tables, for use in the top-level item for the control field, for
unnumbered frame function codes for commands and responses. If the
argument is null, default to the standard tables.
Use "dissect_xdlc_control()" and the #defines from "xdlc.h" for IrDA.
Use the reported length rather than the data length in the IrDA
dissector when iterating over the data in an IrDA packet.
Make "dissect_xid()" update the column information as well as the
protocol tree. Put the slot number into the protocol tree only for
command frames - "the slot number field is undefined in discovery XID
response frames", to quote the IrLAP spec.
svn path=/trunk/; revision=9713
pointers to hf_ values, so the subfields of the control field are put
into the protocol tree as filterable items. Change the protocols that
use it appropriately.
Export "dissect_xdlc_control()" to plugins.
svn path=/trunk/; revision=9531
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
packets that have one. Add an argument to "dissect_xdlc_control()" to
indicate whether it should append the information to the Info field or
just put it in the Info field.
Use the #defines for the DLCI bitfields to extract the DLCI bits when
constructing the DLCI.
svn path=/trunk/; revision=8335
given OUI; the field is used when the PID for that OUI is put into the
protocol tree, and the dissector table is used to find a dissector for
that PID.
Not yet used, thus not yet tested; API is subject to change.
(Eventually, several of the cases in the big switch statement in
"dissect_llc()" should be handled by registering information for those
OUIs.)
svn path=/trunk/; revision=8291
Fixed handling of NLP header in SNA
XID handoff table for LLC, and XID dissection for SNA format 3
HPR optional segments in SNA
Most important control vectors in SNA
Route setup messages in SNA
Additional LLC DSAPs for SNA
svn path=/trunk/; revision=7131
dissector, and have the LLC dissector register itself as the dissector
for IP-over-FC frames, as the payload is just an LLC 802.2 header plus
payload for the protocol specified by that header.
In the dissector for IP-over-FC as a Wiretap link-layer type, have its
top-level item be a protocol item rather than a text item, and don't
register it as the dissector for IP-over-FC frames from the FC dissector
- it assumes what it's handed includes the Network_Header, but for full
FC frames, the FC dissector has already consumed the Network_Header.
Move the definitions of the value_string tables out of the header file;
most of them are used only in one file, so define them in that file, and
for "fc_fc4_val", define it in "packet-fc.c", make it not static, and
declare it in "packet-fc.h".
Use FALSE, rather than 0, as the last argument to
"proto_tree_add_item()" calls that add a big-endian value.
Fix one "proto_tree_add_uint()" call that was supposed to be a
"proto_tree_add_item()" call.
Use "%u", not "%d", to display unsigned values.
svn path=/trunk/; revision=6773
equivalents for the toplevel directory. The removal of winsock2.h will
hopefully not cause any problems under MSVC++, as those files using
struct timeval still include wtap.h, which still includes winsock2.h.
svn path=/trunk/; revision=5932
"epan/..." pathnames, so as to avoid collisions with header files in any
of the directories in which we look (e.g., "proto.h", as some other
package has its own "proto.h" file which it installs in the top-level
include directory).
Don't add "-I" flags to search "epan", as that's no longer necessary
(and we want includes of "epan" headers to fail if the "epan/" is left
out, so that we don't re-introduce includes lacking "epan/").
svn path=/trunk/; revision=4586
items to the protocol tree; it's interpreted as "the rest of the data in
the tvbuff". This can be used if
1) the item covers the entire packet or the remaining payload in
the packet
or
2) the item's length won't be known until it's dissected, and
will be then set with "proto_item_set_len()" - if an
exception is thrown in the dissection, it means the item ran
*past* the end of the tvbuff, so saying it runs to the end of
the tvbuff is reasonable.
Convert a number of "proto_tree_add_XXX()" calls using
"tvb_length_remaining()", values derived from the result of
"tvb_length()", or 0 (in the case of items whose length is unknown) to
use -1 instead (using 0 means that if an exception is thrown, selecting
the item highlights nothing; using -1 means it highlights all the data
for that item that's available).
