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|
{-# LANGUAGE CPP #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE ViewPatterns #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE DeriveFunctor #-}
module KeyRing where
import System.Environment
import Control.Monad
import Data.Maybe
import Data.Either
import Data.Char
import Data.Ord
import Data.List
import Data.OpenPGP
import Data.Functor
import Data.Monoid
import Data.Tuple ( swap )
import Data.Bits ( (.|.) )
import Control.Applicative ( liftA2, (<$>) )
import System.Directory ( getHomeDirectory, doesFileExist, createDirectoryIfMissing )
import Control.Arrow ( first, second )
import Data.OpenPGP.Util (verify,fingerprint,decryptSecretKey,pgpSign)
import Data.ByteString.Lazy ( ByteString )
import Text.Show.Pretty as PP ( ppShow )
import Data.Word ( Word8 )
import Data.Binary ( decode )
import ControlMaybe ( handleIO_ )
import Data.ASN1.Types ( toASN1, ASN1Object, fromASN1
, ASN1(Start,End,IntVal,OID,BitString), ASN1ConstructionType(Sequence) )
import Data.ASN1.BitArray ( BitArray(..), toBitArray )
import Data.ASN1.Encoding ( encodeASN1, encodeASN1', decodeASN1, decodeASN1' )
import Data.ASN1.BinaryEncoding ( DER(..) )
import Data.Time.Clock.POSIX ( getPOSIXTime )
import qualified Data.Map as Map
import qualified Data.ByteString.Lazy as L ( unpack, pack, null, readFile, writeFile
, ByteString, toChunks )
import qualified Data.ByteString as S ( ByteString, unpack, splitAt, concat, cons, spanEnd, hGetContents, readFile)
import qualified Data.ByteString.Lazy.Char8 as Char8 ( span, unpack, break, concat, lines )
import qualified Crypto.Types.PubKey.ECC as ECC
import qualified Codec.Binary.Base32 as Base32
import qualified Codec.Binary.Base64 as Base64
import qualified Crypto.Hash.SHA1 as SHA1
import qualified Data.Text as T ( Text, unpack, pack,
strip, reverse, drop, break, dropAround )
import qualified System.Posix.Types as Posix
import System.Posix.Files ( modificationTime, getFileStatus
, setFileCreationMask, setFileTimes )
import System.FilePath ( takeDirectory )
import System.IO (hPutStrLn,withFile,IOMode(..))
import Data.Binary ( encode )
import Data.IORef
import System.Posix.IO (fdToHandle,fdRead)
import qualified Data.Traversable as Traversable (mapM,forM,sequence)
import qualified CryptoCoins as CryptoCoins
import Base58
import FunctorToMaybe
import DotLock
import ProcessUtils (systemEnv, ExitCode(ExitFailure, ExitSuccess) )
-- DER-encoded elliptic curve ids
nistp256_id = 0x2a8648ce3d030107
secp256k1_id = 0x2b8104000a
data HomeDir =
HomeDir { homevar :: String
, appdir :: String
, optfile_alts :: [String]
}
home = HomeDir
{ homevar = "GNUPGHOME"
, appdir = ".gnupg"
, optfile_alts = ["keys.conf","gpg.conf-2","gpg.conf"]
}
data InputFile = HomeSec
| HomePub
| ArgFile FilePath
| FileDesc Posix.Fd
type UsageTag = String
type Initializer = String
type PassWordFile = InputFile
data FileType = KeyRingFile PassWordFile
| PEMFile UsageTag
| WalletFile -- (Maybe UsageTag)
data RefType = ConstRef | MutableRef (Maybe Initializer)
isMutable (MutableRef {}) = True
isMutable _ = False
isring (KeyRingFile {}) = True
isring _ = False
pwfile (KeyRingFile f) = f
pwfile _ = HomeSec
iswallet (WalletFile {}) = True
iswallet _ = False
initializer (MutableRef x) = x
initializer _ = Nothing
getUsage (PEMFile usage) = return usage
getUsage _ = mzero
data KeyRingRuntime = KeyRingRuntime
{ rtPubring :: FilePath
, rtSecring :: FilePath
, rtGrip :: Maybe String
, rtKeyDB :: KeyDB
}
data KeyRingAction a = KeyRingAction a | RunTimeAction (KeyRingRuntime -> a)
data KeyRingData = KeyRingData
{ kFiles :: Map.Map InputFile (RefType,FileType)
, kImports :: Map.Map FilePath (KeyData -> Maybe Bool)
-- ^ Indicates what pgp packets get written to which keyring files.
