{- This file is part of ShellCheck. http://www.vidarholen.net/contents/shellcheck ShellCheck is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. ShellCheck is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more details. You should have received a copy of the GNU Affero General Public License along with this program. If not, see . -} {-# LANGUAGE NoMonomorphismRestriction #-} module ShellCheck.Parser (Note(..), Severity(..), parseShell, ParseResult(..), ParseNote(..), notesFromMap, Metadata(..), sortNotes) where import ShellCheck.AST import ShellCheck.Data import Text.Parsec import Debug.Trace import Control.Monad import Data.Char import Data.List (isPrefixOf, isInfixOf, isSuffixOf, partition, sortBy, intercalate, nub) import qualified Data.Map as Map import qualified Control.Monad.State as Ms import Data.Maybe import Prelude hiding (readList) import System.IO import Text.Parsec.Error import GHC.Exts (sortWith) lastError = 1074 backslash = char '\\' linefeed = (optional carriageReturn) >> char '\n' singleQuote = char '\'' <|> unicodeSingleQuote doubleQuote = char '"' <|> unicodeDoubleQuote variableStart = upper <|> lower <|> oneOf "_" variableChars = upper <|> lower <|> digit <|> oneOf "_" functionChars = variableChars <|> oneOf ":+-.?" specialVariable = oneOf "@*#?-$!" tokenDelimiter = oneOf "&|;<> \t\n\r" <|> nbsp quotableChars = "|&;<>()\\ '\t\n\r\xA0" ++ doubleQuotableChars quotable = nbsp <|> unicodeDoubleQuote <|> oneOf quotableChars bracedQuotable = oneOf "}\"$`'" doubleQuotableChars = "\"$`\x201C\x201D" doubleQuotable = unicodeDoubleQuote <|> oneOf doubleQuotableChars whitespace = oneOf " \t\n" <|> carriageReturn <|> nbsp linewhitespace = oneOf " \t" <|> nbsp extglobStartChars = "?*@!+" extglobStart = oneOf extglobStartChars prop_spacing = isOk spacing " \\\n # Comment" spacing = do x <- many (many1 linewhitespace <|> (try $ string "\\\n")) optional readComment return $ concat x prop_allspacing = isOk allspacing "#foo" prop_allspacing2 = isOk allspacing " #foo\n # bar\n#baz\n" prop_allspacing3 = isOk allspacing "#foo\n#bar\n#baz\n" allspacing = do s <- spacing more <- option False (linefeed >> return True) if more then do rest <- allspacing return $ s ++ "\n" ++ rest else return s allspacingOrFail = do s <- allspacing when (null s) $ fail "Expected spaces" unicodeDoubleQuote = do pos <- getPosition char '\x201C' <|> char '\x201D' parseProblemAt pos WarningC 1015 "This is a unicode double quote. Delete and retype it." return '"' unicodeSingleQuote = do pos <- getPosition char '\x2018' <|> char '\x2019' parseProblemAt pos WarningC 1016 "This is a unicode single quote. Delete and retype it." return '"' carriageReturn = do parseNote ErrorC 1017 "Literal carriage return. Run script through tr -d '\\r' ." char '\r' nbsp = do parseNote ErrorC 1018 "This is a  . Delete it and retype as space." char '\xA0' return ' ' --------- Message/position annotation on top of user state data Note = Note Severity Code String deriving (Show, Eq) data ParseNote = ParseNote SourcePos Severity Code String deriving (Show, Eq) data Metadata = Metadata SourcePos [Note] deriving (Show) data Severity = ErrorC | WarningC | InfoC | StyleC deriving (Show, Eq, Ord) data Context = ContextName SourcePos String | ContextAnnotation [Annotation] type Code = Integer codeForNote (Note _ code _) = code codeForParseNote (ParseNote _ _ code _) = code initialState = (Id $ -1, Map.empty, []) getInitialMeta pos = Metadata pos [] getLastId = do (id, _, _) <- getState return id getNextIdAt sourcepos = do (id, map, notes) <- getState let newId = incId id let newMap = Map.insert newId (getInitialMeta sourcepos) map putState (newId, newMap, notes) return newId where incId (Id n) = (Id $ n+1) getNextId = do pos <- getPosition getNextIdAt pos modifyMap f = do (id, map, parsenotes) <- getState putState (id, f map, parsenotes) getMap = do (_, map, _) <- getState return map getParseNotes = do (_, _, notes) <- getState return notes addParseNote n = do irrelevant <- shouldIgnoreCode (codeForParseNote n) when (not irrelevant) $ do (a, b, notes) <- getState putState (a, b, n:notes) shouldIgnoreCode code = do context <- getCurrentContexts return $ any disabling context where disabling (ContextAnnotation list) = any disabling' list disabling _ = False disabling' (DisableComment n) = code == n -- Store potential parse problems outside of parsec parseProblem level code msg = do pos <- getPosition parseProblemAt pos level code msg setCurrentContexts c = do Ms.modify (\(list, _) -> (list, c)) getCurrentContexts = do (_, context) <- Ms.get return context popContext = do v <- getCurrentContexts if not $ null v then do let (a:r) = v setCurrentContexts r return [a] else return [] pushContext c = do v <- getCurrentContexts setCurrentContexts (c:v) parseProblemAt pos level code msg = do irrelevant <- shouldIgnoreCode code when (not irrelevant) $ Ms.modify (\(list, current) -> ((ParseNote pos level code msg):list, current)) -- Store non-parse problems inside addNoteFor id note = modifyMap $ Map.adjust (\(Metadata pos notes) -> Metadata pos (note:notes)) id addNote note = do id <- getLastId addNoteFor id note parseNote c l a = do pos <- getPosition parseNoteAt pos c l a parseNoteAt pos c l a = addParseNote $ ParseNote pos c l a --------- Convenient combinators thenSkip main follow = do r <- main optional follow return r unexpecting s p = try $ do (try p >> unexpected s) <|> return () notFollowedBy2 = unexpecting "keyword/token" disregard x = x >> return () reluctantlyTill p end = do (lookAhead ((disregard $ try end) <|> eof) >> return []) <|> do x <- p more <- reluctantlyTill p end return $ x:more <|> return [] reluctantlyTill1 p end = do notFollowedBy2 end x <- p more <- reluctantlyTill p end return $ x:more attempting rest branch = do ((try branch) >> rest) <|> rest orFail parser stuff = do try (disregard parser) <|> (disregard stuff >> fail "nope") wasIncluded p = option False (p >> return True) acceptButWarn parser level code note = do optional $ try (do pos <- getPosition parser parseProblemAt pos level code note ) withContext entry p = do pushContext entry do v <- p popContext return v <|> do -- p failed without consuming input, abort context popContext fail $ "" called s p = do pos <- getPosition withContext (ContextName pos s) p withAnnotations anns p = withContext (ContextAnnotation anns) p readConditionContents single = do readCondContents `attempting` (lookAhead $ do pos <- getPosition s <- many1 letter when (s `elem` commonCommands) $ parseProblemAt pos WarningC 1009 "Use 'if cmd; then ..' to check exit code, or 'if [[ $(cmd) == .. ]]' to check output.") where typ = if single then SingleBracket else DoubleBracket readCondBinaryOp = try $ do id <- getNextId op <- (choice $ (map tryOp ["==", "!=", "<=", ">=", "=~", ">", "<", "=", "\\<=", "\\>=", "\\<", "\\>"])) <|> otherOp hardCondSpacing return op where tryOp s = try $ do id <- getNextId string s return $ TC_Binary id typ s otherOp = try $ do id <- getNextId s <- readOp when (s == "-a" || s == "-o") $ fail "Wrong operator" return $ TC_Binary id typ s readCondUnaryExp = do op <- readCondUnaryOp pos <- getPosition (do arg <- readCondWord return $ op arg) <|> (do parseProblemAt pos ErrorC 1019 $ "Expected this to be an argument to the unary condition." fail "oops") readCondUnaryOp = try $ do id <- getNextId s <- readOp hardCondSpacing return $ TC_Unary id typ s readOp = try $ do char '-' s <- many1 letter return ('-':s) readCondWord = do notFollowedBy2 (try (spacing >> (string "]"))) x <- readNormalWord pos <- getPosition when (endedWith "]" x) $ do parseProblemAt pos ErrorC 1020 $ "You need a space before the " ++ (if single then "]" else "]]") ++ "." when (single && endedWith ")" x) $ do parseProblemAt pos ErrorC 1021 $ "You need a space before the \\)" disregard spacing return x where endedWith str (T_NormalWord id s@(_:_)) = case (last s) of T_Literal id s -> str `isSuffixOf` s _ -> False endedWith _ _ = False readCondAndOp = do id <- getNextId x <- try (string "&&" <|> string "-a") when (single && x == "&&") $ addNoteFor id $ Note ErrorC 1022 "You can't use && inside [..]. Use [[..]] instead." when (not single && x == "-a") $ addNoteFor id $ Note ErrorC 1023 "In [[..]], use && instead of -a." softCondSpacing return $ TC_And id typ x readCondOrOp = do id <- getNextId x <- try (string "||" <|> string "-o") when (single && x == "||") $ addNoteFor id $ Note ErrorC 1024 "You can't use || inside [..]