In some places where "tvb_length()" or "tvb_length_remaining()" was used
to determine how large a packet is, use "tvb_reported_length()" or
"tvb_reported_length_remaining()", instead - the first two calls
indicate how much captured data was in the packet, the latter two calls
indicate how large the packet actually was (and the fact that using the
latter could cause BoundsError exceptions to be thrown is a feature - if
such an exception is thrown, the frame really *was* short, and it should
be tagged as such).
Replace some "proto_tree_add_XXX()" calls with equivalent
"proto_tree_add_item()" calls.
Fix some indentation.
svn path=/trunk/; revision=4578
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
specifies how the selector values used as keys in those tables are to be
displayed, and the title to use when displaying the table.
Use that information in the code to display the initial and current
entries of various dissector tables.
Have the dissector for BACnet APDUs register itself by name, and have
the BACnet NPDU dissector call it iff the BAC_CONTROL_NET bit isn't set,
rather than doing it with a dissector table.
svn path=/trunk/; revision=4358
take a dissector handle as an argument, rather than a pointer to a
dissector function and a protocol ID. Associate dissector handles with
dissector table entries.
svn path=/trunk/; revision=4308
of packet data captured.
Make the "BYTES_ARE_IN_FRAME()" macro take a "captured length of the
packet" argument.
Add some length checks to capture routines.
svn path=/trunk/; revision=4235
various Cisco documents indicate that 0000F8 is used on at least some
Cisco boxes for bridging Ethernet frames onto 802.x+LLC frames.
svn path=/trunk/; revision=3498
respectively, not Q.931 and Q.2931, in Frame Relay.
When dissecting Q.933-style multiprotocol encapsulated Frame Relay
frames, use the "osinl" dissector table to check for OSI network layer
protocols, include the NLPID in the tvbuff you hand to
"dissector_try_port()" with that dissector table, and put the NLPID into
the protocol tree as an invisible item - the NLPID is considered part of
the PDU for those protocols, so you have to include it in the tvbuff,
and the dissector will put it into the protocol tree.
Also, make sure the top-level entry for the Frame Relay protocol
includes all the bytes preceding the payload, and none of the payload
bytes.
Export a routine to do Q.933-style dissection, and have the WCP
dissector call it, rather than duplicating that code in the WCP
dissector.
Don't register OSI network layer protocols with the "fr.ietf" dissector
table; it's now sufficient to register them with the "osinl" dissector
table, as the Frame Relay dissector now checks that.
Get rid of unnecessary checks for protocols being enabled (if the
dissector is always called through handles or dissector tables, the
common code for handles and dissector tables will do the checks for
you).
Get rid of some unnecessary #includes.
svn path=/trunk/; revision=3211
"pinfo->current_proto", in dissectors always called through dissector
tables and handles.
Make the IEEE 802.11 dissector static, as it's not called externally.
Clear the Info column in the Linux cooked capture and 802.1q VLAN
dissectors, before extracting anything from the packet, so that if an
exception is thrown, the Info column doesn't reflect the previous
protocol.
Don't extract the encapsulated protocol in the VLAN dissector until you
use it, so that if the frame contains the VLAN ID but not the
encapsulated protocol, we at least put the VLAN ID into the protocol
tree.
svn path=/trunk/; revision=2927
LLC *does* have to support bridged frames over ATM; the correct bridge
padding is 2 (well, except for bridged 802.6 frames, but, if we ever
support that, we just wouldn't add "bridge_pad" to "offset+5" when
constructing the next tvbuff).
svn path=/trunk/; revision=2874
its own; it's used not only by LLC, but by Frame Relay with RFC 2427 and
ATM with RFC 2684.
Support for RFC 2427-encapsulation Frame Relay packets, from Paul
Ionescu.
