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encapsulations.
This fixes a bug reported by Sake during the
Sharkfest 09. Thanks for providing a
Netscreen tracefile with multiple link layer
types.
This patch will be included in Wireshark 1.2.1
and higher.
svn path=/trunk/; revision=28862
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Bugfix scheduled for 1.2.1.
svn path=/trunk/; revision=28768
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Add support to read citrix netscaler capture file format.
From me:
- Renamed packet-ns.c to packet-nstrace.c
- Rewrote to not use "goto" in netscaler.c
- Moved dissecting of coreid
svn path=/trunk/; revision=28564
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Currently Wireshark doesn't support saving
WTAP_ENCAP_BLUETOOTH_H4_WITH_PHDR files as btsnoop files.
svn path=/trunk/; revision=28442
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storing the interface specific data.
svn path=/trunk/; revision=28264
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svn path=/trunk/; revision=28252
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svn path=/trunk/; revision=27683
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#include winsock2.h pulls in about 90 distinct .h files
and about 140 total .h files.
Currently winsock2.h is (mostly unnecessarily) included
for each dissector via packet.h/wtap.h.
This patch removes #include winsock2.h from wtap.h and
then includes winsock2.h (or windows.h) in the
few specific places required.
With this patch, my Windows Wireshark build takes
about 30% less time.
svn path=/trunk/; revision=26535
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point, so we don't have issues with numbers not being exactly
representable; that makes it less likely that the change described below
will change a time stamp if it's not fixing the time stamp (i.e., if
time_day is 0).
The Sniffer manual "Expert Sniffer(R) Network Analyzer Operations,
Release 5.50" says that a frame2_rec has a time stamp with an 8-bit
time_high field and an 8-bit time_day field. Interpreting the time
stamp that way fixes the time stamps in at least some captures; see, for
example, bug 2251.
Fix/update some comments (for example, the Sniffer documentation is no
longer at that URL).
svn path=/trunk/; revision=24296
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svn path=/trunk/; revision=24295
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svn path=/trunk/; revision=24142
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svn path=/trunk/; revision=24133
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Format" - this is incomplete and buggy, be careful!
svn path=/trunk/; revision=24079
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This is a replacement of the existing decoding of ERF files (Extensible Record
Format from Endace).
For the decoding of the ERF files, according to the "type of record" given in
the ERF header, several decoders can be used. Up to now, the decoder is
determined according to an environment variable, or with a kind of heuristic.
And, all the treatment is done during the file extraction.
The new architecture, will separate the ERF file decoding, and the ERF record
decoding. The ERF records will be decoded with a specific dissector. This
dissector can be configured with options, to replace the environment variable.
http://bugs.wireshark.org/bugzilla/show_bug.cgi?id=1839
svn path=/trunk/; revision=23092
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* asn1/mpeg/packet-mpeg-pes-template.c: Improved decoding of PES
extension header and Pack header. Decode SCR, PTS, and DTS.
* asn1/mpeg/mpeg-pes.asn (Pack): Remove.
* epan/dissectors/packet-mpeg-pes.c: Regenerate.
* wiretap/mpeg.c (mpeg_read): Decode the SCR using integer
arithmetic instead of double float arithmetic to prevent rounding
error.
* wiretap/wtap-int.h (mpeg_t) <t0>: Use time_t instead of double.
svn path=/trunk/; revision=22577
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The code for reading ERF files has not been significantly
updated since 2004. This patch brings it up to date with a
number of changes.
1) Increase number of decodable ERF types from 7 to 12. This
covers newer DAG card models and firmware updates.
2) Fix timestamp conversion. Was calculating only microsecond
precision, now displaying with nanosecond resolution. Hardware
precision is 7.5 to 30 ns depending on model.
3) Allow the user to specify HDLC encapsulation as 'chdlc',
'ppp_serial', 'frelay' or 'mtp2'. This is needed because the
ERF HDLC capture formats do not include information on what
protocol is used at the next level. This is currently done via
an environment variable 'ERF_HDLC_ENCAP' and is analagous to the
existing 'ERF_ATM_ENCAP' variable.
If the user does not specify an HDLC encapsulation it tries to
guess, and falls back to MTP2 for backwards compatibility with
Florent's existing behaviour.
I know environment variables are ugly, suggestions are welcome.
