git-annex/Assistant/Threads/NetWatcher.hs
Joey Hess 40ecf58d4b
update licenses from GPL to AGPL
This does not change the overall license of the git-annex program, which
was already AGPL due to a number of sources files being AGPL already.

Legally speaking, I'm adding a new license under which these files are
now available; I already released their current contents under the GPL
license. Now they're dual licensed GPL and AGPL. However, I intend
for all my future changes to these files to only be released under the
AGPL license, and I won't be tracking the dual licensing status, so I'm
simply changing the license statement to say it's AGPL.

(In some cases, others wrote parts of the code of a file and released it
under the GPL; but in all cases I have contributed a significant portion
of the code in each file and it's that code that is getting the AGPL
license; the GPL license of other contributors allows combining with
AGPL code.)
2019-03-13 15:48:14 -04:00

202 lines
6.2 KiB
Haskell

{- git-annex assistant network connection watcher, using dbus
-
- Copyright 2012 Joey Hess <id@joeyh.name>
-
- Licensed under the GNU AGPL version 3 or higher.
-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE OverloadedStrings #-}
module Assistant.Threads.NetWatcher where
import Assistant.Common
import Assistant.Sync
import Utility.ThreadScheduler
import qualified Types.Remote as Remote
import Assistant.DaemonStatus
import Utility.NotificationBroadcaster
#if WITH_DBUS
import Assistant.RemoteControl
import Utility.DBus
import DBus.Client
import DBus
#else
#ifdef linux_HOST_OS
#warning Building without dbus support; will poll for network connection changes
#endif
#endif
netWatcherThread :: NamedThread
#if WITH_DBUS
netWatcherThread = thread dbusThread
#else
netWatcherThread = thread noop
#endif
where
thread = namedThread "NetWatcher"
{- This is a fallback for when dbus cannot be used to detect
- network connection changes, but it also ensures that
- any networked remotes that may have not been routable for a
- while (despite the local network staying up), are synced with
- periodically.
-
- Note that it does not signal the RemoteControl, because it doesn't
- know that the network has changed.
-}
netWatcherFallbackThread :: NamedThread
netWatcherFallbackThread = namedThread "NetWatcherFallback" $
runEvery (Seconds 3600) <~> handleConnection
#if WITH_DBUS
dbusThread :: Assistant ()
dbusThread = do
handleerr <- asIO2 onerr
runclient <- asIO1 go
liftIO $ persistentClient getSystemAddress () handleerr runclient
where
go client = ifM (checkNetMonitor client)
( do
callback <- asIO1 connchange
liftIO $ do
listenNMConnections client callback
listenNDConnections client callback
listenWicdConnections client callback
, do
liftAnnex $
warning "No known network monitor available through dbus; falling back to polling"
)
connchange False = do
debug ["detected network disconnection"]
sendRemoteControl LOSTNET
connchange True = do
debug ["detected network connection"]
handleConnection
sendRemoteControl RESUME
onerr e _ = do
liftAnnex $
warning $ "lost dbus connection; falling back to polling (" ++ show e ++ ")"
{- Wait, in hope that dbus will come back -}
liftIO $ threadDelaySeconds (Seconds 60)
{- Examine the list of services connected to dbus, to see if there
- are any we can use to monitor network connections. -}
checkNetMonitor :: Client -> Assistant Bool
checkNetMonitor client = do
running <- liftIO $ filter (`elem` manager_addresses)
<$> listServiceNames client
case running of
[] -> return False
(service:_) -> do
debug [ "Using running DBUS service"
, service
, "to monitor network connection events."
]
return True
where
manager_addresses = [networkmanager, networkd, wicd]
networkmanager = "org.freedesktop.NetworkManager"
networkd = "org.freedesktop.network1"
wicd = "org.wicd.daemon"
{- Listens for systemd-networkd connections and diconnections.
-
- Connection example (once fully connected):
- [Variant {"OperationalState": Variant "routable"}]
-
- Disconnection example:
- [Variant {"OperationalState": Variant _}]
-}
listenNDConnections :: Client -> (Bool -> IO ()) -> IO ()
listenNDConnections client setconnected =
void $ addMatch client matcher
$ \event -> mapM_ handleevent
(map dictionaryItems $ mapMaybe fromVariant $ signalBody event)
where
matcher = matchAny
{ matchInterface = Just "org.freedesktop.DBus.Properties"
, matchMember = Just "PropertiesChanged"
}
operational_state_key = toVariant ("OperationalState" :: String)
routable = toVariant $ toVariant ("routable" :: String)
handleevent m = case lookup operational_state_key m of
Just state -> if state == routable
then setconnected True
else setconnected False
Nothing -> noop
{- Listens for NetworkManager connections and diconnections.
-
- Connection example (once fully connected):
- [Variant {"ActivatingConnection": Variant (ObjectPath "/"), "PrimaryConnection": Variant (ObjectPath "/org/freedesktop/NetworkManager/ActiveConnection/34"), "State": Variant 70}]
-
- Disconnection example:
- [Variant {"ActiveConnections": Variant []}]
-}
listenNMConnections :: Client -> (Bool -> IO ()) -> IO ()
listenNMConnections client setconnected =
void $ addMatch client matcher
$ \event -> mapM_ handleevent
(map dictionaryItems $ mapMaybe fromVariant $ signalBody event)
where
matcher = matchAny
{ matchInterface = Just "org.freedesktop.NetworkManager"
, matchMember = Just "PropertiesChanged"
}
nm_active_connections_key = toVariant ("ActiveConnections" :: String)
nm_activatingconnection_key = toVariant ("ActivatingConnection" :: String)
noconnections = Just $ toVariant $ toVariant ([] :: [ObjectPath])
rootconnection = Just $ toVariant $ toVariant $ objectPath_ "/"
handleevent m
| lookup nm_active_connections_key m == noconnections =
setconnected False
| lookup nm_activatingconnection_key m == rootconnection =
setconnected True
| otherwise = noop
{- Listens for Wicd connections and disconnections.
-
- Connection example:
- ConnectResultsSent:
- Variant "success"
-
- Diconnection example:
- StatusChanged
- [Variant 0, Variant [Varient ""]]
-}
listenWicdConnections :: Client -> (Bool -> IO ()) -> IO ()
listenWicdConnections client setconnected = do
match connmatcher $ \event ->
when (any (== wicd_success) (signalBody event)) $
setconnected True
match statusmatcher $ \event -> handleevent (signalBody event)
where
connmatcher = matchAny
{ matchInterface = Just "org.wicd.daemon"
, matchMember = Just "ConnectResultsSent"
}
statusmatcher = matchAny
{ matchInterface = Just "org.wicd.daemon"
, matchMember = Just "StatusChanged"
}
wicd_success = toVariant ("success" :: String)
wicd_disconnected = toVariant [toVariant ("" :: String)]
handleevent status
| any (== wicd_disconnected) status = setconnected False
| otherwise = noop
match matcher a =
void $ addMatch client matcher a
#endif
handleConnection :: Assistant ()
handleConnection = do
liftIO . sendNotification . networkConnectedNotifier =<< getDaemonStatus
reconnectRemotes =<< networkRemotes
{- Network remotes to sync with. -}
networkRemotes :: Assistant [Remote]
networkRemotes = filter (isNothing . Remote.localpath) . syncRemotes
<$> getDaemonStatus