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svn path=/trunk/; revision=1433
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In packet_hex_print(), compute (bstart + blen) only once.
In time_secs_to_str(), return a meaningful string when time == 0, instead
of returing pointer to char buffer with old, inappropriate data in it.
svn path=/trunk/; revision=1297
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svn path=/trunk/; revision=1295
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depends on dlopen() being available on the target platform
svn path=/trunk/; revision=1263
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svn path=/trunk/; revision=1234
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there are no SNMP libraries to use in a real dissector; this means that
other dissectors don't have to care if there are SNMP libraries, they
can just call "dissect_snmp()" - and this also simplifies "Makefile.am"
and "configure.in" a bit, as they just treat "packet-snmp.c" and
"packet-snmp.h" the same way they treat other dissector source files.
svn path=/trunk/; revision=1214
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svn path=/trunk/; revision=1191
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svn path=/trunk/; revision=1099
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svn path=/trunk/; revision=1086
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Rename the dissector for the Netware SAP protocol to "dissect_ipxsap()",
so as to keep its name from colliding with that of the dissector for the
Session Announcement Protocol.
svn path=/trunk/; revision=1046
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dynamically-assigned "ett_" integer values, assigned by
"proto_register_subtree_array()"; this:
obviates the need to update "packet.h" whenever you add a new
subtree type - you only have to add a call to
"proto_register_subtree_array()" to a "register" routine and an
array of pointers to "ett_", if they're not already there, and
add a pointer to the new "ett_" variable to the array, if they
are there;
would allow run-time-loaded dissectors to allocate subtree types
when they're loaded.
svn path=/trunk/; revision=1043
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into "dissect_rpc()" itself; it returns TRUE if it is, FALSE if it
isn't.
svn path=/trunk/; revision=1030
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svn path=/trunk/; revision=945
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svn path=/trunk/; revision=919
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structure to "dl_src"/"dl_dst", "net_src"/"net_dst", and "src"/"dst"
addresses, where an address is an address type, an address length in
bytes, and a pointer to that many bytes.
"dl_{src,dst}" are the link-layer source/destination; "net_{src,dst}"
are the network-layer source/destination; "{src,dst}" are the
source/destination from the highest of those two layers that we have in
the packet.
Add a port type to "packet_info" as well, specifying whether it's a TCP
or UDP port.
Don't set the address and port columns in the dissector functions; just
set the address and port members of the "packet_info" structure. Set
the columns in "fill_in_columns()"; this means that if we're showing
COL_{DEF,RES,UNRES}_SRC" or "COL_{DEF,RES,UNRES}_DST", we only generate
the string from "src" or "dst", we don't generate a string for the
link-layer address and then overwrite it with a string for the
network-layer address (generating those strings costs CPU).
Add support for "conversations", where a "conversation" is (at present)
a source and destination address and a source and destination port. (In
the future, we may support "conversations" above the transport layer,
e.g. a TFTP conversation, where the first packet goes from the client to
the TFTP server port, but the reply comes back from a different port,
and all subsequent packets go between the client address/port and the
server address/new port, or an NFS conversation, which might include
lock manager, status monitor, and mount packets, as well as NFS
packets.)
Currently, all we support is a call that takes the source and
destination address/port pairs, looks them up in a hash table, and:
if nothing is found, creates a new entry in the hash table, and
assigns it a unique 32-bit conversation ID, and returns that
conversation ID;
if an entry is found, returns its conversation ID.
Use that in the SMB and AFS code to keep track of individual SMB or AFS
conversations. We need to match up requests and replies, as, for
certain replies, the operation code for the request to which it's a
reply doesn't show up in the reply - you have to find the request with a
matching transaction ID. Transaction IDs are per-conversation, so the
hash table for requests should include a conversation ID and transaction
ID as the key.
This allows SMB and AFS decoders to handle IPv4 or IPv6 addresses
transparently (and should allow the SMB decoder to handle NetBIOS atop
other protocols as well, if the source and destination address and port
values in the "packet_info" structure are set appropriately).
In the "Follow TCP Connection" code, check to make sure that the
addresses are IPv4 addressses; ultimately, that code should be changed
to use the conversation code instead, which will let it handle IPv6
transparently.
svn path=/trunk/; revision=909
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svn path=/trunk/; revision=894
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svn path=/trunk/; revision=844
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svn path=/trunk/; revision=828
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and RIPng decoding.
svn path=/trunk/; revision=818
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the base for numbers to be displayed in, bitmasks for bitfields, and blurbs
(which are one or two sentences describing the field).
proto_tree_add*() routines now automatically handle bitfields. You tell
it which header field you are adding, and just pass it the value of the
entire field, and the proto_tree routines will do the masking and shifting
for you.
