given a tvbuff/offset pair referring to the byte past the end of the
item. Use it in one place in the SMB dissector (there are plenty of
other places where it could be used as well).
svn path=/trunk/; revision=7603
be installed - don't explicitly search
"/usr/lib/ethereal/plugins/{version}" or
"/usr/local/lib/ethereal/plugins/{version}", so that if there's more
than one version of Ethereal installed, we don't end up picking up
plugins from the wrong version.
svn path=/trunk/; revision=6766
big table of functions - we don't use the preferences code, we just
export routines from it.
There is, however, a need to include "reassemble.h" if we're doing so,
as some of the functions we export take a "fragment_data *" as an
argument, and "fragment_data" is defined in "reassemble.h".
The members of "patable" should be set to point to functions, and
"p_prefs_register_obsolete_preference" isn't a function -
"prefs_register_obsolete_preference" is.
Get rid of extra white space at the ends of lines.
svn path=/trunk/; revision=6648
While we're at it, add "extern" to a bunch of function declaration the
preceding change *didn't* require to have the "extern" added.
svn path=/trunk/; revision=5995
equivalents for the epan/ directory but leave winsock2.h in inet_pton.c
and inet_ntop.c for now (can't estimate the consequences).
svn path=/trunk/; revision=5928
DOCSIS support, including support for "Ethernet" captures where
the raw frame is a DOCSIS frame rather than an Ethernet
frame (some Cisco cable-modem head-end gear can send out a
trace of all traffic on an Ethernet, but what it sends are
the raw bytes of DOCSIS frames, not Ethernet frames)
Get rid of second AUTHORS entry for Devin Heitmueller, merging its item
into the older entry.
Clean up the order of some lists of plugin items.
svn path=/trunk/; revision=5861
where the pointer to "dissect_data()" was in 0.9.3; the pointer to
"dissect_data()" wasn't initialized in 0.9.3 (as the function wasn't
exported - you call it through a handle), so no plugin should have been
using it, and putting the pointer to "tcp_dissect_pdus()" in its place
means the structure offsets of all function pointers after it will be
the same in 0.9.3 and the next release, preserving binary compatibility
for plugins.
svn path=/trunk/; revision=5395
extracting PDUs from it and possibly doing reassembly. Make the COPS,
DNS, DSI, Gryphon, and SCCP dissectors use it.
Add "set_actual_length()", "tcp_dissect_pdus()",
"decode_boolean_bitfield()", "decode_numeric_bitfield()", and
"decode_enumerated_bitfield()" to the list of routines available to
dissectors on platforms where routines in the main program aren't
available to dynamically-loaded code.
Declare routines in "to_str.h" as "extern"; as I remember, that's
necessary to allow the "decode_XXX_bitfield()" routines declared therein
to be made available to plugins as per the above.
Note that new exported routines should be added to the end of the table
if that's the only change being made to the table.
Create a new "plugin_api_decls.h" header file, used to declare both the
"p_" variables and the "p_" structure members in the routine-exporting
mechanism; this reduces the number of places you have to change to
change the list of exported routines.
svn path=/trunk/; revision=5394
packets per segment.
Instead of having a routine for dissectors such as the Q.931 dissector
to call to dissect the TPKT header, have a routine that does all the
reassembly and multiple-packets-per-segment work, and have the Q.931
dissector call it. Export "is_tpkt()", and the new routine, to plugins.
Add preferences for TPKT and Q.931 reassembly.
svn path=/trunk/; revision=4778
variables wrap-around. Since the request/reply packets are related via
a hash based on these uniqueness variables, long NCP traces can
have mis-matches reqeust/reply records.
Thus, only do the hash-lookup for the reply packet during the first
sequential scan of the trace file. Once the pertinent info is found,
store it in the packet's private data area.
Since the memory allocated for the hash and for the structures that make
up the keys are no longer needed after the first sequential run through
the trace file, arrange to free that memory after the first sequential
run. Similar to the register_init_routine() that allows dissectors
to register callbacks for calling *before* a capture file is loaded,
set up a register_postseq_cleanup_routine() function that allows
dissectors to register callbacks for calling *after* the first
sequential run-through of the trace file is made. This is not
a *final* cleanup callback, since Ethereal will still have that trace file
open for random-access reading.