4) When reading HDLC captures as MTP2, use
WTAP_ENCAP_MTP2_WITH_PHDR rather than WTAP_ENCAP_MTP2. This
allows us to put the 'Multi-Channel ERF' record 'channel
number' field into the MTP2 pseudo header > 'link_number'
field. This is then displayed in Frame information, and can
be filtered on. (Would be nice if it could be made a display
column?)
Because the ERF record does not specify whether Annex A is used
or not, we pass MTP2_ANNEX_A_USED_UNKNOWN and allow the existing
user preference to decide.
Move the MTP2_ANNEX_A_ definitions into Wiretap, make the annex_a_used
field a guint8, and change MTP2_ANNEX_A_USED_UNKNOWN to 2 so it fits in
a guint8. (This means that if you can save an ERF MTP2 file as a
libpcap file, the pseudo-header will have MTP2_ANNEX_A_USED_UNKNOWN in
it.)
svn path=/trunk/; revision=22067
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(Also: change variable name to correctly reflect usage).
svn path=/trunk/; revision=21982
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svn path=/trunk/; revision=21971
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possibly-unaligned pointers, and turn on -Wcast-align so at least some
future code that does that will fail to compile.
svn path=/trunk/; revision=21968
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variable access
svn path=/trunk/; revision=21689
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static to the module.
Add the older(?) ID tag for MPEG audio.
Just use the ID at the beginning to identify MPEG audio files; don't
check the file any further.
If the read of the magic number doesn't work, get the error, and, if
there is no error (i.e., it's a short read), just return 0 (meaning "no
error, but this isn't that type of file).
Similarly, if the magic number doesn't match, just return 0, so other
types of file are tried.
svn path=/trunk/; revision=21192
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svn path=/trunk/; revision=20213
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handle files > 2GB correct.
Please distclean Win32 builds!
svn path=/trunk/; revision=19814
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patch and new files provide support for Catapult DCT2000
.out files to wiretap and ethereal.
This wiretap support (catapult_dct2000.c+h) appends a short header to
each packet giving some context, and a corresponding ethereal dissector
(packet-catapult-dct2000.c) parses this before passing the real payload
onto an existing ethereal dissector (for ethernet, ip, lapd, ppp,
frame-relay,...).
For now, there is only support for saving dct2000 files in their own
format, although I may add support for converting between dct2000 and
libpcap later.
updated version of these files and patch, now with support
for MTP2. Olivier's trace used the ANSI variant - the MTP2 and MTP3
decode fine with the right preferences set (although the ISUP dissector
reports a reserved/retired message type).
Witha a change to NOT to declare gboolean catapult_dct2000_board_ports_only;
as extern as MSVC choked on it.
svn path=/trunk/; revision=17862
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Add Support for reading of IBM iSeries (AS/400) Comms traces
svn path=/trunk/; revision=16588
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status field bits".
Check for "Internetwork analyzer" captures by checking the Sniffer
network type, and save that type rather than just an "ATM or not" flag
in the private data.
svn path=/trunk/; revision=16283
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has a checkbox "Compress with gzip"
currently limited to Ethereal and all the variants of libpcap filetypes only.
We might want to add output compression support to the other tools as well (tethereal, mergecap, ...).
We might also want to add support for the other filetypes, but this is only possible if the filetype functions doesn't use special output operations like fseek.
One bug is still left: if the input and output filetypes while saving are the same, Ethereal currently optimizes this by simply copy the binary file instead of using wiretap (so it will be faster but it will ignore the compress setting).
Don't know a good workaround for this, as I don't know a way to find out if the input file is currently compressed or not. One idea might be to use a heuristic on the filesize (compared to the packet size summmary). Another workaround I see is to remove this optimization, which is of course not the way I like to do it ...
svn path=/trunk/; revision=15804
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define "timezone" as "gint16", as it can be positive (west of
UTC) or negative (east of UTC);
update comments to refer to the new names for structure members;
say the precision of the time stamps is 1 nanosecond only if the
ticks per second is > 10 million;
fix the handling of files truncated exactly on a frame boundary.
svn path=/trunk/; revision=15739
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resolution (currently supported by Ethereal only). Support for both read and write was added.
The file format stays the same as the common libpcap format, only the lower part of the timestamp field uses nanoseconds instead of microseconds.
This file format uses the libpcap magic number 0xa1b23c4d.
svn path=/trunk/; revision=15623
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G_HAVE_GINT64.
