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|
{- P2P protocol
-
- Copyright 2016 Joey Hess <id@joeyh.name>
-
- Licensed under the GNU GPL version 3 or higher.
-}
{-# LANGUAGE DeriveFunctor, TemplateHaskell, FlexibleContexts #-}
{-# LANGUAGE TypeSynonymInstances, FlexibleInstances, RankNTypes #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
module P2P.Protocol where
import qualified Utility.SimpleProtocol as Proto
import Types.Key
import Types.UUID
import Utility.AuthToken
import Utility.Applicative
import Utility.PartialPrelude
import Utility.Metered
import Git.FilePath
import Control.Monad
import Control.Monad.Free
import Control.Monad.Free.TH
import Control.Monad.Catch
import System.FilePath
import System.Exit (ExitCode(..))
import System.IO
import qualified Data.ByteString.Lazy as L
import Data.Char
import Control.Applicative
import Prelude
newtype Offset = Offset Integer
deriving (Show)
newtype Len = Len Integer
deriving (Show)
-- | Service as used by the connect message is gitremote-helpers(1)
data Service = UploadPack | ReceivePack
deriving (Show)
-- | Messages in the protocol. The peer that makes the connection
-- always initiates requests, and the other peer makes responses to them.
data Message
= AUTH UUID AuthToken -- uuid of the peer that is authenticating
| AUTH_SUCCESS UUID -- uuid of the remote peer
| AUTH_FAILURE
| CONNECT Service
| CONNECTDONE ExitCode
| CHECKPRESENT Key
| LOCKCONTENT Key
| UNLOCKCONTENT
| REMOVE Key
| GET Offset AssociatedFile Key
| PUT AssociatedFile Key
| PUT_FROM Offset
| ALREADY_HAVE
| SUCCESS
| FAILURE
| DATA Len -- followed by bytes of data
| ERROR String
deriving (Show)
instance Proto.Sendable Message where
formatMessage (AUTH uuid authtoken) = ["AUTH", Proto.serialize uuid, Proto.serialize authtoken]
formatMessage (AUTH_SUCCESS uuid) = ["AUTH-SUCCESS", Proto.serialize uuid]
formatMessage AUTH_FAILURE = ["AUTH-FAILURE"]
formatMessage (CONNECT service) = ["CONNECT", Proto.serialize service]
formatMessage (CONNECTDONE exitcode) = ["CONNECTDONE", Proto.serialize exitcode]
formatMessage (CHECKPRESENT key) = ["CHECKPRESENT", Proto.serialize key]
formatMessage (LOCKCONTENT key) = ["LOCKCONTENT", Proto.serialize key]
formatMessage UNLOCKCONTENT = ["UNLOCKCONTENT"]
formatMessage (REMOVE key) = ["REMOVE", Proto.serialize key]
formatMessage (GET offset af key) = ["GET", Proto.serialize offset, Proto.serialize af, Proto.serialize key]
formatMessage (PUT af key) = ["PUT", Proto.serialize af, Proto.serialize key]
formatMessage (PUT_FROM offset) = ["PUT-FROM", Proto.serialize offset]
formatMessage ALREADY_HAVE = ["ALREADY-HAVE"]
formatMessage SUCCESS = ["SUCCESS"]
formatMessage FAILURE = ["FAILURE"]
formatMessage (DATA len) = ["DATA", Proto.serialize len]
formatMessage (ERROR err) = ["ERROR", Proto.serialize err]
instance Proto.Receivable Message where
parseCommand "AUTH" = Proto.parse2 AUTH
parseCommand "AUTH-SUCCESS" = Proto.parse1 AUTH_SUCCESS
parseCommand "AUTH-FAILURE" = Proto.parse0 AUTH_FAILURE
parseCommand "CONNECT" = Proto.parse1 CONNECT
parseCommand "CONNECTDONE" = Proto.parse1 CONNECTDONE
parseCommand "CHECKPRESENT" = Proto.parse1 CHECKPRESENT
parseCommand "LOCKCONTENT" = Proto.parse1 LOCKCONTENT
parseCommand "UNLOCKCONTENT" = Proto.parse0 UNLOCKCONTENT
parseCommand "REMOVE" = Proto.parse1 REMOVE
parseCommand "GET" = Proto.parse3 GET
parseCommand "PUT" = Proto.parse2 PUT
parseCommand "PUT-FROM" = Proto.parse1 PUT_FROM
parseCommand "ALREADY-HAVE" = Proto.parse0 ALREADY_HAVE
parseCommand "SUCCESS" = Proto.parse0 SUCCESS
parseCommand "FAILURE" = Proto.parse0 FAILURE
parseCommand "DATA" = Proto.parse1 DATA
parseCommand "ERROR" = Proto.parse1 ERROR
parseCommand _ = Proto.parseFail
instance Proto.Serializable Offset where
serialize (Offset n) = show n
deserialize = Offset <$$> readish
instance Proto.Serializable Len where
serialize (Len n) = show n
deserialize = Len <$$> readish
instance Proto.Serializable Service where
serialize UploadPack = "git-upload-pack"
serialize ReceivePack = "git-receive-pack"
deserialize "git-upload-pack" = Just UploadPack
deserialize "git-receive-pack" = Just ReceivePack
deserialize _ = Nothing
-- | Since AssociatedFile is not the last thing in a protocol line,
-- its serialization cannot contain any whitespace. This is handled
-- by replacing whitespace with '%' (and '%' with '%%')
--
-- When deserializing an AssociatedFile from a peer, it's sanitized,
-- to avoid any unusual characters that might cause problems when it's
-- displayed to the user.
