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capinfos.c
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capinfos.c
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/* capinfos.c
* Reports capture file information including # of packets, duration, others
*
* Copyright 2004 Ian Schorr
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
/*
* 2009-09-19: jyoung
*
* New capinfos features
*
* Continue processing additional files after
* a wiretap open failure. The new -C option
* reverts to capinfos' original behavior which
* is to cancel any further file processing at
* first file open failure.
*
* Change the behavior of how the default display
* of all infos is initiated. This gets rid of a
* special post getopt() argument count test.
*
* Add new table output format (with related options)
* This feature allows outputting the various infos
* into a tab delimited text file, or to a comma
* separated variables file (*.csv) instead of the
* original "long" format.
*
* 2011-04-05: wmeier
* behaviour changed: Upon exit capinfos will return
* an error status if an error occurred at any
* point during "continuous" file processing.
* (Previously a success status was always
* returned if the -C option was not used).
*
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include <locale.h>
#include <errno.h>
#include <wsutil/ws_getopt.h>
#include <glib.h>
#include <wiretap/wtap.h>
#include <ui/cmdarg_err.h>
#include <ui/exit_codes.h>
#include <wsutil/filesystem.h>
#include <wsutil/privileges.h>
#include <cli_main.h>
#include <ui/version_info.h>
#include <wiretap/wtap_opttypes.h>
#ifdef HAVE_PLUGINS
#include <wsutil/plugins.h>
#endif
#include <wsutil/report_message.h>
#include <wsutil/str_util.h>
#include <wsutil/file_util.h>
#include <wsutil/ws_assert.h>
#include <wsutil/wslog.h>
#include <wsutil/wsgcrypt.h>
#include "ui/failure_message.h"
/*
* By default capinfos now continues processing
* the next filename if and when wiretap detects
* a problem opening or reading a file.
* Use the '-C' option to revert back to original
* capinfos behavior which is to abort any
* additional file processing at the first file
* open or read failure.
*/
static gboolean stop_after_failure = FALSE;
/*
* table report variables
*/
static gboolean long_report = TRUE; /* By default generate long report */
static gchar table_report_header = TRUE; /* Generate column header by default */
static gchar field_separator = '\t'; /* Use TAB as field separator by default */
static gchar quote_char = '\0'; /* Do NOT quote fields by default */
static gboolean machine_readable = FALSE; /* Display machine-readable numbers */
/*
* capinfos has the ability to report on a number of
* various characteristics ("infos") for each input file.
*
* By default reporting of all info fields is enabled.
*
* Optionally the reporting of any specific info field
* or combination of info fields can be enabled with
* individual options.
*/
static gboolean report_all_infos = TRUE; /* Report all infos */
static gboolean cap_file_type = TRUE; /* Report capture type */
static gboolean cap_file_encap = TRUE; /* Report encapsulation */
static gboolean cap_snaplen = TRUE; /* Packet size limit (snaplen)*/
static gboolean cap_packet_count = TRUE; /* Report packet count */
static gboolean cap_file_size = TRUE; /* Report file size */
static gboolean cap_comment = TRUE; /* Display the capture comment */
static gboolean cap_file_more_info = TRUE; /* Report more file info */
static gboolean cap_file_idb = TRUE; /* Report Interface info */
static gboolean cap_file_nrb = TRUE; /* Report Name Resolution Block info */
static gboolean cap_file_dsb = TRUE; /* Report Decryption Secrets Block info */
static gboolean cap_data_size = TRUE; /* Report packet byte size */
static gboolean cap_duration = TRUE; /* Report capture duration */
static gboolean cap_start_time = TRUE; /* Report capture start time */
static gboolean cap_end_time = TRUE; /* Report capture end time */
static gboolean time_as_secs = FALSE; /* Report time values as raw seconds */
static gboolean cap_data_rate_byte = TRUE; /* Report data rate bytes/sec */
static gboolean cap_data_rate_bit = TRUE; /* Report data rate bites/sec */
static gboolean cap_packet_size = TRUE; /* Report average packet size */
static gboolean cap_packet_rate = TRUE; /* Report average packet rate */
static gboolean cap_order = TRUE; /* Report if packets are in chronological order (True/False) */
static gboolean cap_file_hashes = TRUE; /* Calculate file hashes */
// Strongest to weakest
#define HASH_SIZE_SHA256 32
#define HASH_SIZE_RMD160 20
#define HASH_SIZE_SHA1 20
#define HASH_STR_SIZE (65) /* Max hash size * 2 + '\0' */
#define HASH_BUF_SIZE (1024 * 1024)
static gchar file_sha256[HASH_STR_SIZE];
static gchar file_rmd160[HASH_STR_SIZE];
static gchar file_sha1[HASH_STR_SIZE];
static char *hash_buf = NULL;
static gcry_md_hd_t hd = NULL;
static guint num_ipv4_addresses;
static guint num_ipv6_addresses;
static guint num_decryption_secrets;
/*
* If we have at least two packets with time stamps, and they're not in
* order - i.e., the later packet has a time stamp older than the earlier
* packet - the time stamps are known not to be in order.
