"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
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
dissector table contain both a hash table, to use to look up port
numbers to find a dissector, and a list of all dissectors that *could*
be assigned to ports in that hash table, to be used by user interface
code.
Make the "Decode As" dialog box code use that.
Also make it *not* let you choose whether to set the dissector for both
the UDP and TCP versions of a port; some protocols run only atop TCP,
some run only atop UDP, and even those that can run atop both may have
different dissector handles to use over TCP and UDP, so handling a
single merged list would be a mess. (If the user is setting the
dissector for a TCP port, only those protocols that Ethereal can handle
over TCP should be listed; if the user is setting the dissector for a
UDP port, only those protocols that Ethereal can handle over TCP should
be listed; if the user is setting a dissector for both, only those
protocols that Ethereal can handle over *both* TCP *and* UDP should be
listed, *and* there needs to be a way to let the "Decode As" code get
both the TCP handle *and* the UDP handle and use the right ones. If
somebody really wants that, they need to implement all of the above if
they want the code to be correct.)
Fix the code that handles setting the dissection for the IP protocol
number to correctly update the lists of protocols being dissected as TCP
and as UDP; the code before this change wasn't updating the single such
list to add new protocols.
svn path=/trunk/; revision=4311
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
"proto_tree_add_item_hidden()", to add the "checksum bad" flags to
packets; the value should be "TRUE", not the numerical value of the
checksum field.
svn path=/trunk/; revision=3202
Initialize the "hf_" value for "icmp.checksum_bad" to -1, the way all
other "hf_" values are initialized, and declare it and "ip.checksum_bad"
to have base BASE_NONE, not 4.
svn path=/trunk/; revision=3087
requires that the dfilter code be initialized before the plugins are
added; this required us to *re*-initialize the dfilter code after
reading in all the plugins, as the plugins may themselves have added new
filterable fields - that was a bit of a mess), and make the
"Tools->Plugins" dialog box show the new-style plugins.
svn path=/trunk/; revision=2950
statements.
Move the setting of the Protocol column in various dissectors before
anything is fetched from the packet, and also clear the Info column at
that point in those and some other dissectors, so that if an exception
is thrown, the columns don't reflect the previous protocol.
Make the IP dissector static, as it's called only via dissector tables
or dissector handles. Also make the "dissect the TOS field as the
DiffServ DS field" flag static, as it's not referred to outside of
"packet-ip.c".
In the NCP dissector, refer to the port type through "pinfo" rather than
through the global "pi", as it's a tvbuffified dissector.
svn path=/trunk/; revision=2929
"{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
particular protocols, and which keep track of all dissectors that could
be associated with conversations using those particular protocols - for
example, the RTP and RTCP dissectors could be assigned to UDP
conversations.
This is for future use with UI features allowing the dissector for a
given conversation to be set from the UI, to allow
1) conversations between two ports, both of which have
dissectors associated with them, that have been given to the
wrong dissector to be given to the right dissector;
2) conversations between two ports, neither of which have
dissectors associated with them, to be given to a dissector
(RTP and RTCP, for example, typically run on random ports,
and if you don't have, in a capture, traffic that would say
"OK, traffic between these two hosts and ports will be RTP
traffic", you may have to tell Ethereal explicitly what
protocol the conversation is).
svn path=/trunk/; revision=2848
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
replace the existing checksummer with a modified version of the BSD
checksumming code. Add a flag to the "packet_info" structure to
indicate that a packet is the first fragment of a fragmented datagram,
so that the checksummers won't try to checksum those.
(It doesn't seem to add a lot of CPU overhead, so we don't introduce a
flag to disable it, yet. Further checks may be necessary to see whether
the overhead is just swamped by other overheads when scanning through a
capture dissecting all frames, or if it truly is negligible.)
Make the Boolean preference option controlling whether to make the
top-level protocol tree item for TCP display a packet summary static to
the TCP dissector (it doesn't need to be accessible outside the TCP
dissector).
svn path=/trunk/; revision=2751
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
ESIS dissectors.
Register the IP dissector and have dissectors that call it directly
(rather than through a port table) call it through a handle.
Add a routine "tvb_set_reported_length()" which a dissector can use if
it was handed a tvbuff that contains more data than is actually in its
part of the packet - for example, handing a padded Ethernet frame to IP;
the routine sets the reported length of the tvbuff (and also adjusts the
actual length, as appropriate). Then use it in IP.
Given that, "ethertype()" can determine how much of the Ethernet frame
was actually part of an IP datagram (and can do the same for other
protocols under Ethernet that use "tvb_set_reported_length()"; have it
return the actual length, and have "dissect_eth()" and "dissect_vlan()"
use that to mark trailer data in Ethernet II frames as well as in 802.3
frames.
svn path=/trunk/; revision=2658
source *and* destination port and/or both the source *and* destination
address passed to "find_conversation()", because the packet for which
you're trying to find the conversation may be going in the opposite
direction to the packet for which the conversation was originally
created.