-- Just True = import public key
-- Just False = import secret key
-- Nothing = do not import
, homeSpec :: Maybe String
}
resolveInputFile :: FilePath -> FilePath -> InputFile -> [FilePath]
resolveInputFile secring pubring = resolve
where
resolve HomeSec = return secring
resolve HomePub = return pubring
resolve (ArgFile f) = return f
resolve _ = []
filesToLock k secring pubring = do
(f,(rtyp,ftyp)) <- Map.toList (kFiles k)
case rtyp of
ConstRef -> []
MutableRef {} -> resolveInputFile secring pubring f
-- kret :: a -> KeyRingData a
-- kret x = KeyRingData Map.empty Nothing (KeyRingAction x)
todo = error "unimplemented"
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
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"
data KikiCondition a = KikiSuccess a
| FailedToLock [FilePath]
| BadPassphrase
| FailedToMakeSignature
| CantFindHome
| AmbiguousKeySpec FilePath
| CannotImportMasterKey
deriving ( Functor, Show )
instance FunctorToMaybe KikiCondition where
functorToMaybe (KikiSuccess a) = Just a
functorToMaybe _ = Nothing
data KikiReportAction =
NewPacket String
| MissingPacket String
| ExportedSubkey
| GeneratedSubkeyFile
| NewWalletKey String
| YieldSignature
| YieldSecretKeyPacket String
| UnableToUpdateExpiredSignature
| WarnFailedToMakeSignature
| FailedExternal Int
| ExternallyGeneratedFile
| UnableToExport KeyAlgorithm String
| FailedFileWrite
data KikiResult a = KikiResult
{ kikiCondition :: KikiCondition a
, kikiReport :: [ (FilePath, KikiReportAction) ]
}
keyPacket (KeyData k _ _ _) = packet k
keyMappedPacket (KeyData k _ _ _) = k
subkeyPacket (SubKey k _ ) = packet k
subkeyMappedPacket (SubKey k _ ) = k
usage (NotationDataPacket
{ human_readable = True
, notation_name = "usage@"
, notation_value = u
}) = Just u
usage _ = Nothing
-- 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]
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
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"
-- 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
keyFlags wkun uids = keyFlags0 wkun (filter isSignaturePacket uids)
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
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
data UserIDRecord = UserIDRecord {
uid_full :: String,
uid_realname :: T.Text,
uid_user :: T.Text,
uid_subdomain :: T.Text,
uid_topdomain :: T.Text
}
deriving Show
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
isBracket :: Char -> Bool
isBracket '<' = True
isBracket '>' = True
isBracket _ = False
data KeySpec =
KeyGrip String
| KeyTag Packet String
| KeyUidMatch String
deriving Show
-- | Parse a key specification.
-- The first argument is a grip for the default working key.
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
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
unprefix c spec = if null (snd p) then swap p else (fst p, tail (snd p))
where p = break (==c) spec
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
selectAll :: Bool -> (KeySpec,Maybe String) -> KeyDB -> [(Packet,Maybe Packet)]
selectAll wantPublic (spec,mtag) db = do
let Message ps = flattenKeys wantPublic db
ys = snd $ seek_key spec ps
y <- take 1 ys
case mtag of
Nothing -> return (y,Nothing)
Just tag ->
let search ys1 = do
let zs = snd $ seek_key (KeyTag y tag) ys1
z <- take 1 zs
(y,Just z):search (drop 1 zs)
in search (drop 1 ys)
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 _ = ""
cachedContents :: FilePath -> FilePath -> InputFile -> IO (IO S.ByteString)
cachedContents secring pubring fd = do
ref <- newIORef Nothing
return $ get ref fd
where
trimCR bs = fst $ S.spanEnd (\x -> x==10 || x==13) bs
get ref fd = do
pw <- readIORef ref
flip (flip maybe return) pw $ do
pw <- fmap trimCR $ getContents fd
writeIORef ref (Just pw)
return pw
getContents (FileDesc fd) = fdToHandle fd >>= S.hGetContents
getContents inp = do
let fname = resolveInputFile secring pubring inp
fmap S.concat $ mapM S.readFile fname
importPEMKey db' tup = do
try db' $ \(db',report0) -> do
r <- doImport doDecrypt
db'
tup
try r $ \(db'',report) -> do
return $ KikiSuccess (db'', report0 ++ report)
where doDecrypt = todo
buildKeyDB :: FilePath -> FilePath -> Maybe String -> KeyRingData
-> IO (KikiCondition ((KeyDB,Maybe String,Maybe Packet),[(FilePath,KikiReportAction)]))
buildKeyDB secring pubring grip0 keyring = do
let
files isring = do
(f,(rtyp,ftyp)) <- Map.toList (kFiles keyring)
guard (isring ftyp)
resolveInputFile secring pubring f
readp n = fmap (n,) (readPacketsFromFile n)
readw wk n = fmap (n,) (readPacketsFromWallet wk n)
importWalletKey wk db' (top,fname,sub,tag) = do
try db' $ \(db',report0) -> do
r <- doImportG doDecrypt
db'
(fmap keykey $ maybeToList wk)
tag
fname
sub
try r $ \(db'',report) -> do
return $ KikiSuccess (db'', report0 ++ report)
doDecrypt = todo
-- KeyRings (todo: KikiCondition reporting?)
