just an image of the ATM Sniffer data. This means that Ethereal doesn't
have to know any ATM Sniffer-specific details (that's all hidden in
Wiretap), and allows us to add to that pseudo-header fields, traffic
types, etc. unknown to ATM Sniffers.
Have Wiretap map VPI 0/VCI 5 to the signalling AAL - for some capture
files, this might not be necessary, as they may mark all signalling
traffic as such, but, on other platforms, we don't know the AAL, so we
assume AAL5 except for 0/5 traffic. Doing it in Wiretap lets us hide
those details from Ethereal (and lets Ethereal interpret 0/5 traffic as
non-signalling traffic, in case that happens to be what it is).
We may know that traffic is LANE, but not whether it's LE Control or
emulated 802.3/802.5; handle that case.
svn path=/trunk/; revision=5302
an "err" argument that points to an "int" into which to put an error
code if it fails.
Check for errors in one call to it, and note that we should do so in
other places.
In the "wtap_seek_read()" call in the TCP graphing code, don't overwrite
"cfile.pseudo_header", and make the buffer into which we read the data
WTAP_MAX_PACKET_SIZE bytes, as it should be.
In some of the file readers for text files, check for errors from the
"parse the record header" and "parse the hex dump" routines when reading
sequentially.
In "csids_seek_read()", fix some calls to "file_error()" to check the
error on the random stream (that being what we're reading).
svn path=/trunk/; revision=4874
For file types where we allocate private data, add "close" routines
where they were missing, to free the private data. Also fix up the code
to clean up after some errors by freeing private data where that wasn't
being done.
Get rid of unused arguments to "wtap_dump_open_finish()".
Fix indentation.
svn path=/trunk/; revision=4857
non-existent functions.
Remove the "filetype" argument from the "can_write_encap" functions for
particular capture file types - the argument value is implicit, in that
the routine being called is the routine for that particular file type.
svn path=/trunk/; revision=4823
reading the capture file. Have callers of "wtap_snapshot_length()"
treat a value of 0 as "unknown", and default to WTAP_MAX_PACKET_SIZE (so
that, when writing a capture file in a format that *does* store the
snapshot length, we can at least put *something* in the file).
If we don't know the snapshot length of the current capture file, don't
display a value in the summary window.
Don't use "cfile.snap" as the snapshot length option when capturing -
doing so causes Ethereal to default, when capturing, to the snapshot
length of the last capture file that you read in, rather than to the
snapshot length of the last capture you did (or the initial default of
"no snapshot length").
Redo the "Capture Options" dialog box to group options into sections
with frames around them, and add units to the snapshot length, maximum
file size, and capture duration options, as per a suggestion by Ulf
Lamping. Also add units to the capture count option.
Make the snapshot length, capture count, maximum file size, and capture
duration options into a combination of a check box and a spin button.
If the check box is not checked, the limit in question is inactive
(snapshot length of 65535, no max packet count, no max file size, no max
capture duration); if it's checked, the spinbox specifies the limit.
Default all of the check boxes to "not checked" and all of the spin
boxes to small values.
Use "gtk_toggle_button_get_active()" rather than directly fetching the
state of a check box.
svn path=/trunk/; revision=4709
NetMon 2.0; I don't have any ATM captures *from* NetMon to try it on, so
I don't know what significance the "destination address" and "source
address" fields have, but we can at least read the captures we ourselves
write out, as can NetMon).
svn path=/trunk/; revision=4606
trying to read the frame table, return -1 with "*err" set to
WTAP_ERR_SHORT_READ, don't return 0 - we've already decided that the
file is a NetMon file, so we shouldn't return a "this isn't a NetMon
file" indication, we should return a "this file is too short" error, as
that's what the problem is.
Fix up the error messages for WTAP_ERR_SHORT_READ to indicate that the
read might have gotten cut short in the middle of data other than a
packet.
svn path=/trunk/; revision=4331
which we store it a "size_t", and then fix up the bugs that were
revealed by the compiler warnings that produced - "fwrite()" returns 0,
not a negative number, on an I/O error.
