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{- git-annex command
-
- Copyright 2010 Joey Hess <id@joeyh.name>
-
- Licensed under the GNU GPL version 3 or higher.
-}
module Command.Map where
import qualified Data.Map as M
import Common.Annex
import Command
import qualified Git
import qualified Git.Url
import qualified Git.Config
import qualified Git.Construct
import qualified Remote
import qualified Annex
import Annex.UUID
import Logs.UUID
import Logs.Trust
import qualified Remote.Helper.Ssh as Ssh
import qualified Utility.Dot as Dot
-- a link from the first repository to the second (its remote)
data Link = Link Git.Repo Git.Repo
cmd :: Command
cmd = dontCheck repoExists $
command "map" SectionQuery
"generate map of repositories"
paramNothing (withParams seek)
seek :: CmdParams -> CommandSeek
seek = withNothing start
start :: CommandStart
start = do
rs <- combineSame <$> (spider =<< gitRepo)
umap <- uuidMap
trusted <- trustGet Trusted
file <- (</>) <$> fromRepo gitAnnexDir <*> pure "map.dot"
liftIO $ writeFile file (drawMap rs umap trusted)
next $ next $
ifM (Annex.getState Annex.fast)
( do
showLongNote $ "left map in " ++ file
return True
, do
showLongNote $ "running: dot -Tx11 " ++ file
showOutput
liftIO $ boolSystem "dot" [Param "-Tx11", File file]
)
{- Generates a graph for dot(1). Each repository, and any other uuids, are
- displayed as a node, and each of its remotes is represented as an edge
- pointing at the node for the remote.
-
- The order nodes are added to the graph matters, since dot will draw
- the first ones near to the top and left. So it looks better to put
- the repositories first, followed by uuids that were not matched
- to a repository.
-}
drawMap :: [Git.Repo] -> M.Map UUID String -> [UUID] -> String
drawMap rs umap ts = Dot.graph $ repos ++ trusted ++ others
where
repos = map (node umap rs) rs
ruuids = ts ++ map getUncachedUUID rs
others = map (unreachable . uuidnode) $
filter (`notElem` ruuids) (M.keys umap)
trusted = map (trustworthy . uuidnode) ts
uuidnode u = Dot.graphNode (fromUUID u) $ M.findWithDefault "" u umap
hostname :: Git.Repo -> String
hostname r
| Git.repoIsUrl r = fromMaybe (Git.repoLocation r) (Git.Url.host r)
| otherwise = "localhost"
basehostname :: Git.Repo -> String
basehostname r = fromMaybe "" $ headMaybe $ split "." $ hostname r
{- A name to display for a repo. Uses the name from uuid.log if available,
- or the remote name if not. -}
repoName :: M.Map UUID String -> Git.Repo -> String
repoName umap r
| repouuid == NoUUID = fallback
| otherwise = M.findWithDefault fallback repouuid umap
where
repouuid = getUncachedUUID r
fallback = fromMaybe "unknown" $ Git.remoteName r
{- A unique id for the node for a repo. Uses the annex.uuid if available. -}
nodeId :: Git.Repo -> String
nodeId r =
case getUncachedUUID r of
NoUUID -> Git.repoLocation r
UUID u -> u
{- A node representing a repo. -}
node :: M.Map UUID String -> [Git.Repo] -> Git.Repo -> String
node umap fullinfo r = unlines $ n:edges
where
n = Dot.subGraph (hostname r) (basehostname r) "lightblue" $
decorate $ Dot.graphNode (nodeId r) (repoName umap r)
edges = map (edge umap fullinfo r) (Git.remotes r)
decorate
| Git.config r == M.empty = unreachable
| otherwise = reachable
{- An edge between two repos. The second repo is a remote of the first. -}
edge :: M.Map UUID String -> [Git.Repo] -> Git.Repo -> Git.Repo -> String
edge umap fullinfo from to =
Dot.graphEdge (nodeId from) (nodeId fullto) edgename
where
-- get the full info for the remote, to get its UUID
fullto = findfullinfo to
findfullinfo n =
case filter (same n) fullinfo of
[] -> n
(n':_) -> n'
{- Only name an edge if the name is different than the name
- that will be used for the destination node, and is
- different from its hostname. (This reduces visual clutter.) -}
edgename = maybe Nothing calcname $ Git.remoteName to
calcname n
| n `elem` [repoName umap fullto, hostname fullto] = Nothing
| otherwise = Just n
unreachable :: String -> String
unreachable = Dot.fillColor "red"
reachable :: String -> String
reachable = Dot.fillColor "white"
trustworthy :: String -> String
trustworthy = Dot.fillColor "green"
{- Recursively searches out remotes starting with the specified repo. -}
spider :: Git.Repo -> Annex [Git.Repo]
spider r = spider' [r] []
spider' :: [Git.Repo] -> [Git.Repo] -> Annex [Git.Repo]
spider' [] known = return known
spider' (r:rs) known
| any (same r) known = spider' rs known
| otherwise = do
r' <- scan r
-- The remotes will be relative to r', and need to be
-- made absolute for later use.
