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|
{-# LANGUAGE DoAndIfThenElse #-}
{-# LANGUAGE ViewPatterns #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE CPP #-}
module Main where
import Debug.Trace
import GHC.Exts (Down(..))
import GHC.IO.Exception ( ioException, IOErrorType(..) )
import Data.IORef
import Data.Tuple
import Data.Binary
import Data.OpenPGP as OpenPGP
import qualified Data.ByteString.Lazy as L
import qualified Data.ByteString.Lazy.Char8 as Char8
import qualified Data.ByteString as S
import qualified Data.ByteString.Char8 as S8
import Control.Monad
import qualified Text.Show.Pretty as PP
import Text.PrettyPrint as PP hiding ((<>))
import Data.List
import Data.OpenPGP.Util (verify,fingerprint,decryptSecretKey,pgpSign)
import Data.Ord
import Data.Maybe
import Data.Bits
import qualified Data.Text as T
import Data.Text.Encoding
import qualified Codec.Binary.Base32 as Base32
import qualified Codec.Binary.Base64 as Base64
import qualified Crypto.Hash.SHA1 as SHA1
import qualified Crypto.Hash.SHA256 as SHA256
import qualified Crypto.Hash.RIPEMD160 as RIPEMD160
import qualified Crypto.Types.PubKey.ECC as ECC
-- import qualified Crypto.Types.PubKey.ECDSA as ECDSA
-- import qualified Crypto.PubKey.ECC.ECDSA as ECDSA
import Data.Char (toLower)
import qualified Crypto.PubKey.RSA as RSA
-- import Crypto.Random (newGenIO,SystemRandom)
import Data.ASN1.Types
import Data.ASN1.Encoding
import Data.ASN1.BinaryEncoding
import Data.ASN1.BitArray
import qualified Data.Foldable as Foldable
import qualified Data.Sequence as Sequence
import Control.Applicative
import System.Environment
import System.Directory
import System.FilePath
import System.Exit
import System.Process
import System.Posix.IO (fdToHandle,fdRead)
import System.Posix.Files
import System.Posix.Signals
import System.Posix.Types (EpochTime)
import System.Process.Internals (runGenProcess_,defaultSignal)
import System.IO (hPutStrLn,stderr,withFile,IOMode(..))
import System.IO.Error
import ControlMaybe
import Data.Char
import Control.Arrow (first,second)
import Data.Traversable hiding (mapM,forM,sequence)
import qualified Data.Traversable as Traversable (mapM,forM,sequence)
-- import System.Console.CmdArgs
-- import System.Posix.Time
import Data.Time.Clock.POSIX
import Data.Monoid ((<>))
-- import Data.X509
import qualified Data.Map as Map
import DotLock
-- import Codec.Crypto.ECC.Base -- hecc package
import Text.Printf
import qualified CryptoCoins as CryptoCoins
import qualified Hosts
import Network.Socket -- (SockAddr)
import LengthPrefixedBE
import Data.Binary.Put (putWord32be,runPut,putByteString)
import Data.Binary.Get (runGet)
import KeyRing
-- instance Default S.ByteString where def = S.empty
-- DER-encoded elliptic curve ids
nistp256_id = 0x2a8648ce3d030107
secp256k1_id = 0x2b8104000a
isCryptoCoinKey p =
and [ isKey p
, key_algorithm p == ECDSA
, lookup 'c' (key p) == Just (MPI secp256k1_id)
]
getCryptoCoinTag p | isSignaturePacket p = do
-- CryptoCoins.secret
let sps = hashed_subpackets p ++ unhashed_subpackets p
u <- listToMaybe $ mapMaybe usage sps
CryptoCoins.lookupNetwork CryptoCoins.network_name u
getCryptoCoinTag _ = Nothing
warn str = hPutStrLn stderr str
unprefix c spec = if null (snd p) then swap p else (fst p, tail (snd p))
where p = break (==c) spec
data RSAPublicKey = RSAKey MPI MPI deriving (Eq,Show)
data PKCS8_RSAPublicKey = RSAKey8 MPI MPI deriving Show
pkcs8 (RSAKey n e) = RSAKey8 n e
instance ASN1Object RSAPublicKey where
-- PKCS #1 RSA Public Key
toASN1 (RSAKey (MPI n) (MPI e))
= \xs -> Start Sequence
: IntVal n
: IntVal e
: End Sequence
: xs
fromASN1 _ =
Left "fromASN1: RSAPublicKey: unexpected format"
instance ASN1Object PKCS8_RSAPublicKey where
-- PKCS #8 Public key data
toASN1 (RSAKey8 (MPI n) (MPI e))
= \xs -> Start Sequence
: Start Sequence
: OID [1,2,840,113549,1,1,1]
: End Sequence
: BitString (toBitArray bs 0)
: End Sequence
: xs
where
pubkey = Start Sequence : IntVal n : IntVal e : End Sequence : []
bs = encodeASN1' DER pubkey
fromASN1 (Start Sequence:IntVal modulus:IntVal pubexp:End Sequence:xs) =
Right (RSAKey8 (MPI modulus) (MPI pubexp) , xs)
fromASN1 (Start Sequence:Start Sequence:OID [1,2,840,113549,1,1,1]:End Sequence:BitString b:End Sequence:xs) =
case decodeASN1' DER bs of
Right as -> fromASN1 as
Left e -> Left ("fromASN1: RSAPublicKey: "++show e)
where
BitArray _ bs = b
fromASN1 _ =
Left "fromASN1: RSAPublicKey: unexpected format"
data RSAPrivateKey = RSAPrivateKey
{ rsaN :: MPI
, rsaE :: MPI
, rsaD :: MPI
, rsaP :: MPI
, rsaQ :: MPI
, rsaDmodP1 :: MPI
, rsaDmodQminus1 :: MPI
, rsaCoefficient :: MPI
}
deriving Show
{-
RSAPrivateKey ::= SEQUENCE {
version Version,
modulus INTEGER, -- n
publicExponent INTEGER, -- e
privateExponent INTEGER, -- d
prime1 INTEGER, -- p
prime2 INTEGER, -- q
exponent1 INTEGER, -- d mod (p1) -- ?? d mod (p-1)
exponent2 INTEGER, -- d mod (q-1)
coefficient INTEGER, -- (inverse of q) mod p
otherPrimeInfos OtherPrimeInfos OPTIONAL
}
-}
instance ASN1Object RSAPrivateKey where
toASN1 rsa@(RSAPrivateKey {})
= \xs -> Start Sequence
: IntVal 0
: mpiVal rsaN
: mpiVal rsaE
: mpiVal rsaD
: mpiVal rsaP
: mpiVal rsaQ
: mpiVal rsaDmodP1
: mpiVal rsaDmodQminus1
: mpiVal rsaCoefficient
: End Sequence
: xs
where mpiVal f = IntVal x where MPI x = f rsa
fromASN1 ( Start Sequence
: IntVal _ -- version
: IntVal n
: IntVal e
: IntVal d
: IntVal p
: IntVal q
: IntVal dmodp1
: IntVal dmodqminus1
: IntVal coefficient
: ys) =
Right ( privkey, tail $ dropWhile notend ys)
where
notend (End Sequence) = False
notend _ = True
privkey = RSAPrivateKey
{ rsaN = MPI n
, rsaE = MPI e
, rsaD = MPI d
, rsaP = MPI p
, rsaQ = MPI q
, rsaDmodP1 = MPI dmodp1
, rsaDmodQminus1 = MPI dmodqminus1
, rsaCoefficient = MPI coefficient
}
fromASN1 _ =
Left "fromASN1: RSAPrivateKey: unexpected format"
sshrsa :: Integer -> Integer -> Char8.ByteString
sshrsa e n = runPut $ do
putWord32be 7
putByteString "ssh-rsa"
put (LengthPrefixedBE e)
put (LengthPrefixedBE n)
decode_sshrsa :: Char8.ByteString -> Maybe RSAPublicKey
decode_sshrsa bs = do
let (pre,bs1) = Char8.splitAt 11 bs
guard $ pre == runPut (putWord32be 7 >> putByteString "ssh-rsa")
let rsakey = flip runGet bs1 $ do
LengthPrefixedBE e <- get
LengthPrefixedBE n <- get
return $ RSAKey (MPI n) (MPI e)
return rsakey
rsaKeyFromPacket :: Packet -> Maybe RSAPublicKey
rsaKeyFromPacket p@(PublicKeyPacket {}) = do
n <- lookup 'n' $ key p
e <- lookup 'e' $ key p
return $ RSAKey n e
rsaKeyFromPacket p@(SecretKeyPacket {}) = do
n <- lookup 'n' $ key p
e <- lookup 'e' $ key p
return $ RSAKey n e
rsaKeyFromPacket _ = Nothing
derRSA rsa = do
k <- rsaKeyFromPacket rsa
return $ encodeASN1 DER (toASN1 k [])
rsaPrivateKeyFromPacket :: Packet -> Maybe RSAPrivateKey
rsaPrivateKeyFromPacket pkt@(SecretKeyPacket {}) = do
-- public fields...
n <- lookup 'n' $ key pkt
e <- lookup 'e' $ key pkt
-- secret fields
MPI d <- lookup 'd' $ key pkt
MPI q <- lookup 'p' $ key pkt -- Note: p & q swapped
MPI p <- lookup 'q' $ key pkt -- Note: p & q swapped
-- Note: Here we fail if 'u' key is missing.
-- Ideally, it would be better to compute (inverse q) mod p
-- see Algebra.Structures.EuclideanDomain.extendedEuclidAlg
-- (package constructive-algebra)
coefficient <- lookup 'u' $ key pkt
let dmodp1 = MPI $ d `mod` (p - 1)
dmodqminus1 = MPI $ d `mod` (q - 1)
return $ RSAPrivateKey
{ rsaN = n
, rsaE = e
, rsaD = MPI d
, rsaP = MPI p
, rsaQ = MPI q
, rsaDmodP1 = dmodp1
, rsaDmodQminus1 = dmodqminus1
, rsaCoefficient = coefficient }
rsaPrivateKeyFromPacket _ = Nothing
{-
getPackets :: IO [Packet]
getPackets = do
input <- L.getContents
case decodeOrFail input of
Right (_,_,Message pkts) -> return pkts
Left (_,_,_) -> return []
-}
secretToPublic pkt@(SecretKeyPacket {}) =
PublicKeyPacket { version = version pkt
, timestamp = timestamp pkt
, key_algorithm = key_algorithm pkt
-- , ecc_curve = ecc_curve pkt
, key = let seckey = key pkt
pubs = public_key_fields (key_algorithm pkt)
in filter (\(k,v) -> k `elem` pubs) seckey
, is_subkey = is_subkey pkt
, v3_days_of_validity = Nothing
}
secretToPublic pkt = pkt
extractPEM typ pem = dta
where
dta = case ys of
_:dta_lines -> Char8.concat dta_lines
[] -> ""
xs = dropWhile (/="-----BEGIN " <> typ <> "-----") (Char8.lines pem)
ys = takeWhile (/="-----END " <> typ <> "-----") xs
writePEM typ dta = pem
where
pem = unlines . concat $
[ ["-----BEGIN " <> typ <> "-----"]
, split64s dta
, ["-----END " <> typ <> "-----"] ]
split64s "" = []
split64s dta = line : split64s rest where (line,rest) = splitAt 64 dta
-- 64 byte lines
isKey (PublicKeyPacket {}) = True
isKey (SecretKeyPacket {}) = True
isKey _ = False
isUserID (UserIDPacket {}) = True
isUserID _ = False
isEmbeddedSignature (EmbeddedSignaturePacket {}) = True
isEmbeddedSignature _ = False
isCertificationSig (CertificationSignature {}) = True
isCertificationSig _ = True
isTrust (TrustPacket {}) = True
isTrust _ = False
issuer (IssuerPacket issuer) = Just issuer
issuer _ = Nothing
backsig (EmbeddedSignaturePacket s) = Just s
backsig _ = Nothing
isSubkeySignature (SubkeySignature {}) = True
isSubkeySignature _ = False
isPublicMaster k@(PublicKeyPacket {}) = not $ is_subkey k
isPublicMaster _ = False
now = floor <$> Data.Time.Clock.POSIX.getPOSIXTime
usage (NotationDataPacket
{ human_readable = True
, notation_name = "usage@"
, notation_value = u
}) = Just u
usage _ = Nothing
verifyBindings keys nonkeys = (top ++ filter isSubkeySignature embedded,othersigs)
where
verified = do
sig <- signatures (Message nonkeys)
let v = verify (Message keys) sig
guard (not . null $ signatures_over v)
return v
(top,othersigs) = partition isSubkeySignature verified
embedded = do
sub <- top
let sigover = signatures_over sub
unhashed = sigover >>= unhashed_subpackets
subsigs = mapMaybe backsig unhashed
-- This should consist only of 0x19 values
-- subtypes = map signature_type subsigs
-- trace ("subtypes = "++show subtypes) (return ())
-- trace ("issuers: "++show (map signature_issuer subsigs)) (return ())
sig <- signatures (Message ([topkey sub,subkey sub]++subsigs))
let v = verify (Message [subkey sub]) sig
guard (not . null $ signatures_over v)
return v
grip k = drop 32 $ fingerprint k
smallpr k = drop 24 $ fingerprint k
-- matchpr computes the fingerprint of the given key truncated to
-- be the same lenght as the given fingerprint for comparison.
matchpr fp k = reverse $ zipWith const (reverse (fingerprint k)) fp
disjoint_fp ks = {- concatMap group2 $ -} transpose grouped
where
grouped = groupBy samepr . sortBy (comparing smallpr) $ ks
samepr a b = smallpr a == smallpr b
{-
-- useful for testing
group2 :: [a] -> [[a]]
group2 (x:y:ys) = [x,y]:group2 ys
group2 [x] = [[x]]
group2 [] = []
-}
verifyBindingsEx :: [Packet] -> ([SignatureOver], [SignatureOver]) -- ^ (binding signatures, other signatures)
verifyBindingsEx pkts = bicat . unzip $ do
let (keys,_) = partition isKey pkts
keys <- disjoint_fp keys
return $ verifyBindings keys pkts
where
bicat (xs,ys) = (concat xs,concat ys)
getBindings ::
[Packet]
->
( [([Packet],[SignatureOver])] -- ^ other signatures with key sets
-- that were used for the verifications
, [(Word8,
(Packet, Packet), -- (topkey,subkey)
[String], -- usage flags
[SignatureSubpacket], -- hashed data
[Packet])] -- ^ binding signatures
)
getBindings pkts = (sigs,bindings)
where
(sigs,concat->bindings) = unzip $ do
let (keys,_) = partition isKey pkts
keys <- disjoint_fp keys
let (bs,sigs) = verifyBindings keys pkts
return . ((keys,sigs),) $ do
b <- bs -- trace ("sigs = "++show (map (map signature_issuer . signatures_over) sigs)) bs
i <- map signature_issuer (signatures_over b)
i <- maybeToList i
who <- maybeToList $ find_key fingerprint (Message keys) i
let (code,claimants) =
case () of
_ | who == topkey b -> (1,[])
_ | who == subkey b -> (2,[])
_ -> (0,[who])
let hashed = signatures_over b >>= hashed_subpackets
kind = guard (code==1) >> hashed >>= maybeToList . usage
return (code,(topkey b,subkey b), kind, hashed,claimants)
-- Returned data is simmilar to getBindings but the Word8 codes
-- are ORed together.
