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|
-- |
--
-- This module defines three tasks intended to be run in separate threads:
--
-- * 'acceptContact'
--
-- * 'pursueContact'
--
-- * 'freshenContact'
--
{-# LANGUAGE CPP #-}
{-# LANGUAGE LambdaCase #-}
module Connection.Tox.Threads
( PursueContactMethods(..)
, FreshenContactMethods(..)
, pursueContact
) where
import Connection
-- import Connection.Tox
import Crypto.Tox
import Data.IP (IP)
import Network.Tox.Crypto.Transport
import Network.Tox.Crypto.Handlers
import Network.Tox.NodeId
import Network.Tox.ContactInfo
import Network.Tox.Handshake
import Network.Tox.DHT.Handlers {- (nodeSearch) -} as DHT
import Network.Tox.DHT.Transport as DHT (dhtpk)
import Network.Socket
import Network.Kademlia.Search
import Network.Kademlia.Routing (BucketList)
#ifdef THREAD_DEBUG
import Control.Concurrent.Lifted.Instrument
#else
import Control.Concurrent.Lifted
import GHC.Conc (labelThread)
#endif
import Control.Arrow
import Control.Concurrent.STM
import Control.Monad
import Data.Function
import Data.Functor.Identity
import Data.Time.Clock.POSIX
import System.IO
import System.Timeout
import DPut
type NodeSearch = Search NodeId (IP,PortNumber) () NodeInfo NodeInfo
data AcceptContactMethods = AcceptContactMethods
{ getHandshake :: STM (Handshake Identity)
, handshakeIsSuitable :: Handshake Identity -> STM Bool
, transitionToState :: Status ToxProgress -> STM ()
}
-- | Invokes an STM action on each incoming handshake.
--
-- Does not return until getPolicy yields RefusingToConnect.
acceptContact :: STM Policy -> AcceptContactMethods -> (Status ToxProgress -> STM ()) -> IO ()
acceptContact getPolicy AcceptContactMethods{..} writeState = fix $ \loop -> do
join $ atomically $ do
orElse
(getPolicy >>= \case
RefusingToConnect -> do writeState Dormant
return $ return () -- QUIT Dormant/Established
_ -> retry)
(do hs <- getHandshake
handshakeIsSuitable hs >>= \case
True -> do
-- Here we allocate a NetCrypto session for handling CryptoPacket.
writeState (InProgress AwaitingSessionPacket)
transitionToState (InProgress AwaitingSessionPacket)
return loop
False -> return loop)
whileTryingAndNotEstablished :: STM Policy
-> STM (Status t)
-> TVar (Status ToxProgress)
-> ((Int -> IO ()) -> STM (IO ()))
-> IO ()
whileTryingAndNotEstablished getPolicy getStatus statusVar body = fix $ \loop -> do
let retryWhileTrying k = getPolicy >>= \case
TryingToConnect -> retry
_ -> do writeTVar statusVar Dormant
return k
ifEstablished t e = getStatus >>= \case
Established -> t
_ -> e
retryAfterTimeout interval = do
timeout interval $ atomically
$ orElse
(retryWhileTrying ())
(ifEstablished (return ()) retry)
loop
join $ atomically $ orElse
(retryWhileTrying (return ())) -- QUIT Dormant/Established
(ifEstablished retry
(body retryAfterTimeout))
data PursueContactMethods = PursueContactMethods
{ allsessions :: NetCryptoSessions
, myseckey :: SecretKey
, theirpubkey :: PublicKey
, client :: DHT.Client
, shortRetryInterval :: Int -- successful cookie, try again soon.
, longRetryInterval :: Int -- no cookie, he's offline, give it some time.
, contact :: Contact
}
retryUntilJust :: TVar (Maybe a) -> STM a
retryUntilJust tvar = maybe retry return =<< readTVar tvar
-- | Continuously attempt to send handshake packets until a connection is
-- established.
