module Network.PeyoTLS.HandshakeBase (
PeyotlsM, PeyotlsHandle,
debug, generateKs, blindSign, CertSecretKey(..),
HM.TlsM, HM.run, HM.HandshakeM, HM.execHandshakeM,
HM.withRandom, HM.randomByteString,
HM.TlsHandle, HM.names,
readHandshake, getChangeCipherSpec,
writeHandshake, putChangeCipherSpec,
HM.ValidateHandle(..), HM.handshakeValidate,
HM.Alert(..), HM.AlertLevel(..), HM.AlertDesc(..),
ServerKeyExchange(..), ServerKeyExDhe(..), ServerKeyExEcdhe(..),
ServerHelloDone(..),
ClientHello(..), ServerHello(..), SessionId(..),
CipherSuite(..), KeyExchange(..), BulkEncryption(..),
CompressionMethod(..), HashAlg(..), SignAlg(..),
HM.setCipherSuite,
CertificateRequest(..), certificateRequest, ClientCertificateType(..), SecretKey(..),
ClientKeyExchange(..), Epms(..),
HM.generateKeys,
HM.encryptRsa, HM.decryptRsa, HM.rsaPadding, HM.debugCipherSuite,
DigitallySigned(..), HM.handshakeHash, HM.flushCipherSuite,
HM.Side(..), HM.RW(..), finishedHash,
DhParam(..), dh3072Modp, secp256r1, HM.throwError ) where
import Control.Applicative
import Control.Arrow (first)
import Control.Monad (liftM, ap)
import "monads-tf" Control.Monad.State (gets, lift)
import Data.Word (Word8)
import Data.HandleLike (HandleLike(..))
import System.IO (Handle)
import Numeric (readHex)
import "crypto-random" Crypto.Random (CPRG, SystemRNG, cprgGenerate)
import qualified Data.ByteString as BS
import qualified Data.ByteString.Char8 as BSC
import qualified Data.ASN1.Types as ASN1
import qualified Data.ASN1.Encoding as ASN1
import qualified Data.ASN1.BinaryEncoding as ASN1
import qualified Codec.Bytable.BigEndian as B
import qualified Crypto.Hash.SHA1 as SHA1
import qualified Crypto.Hash.SHA256 as SHA256
import qualified Crypto.PubKey.RSA as RSA
import qualified Crypto.PubKey.RSA.Prim as RSA
import qualified Crypto.Types.PubKey.DH as DH
import qualified Crypto.PubKey.DH as DH
import qualified Crypto.Types.PubKey.ECC as ECC
import qualified Crypto.PubKey.ECC.Prim as ECC
import qualified Crypto.Types.PubKey.ECDSA as ECDSA
import Network.PeyoTLS.HandshakeType (
Handshake, HandshakeItem(..),
ClientHello(..), ServerHello(..), SessionId(..),
CipherSuite(..), KeyExchange(..), BulkEncryption(..),
CompressionMethod(..),
ServerKeyExchange(..), ServerKeyExDhe(..), ServerKeyExEcdhe(..),
CertificateRequest(..), certificateRequest, ClientCertificateType(..),
SignAlg(..), HashAlg(..),
ServerHelloDone(..), ClientKeyExchange(..), Epms(..),
DigitallySigned(..), Finished(..) )
import qualified Network.PeyoTLS.HandshakeMonad as HM (
TlsM, run, HandshakeM, execHandshakeM, withRandom, randomByteString,
ValidateHandle(..), handshakeValidate,
TlsHandle(..), ContentType(..),
names,
setCipherSuite, flushCipherSuite, debugCipherSuite,
tlsGetContentType, tlsGet, tlsPut,
generateKeys, encryptRsa, decryptRsa, rsaPadding,
Alert(..), AlertLevel(..), AlertDesc(..),
Side(..), RW(..), handshakeHash, finishedHash, throwError )
import Network.PeyoTLS.Ecdsa (blindSign, generateKs)
import Network.PeyoTLS.CertSecretKey
type PeyotlsM = HM.TlsM Handle SystemRNG
type PeyotlsHandle = HM.TlsHandle Handle SystemRNG
debug :: (HandleLike h, Show a) => a -> HM.HandshakeM h g ()
debug x = do
h <- gets $ HM.tlsHandle . fst
lift . lift . lift . hlDebug h "moderate" . BSC.pack . (++ "\n") $ show x
readHandshake :: (HandleLike h, CPRG g, HandshakeItem hi) => HM.HandshakeM h g hi
readHandshake = do