(db_rings,wk,grip) <- do
ms <- mapM readp (files isring)
let grip = grip0 `mplus` (fingerprint <$> fstkey)
where
fstkey = listToMaybe $ mapMaybe isSecringKey ms
where isSecringKey (fn,Message ps)
| fn==secring = listToMaybe ps
isSecringKey _ = Nothing
db_rings = foldl' (uncurry . merge) Map.empty ms
wk = listToMaybe $ do
fp <- maybeToList grip
elm <- Map.toList db_rings
guard $ matchSpec (KeyGrip fp) elm
return $ keyPacket (snd elm)
return (db_rings,wk,grip)
-- Wallets
wms <- mapM (readw wk) (files iswallet)
let wallet_keys = do
maybeToList wk
(fname,xs) <- wms
(_,sub,(_,m)) <- xs
(tag,top) <- Map.toList m
return (top,fname,sub,tag)
db <- foldM (importWalletKey wk) (KikiSuccess (db_rings,[])) wallet_keys
try db $ \(db,reportWallets) -> do
-- PEM files
let pems = do
(n,(rtyp,ftyp)) <- Map.toList $ kFiles keyring
grip <- maybeToList grip
(topspec,subspec) <- fmap (parseSpec grip) $ getUsage ftyp
n <- resolveInputFile secring pubring n
let ms = map fst $ filterMatches topspec (Map.toList db)
cmd = initializer rtyp
return (n,subspec,ms,cmd)
imports <- filterM (\(n,_,_,_) -> doesFileExist n) pems
db <- foldM importPEMKey (KikiSuccess (db,[])) imports
try db $ \(db,reportPEMs) -> do
return $ KikiSuccess ( (db, grip, wk), reportWallets ++ reportPEMs )
torhash key = maybe "" id $ derToBase32 <$> derRSA key
derToBase32 = map toLower . Base32.encode . S.unpack . SHA1.hashlazy
derRSA rsa = do
k <- rsaKeyFromPacket rsa
return $ encodeASN1 DER (toASN1 k [])
try :: Monad m => KikiCondition a -> (a -> m (KikiCondition b)) -> m (KikiCondition b)
try x body =
case functorToEither x of
Left e -> return e
Right x -> body x
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)
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
doImport
:: Ord k =>
(Packet -> IO (KikiCondition Packet))
-> Map.Map k KeyData
-> ([Char], Maybe [Char], [k], t)
-> IO (KikiCondition (Map.Map k KeyData, [(FilePath,KikiReportAction)]))
doImport doDecrypt db (fname,subspec,ms,_) = do
let fetchkey = readKeyFromFile False "PEM" fname
flip (maybe $ return CannotImportMasterKey)
subspec $ \tag -> do
Message parsedkey <- fetchkey
flip (maybe $ return $ KikiSuccess (db,[]))
(listToMaybe parsedkey) $ \key -> do
let (m0,tailms) = splitAt 1 ms
if (not (null tailms) || null m0)
then return $ AmbiguousKeySpec fname
else doImportG doDecrypt db m0 tag fname key
doImportG
:: Ord k =>
(Packet -> IO (KikiCondition Packet))
-> Map.Map k KeyData
-> [k]
-> [Char]
-> [Char]
-> Packet
-> IO (KikiCondition (Map.Map k KeyData, [(FilePath,KikiReportAction)]))
doImportG doDecrypt db m0 tag fname key = do
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 $ KikiSuccess (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 $ KikiSuccess (uids,[])) has_torid $ do
wkun <- doDecrypt (packet top)
try 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 $ return $ KikiSuccess (uids,[(fname, WarnFailedToMakeSignature)]))
(sig_ov >>= listToMaybe . signatures_over)
$ \sig -> do
let om = Map.singleton fname (origin sig (-1))
trust = Map.empty
return $ KikiSuccess
( Map.insert idstr ([( (mappedPacket fname sig) {locations=om}
, trust)],om) uids
, [] )
try uids' $ \(uids',report) -> do
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
try sig' $ \(sig',report) -> do
report <- return $ fmap (fname,) report ++ [(fname, YieldSignature)]
let subs' = Map.insert subkk
(SubKey subkey_p $ xs'++[sig']++ys')
subs
return $ KikiSuccess ( Map.insert kk (KeyData top topsigs uids' subs') db
, report )
report <- let f = if is_new then (++[(fname,YieldSecretKeyPacket s)])
else id
s = show (fmap fst minsig,fingerprint key)
in return (f report)
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 $ KikiSuccess ( Map.insert kk (KeyData top topsigs uids' subs') db
, report )
Just (False,sig) -> doInsert (Just sig) db -- We have a sig, but is missing usage@ tag
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