Get rid of the CISCO_IP PPP protocol type - Cisco HDLC uses, in most
cases, Ethernet packet types, so use ETHERTYPE_IP instead (they're both
0x0800).
svn path=/trunk/; revision=2854
"{old_}heur_dissector_add()", "{old_}conv_dissector_add()", and
"register_dissector()", so that an entry in those tables has associated
with it the protocol index of the protocol the dissector handles (or -1,
if there is no protocol index for it).
This is for future use in a number of places.
(Arguably, "proto_register_protocol()" should take a dissector pointer
as an argument, but
1) it'd have to handle both regular and heuristic dissectors;
2) making it take either a "dissector_t" or a union of that and
a "heur_dissector_t" introduces some painful header-file
interdependencies
so I'm punting on that for now. As with other Ethereal internal APIs,
these APIs are subject to change in the future, at least until Ethereal
1.0 comes out....)
svn path=/trunk/; revision=2849
protocols, in addition to adding structures to the list of filterable
fields. Give it an extra argument that specifies a "short name" for the
protocol, for use in such places as
pinfo->current_proto;
the dialog box for constructing filters;
the preferences tab for the protocol;
and so on (although we're not yet using it in all those places).
Make the preference name that appears in the preferences file and the
command line for the DIAMETER protocol "diameter", not "Diameter"; the
convention is that the name in question be all-lower-case.
Make some routines and variables that aren't exported static.
Update a comment in the ICP dissector to make it clear that the
dissector won't see fragments other than the first fragment of a
fragmented datagram.
svn path=/trunk/; revision=2810
Add a new subdissector table in the LLC dissector for protocol IDs with
a Cisco OUI, and register the CDP, CGMP, and VTMP dissectors in that
table, rather than calling them via a switch statement.
Register the ISL dissector by name, and have the Ethernet dissector call
it via a handle.
Fix the handling of the checksum field in the CDP dissector.
The strings in CDP are counted, not null-terminated; treat them as such.
Fix the handling of the encapsulated frame CRC, and the encapsulated
frame, in the ISL dissector, at least for Ethernet frames; it may not be
correct for encapsulated Token Ring frames.
svn path=/trunk/; revision=2792
dissect_fddi_not_bitswapped() and dissect_fddi_bitswapped(), both of which
use the standard 3-argument tvbuffified-dissector argument list.
Add a dissector table called "wtap_encap" which is used to call dissectors
from dissect_frame(). The switch() statement from this top-level dissector
is removed.
The link-layer dissectors register themselves with the "wtap_encap"
dissector table. The dissectors are now static where possible.
svn path=/trunk/; revision=2708
can be put, and a pointer to the string for the column, which might or
might not point to that buffer.
Add a routine "col_set_str()", which sets the string for the column to
the string passed to it as an argument; it should only be handed a
static string (a string constant would be ideal). It doesn't do any
copying, so it's faster than "col_add_str()".
Make the routines that append to columns check whether the pointer to
the string for the column points to the buffer for the column and, if
not, copy the string for the column to the buffer for the column so that
you can append to it (so you can use "col_set_str()" and then use
"col_append_str()" or "col_append_fstr()").
Convert a bunch of "col_add_str()" calls that take a string constant as
an argument to "col_set_str()" calls.
Convert some "col_add_fstr()" calls that take a string constant as the
only argument - i.e., the format string doesn't have any "%" slots into
which to put strings for subsequent arguments to "col_set_str()" calls
(those calls are just like "col_add_str()" calls).
Replace an END_OF_FRAME reference in a tvbuffified dissector with a
"tvb_length(tvb)" call.
svn path=/trunk/; revision=2670
dissector call it through a handle, and make it static.
Give "dissect_data()" an "offset" argument, so dissectors can use it to
dissect part of the packet without having to cook up a new tvbuff.
Go back to using "dissect_data()" to dissect the data in an IPP request.
svn path=/trunk/; revision=2651