accBindings ::
Bits t =>
[(t, (Packet, Packet), [a], [a1], [a2])]
-> [(t, (Packet, Packet), [a], [a1], [a2])]
accBindings bs = as
where
gs = groupBy samePair . sortBy (comparing bindingPair) $ bs
as = map (foldl1 combine) gs
bindingPair (_,p,_,_,_) = pub2 p
where
pub2 (a,b) = (pub a, pub b)
pub a = fingerprint_material a
samePair a b = bindingPair a == bindingPair b
combine (ac,p,akind,ahashed,aclaimaints)
(bc,_,bkind,bhashed,bclaimaints)
= (ac .|. bc,p,akind++bkind,ahashed++bhashed,aclaimaints++bclaimaints)
data UserIDRecord = UserIDRecord {
uid_full :: String,
uid_realname :: T.Text,
uid_user :: T.Text,
uid_subdomain :: T.Text,
uid_topdomain :: T.Text
}
deriving Show
isBracket '<' = True
isBracket '>' = True
isBracket _ = False
parseUID str = UserIDRecord {
uid_full = str,
uid_realname = realname,
uid_user = user,
uid_subdomain = subdomain,
uid_topdomain = topdomain
}
where
text = T.pack str
(T.strip-> realname, T.dropAround isBracket-> email)
= T.break (=='<') text
(user, T.drop 1-> hostname) = T.break (=='@') email
( T.reverse -> topdomain,
T.reverse . T.drop 1 -> subdomain)
= T.break (=='.') . T.reverse $ hostname
derToBase32 = map toLower . Base32.encode . S.unpack . SHA1.hashlazy
fpmatch grip key =
(==) Nothing
(fmap (backend (fingerprint key)) grip >>= guard . not)
where
backend xs ys = and $ zipWith (==) (reverse xs) (reverse ys)
listKeys pkts = listKeysFiltered [] pkts
ecc_curve k = printf "%x" num :: String
where unmpi (MPI num) = num
num = maybe 0 unmpi $ lookup 'c' (key k)
listKeysFiltered grips pkts = do
let (certs,bs) = getBindings pkts
as = accBindings bs
defaultkind (k:_) hs = k
defaultkind [] hs = maybe "subkey"
id
( listToMaybe
. mapMaybe (fmap usageString . keyflags)
$ hs)
kinds = map (\(_,_,k,h,_)->defaultkind k h) as
kindwidth = maximum $ map length kinds
kindcol = min 20 kindwidth
code (c,(m,s),_,_,_) = (fingerprint_material m,-c)
ownerkey (_,(a,_),_,_,_) = a
sameMaster (ownerkey->a) (ownerkey->b) = fingerprint_material a==fingerprint_material b
matchgrip _ | null grips = True
matchgrip ((code,(top,sub), kind, hashed,claimants):_) | any (flip fpmatch top . Just) grips = True
matchgrip _ = False
gs = filter matchgrip $ groupBy sameMaster (sortBy (comparing code) as)
showsigs claimants = map (\k -> " " ++ "^ signed: " ++ fingerprint k) claimants
subs@((_,(top,_),_,_,_):_) <- gs
let subkeys = do
(code,(top,sub), kind, hashed,claimants) <- subs
let ar = case code of
0 -> " ??? "
1 -> " --> "
2 -> " <-- "
3 -> " <-> "
formkind = take kindcol $ defaultkind kind hashed ++ repeat ' '
-- torhash = maybe "" id $ derToBase32 <$> derRSA sub
(netid,kind') = maybe (0x0,"bitcoin")
(\n->(CryptoCoins.publicByteFromName n,n))
$ listToMaybe kind
unlines $
concat [ " "
-- , grip top
, ar
, formkind
, " "
, fingerprint sub
-- , " " ++ torhash
-- , " " ++ (concatMap (printf "%02X") $ S.unpack (ecc_curve sub))
] -- ++ ppShow hashed
: if isCryptoCoinKey sub
-- then (" " ++ "B⃦ " ++ bitcoinAddress sub) : showsigs claimants
-- then (" " ++ "BTC " ++ bitcoinAddress sub) : showsigs claimants
then (" " ++ "¢ "++kind'++":" ++ bitcoinAddress netid sub) : showsigs claimants
else showsigs claimants
torkeys = do
(code,(top,sub), kind, hashed,claimants) <- subs
guard ("tor" `elem` kind)
guard (code .&. 0x2 /= 0)
maybeToList $ derToBase32 <$> derRSA sub
uid = {- maybe "" id . listToMaybe $ -} do
(keys,sigs) <- certs
sig <- sigs
guard (isCertificationSig sig)
guard (topkey sig == top)
let issuers = do
sig_over <- signatures_over sig
i <- maybeToList $ signature_issuer sig_over
maybeToList $ find_key (matchpr i) (Message keys) (reverse (take 16 (reverse i)))
(primary,secondary) = partition (==top) issuers
-- trace ("PRIMARY: "++show (map fingerprint primary)) $ return ()
-- trace ("SECONDARY: "++show (map fingerprint secondary)) $ return ()
guard (not (null primary))
let UserIDPacket uid = user_id sig
parsed = parseUID uid
ar = maybe " --> " (const " <-> ") $ do
guard (uid_topdomain parsed == "onion" )
guard ( uid_realname parsed `elem` ["","Anonymous"])
guard ( uid_user parsed == "root" )
let subdom0 = L.fromChunks [encodeUtf8 (uid_subdomain parsed)]
len = L.length subdom0
subdom = Char8.unpack subdom0
match = ( (==subdom) . take (fromIntegral len))
guard (len >= 16)
listToMaybe $ filter match torkeys
unlines $ [ " " ++ ar ++ "@" ++ " " ++ uid_full parsed ]
++ showsigs secondary
-- (_,sigs) = unzip certs
"master-key " ++ fingerprint top ++ "\n" ++ uid ++" ...\n" ++ subkeys ++ "\n"
data PGPKeyFlags =
Special
| Vouch -- Signkey
| Sign
| VouchSign
| Communication
| VouchCommunication
| SignCommunication
| VouchSignCommunication
| Storage
| VouchStorage
| SignStorage
| VouchSignStorage
| Encrypt
| VouchEncrypt
| SignEncrypt
| VouchSignEncrypt
deriving (Eq,Show,Read,Enum)
usageString flgs =
case flgs of
Special -> "special"
Vouch -> "vouch" -- signkey
Sign -> "sign"
VouchSign -> "vouch-sign"
Communication -> "communication"
VouchCommunication -> "vouch-communication"
SignCommunication -> "sign-communication"
VouchSignCommunication -> "vouch-sign-communication"
Storage -> "storage"
VouchStorage -> "vouch-storage"
SignStorage -> "sign-storage"
VouchSignStorage -> "vouch-sign-storage"
Encrypt -> "encrypt"
VouchEncrypt -> "vouch-encrypt"
SignEncrypt -> "sign-encrypt"
VouchSignEncrypt -> "vouch-sign-encrypt"
keyflags flgs@(KeyFlagsPacket {}) =
Just . toEnum $
( bit 0x1 certify_keys
.|. bit 0x2 sign_data
.|. bit 0x4 encrypt_communication
.|. bit 0x8 encrypt_storage ) :: Maybe PGPKeyFlags
-- other flags:
-- split_key
-- authentication (ssh-client)
-- group_key
where
bit v f = if f flgs then v else 0
keyflags _ = Nothing
modifyUID (UserIDPacket str) = UserIDPacket str'
where
(fstname,rst) = break (==' ') str
str' = mod fstname ++ rst
mod "Bob" = "Bob Fucking"
mod x = x
modifyUID other = other
todo = error "unimplemented"
#if MIN_VERSION_base(4,6,0)
#else
lookupEnv var =
handleIO_ (return Nothing) $ fmap Just (getEnv var)
#endif
unmaybe def = fmap (maybe def id)
expandPath path (c:cs) | c/='/' = path ++ "/" ++ (c:cs)
| otherwise = c:cs
expandPath path [] = []
-- type TimeStamp = Word32
slurpWIPKeys :: System.Posix.Types.EpochTime -> L.ByteString -> ( [(Word8,Packet)], [L.ByteString])
slurpWIPKeys stamp "" = ([],[])
slurpWIPKeys stamp cs =
let (b58,xs) = Char8.span (\x -> elem x base58chars) cs
mb = decode_btc_key stamp (Char8.unpack b58)
in if L.null b58
then let (ys,xs') = Char8.break (\x -> elem x base58chars) cs
(ks,js) = slurpWIPKeys stamp xs'
in (ks,ys:js)
else let (ks,js) = slurpWIPKeys stamp xs
in maybe (ks,b58:js) (\(net,Message [k])->((net,k):ks,js)) mb
readPacketsFromWallet ::
Maybe Packet
-> FilePath
-> IO [(Packet,Packet,(Packet,Map.Map FilePath Packet))]
readPacketsFromWallet wk fname = do
timestamp <- handleIO_ (error $ fname++": modificaiton time?") $
modificationTime <$> getFileStatus fname
input <- L.readFile fname
let (ks,_) = slurpWIPKeys timestamp input
when (not (null ks)) $ do
-- decrypt wk
-- create sigs
-- return key/sig pairs
return ()
return $ do
wk <- maybeToList wk
guard (not $ null ks)
let prep (tagbyte,k) = (wk,k,(k,Map.singleton tag wk))
where tag = CryptoCoins.nameFromSecretByte tagbyte
(wk,MarkerPacket,(MarkerPacket,Map.empty))
:map prep ks
readPacketsFromFile :: FilePath -> IO Message
readPacketsFromFile fname = do
-- warn $ fname ++ ": reading..."
input <- L.readFile fname
#if MIN_VERSION_binary(0,6,4)
return $
case decodeOrFail input of
Right (_,_,msg ) -> msg
Left (_,_,_) -> trace (fname++": read fail") $ Message []
#else
return $ decode input
#endif
lockFiles fs = do
let dolock f = do
lk <- dotlock_create f 0
let fail = return Nothing
dotake lk = do
e <- dotlock_take lk (-1)
if e==0 then return (Just lk)
else fail
v <- maybe fail dotake lk
return (v,f)
ls <- mapM dolock fs
let (lks, fails) = partition (isJust . fst) ls
return (map (\(lk,f)->(fromJust lk,f)) lks, map snd fails)
unlockFiles lks = forM_ lks $ \(lk,f) -> do
-- warn $ "unlocking "++show f
dotlock_release lk
{-
options_from_file ::
(forall a. [String] -> Term a -> IO (Either EvalExit a))
-> Term b
-> (String,String,Term (Maybe String))
-> ([String],Term (Maybe String))
-> IO [String]
options_from_file unwrapCmd term (homevar,appdir,home) (optfile_alts,options_file) = doit
where
homedir = envhomedir <$> home
envhomedir opt = do
gnupghome <- lookupEnv homevar >>=
\d -> return $ d >>= guard . (/="") >> d
home <- flip fmap getHomeDirectory $
\d -> fmap (const d) $ guard (d/="")
let homegnupg = (++('/':appdir)) <$> home
let val = (opt `mplus` gnupghome `mplus` homegnupg)
return $ val
doit = do
args <- getArgs
{-
let wants_help =
not . null $ filter cryForHelp args
where cryForHelp "--help" = True
cryForHelp "--version" = True
cryForHelp x =
and (zipWith (==) x "--help=")
-}
(o,h) <- do
val <- unwrapCmd args (liftA2 (,) options_file homedir)
case val of
Left e -> return (Nothing,Nothing)
Right (o,h) -> (o,) <$> h
ofile <- fmap listToMaybe . flip (maybe (return [])) h $ \h ->
let optfiles = map (second ((h++"/")++))
(maybe optfile_alts' (:[]) o')
optfile_alts' = zip (False:repeat True) optfile_alts
o' = fmap (False,) o
in filterM (doesFileExist . snd) optfiles
args <- flip (maybe $ return args) ofile $ \(forgive,fname) -> do
let h' = fromJust h
newargs <- (:) <$> pure ("homedir "++h') <*> parseOptionFile fname
let toArgs = toHead ("--"++) . words
toHead f (x:xs) = f x : xs
toHead f [] = []
voidTerm = fmap (const ())
appendArgs as [] = return as
appendArgs as (configline:cs) = do
let xs = toArgs configline
w <-unwrap (xs++as) (voidTerm term,defTI)
case w of
Left _ -> appendArgs as cs
Right _ -> appendArgs (xs++as) cs
-- TODO: check errors if forgive = False
appendArgs args newargs
return args
runWithOptionsFile :: (Term (IO b), TermInfo) -> IO b
runWithOptionsFile (term,ti) = do
as <- options_from_file unwrapCmd
term
("GNUPGHOME",".gnupg",opt_homedir)
(["keys.conf","gpg.conf-2","gpg.conf"]
,opt_options)
q <- eval as (term , ti)
q
where
unwrapCmd args term = unwrap args (term,defTI)
runChoiceWithOptionsFile ::
(Term (IO b), TermInfo) -> [(Term (IO b), TermInfo)] -> IO b
runChoiceWithOptionsFile (realterm,ti) choices = do
as <- options_from_file unwrapCmd
realterm
("GNUPGHOME",".gnupg",opt_homedir)
(["keys.conf","gpg.conf-2","gpg.conf"]
,opt_options)
-- putStrLn $ "as = " ++ show as
q <- evalChoice as (realterm , ti) choices
q
where
unwrapCmd args t =
unwrapChoice args (realterm <:> t,ti) (map (neuter t) choices)
neuter term (t,ti) = (t <:> term, ti)
data Command =
List
| Autosign
deriving (Eq,Show,Read,Enum)
capitolizeFirstLetter (x:xs) = toUpper x : xs
capitolizeFirstLetter xs = xs
instance ArgVal Command where
converter =
( maybe (Left $ text "unknown command") Right
. fmap fst . listToMaybe . reads
. capitolizeFirstLetter . map toLower
, text . map toLower . show
)
class AutoMaybe a
instance AutoMaybe Command
instance (ArgVal a, AutoMaybe a) => ArgVal (Maybe a) where
converter =
( toRight Just . fst converter
, maybe (text "(unspecified)") id . fmap (snd converter)
)
toRight f (Right x) = Right (f x)
toRight f (Left y) = Left y
cmd :: Term Command
cmd = required . pos 0 Nothing $ posInfo
{ posName = "command"
, posDoc = "What action to perform."
}
a <:> b = flip const <$> a <*> b
infixr 2 <:>
selectAction cmd actions = actions !! fromEnum cmd
cmdInfo :: ArgVal cmd =>
cmd -> String -> Term a -> (cmd, (Term a, TermInfo))
cmdInfo cmd doc action =
( cmd
, ( action
, defTI { termName = print cmd
, termDoc = doc } ) )
where
print = show . snd converter
cmdlist :: (Command, (Term (IO ()), TermInfo))
cmdlist = cmdInfo List "list key pairs for which secrets are known" $
(>>= putStrLn . listKeys . unMessage) <$> secret_packets
where unMessage (Message pkts) = pkts
cmdautosign = cmdInfo Autosign "auto-sign tor-style uids" $
pure (putStrLn "autosign")
multiCommand ::
TermInfo
-> [(Command, (Term a, TermInfo))]
-> ( (Term a, TermInfo)
, [(Term a, TermInfo)] )
multiCommand ti choices =
( ( selectAction <$> cmd <*> sequenceA (map strip choices)
, ti )
, map snd choices )
where
selectAction cmd choices =
fromJust $ lookup (cmd::Command) choices
strip (cmd,(action,_)) = fmap (cmd,) action
-}
trimCR bs = fst $ S.spanEnd (\x -> x==10 || x==13) bs
guessKeyFormat 'P' "ssh-client" = "SSH"
guessKeyFormat 'S' "ssh-client" = "PEM"
guessKeyFormat 'S' "ssh-host" = "PEM"
guessKeyFormat _ _ = "PEM" -- "PGP"
writeKeyToFile False "PEM" fname packet =
case key_algorithm packet of
RSA -> do
flip (maybe (return ()))
(rsaPrivateKeyFromPacket packet) -- RSAPrivateKey
$ \rsa -> do
let asn1 = toASN1 rsa []
bs = encodeASN1 DER asn1
dta = Base64.encode (L.unpack bs)
output = writePEM "RSA PRIVATE KEY" dta
stamp = toEnum . fromEnum $ timestamp packet
createDirectoryIfMissing True (takeDirectory fname)
handleIO_ (warn $ fname ++ ": write failure") $ do
saved_mask <- setFileCreationMask 0o077
writeFile fname output
-- Note: The key's timestamp is included in it's fingerprint.
