module Network.PeyoTLS.Server.Body (
Keys(..), toCheckName,
PeyotlsM, PeyotlsHandle, TlsM, TlsHandle, Alert(..),
run, run', open, getNames, getCertificate,
renegotiate, setCipherSuites, setKeyCerts, setCertificateStore,
CipherSuite(..), KeyEx(..), BulkEnc(..),
ValidateHandle(..), CertSecretKey(..) ) where
import Control.Applicative ((<$>), (<*>))
import Control.Arrow (first)
import Control.Monad (when, unless, liftM, ap)
import "monads-tf" Control.Monad.Error (catchError)
import "monads-tf" Control.Monad.Error.Class (strMsg)
import Data.Maybe (fromJust)
import Data.List (find)
import Data.Word (Word8)
import Data.Function
import Data.HandleLike (HandleLike(..))
import System.IO (Handle)
import Numeric (readHex)
import "crypto-random" Crypto.Random (CPRG, SystemRNG, cprgGenerate)
import qualified "monads-tf" Control.Monad.Error as E
import qualified Data.ByteString as BS
import qualified Data.X509 as X509
import qualified Data.X509.CertificateStore as X509
import qualified Codec.Bytable.BigEndian as B
import qualified Crypto.PubKey.RSA as RSA
import qualified Crypto.PubKey.RSA.PKCS15 as RSA
import qualified Crypto.Types.PubKey.DH as DH
import qualified Crypto.Types.PubKey.ECC as ECC
import qualified Network.PeyoTLS.Base as BASE (getNames, getCertificate)
import Network.PeyoTLS.Base ( debug, Keys(..),
PeyotlsM, TlsM, run, run', wFlush,
SettingsS, getSettingsS, setSettingsS,
adGet, adGetLine, adGetContent, adPut, adDebug, adClose,
HandshakeM, execHandshakeM, rerunHandshakeM,
withRandom, flushAd,
Alert(..), AlertLevel(..), AlertDesc(..), throw, debugCipherSuite,
ValidateHandle(..), handshakeValidate, validateAlert,
HandleBase, CertSecretKey(..), isRsaKey, isEcdsaKey,
readHandshake, writeHandshake, CCSpec(..),
Handshake(HHelloReq),
ClHello(..), SvHello(..), SssnId(..), Extension(..),
isRnInfo, emptyRnInfo,
CipherSuite(..), KeyEx(..), BulkEnc(..),
CmpMtd(..), HashAlg(..), SignAlg(..),
getCipherSuite, setCipherSuite,
checkClRenego, makeSvRenego,
SvKeyEx(..), SvSignSecretKey(..),
certReq, ClCertType(..),
SHDone(..),
ClKeyEx(..), Epms(..), makeKeys,
DigitSigned(..), ClSignPublicKey(..), handshakeHash,
RW(..), flushCipherSuite,
Side(..), finishedHash,
DhParam(..), ecdsaPubKey )
type PeyotlsHandle = TlsHandle Handle SystemRNG
newtype TlsHandle h g = TlsHandleS { tlsHandleS :: HandleBase h g } deriving Show
instance (ValidateHandle h, CPRG g) => HandleLike (TlsHandle h g) where
type HandleMonad (TlsHandle h g) = TlsM h g
type DebugLevel (TlsHandle h g) = DebugLevel h
hlPut = adPut . tlsHandleS
hlGet = adGet rehandshake . tlsHandleS
hlGetLine = adGetLine rehandshake . tlsHandleS
hlGetContent = adGetContent rehandshake . tlsHandleS
hlDebug = adDebug . tlsHandleS
hlClose = adClose . tlsHandleS
hlFlush = wFlush . tlsHandleS
type Version = (Word8, Word8)
version :: Version
version = (3, 3)
moduleName :: String
moduleName = "Network.PeyoTLS.Server"
getNames :: HandleLike h => TlsHandle h g -> TlsM h g [String]
getNames = BASE.getNames . tlsHandleS
getCertificate :: HandleLike h => TlsHandle h g -> TlsM h g X509.SignedCertificate
getCertificate = (fromJust `liftM`) . BASE.getCertificate . tlsHandleS
open :: (ValidateHandle h, CPRG g) => h -> [CipherSuite] ->
[(CertSecretKey, X509.CertificateChain)] -> Maybe X509.CertificateStore ->
TlsM h g (TlsHandle h g)
open h cssv crts mcs = liftM TlsHandleS . execHandshakeM h $
((>>) <$> setSettingsS <*> handshake) (cssv',
first rsaKey <$> find (isRsaKey . fst) crts,
first ecdsaKey <$> find (isEcdsaKey . fst) crts, mcs )
where
cssv' = filter iscs $ case find (isEcdsaKey . fst) crts of
Just _ -> cssv
_ -> flip filter cssv $ \cs -> case cs of
CipherSuite ECDHE_ECDSA _ -> False
_ -> True
iscs (CipherSuiteRaw _ _) = False