*
* If every packet has a time stamp, and they're all in order, the time
* stamp is known to be in order.
*
* Otherwise, we have no idea.
*/
typedef enum {
IN_ORDER,
NOT_IN_ORDER,
ORDER_UNKNOWN
} order_t;
typedef struct _capture_info {
const char *filename;
guint16 file_type;
wtap_compression_type compression_type;
int file_encap;
int file_tsprec;
wtap *wth;
gint64 filesize;
guint64 packet_bytes;
gboolean times_known;
nstime_t start_time;
int start_time_tsprec;
nstime_t stop_time;
int stop_time_tsprec;
guint32 packet_count;
gboolean snap_set; /* If set in capture file header */
guint32 snaplen; /* value from the capture file header */
guint32 snaplen_min_inferred; /* If caplen < len for 1 or more rcds */
guint32 snaplen_max_inferred; /* ... */
gboolean drops_known;
guint32 drop_count;
nstime_t duration;
int duration_tsprec;
double packet_rate;
double packet_size;
double data_rate; /* in bytes/s */
gboolean know_order;
order_t order;
int *encap_counts; /* array of per_packet encap counts; array has one entry per wtap_encap type */
guint num_interfaces; /* number of IDBs, and thus size of interface_packet_counts array */
GArray *interface_packet_counts; /* array of per_packet interface_id counts; one entry per file IDB */
guint32 pkt_interface_id_unknown; /* counts if packet interface_id didn't match a known one */
GArray *idb_info_strings; /* array of IDB info strings */
} capture_info;
static char *decimal_point;
static void
enable_all_infos(void)
{
report_all_infos = TRUE;
cap_file_type = TRUE;
cap_file_encap = TRUE;
cap_snaplen = TRUE;
cap_packet_count = TRUE;
cap_file_size = TRUE;
cap_comment = TRUE;
cap_file_more_info = TRUE;
cap_file_idb = TRUE;
cap_file_nrb = TRUE;
cap_file_dsb = TRUE;
cap_data_size = TRUE;
cap_duration = TRUE;
cap_start_time = TRUE;
cap_end_time = TRUE;
cap_order = TRUE;
cap_data_rate_byte = TRUE;
cap_data_rate_bit = TRUE;
cap_packet_size = TRUE;
cap_packet_rate = TRUE;
cap_file_hashes = TRUE;
}
static void
disable_all_infos(void)
{
report_all_infos = FALSE;
cap_file_type = FALSE;
cap_file_encap = FALSE;
cap_snaplen = FALSE;
cap_packet_count = FALSE;
cap_file_size = FALSE;
cap_comment = FALSE;
cap_file_more_info = FALSE;
cap_file_idb = FALSE;
cap_file_nrb = FALSE;
cap_file_dsb = FALSE;
cap_data_size = FALSE;
cap_duration = FALSE;
cap_start_time = FALSE;
cap_end_time = FALSE;
cap_order = FALSE;
cap_data_rate_byte = FALSE;
cap_data_rate_bit = FALSE;
cap_packet_size = FALSE;
cap_packet_rate = FALSE;
cap_file_hashes = FALSE;
}
static const gchar *
order_string(order_t order)
{
switch (order) {
case IN_ORDER:
return "True";
case NOT_IN_ORDER:
return "False";
case ORDER_UNKNOWN:
return "Unknown";
default:
return "???"; /* "cannot happen" (the next step is "Profit!") */
}
}
static gchar *
absolute_time_string(nstime_t *timer, int tsprecision, capture_info *cf_info)
{
/*
* https://web.archive.org/web/20120513133703/http://www.idrbt.ac.in/publications/workingpapers/Working%20Paper%20No.%209.pdf
*
* says:
*
* A 64-bit Unix time would be safe for the indefinite future, as
* this variable would not overflow until 2**63 or
* 9,223,372,036,854,775,808 (over nine quintillion) seconds
* after the beginning of the Unix epoch - corresponding to
* GMT 15:30:08, Sunday, 4th December, 292,277,026,596.