coinKeysOwnedBy :: KeyDB -> Maybe Packet -> [(CryptoCoins.CoinNetwork,MappedPacket)]
coinKeysOwnedBy db wk = 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)
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
writeWalletKeys :: KeyRingData -> KeyDB -> Maybe Packet -> IO (KikiCondition [(FilePath,KikiReportAction)])
writeWalletKeys krd db wk = do
let cs = db `coinKeysOwnedBy` wk
-- export wallet keys
isMutableWallet (MutableRef {}) (WalletFile {}) = True
isMutableWallet _ _ = False
files pred = do
(f,(rtyp,ftyp)) <- Map.toList (kFiles krd)
guard (pred rtyp ftyp)
resolveInputFile "" "" f
let writeWallet report 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 report) $ do
withFile n AppendMode $ \fh -> do
rs <- forM cs' $ \(net,wip) -> do
hPutStrLn fh wip
return (n, NewWalletKey net)
return (report ++ rs)
report <- foldM writeWallet [] (files isMutableWallet)
return $ KikiSuccess report
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)
writeRingKeys :: KeyRingData -> KeyDB -> Maybe Packet
-> FilePath -> FilePath
-> IO (KikiCondition [(FilePath,KikiReportAction)])
writeRingKeys krd db wk secring pubring = do
let ks = Map.elems db
isring (KeyRingFile {}) = True
isring _ = False
fs = do
(f,(rtyp,ftyp)) <- Map.toList (kFiles krd)
guard (isring ftyp)
n <- resolveInputFile secring pubring f
return (n,isMutable rtyp)
fromfile f kd@(KeyData p _ _ _) =
Map.member f $ locations p
let s = do
(f,mutable) <- fs
let x = do
let wanted kd@(KeyData p _ _ _)
= maybe (fmap originallyPublic $ Map.lookup f $ locations p)
(\pred -> pred kd)
(Map.lookup f $ kImports krd)
d <- sortByHint f keyMappedPacket ks
only_public <- maybeToList $ wanted d
flattenTop f only_public d
new_packets = filter isnew x
where isnew p = isNothing (Map.lookup f $ locations p)
guard (not $ null new_packets)
return ((f,mutable),(new_packets,x))
let (towrites,report) = (\f -> foldl f ([],[]) s) $
\(ws,report) ((f,mutable),(new_packets,x)) ->
if mutable
then
let rs = flip map new_packets
$ \c -> (f, NewPacket $ showPacket (packet c))
in (ws++[(f,x)],report++rs)
else
let rs = flip map new_packets
$ \c -> (f,MissingPacket (showPacket (packet c)))
in (ws,report++rs)
forM_ towrites $ \(f,x) -> do
let m = Message $ map packet x
-- warn $ "writing "++f
L.writeFile f (encode m)
return $ KikiSuccess report
{-
getSubkeysForExport kk subspec db = do
kd <- maybeToList $ Map.lookup kk db
subkeysForExport subspec kd
-}
subkeysForExport subspec (KeyData key _ _ subkeys) = do
let subs tag = do
e <- Map.elems subkeys
guard $ doSearch key tag e
return $ subkeyPacket e
maybe [packet key] subs subspec
where
doSearch key tag (SubKey sub_mp sigtrusts) =
let (_,v,_) = findTag tag
(packet key)
(packet sub_mp)
sigtrusts
in fmap fst v==Just True
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
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
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_ (return [(fname, FailedFileWrite)]) $ 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 [(fname, ExportedSubkey)]
algo -> return [(fname, UnableToExport algo $ fingerprint packet)]
writePEMKeys :: KeyDB
-> [(FilePath,Maybe String,[Packet],Maybe Initializer)]
-> IO (KikiCondition [(FilePath,KikiReportAction)])
writePEMKeys db exports = do
ds <- mapM decryptKeys exports
let ds' = map functorToEither ds
if null (lefts ds')
then do
rs <- mapM (uncurry $ writeKeyToFile False "PEM")
(rights ds')
return $ KikiSuccess (concat rs)
else do
return (head $ lefts ds')
where
doDecrypt = todo
decryptKeys (fname,subspec,[p],_) = do
pun <- doDecrypt p
flip (maybe $ return BadPassphrase) pun $ \pun -> do
return $ KikiSuccess (fname,pun)
runKeyRing :: KeyRingData -> IO (KikiResult KeyRingRuntime)
runKeyRing keyring = do
homedir <- getHomeDir (homeSpec keyring)
let try' :: KikiCondition a -> (a -> IO (KikiResult b)) -> IO (KikiResult b)
-- FIXME: try' should probably accept a list of KikiReportActions.
