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wireshark/pcapio.c

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/* pcapio.c
* Our own private code for writing libpcap files when capturing.
*
* We have these because we want a way to open a stream for output given
* only a file descriptor. libpcap 0.9[.x] has "pcap_dump_fopen()", which
* provides that, but
*
* 1) earlier versions of libpcap doesn't have it
*
* and
*
* 2) WinPcap doesn't have it, because a file descriptor opened
* by code built for one version of the MSVC++ C library
* can't be used by library routines built for another version
* (e.g., threaded vs. unthreaded).
*
* Libpcap's pcap_dump() also doesn't return any error indications.
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
*
* Derived from code in the Wiretap Library
* Copyright (c) 1998 by Gilbert Ramirez <gram@alumni.rice.edu>
*
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <config.h>
#include <stdlib.h>
#include <stdio.h>
#include <errno.h>
#include <string.h>
#ifdef HAVE_SYS_TIME_H
#include <sys/time.h>
#endif
#ifdef _WIN32
#include <Windows.h>
#endif
#include <glib.h>
#include "pcapio.h"
/* Magic numbers in "libpcap" files.
"libpcap" file records are written in the byte order of the host that
writes them, and the reader is expected to fix this up.
PCAP_MAGIC is the magic number, in host byte order; PCAP_SWAPPED_MAGIC
is a byte-swapped version of that.
PCAP_NSEC_MAGIC is for Ulf Lamping's modified "libpcap" format,
which uses the same common file format as PCAP_MAGIC, but the
timestamps are saved in nanosecond resolution instead of microseconds.
PCAP_SWAPPED_NSEC_MAGIC is a byte-swapped version of that. */
#define PCAP_MAGIC 0xa1b2c3d4
#define PCAP_SWAPPED_MAGIC 0xd4c3b2a1
#define PCAP_NSEC_MAGIC 0xa1b23c4d
#define PCAP_SWAPPED_NSEC_MAGIC 0x4d3cb2a1
/* "libpcap" file header. */
struct pcap_hdr {
guint32 magic; /* magic number */
guint16 version_major; /* major version number */
guint16 version_minor; /* minor version number */
gint32 thiszone; /* GMT to local correction */
guint32 sigfigs; /* accuracy of timestamps */
guint32 snaplen; /* max length of captured packets, in octets */
guint32 network; /* data link type */
};
/* "libpcap" record header. */
struct pcaprec_hdr {
guint32 ts_sec; /* timestamp seconds */
guint32 ts_usec; /* timestamp microseconds (nsecs for PCAP_NSEC_MAGIC) */
guint32 incl_len; /* number of octets of packet saved in file */
guint32 orig_len; /* actual length of packet */
};
/* Magic numbers in ".pcapng" files.
*
* .pcapng file records are written in the byte order of the host that
* writes them, and the reader is expected to fix this up.
* PCAPNG_MAGIC is the magic number, in host byte order;
* PCAPNG_SWAPPED_MAGIC is a byte-swapped version of that.
*/
#define PCAPNG_MAGIC 0x1A2B3C4D
#define PCAPNG_SWAPPED_MAGIC 0xD4C3B2A1
/* Currently we are only supporting the initial version of
the file format. */
#define PCAPNG_MAJOR_VERSION 1
#define PCAPNG_MINOR_VERSION 0
/* Section Header Block without options and trailing Block Total Length */
struct shb {
guint32 block_type;
guint32 block_total_length;
guint32 byte_order_magic;
guint16 major_version;
guint16 minor_version;
guint64 section_length;
};
#define SECTION_HEADER_BLOCK_TYPE 0x0A0D0D0A
/* Interface Decription Block without options and trailing Block Total Length */
struct idb {
guint32 block_type;
guint32 block_total_length;
guint16 link_type;
guint16 reserved;
guint32 snap_len;
};
#define INTERFACE_DESCRIPTION_BLOCK_TYPE 0x00000001
/* Interface Statistics Block without actual packet, options, and trailing
Block Total Length */
struct isb {
guint32 block_type;
guint32 block_total_length;
guint32 interface_id;
guint32 timestamp_high;
guint32 timestamp_low;
};
#define INTERFACE_STATISTICS_BLOCK_TYPE 0x00000005
/* Enhanced Packet Block without actual packet, options, and trailing
Block Total Length */
struct epb {
guint32 block_type;
guint32 block_total_length;
guint32 interface_id;
guint32 timestamp_high;
guint32 timestamp_low;
guint32 captured_len;
guint32 packet_len;
};
#define ENHANCED_PACKET_BLOCK_TYPE 0x00000006
struct option {
guint16 type;
guint16 value_length;
};
#define OPT_ENDOFOPT 0
#define OPT_COMMENT 1
#define EPB_FLAGS 2
#define SHB_HARDWARE 2 /* currently not used */
#define SHB_OS 3
#define SHB_USERAPPL 4
#define IDB_NAME 2
#define IDB_DESCRIPTION 3
#define IDB_IF_SPEED 8
#define IDB_TSRESOL 9
#define IDB_FILTER 11
#define IDB_OS 12
#define ISB_STARTTIME 2
#define ISB_ENDTIME 3
#define ISB_IFRECV 4
#define ISB_IFDROP 5
#define ISB_FILTERACCEPT 6
#define ISB_OSDROP 7
#define ISB_USRDELIV 8
#define ADD_PADDING(x) ((((x) + 3) >> 2) << 2)
/* Write to capture file */
static gboolean
write_to_file(FILE* pfile, const guint8* data, size_t data_length,
guint64 *bytes_written, int *err)
{
size_t nwritten;
nwritten = fwrite(data, data_length, 1, pfile);
if (nwritten != 1) {
if (ferror(pfile)) {
*err = errno;
} else {
*err = 0;
}
return FALSE;
}
(*bytes_written) += data_length;
return TRUE;
}
/* Writing pcap files */
/* Write the file header to a dump file.