remotes <- mapM (absRepo r') (Git.remotes r')
let r'' = r' { Git.remotes = remotes }
spider' (rs ++ remotes) (r'':known)
{- Converts repos to a common absolute form. -}
absRepo :: Git.Repo -> Git.Repo -> Annex Git.Repo
absRepo reference r
| Git.repoIsUrl reference = return $ Git.Construct.localToUrl reference r
| Git.repoIsUrl r = return r
| otherwise = liftIO $ do
r' <- Git.Construct.fromAbsPath =<< absPath (Git.repoPath r)
r'' <- safely $ flip Annex.eval Annex.gitRepo =<< Annex.new r'
return (fromMaybe r' r'')
{- Checks if two repos are the same. -}
same :: Git.Repo -> Git.Repo -> Bool
same a b
| both Git.repoIsUrl = matching Git.Url.scheme && matching Git.Url.authority && matching Git.repoPath
| neither Git.repoIsUrl = matching Git.repoPath
| otherwise = False
where
matching t = t a == t b
both t = t a && t b
neither t = not (t a) && not (t b)
{- reads the config of a remote, with progress display -}
scan :: Git.Repo -> Annex Git.Repo
scan r = do
showStart "map" $ Git.repoDescribe r
v <- tryScan r
case v of
Just r' -> do
showEndOk
return r'
Nothing -> do
showOutput
showEndFail
return r
{- tries to read the config of a remote, returning it only if it can
- be accessed -}
tryScan :: Git.Repo -> Annex (Maybe Git.Repo)
tryScan r
| Git.repoIsSsh r = sshscan
| Git.repoIsUrl r = case Git.remoteName r of
-- Can't scan a non-ssh url, so use any cached uuid for it.
Just n -> Just <$> (either
(const (pure r))
(liftIO . setUUID r . Remote.uuid)
=<< Remote.byName' n)
Nothing -> return $ Just r
| otherwise = liftIO $ safely $ Git.Config.read r
where
pipedconfig pcmd params = liftIO $ safely $
withHandle StdoutHandle createProcessSuccess p $
Git.Config.hRead r
where
p = proc pcmd $ toCommand params
configlist = Ssh.onRemote r (pipedconfig, return Nothing) "configlist" [] []
manualconfiglist = do
gc <- Annex.getRemoteGitConfig r
sshparams <- Ssh.toRepo r gc [Param sshcmd]
liftIO $ pipedconfig "ssh" sshparams
where
sshcmd = "sh -c " ++ shellEscape
(cddir ++ " && " ++ "git config --null --list")
dir = Git.repoPath r
cddir
| "/~" `isPrefixOf` dir =
let (userhome, reldir) = span (/= '/') (drop 1 dir)
in "cd " ++ userhome ++ " && " ++ cdto (drop 1 reldir)
| otherwise = cdto dir
cdto p = "if ! cd " ++ shellEscape p ++ " 2>/dev/null; then cd " ++ shellEscape p ++ ".git; fi"
-- First, try sshing and running git config manually,
-- only fall back to git-annex-shell configlist if that
-- fails.
--
-- This is done for two reasons, first I'd like this
-- subcommand to be usable on non-git-annex repos.
-- Secondly, configlist doesn't include information about
-- the remote's remotes.
sshscan = do
sshnote
v <- manualconfiglist
case v of
Nothing -> do
sshnote
configlist
ok -> return ok
sshnote = do
showAction "sshing"
showOutput
{- Spidering can find multiple paths to the same repo, so this is used
- to combine (really remove) duplicate repos with the same UUID. -}
combineSame :: [Git.Repo] -> [Git.Repo]
combineSame = map snd . nubBy sameuuid . map pair
where
sameuuid (u1, _) (u2, _) = u1 == u2 && u1 /= NoUUID
pair r = (getUncachedUUID r, r)
safely :: IO Git.Repo -> IO (Maybe Git.Repo)
safely a = do
result <- tryNonAsync a
case result of
Left _ -> return Nothing
Right r' -> return $ Just r'
|