Fix up some other items to have type "size_t", or to have various
unsigned types, while we're at it, to squelch compiler warnings.
svn path=/trunk/; revision=3867
* gcc 3.0 warning fixes:
- text2pcap.c: The number of characters to scan should probably not be 0
- wiretap/csids.c: using preincrement on a variable used on both
sides of an assignment might be undefined by the C99(?) standard
* turn on additional warnings for epan and wiretap too
- epan/configure.in
- wiretap/configure.in
* Fix some warnings (missing includes, signed/unsigned, missing
initializers) found by turning on the warnings
- all other files :-)
svn path=/trunk/; revision=3709
beginning of the file before reading anything from the file is bogus -
do that in the loop that tries each of the open routines, instead.
(They may have to reset the seek pointer later if, for example, the
capture file begins with the first packet, and the "open()" routine
looks at that packet to try to guess whether the packet is in the file
format in question.)
Set "wth->data_offset" to 0 while you're at it, so capture file readers
don't have to do that, either.
svn path=/trunk/; revision=3123
(We really need to put in some rudimentary 64-bit integer support, for
the benefit of platforms+compilers that don't support it; the
floating-point calculations we're doing now appear not to get exactly
the right answer, from an experiment at reading a NetMon 2.x file and
writing it back out as NetMon 2.x with editcap.)
svn path=/trunk/; revision=2939
just an EOF, it should set "*err" to 0. Fix up a bunch of read routines
for various capture file types to set "*err" appropriately.
svn path=/trunk/; revision=2667
pseudo_header.
Use generic "p2p_phdr" instead of "lapd_phdr". Modify toshiba.c and
packet-lapd.c to take that into account.
Add frame.p2p_dir, a filterable field, 0=sent, 1=recvd
Make p2p_dir available in packe_info, as I think it will be needed
in VJ COMP and UNCOMP dissection.
Rename WTAP_ENCAP_TR to WTAP_ENCAP_TOKEN_RING.
Mention pppd-log support in man page.
Mention atmsnoop in README.
svn path=/trunk/; revision=2455
a "keep reading" boolean value is returned from the function.
This avoids having to hack around the fact that some file formats truly
do have records that start at offset 0. (i4btrace and csids have no
file header. Neither does the pppdump-style file that I'm looking at right now).
svn path=/trunk/; revision=2392
to that file, leave public definitions in wtap.h.
Rename "union pseudo_header" to "union wtap_pseudo_header".
Make the wtap_pseudo_header pointer available in packet_info struct.
svn path=/trunk/; revision=1989
there's no need to keep it around in memory - when the frame data is
read in when handing a frame, read in the information, if any, necessary
to reconstruct the frame header, and reconstruct it. This saves some
memory.
This requires that the seek-and-read function be implemented inside
Wiretap, and that the Wiretap handle remain open even after we've
finished reading the file sequentially.
This also points out that we can't really do X.25-over-Ethernet
correctly, as we don't know where the direction (DTE->DCE or DCE->DTE)
flag is stored; it's not clear how the Ethernet type 0x0805 for X.25
Layer 3 is supposed to be handled in any case. We eliminate
X.25-over-Ethernet support (until we find out what we're supposed to
do).
svn path=/trunk/; revision=1975
Free it as soon as we're at the end of the sequential pass through the
file; that way, if we keep the capture file open with Wiretap even after
that's done (as I may do as part of some stuff I'm working on), we
at least aren't hanging on to the frame table memory after that point.
svn path=/trunk/; revision=1741
from the frame table - Network Monitor 2.x, at least, doesn't always
write frame N+1 right after frame N.
To do that, we need to mallocate a big array to hold the frame table,
and free it when we close the capture file; this requires that we have
capture-file-type-specific close routines as well as
capture-file-type-specific read routines - we let it the pointer to that
routine be null if it's not needed. Given that, we might as well get
rid of the switch statement in "wtap_close()", in favor of using
capture-file-type-specific close routines, as per the comment before
that switch statement.
svn path=/trunk/; revision=1740
capture file for an unsupported link-layer encapsulation type (as the
nettl reader does), and report it correctly if it occurs on an open or
read attempt rather than a save attempt.
svn path=/trunk/; revision=1647
hideous problem on FreeBSD 3.[23] (and perhaps other BSDs) if
HAVE_UNISTD_H is defined before "zlib.h" is included, turn "file_seek()"
into a subroutine defined in a file that *undefines* HAVE_UNISTD_H
before including "zlib.h", so that the *only* call to "gzseek()" is made
from a file that does not have HAVE_UNISTD_H defined when it includes
"zlib.h".