Returns TRUE on success, FALSE on failure.
Sets "*err" to an error code, or 0 for a short write, on failure*/
gboolean
libpcap_write_file_header(FILE* pfile, int linktype, int snaplen, gboolean ts_nsecs, guint64 *bytes_written, int *err)
{
struct pcap_hdr file_hdr;
file_hdr.magic = ts_nsecs ? PCAP_NSEC_MAGIC : PCAP_MAGIC;
/* current "libpcap" format is 2.4 */
file_hdr.version_major = 2;
file_hdr.version_minor = 4;
file_hdr.thiszone = 0; /* XXX - current offset? */
file_hdr.sigfigs = 0; /* unknown, but also apparently unused */
file_hdr.snaplen = snaplen;
file_hdr.network = linktype;
return write_to_file(pfile, (const guint8*)&file_hdr, sizeof(file_hdr), bytes_written, err);
}
/* Write a record for a packet to a dump file.
Returns TRUE on success, FALSE on failure. */
gboolean
libpcap_write_packet(FILE* pfile,
time_t sec, guint32 usec,
guint32 caplen, guint32 len,
const guint8 *pd,
guint64 *bytes_written, int *err)
{
struct pcaprec_hdr rec_hdr;
rec_hdr.ts_sec = (guint32)sec; /* Y2.038K issue in pcap format.... */
rec_hdr.ts_usec = usec;
rec_hdr.incl_len = caplen;
rec_hdr.orig_len = len;
if (!write_to_file(pfile, (const guint8*)&rec_hdr, sizeof(rec_hdr), bytes_written, err))
return FALSE;
return write_to_file(pfile, pd, caplen, bytes_written, err);
}
/* Writing pcap-ng files */
static guint32
pcapng_count_string_option(const char *option_value)
{
if ((option_value != NULL) && (strlen(option_value) > 0) && (strlen(option_value) < G_MAXUINT16)) {
/* There's a value to write; get its length */
return (guint32)(sizeof(struct option) +
(guint16)ADD_PADDING(strlen(option_value)));
}
return 0; /* nothing to write */
}
static gboolean
pcapng_write_string_option(FILE* pfile,
guint16 option_type, const char *option_value,
guint64 *bytes_written, int *err)
{
size_t option_value_length;
struct option option;
const guint32 padding = 0;
if (option_value == NULL)
return TRUE; /* nothing to write */
option_value_length = strlen(option_value);
if ((option_value_length > 0) && (option_value_length < G_MAXUINT16)) {
/* something to write */
option.type = option_type;
option.value_length = (guint16)option_value_length;
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)option_value, (int) option_value_length, bytes_written, err))
return FALSE;
if (option_value_length % 4) {
if (!write_to_file(pfile, (const guint8*)&padding, 4 - option_value_length % 4, bytes_written, err))
return FALSE;
}
}
return TRUE;
}
gboolean
pcapng_write_session_header_block(FILE* pfile,
const char *comment,
const char *hw,
const char *os,
const char *appname,
guint64 section_length,
guint64 *bytes_written,
int *err)
{
struct shb shb;
struct option option;
guint32 block_total_length;
guint32 options_length;
/* Size of base header */
block_total_length = sizeof(struct shb) +
sizeof(guint32);
options_length = 0;
options_length += pcapng_count_string_option(comment);
options_length += pcapng_count_string_option(hw);
options_length += pcapng_count_string_option(os);
options_length += pcapng_count_string_option(appname);
/* If we have options add size of end-of-options */
if (options_length != 0) {
options_length += (guint32)sizeof(struct option);
}
block_total_length += options_length;
/* write shb header */
shb.block_type = SECTION_HEADER_BLOCK_TYPE;
shb.block_total_length = block_total_length;
shb.byte_order_magic = PCAPNG_MAGIC;
shb.major_version = PCAPNG_MAJOR_VERSION;
shb.minor_version = PCAPNG_MINOR_VERSION;
shb.section_length = section_length;
if (!write_to_file(pfile, (const guint8*)&shb, sizeof(struct shb), bytes_written, err))
return FALSE;
if (!pcapng_write_string_option(pfile, OPT_COMMENT, comment,
bytes_written, err))
return FALSE;