*
* So, if we're displaying the time as YYYY-MM-DD HH:MM:SS.SSSSSSSSS,
* we'll have the buffer be large enouth for a date of the format
* 292277026596-MM-DD HH:MM:SS.SSSSSSSSS, which is the biggest value
* you'll get with a 64-bit time_t and a nanosecond-resolution
* fraction-of-a-second.
*
* That's 12+1+2+1+2+1+2+1+2+2+2+1+9+1, including the terminating
* \0, or 39.
*
* If we're displaying the time as epoch time, and the time is
* unsigned, 2^64-1 is 18446744073709551615, so the buffer has
* to be big enough for 18446744073709551615.999999999. That's
* 20+1+9+1, including the terminating '\0', or 31. If it's
* signed, 2^63 is 9223372036854775808, so the buffer has to
* be big enough for -9223372036854775808.999999999, which is
* again 20+1+9+1, or 31.
*
* So we go with 39.
*/
static gchar time_string_buf[39];
struct tm *ti_tm;
if (cf_info->times_known && cf_info->packet_count > 0) {
if (time_as_secs) {
switch (tsprecision) {
case WTAP_TSPREC_SEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64,
(gint64)timer->secs);
break;
case WTAP_TSPREC_DSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%01d",
(gint64)timer->secs,
decimal_point,
timer->nsecs / 100000000);
break;
case WTAP_TSPREC_CSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%02d",
(gint64)timer->secs,
decimal_point,
timer->nsecs / 10000000);
break;
case WTAP_TSPREC_MSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%03d",
(gint64)timer->secs,
decimal_point,
timer->nsecs / 1000000);
break;
case WTAP_TSPREC_USEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%06d",
(gint64)timer->secs,
decimal_point,
timer->nsecs / 1000);
break;
case WTAP_TSPREC_NSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%09d",
(gint64)timer->secs,
decimal_point,
timer->nsecs);
break;
default:
snprintf(time_string_buf, sizeof time_string_buf,
"Unknown precision %d",
tsprecision);
break;
}
return time_string_buf;
} else {
ti_tm = localtime(&timer->secs);
if (ti_tm == NULL) {
snprintf(time_string_buf, sizeof time_string_buf, "Not representable");
return time_string_buf;
}
switch (tsprecision) {
case WTAP_TSPREC_SEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%04d-%02d-%02d %02d:%02d:%02d",
ti_tm->tm_year + 1900,
ti_tm->tm_mon + 1,
ti_tm->tm_mday,
ti_tm->tm_hour,
ti_tm->tm_min,
ti_tm->tm_sec);
break;
case WTAP_TSPREC_DSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%04d-%02d-%02d %02d:%02d:%02d%s%01d",
ti_tm->tm_year + 1900,
ti_tm->tm_mon + 1,
ti_tm->tm_mday,
ti_tm->tm_hour,
ti_tm->tm_min,
ti_tm->tm_sec,
decimal_point,
timer->nsecs / 100000000);
break;
case WTAP_TSPREC_CSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%04d-%02d-%02d %02d:%02d:%02d%s%02d",
ti_tm->tm_year + 1900,
ti_tm->tm_mon + 1,
ti_tm->tm_mday,
ti_tm->tm_hour,
ti_tm->tm_min,
ti_tm->tm_sec,
decimal_point,
timer->nsecs / 10000000);
break;
case WTAP_TSPREC_MSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%04d-%02d-%02d %02d:%02d:%02d%s%03d",
ti_tm->tm_year + 1900,
ti_tm->tm_mon + 1,
ti_tm->tm_mday,
ti_tm->tm_hour,
ti_tm->tm_min,
ti_tm->tm_sec,
decimal_point,
timer->nsecs / 1000000);
break;
case WTAP_TSPREC_USEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%04d-%02d-%02d %02d:%02d:%02d%s%06d",
ti_tm->tm_year + 1900,
ti_tm->tm_mon + 1,
ti_tm->tm_mday,
ti_tm->tm_hour,
ti_tm->tm_min,
ti_tm->tm_sec,
decimal_point,
timer->nsecs / 1000);
break;
case WTAP_TSPREC_NSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%04d-%02d-%02d %02d:%02d:%02d%s%09d",
ti_tm->tm_year + 1900,
ti_tm->tm_mon + 1,