--
-- These mungings are ok, because an AssociatedFile is only ever displayed
-- to the user and does not need to match a file on disk.
instance Proto.Serializable AssociatedFile where
serialize Nothing = ""
serialize (Just af) = toInternalGitPath $ concatMap esc af
where
esc '%' = "%%"
esc c
| isSpace c = "%"
| otherwise = [c]
deserialize s = case fromInternalGitPath $ deesc [] s of
[] -> Just Nothing
f
| isRelative f -> Just (Just f)
| otherwise -> Nothing
where
deesc b [] = reverse b
deesc b ('%':'%':cs) = deesc ('%':b) cs
deesc b ('%':cs) = deesc ('_':b) cs
deesc b (c:cs)
| isControl c = deesc ('_':b) cs
| otherwise = deesc (c:b) cs
-- | Free monad for the protocol, combining net communication,
-- and local actions.
data ProtoF c = Net (NetF c) | Local (LocalF c)
deriving (Functor)
type Proto = Free ProtoF
net :: Net a -> Proto a
net = hoistFree Net
local :: Local a -> Proto a
local = hoistFree Local
data NetF c
= SendMessage Message c
| ReceiveMessage (Message -> c)
| SendBytes Len L.ByteString MeterUpdate c
-- ^ Sends exactly Len bytes of data. (Any more or less will
-- confuse the receiver.)
| ReceiveBytes Len MeterUpdate (L.ByteString -> c)
-- ^ Lazily reads bytes from peer. Stops once Len are read,
-- or if connection is lost, and in either case returns the bytes
-- that were read. This allows resuming interrupted transfers.
| CheckAuthToken UUID AuthToken (Bool -> c)
| RelayService Service c
-- ^ Runs a service, relays its output to the peer, and data
-- from the peer to it.
| Relay RelayHandle RelayHandle (ExitCode -> c)
-- ^ Reads from the first RelayHandle, and sends the data to a
-- peer, while at the same time accepting input from the peer
-- which is sent the the second RelayHandle. Continues until
-- the peer sends an ExitCode.
deriving (Functor)
type Net = Free NetF
newtype RelayHandle = RelayHandle Handle
data LocalF c
= TmpContentSize Key (Len -> c)
-- ^ Gets size of the temp file where received content may have
-- been stored. If not present, returns 0.
| FileSize FilePath (Len -> c)
-- ^ Gets size of the content of a file. If not present, returns 0.
| ContentSize Key (Maybe Len -> c)
-- ^ Gets size of the content of a key, when the full content is
-- present.
| ReadContent Key AssociatedFile Offset (L.ByteString -> c)
-- ^ Lazily reads the content of a key. Note that the content
-- may change while it's being sent.
| StoreContent Key AssociatedFile Offset Len L.ByteString (Bool -> c)
-- ^ Stores content to the key's temp file starting at an offset.
-- Once the whole content of the key has been stored, moves the
-- temp file into place as the content of the key, and returns True.
--
-- Note: The ByteString may not contain the entire remaining content
-- of the key. Only once the temp file size == Len has the whole
-- content been transferred.
| StoreContentTo FilePath Offset Len L.ByteString (Bool -> c)
-- ^ Stores the content to a temp file starting at an offset.