-- Therefore, we should attempt to preserve it.
setFileTimes fname stamp stamp
setFileCreationMask saved_mask
return ()
warn $ fname ++ ": exported"
return ()
algo -> warn $ fname ++ ": unable to export "++show algo++" key "++fingerprint packet
readKeyFromFile False "PEM" fname = do
-- warn $ fname ++ ": reading ..."
-- Note: The key's timestamp is included in it's fingerprint.
-- Therefore, we should attempt to preserve it.
timestamp <- handleIO_ (error $ fname++": modificaiton time?") $
modificationTime <$> getFileStatus fname
input <- L.readFile fname
let dta = extractPEM "RSA PRIVATE KEY" input
-- Char8.putStrLn $ "dta = " <> dta
let rsa = do
e <- decodeASN1 DER . L.pack <$> Base64.decode (Char8.unpack dta)
asn1 <- either (const Nothing) Just e
k <- either (const Nothing) (Just . fst) (fromASN1 asn1)
let _ = k :: RSAPrivateKey
return k
-- putStrLn $ "rsa = "++ show rsa
return . Message $ do
rsa <- maybeToList rsa
return $ SecretKeyPacket
{ version = 4
, timestamp = toEnum (fromEnum timestamp)
, key_algorithm = RSA
, key = [ -- public fields...
('n',rsaN rsa)
,('e',rsaE rsa)
-- secret fields
,('d',rsaD rsa)
,('p',rsaQ rsa) -- Note: p & q swapped
,('q',rsaP rsa) -- Note: p & q swapped
,('u',rsaCoefficient rsa)
]
-- , ecc_curve = def
, s2k_useage = 0
, s2k = S2K 100 ""
, symmetric_algorithm = Unencrypted
, encrypted_data = ""
, is_subkey = True
}
readKeyFromFile is_public fmt filename = error ("unimplemented key type: "++fmt)
readPublicKey :: Char8.ByteString -> RSAPublicKey
readPublicKey bs = maybe er id $ do
let (pre,bs1) = Char8.splitAt 7 bs
guard $ pre == "ssh-rsa"
let (sp,bs2) = Char8.span isSpace bs1
guard $ not (Char8.null sp)
bs3 <- listToMaybe $ Char8.words bs2
qq <- L.pack `fmap` Base64.decode (Char8.unpack bs3)
decode_sshrsa qq
where
er = error "Unsupported key format"
{-
getPassphrase cmd =
case passphrase_fd cmd of
Just fd -> do pwh <- fdToHandle (toEnum fd)
fmap trimCR $ S.hGetContents pwh
Nothing -> return ""
-}
#define HOMEOPTION (def &= explicit &= name "homedir" &= typDir )
data KeySpec =
KeyGrip String
| KeyTag Packet String
| KeyUidMatch String
deriving Show
is40digitHex xs = ys == xs && length ys==40
where
ys = filter ishex xs
ishex c | '0' <= c && c <= '9' = True
| 'A' <= c && c <= 'F' = True
| 'a' <= c && c <= 'f' = True
ishex c = False
scanPackets :: FilePath -> [Packet] -> [(Packet,Packet,(Packet,Map.Map FilePath Packet))]
scanPackets filename [] = []
scanPackets filename (p:ps) = scanl doit (doit (MarkerPacket,MarkerPacket,ret MarkerPacket) p) ps
where
ret p = (p,Map.empty)
doit (top,sub,prev) p =
case p of
_ | isKey p && not (is_subkey p) -> (p,MarkerPacket,ret p)
_ | isKey p && is_subkey p -> (top,p,ret p)
_ | isUserID p -> (top,p,ret p)
_ | isTrust p -> (top,sub,updateTrust top sub prev p)
_ | otherwise -> (top,sub,ret p)
updateTrust top (PublicKeyPacket {}) (pre,t) p = (pre,Map.insert filename p t) -- public
updateTrust (PublicKeyPacket {}) _ (pre,t) p = (pre,Map.insert filename p t) -- public
updateTrust _ _ (pre,t) p = (pre,Map.insert filename p t) -- secret
data OriginFlags = OriginFlags {
originallyPublic :: Bool,
originalNum :: Int
}
deriving Show
origin :: Packet -> Int -> OriginFlags
origin p n = OriginFlags ispub n
where
ispub = case p of
SecretKeyPacket {} -> False
_ -> True
type OriginMap = Map.Map FilePath OriginFlags
data MappedPacket = MappedPacket
{ packet :: Packet
, usage_tag :: Maybe String
, locations :: OriginMap
}
mappedPacket filename p = MappedPacket
{ packet = p
, usage_tag = Nothing
, locations = Map.singleton filename (origin p (-1))
}
type TrustMap = Map.Map FilePath Packet
type SigAndTrust = ( MappedPacket
, TrustMap ) -- trust packets
type KeyKey = [Char8.ByteString]
data SubKey = SubKey MappedPacket [SigAndTrust]
data KeyData = KeyData MappedPacket -- main key
[SigAndTrust] -- sigs on main key
(Map.Map String ([SigAndTrust],OriginMap)) -- uids
(Map.Map KeyKey SubKey) -- subkeys
type KeyDB = Map.Map KeyKey KeyData
torhash key = maybe "" id $ derToBase32 <$> derRSA key
keykey key =
-- Note: The key's timestamp is included in it's fingerprint.
-- Therefore, the same key with a different timestamp is
-- considered distinct using this keykey implementation.
fingerprint_material (key {timestamp=0}) -- TODO: smaller key?
uidkey (UserIDPacket str) = str
-- Compare master keys, LT is prefered for merging
keycomp (SecretKeyPacket {}) (PublicKeyPacket {}) = LT
keycomp (PublicKeyPacket {}) (SecretKeyPacket {}) = GT
keycomp a b | keykey a==keykey b = EQ
keycomp a b = error $ unlines ["Unable to merge keys:"
, fingerprint a
, PP.ppShow a
, fingerprint b
, PP.ppShow b
]
-- Compare subkeys, LT is prefered for merging
subcomp (SecretKeyPacket {}) (PublicKeyPacket {}) = LT
subcomp (PublicKeyPacket {}) (SecretKeyPacket {}) = GT
subcomp a b | keykey a==keykey b = EQ
subcomp a b = error $ unlines ["Unable to merge subs:"
, fingerprint a
, PP.ppShow a
, fingerprint b
, PP.ppShow b
]
subcomp_m a b = subcomp (packet a) (packet b)
merge :: KeyDB -> FilePath -> Message -> KeyDB
merge db filename (Message ps) = merge_ db filename qs
where
qs = scanPackets filename ps
merge_ :: KeyDB -> FilePath -> [(Packet,Packet,(Packet,Map.Map FilePath Packet))]
-> KeyDB
merge_ db filename qs = foldl mergeit db (zip [0..] qs)
where
asMapped n p = let m = mappedPacket filename p
in m { locations = fmap (\x->x {originalNum=n}) (locations m) }
asSigAndTrust n (p,tm) = (asMapped n p,tm)
emptyUids = Map.empty
-- mergeit db (_,_,TrustPacket {}) = db -- Filter TrustPackets
mergeit :: KeyDB -> (Int,(Packet,Packet,(Packet,Map.Map FilePath Packet))) -> KeyDB
mergeit db (n,(top,sub,ptt@(p,trustmap))) | isKey top = Map.alter update (keykey top) db
where
-- NOTE:
-- if a keyring file has both a public key packet and a secret key packet
-- for the same key, then only one of them will survive, which ever is
-- later in the file.
--
-- This is due to the use of statements like
-- (Map.insert filename (origin p n) (locations key))
--
update v | isKey p && not (is_subkey p)
= case v of
Nothing -> Just $ KeyData (asMapped n p) [] emptyUids Map.empty
Just (KeyData key sigs uids subkeys) | keykey (packet key) == keykey p
-> Just $ KeyData ( (asMapped n (minimumBy keycomp [packet key,p]))
{ locations = Map.insert filename (origin p n) (locations key) } )
sigs
uids
subkeys
_ -> error . concat $ ["Unexpected master key merge error: "
,show (fingerprint top, fingerprint p)]
update (Just (KeyData key sigs uids subkeys)) | isKey p && is_subkey p
= Just $ KeyData key sigs uids (Map.alter (mergeSubkey n p) (keykey p) subkeys)
update (Just (KeyData key sigs uids subkeys)) | isUserID p
= Just $ KeyData key sigs (Map.alter (mergeUid n ptt) (uidkey p) uids)
subkeys
update (Just (KeyData key sigs uids subkeys))
= case sub of
MarkerPacket -> Just $ KeyData key (mergeSig n ptt sigs) uids subkeys
UserIDPacket {} -> Just $ KeyData key
sigs
(Map.alter (mergeUidSig n ptt) (uidkey sub) uids)
subkeys
_ | isKey sub -> Just $ KeyData key
sigs
uids
(Map.alter (mergeSubSig n ptt) (keykey sub) subkeys)
_ -> error $ "Unexpected PGP packet 1: "++(words (show p) >>= take 1)
update _ = error $ "Unexpected PGP packet 2: "++(words (show p) >>= take 1)
mergeit _ (_,(_,_,p)) = error $ "Unexpected PGP packet 3: "++whatP p
mergeSubkey :: Int -> Packet -> Maybe SubKey -> Maybe SubKey
mergeSubkey n p Nothing = Just $ SubKey (asMapped n p) []
mergeSubkey n p (Just (SubKey key sigs)) = Just $
SubKey ((asMapped n (minimumBy subcomp [packet key,p]))
{ locations = Map.insert filename (origin p n) (locations key) })
sigs
mergeUid :: Int ->(Packet,a) -> Maybe ([SigAndTrust],OriginMap) -> Maybe ([SigAndTrust],OriginMap)
mergeUid n (UserIDPacket s,_) Nothing = Just ([],Map.singleton filename (origin MarkerPacket n))
mergeUid n (UserIDPacket s,_) (Just (sigs,m)) = Just (sigs, Map.insert filename (origin MarkerPacket n) m)
mergeUid n p _ = error $ "Unable to merge into UID record: " ++whatP p
whatP (a,_) = concat . take 1 . words . show $ a
mergeSig :: Int -> (Packet,TrustMap) -> [SigAndTrust] -> [SigAndTrust]
mergeSig n sig sigs =
let (xs,ys) = break (isSameSig sig) sigs
in if null ys
then sigs++[first (asMapped n) sig]
else let y:ys'=ys
in xs ++ (mergeSameSig n sig y : ys')
isSameSig (a,_) (MappedPacket {packet=b},_) | isSignaturePacket a && isSignaturePacket b =
a { unhashed_subpackets=[] } == b { unhashed_subpackets = [] }
isSameSig (a,_) (MappedPacket {packet=b},_) = a==b
mergeSameSig :: Int -> (Packet,TrustMap) -> (MappedPacket,TrustMap) -> (MappedPacket, TrustMap)
mergeSameSig n (a,ta) (m@(MappedPacket{packet=b,locations=locs}),tb) | isSignaturePacket a && isSignaturePacket b =
( m { packet = (b { unhashed_subpackets =
foldl mergeItem (unhashed_subpackets b) (unhashed_subpackets a) })
, locations = Map.insert filename (origin a n) locs }
, tb `Map.union` ta )
where
-- TODO: when merging items, we should delete invalidated origins
-- from the orgin map.
