git-annex/Annex/View.hs

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{- metadata based branch views
-
- Copyright 2014 Joey Hess <joey@kitenet.net>
-
- Licensed under the GNU GPL version 3 or higher.
-}
module Annex.View where
import Common.Annex
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import Annex.View.ViewedFile
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import Types.View
import Types.MetaData
import Annex.MetaData
import qualified Git
import qualified Git.DiffTree as DiffTree
import qualified Git.Branch
import qualified Git.LsFiles
import qualified Git.Ref
import Git.UpdateIndex
import Git.Sha
import Git.HashObject
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import Git.Types
import Git.FilePath
import qualified Backend
import Annex.Index
import Annex.Link
import Annex.CatFile
import Logs.MetaData
import Logs.View
import Utility.Glob
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import Utility.FileMode
import Types.Command
import Config
import CmdLine.Action
import qualified Data.Set as S
import qualified Data.Map as M
import "mtl" Control.Monad.Writer
{- Each visible ViewFilter in a view results in another level of
- subdirectory nesting. When a file matches multiple ways, it will appear
- in multiple subdirectories. This means there is a bit of an exponential
- blowup with a single file appearing in a crazy number of places!
-
- Capping the view size to 5 is reasonable; why wants to dig
- through 5+ levels of subdirectories to find anything?
-}
viewTooLarge :: View -> Bool
viewTooLarge view = visibleViewSize view > 5
visibleViewSize :: View -> Int
visibleViewSize = length . filter viewVisible . viewComponents
{- Parses field=value, field!=value, tag, and !tag
-
- Note that the field may not be a legal metadata field name,
- but it's let through anyway.
- This is useful when matching on directory names with spaces,
- which are not legal MetaFields.
-}
parseViewParam :: String -> (MetaField, ViewFilter)
parseViewParam s = case separate (== '=') s of
('!':tag, []) | not (null tag) ->
( tagMetaField
, mkExcludeValues tag
)
(tag, []) ->
( tagMetaField
, mkFilterValues tag
)
(field, wanted)
| end field == "!" ->
( mkMetaFieldUnchecked (beginning field)
, mkExcludeValues wanted
)
| otherwise ->
( mkMetaFieldUnchecked field
, mkFilterValues wanted
)
where
mkFilterValues v
| any (`elem` v) "*?" = FilterGlob v
| otherwise = FilterValues $ S.singleton $ toMetaValue v
mkExcludeValues = ExcludeValues . S.singleton . toMetaValue
data ViewChange = Unchanged | Narrowing | Widening
deriving (Ord, Eq, Show)
{- Updates a view, adding new fields to filter on (Narrowing),
- or allowing new values in an existing field (Widening). -}
refineView :: View -> [(MetaField, ViewFilter)] -> (View, ViewChange)
refineView origview = checksize . calc Unchanged origview
where
calc c v [] = (v, c)
calc c v ((f, vf):rest) =
let (v', c') = refine v f vf
in calc (max c c') v' rest
refine view field vf
| field `elem` map viewField (viewComponents view) =
let (components', viewchanges) = runWriter $
mapM (\c -> updateViewComponent c field vf) (viewComponents view)
viewchange = if field `elem` map viewField (viewComponents origview)
then maximum viewchanges
else Narrowing
in (view { viewComponents = components' }, viewchange)
| otherwise =
let component = mkViewComponent field vf
view' = view { viewComponents = component : viewComponents view }
in (view', Narrowing)
checksize r@(v, _)
| viewTooLarge v = error $ "View is too large (" ++ show (visibleViewSize v) ++ " levels of subdirectories)"
| otherwise = r
updateViewComponent :: ViewComponent -> MetaField -> ViewFilter -> Writer [ViewChange] ViewComponent
updateViewComponent c field vf
| viewField c == field = do
let (newvf, viewchange) = combineViewFilter (viewFilter c) vf
tell [viewchange]
return $ mkViewComponent field newvf
| otherwise = return c
{- Adds an additional filter to a view. This can only result in narrowing
- the view. Multivalued filters are added in non-visible form. -}
filterView :: View -> [(MetaField, ViewFilter)] -> View
filterView v vs = v { viewComponents = viewComponents f' ++ viewComponents v}
where
f = fst $ refineView (v {viewComponents = []}) vs
f' = f { viewComponents = map toinvisible (viewComponents f) }
toinvisible c = c { viewVisible = False }
{- Combine old and new ViewFilters, yielding a result that matches
- either old+new, or only new.
