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|
{-# LANGUAGE CPP #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE ViewPatterns #-}
{-# LANGUAGE ExistentialQuantification #-}
module KeyRing where
import System.Environment
import Control.Monad
import Data.Maybe
import Data.Char
import Data.List
import Data.OpenPGP
import Data.Functor
import Control.Applicative ( (<$>) )
import System.Directory ( getHomeDirectory, doesFileExist )
import Control.Arrow ( first, second )
import Data.OpenPGP.Util ( fingerprint )
import Data.ByteString.Lazy ( ByteString )
import Text.Show.Pretty as PP ( ppShow )
import qualified Data.Map as Map
import FunctorToMaybe
import DotLock
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 Int
type UsageTag = String
type Initializer = String
type PassWordFile = InputFile
data FileType = KeyRingFile PassWordFile | PEMFile UsageTag | WalletFile
data RefType = ConstRef | MutableRef (Maybe Initializer)
data KeyRingRuntime = KeyRingRuntime
{ rtPubring :: FilePath
, rtSecring :: FilePath
, rtRings :: [FilePath]
, rtWallets :: [FilePath]
, rtGrip :: Maybe String
}
data KeyRingAction a = KeyRingAction a | RunTimeAction (KeyRingRuntime -> a)
data KeyRingData = KeyRingData
{ kFiles :: Map.Map InputFile (RefType,FileType)
, kImports :: Map.Map String (KeyData -> Bool)
, homeSpec :: Maybe String
}
filesToLock k secring pubring = do
(f,(rtyp,ftyp)) <- Map.toList (kFiles k)
case rtyp of
ConstRef -> []
MutableRef {} -> resolve f
where
resolve HomeSec = return secring
resolve HomePub = return pubring
resolve (ArgFile f) = return f
resolve _ = []
-- kret :: a -> KeyRingData a
-- kret x = KeyRingData Map.empty Nothing (KeyRingAction x)
todo = error "unimplemented"
data KikiCondition a = KikiSuccess a | FailedToLock [FilePath]
#define TRIVIAL(OP) fmap _ (OP) = OP
instance Functor KikiCondition where
fmap f (KikiSuccess a) = KikiSuccess (f a)
TRIVIAL( FailedToLock x )
instance FunctorToMaybe KikiCondition where
functorToMaybe (KikiSuccess a) = Just a
functorToMaybe _ = Nothing
data KikiReportAction =
NewPacket String
| MissingPacket String
| ExportedSubkey
| GeneratedSubkeyFile
| NewWalletKey String
| YieldSignature
| YieldSecretKeyPacket String
data KikiResult a = KikiResult
{ kikiCondition :: KikiCondition a
, kikiReport :: [ (FilePath, KikiReportAction) ]
}
runKeyRing :: KeyRingData -> (KeyRingRuntime -> a) -> IO (KikiResult a)
runKeyRing keyring op = do
(homedir,secring,pubring,grip0) <- getHomeDir (homeSpec keyring)
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) = partition (isJust . fst) lks
ret = if null failed then KikiSuccess () else FailedToLock failed
ret <- case functorToEither ret of
Right {} -> do
report <- todo -- build db
a <- return $ op KeyRingRuntime
{ rtPubring = pubring
, rtSecring = secring
, rtRings = [] -- todo secring:pubring:keyringFiles keyring
, rtWallets = [] -- todo walletFiles keyring
, rtGrip = grip0
}
report <- todo report -- write files
return $ KikiResult (KikiSuccess a) report
Left err -> return $ KikiResult err []
forM_ lked $ \(Just lk, fname) -> do dotlock_release lk
dotlock_destroy lk -- todo: verify we want this
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
getHomeDir protohome = do
homedir <- envhomedir protohome
flip (maybe (error "Could not determine home directory."))
homedir $ \homedir -> do
-- putStrLn $ "homedir = " ++show homedir
let secring = homedir ++ "/" ++ "secring.gpg"
pubring = homedir ++ "/" ++ "pubring.gpg"
-- putStrLn $ "secring = " ++ show secring
workingkey <- getWorkingKey homedir
return (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
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)
{-
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
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