mergeItem ys x = if x `elem` ys then ys else ys++[x]
mergeSameSig n a b = trace ("discarding dup "++show a) b
mergeUidSig n sig (Just (sigs,m)) = Just (mergeSig n sig sigs, m)
mergeUidSig n sig Nothing = Just ([asSigAndTrust n sig],Map.empty)
mergeSubSig n sig (Just (SubKey key sigs)) = Just $ SubKey key (mergeSig n sig sigs)
mergeSubSig n sig Nothing = error $
"Unable to merge subkey signature: "++(words (show sig) >>= take 1)
flattenKeys :: Bool -> KeyDB -> Message
flattenKeys isPublic db = Message $ concatMap (map packet . flattenTop "" isPublic . snd) (prefilter . Map.assocs $ db)
where
prefilter = if isPublic then id else filter isSecret
where
isSecret (_,(KeyData
(MappedPacket { packet=(SecretKeyPacket {})})
_
_
_)) = True
isSecret _ = False
concatSort fname getp f = concat . sortByHint fname getp . map f
flattenTop :: FilePath -> Bool -> KeyData -> [MappedPacket]
flattenTop fname ispub (KeyData key sigs uids subkeys) =
unk ispub key :
( flattenAllUids fname ispub uids
++ concatSort fname head (flattenSub fname ispub) (Map.elems subkeys))
flattenAllUids :: FilePath -> Bool -> Map.Map String ([SigAndTrust],OriginMap) -> [MappedPacket]
flattenAllUids fname ispub uids =
concatSort fname head (flattenUid fname ispub) (Map.assocs uids)
flattenUid :: FilePath -> Bool -> (String,([SigAndTrust],OriginMap)) -> [MappedPacket]
flattenUid fname ispub (str,(sigs,om)) =
(mappedPacket "" $ UserIDPacket str) {locations=om} : concatSort fname head (unsig fname ispub) sigs
flattenSub :: FilePath -> Bool -> SubKey -> [MappedPacket]
flattenSub fname ispub (SubKey key sigs) = unk ispub key: concatSort fname head (unsig fname ispub) sigs
unk :: Bool -> MappedPacket -> MappedPacket
unk isPublic = if isPublic then toPacket secretToPublic else id
where toPacket f mp@(MappedPacket {packet=p}) = mp {packet=(f p)}
unsig :: FilePath -> Bool -> SigAndTrust -> [MappedPacket]
unsig fname isPublic (sig,trustmap) =
[sig]++ map (asMapped (-1)) ( take 1 . Map.elems $ Map.filterWithKey f trustmap)
where
f n _ = n==fname -- && trace ("fname=n="++show n) True
asMapped n p = let m = mappedPacket fname p
in m { locations = fmap (\x->x {originalNum=n}) (locations m) }
ifSecret (SecretKeyPacket {}) t f = t
ifSecret _ t f = f
showPacket :: Packet -> String
showPacket p | isKey p = (if is_subkey p
then showPacket0 p
else ifSecret p "----Secret-----" "----Public-----")
++ " "++show (key_algorithm p)++" "++fingerprint p
| isUserID p = showPacket0 p ++ " " ++ show (uidkey p)
| otherwise = showPacket0 p
showPacket0 p = concat . take 1 $ words (show p)
sortByHint fname f = sortBy (comparing gethint)
where
gethint = maybe defnum originalNum . Map.lookup fname . locations . f
defnum = -1
keyMappedPacket (KeyData k _ _ _) = k
keyPacket (KeyData k _ _ _) = packet k
writeOutKeyrings :: Map.Map FilePath DotLock -> KeyDB -> IO ()
writeOutKeyrings lkmap db = do
let ks = Map.elems db
fs = Map.keys (foldr unionfiles Map.empty ks)
where unionfiles (KeyData p _ _ _) m =
Map.union m (locations p)
fromfile f (KeyData p _ _ _) = Map.member f $ locations p
let s = do
f <- fs
let x = do
d@(KeyData p _ _ _) <- filter (fromfile f) (sortByHint f keyMappedPacket ks)
n <- maybeToList $ Map.lookup f (locations p)
flattenTop f (originallyPublic n) d
changes = filter isnew x
where isnew p = isNothing (Map.lookup f $ locations p)
{-
trace (unlines $ ( (f ++ ":") : map (showPacket . packet) x) ++
( "CHANGES: " : map ((" "++) . showPacket . packet) changes)) $ do
-}
return (f,(changes,x))
towrites <- fmap catMaybes $ Control.Monad.forM s $ \(f,(changes,x)) -> do
let noop = return Nothing
write f = return (Just f)
case changes of
[] -> noop -- warn (f ++": nothing to do.") >> noop
cs -> case Map.lookup f lkmap of
Just lk -> do
forM_ cs $ \c -> warn $ f++": new "++showPacket (packet c)
write (f,lk,x)
Nothing -> do
forM_ cs $ \c -> warn $ f++": missing "++showPacket (packet c)
noop
forM_ towrites $ \(f,lk,x) -> do
let m = Message $ map packet x
-- warn $ "writing "++f
L.writeFile f (encode m)
cross_merge doDecrypt grip0 keyrings wallets f = do
let relock = do
(fsns,failed_locks) <- lockFiles keyrings
(wsns,failed_wlocks) <- lockFiles wallets
forM_ (failed_locks++failed_wlocks) $ \f -> warn $ "Failed to lock: " ++ f
return (fsns,wsns,failed_locks,failed_wlocks)
sec_n:_ = keyrings
(fsns,wsns,failed_locks,failed_wlocks) <- relock
-- let (lks,fs) = unzip fsns
-- forM_ fs $ \f -> warn $ "locked: " ++ f
let readp n = fmap (n,) (readPacketsFromFile n)
readw wk n = fmap (n,) (readPacketsFromWallet wk n)
let pass n (fsns,failed_locks) = do
ms <- mapM readp (map snd fsns++failed_locks)
let db0 = foldl' (uncurry . merge) Map.empty ms
fstkey = listToMaybe $ mapMaybe isSecringKey ms
where isSecringKey (fn,Message ps)
| fn==sec_n = listToMaybe ps
isSecringKey _ = Nothing
grip = grip0 `mplus` (fingerprint <$> fstkey)
wk = listToMaybe $ do
fp <- maybeToList grip
elm <- Map.toList db0
guard $ matchSpec (KeyGrip fp) elm
return $ keyPacket (snd elm)
wms <- mapM (readw wk) (map snd wsns++failed_wlocks)
let -- db1= foldl' (uncurry . merge_) db0 wms
ts = do
maybeToList wk
(fname,xs) <- wms
(_,sub,(_,m)) <- xs
(tag,top) <- Map.toList m
return (top,fname,sub,tag)
-- sig' <- makeSig doDecrypt top fname subkey_p tag mbsig
importWalletKey db' (top,fname,sub,tag) = do
doImportG doDecrypt
db'
(fmap keykey $ maybeToList wk)
tag
fname
sub
db <- foldM importWalletKey db0 ts
let cs = do
wk <- maybeToList wk
let kk = keykey wk
KeyData top topsigs uids subs <- maybeToList $ Map.lookup kk db
(subkk,SubKey mp sigs) <- Map.toList subs
let sub = packet mp
guard $ isCryptoCoinKey sub
tag <- take 1 $ mapMaybe getCryptoCoinTag (map (packet . fst) sigs)
return (tag,mp)
-- export wallet keys
forM_ wsns $ \(_,n) -> do
let cs' = do
(nw,mp) <- cs
-- let fns = Map.keys (locations mp)
-- trace ("COIN KEY: "++show fns) $ return ()
guard . not $ Map.member n (locations mp)
let wip = walletImportFormat (CryptoCoins.private_byte_id nw) (packet mp)
return (CryptoCoins.network_name nw,wip)
handleIO_ (return ()) $ do
withFile n AppendMode $ \fh -> do
forM_ cs' $ \(net,wip) -> do
warn $ n++": new WalletKey "++net
hPutStrLn fh wip
-- unlockFiles fsns ----------- Originally, I did this to enable altering the gpg keyrings
------------------------------- from external tools.
(db',_) <- f (sec_n,grip) db
-- lk <- relock --------------- The design is not quite safe, so it is disabled for now.
let lk = (fsns,failed_locks) --
-------------------------------
maybe (if n==0 then pass 1 lk else return (lk,db))
(return . (lk,))
db'
((fsns,failed_locks),db) <- pass 0 (fsns,failed_locks)
let lkmap = Map.fromList $ map swap fsns
writeOutKeyrings lkmap db
unlockFiles fsns
unlockFiles wsns
return ()
{-
data Arguments =
Cross_Merge { homedir :: Maybe FilePath
, passphrase_fd :: Maybe Int
, files :: [FilePath]
}
deriving (Show, Data, Typeable)
-}
toLast f [] = []
toLast f [x] = [f x]
toLast f (x:xs) = x : toLast f xs
partitionStaticArguments specs args = psa args
where
smap = Map.fromList specs
psa [] = ([],[])
psa (a:as) =
case Map.lookup a smap of
Nothing -> second (a:) $ psa as
Just n -> first ((a:take n as):) $ psa (drop n as)
show_wk secring_file grip db = do
let sec_db = Map.filter gripmatch db
gripmatch (KeyData p _ _ _) =
Map.member secring_file (locations p)
Message sec = flattenKeys False sec_db
putStrLn $ listKeysFiltered (maybeToList grip) sec
show_all db = do
let Message packets = flattenKeys True db
-- let ks = filter isKey packets
-- forM_ ks (warn . showPacket)
-- warn $ "BEGIN LIST "++show (length packets)++" packets."
putStrLn $ listKeys packets
-- warn $ "END LIST "++show (length packets)++" packets."
show_whose_key input_key db = do
flip (maybe $ return ()) input_key $ \input_key -> do
let ks = whoseKey input_key db
case ks of
[KeyData k _ uids _] -> do
putStrLn $ fingerprint (packet k)
mapM_ putStrLn $ Map.keys uids
(_:_) -> error "ambiguous"
[] -> return ()
show_pem keyspec wkgrip db = do
let s = parseSpec wkgrip keyspec
flip (maybe $ warn (keyspec ++ ": not found") >> return ())
(selectPublicKey s db)
$ \k -> do
let rsa = pkcs8 . fromJust $ rsaKeyFromPacket k
der = encodeASN1 DER (toASN1 rsa [])
qq = Base64.encode (L.unpack der)
putStrLn $
writePEM "PUBLIC KEY" qq -- ("TODO "++show keyspec)
show_ssh keyspec wkgrip db = do
let s = parseSpec wkgrip keyspec
flip (maybe $ warn (keyspec ++ ": not found") >> return ())
(selectPublicKey s db)
$ \k -> do
let Just (RSAKey (MPI n) (MPI e)) = rsaKeyFromPacket k
bs = sshrsa e n
blob = Base64.encode (L.unpack bs)
putStrLn $ "ssh-rsa " ++ blob
show_key keyspec wkgrip db = do
let s = parseSpec "" keyspec
let ps = do
(_,k) <- filterMatches (fst s) (Map.toList db)
mp <- flattenTop "" True k
return $ packet mp
-- putStrLn $ "show key " ++ show s
putStrLn $ listKeys ps
show_wip keyspec wkgrip db = do
let s = parseSpec wkgrip keyspec
flip (maybe $ warn (keyspec ++ ": not found") >> return ())
(selectSecretKey s db)
$ \k -> do
let nwb = maybe 0x80 CryptoCoins.secretByteFromName $ snd s
putStrLn $ walletImportFormat nwb k
parseSpec :: String -> String -> (KeySpec,Maybe String)
parseSpec grip spec = (topspec,subspec)
where
(topspec0,subspec0) = unprefix '/' spec
(toptyp,top) = unprefix ':' topspec0
(subtyp,sub) = unprefix ':' subspec0
topspec = case () of
_ | null top && or [ subtyp=="fp"
, null subtyp && is40digitHex sub
]
-> KeyGrip sub
_ | null top && null grip -> KeyUidMatch sub
_ | null top -> KeyGrip grip
_ | toptyp=="fp" || (null toptyp && is40digitHex top)
-> {- trace "using top" $ -} KeyGrip top
_ | toptyp=="u" -> KeyUidMatch top
_ | otherwise -> KeyUidMatch top
subspec = case subtyp of
"t" -> Just sub
"fp" | top=="" -> Nothing
"" | top=="" && is40digitHex sub -> Nothing
"" -> listToMaybe sub >> Just sub
splitAtMinBy comp xs = minimumBy comp' xxs
where
xxs = zip (inits xs) (tails xs)
comp' (_,as) (_,bs) = compM (listToMaybe as) (listToMaybe bs)
compM (Just a) (Just b) = comp a b
compM Nothing mb = GT
compM _ _ = LT
-- | systemEnv
-- This is like System.Process.system except that it lets you set
-- some environment variables.
systemEnv _ "" =
ioException (ioeSetErrorString (mkIOError InvalidArgument "system" Nothing Nothing) "null command")
systemEnv vars cmd = do
env0 <- getEnvironment
let env1 = filter (isNothing . flip lookup vars . fst) env0
env = vars ++ env1
syncProcess "system" $ (shell cmd) {env=Just env}
where
-- This is a non-exported function from System.Process
syncProcess fun c = do
-- The POSIX version of system needs to do some manipulation of signal
-- handlers. Since we're going to be synchronously waiting for the child,
-- we want to ignore ^C in the parent, but handle it the default way
-- in the child (using SIG_DFL isn't really correct, it should be the
-- original signal handler, but the GHC RTS will have already set up
-- its own handler and we don't want to use that).
old_int <- installHandler sigINT Ignore Nothing
old_quit <- installHandler sigQUIT Ignore Nothing
(_,_,_,p) <- runGenProcess_ fun c
(Just defaultSignal) (Just defaultSignal)
r <- waitForProcess p
_ <- installHandler sigINT old_int Nothing
_ <- installHandler sigQUIT old_quit Nothing
return r
doExport doDecrypt (db,use_db) (fname,subspec,ms,cmd) =
case ms of
[_] -> export
(_:_) -> ambiguous
[] -> shcmd
where
ambiguous = error "Key specification is ambiguous."
shcmd = do
let noop warning = do
warn warning
return (db,use_db)
if null cmd then noop (fname ++ ": missing.") else do
let vars = [ ("file",fname)
, ("usage",maybe "" id subspec) ]
e <- systemEnv vars cmd
case e of
ExitFailure num -> noop $ fname ++ ": failed external (code="++show num++")"
ExitSuccess -> do
warn $ fname ++ ": generated"
return (Nothing,use_db) -- need another pass
export = do
let [kk] = ms
Just (KeyData key _ _ subkeys) = Map.lookup kk use_db
p = flip (maybe (Just $ packet key)) subspec $ \tag -> do
let subs = Map.elems subkeys
doSearch (SubKey sub_mp sigtrusts) =
let (_,v,_) = findTag tag
(packet key)
(packet sub_mp)
sigtrusts
in fmap fst v==Just True
case filter doSearch subs of
[SubKey mp _] -> Just $ packet mp
[] -> Nothing
_ -> ambiguous
flip (maybe shcmd) p $ \p -> do
pun <- doDecrypt p
flip (maybe $ error "Bad passphrase?") pun $ \pun -> do
writeKeyToFile False "PEM" fname pun
return (db,use_db)
findTag tag wk subkey subsigs = (xs',minsig,ys')
where
vs = map (\sig ->
(sig, do
sig <- Just (packet . fst $ sig)
guard (isSignaturePacket sig)
guard $ flip isSuffixOf
(fingerprint wk)
. maybe "%bad%" id
. signature_issuer
$ sig
listToMaybe $
map (signature_time . verify (Message [wk]))
(signatures $ Message [wk,subkey,sig])))
subsigs
(xs,ys) = splitAtMinBy (comparing (Down . snd)) vs
xs' = map fst xs
ys' = map fst $ if isNothing minsig then ys else drop 1 ys
minsig = do
(sig,ov) <- listToMaybe ys
ov
let hs = filter (\p->isNotation p && notation_name p=="usage@")
(hashed_subpackets . packet . fst $ sig)
ks = map notation_value hs
isNotation (NotationDataPacket {}) = True
isNotation _ = False
return (tag `elem` ks, sig)
{-
applyCurve curve x = x*x*x + x*a + b where (a,b)=(geta curve,getb curve)
secp256k1_oid = [1,3,132,0,10]
secp256k1_curve = ECi l a b p r
where
-- y² = x³ + 7 (mod p)
p = 0x0FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F
a = 0
b = 7
-- group order (also order of base point G)
r = n
n = 0x0FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141
-- cofactor
h = 1
-- bit length
l = 256
secp256k1_G = ECPa secp256k1_curve
0x79BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F81798
0x483ADA7726A3C4655DA4FBFC0E1108A8FD17B448A68554199C47D08FFB10D4B8
{-
The base point G in compressed form is:
G = 02 79BE667E F9DCBBAC 55A06295 CE870B07 029BFCDB 2DCE28D9 59F2815B 16F81798
and in uncompressed form is:
G = 04 79BE667E F9DCBBAC 55A06295 CE870B07 029BFCDB 2DCE28D9 59F2815B 16F81798
483ADA77 26A3C465 5DA4FBFC 0E1108A8 FD17B448 A6855419 9C47D08F FB10D4B8
-}
-}
base58chars = "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz"
base58digits :: [Char] -> Maybe [Int]
base58digits str = sequence mbs
where
mbs = map (flip elemIndex base58chars) str
-- 5HueCGU8rMjxEXxiPuD5BDku4MkFqeZyd4dZ1jvhTVqvbTLvyTJ
base58_decode :: [Char] -> Maybe (Word8,[Word8])
base58_decode str = do
ds <- base58digits str
let n = foldl' (\a b-> a*58 + b) 0 $ ( map fromIntegral ds :: [Integer] )
rbytes = unfoldr getbyte n
getbyte d = do
guard (d/=0)
let (q,b) = d `divMod` 256
return (fromIntegral b,q)
let (rcksum,rpayload) = splitAt 4 $ rbytes
a_payload = reverse rpayload
hash_result = S.take 4 . SHA256.hash . SHA256.hash . S.pack $ a_payload
expected_hash = S.pack $ reverse rcksum
(network_id,payload) = splitAt 1 a_payload
network_id <- listToMaybe network_id
guard (hash_result==expected_hash)
return (network_id,payload)
walletImportFormat idbyte k = secret_base58_foo
where
-- isSecret (SecretKeyPacket {}) = True
-- isSecret _ = False
secret_base58_foo = base58_encode seckey
Just d = lookup 'd' (key k)
(_,bigendian) = S.splitAt 2 (S.concat $ L.toChunks $ encode d)
seckey = S.cons idbyte bigendian
base58_encode :: S.ByteString -> String
base58_encode hash = replicate zcount '1' ++ map (base58chars !!) (reverse rdigits)
where
zcount = S.length . S.takeWhile (==0) $ hash
cksum = S.take 4 . SHA256.hash . SHA256.hash $ hash
n = foldl' (\a b->a*256+b) 0 . map asInteger $ concatMap S.unpack [hash, cksum]
asInteger x = fromIntegral x :: Integer
rdigits = unfoldr getdigit n
where
getdigit d = do
guard (d/=0)
let (q,b) = d `divMod` 58
return (fromIntegral b,q)
cannonical_eckey x y = 0x4:pad32(numToBytes x) ++ pad32(numToBytes y) :: [Word8]
where
numToBytes n = reverse $ unfoldr getbyte n
where
getbyte d = do
guard (d/=0)
let (q,b) = d `divMod` 256
return (fromIntegral b,q)
pad32 xs = replicate zlen 0 ++ xs
where
zlen = 32 - length xs
oidToDER ns = S.pack $ b1 : concatMap encode ys
where
(xs,ys) = splitAt 2 ns
b1 = fromIntegral $ foldl' (\a b->a*40+b) 0 xs
encode x | x <= 127 = [fromIntegral x]
| otherwise = (\(x:xs)-> reverse (x:map (0x80 .|.) xs))
(base128r x)
base128r n = unfoldr getbyte n
where
getbyte d = do
guard (d/=0)
let (q,b) = d `divMod` 128
return (fromIntegral b,q)
nistp256=[1,2,840,10045,3,1,7]
nistp256_der=[0x2A,0x86,0x48,0xCE,0x3D,0x03,0x01,0x07]
-- "\x2a\x86\x48\xce\x3d\x03\x01\x07"
{- OID Curve description Curve name
----------------------------------------------------------------
1.2.840.10045.3.1.7 NIST Curve P-256 [FIPS 186-2] "NIST P-256"
1.3.132.0.34 NIST Curve P-384 [FIPS 186-2] "NIST P-384"
1.3.132.0.35 NIST Curve P-521 [FIPS 186-2] "NIST P-521"
Implementations MUST implement "NIST P-256", "NIST P-384" and "NIST
P-521". The hexadecimal representation used in the public and
private key encodings are:
Curve Name Len Hexadecimal representation of the OID
----------------------------------------------------------------
"NIST P-256" 8 0x2A, 0x86, 0x48, 0xCE, 0x3D, 0x03, 0x01, 0x07
"NIST P-384" 6 0x05, 0x2B, 0x81, 0x04, 0x00, 0x22
"NIST P-521" 6 0x05, 0x2B, 0x81, 0x04, 0x00, 0x23
-}
bitcoinAddress network_id k = address
where
Just (MPI x) = lookup 'x' (key k)
Just (MPI y) = lookup 'y' (key k)
pub = cannonical_eckey x y
hash = S.cons network_id . RIPEMD160.hash . SHA256.hash . S.pack $ pub
address = base58_encode hash
-- gpg supported ECDSA curve: 2A8648CE3D030107
-- 2A 86 48 CE 3D 03 01 07
-- 1,2,134,72,206,61,3,1,7
-- 6*128+0x48 840
-- 0x4e*128+0x3d 10045
-- 1.2.840.10045.3.1.7 --> NIST P-256
--
decode_btc_key timestamp str = do
(network_id,us) <- base58_decode str
return . (network_id,) $ Message $ do
let d = foldl' (\a b->a*256+b) 0 (map fromIntegral us :: [Integer])
{-
xy = secp256k1_G `pmul` d
x = getx xy
y = gety xy
-- y² = x³ + 7 (mod p)
y' = sqrtModP' (applyCurve secp256k1_curve x) (getp secp256k1_curve)
y'' = sqrtModPList (applyCurve secp256k1_curve x) (getp secp256k1_curve)
-}
secp256k1 = ECC.getCurveByName ECC.SEC_p256k1
ECC.Point x y = ECC.ecc_g $ ECC.common_curve secp256k1
-- pub = cannonical_eckey x y
-- hash = S.cons network_id . RIPEMD160.hash . SHA256.hash . S.pack $ pub
-- address = base58_encode hash
-- pubstr = concatMap (printf "%02x") $ pub
-- _ = pubstr :: String
return $ {- trace (unlines ["pub="++show pubstr
,"add="++show address
,"y ="++show y
,"y' ="++show y'
,"y''="++show y'']) -}
SecretKeyPacket
{ version = 4
, timestamp = toEnum (fromEnum timestamp)
, key_algorithm = ECDSA
, key = [ -- public fields...