if (!pcapng_write_string_option(pfile, SHB_HARDWARE, hw,
bytes_written, err))
return FALSE;
if (!pcapng_write_string_option(pfile, SHB_OS, os,
bytes_written, err))
return FALSE;
if (!pcapng_write_string_option(pfile, SHB_USERAPPL, appname,
bytes_written, err))
return FALSE;
if (options_length != 0) {
/* write end of options */
option.type = OPT_ENDOFOPT;
option.value_length = 0;
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
}
/* write the trailing block total length */
return write_to_file(pfile, (const guint8*)&block_total_length, sizeof(guint32), bytes_written, err);
}
gboolean
pcapng_write_interface_description_block(FILE* pfile,
const char *comment, /* OPT_COMMENT 1 */
const char *name, /* IDB_NAME 2 */
const char *descr, /* IDB_DESCRIPTION 3 */
const char *filter, /* IDB_FILTER 11 */
const char *os, /* IDB_OS 12 */
int link_type,
int snap_len,
guint64 *bytes_written,
guint64 if_speed, /* IDB_IF_SPEED 8 */
guint8 tsresol, /* IDB_TSRESOL 9 */
int *err)
{
struct idb idb;
struct option option;
guint32 block_total_length;
guint32 options_length;
const guint32 padding = 0;
block_total_length = (guint32)(sizeof(struct idb) + sizeof(guint32));
options_length = 0;
/* 01 - OPT_COMMENT */
options_length += pcapng_count_string_option(comment);
/* 02 - IDB_NAME */
options_length += pcapng_count_string_option(name);
/* 03 - IDB_DESCRIPTION */
options_length += pcapng_count_string_option(descr);
/* 08 - IDB_IF_SPEED */
if (if_speed != 0) {
options_length += (guint32)(sizeof(struct option) +
sizeof(guint64));
}
/* 09 - IDB_TSRESOL */
if (tsresol != 0) {
options_length += (guint32)(sizeof(struct option) +
sizeof(struct option));
}
/* 11 - IDB_FILTER */
if ((filter != NULL) && (strlen(filter) > 0) && (strlen(filter) < G_MAXUINT16)) {
/* No, this isn't a string, it has an extra type byte */
options_length += (guint32)(sizeof(struct option) +
(guint16)(ADD_PADDING(strlen(filter)+ 1)));
}
/* 12 - IDB_OS */
options_length += pcapng_count_string_option(os);
/* If we have options add size of end-of-options */
if (options_length != 0) {
options_length += (guint32)sizeof(struct option);
}
block_total_length += options_length;
/* write block header */
idb.block_type = INTERFACE_DESCRIPTION_BLOCK_TYPE;
idb.block_total_length = block_total_length;
idb.link_type = link_type;
idb.reserved = 0;
idb.snap_len = snap_len;
if (!write_to_file(pfile, (const guint8*)&idb, sizeof(struct idb), bytes_written, err))
return FALSE;
/* 01 - OPT_COMMENT - write comment string if applicable */
if (!pcapng_write_string_option(pfile, OPT_COMMENT, comment,
bytes_written, err))
return FALSE;
/* 02 - IDB_NAME - write interface name string if applicable */
if (!pcapng_write_string_option(pfile, IDB_NAME, name,
bytes_written, err))
return FALSE;
/* 03 - IDB_DESCRIPTION */
/* write interface description string if applicable */
if (!pcapng_write_string_option(pfile, IDB_DESCRIPTION, descr,
bytes_written, err))
return FALSE;
/* 08 - IDB_IF_SPEED */
if (if_speed != 0) {
option.type = IDB_IF_SPEED;
option.value_length = sizeof(guint64);
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)&if_speed, sizeof(guint64), bytes_written, err))
return FALSE;
}
/* 09 - IDB_TSRESOL */
if (tsresol != 0) {
option.type = IDB_TSRESOL;
option.value_length = sizeof(guint8);
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)&tsresol, sizeof(guint8), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)&padding, 3, bytes_written, err))
return FALSE;
}
/* 11 - IDB_FILTER - write filter string if applicable
* We only write version 1 of the filter, pcapng string
*/
if ((filter != NULL) && (strlen(filter) > 0) && (strlen(filter) < G_MAXUINT16 - 1)) {
option.type = IDB_FILTER;