-- Once the whole content of the key has been stored, returns True.
--
-- Note: The ByteString may not contain the entire remaining content
-- of the key. Only once the temp file size == Len has the whole
-- content been transferred.
| SetPresent Key UUID c
| CheckContentPresent Key (Bool -> c)
-- ^ Checks if the whole content of the key is locally present.
| RemoveContent Key (Bool -> c)
-- ^ If the content is not present, still succeeds.
-- May fail if not enough copies to safely drop, etc.
| TryLockContent Key (Bool -> Proto ()) c
-- ^ Try to lock the content of a key, preventing it
-- from being deleted, while running the provided protocol
-- action. If unable to lock the content, runs the protocol action
-- with False.
deriving (Functor)
type Local = Free LocalF
-- Generate sendMessage etc functions for all free monad constructors.
$(makeFree ''NetF)
$(makeFree ''LocalF)
auth :: UUID -> AuthToken -> Proto (Maybe UUID)
auth myuuid t = do
net $ sendMessage (AUTH myuuid t)
r <- net receiveMessage
case r of
AUTH_SUCCESS theiruuid -> return $ Just theiruuid
AUTH_FAILURE -> return Nothing
_ -> do
net $ sendMessage (ERROR "auth failed")
return Nothing
checkPresent :: Key -> Proto Bool
checkPresent key = do
net $ sendMessage (CHECKPRESENT key)
checkSuccess
{- Locks content to prevent it from being dropped, while running an action.
-
- Note that this only guarantees that the content is locked as long as the
- connection to the peer remains up. If the connection is unexpectededly
- dropped, the peer will then unlock the content.
-}
lockContentWhile
:: MonadMask m
=> (forall r. r -> Proto r -> m r)
-> Key
-> (Bool -> m a)
-> m a
lockContentWhile runproto key a = bracket setup cleanup a
where
setup = runproto False $ do
net $ sendMessage (LOCKCONTENT key)
checkSuccess
cleanup True = runproto () $ net $ sendMessage UNLOCKCONTENT
cleanup False = return ()
remove :: Key -> Proto Bool
remove key = do
net $ sendMessage (REMOVE key)
checkSuccess
get :: FilePath -> Key -> AssociatedFile -> MeterUpdate -> Proto Bool
get dest key af p = receiveContent p sizer storer (\offset -> GET offset af key)
where
sizer = fileSize dest
storer = storeContentTo dest
put :: Key -> AssociatedFile -> MeterUpdate -> Proto Bool
put key af p = do
net $ sendMessage (PUT af key)
r <- net receiveMessage
case r of
PUT_FROM offset -> sendContent key af offset p
ALREADY_HAVE -> return True
_ -> do
net $ sendMessage (ERROR "expected PUT_FROM")
return False
data ServerHandler a
= ServerGot a
| ServerContinue
| ServerUnexpected
-- Server loop, getting messages from the client and handling them
serverLoop :: (Message -> Proto (ServerHandler a)) -> Proto (Maybe a)
serverLoop a = do
cmd <- net receiveMessage
case cmd of
-- When the client sends ERROR to the server, the server
-- gives up, since it's not clear what state the client
-- is in, and so not possible to recover.
ERROR _ -> return Nothing
_ -> do
v <- a cmd
case v of
ServerGot r -> return (Just r)
ServerContinue -> serverLoop a
-- If the client sends an unexpected message,
-- the server will respond with ERROR, and
-- always continues processing messages.
--
-- Since the protocol is not versioned, this
-- is necessary to handle protocol changes
-- robustly, since the client can detect when
-- it's talking to a server that does not
-- support some new feature, and fall back.
ServerUnexpected -> do
net $ sendMessage (ERROR "unexpected command")
serverLoop a
-- | Serve the protocol, with an unauthenticated peer. Once the peer
-- successfully authenticates, returns their UUID.
serveAuth :: UUID -> Proto (Maybe UUID)
serveAuth myuuid = serverLoop handler
where
handler (AUTH theiruuid authtoken) = do
ok <- net $ checkAuthToken theiruuid authtoken
if ok
then do
net $ sendMessage (AUTH_SUCCESS myuuid)
return (ServerGot theiruuid)
else do
net $ sendMessage AUTH_FAILURE
return ServerContinue
handler _ = return ServerUnexpected
-- | Serve the protocol, with a peer that has authenticated.