ti_tm->tm_mday,
ti_tm->tm_hour,
ti_tm->tm_min,
ti_tm->tm_sec,
decimal_point,
timer->nsecs);
break;
default:
snprintf(time_string_buf, sizeof time_string_buf,
"Unknown precision %d",
tsprecision);
break;
}
return time_string_buf;
}
}
snprintf(time_string_buf, sizeof time_string_buf, "n/a");
return time_string_buf;
}
static gchar *
relative_time_string(nstime_t *timer, int tsprecision, capture_info *cf_info, gboolean want_seconds)
{
const gchar *second = want_seconds ? " second" : "";
const gchar *plural = want_seconds ? "s" : "";
/*
* If we're displaying the time as epoch time, and the time is
* unsigned, 2^64-1 is 18446744073709551615, so the buffer has
* to be big enough for "18446744073709551615.999999999 seconds".
* That's 20+1+9+1+7+1, including the terminating '\0', or 39.
* If it'ssigned, 2^63 is 9223372036854775808, so the buffer has to
* be big enough for "-9223372036854775808.999999999 seconds",
* which is again 20+1+9+1+7+1, or 39.
*/
static gchar time_string_buf[39];
if (cf_info->times_known && cf_info->packet_count > 0) {
switch (tsprecision) {
case WTAP_TSPREC_SEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%s",
(gint64)timer->secs,
second,
timer->secs == 1 ? "" : plural);
break;
case WTAP_TSPREC_DSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%01d%s%s",
(gint64)timer->secs,
decimal_point,
timer->nsecs / 100000000,
second,
(timer->secs == 1 && timer->nsecs == 0) ? "" : plural);
break;
case WTAP_TSPREC_CSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%02d%s%s",
(gint64)timer->secs,
decimal_point,
timer->nsecs / 10000000,
second,
(timer->secs == 1 && timer->nsecs == 0) ? "" : plural);
break;
case WTAP_TSPREC_MSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%03d%s%s",
(gint64)timer->secs,
decimal_point,
timer->nsecs / 1000000,
second,
(timer->secs == 1 && timer->nsecs == 0) ? "" : plural);
break;
case WTAP_TSPREC_USEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%06d%s%s",
(gint64)timer->secs,
decimal_point,
timer->nsecs / 1000,
second,
(timer->secs == 1 && timer->nsecs == 0) ? "" : plural);
break;
case WTAP_TSPREC_NSEC:
snprintf(time_string_buf, sizeof time_string_buf,
"%"PRId64"%s%09d%s%s",
(gint64)timer->secs,
decimal_point,
timer->nsecs,
second,
(timer->secs == 1 && timer->nsecs == 0) ? "" : plural);
break;
default:
snprintf(time_string_buf, sizeof time_string_buf,
"Unknown precision %d",
tsprecision);
break;
}
return time_string_buf;
}
snprintf(time_string_buf, sizeof time_string_buf, "n/a");
return time_string_buf;
}
static void print_value(const gchar *text_p1, gint width, const gchar *text_p2, double value)
{
if (value > 0.0)
printf("%s%.*f%s\n", text_p1, width, value, text_p2);
else
printf("%sn/a\n", text_p1);
}
/* multi-line comments would conflict with the formatting that capinfos uses
we replace linefeeds with spaces */
static void
string_replace_newlines(gchar *str)
{
gchar *p;
if (str) {
p = str;
while (*p != '\0') {
if (*p == '\n')
*p = ' ';
if (*p == '\r')
*p = ' ';
p++;
}
}
}
static void
show_option_string(const char *prefix, const char *option_str)
{
char *str;
if (option_str != NULL && option_str[0] != '\0') {
str = g_strdup(option_str);
string_replace_newlines(str);
printf("%s%s\n", prefix, str);
g_free(str);
}
}
static void
print_stats(const gchar *filename, capture_info *cf_info)
{
const gchar *file_type_string, *file_encap_string;
gchar *size_string;
/* Build printable strings for various stats */
if (machine_readable) {
file_type_string = wtap_file_type_subtype_name(cf_info->file_type);