('c',MPI secp256k1_id) -- secp256k1 (bitcoin curve)
,('l',MPI 256)
,('x',MPI x)
,('y',MPI y)
-- secret fields
,('d',MPI d)
]
, s2k_useage = 0
, s2k = S2K 100 ""
, symmetric_algorithm = Unencrypted
, encrypted_data = ""
, is_subkey = True
}
doBTCImport doDecrypt db (ms,subspec,content) = do
let fetchkey = do
timestamp <- now
let mbk = fmap discardNetworkID $ decode_btc_key timestamp content
discardNetworkID = snd
return $ maybe (Message []) id mbk
let error s = do
warn s
exitFailure
flip (maybe $ error "Cannot import master key.")
subspec $ \tag -> do
Message parsedkey <- fetchkey
flip (maybe $ return db)
(listToMaybe parsedkey) $ \key -> do
let (m0,tailms) = splitAt 1 ms
when (not (null tailms) || null m0)
$ error "Key specification is ambiguous."
doImportG doDecrypt db m0 tag "" key
doImport doDecrypt db (fname,subspec,ms,_) = do
let fetchkey = readKeyFromFile False "PEM" fname
let error s = do
warn s
exitFailure
flip (maybe $ error "Cannot import master key.")
subspec $ \tag -> do
Message parsedkey <- fetchkey
flip (maybe $ return db)
(listToMaybe parsedkey) $ \key -> do
let (m0,tailms) = splitAt 1 ms
when (not (null tailms) || null m0)
$ error "Key specification is ambiguous."
doImportG doDecrypt db m0 tag fname key
doImportG doDecrypt db m0 tag fname key = do
let error s = do
warn s
exitFailure
let kk = head m0
Just (KeyData top topsigs uids subs) = Map.lookup kk db
subkk = keykey key
(is_new, subkey) = maybe (True, SubKey (mappedPacket fname key)
[])
( (False,) . addOrigin )
(Map.lookup subkk subs)
where
addOrigin (SubKey mp sigs) =
let mp' = mp
{ locations = Map.insert fname
(origin (packet mp) (-1))
(locations mp) }
in SubKey mp' sigs
subs' = Map.insert subkk subkey subs
istor = do
guard (tag == "tor")
return $ "Anonymous <root@" ++ take 16 (torhash key) ++ ".onion>"
uids' <- flip (maybe $ return uids) istor $ \idstr -> do
let has_torid = do
-- TODO: check for omitted real name field
(sigtrusts,om) <- Map.lookup idstr uids
listToMaybe $ do
s <- (signatures $ Message (packet top:UserIDPacket idstr:map (packet . fst) sigtrusts))
signatures_over $ verify (Message [packet top]) s
flip (flip maybe $ const $ return uids) has_torid $ do
wkun <- doDecrypt (packet top)
flip (maybe $ error "Bad passphrase?") wkun $ \wkun -> do
let keyflags = keyFlags wkun (map packet $ flattenAllUids fname True uids)
uid = UserIDPacket idstr
-- sig_ov = fst $ torsig g (packet top) wkun uid timestamp keyflags
tor_ov = torSigOver (packet top) wkun uid keyflags
sig_ov <- pgpSign (Message [wkun])
tor_ov
SHA1
(fingerprint wkun)
flip (maybe $ warn "Failed to make signature" >> return uids)
(sig_ov >>= listToMaybe . signatures_over)
$ \sig -> do
let om = Map.singleton fname (origin sig (-1))
trust = Map.empty
return $ Map.insert idstr ([( (mappedPacket fname sig) {locations=om}
,trust)],om) uids
let SubKey subkey_p subsigs = subkey
wk = packet top
(xs',minsig,ys') = findTag tag wk key subsigs
doInsert mbsig db = do
sig' <- makeSig doDecrypt top fname subkey_p tag mbsig
warn $ fname ++ ": yield SignaturePacket"
let subs' = Map.insert subkk
(SubKey subkey_p $ xs'++[sig']++ys')
subs
return $ Map.insert kk (KeyData top topsigs uids' subs') db
when is_new (warn $ fname ++ ": yield SecretKeyPacket "++show (fmap fst minsig,fingerprint key))
case minsig of
Nothing -> doInsert Nothing db -- we need to create a new sig
Just (True,sig) -> -- we can deduce is_new == False
-- we may need to add a tor id
return $ Map.insert kk (KeyData top topsigs uids' subs') db
Just (False,sig) -> doInsert (Just sig) db -- We have a sig, but is missing usage@ tag
makeSig doDecrypt top fname subkey_p tag mbsig = do
let wk = packet top
wkun <- doDecrypt wk
flip (maybe $ error "Bad passphrase?") wkun $ \wkun -> do
let grip = fingerprint wk
addOrigin new_sig = do
flip (maybe $ error "Failed to make signature.")
(new_sig >>= listToMaybe . signatures_over)
$ \new_sig -> do
let mp' = mappedPacket fname new_sig
return (mp', Map.empty)
parsedkey = [packet $ subkey_p]
hashed0 =
[ KeyFlagsPacket
{ certify_keys = False
, sign_data = False
, encrypt_communication = False
, encrypt_storage = False
, split_key = False
, authentication = True
, group_key = False }
, NotationDataPacket
{ human_readable = True
, notation_name = "usage@"
, notation_value = tag
}
-- implicitly added:
-- , SignatureCreationTimePacket (fromIntegral timestamp)
]
subgrip = fingerprint (head parsedkey)
back_sig <- pgpSign (Message parsedkey)
(SubkeySignature wk
(head parsedkey)
(sigpackets 0x19
hashed0
[IssuerPacket subgrip]))
(if key_algorithm (head parsedkey)==ECDSA
then SHA256
else SHA1)
subgrip
let iss = IssuerPacket (fingerprint wk)
cons_iss back_sig = iss : map EmbeddedSignaturePacket (signatures_over back_sig)
unhashed0 = maybe [iss] cons_iss back_sig
new_sig <- pgpSign (Message [wkun])
(SubkeySignature wk
(head parsedkey)
(sigpackets 0x18
hashed0
unhashed0))
SHA1
grip
let newSig = addOrigin new_sig
flip (maybe newSig) mbsig $ \(mp,trustmap) -> do
let sig = packet mp
isCreation (SignatureCreationTimePacket {}) = True
isCreation _ = False
isExpiration (SignatureExpirationTimePacket {}) = True
isExpiration _ = False
(cs,ps) = partition isCreation (hashed_subpackets sig)
(es,qs) = partition isExpiration ps
stamp = listToMaybe . sortBy (comparing Down) $
map unwrap cs where unwrap (SignatureCreationTimePacket x) = x
exp = listToMaybe $ sort $
map unwrap es where unwrap (SignatureExpirationTimePacket x) = x
expires = liftA2 (+) stamp exp
timestamp <- now
if fmap ( (< timestamp) . fromIntegral) expires == Just True then do
warn $ "Unable to update expired signature"
return (mp,trustmap)
else do
let times = (:) (SignatureExpirationTimePacket (fromIntegral timestamp))
$ maybeToList $ do
e <- expires
return $ SignatureExpirationTimePacket (e - fromIntegral timestamp)
notation = NotationDataPacket
{ notation_name = "usage@"
, notation_value = tag
, human_readable = True }
sig' = sig { hashed_subpackets = times ++ [notation] ++ qs }
new_sig <- pgpSign (Message [wkun])
(SubkeySignature wk
(packet subkey_p)
[sig'] )
SHA1
(fingerprint wk)
addOrigin new_sig
signature_time ov = case if null cs then ds else cs of
[] -> minBound
xs -> last (sort xs)
where
ps = signatures_over ov
ss = filter isSignaturePacket ps
cs = concatMap (concatMap creationTime . hashed_subpackets) ss
ds = concatMap (concatMap creationTime . unhashed_subpackets) ss
creationTime (SignatureCreationTimePacket t) = [t]
creationTime _ = []
-- We return into IO in case we want to make a signature here.
setHostnames :: (SockAddr -> Bool) -> Hosts.Hosts -> KeyData -> IO KeyData
setHostnames pred hosts kd@(KeyData topmp topsigs uids subs) =
-- TODO: we are removing the origin from the UID OriginMap,
-- when we should be removing origins from the locations
-- field of the sig's MappedPacket records.
-- Call getHostnames and compare to see if no-op.
if not (pred addr) || names0 == names \\ onions
then {- trace (unlines [ "setHostnames NO-OP: gpg: "++show (map Char8.unpack onions, map Char8.unpack names0)
, " file: "++show (map Char8.unpack names)
, " pred: "++show (pred addr)]) -}
(return kd)
else do
-- We should be sure to remove origins so that the data is written
-- (but only if something changed).
-- Filter all hostnames present in uids
-- Write notations into first uid
{-
trace (unlines [ "setHostnames ACTION: gpg: "++show (map Char8.unpack onions, map Char8.unpack names0)
, " file: "++show (map Char8.unpack names) ]) $ do
-}
return $ KeyData topmp topsigs uids1 subs
where
topk = packet topmp
addr = fingerdress topk
names :: [Char8.ByteString]
names = Hosts.namesForAddress addr hosts
(_,(onions,names0)) = getHostnames kd
notations = map (NotationDataPacket True "hostname@" . Char8.unpack) (names \\ onions)
isName (NotationDataPacket True "hostname@" _) = True
isName _ = False
uids0 = fmap zapIfHasName uids
fstuid = head $ do
p <- map packet $ flattenAllUids "" True uids
guard $ isUserID p
return $ uidkey p
uids1 = Map.adjust addnames fstuid uids0
addnames (sigs,om) = (fmap f ss ++ ts, om ) -- XXX: removed om=Map.empty, preserve UserId origin
where
(ss,ts) = splitAt 1 sigs
f (sig,tm) = if isSignaturePacket (packet sig) then (sig { packet = p', locations=Map.empty }, tm)
else (sig, tm)
where p' = (packet sig) { unhashed_subpackets=uh }
uh = unhashed_subpackets (packet sig) ++ notations
zapIfHasName (sigs,om) = if or bs then (sigs',om) -- XXX: removed om=Map.empty to preserve UserID origin
else (sigs,om)
where
(bs, sigs') = unzip $ map unhash sigs
unhash (sig,tm) = ( not (null ns)
, ( sig { packet = p', locations = Map.empty }
, tm ) )
where
psig = packet sig
p' = if isSignaturePacket psig then psig { unhashed_subpackets = ps }
else psig
uh = unhashed_subpackets $ psig
(ns,ps) = partition isName uh
socketFamily (SockAddrInet _ _) = AF_INET
socketFamily (SockAddrInet6 _ _ _ _) = AF_INET6
socketFamily (SockAddrUnix _) = AF_UNIX
hasFingerDress :: KeyDB -> SockAddr -> Bool
hasFingerDress db addr | socketFamily addr/=AF_INET6 = False
hasFingerDress db addr = pre=="fd" && isJust (selectPublicKey (KeyGrip g',Nothing) db)
where
(pre,g) = splitAt 2 $ filter (/=':') $ Hosts.inet_ntop addr
g' = map toUpper g
fingerdress :: Packet -> SockAddr
fingerdress topk = maybe zero id $ Hosts.inet_pton addr_str
where
zero = SockAddrInet 0 0
addr_str = colons $ "fd" ++ (drop 10 $ map toLower $ fingerprint topk)
colons (a:b:c:d:xs@(_:_)) = [a,b,c,d,':'] ++ colons xs
colons xs = xs
{-
onionName :: KeyData -> (SockAddr,L.ByteString)
onionName kd = (addr,name)
where
(addr,(name:_,_)) = getHostnames kd
-}
getHostnames :: KeyData -> (SockAddr, ([L.ByteString],[L.ByteString]))
getHostnames (KeyData topmp _ uids subs) = (addr,(onames,othernames))
where
othernames = do
mp <- flattenAllUids "" True uids
let p = packet mp
guard $ isSignaturePacket p
uh <- unhashed_subpackets p
case uh of
NotationDataPacket True "hostname@" v
-> return $ Char8.pack v
_ -> mzero
addr = fingerdress topk
-- name = maybe "" id $ listToMaybe onames -- TODO: more than one tor key?