Create different hash tables for wildcarded conversations, to reduce the
number of "is this a wildcard?" tests done when doing hash lookups.
This is sufficient to allow the TFTP dissector to use conversations
rather than being special-cased in the UDP dissector, and may also be
sufficient to handle a similar problem with SMTP (request goes from
client IP X port Y to server IP Z's well-known port, reply comes back
from some other port on server Z to client IP X port Y), but further use
may reveal other changes that should be made.
svn path=/trunk/; revision=2525
the following:
It is now possible to enable/disable a particular protocol decoding
(i.e. the protocol dissector is void or not). When a protocol
is disabled, it is displayed as Data and of course, all linked
sub-protocols are disabled as well.
Disabling a protocol could be interesting:
- in case of buggy dissectors
- in case of wrong heuristics
- for performance reasons
- to decode the data as another protocol (TODO)
Currently (if I am not wrong), all dissectors but NFS can be disabled
(and dissectors that do not register protocols :-)
I do not like the way the RPC sub-dissectors are disabled (in the
sub-dissectors) since this could be done in the RPC dissector itself,
knowing the sub-protocol hfinfo entry (this is why, I've not modified
the NFS one yet).
Two functions are added in proto.c :
gboolean proto_is_protocol_enabled(int n);
void proto_set_decoding(int n, gboolean enabled);
and two MACROs which can be used in dissectors:
OLD_CHECK_DISPLAY_AS_DATA(index, pd, offset, fd, tree)
CHECK_DISPLAY_AS_DATA(index, tvb, pinfo, tree)
See also the XXX in proto_dlg.c and proto.c around the new functions.
svn path=/trunk/; revision=2267
dissectors to be registered as dissectors for particular ports,
registered as heuristic dissectors, and registered as dissectors for
conversations, and have routines to be used both by old-style and
new-style dissectors to call registered dissectors.
Have the code that calls those dissectors translate the arguments as
necessary. (For conversation dissectors, replace
"find_conversation_dissector()", which just returns a pointer to the
dissector, with "old_try_conversation_dissector()" and
"try_conversation_dissector()", which actually call the dissector, so
that there's a single place at which we can do that translation. Also
make "dissector_lookup()" static and, instead of calling it and, if it
returns a non-null pointer, calling that dissector, just use
"old_dissector_try_port()" or "dissector_try_port()", for the same
reason.)
This allows some dissectors that took old-style arguments and
immediately translated them to new-style arguments to just take
new-style arguments; make them do so. It also allows some new-style
dissectors not to have to translate arguments before calling routines to
look up and call dissectors; make them not do so.
Get rid of checks for too-short frames in new-style dissectors - the
tvbuff code does those checks for you.
Give the routines to register old-style dissectors, and to call
dissectors from old-style dissectors, names beginning with "old_", with
the routines for new-style dissectors not having the "old_". Update the
dissectors that use those routines appropriately.
Rename "dissect_data()" to "old_dissect_data()", and
"dissect_data_tvb()" to "dissect_data()".
svn path=/trunk/; revision=2218
a particular type, rather than taking a varargs list, along the lines of
the "proto_tree_add_XXX_format()" routines.
Replace most calls to "proto_tree_add_item()" and
"proto_tree_add_item_hidden()" with calls to those routines.
Rename "proto_tree_add_item()" and "proto_tree_add_item_hidden()" to
"proto_tree_add_item_old()" and "proto_tree_add_item_hidden_old()", and
add new "proto_tree_add_item()" and "proto_tree_add_item_hidden()"
routines that don't take the item to be added as an argument - instead,
they fetch the argument from the packet whose tvbuff was handed to them,
from the offset handed to them.
svn path=/trunk/; revision=2031
Add exceptions routines.
Convert proto_tree_add_*() routines to require tvbuff_t* argument.
Convert all dissectors to pass NULL argument ("NullTVB" macro == NULL) as
the tvbuff_t* argument to proto_tree_add_*() routines.
dissect_packet() creates a tvbuff_t, wraps the next dissect call in
a TRY block, will print "Short Frame" on the proto_tree if a BoundsError
exception is caught.
The FDDI dissector is converted to use tvbuff's.
svn path=/trunk/; revision=1939
dissector.
Don't dissect the payload of any fragmented IPv6 packet unless it's the
initial fragment (that's what we do for IPv4).
svn path=/trunk/; revision=1882
destination network-layer addresses of the servers, and the NCP
connection number, and use the pointer to the conversation and the
request sequence number as the hash key for the table of requests used
to find the request for a given response; this lets it work with
NCP-over-TCP and NCP-over-UDP.
Register the NCP dissector with the UDP dissector in the handoff
registration routine for NCP, just as we do with the TCP dissector.
svn path=/trunk/; revision=1878
protocols that run inside IPv4 register themselves with it using
"dissector_add()".