cnt <- readContent HM.tlsGet =<< HM.tlsGetContentType
hs <- case cnt of
CHandshake hs -> return hs
_ -> HM.throwError
HM.ALFatal HM.ADUnexpectedMessage
"HandshakeBase.readHandshake: not handshake"
case fromHandshake hs of
Just i -> return i
_ -> HM.throwError
HM.ALFatal HM.ADUnexpectedMessage $
"HandshakeBase.readHandshake: type mismatch " ++ show hs
writeHandshake ::
(HandleLike h, CPRG g, HandshakeItem hi) => hi -> HM.HandshakeM h g ()
writeHandshake = uncurry HM.tlsPut . encodeContent . CHandshake . toHandshake
data ChangeCipherSpec = ChangeCipherSpec | ChangeCipherSpecRaw Word8 deriving Show
instance B.Bytable ChangeCipherSpec where
decode bs = case BS.unpack bs of
[1] -> Right ChangeCipherSpec
[w] -> Right $ ChangeCipherSpecRaw w
_ -> Left "HandshakeBase: ChangeCipherSpec.decode"
encode ChangeCipherSpec = BS.pack [1]
encode (ChangeCipherSpecRaw w) = BS.pack [w]
getChangeCipherSpec :: (HandleLike h, CPRG g) => HM.HandshakeM h g ()
getChangeCipherSpec = do
cnt <- readContent HM.tlsGet =<< HM.tlsGetContentType
case cnt of
CCCSpec ChangeCipherSpec -> return ()
_ -> HM.throwError
HM.ALFatal HM.ADUnexpectedMessage $
"HandshakeBase.getChangeCipherSpec: " ++
"not change cipher spec: " ++
show cnt
putChangeCipherSpec :: (HandleLike h, CPRG g) => HM.HandshakeM h g ()
putChangeCipherSpec = uncurry HM.tlsPut . encodeContent $ CCCSpec ChangeCipherSpec
data Content = CCCSpec ChangeCipherSpec | CAlert Word8 Word8 | CHandshake Handshake
deriving Show
readContent :: Monad m => (Int -> m BS.ByteString) -> HM.ContentType -> m Content
readContent rd HM.CTCCSpec = (CCCSpec . either error id . B.decode) `liftM` rd 1
readContent rd HM.CTAlert = ((\[al, ad] -> CAlert al ad) . BS.unpack) `liftM` rd 2
readContent rd HM.CTHandshake = CHandshake `liftM` do
(t, len) <- (,) `liftM` rd 1 `ap` rd 3
body <- rd . either error id $ B.decode len
return . either error id . B.decode $ BS.concat [t, len, body]
readContent _ _ = undefined
encodeContent :: Content -> (HM.ContentType, BS.ByteString)
encodeContent (CCCSpec ccs) = (HM.CTCCSpec, B.encode ccs)
encodeContent (CAlert al ad) = (HM.CTAlert, BS.pack [al, ad])
encodeContent (CHandshake hss) = (HM.CTHandshake, B.encode hss)
class SecretKey sk where
type Blinder sk
generateBlinder :: CPRG g => sk -> g -> (Blinder sk, g)
sign :: HashAlg -> Blinder sk -> sk -> BS.ByteString -> BS.ByteString
signatureAlgorithm :: sk -> SignAlg
instance SecretKey RSA.PrivateKey where
type Blinder RSA.PrivateKey = RSA.Blinder
generateBlinder sk rng =
RSA.generateBlinder rng . RSA.public_n $ RSA.private_pub sk
sign hs bl sk bs = let
(h, oid) = first ($ bs) $ case hs of
Sha1 -> (SHA1.hash,
ASN1.OID [1, 3, 14, 3, 2, 26])
Sha256 -> (SHA256.hash,
ASN1.OID [2, 16, 840, 1, 101, 3, 4, 2, 1])
_ -> error $ "HandshakeBase: " ++
"not implemented bulk encryption type"
a = [ASN1.Start ASN1.Sequence,
ASN1.Start ASN1.Sequence,
oid, ASN1.Null, ASN1.End ASN1.Sequence,
ASN1.OctetString h, ASN1.End ASN1.Sequence]
b = ASN1.encodeASN1' ASN1.DER a
pd = BS.concat [ "\x00\x01",
BS.replicate (ps 3 BS.length b) 0xff, "\NUL", b ]
ps = RSA.public_size $ RSA.private_pub sk in
RSA.dp (Just bl) sk pd
signatureAlgorithm _ = Rsa
instance SecretKey ECDSA.PrivateKey where
type Blinder ECDSA.PrivateKey = Integer
generateBlinder _ rng = let
(Right bl, rng') = first B.decode $ cprgGenerate 32 rng in
(bl, rng')
sign ha bl sk = B.encode .