-
- If we have FilterValues and change to a FilterGlob,
- it's always a widening change, because the glob could match other
- values. OTOH, going the other way, it's a Narrowing change if the old
- glob matches all the new FilterValues.
-
- With two globs, the old one is discarded, and the new one is used.
- We can tell if that's a narrowing change by checking if the old
- glob matches the new glob. For example, "*" matches "foo*",
- so that's narrowing. While "f?o" does not match "f??", so that's
- widening.
-}
combineViewFilter :: ViewFilter -> ViewFilter -> (ViewFilter, ViewChange)
combineViewFilter old@(FilterValues olds) (FilterValues news)
| combined == old = (combined, Unchanged)
| otherwise = (combined, Widening)
where
combined = FilterValues (S.union olds news)
combineViewFilter old@(ExcludeValues olds) (ExcludeValues news)
| combined == old = (combined, Unchanged)
| otherwise = (combined, Narrowing)
where
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combined = ExcludeValues (S.union olds news)
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combineViewFilter (FilterValues _) newglob@(FilterGlob _) =
(newglob, Widening)
combineViewFilter (FilterGlob oldglob) new@(FilterValues s)
| all (matchGlob (compileGlob oldglob CaseInsensative) . fromMetaValue) (S.toList s) = (new, Narrowing)
| otherwise = (new, Widening)
combineViewFilter (FilterGlob old) newglob@(FilterGlob new)
| old == new = (newglob, Unchanged)
| matchGlob (compileGlob old CaseInsensative) new = (newglob, Narrowing)
| otherwise = (newglob, Widening)
combineViewFilter (FilterGlob _) new@(ExcludeValues _) = (new, Narrowing)
combineViewFilter (ExcludeValues _) new@(FilterGlob _) = (new, Widening)
combineViewFilter (FilterValues _) new@(ExcludeValues _) = (new, Narrowing)
combineViewFilter (ExcludeValues _) new@(FilterValues _) = (new, Widening)
{- Generates views for a file from a branch, based on its metadata
- and the filename used in the branch.
-
- Note that a file may appear multiple times in a view, when it
- has multiple matching values for a MetaField used in the View.
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-
- Of course if its MetaData does not match the View, it won't appear at
- all.
-
- Note that for efficiency, it's useful to partially
- evaluate this function with the view parameter and reuse
- the result. The globs in the view will then be compiled and memoized.
-}
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viewedFiles :: View -> MkViewedFile -> FilePath -> MetaData -> [ViewedFile]
viewedFiles view =
let matchers = map viewComponentMatcher (viewComponents view)
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in \mkviewedfile file metadata ->
let matches = map (\m -> m metadata) matchers
in if any isNothing matches
then []
else
let paths = pathProduct $
map (map toViewPath) (visible matches)
in if null paths
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then [mkviewedfile file]
else map (</> mkviewedfile file) paths
where
visible = map (fromJust . snd) .
filter (viewVisible . fst) .
zip (viewComponents view)
{- Checks if metadata matches a ViewComponent filter, and if so
- returns the value, or values that match. Self-memoizing on ViewComponent. -}
viewComponentMatcher :: ViewComponent -> (MetaData -> Maybe [MetaValue])
viewComponentMatcher viewcomponent = \metadata ->
matcher (currentMetaDataValues metafield metadata)
where
metafield = viewField viewcomponent
matcher = case viewFilter viewcomponent of
FilterValues s -> \values -> setmatches $
S.intersection s values
FilterGlob glob ->
let cglob = compileGlob glob CaseInsensative
in \values -> setmatches $
S.filter (matchGlob cglob . fromMetaValue) values
ExcludeValues excludes -> \values ->
if S.null (S.intersection values excludes)
then Just []
else Nothing
setmatches s
| S.null s = Nothing
| otherwise = Just (S.toList s)
toViewPath :: MetaValue -> FilePath
toViewPath = concatMap escapeslash . fromMetaValue
where
escapeslash c
| c == '/' = [pseudoSlash]
| c == '\\' = [pseudoBackslash]
| c == pseudoSlash = [pseudoSlash, pseudoSlash]
| c == pseudoBackslash = [pseudoBackslash, pseudoBackslash]
| otherwise = [c]
fromViewPath :: FilePath -> MetaValue
fromViewPath = toMetaValue . deescapeslash []
where
deescapeslash s [] = reverse s
deescapeslash s (c:cs)
| c == pseudoSlash = case cs of
(c':cs')
| c' == pseudoSlash -> deescapeslash (pseudoSlash:s) cs'
_ -> deescapeslash ('/':s) cs
| c == pseudoBackslash = case cs of
(c':cs')
| c' == pseudoBackslash -> deescapeslash (pseudoBackslash:s) cs'
_ -> deescapeslash ('/':s) cs
| otherwise = deescapeslash (c:s) cs
pseudoSlash :: Char
pseudoSlash = '\8725' -- '' /= '/'
pseudoBackslash :: Char
pseudoBackslash = '\9586' -- '' /= '\'
pathProduct :: [[FilePath]] -> [FilePath]
pathProduct [] = []
pathProduct (l:ls) = foldl combinel l ls
where
combinel xs ys = [combine x y | x <- xs, y <- ys]
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{- Extracts the metadata from a ViewedFile, based on the view that was used
- to construct it.