option.value_length = (guint16)(strlen(filter) + 1 );
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
/* The first byte of the Option Data keeps a code of the filter used, 0 = lipbpcap filter string */
if (!write_to_file(pfile, (const guint8*)&padding, 1, bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)filter, (int) strlen(filter), bytes_written, err))
return FALSE;
if ((strlen(filter) + 1) % 4) {
if (!write_to_file(pfile, (const guint8*)&padding, 4 - (strlen(filter) + 1) % 4, bytes_written, err))
return FALSE;
}
}
/* 12 - IDB_OS - write os string if applicable */
if (!pcapng_write_string_option(pfile, IDB_OS, os,
bytes_written, err))
return FALSE;
if (options_length != 0) {
/* write end of options */
option.type = OPT_ENDOFOPT;
option.value_length = 0;
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
}
/* write the trailing Block Total Length */
return write_to_file(pfile, (const guint8*)&block_total_length, sizeof(guint32), bytes_written, err);
}
/* Write a record for a packet to a dump file.
Returns TRUE on success, FALSE on failure. */
gboolean
pcapng_write_enhanced_packet_block(FILE* pfile,
const char *comment,
time_t sec, guint32 usec,
guint32 caplen, guint32 len,
guint32 interface_id,
guint ts_mul,
const guint8 *pd,
guint32 flags,
guint64 *bytes_written,
int *err)
{
struct epb epb;
struct option option;
guint32 block_total_length;
guint64 timestamp;
guint32 options_length;
const guint32 padding = 0;
block_total_length = (guint32)(sizeof(struct epb) +
ADD_PADDING(caplen) +
sizeof(guint32));
options_length = 0;
options_length += pcapng_count_string_option(comment);
if (flags != 0) {
options_length += (guint32)(sizeof(struct option) +
sizeof(guint32));
}
/* If we have options add size of end-of-options */
if (options_length != 0) {
options_length += (guint32)sizeof(struct option);
}
block_total_length += options_length;
timestamp = (guint64)sec * ts_mul + (guint64)usec;
epb.block_type = ENHANCED_PACKET_BLOCK_TYPE;
epb.block_total_length = block_total_length;
epb.interface_id = interface_id;
epb.timestamp_high = (guint32)((timestamp>>32) & 0xffffffff);
epb.timestamp_low = (guint32)(timestamp & 0xffffffff);
epb.captured_len = caplen;
epb.packet_len = len;
if (!write_to_file(pfile, (const guint8*)&epb, sizeof(struct epb), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, pd, caplen, bytes_written, err))
return FALSE;
if (caplen % 4) {
if (!write_to_file(pfile, (const guint8*)&padding, 4 - caplen % 4, bytes_written, err))
return FALSE;
}
if (!pcapng_write_string_option(pfile, OPT_COMMENT, comment,
bytes_written, err))
return FALSE;
if (flags != 0) {
option.type = EPB_FLAGS;
option.value_length = sizeof(guint32);
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)&flags, sizeof(guint32), bytes_written, err))
return FALSE;
}
if (options_length != 0) {
/* write end of options */
option.type = OPT_ENDOFOPT;
option.value_length = 0;
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
}
return write_to_file(pfile, (const guint8*)&block_total_length, sizeof(guint32), bytes_written, err);
}
gboolean
pcapng_write_interface_statistics_block(FILE* pfile,
guint32 interface_id,
guint64 *bytes_written,
const char *comment, /* OPT_COMMENT 1 */
guint64 isb_starttime, /* ISB_STARTTIME 2 */
guint64 isb_endtime, /* ISB_ENDTIME 3 */
guint64 isb_ifrecv, /* ISB_IFRECV 4 */
guint64 isb_ifdrop, /* ISB_IFDROP 5 */
int *err)
{
struct isb isb;
#ifdef _WIN32
FILETIME now;
#else
struct timeval now;
#endif
struct option option;
guint32 block_total_length;
guint32 options_length;
guint64 timestamp;
#ifdef _WIN32
/*
* Current time, represented as 100-nanosecond intervals since
* January 1, 1601, 00:00:00 UTC.
