* Add a "match_string" field to the "packet_info" structure,
saving the string value that matched in a string dissector
lookup, by analogy to "match_port" - this was required for
dissection with token rendering of WBXML content when no public
ID was given (e.g. Nokia/Ericsson OTA provisioning data).
* Add support for textual content type based WBXML token
mapping.
* Add extra WBXML public identifiers.
* Add the Nokia/Ericsson OTA provisioning (version 7) token
definitions.
* Inform the user when a content-type based token match is found.
svn path=/trunk/; revision=9061
- Dissector for FICON
- Dissector for FC-SP (Security Protocol for Fibre Channel)
- Patches to correct the reassembly of FC fragments.
- Support for new MDS Port Analyzer Adapters that carry the
frame length for truncated frames.
svn path=/trunk/; revision=8823
stub data even if there's a problem dissecting the verifier.
Show stub data as "Encrypted stub data" if it's encrypted, "Decrypted
stub data" if it was encrypted but we decrypted it, and "Stub data" if
it wasn't encrypted.
Don't attempt to decrypt data unless it was encrypted (i.e., the
authentication level is "Packet privacy".
Get rid of "decrypted_data" member of "packet_info" structure - we don't
need it any more.
svn path=/trunk/; revision=8743
ONCRPC dissector updated to provide hint to TCP where the next RPCoverTCP
PDU starts as example.
Trivial updates to the other TCP based protocols required to amke them handle
this as well. See the updates to packet-rpc.c as an example.
This is enabled by activating tcp analysis and provides hints to TCP to know where PDUs starts when not aligned to the start of the segment.
svn path=/trunk/; revision=7543
- A new decoder called MDSHDR which decodes the internal header of the
Cisco MDS switch (this is different from the Boardwalk header).
- Support for some more new columns as part of FC support.
- Fixed the decoding of the Special Frame in FCIP.
- Fixed the decoding of credit management type field in FLOGI/PLOGI frame
in FC-ELS.
svn path=/trunk/; revision=6974
we also call the proper DCERPC subdissector.
With this change ethereal will call the SAMR dissector and dissect the
decrypted SAMR packets in devins capture.
svn path=/trunk/; revision=6855
starting and ending frame number, and circuits with the same circuit ID
are sorted by the starting frame number (the last circuit can have 0 as
the ending frame number, meaning "unknown"), and, when looking up a
circuit, we take a frame number as an argument and return the circuit
that includes that frame.
Add a new circuit ID type for X.25 virtual circuits, and use the circuit
mechanism to keep track of the dissector for an X.25 virtual circuit
rather than having a private mechanism.
svn path=/trunk/; revision=6580
WTAP_ENCAP_ISDN encapsulation type, which includes a pseudo-header
giving the direction (user-to-network or network-to-user) and the
channel number.
Add a new circuit type, using the ISDN channel number as the circuit ID.
Add an ISDN dissector to put the direction and channel number into the
protocol tree and to call the appropriate dissector for the payload
based on the channel (LAPD for the D channel; V.120, PPP, or data for B
channels, based on some heuristics).
svn path=/trunk/; revision=6521
protocols (where there's a virtual circuit ID of some sort in packets)
what conversations are for protocols ultimately running atop
connectionless network layers. Have circuit type and ID values in the
"packet_info" structure.
Have the Frame Relay dissector set the circuit type and ID values, and
have the Wellfleet compression protocol set up circuit information and
store compression information with the circuit.
svn path=/trunk/; revision=6469
"pinfo->srcport", and "pinfo->destport" appropriately in the IPX
dissector. Add support for PT_IPX port types in display columns.
Have an "spx.socket" dissector table, similar to the "ipx.socket"
dissector table, and have the SPX dissector use that, with the IPX
socket numbers from "pinfo->srcport" and "pinfo->destport", so that
dissectors for protocols that run atop SPX can register with particular
socket numbers. (Think of it as similar to what would have been the
case had the IP header had 16-bit source and destination port numbers,
and had TCP and UDP used those port numbers rather than having port
numbers in their headers.) Also, have the SPX dissector dissect
subprotocols regardless of whether we're building a protocol tree or not.
Use the dissector handle for the IPX message dissector for both IPX
socket numbers; there's no need to create separate handles for both
registrations.
Have NDPS register as a subdissector of the SPX dissector, using
"spx.socket", and get rid of the duplicate SPX dissection in the NDPS
dissector.
Make the NDPS dissector set the columns regardless of whether a protocol
tree is being built, and clean up the dissector (fixing some bugs).