file_encap_string = wtap_encap_name(cf_info->file_encap);
}
else {
file_type_string = wtap_file_type_subtype_description(cf_info->file_type);
file_encap_string = wtap_encap_description(cf_info->file_encap);
}
if (filename) printf ("File name: %s\n", filename);
if (cap_file_type) {
const char *compression_type_description;
compression_type_description = wtap_compression_type_description(cf_info->compression_type);
if (compression_type_description == NULL)
printf ("File type: %s\n",
file_type_string);
else
printf ("File type: %s (%s)\n",
file_type_string, compression_type_description);
}
if (cap_file_encap) {
printf ("File encapsulation: %s\n", file_encap_string);
if (cf_info->file_encap == WTAP_ENCAP_PER_PACKET) {
int i;
printf ("Encapsulation in use by packets (# of pkts):\n");
for (i=0; i<WTAP_NUM_ENCAP_TYPES; i++) {
if (cf_info->encap_counts[i] > 0)
printf(" %s (%d)\n",
wtap_encap_description(i), cf_info->encap_counts[i]);
}
}
}
if (cap_file_more_info) {
printf ("File timestamp precision: %s (%d)\n",
wtap_tsprec_string(cf_info->file_tsprec), cf_info->file_tsprec);
}
if (cap_snaplen && cf_info->snap_set)
printf ("Packet size limit: file hdr: %u bytes\n", cf_info->snaplen);
else if (cap_snaplen && !cf_info->snap_set)
printf ("Packet size limit: file hdr: (not set)\n");
if (cf_info->snaplen_max_inferred > 0) {
if (cf_info->snaplen_min_inferred == cf_info->snaplen_max_inferred)
printf ("Packet size limit: inferred: %u bytes\n", cf_info->snaplen_min_inferred);
else
printf ("Packet size limit: inferred: %u bytes - %u bytes (range)\n",
cf_info->snaplen_min_inferred, cf_info->snaplen_max_inferred);
}
if (cap_packet_count) {
printf ("Number of packets: ");
if (machine_readable) {
printf ("%u\n", cf_info->packet_count);
} else {
size_string = format_size(cf_info->packet_count, FORMAT_SIZE_UNIT_NONE, 0);
printf ("%s\n", size_string);
g_free(size_string);
}
}
if (cap_file_size) {
printf ("File size: ");
if (machine_readable) {
printf ("%" PRId64 " bytes\n", cf_info->filesize);
} else {
size_string = format_size(cf_info->filesize, FORMAT_SIZE_UNIT_BYTES, 0);
printf ("%s\n", size_string);
g_free(size_string);
}
}
if (cap_data_size) {
printf ("Data size: ");
if (machine_readable) {
printf ("%" PRIu64 " bytes\n", cf_info->packet_bytes);
} else {
size_string = format_size(cf_info->packet_bytes, FORMAT_SIZE_UNIT_BYTES, 0);
printf ("%s\n", size_string);
g_free(size_string);
}
}
if (cf_info->times_known) {
if (cap_duration) /* XXX - shorten to hh:mm:ss */
printf("Capture duration: %s\n", relative_time_string(&cf_info->duration, cf_info->duration_tsprec, cf_info, TRUE));
if (cap_start_time)
printf("First packet time: %s\n", absolute_time_string(&cf_info->start_time, cf_info->start_time_tsprec, cf_info));
if (cap_end_time)
printf("Last packet time: %s\n", absolute_time_string(&cf_info->stop_time, cf_info->stop_time_tsprec, cf_info));
if (cap_data_rate_byte) {
printf("Data byte rate: ");
if (machine_readable) {
print_value("", 2, " bytes/sec", cf_info->data_rate);
} else {
size_string = format_size((int64_t)cf_info->data_rate, FORMAT_SIZE_UNIT_BYTES_S, 0);
printf ("%s\n", size_string);
g_free(size_string);
}
}
if (cap_data_rate_bit) {
printf("Data bit rate: ");
if (machine_readable) {
print_value("", 2, " bits/sec", cf_info->data_rate*8);
} else {
size_string = format_size((int64_t)(cf_info->data_rate*8), FORMAT_SIZE_UNIT_BITS_S, 0);
printf ("%s\n", size_string);
g_free(size_string);
}
}
}
if (cap_packet_size) printf("Average packet size: %.2f bytes\n", cf_info->packet_size);