-- This would be useful for reporting on disk writes that have already
-- succeded prior to this termination.
try' v body =
case functorToEither v of
Left e -> return $ KikiResult e []
Right wkun -> body wkun
try' homedir $ \(homedir,secring,pubring,grip0) -> do
let tolocks = filesToLock keyring secring pubring
lks <- forM tolocks $ \f -> do
lk <- dotlock_create f 0
v <- flip (maybe $ return Nothing) lk $ \lk -> do
e <- dotlock_take lk (-1)
if e==0 then return $ Just lk
else dotlock_destroy lk >> return Nothing
return (v,f)
let (lked, map snd -> failed_locks) = partition (isJust . fst) lks
ret <-
if not $ null failed_locks
then return $ KikiResult (FailedToLock failed_locks) []
else do
let doDecrypt = todo
pws <-
Traversable.mapM (cachedContents secring pubring . pwfile . snd)
(Map.filter (isring . snd) $ kFiles keyring)
-- merge all keyrings, PEM files, and wallets
bresult <- buildKeyDB secring pubring grip0 keyring
try' bresult $ \((db,grip,wk),report_imports) -> do
nonexistents <-
filterM (fmap not . doesFileExist . fst)
$ do (f,t) <- Map.toList (kFiles keyring)
f <- resolveInputFile secring pubring f
return (f,t)
let (missing,notmissing) = partition (\(_,_,ns,_)->null (ns >>= snd)) $ do
(fname,(rtyp,ftyp)) <- nonexistents
guard $ isMutable rtyp
(topspec,subspec) <- fmap (parseSpec $ maybe "" id grip)
$ getUsage ftyp
-- ms will contain duplicates if a top key has multiple matching
-- subkeys. This is intentional.
let -- ms = map (keykey . fst) $ selectAll True (topspec,subspec) db
-- ms = filterMatches topspec $ Map.toList db
ns = do
(kk,kd) <- filterMatches topspec $ Map.toList db
return (kk , subkeysForExport subspec kd)
return (fname,subspec,ns,initializer rtyp)
(exports0,ambiguous) = partition (\(_,_,ns,_)->null $ drop 1 $ (ns>>=snd))
notmissing
exports = map (\(f,subspec,ns,cmd) -> (f,subspec,ns >>= snd,cmd)) exports0
ambiguity (f,topspec,subspec,_) = do
return $ KikiResult (AmbiguousKeySpec f) []
ifnotnull (x:xs) f g = f x
ifnotnull _ f g = g
ifnotnull ambiguous ambiguity $ do
-- create nonexistent files via external commands
externals_ret <- do
let cmds = mapMaybe getcmd missing
where
getcmd (fname,subspec,ms,mcmd) = do
cmd <- mcmd
return (fname,subspec,ms,cmd)
rs <- forM cmds $ \tup@(fname,subspec,ms,cmd) -> do
e <- systemEnv [ ("file",fname)
, ("usage",maybe "" id subspec) ]
cmd
case e of
ExitFailure num -> return (tup,FailedExternal num)
ExitSuccess -> return (tup,ExternallyGeneratedFile)
v <- foldM importPEMKey (KikiSuccess (db,[])) $ do
((f,subspec,ms,cmd),r) <- rs
guard $ case r of
ExternallyGeneratedFile -> True
_ -> False
return (f,subspec,map fst ms,cmd)
try v $ \(db,import_rs) -> do
return $ KikiSuccess (db, map (\((f,_,_,_),r)->(f,r)) rs
++ import_rs)
try' externals_ret $ \(db,report_externals) -> do
r <- writeWalletKeys keyring db wk
try' r $ \report_wallets -> do
r <- writeRingKeys keyring db wk secring pubring
try' r $ \report_rings -> do
r <- writePEMKeys db exports
try' r $ \report_pems -> do
let rt = KeyRingRuntime
{ rtPubring = pubring
, rtSecring = secring
, rtGrip = grip
, rtKeyDB = db
}
return $ KikiResult (KikiSuccess rt)
$ concat [ report_imports
, report_externals
, report_wallets
, report_rings
, report_pems ]
forM_ lked $ \(Just lk, fname) -> dotlock_release lk
return ret
parseOptionFile fname = do
xs <- fmap lines (readFile fname)
let ys = filter notComment xs
notComment ('#':_) = False
notComment cs = not (all isSpace cs)
return ys
-- | returns ( home directory
-- , path to secret ring
-- , path to public ring
-- , fingerprint of working key
-- )
getHomeDir :: Maybe FilePath -> IO (KikiCondition (FilePath,FilePath,FilePath,Maybe String))