I didn't have tethereal call postseq_cleanup_all_protocols() since
tethereal doesn't keep the trace file open for random-access reading.
I could easily be swayed to make tethereal call that function, however.
svn path=/trunk/; revision=4484
plugin APIs, and add the new "dissector_add_handle()".
Add an entry in the dissector table structure for
"create_dissector_handle".
svn path=/trunk/; revision=4314
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
from being required by anyone other than packet-data.c.
It can now be accessed with call_dissector() with the name "data".
dissect_data is now also of dissect_t.
svn path=/trunk/; revision=4271
former depends on having "guint64" and the latter depends on
"%ll[douxX]" being what's used to print 64-bit integers, and there are
platforms on which Etheeal runs that don't have "guint64" or that don't
use "%ll[douxX]" to print 64-bit integers.
Get rid of the routines to extract 64-bit integers into "gint64"s and
"guint64"s, as per Ronnie Sahlberg's suggestion, to discourage people
from writing code that won't work on all platforms; they should be using
FT_UINT64, or the routines in "int-64bit.c", instead.
svn path=/trunk/; revision=4102
and generates the path name; have it, if the file is to be opened for
reading on Win32, check whether it exists and, if not, check for it in
the old home directory-based configuration directory and, if so, return
that path instead, so that files saved with earlier versions of Ethereal
will be seen.
svn path=/trunk/; revision=4072
reside. Use it, rather than concatenating the user's home directory and
".ethereal" in a number of files.
Fix up some additional places to use G_DIR_SEPARATOR_S as the pathname
separator.
svn path=/trunk/; revision=4061
strings used to generate pathnames.
Move the definition of PF_DIR from <epan/epan.h> to <epan/filesystem.h>,
so that files requiring only the definition of PF_DIR don't have to
include <epan/epan.h>, and get rid of no-longer-necessary includes of
<epan/epan.h>.
Add a routine to get the directory for "system files" such as
"/etc/ethers" - it's "/etc" on UNIX, and the datafile directory on
Windows (as there's no "/etc" on Windows). Use that to construct the
pathname of the ethers and ipxnet files.
svn path=/trunk/; revision=4056
on it and check whether it returned EISDIR, not whether it returns 0 -
EISDIR means it's a directory, 0 means it isn't.
svn path=/trunk/; revision=3939
"proto_item_set_text()" except that it appends the result of the
formatting to the item's current text, rather than replacing the item's
current text. Use it in the DNS dissector.
svn path=/trunk/; revision=3880
but, before you set the text, you throw an exception while putting stuff
under the subtree, you end up with an absolutely blank protocol tree
item, which is really gross. Instead of calling
"proto_tree_add_notext()", call "proto_tree_add_text()" with at least a
minimal label - yes, it does mean you do some work that will probably be
unnecessary, but, absent a scheme to arrange to do that work if it *is*
necessary (e.g., catching exceptions), the alternative is an ugly
protocol tree display.
svn path=/trunk/; revision=3879
directory in which global data files are stored. If an installed binary
is being run, that's the correct directory for them; if a build-tree
binary is being run, the "manuf" file will be there, and you can put
other data files there as well, if necessary.
Do the same with plugins, except that, if there's no
"plugins\\{version}" subdirectory of that directory, fall back on the
default installation directory, so you at least have a place where you
can put plugins for use by build-tree binaries. (Should we, instead,
have the Windows build procedure create a subdirectory of the "plugins"
source directory, with the plugin version number as its name, and copy
the plugins there, so you'd use the build-tree plugin binaries?)
Move "test_for_directory()" out of "util.c" and into
"epan/filesystem.c", with the other file system access portability
wrappers and convenience routines. Fix "util.h" not to declare it - or
other routines moved to "epan/filesystem.c" a while ago.
svn path=/trunk/; revision=3858
"standard" plugin directory, and, instead of getting PLUGIN_DIR (the
*real* installation directory) from the configure script, as can be done
in UNIX, attempt to get it by getting the full pathname of the currently
running program and assuming it's in the installation directory.
svn path=/trunk/; revision=3850
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
plugins, as the MGCP dissector uses it.