if (cf_info->times_known) {
if (cap_packet_rate) {
printf("Average packet rate: ");
if (machine_readable) {
print_value("", 2, " packets/sec", cf_info->packet_rate);
} else {
size_string = format_size((int64_t)cf_info->packet_rate, FORMAT_SIZE_UNIT_PACKETS_S, 0);
printf ("%s\n", size_string);
g_free(size_string);
}
}
}
if (cap_file_hashes) {
printf ("SHA256: %s\n", file_sha256);
printf ("RIPEMD160: %s\n", file_rmd160);
printf ("SHA1: %s\n", file_sha1);
}
if (cap_order) printf ("Strict time order: %s\n", order_string(cf_info->order));
gboolean has_multiple_sections = (wtap_file_get_num_shbs(cf_info->wth) > 1);
for (guint section_number = 0;
section_number < wtap_file_get_num_shbs(cf_info->wth);
section_number++) {
wtap_block_t shb;
// If we have more than one section, add headers for each section.
if (has_multiple_sections)
printf("Section %u:\n\n", section_number);
shb = wtap_file_get_shb(cf_info->wth, section_number);
if (shb != NULL) {
if (cap_file_more_info) {
char *str;
if (wtap_block_get_string_option_value(shb, OPT_SHB_HARDWARE, &str) == WTAP_OPTTYPE_SUCCESS)
show_option_string("Capture hardware: ", str);
if (wtap_block_get_string_option_value(shb, OPT_SHB_OS, &str) == WTAP_OPTTYPE_SUCCESS)
show_option_string("Capture oper-sys: ", str);
if (wtap_block_get_string_option_value(shb, OPT_SHB_USERAPPL, &str) == WTAP_OPTTYPE_SUCCESS)
show_option_string("Capture application: ", str);
}
if (cap_comment) {
unsigned int i;
char *str;
for (i = 0; wtap_block_get_nth_string_option_value(shb, OPT_COMMENT, i, &str) == WTAP_OPTTYPE_SUCCESS; i++) {
show_option_string("Capture comment: ", str);
}
}
if (cap_file_idb && cf_info->num_interfaces != 0) {
guint i;
ws_assert(cf_info->num_interfaces == cf_info->idb_info_strings->len);
printf ("Number of interfaces in file: %u\n", cf_info->num_interfaces);
for (i = 0; i < cf_info->idb_info_strings->len; i++) {
gchar *s = g_array_index(cf_info->idb_info_strings, gchar*, i);
guint32 packet_count = 0;
if (i < cf_info->interface_packet_counts->len)
packet_count = g_array_index(cf_info->interface_packet_counts, guint32, i);
printf ("Interface #%u info:\n", i);
printf ("%s", s);
printf (" Number of packets = %u\n", packet_count);
}
}
}
if (cap_file_nrb) {
if (num_ipv4_addresses != 0)
printf ("Number of resolved IPv4 addresses in file: %u\n", num_ipv4_addresses);
if (num_ipv6_addresses != 0)
printf ("Number of resolved IPv6 addresses in file: %u\n", num_ipv6_addresses);
}
if (cap_file_dsb) {
if (num_decryption_secrets != 0)
printf ("Number of decryption secrets in file: %u\n", num_decryption_secrets);
}
}
}
static void
putsep(void)
{
if (field_separator) putchar(field_separator);
}
static void
putquote(void)
{
if (quote_char) putchar(quote_char);
}
static void
print_stats_table_header_label(const gchar *label)
{
putsep();
putquote();
printf("%s", label);
putquote();
}
static void
print_stats_table_header(void)
{
putquote();
printf("File name");
putquote();
if (cap_file_type) print_stats_table_header_label("File type");
if (cap_file_encap) print_stats_table_header_label("File encapsulation");
if (cap_file_more_info) print_stats_table_header_label("File time precision");
if (cap_snaplen) {
print_stats_table_header_label("Packet size limit");
print_stats_table_header_label("Packet size limit min (inferred)");
print_stats_table_header_label("Packet size limit max (inferred)");
}
if (cap_packet_count) print_stats_table_header_label("Number of packets");
if (cap_file_size) print_stats_table_header_label("File size (bytes)");
