{- git-annex monad
 -
 - Copyright 2010-2013 Joey Hess <id@joeyh.name>
 -
 - Licensed under the GNU GPL version 3 or higher.
 -}

{-# LANGUAGE GeneralizedNewtypeDeriving, PackageImports, BangPatterns #-}

module Annex (
	Annex,
	AnnexState(..),
	new,
	run,
	eval,
	makeRunner,
	getState,
	changeState,
	withState,
	setFlag,
	setField,
	setOutput,
	getFlag,
	getField,
	addCleanup,
	gitRepo,
	inRepo,
	fromRepo,
	calcRepo,
	getGitConfig,
	changeGitConfig,
	changeGitRepo,
	adjustGitRepo,
	getRemoteGitConfig,
	withCurrentState,
	changeDirectory,
	incError,
) where

import Common
import qualified Git
import qualified Git.Config
import Annex.Fixup
import Git.CatFile
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 qualified Database.Keys.Handle as Keys
import Utility.Quvi (QuviVersion)
import Utility.InodeCache
import Utility.Url

import "mtl" Control.Monad.Reader
import Control.Concurrent
import Control.Concurrent.Async
import qualified Data.Map as M
import qualified Data.Set as S

{- git-annex's monad is a ReaderT around an AnnexState stored in a MVar.
 - 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) IO a }
	deriving (
		Monad,
		MonadIO,
		MonadReader (MVar AnnexState),
		MonadCatch,
		MonadThrow,
		MonadMask,
		Functor,
		Applicative
	)

-- internal state storage
data AnnexState = AnnexState
	{ repo :: Git.Repo
	, repoadjustment :: (Git.Repo -> IO Git.Repo)
	, gitconfig :: GitConfig
	, backends :: [BackendA Annex]
	, remotes :: [Types.Remote.RemoteA Annex]
	, remoteannexstate :: M.Map UUID AnnexState
	, output :: MessageState
	, concurrency :: Concurrency
	, force :: Bool
	, fast :: Bool
	, daemon :: Bool
	, branchstate :: BranchState
	, repoqueue :: Maybe Git.Queue.Queue
	, catfilehandles :: M.Map FilePath CatFileHandle
	, hashobjecthandle :: Maybe HashObjectHandle
	, checkattrhandle :: Maybe CheckAttrHandle
	, checkignorehandle :: Maybe (Maybe CheckIgnoreHandle)
	, forcebackend :: Maybe String
	, globalnumcopies :: Maybe NumCopies
	, forcenumcopies :: Maybe NumCopies
	, limit :: ExpandableMatcher Annex
	, uuidmap :: Maybe UUIDMap
	, preferredcontentmap :: Maybe (FileMatcherMap Annex)
	, requiredcontentmap :: Maybe (FileMatcherMap Annex)
	, forcetrust :: TrustMap
	, trustmap :: Maybe TrustMap
	, groupmap :: Maybe GroupMap
	, ciphers :: M.Map StorableCipher Cipher
	, lockcache :: LockCache
	, flags :: M.Map String Bool
	, fields :: M.Map String String
	, cleanup :: M.Map CleanupAction (Annex ())
	, sentinalstatus :: Maybe SentinalStatus
	, useragent :: Maybe String
	, errcounter :: Integer
	, unusedkeys :: Maybe (S.Set Key)
	, tempurls :: M.Map Key URLString
	, quviversion :: Maybe QuviVersion
	, existinghooks :: M.Map Git.Hook.Hook Bool
	, desktopnotify :: DesktopNotify
	, workers :: [Either AnnexState (Async AnnexState)]
	, activeremotes :: MVar (S.Set (Types.Remote.RemoteA Annex))
	, keysdbhandle :: Maybe Keys.DbHandle
	, cachedcurrentbranch :: Maybe Git.Branch
	, cachedgitenv :: Maybe [(String, String)]
	}