--
-- As long as getPolicy is TryingToConnect and there is no established
-- connection, this function will continue.
pursueContact :: STM Policy
-> STM (Status t)
-> PursueContactMethods
-> TVar (Status ToxProgress)
-> IO ()
pursueContact getPolicy getStatus PursueContactMethods{..} statusVar = do
-- AwaitingDHTKey
atomically $ writeTVar statusVar (InProgress AwaitingDHTKey)
whileTryingAndNotEstablished getPolicy getStatus statusVar
$ \retryAfterTimeout ->
orElse (do
readTVar statusVar >>= check . (/= InProgress AcquiringIPAddress)
(stamp_theirDhtKey,theirDhtKey) <- second DHT.dhtpk <$> retryUntilJust (contactKeyPacket contact)
-- We don't have an IP address yet.
maybe (return ()) (const retry) =<< readTVar (contactLastSeenAddr contact)
return $ do -- AcquiringIPAddress
atomically $ writeTVar statusVar (InProgress AcquiringIPAddress)
retryAfterTimeout 0)
(do
(stamp_theirDhtKey,theirDhtKey) <- second DHT.dhtpk <$> retryUntilJust (contactKeyPacket contact)
(stamp_saddr,saddr) <- retryUntilJust (contactLastSeenAddr contact)
ni <- either (const retry) return $ nodeInfo (key2id theirDhtKey) (_fixme saddr)
return $ do
-- AcquiringCookie
atomically $ writeTVar statusVar (InProgress AcquiringCookie)
let mykeyAsId = key2id (toPublic myseckey)
theirkeyAsId = key2id theirpubkey
crypto = transportCrypto allsessions
mbCookie <- -- TODO: Check for recent cached cookie.
DHT.cookieRequest crypto client (toPublic myseckey) ni
interval <- case mbCookie of
Nothing -> do
dput XMan ("pursueContact: (" ++ show mykeyAsId ++") <--> (" ++ show theirkeyAsId ++ ").")
dput XMan ("pursueContact: CookieRequest failed. TODO: dhtpkNodes thingy")
return longRetryInterval
Just cookie -> do
dput XMan "Have cookie, creating handshake packet..."
let hp = HParam { hpOtherCookie = cookie
, hpMySecretKey = myseckey
, hpCookieRemotePubkey = theirpubkey
, hpCookieRemoteDhtkey = theirDhtKey
, hpTheirBaseNonce = Nothing
, hpTheirSessionKeyPublic = Nothing
}
newsession <- generateSecretKey
timestamp <- getPOSIXTime
(myhandshake,ioAction)
<- atomically $ freshCryptoSession allsessions (_fixme saddr) newsession timestamp hp
ioAction
-- send handshake
forM myhandshake $ \response_handshake -> do
sendHandshake allsessions (_fixme saddr) response_handshake
atomically $ writeTVar statusVar $ InProgress AwaitingHandshake
return shortRetryInterval
-- AwaitingHandshake
-- AwaitingSessionPacket
retryAfterTimeout interval)
data FreshenContactMethods = FreshenContactMethods
{ dhtkeyInterval :: Int
, sockAddrInterval :: Int
, nodeSch :: NodeSearch
, getDHTKey :: STM (Maybe NodeId)
, getSockAddr :: STM (Maybe SockAddr)
, nearestNodes :: NodeId -> STM [NodeInfo]
}
-- send my dht key
-- search for their sockaddr
-- monitor new dht key
-- monitor new sockaddr
--
-- Keep going while TryingToConnect
-- pause while Established
-- Useful:
-- toxidSearch onionTimeout
-- newSearch
-- searchLoop
-- searchCancel
-- -> (r -> STM Bool) -- ^ Invoked on each result. Return False to quit searching.
-- | Continuously search the DHT to obtain ip addresses and to send your dht
-- key to contacts.
--
-- As long as getPolicy is TryingToConnect and there is no established
-- connection, this function will continue.
freshenContact :: STM Policy -> STM (Status t) -> FreshenContactMethods
-> TVar (Status ToxProgress)
-> IO ()
freshenContact getPolicy getStatus FreshenContactMethods{..} statusVar
= whileTryingAndNotEstablished getPolicy getStatus statusVar
-- retryAfterTimeout :: Int -> IO ()
$ \retryAfterTimeout ->
getDHTKey >>= \case
Nothing -> -- AwaitingDHTKey
retry
Just dk -> getSockAddr >>= \case
Nothing -> do -- AcquiringIPAddress
writeTVar statusVar (InProgress AcquiringIPAddress)
return $
do st <- atomically $ do
ns <- nearestNodes dk
newSearch nodeSch dk ns
-- forked simply to avoid relabeling this thread.
forkIO $ searchLoop nodeSch dk (const $ return True) st
-- TODO: searchCancel on stop condition
atomically $ searchIsFinished st >>= check
retryAfterTimeout sockAddrInterval
Just a -> do
writeTVar statusVar (InProgress AcquiringCookie)
return $
-- AcquiringCookie
-- AwaitingHandshake
-- AwaitingSessionPacket
do _todo_search_toxid_send_dhtkey -- 123 _todo_search_toxid_send_dhtkey :: IO a0
retryAfterTimeout dhtkeyInterval
|
