{- git-annex monad - - Copyright 2010-2021 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} {-# LANGUAGE GeneralizedNewtypeDeriving, BangPatterns, PackageImports #-} module Annex ( Annex, AnnexState(..), AnnexRead(..), new, run, eval, makeRunner, getRead, getState, changeState, withState, setField, setOutput, getField, addCleanupAction, gitRepo, inRepo, fromRepo, calcRepo, calcRepo', getGitConfig, overrideGitConfig, changeGitRepo, adjustGitRepo, addGitConfigOverride, getGitConfigOverrides, getRemoteGitConfig, withCurrentState, changeDirectory, getGitRemotes, incError, ) where import Common import qualified Git import qualified Git.Config import qualified Git.Construct import Annex.Fixup import Git.HashObject import Git.CheckAttr import Git.CheckIgnore import qualified Git.Hook import qualified Git.Queue import Types.Key import Types.Backend import Types.GitConfig import qualified Types.Remote import Types.Crypto import Types.BranchState import Types.TrustLevel import Types.Group import Types.Messages import Types.Concurrency import Types.UUID import Types.FileMatcher import Types.NumCopies import Types.LockCache import Types.DesktopNotify import Types.CleanupActions import Types.AdjustedBranch import Types.WorkerPool import Types.IndexFiles import Types.CatFileHandles import Types.RemoteConfig import Types.TransferrerPool import Types.VectorClock import Types.Cluster import Annex.VectorClock.Utility import Annex.Debug.Utility import qualified Database.Keys.Handle as Keys import Utility.InodeCache import Utility.Url import Utility.ResourcePool import Utility.HumanTime import Git.Credential (CredentialCache(..)) import "mtl" Control.Monad.Reader import Control.Concurrent import Control.Concurrent.STM import qualified Control.Monad.Fail as Fail import qualified Data.Map.Strict as M import qualified Data.Set as S import Data.Time.Clock.POSIX {- git-annex's monad is a ReaderT around an AnnexState stored in a MVar, - and an AnnexRead. The MVar is not exposed outside this module. - - Note that when an Annex action fails and the exception is caught, - any changes the action has made to the AnnexState are retained, - due to the use of the MVar to store the state. -} newtype Annex a = Annex { runAnnex :: ReaderT (MVar AnnexState, AnnexRead) IO a } deriving ( Monad, MonadIO, MonadReader (MVar AnnexState, AnnexRead), MonadCatch, MonadThrow, MonadMask, Fail.MonadFail, Functor, Applicative, Alternative ) -- Values that can be read, but not modified by an Annex action. data AnnexRead = AnnexRead { branchstate :: MVar BranchState , activekeys :: TVar (M.Map Key ThreadId) , activeremotes :: MVar (M.Map (Types.Remote.RemoteA Annex) Integer) , keysdbhandle :: Keys.DbHandle , sshstalecleaned :: TMVar Bool , signalactions :: TVar (M.Map SignalAction (Int -> IO ())) , transferrerpool :: TransferrerPool , debugenabled :: Bool , debugselector :: DebugSelector , explainenabled :: Bool , ciphers :: TMVar (M.Map StorableCipher Cipher) , fast :: Bool , force :: Bool , forcenumcopies :: Maybe NumCopies , forcemincopies :: Maybe MinCopies , forcebackend :: Maybe String , useragent :: Maybe String , desktopnotify :: DesktopNotify , gitcredentialcache :: TMVar CredentialCache } newAnnexRead :: GitConfig -> IO AnnexRead newAnnexRead c = do bs <- newMVar startBranchState emptyactivekeys <- newTVarIO M.empty emptyactiveremotes <- newMVar M.empty kh <- Keys.newDbHandle sc <- newTMVarIO False si <- newTVarIO