fabio matturro wrote:
: D Hello.
I've read the chapter on conversations. Still, I've got some doubts.
I know that a conversation is a flow of packets from A to B.
Now, how can I retrieve these packets?
My problems is as follows:
My protocol sends packets that sometimes are correlated. For instance,
it sends packet A (opcode), then packet B (fields). They're NOT fragmented.
What I'd like to do is, if I stumble on packet B(that, containing only
fileds is not very common in my protocol), during a conversation can I
have a look at previous packets till I find packet A so that i can
relate them to each other?
If you see packet B, there is no mechanism to allow you to look backward
in the capture for a "packet A". (Bear in mind that the *exact same
dissector code* is used in Ethereal and Tethereal, and Tethereal can be
used in a live capture, where you don't get to go back and look for a
packet.)
However, Tethereal, when it's dissecting packets (rather than just
saving them to a file), dissects every packet in the capture or file, in
order, and Ethereal, when it's reading in a capture file, dissects every
packet in the capture file, in order.
Thus, when you see a "packet A", you can, the first time you dissect it,
save information in a data structure attached to the conversation, and,
when you later see a "packet B", you can use that information to dissect it.
Note, however, that, in Ethereal, if you've read in the capture, and
then click on "packet B", there's no guarantee that the packet that was
most recently dissected by Ethereal is "packet A".
Therefore. when you dissect "packet B" the first time, you'd need to
attach to the packet the information you need to dissect it.
For the per-conversation data structure, you'd attach the data structure
to the conversation with "conversation_add_proto_data()", using the
number you got back from "proto_register_protocol()" when you registered
the protocol.
I.e., for a "packet A", you'd search for a conversation and, if you
don't find one, create one. Then try to get the conversation data for
the conversation you found or created with
"conversation_get_proto_data()" (again, using the number you got back
from "proto_register_protocol()") and, if you don't find any, allocate a
conversation data structure and add it to the conversation. Then set
the information in that data structure (the opcode?).
For a "packet B", try to get the per-packet data for the packet with
"p_get_proto_data()"; again, use the number you got back from
"proto_register_protocol()". If you don't find one, then, if this is
the first time the packet was seen (i.e., if pinfo->fd->flags.visited is
false), then:
Search for a conversation and, if you find it, try to get the
conversation data for the conversation.
If you have the conversation data, allocate a per-packet data
structure, and copy the information needed to dissect the packet from
the per-conversation data structure to the per-packet data structure.
If, after all that, you don't have a per-packet data structure (i.e., if
the packet didn't have any per-packet data, and there either was no
conversation or it didn't have any per-conversation data), there *was*
no "packet A", and you'll have to dissect what part of the packet you
can do without "packet A" - which could be nothing at all.
Otherwise, use the per-packet data structure information.