Get rid of the floating-point stuff in the Etherpeek Classic file
reading code, just use 64-bit integers. Fix up the calculation of the
nanoseconds portion of the time stamp.
svn path=/trunk/; revision=15544
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- automatic adjustment depending on file format
- manual adjustment through menu items
save the setting in the recent file
svn path=/trunk/; revision=15534
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I've done more than a day to change the timestamp resolution from microseconds to nanoseconds. As I really don't want to loose those changes, I'm going to check in the changes I've done so far. Hopefully someone else will give me a helping hand with the things left ...
What's done: I've changed the timestamp resolution from usec to nsec in almost any place in the sources. I've changed parts of the implementation in nstime.s/.h and a lot of places elsewhere.
As I don't understand the editcap source (well, I'm maybe just too tired right now), hopefully someone else might be able to fix this soon.
Doing all those changes, we get native nanosecond timestamp resolution in Ethereal. After fixing all the remaining issues, I'll take a look how to display this in a convenient way...
As I've also changed the wiretap timestamp resolution from usec to nsec we might want to change the wiretap version number...
svn path=/trunk/; revision=15520
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these, ethereal does)
- change k12.atm.vci and k12.atm.vpi into atm.vci and atm.vpi
svn path=/trunk/; revision=14682
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There is still much to do, but at the very least it can import files allowing the user to choose which protocols handle the diferent sources.
svn path=/trunk/; revision=14606
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they have LF at the end of the line on UN*X and CR/LF on Windows;
hopefully this means that if a CR/LF version is checked in on Windows,
the CRs will be stripped so that they show up only when checked out on
Windows, not on UN*X.
svn path=/trunk/; revision=11400
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FCS at the end appears to depend on the network subtype value.
svn path=/trunk/; revision=10001
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addition to an error code, an error info string, for
WTAP_ERR_UNSUPPORTED, WTAP_ERR_UNSUPPORTED_ENCAP, and
WTAP_ERR_BAD_RECORD errors. Replace the error messages logged with
"g_message()" for those errors with g_strdup()ed or g_strdup_printf()ed
strings returned as the error info string, and change the callers of
those routines to, for those errors, put the info string into the
printed message or alert box for the error.
Add messages for cases where those errors were returned without printing
an additional message.
Nobody uses the error code from "cf_read()" - "cf_read()" puts up the
alert box itself for failures; get rid of the error code, so it just
returns a success/failure indication.
Rename "file_read_error_message()" to "cf_read_error_message()", as it
handles read errors from Wiretap, and have it take an error info string
as an argument. (That handles a lot of the work of putting the info
string into the error message.)
Make some variables in "ascend-grammar.y" static.
Check the return value of "erf_read_header()" in "erf_seek_read()".
Get rid of an unused #define in "i4btrace.c".
svn path=/trunk/; revision=9852
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svn path=/trunk/; revision=9558
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files.
svn path=/trunk/; revision=8900
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swap the "captured length" and "length" fields, to the open-file code;
store a tri-state (definitely swapped, definitely not swapped, maybe
swapped) value in the per-capture-file-format information for libpcap
format, and use that when processing packets.
svn path=/trunk/; revision=8774
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0 means "there is no FCS in the packet data", 4 means "there is an FCS
in the packet data", -1 means "I don't know whether there's an FCS in
the packet data, guess based on the packet size".
Assume that Ethernet encapsulated inside other protocols has no FCS, by
having the "eth" dissector assume that (and not check for an Ethernet
pseudo-header).
Have "ethertype()" take an argument giving the FCS size; pass 0 when
appropriate.
Fix up Wiretap routines to set the pseudo-header. This means we no
longer use the "generic" seek-and-read routine, so get rid of it.
svn path=/trunk/; revision=8574
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svn path=/trunk/; revision=8272
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svn path=/trunk/; revision=8097
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svn path=/trunk/; revision=8096
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agents.
svn path=/trunk/; revision=8093
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record might indicate an ISDN capture; treat that as an indication that
a capture is an ISDN capture.
svn path=/trunk/; revision=6893
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have a bogus record length for type 4 records, but earlier 4.x versions,
and 5.x versions, don't.
svn path=/trunk/; revision=6880
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number.
Put in some commented-out code to deal with some end-of-packet crud in
some ISDN captures - not all ISDN captures have it, so we can't
unconditionally slice it out.
svn path=/trunk/; revision=6867
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pointers, so cast them to "const guint8 *".
svn path=/trunk/; revision=6678
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bunch of those captures.
svn path=/trunk/; revision=6536
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