header.packet_header.len;
fdata->cap_len = rec->rec_header.packet_header.caplen;
break;
case REC_TYPE_FT_SPECIFIC_EVENT:
case REC_TYPE_FT_SPECIFIC_REPORT:
/*
* XXX
*/
fdata->pkt_len = rec->rec_header.ft_specific_header.record_len;
fdata->cum_bytes = cum_bytes + rec->rec_header.ft_specific_header.record_len;
fdata->cap_len = rec->rec_header.ft_specific_header.record_len;
break;
case REC_TYPE_SYSCALL:
/*
* XXX - is cum_bytes supposed to count non-packet bytes?
*/
fdata->pkt_len = rec->rec_header.syscall_header.event_len;
fdata->cum_bytes = cum_bytes + rec->rec_header.syscall_header.event_len;
fdata->cap_len = rec->rec_header.syscall_header.event_filelen;
break;
case REC_TYPE_SYSTEMD_JOURNAL_EXPORT:
/*
* XXX - is cum_bytes supposed to count non-packet bytes?
*/
fdata->pkt_len = rec->rec_header.systemd_journal_export_header.record_len;
fdata->cum_bytes = cum_bytes + rec->rec_header.systemd_journal_export_header.record_len;
fdata->cap_len = rec->rec_header.systemd_journal_export_header.record_len;
break;
case REC_TYPE_CUSTOM_BLOCK:
/*
* XXX - is cum_bytes supposed to count non-packet bytes?
*/
switch (rec->rec_header.custom_block_header.pen) {
case PEN_NFLX:
fdata->pkt_len = rec->rec_header.custom_block_header.length - 4;
fdata->cum_bytes = cum_bytes + rec->rec_header.custom_block_header.length - 4;
fdata->cap_len = rec->rec_header.custom_block_header.length - 4;
break;
default:
fdata->pkt_len = rec->rec_header.custom_block_header.length;
fdata->cum_bytes = cum_bytes + rec->rec_header.custom_block_header.length;
fdata->cap_len = rec->rec_header.custom_block_header.length;
break;
}
break;
}
/* To save some memory, we coerce it into 4 bits */
ws_assert(rec->tsprec <= 0xF);
fdata->tsprec = (unsigned int)rec->tsprec;
fdata->abs_ts = rec->ts;
fdata->has_modified_block = 0;
fdata->need_colorize = 0;
fdata->color_filter = NULL;
fdata->shift_offset.secs = 0;
fdata->shift_offset.nsecs = 0;
fdata->frame_ref_num = 0;
fdata->prev_dis_num = 0;
}
void
frame_data_set_before_dissect(frame_data *fdata,
nstime_t *elapsed_time,
const frame_data **frame_ref,
const frame_data *prev_dis)
{
nstime_t rel_ts;
/* If this frame doesn't have a time stamp, don't set it as the
* reference frame used for calculating time deltas, set elapsed
* time, etc. We also won't need to calculate the delta of this
* frame's timestamp to any other frame.
*/
if (!fdata->has_ts) {
/* If it was marked as a reference time frame anyway (should we
* allow that?), clear the existing reference frame so that the
* next frame with a time stamp will become the reference frame.
*/
if(fdata->ref_time) {
*frame_ref = NULL;
}
return;
}
/* Don't have the reference frame, set to current */
if (*frame_ref == NULL)
*frame_ref = fdata;
/* if this frames is marked as a reference time frame,
set reference frame this frame */
if(fdata->ref_time)
*frame_ref = fdata;
/* Get the time elapsed between the first packet and this packet. */
nstime_delta(&rel_ts, &fdata->abs_ts, &(*frame_ref)->abs_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 ((int32_t)elapsed_time->secs < rel_ts.secs
|| ((int32_t)elapsed_time->secs == rel_ts.secs && (int32_t)elapsed_time->nsecs < rel_ts.nsecs)) {
*elapsed_time = rel_ts;
}
fdata->frame_ref_num = (*frame_ref != fdata) ? (*frame_ref)->num : 0;
fdata->prev_dis_num = (prev_dis) ? prev_dis->num : 0;
}
void
frame_data_set_after_dissect(frame_data *fdata,
uint32_t *cum_bytes)
{
/* 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 don't pass the display filter */
if(fdata->ref_time){
/* if this was a TIME REF frame we should reset the cul bytes field */
*cum_bytes = fdata->pkt_len;
fdata->cum_bytes = *cum_bytes;
} else {
/* increase cum_bytes with this packets length */
*cum_bytes += fdata->pkt_len;
fdata->cum_bytes = *cum_bytes;
}
}
void
frame_data_reset(frame_data *fdata)
{
fdata->visited = 0;
if (fdata->pfd) {
g_slist_free(fdata->pfd);
fdata->pfd = NULL;
}
if (fdata->dependent_frames) {
g_hash_table_destroy(fdata->dependent_frames);
fdata->dependent_frames = NULL;
}
}
void
frame_data_destroy(frame_data *fdata)
{
if (fdata->pfd) {
g_slist_free(fdata->pfd);
fdata->pfd = NULL;
}
if (fdata->dependent_frames) {
g_hash_table_destroy(fdata->dependent_frames);
fdata->dependent_frames = NULL;
}
}
/*
* Editor modelines - https://www.wireshark.org/tools/modelines.html
*
* Local variables:
* c-basic-offset: 2
* tab-width: 8
* indent-tabs-mode: nil
* End:
*
* vi: set shiftwidth=2 tabstop=8 expandtab:
* :indentSize=2:tabSize=8:noTabs=true:
*/
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