(($) <$> blindSign bl hs sk . generateKs (hs, bls) q x <*> id)
where
(hs, bls) = case ha of
Sha1 -> (SHA1.hash, 64)
Sha256 -> (SHA256.hash, 64)
_ -> error $ "HandshakeBase: " ++
"not implemented bulk encryption type"
q = ECC.ecc_n . ECC.common_curve $ ECDSA.private_curve sk
x = ECDSA.private_d sk
signatureAlgorithm _ = Ecdsa
class DhParam b where
type Secret b
type Public b
generateSecret :: CPRG g => b -> g -> (Secret b, g)
calculatePublic :: b -> Secret b -> Public b
calculateShared :: b -> Secret b -> Public b -> BS.ByteString
instance DhParam DH.Params where
type Secret DH.Params = DH.PrivateNumber
type Public DH.Params = DH.PublicNumber
generateSecret = flip DH.generatePrivate
calculatePublic = DH.calculatePublic
calculateShared ps sn pn = B.encode .
(\(DH.SharedKey s) -> s) $ DH.getShared ps sn pn
dh3072Modp :: DH.Params
dh3072Modp = DH.Params p 2
where [(p, "")] = readHex $
"ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd1" ++
"29024e088a67cc74020bbea63b139b22514a08798e3404dd" ++
"ef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245" ++
"e485b576625e7ec6f44c42e9a637ed6b0bff5cb6f406b7ed" ++
"ee386bfb5a899fa5ae9f24117c4b1fe649286651ece45b3d" ++
"c2007cb8a163bf0598da48361c55d39a69163fa8fd24cf5f" ++
"83655d23dca3ad961c62f356208552bb9ed529077096966d" ++
"670c354e4abc9804f1746c08ca18217c32905e462e36ce3b" ++
"e39e772c180e86039b2783a2ec07a28fb5c55df06f4c52c9" ++
"de2bcbf6955817183995497cea956ae515d2261898fa0510" ++
"15728e5a8aaac42dad33170d04507a33a85521abdf1cba64" ++
"ecfb850458dbef0a8aea71575d060c7db3970f85a6e1e4c7" ++
"abf5ae8cdb0933d71e8c94e04a25619dcee3d2261ad2ee6b" ++
"f12ffa06d98a0864d87602733ec86a64521f2b18177b200c" ++
"bbe117577a615d6c770988c0bad946e208e24fa074e5ab31" ++
"43db5bfce0fd108e4b82d120a93ad2caffffffffffffffff"
instance DhParam ECC.Curve where
type Secret ECC.Curve = Integer
type Public ECC.Curve = ECC.Point
generateSecret c = getRangedInteger 32 1 (n 1)
where
n = ECC.ecc_n $ ECC.common_curve c
calculatePublic cv sn =
ECC.pointMul cv sn . ECC.ecc_g $ ECC.common_curve cv
calculateShared cv sn pp =
let ECC.Point x _ = ECC.pointMul cv sn pp in B.encode x
getRangedInteger :: CPRG g => Int -> Integer -> Integer -> g -> (Integer, g)
getRangedInteger b mn mx g = let
(n, g') = first (either error id . B.decode) $ cprgGenerate b g in
if mn <= n && n <= mx then (n, g') else getRangedInteger b mn mx g'
secp256r1 :: ECC.Curve
secp256r1 = ECC.getCurveByName ECC.SEC_p256r1
finishedHash :: (HandleLike h, CPRG g) => HM.Side -> HM.HandshakeM h g Finished
finishedHash = (Finished `liftM`) . HM.finishedHash