getHomeDir protohome = do
homedir <- envhomedir protohome
flip (maybe (return CantFindHome))
homedir $ \homedir -> do
-- putStrLn $ "homedir = " ++show homedir
let secring = homedir ++ "/" ++ "secring.gpg"
pubring = homedir ++ "/" ++ "pubring.gpg"
-- putStrLn $ "secring = " ++ show secring
workingkey <- getWorkingKey homedir
return $ KikiSuccess (homedir,secring,pubring,workingkey)
where
envhomedir opt = do
gnupghome <- lookupEnv (homevar home) >>=
\d -> return $ d >>= guard . (/="") >> d
homed <- flip fmap getHomeDirectory $
\d -> fmap (const d) $ guard (d/="")
let homegnupg = (++('/':(appdir home))) <$> homed
let val = (opt `mplus` gnupghome `mplus` homegnupg)
return $ val
-- TODO: rename this to getGrip
getWorkingKey homedir = do
let o = Nothing
h = Just homedir
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 home)
o' = fmap (False,) o
in filterM (doesFileExist . snd) optfiles
args <- flip (maybe $ return []) ofile $
\(forgive,fname) -> parseOptionFile fname
let config = map (topair . words) args
where topair (x:xs) = (x,xs)
return $ lookup "default-key" config >>= listToMaybe
#if MIN_VERSION_base(4,6,0)
#else
lookupEnv var =
handleIO_ (return Nothing) $ fmap Just (getEnv var)
#endif
isKey (PublicKeyPacket {}) = True
isKey (SecretKeyPacket {}) = True
isKey _ = False
isUserID (UserIDPacket {}) = True
isUserID _ = False
isTrust (TrustPacket {}) = True
isTrust _ = False
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]
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
slurpWIPKeys :: Posix.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
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
}
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
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
now = floor <$> Data.Time.Clock.POSIX.getPOSIXTime
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 _ = []
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
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)
makeSig doDecrypt top fname subkey_p tag mbsig = do
let wk = packet top
wkun <- doDecrypt wk
try wkun $ \wkun -> do
let grip = fingerprint wk
addOrigin new_sig = do
flip (maybe $ return FailedToMakeSignature)
(new_sig >>= listToMaybe . signatures_over)
$ \new_sig -> do
let mp' = mappedPacket fname new_sig
return $ KikiSuccess (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 = do
r <- addOrigin new_sig
return $ fmap (,[]) r
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
return $ KikiSuccess ((mp,trustmap), [ UnableToUpdateExpiredSignature ] )
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)
newsig <- addOrigin new_sig
return $ fmap (,[]) newsig
data OriginFlags = OriginFlags {
originallyPublic :: Bool,
originalNum :: Int
}
deriving Show
type OriginMap = Map.Map FilePath OriginFlags
data MappedPacket = MappedPacket
{ packet :: Packet
, usage_tag :: Maybe String
, locations :: OriginMap
}
type TrustMap = Map.Map FilePath Packet
type SigAndTrust = ( MappedPacket
, TrustMap ) -- trust packets
type KeyKey = [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
origin :: Packet -> Int -> OriginFlags
origin p n = OriginFlags ispub n
where
ispub = case p of
SecretKeyPacket {} -> False
_ -> True
mappedPacket filename p = MappedPacket
{ packet = p
, usage_tag = Nothing
, locations = Map.singleton filename (origin p (-1))
}
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
merge :: KeyDB -> FilePath -> Message -> KeyDB
merge db filename (Message ps) = merge_ db filename qs
where
qs = scanPackets filename ps
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
