git-annex/Annex.hs

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2010-10-27 20:53:54 +00:00
{- git-annex monad
-
- Copyright 2010-2018 Joey Hess <id@joeyh.name>
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-
- Licensed under the GNU GPL version 3 or higher.
-}
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{-# LANGUAGE GeneralizedNewtypeDeriving, PackageImports, BangPatterns #-}
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module Annex (
Annex,
AnnexState(..),
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new,
run,
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eval,
makeRunner,
getState,
changeState,
withState,
setFlag,
setField,
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setOutput,
getFlag,
getField,
addCleanup,
gitRepo,
inRepo,
fromRepo,
calcRepo,
getGitConfig,
changeGitConfig,
changeGitRepo,
adjustGitRepo,
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getRemoteGitConfig,
withCurrentState,
changeDirectory,
getGitRemotes,
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incError,
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) where
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import Common
import qualified Git
import qualified Git.Config
import qualified Git.Construct
import Annex.Fixup
import Git.CatFile
import Git.HashObject
import Git.CheckAttr
gitignore support for the assistant and watcher Requires git 1.8.4 or newer. When it's installed, a background git check-ignore process is run, and used to efficiently check ignores whenever a new file is added. Thanks to Adam Spiers, for getting the necessary support into git for this. A complication is what to do about files that are gitignored but have been checked into git anyway. git commands assume the ignore has been overridden in this case, and not need any more overriding to commit a changed version. However, for the assistant to do the same, it would have to run git ls-files to check if the ignored file is in git. This is somewhat expensive. Or it could use the running git-cat-file process to query the file that way, but that requires transferring the whole file content over a pipe, so it can be quite expensive too, for files that are not git-annex symlinks. Now imagine if the user knows that a file or directory tree will be getting frequent changes, and doesn't want the assistant to sync it, so gitignores it. The assistant could overload the system with repeated ls-files checks! So, I've decided that the assistant will not automatically commit changes to files that are gitignored. This is a tradeoff. Hopefully it won't be a problem to adjust .gitignore settings to not ignore files you want the assistant to autocommit, or to manually git annex add files that are listed in .gitignore. (This could be revisited if git-annex gets access to an interface to check the content of the index w/o forking a git command. This could be libgit2, or perhaps a separate git cat-file --batch-check process, so it wouldn't need to ship over the whole file content.) This commit was sponsored by Francois Marier. Thanks!
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import Git.CheckIgnore
import qualified Git.Hook
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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
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import Types.FileMatcher
import Types.NumCopies
import Types.LockCache
import Types.DesktopNotify
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import Types.CleanupActions
import qualified Database.Keys.Handle as Keys
import Utility.InodeCache
import Utility.Url
import "mtl" Control.Monad.Reader
import Control.Concurrent
import Control.Concurrent.Async
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import Control.Concurrent.STM
import qualified Data.Map as M
import qualified Data.Set as S
Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
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{- 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.
Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
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-}
newtype Annex a = Annex { runAnnex :: ReaderT (MVar AnnexState) IO a }
deriving (
Monad,
MonadIO,
Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
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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
, gitremotes :: Maybe [Git.Repo]
, backend :: Maybe (BackendA Annex)
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, 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
gitignore support for the assistant and watcher Requires git 1.8.4 or newer. When it's installed, a background git check-ignore process is run, and used to efficiently check ignores whenever a new file is added. Thanks to Adam Spiers, for getting the necessary support into git for this. A complication is what to do about files that are gitignored but have been checked into git anyway. git commands assume the ignore has been overridden in this case, and not need any more overriding to commit a changed version. However, for the assistant to do the same, it would have to run git ls-files to check if the ignored file is in git. This is somewhat expensive. Or it could use the running git-cat-file process to query the file that way, but that requires transferring the whole file content over a pipe, so it can be quite expensive too, for files that are not git-annex symlinks. Now imagine if the user knows that a file or directory tree will be getting frequent changes, and doesn't want the assistant to sync it, so gitignores it. The assistant could overload the system with repeated ls-files checks! So, I've decided that the assistant will not automatically commit changes to files that are gitignored. This is a tradeoff. Hopefully it won't be a problem to adjust .gitignore settings to not ignore files you want the assistant to autocommit, or to manually git annex add files that are listed in .gitignore. (This could be revisited if git-annex gets access to an interface to check the content of the index w/o forking a git command. This could be libgit2, or perhaps a separate git cat-file --batch-check process, so it wouldn't need to ship over the whole file content.) This commit was sponsored by Francois Marier. Thanks!