Don't set pointers to "dfilter_init()" and "dfilter_cleanup()" in that
transfer vector, as there *aren't* any pointers to them in the transfer
vector.
svn path=/trunk/; revision=2949
be loaded and their initialization routines called in right after we
call the initialization routines for built-in dissectors, but don't call
their handoff registration routines yet, and then call the handoff
registration routines right after calling the handoff registration
routines for built-in dissectors.
Do all that in "proto_init()", rather than "epan_init()".
That way, we call all dissector registration routines together, and then
call all dissector handoff registration routines together; all the
registration routines are called before any handoff registration
routines, as is required, and, as "proto_init()" is called by
"epan_init()" before "dfilter_init()" is called, all filterable fields
have been registered before "dfilter_init()" is called, and no plugins
have to call "dfilter_init()" themselves to get their fields registered.
Remove pointers to "dfilter_init()" and "dfilter_cleanup()" from the
plugin address table, as plugins shouldn't be calling them any more, and
remove calls to them from plugins.
svn path=/trunk/; revision=2940
It was the last dissector that used "old_call_dissector()", and
tvbuffifying it got rid of that, so get rid of "old_call_dissector()".
svn path=/trunk/; revision=2892
"prefs_register_module()" except that it takes a protocol index as
returned by "proto_register_protocol()" as its first argument, rather
than taking two character strings as arguments as its first two
arguments, and uses the protocol's abbreviation as the name to use for
preferences in the preferences file and the "-o" flag and uses the
protocol's short name as the name to use in the tabs in the
"Edit->Preferences" window.
svn path=/trunk/; revision=2812
involving "g_module_build_path()", rather than by checking the platform
- this should let us handle non-Windows platforms that don't use ".so"
(e.g., HP-UX).
Use G_DIR_SEPARATOR_S as the pathname separator character when
generating the pathname of the module.
svn path=/trunk/; revision=2712
declare it, and define a "BIT_SWAP" macro that uses it, in
"epan/bitswap.h".
Use that macro to bit-swap bytes in the IEEE 802.11 dissector, rather
than the macro that was used (said macro used GCCisms and didn't compile
on Windows).
Make an "init_plugin()" routine to enable a plugin and call its init
routine, and call it from "check_plugin_status()" and
"plugins_enable_cb()", rather than having very similar code in two
places; "patable" is now part of libethereal, and, at least on Windows,
attempts to refer to it from "libui" failed. Make "patable" static to
"epan/plugins.c". (This may still not work, as now "libui" is calling a
routine in "libethereal"; if that fails, perhaps it's time to get rid of
the "enable/disable plugins" stuff completely, as new-style plugins, at
least, register themselves as protocols and should be controllable from
the "Edit->Protocols" window just as built-in dissectors are.)
svn path=/trunk/; revision=2649
dissector can get a "handle" for that dissector by name and then call
that dissector through the handle.
This allows dissectors that can't be called through a port table or a
heuristic table to be called from other dissectors without directly
referring to the dissector function - dynamically-loaded modules, under
Windows, cannot directly call functions in the main program, and
non-plugin dissectors are in the main program and thus cannot be called
from plugin dissectors unless either
1) a pointer to the dissector is put in the Big Transfer Vector
or
2) some other mechanism for getting a pointer to the dissector
is provided.
This mechanism could also support registering old-style dissectors and
calling them from new-style dissectors without the new-style dissector
having to do the argument translation itself (I didn't add support for
registering old-style dissectors because I'd prefer to have people
tvbuffify their code if they have to register a dissector...).
It could also, in the future, perhaps support
disabling of protocols;
setting "pinfo->current_proto";
inside "call_dissector()" - and inside "{old_}dissector_try_port()" and
"{old_"dissector_try_heuristic()" - allowing a pile of stuff that
currently has to be done in every dissector be done by common code.