serveAuthed :: UUID -> Proto ()
serveAuthed myuuid = void $ serverLoop handler
where
handler (LOCKCONTENT key) = do
local $ tryLockContent key $ \locked -> do
sendSuccess locked
when locked $ do
r' <- net receiveMessage
case r' of
UNLOCKCONTENT -> return ()
_ -> net $ sendMessage (ERROR "expected UNLOCKCONTENT")
return ServerContinue
handler (CHECKPRESENT key) = do
sendSuccess =<< local (checkContentPresent key)
return ServerContinue
handler (REMOVE key) = do
sendSuccess =<< local (removeContent key)
return ServerContinue
handler (PUT af key) = do
have <- local $ checkContentPresent key
if have
then net $ sendMessage ALREADY_HAVE
else do
let sizer = tmpContentSize key
let storer = storeContent key af
ok <- receiveContent nullMeterUpdate sizer storer PUT_FROM
when ok $
local $ setPresent key myuuid
return ServerContinue
handler (GET offset key af) = do
void $ sendContent af key offset nullMeterUpdate
-- setPresent not called because the peer may have
-- requested the data but not permanently stored it.
return ServerContinue
handler (CONNECT service) = do
net $ relayService service
return ServerContinue
handler _ = return ServerUnexpected
sendContent :: Key -> AssociatedFile -> Offset -> MeterUpdate -> Proto Bool
sendContent key af offset@(Offset n) p = do
let p' = offsetMeterUpdate p (toBytesProcessed n)
(len, content) <- readContentLen key af offset
net $ sendMessage (DATA len)
net $ sendBytes len content p'
checkSuccess
receiveContent :: MeterUpdate -> Local Len -> (Offset -> Len -> L.ByteString -> Local Bool) -> (Offset -> Message) -> Proto Bool
receiveContent p sizer storer mkmsg = do
Len n <- local sizer
let p' = offsetMeterUpdate p (toBytesProcessed n)
let offset = Offset n
net $ sendMessage (mkmsg offset)
r <- net receiveMessage
case r of
DATA len -> do
ok <- local . storer offset len
=<< net (receiveBytes len p')
sendSuccess ok
return ok
_ -> do
net $ sendMessage (ERROR "expected DATA")
return False
checkSuccess :: Proto Bool
checkSuccess = do
ack <- net receiveMessage
case ack of
SUCCESS -> return True
FAILURE -> return False
_ -> do
net $ sendMessage (ERROR "expected SUCCESS or FAILURE")
return False
sendSuccess :: Bool -> Proto ()
sendSuccess True = net $ sendMessage SUCCESS
sendSuccess False = net $ sendMessage FAILURE
-- Reads content from an offset. The Len should correspond to
-- the length of the ByteString, but to avoid buffering the content
-- in memory, is gotten using contentSize.
readContentLen :: Key -> AssociatedFile -> Offset -> Proto (Len, L.ByteString)
readContentLen key af (Offset offset) = go =<< local (contentSize key)
where
go Nothing = return (Len 0, L.empty)
go (Just (Len totallen)) = do
let len = totallen - offset
if len <= 0
then return (Len 0, L.empty)
else do
content <- local $
readContent key af (Offset offset)
return (Len len, content)
connect :: Service -> Handle -> Handle -> Proto ExitCode
connect service hin hout = do
net $ sendMessage (CONNECT service)
net $ relay (RelayHandle hin) (RelayHandle hout)
data RelayData
= RelayToPeer L.ByteString
| RelayFromPeer L.ByteString
| RelayDone ExitCode
deriving (Show)
relayFromPeer :: Net RelayData
relayFromPeer = do
r <- receiveMessage
case r of
CONNECTDONE exitcode -> return $ RelayDone exitcode
DATA len -> RelayFromPeer <$> receiveBytes len nullMeterUpdate
_ -> do
sendMessage $ ERROR "expected DATA or CONNECTDONE"
return $ RelayDone $ ExitFailure 1
relayToPeer :: RelayData -> Net ()
relayToPeer (RelayDone exitcode) = sendMessage (CONNECTDONE exitcode)
relayToPeer (RelayToPeer b) = do
let len = Len $ fromIntegral $ L.length b
sendMessage (DATA len)
sendBytes len b nullMeterUpdate
relayToPeer (RelayFromPeer _) = return ()
|