newState :: GitConfig -> Git.Repo -> IO AnnexState
newState c r = do
	emptyactiveremotes <- newMVar S.empty
	return $ AnnexState
		{ repo = r
		, repoadjustment = return
		, gitconfig = c
		, backends = []
		, remotes = []
		, remoteannexstate = M.empty
		, output = def
		, concurrency = NonConcurrent
		, force = False
		, fast = False
		, daemon = False
		, branchstate = startBranchState
		, repoqueue = Nothing
		, catfilehandles = M.empty
		, hashobjecthandle = Nothing
		, checkattrhandle = Nothing
		, checkignorehandle = Nothing
		, forcebackend = Nothing
		, globalnumcopies = Nothing
		, forcenumcopies = Nothing
		, limit = BuildingMatcher []
		, uuidmap = Nothing
		, preferredcontentmap = Nothing
		, requiredcontentmap = Nothing
		, forcetrust = M.empty
		, trustmap = Nothing
		, groupmap = Nothing
		, ciphers = M.empty
		, lockcache = M.empty
		, flags = M.empty
		, fields = M.empty
		, cleanup = M.empty
		, sentinalstatus = Nothing
		, useragent = Nothing
		, errcounter = 0
		, unusedkeys = Nothing
		, tempurls = M.empty
		, quviversion = Nothing
		, existinghooks = M.empty
		, desktopnotify = mempty
		, workers = []
		, activeremotes = emptyactiveremotes
		, keysdbhandle = Nothing
		, cachedcurrentbranch = Nothing
		, cachedgitenv = 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
new r = do
	r' <- Git.Config.read =<< Git.relPath r
	let c = extractGitConfig r'
	newState c =<< fixupRepo r' c

{- Performs an action in the Annex monad from a starting state,
 - returning a new state. -}
run :: AnnexState -> Annex a -> IO (a, AnnexState)
run s a = flip run' a =<< newMVar s

run' :: MVar AnnexState -> Annex a -> IO (a, AnnexState)
run' mvar a = do
	r <- runReaderT (runAnnex a) mvar
		`onException` (flush =<< readMVar mvar)
	s' <- takeMVar mvar
	flush s'
	return (r, s')
  where
	flush = maybe noop Keys.flushDbQueue . keysdbhandle

{- Performs an action in the Annex monad from a starting state, 
 - and throws away the new state. -}
eval :: AnnexState -> Annex a -> IO a
eval s a = fst <$> run s 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 <- ask
	return $ \a -> do
		(r, s) <- run' mvar a
		putMVar mvar s
		return r

getState :: (AnnexState -> v) -> Annex v
getState selector = do
	mvar <- ask
	s <- liftIO $ readMVar mvar
	return $ selector s

changeState :: (AnnexState -> AnnexState) -> Annex ()
changeState modifier = do
	mvar <- ask
	liftIO $ modifyMVar_ mvar $ return . modifier

withState :: (AnnexState -> IO (AnnexState, b)) -> Annex b
withState modifier = do
	mvar <- ask
	liftIO $ modifyMVar mvar modifier

{- Sets a flag to True -}
setFlag :: String -> Annex ()
setFlag flag = changeState $ \s ->
	s { flags = M.insertWith' const flag True $ flags s }

{- Sets a field to a value -}
setField :: String -> String -> Annex ()
setField field value = changeState $ \s ->
	s { fields = M.insertWith' const field value $ fields s }

{- Adds a cleanup action to perform. -}
addCleanup :: CleanupAction -> Annex () -> Annex ()
addCleanup k a = changeState $ \s ->
	s { cleanup = M.insertWith' const k a $ cleanup s }

{- Sets the type of output to emit. -}
setOutput :: OutputType -> Annex ()
setOutput o = changeState $ \s ->
	s { output = (output s) { outputType = o } }

{- Checks if a flag was set. -}
getFlag :: String -> Annex Bool
getFlag flag = fromMaybe False . M.lookup flag <$> getState flags

{- 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)

{- Gets the GitConfig settings. -}
getGitConfig :: Annex GitConfig
getGitConfig = getState gitconfig

{- Modifies a GitConfig setting. -}
changeGitConfig :: (GitConfig -> GitConfig) -> Annex ()
changeGitConfig a = changeState $ \s -> s { gitconfig = a (gitconfig s) }

{- Changing the git Repo data also involves re-extracting its GitConfig. -}
changeGitRepo :: Git.Repo -> Annex ()
changeGitRepo r = do
	adjuster <- getState repoadjustment
	r' <- liftIO $ adjuster r
	changeState $ \s -> s
		{ repo = r'
		, gitconfig = extractGitConfig r'
		}

{- Adds an adjustment to the Repo data. Adjustments persist across reloads
 - of the repo's config. -}
adjustGitRepo :: (Git.Repo -> IO Git.Repo) -> Annex ()
adjustGitRepo a = do
	changeState $ \s -> s { repoadjustment = \r -> repoadjustment s r >>= a }
	changeGitRepo =<< gitRepo

{- Gets the RemoteGitConfig from a remote, given the Git.Repo for that
 - remote. -}
getRemoteGitConfig :: Git.Repo -> Annex RemoteGitConfig
getRemoteGitConfig r = do
	g <- gitRepo
	return $ 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
	s <- getState id
	return $ eval s 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 $ \s -> s { repo = r' }

incError :: Annex ()
incError = changeState $ \s -> 
	let ! c = errcounter s + 1 
	    ! s' = s { errcounter = c }
	in s'