(I have some ideas about how to do this, by
having "proto_register_protocol()" take an abbreviation - of the
sort that would be put in, for example, "pinfo->current_proto" -
as an argument;
having the calls to register dissectors take an index returned
by "proto_register_protocol()" as an argument.
The abbreviation could be used elsewhere as well, e.g. in the "Decoding"
tab of the "Edit->Protocols" dialog box, and in a GUI for constructing
protocol filters. Watch this space.)
Make "dissect_sdp()" the first client of this mechanism; it's now static
to "packet-sdp.c", and all dissectors that call it - including the MGCP
plugin - now call it through a dissector handle fetched by
"find_dissector()". (Next step - see if Ethereal can now compile on
Windows as a result of this.)
svn path=/trunk/; revision=2647
"proto_item_set_len()", "proto_item_set_text()", and the preference
routines expected to be used by dissectors to the table of function
pointers handed to dissectors on platforms where dynamically-loaded
modules can't access symbols from the main program.
svn path=/trunk/; revision=2638
of function pointers handed to dissectors on platforms where
dynamically-loaded modules can't access symbols from the main program.
svn path=/trunk/; revision=2635
"plugins/Makefile.nmake" to build that plugin.
Add to the table of routines callable from plugins
"old_dissector_add()", "old_dissect_data()", and
"proto_is_protocol_enabled()", so that the Gryphon dissector can build
on Windows.
Move the includes of "plugins/plugin_api.h" and "moduleinfo.h" before
all the other includes, except for "config.h", in "plugin-mgcp.c", to
match what the Gryphon dissector does; "plugins_api.h" must be included
before any of the routines whose names it #defines in order for the
plugin to build on Windows. (It still doesn't build on Windows, as
still more routines need to be added to the table of routines callable
from plugins, but tomorrow is another day. Making libethereal a DLL may
obviate the need for that table, *if* all the routines called from a
plugin are in libethereal, as I think routines in a DLL, even a
run-time-loaded DLL, can call routines from another DLL as long as those
routines are exported from the other DLL.)
svn path=/trunk/; revision=2623
variables and a "dissector" routine, a "plugin_reg_handoff()" routine,
which will act just like the "reg_handoff()" routine of a non-plugin
dissector, registering the dissector with handoff tables.
This lets them plug into both TCP and UDP, or plug into protocols other
than TCP or UDP.
Those new-style plugin are enabled and disabled using the standard
"Edit->Protocols" mechanism (and thus should use
"OLD_CHECK_DISPLAY_AS_DATA()" or "CHECK_DISPLAY_AS_DATA()"); they don't
show up in the list of plugins, aren't enabled or disabled from that
list, and, as they don't have a filter, can't have the filter changed
from that list - instead, they should register preferences for port
numbers and the like if they should be configurable to use different
ports.
Make the Gryphon protocol a new-style plugin.
svn path=/trunk/; revision=2565
file, rather than the top-level Ethereal configuration file, check for
"inet_aton()", "inet_pton()", and "inet_ntop()". Then make its
Makefile.am include the appropriate object files if necessary.
Otherwise, they don't get built and put into libethereal, and therefore
attempts to link with anything in libethereal that uses them fail on
platforms that lack ethem, causing the build to fail.
That means a bunch of things need to be fixed to cope with libethereal
having its own "config.h" file; this means removing the include of
"config.h" from some libethereal header files. Move the definitions of
the path names used only by "resolv.c" to "resolv.c" from "resolv.h" (so
"resolv.h" doesn't need "config.h", define HAVE_PLUGINS in the configure
script (so we don't have to include it in "plugins.h" to check whether
HAVE_DLFCN_H is defined).
Unfortunately, stuff outside libethereal needs to know PLUGIN_DIR; for
now, define that in the top-level configuration file, and have Ethereal
and Tethereal pass it as an argument to "epan_init()" - that should be
cleaned up at some point.
Remove from the top-level configure script checks for things used only
in libethereal.
svn path=/trunk/; revision=2498