iscs EMPTY_RENEGOTIATION_INFO = False
iscs _ = True
setCipherSuites :: (ValidateHandle h, CPRG g) => TlsHandle h g ->
[CipherSuite] -> TlsM h g ()
setCipherSuites (TlsHandleS t) cssv = rerunHandshakeM t $ do
(_, rcrt, ecrt, mcs) <- getSettingsS
setSettingsS (cssv, rcrt, ecrt, mcs)
setKeyCerts :: (ValidateHandle h, CPRG g) => TlsHandle h g ->
[(CertSecretKey, X509.CertificateChain)] -> TlsM h g ()
setKeyCerts (TlsHandleS t) crts = rerunHandshakeM t $ do
(cssv, _, _, mcs) <- getSettingsS
setSettingsS (cssv,
first rsaKey <$> find (isRsaKey . fst) crts,
first ecdsaKey <$> find (isEcdsaKey . fst) crts, mcs)
setCertificateStore :: (ValidateHandle h, CPRG g) => TlsHandle h g ->
Maybe X509.CertificateStore -> TlsM h g ()
setCertificateStore (TlsHandleS t) mcs = rerunHandshakeM t $ do
(cssv, rcrt, ecrt, _) <- getSettingsS
setSettingsS (cssv, rcrt, ecrt, mcs)
renegotiate :: (ValidateHandle h, CPRG g) => TlsHandle h g -> TlsM h g ()
renegotiate (TlsHandleS t) = rerunHandshakeM t $ do
writeHandshake HHelloReq
debug "low" ("before flushAd" :: String)
ne <- flushAd
debug "low" ("after flushAd" :: String)
when ne (handshake =<< getSettingsS)
rehandshake :: (ValidateHandle h, CPRG g) => HandleBase h g -> TlsM h g ()
rehandshake t = rerunHandshakeM t $ handshake =<< getSettingsS
handshake :: (ValidateHandle h, CPRG g) => SettingsS -> HandshakeM h g ()
handshake (cssv, rcrt, ecrt, mcs) = do
(ke, be, cr, cv) <- clientHello cssv
sr <- serverHello (snd <$> rcrt) (snd <$> ecrt)
ha <- case be of
AES_128_CBC_SHA -> return Sha1
AES_128_CBC_SHA256 -> return Sha256
_ -> throw ALFtl ADInternalErr $
pre ++ "not implemented bulk encryption type"
mpk <- ($ mcs) . ($ (cr, sr)) $ case (ke, fst <$> rcrt, fst <$> ecrt) of
(RSA, Just rsk, _) -> rsaKeyExchange rsk cv
(DHE_RSA, Just rsk, _) -> dhKeyExchange ha dh3072Modp rsk
(ECDHE_RSA, Just rsk, _) -> dhKeyExchange ha secp256r1 rsk
(ECDHE_ECDSA, _, Just esk) -> dhKeyExchange ha secp256r1 esk
_ -> \_ _ -> throw ALFtl ADInternalErr $
pre ++ "no implemented key exchange type or " ++
"no applicable certificate files"
flip (maybe $ return ()) mpk $ \pk -> case pk of
X509.PubKeyRSA rpk -> certVerify rpk
X509.PubKeyECDSA c xy -> certVerify $ ecdsaPubKey c xy
_ -> throw ALFtl ADUnsCert $ pre ++ "not implement: " ++ show pk
CCSpec <- readHandshake
flushCipherSuite Read
(==) `liftM` finishedHash Client `ap` readHandshake >>= \ok -> unless ok .
throw ALFtl ADDecryptErr $ pre ++ "wrong finished hash"
writeHandshake CCSpec
flushCipherSuite Write
writeHandshake =<< finishedHash Server
where pre = moduleName ++ ".handshake: "
secp256r1 :: ECC.Curve
secp256r1 = ECC.getCurveByName ECC.SEC_p256r1
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"
clientHello :: (HandleLike h, CPRG g) => [CipherSuite] ->
HandshakeM h g (KeyEx, BulkEnc, BS.ByteString, Version)
clientHello cssv = do
ClHello cv cr _sid cscl cms me <- readHandshake
checkRnInfo cscl me
unless (cv >= version) . throw ALFtl ADProtoVer $
pre ++ "only implement TLS 1.2"
unless (CmpMtdNull `elem` cms) . throw ALFtl ADDecodeErr $
pre ++ "compression method NULL must be supported"
(ke, be) <- case find (`elem` cscl) cssv of
Just cs@(CipherSuite k b) -> setCipherSuite cs >> return (k, b)
_ -> throw ALFtl ADHsFailure $
pre ++ "no acceptable set of security parameters: \n\t" ++
"cscl: " ++ show cscl ++ "\n\t" ++
"cssv: " ++ show cssv ++ "\n"
return (ke, be, cr, cv)
where pre = moduleName ++ ".clientHello: "
checkRnInfo ::
HandleLike h => [CipherSuite] -> Maybe [Extension] -> HandshakeM h g ()
checkRnInfo cscl me = (\n -> maybe n checkClRenego mcf) . throw
ALFtl ADInsSec $ moduleName ++ ".checkRenego: require secure renegotiation"
where mcf = case (EMPTY_RENEGOTIATION_INFO `elem` cscl, me) of