topk = packet topmp
torkeys = do
SubKey k sigs <- Map.elems subs
let subk = packet k
let sigs' = do
torsig <- filter (has_tag "tor") $ map (packet . fst) sigs
sig <- (signatures $ Message [topk,subk,torsig])
let v = verify (Message [topk]) sig
-- Require parent's signature
guard (not . null $ signatures_over v)
let unhashed = unhashed_subpackets torsig
subsigs = mapMaybe backsig unhashed
-- This should consist only of 0x19 values
-- subtypes = map signature_type subsigs
sig' <- signatures . Message $ [topk,subk]++subsigs
let v' = verify (Message [subk]) sig'
-- Require subkey's signature
guard . not . null $ signatures_over v'
return torsig
guard (not $ null sigs')
return $ subk
has_tag tag p = isSignaturePacket p
&& or [ tag `elem` mapMaybe usage (hashed_subpackets p)
, tag `elem` map usageString (mapMaybe keyflags (hashed_subpackets p)) ]
-- subkeyPacket (SubKey k _ ) = k
onames :: [L.ByteString]
onames = map ( (<> ".onion")
. Char8.pack
. take 16
. torhash )
torkeys
whoseKey :: RSAPublicKey -> KeyDB -> [KeyData]
whoseKey rsakey db = filter matchkey (Map.elems db)
where
matchkey (KeyData k _ _ subs) =
not . null . filter (ismatch k) $ Map.elems subs
ismatch k (SubKey mp sigs) =
Just rsakey == rsaKeyFromPacket (packet mp)
&& any (check (packet k) (packet mp)) sigs
check k sub (sig,_) = not . null $ do
s <- signatures . Message $ [k,sub,packet sig]
fw <- signatures_over $ verify (Message [k]) s
subsig <- mapMaybe backsig (unhashed_subpackets sub)
subsig_so <- signatures (Message [k,sub,subsig])
guard ( isSubkeySignature subsig_so
&& isSameKey (topkey subsig_so) k
&& isSameKey (subkey subsig_so) sub )
s2 <- signatures . Message $ [k,sub,subsig]
signatures_over $ verify (Message [sub]) s2
workingKey grip use_db = listToMaybe $ do
fp <- maybeToList grip
elm <- Map.toList use_db
guard $ matchSpec (KeyGrip fp) elm
return $ keyPacket (snd elm)
has_good_sig wk (KeyData k sigs uids subs) = any goodsig $ Map.toList uids
where
goodsig (uidstr,(sigs,_)) = not . null $ do
sig0 <- fmap (packet . fst) sigs
pre_ov <- signatures (Message [packet k, UserIDPacket uidstr, sig0])
signatures_over $ verify (Message [wk]) pre_ov
markForImport margs grip pubring db = maybe (return db) import_db $ wantToImport
where wantToImport = mplus import_f importifauth_f
where
import_f = do Map.lookup "--import" margs
return dont_have
importifauth_f = do Map.lookup "--import-if-authentic" margs
return isauth
dont_have (KeyData p _ _ _) = not . Map.member pubring
$ locations p
isauth keydata = dont_have keydata && maybe False (`has_good_sig` keydata) wk
where wk = workingKey grip db
import_db dont_have = do
forM_ to_alters $ \(_,KeyData c _ _ _) ->
warn $ pubring ++ ": new "++showPacket (packet c)
let db' = Map.union (Map.fromList altered)
db
return db'
where
to_alters = filter (dont_have . snd) $ Map.toList db
altered = map (second append_loc) to_alters
append_loc (KeyData p a b c) = KeyData p' a b c
where p' = p { locations = Map.insert pubring
(origin (secretToPublic (packet p)) (-1))
(locations p)
}
kiki_usage = do
putStr . unlines $
["kiki - a pgp key editing utility"
,""
,"kiki [OPTIONS]"
,""
," kiki merges a set of keyring files into a combined database and then"
," uses the database to update the files so that they have the most complete"
," information."
,""
," The files pubring.gpg and subring.gpg in the directory specified by the "
," --homedir option are implicitly included in the keyring set."
,""
," kiki can also import or export secret subkeys by using the --keypairs option."
,""
," Subkeys that are imported with kiki are given an annotation \"usage@\" which"
," indicates what the key is for. This tag can be used as a SPEC to select a"
," particular key. Master keys may be specified by using fingerprints or by"
," specifying a substring of an associated UID."
,""
,"Flags:"
," --homedir DIR"
," Where to find the the files secring.gpg and pubring.gpg. The "
," default location is taken from the environment variable "
," GNUPGHOME."
,""
," --passphrase-fd N"
," Read passphrase from the given file descriptor."
,""
," --import Add master keys to pubring.gpg. Without this option, only UID"
," and subkey data is updated. "
,""
," --import-if-authentic"
," Add signed master keys to pubring.gpg. Like --import except that"
," only keys with signatures from the working key (--show-wk) are"
," imported."
,""
," --autosign Sign all cross-certified tor-style UIDs."
," A tor-style UID is of the form:"
," Anonymous <root@HOSTNAME.onion>"
," It is considered cross certified if there exists a cross-certified"
," 'tor' subkey corresponding to the address HOSTNAME.onion."
,""
,"Merging:"
," --keyrings FILE FILE..."
," Provide keyring files other than the implicit secring.gpg and"
," pubring.gpg in the --homedir. This option is implicit unless"
," --keypairs or --wallets is used."
,""
," --wallets FILE FILE..."
," Provide wallet files with secret crypto-coin keys in Wallet"
," Import Format. The keys will be treated as subkeys of your"
," current working key (the one shown by --show-wk)."
,""
," --keypairs KEYSPEC KEYSPEC..."
," Each KEYSPEC specifies that a key should match the content and"
," timestamp of an external PKCS #1 private RSA key file."
," "
," KEYSPEC ::= SPEC=FILE{CMD} "
,""
," If neither SPEC or FILE match any keys, then the CMD will be "
," executed in order to create the FILE."
,""
,"Output:"
," --show-wk Show fingerprints for the working key (which will be used to"
," make signatures) and all its subkeys and UID."
,""
," --show-key SPEC"
," Show fingerprints for the specified key and all its subkeys"
," and UID."
,""
," --show-all Show fingerprints and UIDs and usage tags for all known keys."
,""
," --show-whose-key"
," Shows the fingerprint and UIDs of the key that owns the one that"
," is input on stdin in ssh-rsa format."
,""
," --show-pem SPEC"
," Outputs the PKCS #8 public key corresponding to SPEC."
,""
," --show-ssh SPEC"
," Outputs the ssh-rsa blob for the specified public key."
,""
," --show-wip SPEC"
," Outputs the secret crypto-coin key in Wallet Input Format."
,""
," --help Shows this help screen."
]
main = do
dotlock_init
{-
args <- cmdArgs $ modes
[ Cross_Merge HOMEOPTION
(def &= opt ("passphrase"::String)
&= typ "FD"
&= (help . concat) ["file descriptor from "
,"which to read passphrase"])
(def &= args &= typFile)
&= help "Merge multiple secret keyrings to stdout."
]
&= program "kiki"
&= summary "kiki - a pgp key editing utility"
doCmd args
-}
args_raw <- getArgs
let (args,trail1) = break (=="--") args_raw
trail = drop 1 trail1
(sargs,margs) =
(sargs, foldl' (\m (k:xs)->Map.alter (appendArgs k xs) k m)
Map.empty
gargs)
where (sargs,vargs) = partitionStaticArguments sargspec args
sargspec = [ ("--homedir",1)
, ("--passphrase-fd",1)
, ("--import",0)
, ("--autosign",0)
, ("--import-if-authentic",0)
, ("--show-wk",0)
, ("--show-all",0)
, ("--show-whose-key",0)
, ("--show-key",1)
, ("--show-pem",1)
, ("--show-ssh",1)
, ("--show-wip",1)
, ("--help",0)
]
argspec = map fst sargspec ++ ["--keyrings"
,"--keypairs"
,"--wallets"
,"--hosts"]
-- "--bitcoin-keypairs"
-- Disabled. We shouldn't accept private key
-- data on the command line.
args' = if map (take 1) (take 1 vargs) == ["-"]
then vargs
else "--keyrings":vargs
gargs = (sargs ++)
. toLast (++trail)
. groupBy (\_ s-> take 1 s /= "-")
$ args'
appendArgs k xs opt =
if k `elem` argspec
then Just . maybe xs (++xs) $ opt
else error . unlines $ [ "unrecognized option "++k
, "Use --help for usage." ]
-- putStrLn $ "margs = " ++ show (Map.assocs margs)
unkeysRef <- newIORef Map.empty
pwRef <- newIORef Nothing
let keypairs0 =
flip map (maybe [] id $ Map.lookup "--keypairs" margs) $ \specfile -> do
let (spec,efilecmd) = break (=='=') specfile
guard $ take 1 efilecmd=="="
let filecmd = drop 1 efilecmd
let (file,bcmdb0) = break (=='{') filecmd
bcmdb = if null bcmdb0 then "{}" else bcmdb0
guard $ take 1 bcmdb=="{"
let bdmcb = (dropWhile isSpace . reverse) bcmdb
guard $ take 1 bdmcb == "}"
let cmd = (drop 1 . reverse . drop 1) bdmcb
Just (spec,file,cmd)
btcpairs0 =
flip map (maybe [] id $ Map.lookup "--bitcoin-keypairs" margs) $ \specfile -> do
let (spec,efilecmd) = break (=='=') specfile
(spec,protocnt) <- do
return $ if take 1 efilecmd=="=" then (spec,drop 1 efilecmd)
else ("",spec)
let (proto,content) = break (==':') protocnt
spec <- return $ if null spec then "bitcoin" else spec
return $
if take 1 content =="=" then (spec,proto,drop 1 content)
else (spec,"base58",proto)
{-
publics =
flip map (maybe [] id $ Map.lookup "--public" margs) $ \specfile -> do
let (spec,efile) = break (=='=') specfile
guard $ take 1 efile=="="
let file= drop 1 efile
Just (spec,file)
-}
keyrings_ = maybe [] id $ Map.lookup "--keyrings" margs
wallets = maybe [] id $ Map.lookup "--wallets" margs
passphrase_fd = concat <$> Map.lookup "--passphrase-fd" margs
decrypt wk = do
-- warn $ "decryptKey "++fingerprint wk
unkeys <- readIORef unkeysRef
let kk = keykey wk
flip (flip maybe $ return . Just) (Map.lookup kk unkeys) $ do
let ret wkun = do writeIORef unkeysRef (Map.insert kk wkun unkeys)
return (Just wkun)
if symmetric_algorithm wk == Unencrypted then ret wk else do
pw <- do
pw <- readIORef pwRef
flip (flip maybe return) pw $ do
case passphrase_fd of
Just fd -> do pwh <- fdToHandle (read fd)
pw <- fmap trimCR $ S.hGetContents pwh
writeIORef pwRef (Just pw)
return pw
Nothing -> return ""
let wkun = do
k <- decryptSecretKey pw wk
guard (symmetric_algorithm k == Unencrypted)
return k
maybe (return Nothing) ret wkun
when (not . null $ filter isNothing keypairs0) $ do
warn "syntax error"
exitFailure
input_key <- maybe (return Nothing)
(const $ fmap (Just . readPublicKey) Char8.getContents)
$ Map.lookup "--show-whose-key" margs
let keypairs = catMaybes keypairs0
btcpairs = catMaybes btcpairs0
(homedir,secring,pubring,grip0) <- getHomeDir ( concat <$> Map.lookup "--homedir" margs)
let keyrings = secring:pubring:keyrings_
{-
putStrLn $ "keypairs = "++show keypairs
putStrLn $ "publics = "++show publics
putStrLn $ "keyrings = "++show keyrings
-}
cross_merge decrypt grip0 keyrings wallets $ \(secfile,grip) db -> do
use_db0 <- return db
let pkeypairs = maybe [] id $ do
keygrip <- grip
return $ map (\(spec,f,cmd)-> (parseSpec keygrip spec,f,cmd)) keypairs
fs <- forM pkeypairs $ \((topspec,subspec),f,cmd) -> do
-- Note that it's important to discard the KeyData objects
-- returned by filterMatches and retain only the keys.
-- Otherwise, the iterations within the foldM would not be
-- able to alter them by returning a modified KeyDB.
let ms = map fst $ filterMatches topspec (Map.toList db)
f_found <- doesFileExist f
return (f_found,(f,subspec,ms,cmd))
let (imports,exports) = partition fst fs
use_db <- foldM (doImport decrypt) use_db0 (map snd imports)
let (btcs,_) = partition isSupportedBTC btcpairs
isSupportedBTC (spec,"base58",cnt) = True
isSupportedBTC _ = False
dblist = Map.toList use_db
pbtcs = maybe [] id $ do
keygrip <- grip
let conv (spec,proto,cnt) =
let (topspec,subspec) = parseSpec keygrip spec
ms = map fst $ filterMatches topspec dblist
in (ms,subspec,cnt)
return $ map conv btcs
use_db <- foldM (doBTCImport decrypt) use_db pbtcs
(ret_db,_) <- foldM (doExport decrypt) (Just use_db,use_db) (map snd exports)
use_db <-
flip (maybe $ return use_db)
(lookup "--autosign" $ map (\(x:xs)->(x,xs)) sargs)
$ \_ -> do
let keys = map keyPacket $ Map.elems use_db
wk = workingKey grip use_db
-- g <- newGenIO
-- stamp <- now
wkun <- flip (maybe $ return Nothing) wk $ \wk -> do
wkun <- decrypt wk
maybe (error $ "Bad passphrase?") (return . Just) wkun
-- return . snd $ Map.mapAccum (signTorIds stamp wkun keys) g use_db
Traversable.mapM (signTorIds wkun keys) use_db
use_db <- markForImport margs grip pubring use_db
ret_db <- return $ fmap (const use_db) ret_db
ret_db <- flip (maybe $ return ret_db) ret_db $ \db -> do
let hns = maybe [] id $ Map.lookup "--hosts" margs
hostdbs0 <- mapM (fmap Hosts.decode . L.readFile) hns
let gpgnames = map getHostnames $ Map.elems db
os = do
(addr,(ns,_)) <- gpgnames
n <- ns
return (addr,n)
setOnions hosts = foldl' (flip $ uncurry Hosts.assignName) hosts os
-- we ensure .onion names are set properly
hostdbs = map setOnions hostdbs0
outgoing_names = do
(addr,(_,gns)) <- gpgnames
guard . not $ null gns
guard $ all (null . Hosts.namesForAddress addr) hostdbs0
return addr
-- putStrLn $ "hostdbs = " ++ show hostdbs
-- 1. let U = union all the host dbs
-- preserving whitespace and comments of the first
let u0 = foldl' Hosts.plus Hosts.empty hostdbs
-- we filter U to be only finger-dresses
u1 = Hosts.filterAddrs (hasFingerDress db) u0
-- let nf h = map Char8.unpack $ Hosts.namesForAddress (fromJust $ Hosts.inet_pton "fdf4:ed98:29c7:6226:9bde:a5b4:d564:3321") h
{-
putStrLn $ "_ = {\n" ++ show (head hostdbs) ++ "}"
putStrLn $ "--> " ++ show (nf (head hostdbs))
putStrLn $ "u0 = {\n" ++ show u0 ++ "}"
putStrLn $ "--> " ++ show (nf u0)
putStrLn $ "u1 = {\n" ++ show u1 ++ "}"
putStrLn $ "--> " ++ show (nf u1)
-}
-- 2. replace gpg annotations with those in U
-- forM use_db
db' <- Traversable.mapM (setHostnames (\a -> not $ elem a outgoing_names) u1) db
-- 3. add hostnames from gpg for addresses not in U
let u = foldl' f u1 ans
ans = reverse $ do
(addr,(_,ns)) <- gpgnames
guard $ addr `elem` outgoing_names -- . null $ Hosts.namesForAddress addr u0
n <- ns
return (addr,n)
f h (addr,n) = Hosts.assignNewName addr n h
{-
putStrLn $ "u = {\n" ++ show u ++ "}"
putStrLn $ "--> " ++ show (nf u)
-}
-- 4. for each host db H, union H with U and write it out as H'
-- only if there is a non-empty diff
forM_ (zip hns $ zip hostdbs0 hostdbs) $ \(fname,(h0,h1)) -> do
let h = h1 `Hosts.plus` u
d = Hosts.diff h0 h
fnamecolon = Char8.pack fname <> ": "
{-
putStrLn $ "h = {\n" ++ show h ++ "}"
putStrLn $ "--> " ++ show (nf h)
-}
Char8.hPutStrLn stderr $ Char8.unlines (map (fnamecolon <>) d)
when (not $ null d) $ L.writeFile fname $ Hosts.encode h
return ()
return (Just db')
flip (maybe $ return ()) ret_db . const $ do
-- On last pass, interpret --show-* commands.