merge_ :: KeyDB -> FilePath -> [(Packet,Packet,(Packet,Map.Map FilePath Packet))]
-> KeyDB
merge_ db filename qs = foldl mergeit db (zip [0..] qs)
where
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
]
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
where
-- Compare master keys, LT is prefered for merging
-- 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)
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 = 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)
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) }
concatSort fname getp f = concat . sortByHint fname getp . map f
sortByHint fname f = sortBy (comparing gethint)
where
gethint = maybe defnum originalNum . Map.lookup fname . locations . f
defnum = -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
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))
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)}
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
{-
data Kiki a =
SinglePass (KeyRingData -> KeyRingAction a)
| forall b. MultiPass (KeyRingData -> KeyRingAction b)
(Kiki (b -> a))
fmapWithRT :: (KeyRingRuntime -> a -> b) -> Kiki a -> Kiki b
fmapWithRT g (SinglePass pass) = SinglePass pass'
where
pass' kd = case pass kd of
KeyRingAction v -> RunTimeAction (\rt -> g rt v)
RunTimeAction f -> RunTimeAction (\rt -> g rt (f rt))
fmapWithRT g (MultiPass pass0 k) = MultiPass pass0 k'
where
k' = fmapWithRT (\rt f -> g rt . f) k
instance Functor Kiki where fmap f k = fmapWithRT (const f) k
instance Monad Kiki where
return x = SinglePass (const $ KeyRingAction x)
k >>= f = eval' $ fmapWithRT (\rt x -> eval rt (f x)) k
where (.:) = (.) . (.)
eval :: KeyRingRuntime -> Kiki a -> KeyRingData -> a
eval rt (SinglePass f) kd =
case f kd of KeyRingAction v -> v
RunTimeAction g -> g rt
eval rt (MultiPass p kk) kd = eval rt kk kd $ eval rt (SinglePass p) kd
eval' :: Kiki (KeyRingData -> a) -> Kiki a
eval' k@(SinglePass pass) = SinglePass pass'
where
pass' kd = case pass kd of
KeyRingAction f -> KeyRingAction (f kd)
RunTimeAction g -> RunTimeAction (\rt -> g rt kd)
eval' k@(MultiPass p kk) = MultiPass p kk'
where
kk' = fmap flip kk
-}
{-
fmapWithRT g (SinglePass d@(KeyRingData { kAction = KeyRingAction v}))
= SinglePass $ d { kAction = RunTimeAction (\rt -> g rt v) }
fmapWithRT g (SinglePass d@(KeyRingData { kAction = RunTimeAction f}))
= SinglePass $ d { kAction = RunTimeAction f' }
where f' rt = g rt (f rt)
fmapWithRT g (MultiPass p kk) = MultiPass p (fmapWithRT g' kk)
where g' rt h = g rt . h
-}
data Kiki a =
SinglePass { passInfo :: KeyRingData
, rtAction :: KeyRingAction a }
| forall b.
MultiPass { passInfo :: KeyRingData
, passAction :: KeyRingAction b
, nextPass :: Kiki (b -> a)
}
evalAction :: KeyRingRuntime -> KeyRingAction a -> a
evalAction rt (KeyRingAction v) = v
evalAction rt (RunTimeAction g) = g rt
instance Monad KeyRingAction where
return x = KeyRingAction x
m >>= g = case m of
KeyRingAction v -> g v
RunTimeAction f -> RunTimeAction $ \rt -> evalAction rt (g $ f rt)
instance Functor KeyRingAction where
fmap g (KeyRingAction v) = KeyRingAction $ g v
fmap g (RunTimeAction f) = RunTimeAction $ \rt -> g (f rt)
{-
argOut :: (KeyRingAction (a -> b)) -> a -> KeyRingAction b
argOut = todo
argIn :: (a -> KeyRingAction b) -> KeyRingAction (a->b)
-}
{-
fmapWithRT :: (a -> KeyRingAction b) -> Kiki a -> Kiki b
fmapWithRT g k@(SinglePass {}) = k { rtAction = action }
where
action = rtAction k >>= g
fmapWithRT g (MultiPass p atn next) = MultiPass p atn next'
where
next' = fmapWithRT g' next {- next :: Kiki (x -> a) -}
-- g' :: ( (x->a) -> KeyRingAction b)