Move "file_error()" to that file while you're at it, so it holds all the
wrappers that hide the presence or absence of zlib from routines to read
capture files.
Turn "file.h", which declared those wrapper functions as well as wrapper
macros, into "file_wrapper.h" - it belongs with the "file_wrapper.c"
file that defines the wrapper functions, not with "file.c" which handles
higher-layer file access functions.
Remove the comment in "configure.in" that explained why defining
HAVE_UNISTD_H was a bad idea, as we're not obliged to define it and work
around the problem. (The comment in "file_wrapper.c" explains the
workaround.)
svn path=/trunk/; revision=1463
the capture; set it to that when writing the capture.
Support Token Ring and FDDI captures (as per the network type in the
file header appearing to be either the NDIS network type, or the NDIS
network type minus 1 - I forget whether Ethernet has an NDIS type of 0
or 1).
Don't write the file header twice, keeping a static copy of it around,
as Wiretap code isn't supposed to keep any static data around; instead,
write it only when we're done writing out all the records (as we do on
Network Monitor captures).
Compute the time stamps when writing the file.
Give Windows Sniffer 1.1-format a short name, so "editcap" doesn't dump
core or print "(null)" in its usage message.
WTAP_ENCAP_NULL isn't supported by NetMon; don't write it.
svn path=/trunk/; revision=1336
of all the file types in which a file can be saved.
Giving each dumpable file type a routine that checks whether a file of a
given file type and encapsulation can be written lets us hoist some
checks into common code from out of the open routines.
If the "dump close" routine for a dump stream is NULL, have that mean
that there's no action that needs to be taken on a close by the code to
handle that file type; some file types don't need that, as they can be
written purely sequentially.
svn path=/trunk/; revision=1200
files.
Make the return type of a number of routines that return 1 (for "true")
on success and 0 (for "false") on failure to "gboolean", and make the 1's
and 0's TRUEs and FALSEs.
svn path=/trunk/; revision=1194
necessarily start at an offset of 128 into the file; we have to read the
first entry in the frame table to find the offset in the file of the
first frame. (That also works on NetMon 1.0.)
Keep the header size around, though, as we'll need it if we add code to
*write* NetMon files.
svn path=/trunk/; revision=1119
Assign a range of Wiretap errors for zlib errors, and have
"wtap_strerror()" use "zError()" to get an error message for
them.
Have the internal "file_error()" routine return 0 for no error
and a Wiretap error code for an error.
svn path=/trunk/; revision=769
The "fh" member of a "wtap" structure points to something constructed
from the "fd" member of that structure, so that closing the stream
referred to by "fh" also closes the underlying file descriptor; get rid
of an unnecessary close of "wth->fd".
svn path=/trunk/; revision=720
gzip. The zLib library is used for this purpose. If zLib is not available
(or it's use is disabled by the --disable-zlib option to configure), you
can still compile Ethereal but it will be unable to read compressed capture
files.
IMPORTANT:
Now all file accesses to capture files should be done through special macros.
Specifically, for any use of the following functions on capture files, replace them.
The arguments for the right-side functions are exactly the same as for the
original stdio functions.
fopen file_open
fdopen filed_open
fread file_read
fwrite file_write
fseek file_seek
fclose file_close
ferror file_error
svn path=/trunk/; revision=695
read, and maintain it ourselves as we read through the file, rather than
calling "ftell()" for every packet we read - "ftell()" may involve an
"lseek()" call, which could add a noticeable CPU overhead when reading a
large file.
svn path=/trunk/; revision=596
"FDDI with the MAC addresses bit-swapped"; whether the MAC addresses are
bit-swapped is a property of the machine on which the capture was taken,
not of the machine on which the capture is being read - right now, none
of the capture file formats we read indicate whether FDDI MAC addresses
are bit-swapped, but this does let us treat non-"libpcap" captures as
being bit-swapped or not bit-swapped independent of the machine on which
they're being read (and of the machine on which they were captured, but
I have the impression they're bit-swapped on most platforms), and allows
us to, if, as, and when we implement packet capture in Wiretap, mark
packets in a capture file written in Wiretap-native format based on the
machine on which they are captured (assuming the rule "Ultrix, Alpha,
and BSD/OS are the only platforms that don't bit-swap", or some other
compile-time rule, gets the right answer, or that some platform has
drivers that can tell us whether the addresses are bit-swapped).
