-- |
-- Module      : Network.TLS.Sending
-- License     : BSD-style
-- Maintainer  : Vincent Hanquez <vincent@snarc.org>
-- Stability   : experimental
-- Portability : unknown
--
-- the Sending module contains calls related to marshalling packets according
-- to the TLS state 
--
module Network.TLS.Sending (writePacket, encryptRSA, signRSA) where

import Control.Applicative ((<$>))
import Control.Monad.State

import Data.ByteString (ByteString)
import qualified Data.ByteString as B

import Network.TLS.Util
import Network.TLS.Struct
import Network.TLS.Record
import Network.TLS.Packet
import Network.TLS.State
import Network.TLS.Handshake.State
import Network.TLS.Crypto

-- | 'makePacketData' create a Header and a content bytestring related to a packet
-- this doesn't change any state
makeRecord :: Packet -> RecordM (Record Plaintext)
makeRecord pkt = do
    ver <- stVersion <$> get
    return $ Record (packetType pkt) ver (fragmentPlaintext $ writePacketContent pkt)
  where writePacketContent (Handshake hss)    = encodeHandshakes hss
        writePacketContent (Alert a)          = encodeAlerts a
        writePacketContent (ChangeCipherSpec) = encodeChangeCipherSpec
        writePacketContent (AppData x)        = x

-- | marshall packet data
encodeRecord :: Record Ciphertext -> RecordM ByteString
encodeRecord record = return $ B.concat [ encodeHeader hdr, content ]
  where (hdr, content) = recordToRaw record

-- | writePacket transform a packet into marshalled data related to current state
-- and updating state on the go
writePacket :: Packet -> TLSSt ByteString
writePacket pkt@(Handshake hss) = do
    forM_ hss $ \hs -> do
        case hs of
            Finished fdata -> updateVerifiedData True fdata
            _              -> return ()
        let encoded = encodeHandshake hs
        when (certVerifyHandshakeMaterial hs) $ withHandshakeM $ addHandshakeMessage encoded
        when (finishHandshakeTypeMaterial $ typeOfHandshake hs) $ withHandshakeM $ updateHandshakeDigest encoded
    runRecordStateSt (makeRecord pkt >>= engageRecord >>= encodeRecord)
writePacket pkt = do
    d <- runRecordStateSt (makeRecord pkt >>= engageRecord >>= encodeRecord)
    when (pkt == ChangeCipherSpec) $ runRecordStateSt switchTxEncryption
    return d

{------------------------------------------------------------------------------}
{- SENDING Helpers                                                            -}
{------------------------------------------------------------------------------}

{- if the RSA encryption fails we just return an empty bytestring, and let the protocol
 - fail by itself; however it would be probably better to just report it since it's an internal problem.
 -}
encryptRSA :: ByteString -> TLSSt ByteString
encryptRSA content = do
    rsakey <- fromJust "rsa public key" . hstRSAPublicKey . fromJust "handshake" . stHandshake <$> get
    runRecordStateSt $ do
        st <- get
        let (v,rng') = withTLSRNG (stRandomGen st) (\g -> kxEncrypt g rsakey content)
        put (st { stRandomGen = rng' })
        case v of
            Left err       -> fail ("rsa encrypt failed: " ++ show err)
            Right econtent -> return econtent

signRSA :: HashDescr -> ByteString -> TLSSt ByteString
signRSA hsh content = do
    rsakey <- fromJust "rsa client private key" . hstRSAClientPrivateKey . fromJust "handshake" . stHandshake <$> get
    runRecordStateSt $ do
        st <- get
        let (r, rng') = withTLSRNG (stRandomGen st) (\g -> kxSign g rsakey hsh content)
        put (st { stRandomGen = rng' })
        case r of
            Left err       -> fail ("rsa sign failed: " ++ show err)
            Right econtent -> return econtent