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, 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
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, sshstalecleaned :: TMVar Bool
, flags :: M.Map String Bool
, fields :: M.Map String String
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, cleanup :: M.Map CleanupAction (Annex ())
, sentinalstatus :: Maybe SentinalStatus
, useragent :: Maybe String
, errcounter :: Integer
, unusedkeys :: Maybe (S.Set Key)
, tempurls :: M.Map Key URLString
, existinghooks :: M.Map Git.Hook.Hook Bool
, desktopnotify :: DesktopNotify
, workers :: [Either AnnexState (Async AnnexState)]
, activekeys :: TVar (M.Map Key ThreadId)
, activeremotes :: MVar (M.Map (Types.Remote.RemoteA Annex) Integer)
, keysdbhandle :: Maybe Keys.DbHandle
, cachedcurrentbranch :: Maybe Git.Branch
, cachedgitenv :: Maybe [(String, String)]
, urloptions :: Maybe UrlOptions
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}
newState :: GitConfig -> Git.Repo -> IO AnnexState
newState c r = do
emptyactiveremotes <- newMVar M.empty
emptyactivekeys <- newTVarIO M.empty
o <- newMessageState
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sc <- newTMVarIO False
return $ AnnexState
{ repo = r
, repoadjustment = return
, gitconfig = c
, gitremotes = Nothing
, backend = Nothing
, remotes = []
, remoteannexstate = M.empty
, output = o
, 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
, sshstalecleaned = sc
, flags = M.empty
, fields = M.empty
, cleanup = M.empty
, sentinalstatus = Nothing
, useragent = Nothing
, errcounter = 0
, unusedkeys = Nothing
, tempurls = M.empty
, existinghooks = M.empty
, desktopnotify = mempty
, workers = []
, activekeys = emptyactivekeys
, activeremotes = emptyactiveremotes
, keysdbhandle = Nothing
, cachedcurrentbranch = Nothing
, cachedgitenv = Nothing
, urloptions = Nothing
}
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{- 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
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Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
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{- Performs an action in the Annex monad from a starting state,
- returning a new state. -}
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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
Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
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r <- runReaderT (runAnnex a) mvar
`onException` (flush =<< readMVar mvar)
Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
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s' <- takeMVar mvar
flush s'
Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
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return (r, s')
where
flush = maybe noop Keys.flushDbQueue . keysdbhandle
Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
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{- Performs an action in the Annex monad from a starting state,
- and throws away the new state. -}
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eval :: AnnexState -> Annex a -> IO a
eval s a = fst <$> run s a
Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
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{- 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
Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
2013-05-19 18:16:36 +00:00
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
2010-10-14 07:18:11 +00:00
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. -}
2014-03-13 23:06:26 +00:00
addCleanup :: CleanupAction -> Annex () -> Annex ()
addCleanup k a = changeState $ \s ->
s { cleanup = M.insertWith' const k a $ cleanup s }
2012-04-30 17:59:05 +00:00
{- Sets the type of output to emit. -}
setOutput :: OutputType -> Annex ()
setOutput o = changeState $ \s ->
let m = output s
in s { output = m { outputType = adjustOutputType (outputType m) o } }
2012-04-30 17:59:05 +00:00
{- 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. -}
2010-10-14 07:18:11 +00:00
gitRepo :: Annex Git.Repo
gitRepo = getState repo
{- Runs an IO action in the annex's git repository. -}
inRepo :: (Git.Repo -> IO a) -> Annex a
2011-11-12 18:24:07 +00:00
inRepo a = liftIO . a =<< gitRepo
{- Extracts a value from the annex's git repisitory. -}
fromRepo :: (Git.Repo -> a) -> Annex a
fromRepo a = a <$> gitRepo
Switch to MonadCatchIO-transformers for better handling of state while catching exceptions. As seen in this bug report, the lifted exception handling using the StateT monad throws away state changes when an action throws an exception. http://git-annex.branchable.com/bugs/git_annex_fork_bombs_on_gpg_file/ .. Which can result in cached values being redundantly calculated, or other possibly worse bugs when the annex state gets out of sync with reality. This switches from a StateT AnnexState to a ReaderT (MVar AnnexState). All changes to the state go via the MVar. So when an Annex action is running inside an exception handler, and it makes some changes, they immediately go into affect in the MVar. If it then throws an exception (or even crashes its thread!), the state changes are still in effect. The MonadCatchIO-transformers change is actually only incidental. I could have kept on using lifted-base for the exception handling. However, I'd have needed to write a new instance of MonadBaseControl for the new monad.. and I didn't write the old instance.. I begged Bas and he kindly sent it to me. Happily, MonadCatchIO-transformers is able to derive a MonadCatchIO instance for my monad. This is a deep level change. It passes the test suite! What could it break? Well.. The most likely breakage would be to code that runs an Annex action in an exception handler, and *wants* state changes to be thrown away. Perhaps the state changes leaves the state inconsistent, or wrong. Since there are relatively few places in git-annex that catch exceptions in the Annex monad, and the AnnexState is generally just used to cache calculated data, this is unlikely to be a problem. Oh yeah, this change also makes Assistant.Types.ThreadedMonad a bit redundant. It's now entirely possible to run concurrent Annex actions in different threads, all sharing access to the same state! The ThreadedMonad just adds some extra work on top of that, with its own MVar, and avoids such actions possibly stepping on one-another's toes. I have not gotten rid of it, but might try that later. Being able to run concurrent Annex actions would simplify parts of the Assistant code.
2013-05-19 18:16:36 +00:00
{- 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
2014-05-16 20:08:20 +00:00
{- 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)
2014-05-16 20:08:20 +00:00
{- 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' }
2015-04-30 19:04:01 +00:00
incError :: Annex ()
incError = changeState $ \s ->
let ! c = errcounter s + 1
! s' = s { errcounter = c }
in s'
getGitRemotes :: Annex [Git.Repo]
getGitRemotes = do
s <- getState id
case gitremotes s of
Just rs -> return rs
Nothing -> do
rs <- liftIO $ Git.Construct.fromRemotes (repo s)
changeState $ \s' -> s' { gitremotes = Just rs }
return rs