Make various dissectors static if they can be, and get rid of any header
files that no longer contain any information as a result of that change.
svn path=/trunk/; revision=1870
Specific queries and debugging requests may be sent from ports
other than 520, but they are directed to port 520 on the target
machine.
and RFC 2453, on RIP V2, says:
Specific queries may be sent from ports other than the RIP port,
but they must be directed to the RIP port on the target machine.
so there is no requirement that RIP packets have 520 as both source and
destination port numbers. It's therefore OK to register it as the
dissector for UDP port 520 - no need to handle it specially in the UDP
dissector as a reminder to make it check both source and destination
ports - so we do so.
svn path=/trunk/; revision=1855
but will be in the future, and it's easier for me to keep my local branch
in sync with the source with the calls to dfilter_apply() already modified
tothe 4-arg format.
Add a CPP macro to ipv4.h to define ipv4_addr_ne(). Use it in dfilter.c
svn path=/trunk/; revision=1854
sub-dissector table is not stored in the header_field_info struct, but
in a separate namespace. Dissector tables are now registered by name
and not by field ID. For example:
udp_dissector_table = register_dissector_table("udp.port");
Because of this different namespace, dissector tables can have names
that are not field names. This is useful for ethertype, since multiple
fields are "ethertypes".
packet-ethertype.c replaces ethertype.c (the name was changed so that it
would be named in the same fashion as all the filenames passed to make-reg-dotc)
Although it registers no protocol or field, it registers one dissector table:
ethertype_dissector_table = register_dissector_table("ethertype");
All protocols that can be called because of an ethertype field now register
that fact with dissector_add() calls.
In this way, one dissector_table services all ethertype fields
(hf_eth_type, hf_llc_type, hf_null_etype, hf_vlan_etype)
Furthermore, the code allows for names of protocols to exist in the
etype_vals, yet a dissector for that protocol doesn't exist. The name
of the dissector is printed in COL_INFO. You're welcome, Richard. :-)
svn path=/trunk/; revision=1848
with conversations and having TCP and UDP check whether a packet is part
of a conversation with a dissector and, if so, using that dissector on
the conversation, and "ethertype()"-style support for allowing a
dissector to call a sub-dissector via the same path that the TCP and UDP
dissectors use, based on port numbers supplied by that dissector.
svn path=/trunk/; revision=1837
UDP and into the handoff registration routines for the protocols in
question.
Make the dissectors for those protocols static if they're not called
outside the dissector's source file.
Get rid of header files if all they did was declare dissectors that are
now static; remove declarations of now-static dissectors from header
files that do more than just declare the dissector.
svn path=/trunk/; revision=1823
routine, which calls all routines found in the dissector source files
with names that match " proto_reg_handoff_[a-z_0-9A-Z]*".
Call "register_all_protocol_handoffs()" after calling
"register_all_protocols()" - "register_all_protocols()" needs to be
called first, so that all protocols can register their fields, because
registering a dissector as being called if field "proto.port" is equal
to N requires that "proto.port" be a registered field.
Give DNS a handoff registration routine, and register its dissector to
be called if "udp.port" is UDP_PORT_DNS; remove the registration of DNS
from "packet-udp.c", and make "dissect_dns()" static (as nobody else
need know that it exists).
svn path=/trunk/; revision=1788
pd/offset/fd/tree arguments, looks up the port number in the dissector
table, and:
if it finds it, call the corresponding dissector routine with
the pd/offset/fd/tree arguments, and return TRUE;
if it doesn't find it, return FALSE.
Use that in the TCP and UDP dissectors.
Don't add arbitrary UDP ports for which a dissector is found in the
table as ports that should be dissected as TFTP; this should only be
done if we find a packet going from port XXX to the official TFTP port.
Don't register TFTP in UDP's dissector table, as it has to be handled
specially (i.e., we have to add the source port as a TFTP port, although
we really should register the source port *and* IP address); eventually,
we should move that registration to the TFTP dissector itself, at which
point we can register TFTP normally.
svn path=/trunk/; revision=1785
hash table attached to "udp.port" out of "init_dissect_udp()" into
"proto_register_udp()", so that it's done the way TCP does it, and then
get rid of "init_dissect_udp()".
svn path=/trunk/; revision=1781
field, to allow dissectors to register their dissection routine in a
particular field's hash table with a particular "port" value, and to
make the TCP and UDP dissectors support that for their "port" field and
to look up ports in that hash table.
This replaces the hash table that the UDP dissector was using.
There's still more work needed to make this useful - right now, the hash
tables are attached to the protocol field in the register routines for
the TCP and UDP protocols, which means that the register routines for
protocols that run atop TCP and UDP can't use this unless their register
routines happen to be called after those for TCP and/or UDP, and several
other protocols need to attach hash tables to fields, and there's no
single global field for Ethernet types so we can't even attach a hash
table to such a field to allow protocols to register themselves with a
particular Ethertype - but it's a start.
svn path=/trunk/; revision=1779