*
* I think DWORD might be signed, so cast both parts of "now"
* to guint32 so that the sign bit doesn't get treated specially.
*
* Windows 8 provides GetSystemTimePreciseAsFileTime which we
* might want to use instead.
*/
GetSystemTimeAsFileTime(&now);
timestamp = (((guint64)(guint32)now.dwHighDateTime) << 32) +
(guint32)now.dwLowDateTime;
/*
* Convert to same thing but as 1-microsecond, i.e. 1000-nanosecond,
* intervals.
*/
timestamp /= 10;
/*
* Subtract difference, in microseconds, between January 1, 1601
* 00:00:00 UTC and January 1, 1970, 00:00:00 UTC.
*/
timestamp -= G_GUINT64_CONSTANT(11644473600000000);
#else
/*
* Current time, represented as seconds and microseconds since
* January 1, 1970, 00:00:00 UTC.
*/
gettimeofday(&now, NULL);
/*
* Convert to delta in microseconds.
*/
timestamp = (guint64)(now.tv_sec) * 1000000 +
(guint64)(now.tv_usec);
#endif
block_total_length = (guint32)(sizeof(struct isb) + sizeof(guint32));
options_length = 0;
if (isb_ifrecv != G_MAXUINT64) {
options_length += (guint32)(sizeof(struct option) +
sizeof(guint64));
}
if (isb_ifdrop != G_MAXUINT64) {
options_length += (guint32)(sizeof(struct option) +
sizeof(guint64));
}
/* OPT_COMMENT */
options_length += pcapng_count_string_option(comment);
if (isb_starttime !=0) {
options_length += (guint32)(sizeof(struct option) +
sizeof(guint64)); /* ISB_STARTTIME */
}
if (isb_endtime !=0) {
options_length += (guint32)(sizeof(struct option) +
sizeof(guint64)); /* ISB_ENDTIME */
}
/* If we have options add size of end-of-options */
if (options_length != 0) {
options_length += (guint32)sizeof(struct option);
}
block_total_length += options_length;
isb.block_type = INTERFACE_STATISTICS_BLOCK_TYPE;
isb.block_total_length = block_total_length;
isb.interface_id = interface_id;
isb.timestamp_high = (guint32)((timestamp>>32) & 0xffffffff);
isb.timestamp_low = (guint32)(timestamp & 0xffffffff);
if (!write_to_file(pfile, (const guint8*)&isb, sizeof(struct isb), bytes_written, err))
return FALSE;
/* write comment string if applicable */
if (!pcapng_write_string_option(pfile, OPT_COMMENT, comment,
bytes_written, err))
return FALSE;
if (isb_starttime !=0) {
guint32 high, low;
option.type = ISB_STARTTIME;
option.value_length = sizeof(guint64);
high = (guint32)((isb_starttime>>32) & 0xffffffff);
low = (guint32)(isb_starttime & 0xffffffff);
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)&high, sizeof(guint32), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)&low, sizeof(guint32), bytes_written, err))
return FALSE;
}
if (isb_endtime !=0) {
guint32 high, low;
option.type = ISB_ENDTIME;
option.value_length = sizeof(guint64);
high = (guint32)((isb_endtime>>32) & 0xffffffff);
low = (guint32)(isb_endtime & 0xffffffff);
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)&high, sizeof(guint32), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)&low, sizeof(guint32), bytes_written, err))
return FALSE;
}
if (isb_ifrecv != G_MAXUINT64) {
option.type = ISB_IFRECV;
option.value_length = sizeof(guint64);
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)&isb_ifrecv, sizeof(guint64), bytes_written, err))
return FALSE;
}
if (isb_ifdrop != G_MAXUINT64) {
option.type = ISB_IFDROP;
option.value_length = sizeof(guint64);
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
if (!write_to_file(pfile, (const guint8*)&isb_ifdrop, sizeof(guint64), bytes_written, err))
return FALSE;
}
if (options_length != 0) {
/* write end of options */
option.type = OPT_ENDOFOPT;
option.value_length = 0;
if (!write_to_file(pfile, (const guint8*)&option, sizeof(struct option), bytes_written, err))
return FALSE;
}
return write_to_file(pfile, (const guint8*)&block_total_length, sizeof(guint32), bytes_written, err);
}
/*
* Editor modelines - http://www.wireshark.org/tools/modelines.html
*
* Local variables:
* c-basic-offset: 8
* tab-width: 8
* indent-tabs-mode: nil
* End:
*
* vi: set shiftwidth=8 tabstop=8 expandtab:
* :indentSize=8:tabSize=8:noTabs=true:
*/
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