M.empty tp <- newTransferrerPool cm <- newTMVarIO M.empty cc <- newTMVarIO (CredentialCache M.empty) return $ AnnexRead { branchstate = bs , activekeys = emptyactivekeys , activeremotes = emptyactiveremotes , keysdbhandle = kh , sshstalecleaned = sc , signalactions = si , transferrerpool = tp , debugenabled = annexDebug c , debugselector = debugSelectorFromGitConfig c , explainenabled = False , ciphers = cm , fast = False , force = False , forcebackend = Nothing , forcenumcopies = Nothing , forcemincopies = Nothing , useragent = Nothing , desktopnotify = mempty , gitcredentialcache = cc } -- Values that can change while running an Annex action. data AnnexState = AnnexState { repo :: Git.Repo , repoadjustment :: (Git.Repo -> IO Git.Repo) , gitconfig :: GitConfig , gitconfigadjustment :: (GitConfig -> GitConfig) , gitconfigoverride :: [String] , gitremotes :: Maybe [Git.Repo] , gitconfiginodecache :: Maybe InodeCache , backend :: Maybe (BackendA Annex) , remotes :: [Types.Remote.RemoteA Annex] , output :: MessageState , concurrency :: ConcurrencySetting , daemon :: Bool , repoqueue :: Maybe (Git.Queue.Queue Annex) , catfilehandles :: CatFileHandles , hashobjecthandle :: Maybe (ResourcePool HashObjectHandle) , checkattrhandle :: Maybe (ResourcePool CheckAttrHandle) , checkignorehandle :: Maybe (ResourcePool CheckIgnoreHandle) , globalnumcopies :: Maybe (Maybe NumCopies) , globalmincopies :: Maybe (Maybe MinCopies) , limit :: ExpandableMatcher Annex , timelimit :: Maybe (Duration, POSIXTime) , sizelimit :: Maybe (TVar Integer) , uuiddescmap :: Maybe UUIDDescMap , preferredcontentmap :: Maybe (FileMatcherMap Annex) , requiredcontentmap :: Maybe (FileMatcherMap Annex) , remoteconfigmap :: Maybe (M.Map UUID RemoteConfig) , clusters :: Maybe (Annex Clusters) , forcetrust :: TrustMap , trustmap :: Maybe TrustMap , groupmap :: Maybe GroupMap , lockcache :: LockCache , fields :: M.Map String String , cleanupactions :: M.Map CleanupAction (Annex ()) , sentinalstatus :: Maybe SentinalStatus , errcounter :: Integer , reachedlimit :: Bool , adjustedbranchrefreshcounter :: Integer , unusedkeys :: Maybe (S.Set Key) , tempurls :: M.Map Key URLString , existinghooks :: M.Map Git.Hook.Hook Bool , workers :: Maybe (TMVar (WorkerPool (AnnexState, AnnexRead))) , cachedcurrentbranch :: (Maybe (Maybe Git.Branch, Maybe Adjustment)) , cachedgitenv :: Maybe (AltIndexFile, FilePath, [(String, String)]) , urloptions :: Maybe UrlOptions , insmudgecleanfilter :: Bool , getvectorclock :: IO CandidateVectorClock , proxyremote :: Maybe (Either ClusterUUID (Types.Remote.RemoteA Annex)) } newAnnexState :: GitConfig -> Git.Repo -> IO AnnexState newAnnexState c r = do o <- newMessageState vc <- startVectorClock return $ AnnexState { repo = r , repoadjustment = return , gitconfig = c , gitconfigadjustment = id , gitconfigoverride = [] , gitremotes = Nothing , gitconfiginodecache = Nothing , backend = Nothing , remotes = [] , output = o , concurrency = ConcurrencyCmdLine NonConcurrent , daemon = False , repoqueue = Nothing , catfilehandles = catFileHandlesNonConcurrent , hashobjecthandle = Nothing , checkattrhandle = Nothing , checkignorehandle = Nothing , globalnumcopies = Nothing , globalmincopies = Nothing , limit = BuildingMatcher [] , timelimit = Nothing , sizelimit = Nothing , uuiddescmap = Nothing , preferredcontentmap = Nothing , requiredcontentmap = Nothing , remoteconfigmap = Nothing , clusters = Nothing , forcetrust = M.empty , trustmap = Nothing , groupmap = Nothing , lockcache = M.empty , fields = M.empty , cleanupactions = M.empty , sentinalstatus = Nothing , errcounter = 0 , reachedlimit = False , adjustedbranchrefreshcounter = 0 , unusedkeys = Nothing , tempurls = M.empty , existinghooks = M.empty , workers = Nothing , cachedcurrentbranch = Nothing , cachedgitenv = Nothing , urloptions = Nothing , insmudgecleanfilter = False , getvectorclock = vc , proxyremote = Nothing } {- Makes an Annex state object for the specified git repo. - Ensures the config is read, if it was not already, and performs - any necessary git repo fixups. -} new :: Git.Repo -> IO (AnnexState, AnnexRead) new r = do r' <- Git.Config.read r let c = extractGitConfig FromGitConfig r' st <- newAnnexState c =<< fixupRepo r' c rd <- newAnnexRead c return (st, rd) {- Performs an action in the Annex monad from a starting state, - returning a new state. -} run :: (AnnexState, AnnexRead) -> Annex a -> IO (a, (AnnexState, AnnexRead)) run (st, rd) a = do mv <- newMVar st run' mv rd a run' :: MVar AnnexState -> AnnexRead -> Annex a -> IO (a, (AnnexState, AnnexRead)) run' mvar rd a = do r <- runReaderT (runAnnex a) (mvar, rd) st <- takeMVar mvar return (r, (st, rd)) {- Performs an action in the Annex monad from a starting state, - and throws away the changed state. -} eval :: (AnnexState, AnnexRead) -> Annex a -> IO a eval v a = fst <$> run v a {- Makes a runner action, that allows diving into IO and from inside - the IO action, running an Annex action. -} makeRunner :: Annex (Annex a -> IO a) makeRunner = do (mvar, rd) <- ask return $ \a -> do (r, (s, _rd)) <- run' mvar rd a putMVar mvar s return r getRead :: (AnnexRead -> v) -> Annex v getRead selector = selector . snd <$> ask getState :: (AnnexState -> v) -> Annex v getState selector = do mvar <- fst <$> ask st <- liftIO $ readMVar mvar return $ selector st changeState :: (AnnexState -> AnnexState) -> Annex () changeState modifier = do mvar <- fst <$> ask liftIO $ modifyMVar_ mvar $ return . modifier withState :: (AnnexState -> IO (AnnexState, b)) -> Annex b withState modifier = do mvar <- fst <$> ask liftIO $ modifyMVar mvar modifier {- Sets a field to a value -} setField :: String -> String -> Annex () setField field value = changeState $ \st -> st { fields = M.insert field value $ fields st } {- Adds a cleanup action to perform. -} addCleanupAction :: CleanupAction -> Annex () -> Annex () addCleanupAction k a = changeState $ \st -> st { cleanupactions = M.insert k a $ cleanupactions st } {- Sets the type of output to emit. -} setOutput :: OutputType -> Annex () setOutput o = changeState $ \st -> let m = output st in st { output = m { outputType = adjustOutputType (outputType m) o } } {- Gets the value of a field. -} getField :: String -> Annex (Maybe String) getField field = M.lookup field <$> getState fields {- Returns the annex's git repository. -} gitRepo :: Annex Git.Repo gitRepo = getState repo {- Runs an IO action in the annex's git repository. -} inRepo :: (Git.Repo -> IO a) -> Annex a inRepo a = liftIO . a =<< gitRepo {- Extracts a value from the annex's git repisitory. -} fromRepo :: (Git.Repo -> a) -> Annex a fromRepo a = a <$> gitRepo {- Calculates a value from an annex's git repository and its GitConfig. -} calcRepo :: (Git.Repo -> GitConfig -> IO a) -> Annex a calcRepo a = do s <- getState id liftIO $ a (repo s) (gitconfig s) calcRepo' :: (Git.Repo -> GitConfig -> a) -> Annex a calcRepo' f = do s <- getState id pure $ f (repo s) (gitconfig s) {- Gets the GitConfig settings. -} getGitConfig :: Annex GitConfig getGitConfig = getState gitconfig {- Overrides a GitConfig setting. The modification persists across - reloads of the repo's config. -} overrideGitConfig :: (GitConfig -> GitConfig) -> Annex () overrideGitConfig f = changeState $ \st -> st { gitconfigadjustment = gitconfigadjustment st . f , gitconfig = f (gitconfig st) } {- Adds an adjustment to the Repo data. Adjustments persist across reloads - of the repo's config. - - Note that the action may run more than once, and should avoid eg, - appending the same value to a repo's config when run repeatedly. -} adjustGitRepo :: (Git.Repo -> IO Git.Repo) -> Annex () adjustGitRepo a = do changeState $ \st -> st { repoadjustment = \r -> repoadjustment st r >>= a } changeGitRepo =<< gitRepo {- Adds git config setting, like "foo=bar". It will be passed with -c - to git processes. The config setting is also recorded in the Repo, - and the GitConfig is updated. -} addGitConfigOverride :: String -> Annex () addGitConfigOverride v = do adjustGitRepo $ \r -> Git.Config.store (encodeBS v) Git.Config.ConfigList $ r { Git.gitGlobalOpts = go (Git.gitGlobalOpts r) } changeState $ \st -> st { gitconfigoverride = v : gitconfigoverride st } where -- Remove any prior occurrence of the setting to avoid -- building up many of them when the adjustment is run repeatedly, -- and add the setting to the end. go [] = [Param "-c", Param v] go (Param "-c": Param v':rest) | v' == v = go rest go (c:rest) = c : go rest {- Values that were passed to addGitConfigOverride. -} getGitConfigOverrides :: Annex [String] getGitConfigOverrides = reverse <$> getState gitconfigoverride {- Changing the git Repo data also involves re-extracting its GitConfig. -} changeGitRepo :: Git.Repo -> Annex () changeGitRepo r = do repoadjuster <- getState repoadjustment gitconfigadjuster <- getState gitconfigadjustment r' <- liftIO $ repoadjuster r changeState $ \st -> st { repo = r' , gitconfig = gitconfigadjuster $ extractGitConfig FromGitConfig r' , gitremotes = Nothing } {- Gets the RemoteGitConfig from a remote, given the Git.Repo for that - remote. -} getRemoteGitConfig :: Git.Repo -> Annex RemoteGitConfig getRemoteGitConfig r = do g <- gitRepo liftIO $ atomically $ extractRemoteGitConfig g (Git.repoDescribe r) {- Converts an Annex action into an IO action, that runs with a copy - of the current Annex state. - - Use with caution; the action should not rely on changing the - state, as it will be thrown away. -} withCurrentState :: Annex a -> Annex (IO a) withCurrentState a = do (mvar, rd) <- ask st <- liftIO $ readMVar mvar return $ eval (st, rd) a {- It's not safe to use setCurrentDirectory in the Annex monad, - because the git repo paths are stored relative. - Instead, use this. -} changeDirectory :: FilePath -> Annex () changeDirectory d = do r <- liftIO . Git.adjustPath absPath =<< gitRepo liftIO $ setCurrentDirectory d r' <- liftIO $ Git.relPath r changeState $ \st -> st { repo = r' } incError :: Annex () incError = changeState $ \st -> let !c = errcounter st + 1 !st' = st { errcounter = c } in st' getGitRemotes :: Annex [Git.Repo] getGitRemotes = do st <- getState id case gitremotes st of Just rs -> return rs Nothing -> do rs <- liftIO $ Git.Construct.fromRemotes (repo st) changeState $ \st' -> st' { gitremotes = Just rs } return rs