(True, _) -> Just emptyRnInfo
(_, Just e) -> find isRnInfo e
(_, _) -> Nothing
serverHello :: (HandleLike h, CPRG g) =>
Maybe X509.CertificateChain -> Maybe X509.CertificateChain ->
HandshakeM h g BS.ByteString
serverHello rcc ecc = do
cs <- getCipherSuite
ke <- case cs of
CipherSuite k _ -> return k
_ -> throw ALFtl ADInternalErr $
moduleName ++ ".serverHello: never occur"
sr <- withRandom $ cprgGenerate 32
writeHandshake
. SvHello version sr (SssnId "") cs CmpMtdNull
. Just . (: []) =<< makeSvRenego
writeHandshake =<< case (ke, rcc, ecc) of
(ECDHE_ECDSA, _, Just c) -> return c
(_, Just c, _) -> return c
_ -> throw ALFtl ADInternalErr $
moduleName ++ ".serverHello: cert files not match"
return sr
rsaKeyExchange :: (ValidateHandle h, CPRG g) => RSA.PrivateKey -> Version ->
(BS.ByteString, BS.ByteString) -> Maybe X509.CertificateStore ->
HandshakeM h g (Maybe X509.PubKey)
rsaKeyExchange sk (vj, vn) rs mcs = const `liftM` reqAndCert mcs `ap` do
Epms epms <- readHandshake
makeKeys Server rs =<< mkpms epms `catchError` const
((BS.cons vj . BS.cons vn) `liftM` withRandom (cprgGenerate 46))
where mkpms epms = do
pms <- either (E.throwError . strMsg . show) return =<<
withRandom (\g -> RSA.decryptSafer g sk epms)
unless (BS.length pms == 48) $ throw ALFtl ADHsFailure ""
let [pvj, pvn] = BS.unpack $ BS.take 2 pms
unless (pvj == vj && pvn == vn) $ throw ALFtl ADHsFailure ""
return pms
dhKeyExchange :: (ValidateHandle h, CPRG g, SvSignSecretKey sk,
DhParam dp, B.Bytable dp, B.Bytable (Public dp)) =>
HashAlg -> dp -> sk -> (BS.ByteString, BS.ByteString) ->
Maybe X509.CertificateStore -> HandshakeM h g (Maybe X509.PubKey)
dhKeyExchange ha dp sk rs@(cr, sr) mcs = do
sv <- withRandom $ generateSecret dp
bl <- withRandom $ generateBlinder sk
let pv = B.encode $ calculatePublic dp sv
writeHandshake
. SvKeyEx (B.encode dp) pv ha (sssAlgorithm sk)
. ssSign sk ha bl $ BS.concat [cr, sr, B.encode dp, pv]
const `liftM` reqAndCert mcs `ap` do
ClKeyEx cke <- readHandshake
makeKeys Server rs . calculateShared dp sv =<<
either (throw ALFtl ADInternalErr .
(moduleName ++) . (".dhKeyExchange: " ++))
return (B.decode cke)
reqAndCert :: (ValidateHandle h, CPRG g) =>
Maybe X509.CertificateStore -> HandshakeM h g (Maybe X509.PubKey)
reqAndCert mcs = do
flip (maybe $ return ()) mcs $ writeHandshake . certReq
[CTRsaSign, CTEcdsaSign] [(Sha256, Rsa), (Sha256, Ecdsa)]
writeHandshake SHDone
flip (maybe $ return Nothing) mcs $ liftM Just . \cs -> do
cc@(X509.CertificateChain (c : _)) <- readHandshake
vr <- handshakeValidate cs cc
unless (null vr) . throw ALFtl (validateAlert vr) $
moduleName ++ ".reqAndCert: " ++ show vr
return . X509.certPubKey $ X509.getCertificate c
certVerify :: (HandleLike h, CPRG g, ClSignPublicKey pk) => pk -> HandshakeM h g ()
certVerify pk = do
debugCipherSuite . show $ cspAlgorithm pk
hs0 <- handshakeHash
DigitSigned a s <- readHandshake
case a of
(Sha256, sa) | sa == cspAlgorithm pk -> return ()
_ -> throw ALFtl ADDecodeErr $
moduleName ++ ".certVerify: not implement: " ++ show a
unless (csVerify pk s hs0) . throw ALFtl ADDecryptErr $
moduleName ++ ".certVerify: client auth failed "
toCheckName :: [String] -> Maybe (String -> Bool)
toCheckName [] = Nothing
toCheckName s0s = Just $ \s -> any (`toCheckName1` s) s0s
toCheckName1 :: String -> String -> Bool
toCheckName1 = on checkSepNames $ sepBy '.'
sepBy :: Eq a => a ->[a] -> [[a]]
sepBy x0 xs
| (t, _ : d) <- span (/= x0) xs = t : sepBy x0 d
| otherwise = [xs]
checkSepNames :: [String] -> [String] -> Bool
checkSepNames [] [] = True
checkSepNames _ [] = False
checkSepNames [] _ = False
checkSepNames ("*" : ns0) (_ : ns) = checkSepNames ns0 ns
checkSepNames (n0 : ns0) (n : ns) = n0 == n && checkSepNames ns0 ns