-
- Derived metadata is excluded.
-}
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fromView :: View -> ViewedFile -> MetaData
fromView view f = MetaData $
M.fromList (zip fields values) `M.difference` derived
where
visible = filter viewVisible (viewComponents view)
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fields = map viewField visible
paths = splitDirectories (dropFileName f)
values = map (S.singleton . fromViewPath) paths
MetaData derived = getViewedFileMetaData f
{- Constructing a view that will match arbitrary metadata, and applying
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- it to a file yields a set of ViewedFile which all contain the same
- MetaFields that were present in the input metadata
- (excluding fields that are not visible). -}
prop_view_roundtrips :: FilePath -> MetaData -> Bool -> Bool
prop_view_roundtrips f metadata visible = null f || viewTooLarge view ||
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all hasfields (viewedFiles view viewedFileFromReference f metadata)
where
view = View (Git.Ref "master") $
map (\(mf, mv) -> ViewComponent mf (FilterValues $ S.filter (not . null . fromMetaValue) mv) visible)
(fromMetaData metadata)
visiblefields = sort (map viewField $ filter viewVisible (viewComponents view))
hasfields fv = sort (map fst (fromMetaData (fromView view fv))) == visiblefields
{- A directory foo/bar/baz/ is turned into metadata fields
- /=foo, foo/=bar, foo/bar/=baz.
-
- Note that this may generate MetaFields that legalField rejects.
- This is necessary to have a 1:1 mapping between directory names and
- fields. So this MetaData cannot safely be serialized. -}
getDirMetaData :: FilePath -> MetaData
getDirMetaData d = MetaData $ M.fromList $ zip fields values
where
dirs = splitDirectories d
fields = map (mkMetaFieldUnchecked . addTrailingPathSeparator . joinPath)
(inits dirs)
values = map (S.singleton . toMetaValue . fromMaybe "" . headMaybe)
(tails dirs)
getWorkTreeMetaData :: FilePath -> MetaData
getWorkTreeMetaData = getDirMetaData . dropFileName
getViewedFileMetaData :: FilePath -> MetaData
getViewedFileMetaData = getDirMetaData . dirFromViewedFile . takeFileName
{- Applies a view to the currently checked out branch, generating a new
- branch for the view.
-}
applyView :: View -> Annex Git.Branch
applyView view = applyView' viewedFileFromReference getWorkTreeMetaData view
{- Generates a new branch for a View, which must be a more narrow
- version of the View originally used to generate the currently
- checked out branch. That is, it must match a subset of the files
- in view, not any others.
-}
narrowView :: View -> Annex Git.Branch
narrowView = applyView' viewedFileReuse getViewedFileMetaData
{- Go through each file in the currently checked out branch.
- If the file is not annexed, skip it, unless it's a dotfile in the top.
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- Look up the metadata of annexed files, and generate any ViewedFiles,
- and stage them.
-
- Currently only works in indirect mode. Must be run from top of
- repository.
