I am trying to decode a pcap file and its working fine except couple of things.
import Network.Pcap import System.IO import Control.Monad callfun f = do ( p , q ) <- next f print $ hdrSeconds p print $ hdrCaptureLength p print $ hdrWireLength p print q when ( hdrWireLength p /= 0 ) $ callfun f main = do f <- openOffline "udp_lite_full_coverage_0.pcap" callfun f
I want the time return by hdrSeconds p [ time to capture ] in same format as in wireshark [ Date : Month : Year Hour : Min : Sec ] and data return by variable q in Ascii format.Kindly tell me how to do this.
Actually i was trying to parse pcap file to display its content in almost similar manner to wireshark without libpcap library [ purely in haskell by opening the pcap file in binary format and read byte by byte ] but i could not get any further. Could some please put the guide map for this project like what to read , how to approach , any thing which you feel would be helpful .
Edit: I started writing this application but there is some thing missing. I read this file http://www.viste.com/Linux/Server/WireShark/libpcapformat.pdf and it say that first 24 bytes are global headers , after that every packet contains pcap local header . What i am trying to do is , first trying to get the bytes of data in each packet by reading the third field incl_len in local header but my code is not behaving as it suppose . My test libcap file.
--http://www.viste.com/Linux/Server/WireShark/libpcapformat.pdf import Data.List import qualified Data.ByteString.Lazy as BS import qualified Data.ByteString.Lazy.Char8 as B import Control.Monad import Text.Printf import Data.Word import Data.Char import System.Time import Numeric import System.Environment hexTodec :: BS.ByteString -> Integer hexTodec lst = read $ "0x" ++ ( concatMap ( \x -> showHex x "" ) $ BS.unpack lst ) parseFile :: BS.ByteString -> Bool -> IO [ BS.ByteString ] parseFile xs revflag | BS.null xs = return  | otherwise = do let ind =if revflag then hexTodec . BS.reverse . BS.take 4 . BS.drop 8 $ xs else hexTodec . BS.take 4 . BS.drop 8 $ xs print ind let ( x , ys ) = BS.splitAt ( fromIntegral ind ) xs --BS.putStrLn $ x tmp <- parseFile ys revflag return $ x : tmp main = do [ file ] <- getArgs contents <- BS.readFile file let ( a , rest ) = BS.splitAt 24 contents --strip global header let revflag = case BS.unpack $ BS.take 4 a of [ 0xd4 , 0xc3 , 0xb2 , 0xa1 ] -> True _ -> False p <- parseFile rest revflag print $ p !! 0 BS.putStr $ p !! 0