(NOTE: if, for any of the capture file formats used only on one
platform, FDDI MAC addresses aren't bit-swapped, the code to read that
capture file format should be fixed to flag them as not bit-swapped.)
Use the encapsulation type to decide whether to bit-swap addresses in
"dissect_fddi()".
svn path=/trunk/; revision=557
Get rid of WTAP_ENCAP_NONE; replace it with WTAP_ENCAP_UNKNOWN, which
means "I can't handle that file, it's using an encapsulation I don't
support".
Check for encapsulations we don't support, and return an error (as is
already done in "libpcap.c").
Check for too-large packet sizes, and return an error (as is already
done in "libpcap.c").
Print unsigned quantities in Wiretap messages with "%u", not "%d".
svn path=/trunk/; revision=544
return 1 on success, -1 if they got an error, and 0 if the file isn't of
the type that file is checking for, and supply an error code if they
return -1; have "wtap_open_offline()" use that error code. Also, have
the per-capture-file-type open routines treat errors accessing the file
as errors, and return -1, rather than just returning 0 so that we try
another file type.
Have the per-capture-file-type read routines "wtap_loop()" calls return
-1 and supply an error code on error (and not, as they did in some
cases, call "g_error()" and abort), and have "wtap_loop()", if the read
routine returned an error, return FALSE (and pass an error-code-pointer
argument onto the read routines, so they fill it in), and return TRUE on
success.
Add some new error codes for them to return.
Now that "wtap_loop()" can return a success/failure indication and an
error code, in "read_cap_file()" put up a message box if we get an error
reading the file, and return the error code.
Handle the additional errors we can get when opening a capture file.
If the attempt to open a capture file succeeds, but the attempt to read
it fails, don't treat that as a complete failure - we may have managed
to read some of the capture file, and we should display what we managed
to read.
svn path=/trunk/; revision=516
write them in "libpcap" format, but the mechanism can have other formats
added.
When creating the temporary file for a capture, use "create_tempfile()",
to close a security hole opened by the fact that "tempnam()" creates a
temporary file, but doesn't open it, and we open the file with the name
it gives us - somebody could remove the file and plant a link to some
file, and, if as may well be the case when Ethereal is capturing
packets, it's running as "root", that means we write a capture on top of
that file.... (The aforementioned changes to Wiretap let you open a
capture file for writing given an file descriptor, "fdopen()"-style,
which this change requires.)
svn path=/trunk/; revision=509
but does not link. Perhaps someone who understands the MS tools can help
out. I made it link a few months ago, but with different version of glib/gtk+.
I can't remember how I made it link.
Most of the compatibility issues were resolved with adding
#ifdef HAVE_UNISTD_H the the source code. Please be sure to add this to all
future code.
svn path=/trunk/; revision=359
supplied by Tim Farley.
Tim also indicated that the Network Monitor network types may be NDIS
network types+1. It also appears that NetXRay/Windows Sniffer network
types may be NDIS network types as well.
svn path=/trunk/; revision=284
proto*() functions. The configure script tries to use ipv6 name resolution if
it knows the type of ipv6 stack the user has (this can be avoided with the
--disable-ipv6 switch) Additionally, the configure script now deals with wiretap
better. If the user doesn't want to compile wiretap, the wiretap is never
visited. A few unnecessary #includes were removed from some wiretap files, and
a CPP macro was moved from bpf.c to wtap.h.
svn path=/trunk/; revision=229
to add ssh to their firewall rules, so he's out of CVS for a few days.
This adds support for MS Network Monitor files to wiretap.
svn path=/trunk/; revision=172