let shspec = Map.fromList [("--show-wk", const $ show_wk secfile grip)
,("--show-all",const $ show_all)
,("--show-whose-key", const $ show_whose_key input_key)
,("--show-key",\[x] -> show_key x $ maybe "" id grip)
,("--show-pem",\[x] -> show_pem x $ maybe "" id grip)
,("--show-ssh",\[x] -> show_ssh x $ maybe "" id grip)
,("--show-wip",\[x] -> show_wip x $ maybe "" id grip)
,("--help", \_ _ ->kiki_usage)]
shargs = mapMaybe (\(x:xs) -> (,xs) <$> Map.lookup x shspec) sargs
forM_ shargs $ \(cmd,args) -> cmd args use_db
return $ (ret_db,use_db)
return()
where
{-
getPGPEnviron cmd = do
(homedir,secring,pubring,grip) <- getHomeDir (homedir cmd)
(Message sec) <- readPacketsFromFile secring
let (keys,_) = partition (\k -> case k of
{ SecretKeyPacket {} -> True
; _ -> False })
sec
return (homedir,sec, grip `mplus` fmap fingerprint (listToMaybe keys))
-}
getTorKeys pub = do
xs <- groupBindings pub
(_,(top,sub),us,_,_) <- xs
guard ("tor" `elem` us)
let torhash = maybe "" id $ derToBase32 <$> derRSA sub
return (top,(torhash,sub))
{-
uidScan pub = scanl (\(mkey,u) w ->
case () of
_ | isPublicMaster w -> (w,u)
_ | isUserID w -> (mkey,w)
_ | otherwise -> (mkey,u)
)
(w0,w0)
ws
where
w0:ws = pub
-}
signTorIds selfkey keys kd@(KeyData k ksigs umap submap) = do
umap' <- Traversable.mapM signIfTor (Map.mapWithKey (,) umap)
return (KeyData k ksigs umap' submap) :: IO KeyData
where
mkey = packet k
signIfTor (str,ps) =
if isTorID str
then do
let uidxs0 = map packet $ flattenUid "" True (str,ps)
-- addition<- signSelfAuthTorKeys' selfkey g keys grip timestamp mkey uidxs0
additional <- signSelfAuthTorKeys' selfkey keys grip mkey uidxs0
let ps' = ( map ( (,tmap) . toMappedPacket om) additional
++ fst ps
, Map.union om (snd ps) )
toMappedPacket om p = (mappedPacket "" p) {locations=om}
om = Map.singleton "--autosign" (origin p (-1)) where p = UserIDPacket str
tmap = Map.empty
return ps'
else return ps
torbindings = getTorKeys (map packet $ flattenTop "" True kd)
isTorID str = and [ uid_topdomain parsed == "onion"
, uid_realname parsed `elem` ["","Anonymous"]
, uid_user parsed == "root"
, fmap (match . fst) (lookup mkey torbindings)
== Just True ]
where parsed = parseUID str
match = ( (==subdom) . take (fromIntegral len))
subdom0 = L.fromChunks [encodeUtf8 (uid_subdomain parsed)]
subdom = Char8.unpack subdom0
len = T.length (uid_subdomain parsed)
{-
signSelfAuthTorKeys selfkey g sec grip timestamp xs = ys
where
keys = filter isKey sec
mainpubkey = fst (head xs)
uidxs0 = map snd xs
(uidxs, additional, xs'',g') = signSelfAuthTorKeys' selfkey g keys grip timestamp mainpubkey uidxs0
ys = uidxs++ additional++xs''
-}
signSelfAuthTorKeys' selfkey keys grip mainpubkey (uid:xs') = do
new_sig <- let wkun = fromJust selfkey
tor_ov = torSigOver mainpubkey wkun uid flgs
in pgpSign (Message [wkun])
tor_ov
SHA1
(fingerprint wkun)
return (additional new_sig) -- (uid:sigs,additional,xs'',g')
where
(sigs, _) = span isSignaturePacket xs'
overs sig = signatures $ Message (keys++[mainpubkey,uid,sig])
vs :: [ ( Packet -- signature
, Maybe SignatureOver -- Nothing means non-verified
, Packet ) -- key who signed
]
vs = do
sig <- sigs
o <- overs sig
k <- keys
let ov = verify (Message [k]) $ o
signatures_over ov
return (sig,Just ov,k)
{-
mainsigs = filter (\(sig,v,whosign) -> isJust (v >> Just mainpubkey >>= guard
. (== keykey whosign)
. keykey))
vs
-}
selfsigs = filter (\(sig,v,whosign) -> isJust (v >> selfkey >>= guard
. (== keykey whosign)
. keykey))
vs
additional new_sig = do
new_sig <- maybeToList new_sig
guard $ {- trace (unlines $ [ "selfsigs = "++show (map ((\(_,_,k)->fingerprint k)) selfsigs)
, " for mainkey = "++fingerprint mainpubkey] )
-}
(null $ selfsigs)
signatures_over new_sig
{-
modsig sig = sig { signature = map id (signature sig) }
where plus1 (MPI x) = MPI (x+1)
params newtop = public ++ map fst (key newtop) ++ "}"
where
public = case newtop of
PublicKeyPacket {} -> "public{"
SecretKeyPacket {} -> if L.null (encrypted_data newtop )
then "secret{"
else "encrypted{"
_ -> "??????{"
traceSig newtop newuid new_sig = (unlines ["mainpubkey:"++ show (fingerprint mainpubkey)
,"new_sig topkey:"++ (show . fingerprint $ newtop)
,"new_sig topkey params: "++ params newtop
,"new_sig user_id:"++ (show newuid)
,"new_sig |over| = " ++ (show . length $ new_sig)
,"new_sig hashed = " ++ (PP.ppShow . concatMap hashed_subpackets $ new_sig)
,"new_sig unhashed = " ++ (show . concatMap unhashed_subpackets $ new_sig)
,"new_sig type: " ++ (show . map signature_type $ new_sig)
,"new_sig signature:" ++ (show . concatMap signature $ new_sig)
,"new_sig isSignaturePacket(over) = " ++ (show . map isSignaturePacket $ new_sig)
,"issuer = " ++ show (map signature_issuer new_sig)
])
-}
flgs = if keykey mainpubkey == keykey (fromJust selfkey)
then keyFlags0 mainpubkey (map (\(x,_,_)->x) selfsigs)
else []
-- (new_sig,g') = todo g mainpubkey (fromJust selfkey) uid timestamp flgs
{-
new_sig <- let wkun = fromJust selfkey
in pgpSign (Message [wkun])
tor_ov
SHA1
(fingerprint wkun)
-}
-- ys = uid:sigs++ additional++xs''
{-
doCmd cmd@(List {}) = do
(homedir,secring,grip) <- getHomeDir cmd
(Message sec) <- readPacketsFromFile secring
putStrLn $ listKeys sec
doCmd cmd@(WorkingKey {}) = do
(homedir,secring,grip) <- getHomeDir cmd
(Message sec) <- readPacketsFromFile secring
-- let s2k' = map s2k (filter isKey sec)
-- putStrLn $ "s2k = " ++ show s2k'
putStrLn $ listKeysFiltered (maybeToList grip) sec
return ()
doCmd cmd@(AutoSign {}) = do
( homedir -- e3ozbhvej4jvlu43.onion/gpg/gnupghome
, sec -- e3ozbhvej4jvlu43.onion/gpg/gnupghome/secring.gpg
, grip -- Just "AD1CA892FCF4ED9829C762269BDEA5B4D5643321"
) <- getPGPEnviron cmd
flip (maybe (error "No working key?")) grip $ \grip -> do
pw <- getPassphrase cmd
let (pre, wk:subs) = seek_key (KeyGrip grip) sec
wkun = if symmetric_algorithm wk == Unencrypted
then Just wk
else do
k <- decryptSecretKey pw wk
guard (symmetric_algorithm k == Unencrypted)
return k
flip (maybe (error "Bad passphrase?")) wkun$ \wkun -> do
-- putStrLn $ "getPGPEnviron -> " ++ show (homedir,length sec,grip)
(Message pub) <- readPacketsFromFile (input cmd)
putStrLn $ listKeys pub
-- forM_ (zip [1..] pub) $ \(i,k) -> do
-- putStrLn $ show i ++ ": " ++ show k
let torbindings = getTorKeys pub
keyed = uidScan pub
marked = zipWith doit keyed pub
doit (mkey,u) packet = (isTorID packet, (mkey,u,packet))
where
isTorID (UserIDPacket str) =
and [ uid_topdomain parsed == "onion"
, uid_realname parsed `elem` ["","Anonymous"]
, uid_user parsed == "root"
, fmap (match . fst) (lookup mkey torbindings)
== Just True ]
where parsed = parseUID str
match = ( (==subdom) . take (fromIntegral len))
subdom0 = L.fromChunks [encodeUtf8 (uid_subdomain parsed)]
subdom = Char8.unpack subdom0
len = T.length (uid_subdomain parsed)
isTorID _ = False
g <- newGenIO
timestamp <- now
-- timestamp <- epochTime
let xs:xss = groupBy (\_ (b,_)->not b) marked
pub' = map (snd . cleanup) xs
++ concatMap (signSelfAuthTorKeys (Just wkun) (g::SystemRandom) sec grip timestamp)
(map (map cleanup) xss)
cleanup (_,(topkey,_,pkt)) = (topkey,pkt)
putStrLn $ "-------- signed ------> " -- ++ show (length pub, length pub')
putStrLn ""
putStrLn $ listKeysFiltered (map fingerprint (filter isPublicMaster pub')) (sec++pub')
let signed_bs = encode (Message pub')
L.writeFile (output cmd) signed_bs
doCmd cmd@(Public {}) = do
( homedir -- e3ozbhvej4jvlu43.onion/gpg/gnupghome
, sec -- e3ozbhvej4jvlu43.onion/gpg/gnupghome/secring.gpg
, grip -- Just "AD1CA892FCF4ED9829C762269BDEA5B4D5643321"
) <- getPGPEnviron cmd
let pub = map secretToPublic sec
bs = encode (Message pub)
L.writeFile (output cmd) bs
doCmd cmd@(DumpPackets {}) = do
( homedir -- e3ozbhvej4jvlu43.onion/gpg/gnupghome
, sec -- e3ozbhvej4jvlu43.onion/gpg/gnupghome/secring.gpg
, grip -- Just "AD1CA892FCF4ED9829C762269BDEA5B4D5643321"
) <- getPGPEnviron cmd
p <- case files cmd of
[] -> return sec
fs -> do
ms <- mapM readPacketsFromFile fs
let unwrap (Message ps) = ps
return (concatMap unwrap ms)
if map toLower (marshal_test cmd) `elem` ["y","yes"]
then L.putStr $ encode (Message p)
else putStrLn $ PP.ppShow p
doCmd cmd@(MergeSecrets {}) = do
( homedir -- e3ozbhvej4jvlu43.onion/gpg/gnupghome
, sec -- e3ozbhvej4jvlu43.onion/gpg/gnupghome/secring.gpg
, grip -- Just "AD1CA892FCF4ED9829C762269BDEA5B4D5643321"
) <- getPGPEnviron cmd
let db = merge Map.empty "%secring" (Message sec)
ms <- mapM readPacketsFromFile' (files cmd)
let db' = foldl' (uncurry . merge) db ms
m = flattenKeys False db'
L.putStr (encode m)
return ()
-}
{-
doCmd cmd@(Cross_Merge {}) = do
(homedir,secring,pubring,grip0) <- getHomeDir (homedir cmd)
-- grip0 may be empty, in which case we should use the first key
cross_merge (secring:pubring:files cmd) $ \_ db -> return $ (Just db,db)
doCmd cmd@(CatPub {}) = do
let spec:files = catpub_args cmd
let (topspec,subspec) = unprefix '/' spec
(toptyp,top) = unprefix ':' topspec
(subtyp,sub) = unprefix ':' subspec
{-
putStrLn $ "files = " ++ show files
putStrLn $ "topspec = " ++show (toptyp,top)
putStrLn $ "subspec = " ++show (subtyp,sub)
-}
( homedir -- e3ozbhvej4jvlu43.onion/gpg/gnupghome
, sec -- e3ozbhvej4jvlu43.onion/gpg/gnupghome/secring.gpg
, grip -- Just "AD1CA892FCF4ED9829C762269BDEA5B4D5643321"
) <- getPGPEnviron cmd
flip (maybe (error "No working key?")) grip $ \grip -> do
ms <- mapM readPacketsFromFile' files
let db = merge Map.empty "%secring" (Message sec)
db' = foldl' (uncurry . merge) db ms
m = flattenKeys True db'
Message allpkts = m
let topspec = case () of
_ | null top && (subtyp=="fp" || (null subtyp && is40digitHex sub))
-> KeyGrip sub
_ | null top -> KeyGrip grip
_ | toptyp=="fp" || (null toptyp && is40digitHex top)
-> {- trace "using top" $ -} KeyGrip top
_ | toptyp=="u" -> KeyUidMatch top
_ | otherwise -> KeyUidMatch top
(pre, wksubs) = seek_key topspec allpkts
if null wksubs then error ("No match for "++spec) else do
let wk:subs = wksubs
(_,wksubs') = seek_key topspec subs -- ambiguity check
(_,ys) = case subtyp of
"t" -> seek_key (KeyTag wk sub) subs
"fp" | top=="" -> ([],wk:subs)
"" | top=="" && is40digitHex sub -> ([],wk:subs)
"" -> seek_key (KeyTag wk sub) subs
when (not (null ys)) $ do
let (_,ys') = seek_key (KeyTag wk sub) (tail ys) -- ambiguity check
k = head ys
rsa = pkcs8 . fromJust $ rsaKeyFromPacket k
der = encodeASN1 DER (toASN1 rsa [])
qq = Base64.encode (L.unpack der)
split64 [] = []
split64 qq = as : split64 bs where (as,bs) = splitAt 64 qq
-- putStrLn $ "top = " ++ show top
-- putStrLn $ "wk = " ++ fingerprint wk
-- putStrLn $ fingerprint k
{-
putStrLn $ show rsa
putStrLn $ show der
-}
if null ys' && null wksubs'
then
putStr $ unlines (["-----BEGIN PUBLIC KEY-----"]
++split64 qq
++["-----END PUBLIC KEY-----"])
else
error "Key specification is ambiguous."
