{-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE QuasiQuotes #-} module Sproxy.Server.DB ( Database , DataSource(..) , userExists , userGroups , start ) where import Control.Concurrent (forkIO, threadDelay) import Control.Exception (SomeException, bracket, catch, finally) import Control.Monad (forever, void) import Data.ByteString.Char8 (pack) import Data.Pool (Pool, createPool, withResource) import Data.Text (Text, toLower, unpack) import Database.SQLite.Simple (NamedParam((:=))) import Text.InterpolatedString.Perl6 (q, qc) import qualified Database.PostgreSQL.Simple as PG import qualified Database.SQLite.Simple as SQLite import qualified Sproxy.Logging as Log type Database = Pool SQLite.Connection data DataSource = PostgreSQL String -- | File FilePath {- TODO: - Hash remote tables and update the local only when the remote change - Switch to REGEX - Generalize sync procedures for different tables -} start :: FilePath -> Maybe DataSource -> IO Database start home ds = do Log.info $ "home directory: " ++ show home db <- createPool (do c <- SQLite.open $ home ++ "/sproxy.sqlite3" lvl <- Log.level SQLite.setTrace c (if lvl == Log.Debug then Just $ Log.debug . unpack else Nothing) return c) SQLite.close 1 -- stripes 3600 -- keep alive (seconds). FIXME: no much sense as it's a local file 128 -- max connections. FIXME: make configurable? withResource db $ \c -> SQLite.execute_ c "PRAGMA journal_mode=WAL" populate db ds return db userExists :: Database -> Text -> IO Bool userExists db email = do r <- withResource db $ \c -> fmap SQLite.fromOnly <$> SQLite.queryNamed c "SELECT EXISTS (SELECT 1 FROM group_member WHERE :email LIKE email LIMIT 1)" [ ":email" := email ] return $ head r userGroups :: Database -> Text -> Text -> Text -> Text -> IO [Text] userGroups db email domain path method = withResource db $ \c -> fmap SQLite.fromOnly <$> SQLite.queryNamed c [q| SELECT gm."group" FROM group_privilege gp JOIN group_member gm ON gm."group" = gp."group" WHERE :email LIKE gm.email AND :domain LIKE gp.domain AND gp.privilege IN ( SELECT privilege FROM privilege_rule WHERE :domain LIKE domain AND :path LIKE path AND method = :method ORDER BY length(path) - length(replace(path, '/', '')) DESC LIMIT 1 ) |] [ ":email" := email -- XXX always in lower case , ":domain" := toLower domain , ":path" := path , ":method" := method -- XXX case-sensitive by RFC2616 ] populate :: Database -> Maybe DataSource -> IO () populate db Nothing = do Log.warn "db: no data source defined" withResource db $ \c -> SQLite.withTransaction c $ do createGroupMember c createGroupPrivilege c createPrivilegeRule c -- XXX We keep only required minimum of the data, without any integrity check. -- XXX Integrity check should be done somewhere else, e. g. in the master PostgreSQL database, -- XXX or during importing the config file. populate db (Just (PostgreSQL connstr)) = void . forkIO . forever . flip finally (7 `minutes` threadDelay) . logException $ do Log.info $ "db: synchronizing with " ++ show connstr withResource db $ \c -> SQLite.withTransaction c $ bracket (PG.connectPostgreSQL $ pack connstr) PG.close $ \pg -> PG.withTransaction pg $ do Log.info "db: syncing group_member" dropGroupMember c createGroupMember c PG.forEach_ pg [q|SELECT "group", lower(email) FROM group_member|] $ \r -> SQLite.execute c [q|INSERT INTO group_member("group", email) VALUES (?, ?)|] (r :: (Text, Text)) count c "group_member" Log.info "db: syncing group_privilege" dropGroupPrivilege c createGroupPrivilege c PG.forEach_ pg [q|SELECT "group", lower(domain), privilege FROM group_privilege|] $ \r -> SQLite.execute c [q|INSERT INTO group_privilege("group", domain, privilege) VALUES (?, ?, ?)|] (r :: (Text, Text, Text)) count c "group_privilege" Log.info "db: syncing privilege_rule" dropPrivilegeRule c createPrivilegeRule c PG.forEach_ pg [q|SELECT lower(domain), privilege, path, method FROM privilege_rule|] $ \r -> SQLite.execute c [q|INSERT INTO privilege_rule(domain, privilege, path, method) VALUES (?, ?, ?, ?)|] (r :: (Text, Text, Text, Text)) count c "privilege_rule" dropGroupMember :: SQLite.Connection -> IO () dropGroupMember c = SQLite.execute_ c "DROP TABLE IF EXISTS group_member" createGroupMember :: SQLite.Connection -> IO () createGroupMember c = SQLite.execute_ c [q| CREATE TABLE IF NOT EXISTS group_member ( "group" TEXT, email TEXT, PRIMARY KEY ("group", email) ) |] dropGroupPrivilege :: SQLite.Connection -> IO () dropGroupPrivilege c = SQLite.execute_ c "DROP TABLE IF EXISTS group_privilege" createGroupPrivilege :: SQLite.Connection -> IO () createGroupPrivilege c = SQLite.execute_ c [q| CREATE TABLE IF NOT EXISTS group_privilege ( "group" TEXT, domain TEXT, privilege TEXT, PRIMARY KEY ("group", domain, privilege) ) |] dropPrivilegeRule :: SQLite.Connection -> IO () dropPrivilegeRule c = SQLite.execute_ c "DROP TABLE IF EXISTS privilege_rule" createPrivilegeRule :: SQLite.Connection -> IO () createPrivilegeRule c = SQLite.execute_ c [q| CREATE TABLE IF NOT EXISTS privilege_rule ( domain TEXT, privilege TEXT, path TEXT, method TEXT, PRIMARY KEY (domain, path, method) ) |] count :: SQLite.Connection -> String -> IO () count c table = do r <- fmap SQLite.fromOnly <$> SQLite.query_ c [qc|SELECT COUNT(*) FROM {table}|] Log.info $ "db: " ++ table ++ " rows: " ++ show (head r :: Integer) logException :: IO () -> IO () logException a = catch a $ \e -> Log.error $ "db: " ++ show (e :: SomeException) minutes :: Int -> (Int -> IO ()) -> IO () minutes us f = f $ us * 60 * 1000000