g' h = RunTimeAction $
\rt x -> case g (h x) of
KeyRingAction v -> v
RunTimeAction f -> f rt
-}
fmapWithRT :: KeyRingAction (a -> b) -> Kiki a -> Kiki b
fmapWithRT g (SinglePass pass atn) = SinglePass pass atn'
where
atn' = g >>= flip fmap atn
fmapWithRT g (MultiPass p atn next) = MultiPass p atn next'
where
next' = fmapWithRT g' next
g' = fmap (\gf h -> gf . h) g
instance Functor Kiki where
fmap f k = fmapWithRT (return f) k
instance Monad Kiki where
return x = SinglePass todo (return x)
k >>= f = kjoin $ fmap f k
kikiAction :: Kiki a -> KeyRingAction a
kikiAction (SinglePass _ atn) = atn
kikiAction (MultiPass _ atn next) = do
x <- atn
g <- kikiAction next
return $ g x
kjoin :: Kiki (Kiki a) -> Kiki a
kjoin k = fmapWithRT eval' k
where
eval' :: KeyRingAction (Kiki a -> a)
eval' = RunTimeAction (\rt -> evalAction rt . kikiAction )
{-
kjoin :: Kiki (Kiki a) -> Kiki a
kjoin k = kjoin' (fmap kikiAction k)
where
ev rt (KeyRingAction v) = v
ev rt (RunTimeAction g) = g rt
kjoin' :: Kiki (KeyRingAction a) -> Kiki a
kjoin' (SinglePass pass atn) = SinglePass pass $ join atn
kjoin' (MultiPass pass atn next) = MultiPass pass atn next'
where
next' = todo
-}
{-
instance Functor Kiki where
fmap f (SinglePass pass atn)
= SinglePass pass (fmap f atn)
fmap f (MultiPass pass atn next)
= MultiPass pass atn (next >>= g)
where
g = todo
-}
{-
data Kiki a = SinglePass (KeyRingData a)
| forall b. MultiPass (KeyRingData b) (Kiki (b -> a))
instance Functor Kiki where
fmap f (SinglePass d) = SinglePass $ case kAction d of
KeyRingAction v -> d { kAction = KeyRingAction (f v) }
RunTimeAction g -> d { kAction = RunTimeAction (f . g) }
fmap f (MultiPass p k)= MultiPass p (fmap (f .) k)
eval :: KeyRingRuntime -> Kiki a -> a
eval rt (SinglePass (KeyRingData { kAction = KeyRingAction v})) = v
eval rt (SinglePass (KeyRingData { kAction = RunTimeAction f})) = f rt
eval rt (MultiPass p kk) = eval rt kk $ eval rt (SinglePass p)
fmapWithRT :: (KeyRingRuntime -> a -> b) -> Kiki a -> Kiki b
fmapWithRT g (SinglePass d@(KeyRingData { kAction = KeyRingAction v}))
= SinglePass $ d { kAction = RunTimeAction (\rt -> g rt v) }
fmapWithRT g (SinglePass d@(KeyRingData { kAction = RunTimeAction f}))
= SinglePass $ d { kAction = RunTimeAction f' }
where f' rt = g rt (f rt)
fmapWithRT g (MultiPass p kk) = MultiPass p (fmapWithRT g' kk)
where g' rt h = g rt . h
kjoin :: Kiki (Kiki a) -> Kiki a
kjoin k = fmapWithRT eval k
passCount :: Kiki a -> Int
passCount (MultiPass _ k) = 1 + passCount k
passCount (SinglePass {}) = 1
instance Monad Kiki where
return x = SinglePass (kret x)
k >>= f = kjoin (fmap f k)
-}
-- Kiki a -> a -> Kiki b
atRuntime :: (KeyRingRuntime -> IO (a,KeyRingRuntime)) -> Kiki a
atRuntime = todo
goHome :: Maybe FilePath -> Kiki ()
goHome p = todo -- SinglePass $ (kret ()) { homeSpec = p }
syncRing :: InputFile -> Kiki ()
syncRing = todo
syncSubKey :: String -> FilePath -> String -> Kiki ()
syncSubKey usage path cmd = todo
syncWallet :: FilePath -> Kiki ()
syncWallet = todo
usePassphraseFD :: Int -> Kiki ()
usePassphraseFD = todo
importAll :: Kiki ()
importAll = todo
importAllAuthentic :: Kiki ()
importAllAuthentic = todo
signSelfAuthorized :: Kiki ()
signSelfAuthorized = todo
showIdentity :: Message -> String
showIdentity = todo
identities :: Kiki [Message]
identities = todo
currentIdentity :: Kiki Message
currentIdentity = todo
identityBySpec :: String -> Kiki Message
identityBySpec = todo
identityBySSHKey :: String -> Kiki Message
identityBySSHKey = todo
keyBySpec :: String -> Kiki Packet
keyBySpec = todo
walletInputFormat :: Packet -> String
walletInputFormat = todo
|