doCmd cmd@(Add {}) = do
( homedir -- e3ozbhvej4jvlu43.onion/gpg/gnupghome
, sec -- e3ozbhvej4jvlu43.onion/gpg/gnupghome/secring.gpg
, grip -- Just "AD1CA892FCF4ED9829C762269BDEA5B4D5643321"
) <- getPGPEnviron cmd
pw <- getPassphrase cmd
flip (maybe (error "No working key?")) grip $ \grip -> do
let (pre, wk:subs) = seek_key (KeyGrip grip) sec
wkun = if symmetric_algorithm wk == Unencrypted
then Just wk
else do
k <- decryptSecretKey pw wk
guard (symmetric_algorithm k == Unencrypted)
return k
flip (maybe (error "Bad passphrase?")) wkun$ \wkun -> do
let (uids,subkeys) = break isSubkey subs
isSubkey p = isKey p && is_subkey p
(subkeys',remainder) = break isTopKey subkeys
isTopKey p@(SecretKeyPacket {}) | not (is_subkey p) = True
isTopKey _ = False
let parseKeySpec hint spec = case break (==':') spec of
(fmt,_:file) -> (fmt,file)
(file,"") -> (guessKeyFormat hint (key_usage cmd), file)
(secfmt,secfile) = parseKeySpec 'S' $ seckey cmd
-- (pubfmt,pubfile) = parseKeySpec 'P' $ pubkey cmd
Message parsedkey <- readKeyFromFile False secfmt secfile
let pkf = fingerprint (head parsedkey)
(prepk,pks) = seek_key (KeyGrip pkf) subkeys'
g <- newGenIO
timestamp <- now
let uids' = do
torkey <- parsedkey
if key_usage cmd /= "tor"
then uids
else let ps = makeTorUID (g::SystemRandom)
timestamp
wkun
(keyFlags wkun uids)
wk
torkey
toruid = head ps
in if toruid `elem` uids then uids else uids ++ ps
if not (null pks)
then existingKey (prepk,pks) remainder wkun wk parsedkey (key_usage cmd) pre uids' subkeys (output cmd) grip
else newKey wkun wk parsedkey (key_usage cmd) pre uids' subkeys (output cmd) grip
doCmd cmd@(PemFP {}) = do
let parseKeySpec hint spec = case break (==':') spec of
(fmt,_:file) -> (fmt,file)
(file,"") -> (guessKeyFormat hint ("ssh-host"), file)
(secfmt,secfile) = parseKeySpec 'S' $ seckey cmd
Message seckey <- readKeyFromFile False secfmt secfile
-- Message pubkey <- readKeyFromFile True pubfmt pubfile
-- Tor requires public key file... TODO
-- let torhash sub = maybe "" id $ derToBase32 <$> derRSA sub
putStrLn $ fingerprint (head seckey) -- ++ " " ++ torhash (head seckey)
-}
isSameKey a b = sort (key apub) == sort (key bpub)
where
apub = secretToPublic a
bpub = secretToPublic b
{-
existingKey (prepk,pks) remainder wkun wk parsedkey tag pre uids subkeys output_file grip = do
-- putStrLn "Key already present."
let pk:trail = pks
(trailsigs,trail') = span isSignaturePacket trail
(mysigs,notmines) = partition (endsWith grip . maybe "%bad%" id . signature_issuer)
trailsigs
endsWith big small = drop (length big - length small) big == small
vs = map (\sig ->
(sig, map (verify (Message [wk]))
(signatures $ Message [wk,pk,sig])))
mysigs
(verified,unverified) = partition (not . null . snd) vs
sorted = sortBy (comparing (Down . signature_time . head . snd)) verified
-- Note: format allows for signatures of type 0x28 Subkey revocation signature.
case sorted of
[] -> do
putStrLn "Adding valid signature to existing key..."
newKey wkun wk [pk] tag pre uids (trail++prepk++remainder) output_file grip
(sig,ov):vs -> do
-- sig exists.
-- update sig to contain usage@ = tag
let hs = filter (\p->isNotation p && notation_name p=="usage@") (hashed_subpackets sig)
ks = map notation_value hs
isNotation (NotationDataPacket {}) = True
isNotation _ = False
noop = do
-- Nothing to do
let sec' = pre ++ [wk] ++ uids ++ subkeys
putStrLn $ tag ++ " key already present."
L.writeFile output_file (encode (Message sec'))
if tag `elem` ks
then noop
else do
g <- newGenIO
timestamp <- now
let isCreation (SignatureCreationTimePacket {}) = True
isCreation _ = False
isExpiration (SignatureExpirationTimePacket {}) = True
isExpiration _ = False
(cs,ps) = partition isCreation (hashed_subpackets sig)
(es,qs) = partition isExpiration ps
stamp = listToMaybe . sortBy (comparing Down) $
map unwrap cs where unwrap (SignatureCreationTimePacket x) = x
exp = listToMaybe $ sort $
map unwrap es where unwrap (SignatureExpirationTimePacket x) = x
expires = liftA2 (+) stamp exp
if fmap ( (< timestamp) . fromIntegral) expires == Just True then do
putStrLn $ "Unable to update expired signature"
noop
else do
let new_sig = fst $ sign (Message [wkun])
(SubkeySignature wk
(head parsedkey)
[sig'] )
SHA1
grip
timestamp
(g::SystemRandom)
times = (:) (SignatureExpirationTimePacket (fromIntegral timestamp))
$ maybeToList $ do
e <- expires
return $ SignatureExpirationTimePacket (e - fromIntegral timestamp)
notation = NotationDataPacket
{ notation_name = "usage@"
, notation_value = tag
, human_readable = True }
sig' = sig { hashed_subpackets = times ++ [notation] ++ qs }
-- noop let sec' = pre ++ [wk] ++ uids ++ subkeys
sec' = pre
++ [wk]
++ uids
++ prepk
++ [pk]
++ signatures_over new_sig
++ map fst vs
++ map fst unverified
++ notmines
++ trail'
++ remainder
putStrLn $ "Adding usage@="++tag
L.writeFile output_file (encode (Message sec'))
newKey wkun wk parsedkey tag pre uids subkeys output_file grip = do
g <- newGenIO
timestamp <- now
let
new_sig = fst $ sign (Message [wkun])
(SubkeySignature wk
(head parsedkey)
(sigpackets 0x18
hashed0
( IssuerPacket (fingerprint wk)
: map EmbeddedSignaturePacket (signatures_over back_sig))))
SHA1
grip
timestamp
(g::SystemRandom)
hashed0 =
[ KeyFlagsPacket
{ certify_keys = False
, sign_data = False
, encrypt_communication = False
, encrypt_storage = False
, split_key = False
, authentication = True
, group_key = False }
, NotationDataPacket
{ human_readable = True
, notation_name = "usage@"
, notation_value = tag
}
, SignatureCreationTimePacket (fromIntegral timestamp)
]
subgrip = fingerprint (head parsedkey)
back_sig = fst $ sign (Message parsedkey)
(SubkeySignature wk
(head parsedkey)
(sigpackets 0x19
hashed0
[IssuerPacket subgrip]))
SHA1
subgrip
timestamp
(g::SystemRandom)
let sec' = pre ++ [wk] ++ uids ++ parsedkey ++ signatures_over new_sig ++ subkeys
putStrLn $ listKeys sec'
L.writeFile output_file (encode (Message sec'))
{-
let backsigs = do
sig <- signatures (Message sec')
sigover <- signatures_over sig
subp <- unhashed_subpackets sigover
-- guard (isEmbeddedSignature subp)
subp <- maybeToList (backsig subp)
over <- signatures (Message (filter isKey sec ++ [subp]))
return over
-- putStrLn $ PP.ppShow backsigs
-}
return ()
-}
groupBindings pub =
let (_,bindings) = getBindings pub
bindings' = accBindings bindings
code (c,(m,s),_,_,_) = (fingerprint_material m,-c)
ownerkey (_,(a,_),_,_,_) = a
sameMaster (ownerkey->a) (ownerkey->b) = fingerprint_material a==fingerprint_material b
-- matchgrip ((code,(top,sub), kind, hashed,claimants):_) | fpmatch grip top = True
-- matchgrip _ = False
gs = {- filter matchgrip $ -} groupBy sameMaster (sortBy (comparing code) bindings')
in gs
isTopKey p@(SecretKeyPacket {}) | not (is_subkey p) = True
isTopKey p@(PublicKeyPacket {}) | not (is_subkey p) = True
isTopKey _ = False
filterMatches :: KeySpec -> [(KeyKey,KeyData)] -> [(KeyKey,KeyData)]
filterMatches spec ks = filter (matchSpec spec) ks
selectSecretKey :: (KeySpec,Maybe String) -> KeyDB -> Maybe Packet
selectSecretKey (spec,mtag) db = selectKey0 False (spec,mtag) db
selectPublicKey :: (KeySpec,Maybe String) -> KeyDB -> Maybe Packet
selectPublicKey (spec,mtag) db = selectKey0 True (spec,mtag) db
selectKey0 :: Bool -> (KeySpec,Maybe String) -> KeyDB -> Maybe Packet
selectKey0 wantPublic (spec,mtag) db = do
let Message ps = flattenKeys wantPublic db
ys = snd $ seek_key spec ps
flip (maybe (listToMaybe ys)) mtag $ \tag -> do
let (subspec,ys1) = (KeyTag y tag,ys1) where y:ys1 = ys
zs = snd $ seek_key subspec ys1
listToMaybe zs
matchSpec (KeyGrip grip) (_,KeyData p _ _ _)
| matchpr grip (packet p)==grip = True
| otherwise = False
matchSpec (KeyTag key tag) (_,KeyData _ sigs _ _) = not . null $ filter match ps
where
ps = map (packet .fst) sigs
match p = isSignaturePacket p
&& has_tag tag p
&& has_issuer key p
has_issuer key p = isJust $ do
issuer <- signature_issuer p
guard $ matchpr issuer key == issuer
has_tag tag p = tag `elem` mapMaybe usage (hashed_subpackets p)
|| tag `elem` map usageString (mapMaybe keyflags (hashed_subpackets p))
matchSpec (KeyUidMatch pat) (_,KeyData _ _ uids _) = not $ null us
where
us = filter (isInfixOf pat) $ Map.keys uids
seek_key :: KeySpec -> [Packet] -> ([Packet],[Packet])
seek_key (KeyGrip grip) sec = (pre, subs)
where
(pre,subs) = break pred sec
pred p@(SecretKeyPacket {}) = matchpr grip p == grip
pred p@(PublicKeyPacket {}) = matchpr grip p == grip
pred _ = False
seek_key (KeyTag key tag) ps = if null bs
then (ps,[])
else if null qs
then let (as',bs') = seek_key (KeyTag key tag) (tail bs)
in (as ++ (head bs:as'), bs')
else (reverse (tail qs), head qs : reverse rs ++ bs)
where
(as,bs) = break (\p -> isSignaturePacket p
&& has_tag tag p
&& isJust (signature_issuer p)
&& matchpr (fromJust $ signature_issuer p) key == fromJust (signature_issuer p) )
ps
(rs,qs) = break isKey (reverse as)
has_tag tag p = tag `elem` mapMaybe usage (hashed_subpackets p)
|| tag `elem` map usageString (mapMaybe keyflags (hashed_subpackets p))
seek_key (KeyUidMatch pat) ps = if null bs
then (ps,[])
else if null qs
then let (as',bs') = seek_key (KeyUidMatch pat) (tail bs)
in (as ++ (head bs:as'), bs')
else (reverse (tail qs), head qs : reverse rs ++ bs)
where
(as,bs) = break (isInfixOf pat . uidStr)
ps
(rs,qs) = break isKey (reverse as)
uidStr (UserIDPacket s) = s
uidStr _ = ""
groupTops ps = groupBy (\_ b -> not (isTopKey b)) ps
{-
makeTorUID g timestamp wkun keyflags topkey torkey = uid:signatures_over sig
where
torhash sub = maybe "" id $ derToBase32 <$> derRSA sub
s = "Anonymous <root@" ++ take 16 (torhash torkey) ++ ".onion>"
uid = UserIDPacket s
sig = fst $ torsig g topkey wkun uid timestamp keyflags
-}
-- torsig g topk wkun uid timestamp extras = todo
torSigOver topk wkun uid extras
= CertificationSignature (secretToPublic topk)
uid
(sigpackets 0x13
subpackets
subpackets_unh)
where
subpackets = -- implicit: [ SignatureCreationTimePacket (fromIntegral timestamp) ]
tsign
++ extras
subpackets_unh = [IssuerPacket (fingerprint wkun)]
tsign = if keykey wkun == keykey topk
then [] -- tsign doesnt make sense for self-signatures
else [ TrustSignaturePacket 1 120
, RegularExpressionPacket regex]
-- <[^>]+[@.]asdf\.nowhere>$
regex = "<[^>]+[@.]"++hostname++">$"
-- regex = username ++ "@" ++ hostname
-- username = "[a-zA-Z0-9.][-a-zA-Z0-9.]*\\$?" :: String
hostname = subdomain' pu ++ "\\." ++ topdomain' pu
pu = parseUID uidstr where UserIDPacket uidstr = uid
subdomain' = escape . T.unpack . uid_subdomain
topdomain' = escape . T.unpack . uid_topdomain
escape s = concatMap echar s
where
echar '|' = "\\|"
echar '*' = "\\*"
echar '+' = "\\+"
echar '?' = "\\?"
echar '.' = "\\."
echar '^' = "\\^"
echar '$' = "\\$"
echar '\\' = "\\\\"
echar '[' = "\\["
echar ']' = "\\]"
echar c = [c]
sigpackets typ hashed unhashed = return $
signaturePacket
4 -- version
typ -- 0x18 subkey binding sig, or 0x19 back-signature
RSA
SHA1
hashed
unhashed
0 -- Word16 -- Left 16 bits of the signed hash value
[] -- [MPI]
keyFlags wkun uids = keyFlags0 wkun (filter isSignaturePacket uids)
{-
where
vs = map (verify (Message [wkun])) (signatures (Message (wkun:uids)))
ws = map signatures_over vs
xs = filter null ws
-}
keyFlags0 wkun uidsigs = concat
[ keyflags
, preferredsym
, preferredhash
, preferredcomp
, features ]
where
subs = concatMap hashed_subpackets uidsigs
keyflags = filterOr isflags subs $
KeyFlagsPacket { certify_keys = True
, sign_data = True
, encrypt_communication = False
, encrypt_storage = False
, split_key = False
, authentication = False
, group_key = False
}
preferredsym = filterOr ispreferedsym subs $
PreferredSymmetricAlgorithmsPacket
[ AES256
, AES192
, AES128
, CAST5
, TripleDES
]
preferredhash = filterOr ispreferedhash subs $
PreferredHashAlgorithmsPacket
[ SHA256
, SHA1
, SHA384
, SHA512
, SHA224
]
preferredcomp = filterOr ispreferedcomp subs $
PreferredCompressionAlgorithmsPacket
[ ZLIB
, BZip2
, ZIP
]
features = filterOr isfeatures subs $
FeaturesPacket { supports_mdc = True
}
filterOr pred xs def = if null rs then [def] else rs where rs=filter pred xs
isflags (KeyFlagsPacket {}) = True
isflags _ = False
ispreferedsym (PreferredSymmetricAlgorithmsPacket {}) = True
ispreferedsym _ = False
ispreferedhash (PreferredHashAlgorithmsPacket {}) = True
ispreferedhash _ = False
ispreferedcomp (PreferredCompressionAlgorithmsPacket {}) = True
ispreferedcomp _ = False
isfeatures (FeaturesPacket {}) = True
isfeatures _ = False
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