This means that bitfields are more naturally filtered via dfilter now.
Added Phil Techau's support for signed integers in dfilters/proto_tree.
Added the beginning of the SNA dissector. It's not complete, but I'm
committing it now because it has example after example of how to use
bitfields with the new header_field_info struct and proto_tree routines.
It was the impetus to change how header_field_info works.
svn path=/trunk/; revision=815
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svn path=/trunk/; revision=752
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svn path=/trunk/; revision=677
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bunch of source files.
Replace the "payload" field of a "packet_info" structure with "len" and
"captured_len" fields, which contain the total packet length and total
captured packet length (including all headers) at the current protocol
layer (i.e., if a given layer has a length field, and that length field
says its shorter than the length we got from the capture, reduce the
"pi.len" and "pi.captured_len" values appropriately). Those fields can
be used in the future if we add checks to make sure a field we're
extracting from a packet doesn't go past the end of the packet, or past
the captured part of the packet.
Get rid of the additional payload argument to some dissection functions;
use "pi.captured_len - offset" instead.
Have the END_OF_FRAME macro use "pi.captured_len" rather than
"fd->cap_len", so that "dissect the rest of the frame" becomes "dissect
the rest of the packet", and doesn't dissect end-of-frame padding such
as padding added to make an Ethernet frame 60 or more octets long. (We
might want to rename it END_OF_PACKET; if we ever want to label the
end-of-frame padding for the benefit of people curious what that extra
gunk is, we could have a separate END_OF_FRAME macro that uses
"fd->cap_len".)
svn path=/trunk/; revision=506
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"hash_table", but each of them is used only in the file in question;
make them static, so that they don't collide.
svn path=/trunk/; revision=440
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svn path=/trunk/; revision=376
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new proto_tree routines. I also removed the check for lex and yacc from
wiretap's configure script. The IP dissector now uses
proto_register_field_array().
svn path=/trunk/; revision=348
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mechanism that is built into ethereal. Wiretap is now used to read all
file formats. Libpcap is used only for capturing.
svn path=/trunk/; revision=342
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source and destination port numbers, check both port numbers against the
specified port, rather than checking the lower of the two port numbers
against the specified port, just in case you happen to either have
1) the port number for that type being high enough that you can
get client sockets using it
or
2) client sockets using it for some other reason.
svn path=/trunk/; revision=333
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svn path=/trunk/; revision=303
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if you have the UCD or CMU SNMP library available. If you have the SNMP
library but do not with to have SNMP support, use the
./configure --disable-snmp
option. Otherwise 'configure' finds the SNMP library and uses it.
svn path=/trunk/; revision=281
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svn path=/trunk/; revision=269
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reference the protocol tree with struct proto_tree and struct proto_item
objects. That way, the packet decoding source code file can be used with
non-gtk packet decoders, like a curses-based ethereal, e.g. I also re-arranged
some of the information in packet.h to more appropriate places (like other
packet-*.[ch] files).
svn path=/trunk/; revision=223
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svn path=/trunk/; revision=197
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svn path=/trunk/; revision=190
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* Added Joerg to the AUTHORS file
* Added Guy's bitfield decode patch
* Fixed time output
svn path=/trunk/; revision=142
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svn path=/trunk/; revision=132
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svn path=/trunk/; revision=113
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svn path=/trunk/; revision=98
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* Added check_col(), add_col_str() and add_col_fmt() to replace references
to ft->win_info.
* Added column prefs handling code.
svn path=/trunk/; revision=97
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isn't).
svn path=/trunk/; revision=54
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that these are two very different implementations of NetBIOS name services and
at the protocol level are not similar. I have put the UDP protocol in
packet-nbns.c, since it will be a very big module. I have all of rfc 1002 to
read and implement. I am planning on putting many different NetBIOS over IPX
functions in packet-nbipx.c, however, since there is no RFC or published
standard. I have to hack the protocol, and as such, I do not expect it to be
as full-featured as the IP-world equivalents.
svn path=/trunk/; revision=50
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generalizes the column printing code, adds a "frame" tree item to
the tree view, and fixes a bunch of miscellaneous coding bugs.
svn path=/trunk/; revision=31
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svn path=/trunk/; revision=20
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svn path=/trunk/; revision=7
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svn path=/trunk/; revision=2
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