Get rid of unneeded includes in "packet-ndps.c".
svn path=/trunk/; revision=6424
isn't guaranteed to return 0, 1, or -1, it returns *some* positive
number, not necessarily 1, if the first argument is greater than the
second, and *some* negative number, not necessarily -1, if the first
argument is less than the second).
svn path=/trunk/; revision=6063
-1,0,1 as the xxxcmp() functions will instead of just true/false.
Useful if you not only want to check for equality but also if you want to have a way to order the elements.
svn path=/trunk/; revision=5917
in the "packet_info" structure instead, as we don't need a pointer for
every single frame in the capture file, just for each frame for which we
currently have an open "epan_dissect_t".
svn path=/trunk/; revision=5614
structure to the "packet_info" structure; only stuff that's permanently
stored with each frame should be in the "frame_data" structure, and the
"column_info" structure is not guaranteed to hold the column values for
that frame at all times - it was only in the "frame_data" structure so
that it could be passed to dissectors, and, as all dissectors are now
passed a pointer to a "packet_info" structure, it could just as well be
put in the "packet_info" structure.
That saves memory, by shrinking the "frame_data" structure (there's one
of those per frame), and also lets us clean up the code a bit.
svn path=/trunk/; revision=4370
1. Changes how can_desegment works so that can_desegment is
only != 0 for whichever dissector is running immediately on
top of whoever offers the can_desegment service.
Thus DCERPC needs no special handling to see if it can trust
can_desegment (which is currently only available ontop of TCP
and not ontop of tcp->nbss->smb).
2. Changes fragment reassembly of transaction smb to only show
the defragmented packet for the transaction smb holding the
first fragment.
To see why, test it with a transaction SMB containing a ~60kb
PDU or larger. The old behaviour had approximately quadratic
behaviour regarding runtime for dissecting such PDUs.
(example: NetShareEnum is a command which can grow really really
large if the number of shares and comments are large)
svn path=/trunk/; revision=4296
access their own "pinfo". A packet_info is stored in epan_dissect_t,
which is created for the dissection of a single packet.
GUI functions which need to access the packet_info of the currently
selected packet used to use "pi"; now they use cfile.edt->pi. cfile's
"edt" member is the epan_dissect_t of the currently-selected packet.
The functionality of blank_packetinfo() was moved into
dissect_packet(), as that's the only place that called blank_packetinfo(),
after a spurious call to blank_packetinfo() was removed from
packet_list_select_cb().
svn path=/trunk/; revision=4246
structure, the check for a null tvbuff pointer in "alloc_field_info()",
and the "tvb_create_from_top()" macro; they're no longer needed, as
there's no non-tvbuffified dissector code remaining.
svn path=/trunk/; revision=4205
stuff currently being dissected is part of a packet included in an error
packet (e.g., an ICMP Unreachable packet). Have the TCP dissector not
bother doing reassembly if the TCP segment is part of an error packet,
rather than an actual TCP transmission; other dissectors might want to
treat those packets specially as well.
Add to the "tcpinfo" structure a flag indicating whether the URG flag
was set, rather than having the zero or non-zero value of the urgent
pointer indicate that. (Yes, at least as I read RFC 793, a zero urgent
pointer value isn't useful, as it means "the stuff before this segment
is urgent", but it's certainly possible to put onto the wire a TCP
segment with URG set and a zero urgent pointer.)
Don't dissect the TCP header by grabbing the entire header with
"tvb_memcpy()" and then pulling stuff out of it - extract stuff with
individual tvbuff calls, and put stuff into the protocol tree and the
Info column as we extract it, so that we can dissect a partial header.
This lets us, for example, get the source and destination ports from the
TCP header of the part of a TCP segment included in a minimum-length
ICMPv4 error packet.
svn path=/trunk/; revision=3986
dissectors to use it, from Ronnie Sahlberg, with additional changes to
handle the case where a frame contains messages that don't run past the
end followed by one that does and where a reassembled chunk has, at the
end, a message that runs past the end of that chunk (because the
reassembly was for an earlier message).
svn path=/trunk/; revision=3923
"void *" that a dissector can set to point to such a structure; that
means that the stuff in the epan directory doesn't have to know anything
about the protocol-specific private data one dissector passes to
another, and that structure doesn't have to be changed if a dissector
wants to pass some new type of data to another dissector.
svn path=/trunk/; revision=3818
structures as arguments, that evaluates to "true" if the two addresses
are equal and "false" if they're not equal. Use that macro in the
conversation code.
svn path=/trunk/; revision=3509