-}
applyView' :: MkViewedFile -> (FilePath -> MetaData) -> View -> Annex Git.Branch
applyView' mkviewedfile getfilemetadata view = do
top <- fromRepo Git.repoPath
(l, clean) <- inRepo $ Git.LsFiles.inRepo [top]
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liftIO . nukeFile =<< fromRepo gitAnnexViewIndex
genViewBranch view $ do
uh <- inRepo Git.UpdateIndex.startUpdateIndex
hasher <- inRepo hashObjectStart
forM_ l $ \f ->
go uh hasher f =<< Backend.lookupFile f
liftIO $ do
hashObjectStop hasher
void $ stopUpdateIndex uh
void clean
where
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genviewedfiles = viewedFiles view mkviewedfile -- enables memoization
go uh hasher f (Just (k, _)) = do
metadata <- getCurrentMetaData k
let metadata' = getfilemetadata f `unionMetaData` metadata
forM_ (genviewedfiles f metadata') $ \fv -> do
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stagesymlink uh hasher fv =<< inRepo (gitAnnexLink fv k)
go uh hasher f Nothing
| "." `isPrefixOf` f = do
s <- liftIO $ getSymbolicLinkStatus f
if isSymbolicLink s
then stagesymlink uh hasher f =<< liftIO (readSymbolicLink f)
else do
sha <- liftIO $ Git.HashObject.hashFile hasher f
let blobtype = if isExecutable (fileMode s)
then ExecutableBlob
else FileBlob
liftIO . Git.UpdateIndex.streamUpdateIndex' uh
=<< inRepo (Git.UpdateIndex.stageFile sha blobtype f)
| otherwise = noop
stagesymlink uh hasher f linktarget = do
sha <- hashSymlink' hasher linktarget
liftIO . Git.UpdateIndex.streamUpdateIndex' uh
=<< inRepo (Git.UpdateIndex.stageSymlink f sha)
{- Applies a view to the reference branch, generating a new branch
- for the View.
-
- This needs to work incrementally, to quickly update the view branch
- when the reference branch is changed. So, it works based on an
- old version of the reference branch, uses diffTree to find the
- changes, and applies those changes to the view branch.
-}
updateView :: View -> Git.Ref -> Git.Ref -> Annex Git.Branch
updateView view ref oldref = genViewBranch view $ do
(diffs, cleanup) <- inRepo $ DiffTree.diffTree oldref ref
forM_ diffs go
void $ liftIO cleanup
where
go diff
| DiffTree.dstsha diff == nullSha = error "TODO delete file"
| otherwise = error "TODO add file"
{- Diff between currently checked out branch and staged changes, and
- update metadata to reflect the changes that are being committed to the
- view.
-
- Adding a file to a directory adds the metadata represented by
- that directory to the file, and removing a file from a directory
- removes the metadata.
-
- Note that removes must be handled before adds. This is so
- that moving a file from x/foo/ to x/bar/ adds back the metadata for x.
-}
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withViewChanges :: (ViewedFile -> Key -> CommandStart) -> (ViewedFile -> Key -> CommandStart) -> Annex ()
withViewChanges addmeta removemeta = do
makeabs <- flip fromTopFilePath <$> gitRepo
(diffs, cleanup) <- inRepo $ DiffTree.diffIndex Git.Ref.headRef
forM_ diffs handleremovals
forM_ diffs (handleadds makeabs)
void $ liftIO cleanup
where
handleremovals item
| DiffTree.srcsha item /= nullSha =
handle item removemeta
=<< catKey (DiffTree.srcsha item) (DiffTree.srcmode item)
| otherwise = noop
handleadds makeabs item
| DiffTree.dstsha item /= nullSha =
handle item addmeta
=<< ifM isDirect
( catKey (DiffTree.dstsha item) (DiffTree.dstmode item)
-- optimisation
, isAnnexLink $ makeabs $ DiffTree.file item
)
| otherwise = noop
handle item a = maybe noop
(void . commandAction . a (getTopFilePath $ DiffTree.file item))
{- Generates a branch for a view. This is done using a different index
- file. An action is run to stage the files that will be in the branch.
- Then a commit is made, to the view branch. The view branch is not
- checked out, but entering it will display the view. -}
genViewBranch :: View -> Annex () -> Annex Git.Branch
genViewBranch view a = withIndex $ do
a
let branch = branchView view
void $ inRepo $ Git.Branch.commit True (fromRef branch) branch []
return branch
{- Runs an action using the view index file.
- Note that the file does not necessarily exist, or can contain
- info staged for an old view. -}
withIndex :: Annex a -> Annex a
withIndex a = do
f <- fromRepo gitAnnexViewIndex
withIndexFile f a
withCurrentView :: (View -> Annex a) -> Annex a
withCurrentView a = maybe (error "Not in a view.") a =<< currentView