if (cap_data_size) print_stats_table_header_label("Data size (bytes)");
if (cap_duration) print_stats_table_header_label("Capture duration (seconds)");
if (cap_start_time) print_stats_table_header_label("Start time");
if (cap_end_time) print_stats_table_header_label("End time");
if (cap_data_rate_byte) print_stats_table_header_label("Data byte rate (bytes/sec)");
if (cap_data_rate_bit) print_stats_table_header_label("Data bit rate (bits/sec)");
if (cap_packet_size) print_stats_table_header_label("Average packet size (bytes)");
if (cap_packet_rate) print_stats_table_header_label("Average packet rate (packets/sec)");
if (cap_file_hashes) {
print_stats_table_header_label("SHA256");
print_stats_table_header_label("RIPEMD160");
print_stats_table_header_label("SHA1");
}
if (cap_order) print_stats_table_header_label("Strict time order");
if (cap_file_more_info) {
print_stats_table_header_label("Capture hardware");
print_stats_table_header_label("Capture oper-sys");
print_stats_table_header_label("Capture application");
}
if (cap_comment) print_stats_table_header_label("Capture comment");
printf("\n");
}
static void
print_stats_table(const gchar *filename, capture_info *cf_info)
{
const gchar *file_type_string, *file_encap_string;
/* Build printable strings for various stats */
file_type_string = wtap_file_type_subtype_name(cf_info->file_type);
file_encap_string = wtap_encap_name(cf_info->file_encap);
if (filename) {
putquote();
printf("%s", filename);
putquote();
}
if (cap_file_type) {
putsep();
putquote();
printf("%s", file_type_string);
putquote();
}
/* ToDo: If WTAP_ENCAP_PER_PACKET, show the list of encapsulations encountered;
* Output a line for each different encap with all fields repeated except
* the encapsulation field which has "Per Packet: ..." for each
* encapsulation type seen ?
*/
if (cap_file_encap) {
putsep();
putquote();
printf("%s", file_encap_string);
putquote();
}
if (cap_file_more_info) {
putsep();
putquote();
printf("%s", wtap_tsprec_string(cf_info->file_tsprec));
putquote();
}
if (cap_snaplen) {
putsep();
putquote();
if (cf_info->snap_set)
printf("%u", cf_info->snaplen);
else
printf("(not set)");
putquote();
if (cf_info->snaplen_max_inferred > 0) {
putsep();
putquote();
printf("%u", cf_info->snaplen_min_inferred);
putquote();
putsep();
putquote();
printf("%u", cf_info->snaplen_max_inferred);
putquote();
}
else {
putsep();
putquote();
printf("n/a");
putquote();
putsep();
putquote();
printf("n/a");
putquote();
}
}
if (cap_packet_count) {
putsep();
putquote();
printf("%u", cf_info->packet_count);
putquote();
}
if (cap_file_size) {
putsep();
putquote();
printf("%" PRId64, cf_info->filesize);
putquote();
}
if (cap_data_size) {
putsep();
putquote();
printf("%" PRIu64, cf_info->packet_bytes);
putquote();
}
if (cap_duration) {
putsep();
putquote();
printf("%s", relative_time_string(&cf_info->duration, cf_info->duration_tsprec, cf_info, FALSE));
putquote();
}
if (cap_start_time) {
putsep();
putquote();
printf("%s", absolute_time_string(&cf_info->start_time, cf_info->start_time_tsprec, cf_info));
putquote();
}
if (cap_end_time) {
putsep();
putquote();
printf("%s", absolute_time_string(&cf_info->stop_time, cf_info->stop_time_tsprec, cf_info));
putquote();
}
if (cap_data_rate_byte) {
putsep();
putquote();
if (cf_info->times_known)
printf("%.2f", cf_info->data_rate);
else
printf("n/a");
putquote();
}
if (cap_data_rate_bit) {
putsep();
putquote();
if (cf_info->times_known)
printf("%.2f", cf_info->data_rate*8);