. Use [[..]] instead." when (not single && x == "-o") $ addNoteFor id $ Note ErrorC 1025 "In [[..]], use || instead of -o." softCondSpacing return $ TC_Or id typ x readCondNoaryOrBinary = do id <- getNextId x <- readCondWord `attempting` (do pos <- getPosition lookAhead (char '[') parseProblemAt pos ErrorC 1026 $ if single then "If grouping expressions inside [..], use \\( ..\\)." else "If grouping expressions inside [[..]], use ( .. )." ) (do pos <- getPosition isRegex <- regexOperatorAhead op <- readCondBinaryOp y <- if isRegex then readRegex else readCondWord <|> ( (parseProblemAt pos ErrorC 1027 $ "Expected another argument for this operator.") >> mzero) return (x `op` y) ) <|> (return $ TC_Noary id typ x) readCondGroup = do id <- getNextId pos <- getPosition lparen <- try $ string "(" <|> string "\\(" when (single && lparen == "(") $ parseProblemAt pos ErrorC 1028 "In [..] you have to escape (). Use [[..]] instead." when (not single && lparen == "\\(") $ parseProblemAt pos ErrorC 1029 "In [[..]] you shouldn't escape ()." if single then hardCondSpacing else disregard spacing x <- readCondContents cpos <- getPosition rparen <- string ")" <|> string "\\)" if single then hardCondSpacing else disregard spacing when (single && rparen == ")") $ parseProblemAt cpos ErrorC 1030 "In [..] you have to escape (). Use [[..]] instead." when (not single && rparen == "\\)") $ parseProblemAt cpos ErrorC 1031 "In [[..]] you shouldn't escape ()." when (isEscaped lparen `xor` isEscaped rparen) $ parseProblemAt pos ErrorC 1032 "Did you just escape one half of () but not the other?" return $ TC_Group id typ x where isEscaped ('\\':_) = True isEscaped _ = False xor x y = x && not y || not x && y -- Currently a bit of a hack since parsing rules are obscure regexOperatorAhead = (lookAhead $ do try (string "=~") <|> try (string "~=") return True) <|> return False readRegex = called "regex" $ do id <- getNextId parts <- many1 ( readGroup <|> readSingleQuoted <|> readDoubleQuoted <|> readDollarExpression <|> readNormalLiteral "( " <|> readPipeLiteral <|> readGlobLiteral) disregard spacing return $ T_NormalWord id parts where readGlobLiteral = do id <- getNextId s <- many1 (extglobStart <|> oneOf "[]$") return $ T_Literal id s readGroup = called "regex grouping" $ do id <- getNextId char '(' parts <- many (readGroup <|> readSingleQuoted <|> readDoubleQuoted <|> readDollarExpression <|> readRegexLiteral <|> readGlobLiteral) char ')' return $ T_NormalWord id parts readRegexLiteral = do id <- getNextId str <- readGenericLiteral1 (singleQuote <|> doubleQuotable <|> oneOf "()") return $ T_Literal id str readPipeLiteral = do id <- getNextId str <- string "|" return $ T_Literal id str readCondTerm = readCondNot <|> readCondExpr readCondNot = do id <- getNextId char '!' softCondSpacing expr <- readCondExpr return $ TC_Unary id typ "!" expr readCondExpr = readCondGroup <|> readCondUnaryExp <|> readCondNoaryOrBinary readCondOr = chainl1 readCondAnd readCondAndOp readCondAnd = chainl1 readCondTerm readCondOrOp readCondContents = readCondOr prop_a1 = isOk readArithmeticContents " n++ + ++c" prop_a2 = isOk readArithmeticContents "$N*4-(3,2)" prop_a3 = isOk readArithmeticContents "n|=2<<1" prop_a4 = isOk readArithmeticContents "n &= 2 **3" prop_a5 = isOk readArithmeticContents "1 |= 4 && n >>= 4" prop_a6 = isOk readArithmeticContents " 1 | 2 ||3|4" prop_a7 = isOk readArithmeticContents "3*2**10" prop_a8 = isOk readArithmeticContents "3" prop_a9 = isOk readArithmeticContents "a^!-b" prop_aA = isOk readArithmeticContents "! $?" prop_aB = isOk readArithmeticContents "10#08 * 16#f" prop_aC = isOk readArithmeticContents "\"$((3+2))\" + '37'" prop_aD = isOk readArithmeticContents "foo[9*y+x]++" readArithmeticContents = readSequence where spacing = many whitespace splitBy x ops = chainl1 x (readBinary ops) readBinary ops = readComboOp ops TA_Binary readComboOp op token = do id <- getNextId op <- choice (map (\x -> try $ do s <- string x notFollowedBy2 $ oneOf "&|<>=" return s ) op) spacing return $ token id op readVar = do id <- getNextId x <- readVariableName y <- readArrayIndex <|> return "" optional spacing return $ TA_Variable id (x ++ y) -- Doesn't help with foo[foo] readArrayIndex = do char '[' x <- many1 $ noneOf "]" char ']' return $ "[" ++ x ++ "]" readExpansion = do id <- getNextId x <- readNormalDollar spacing return $ TA_Expansion id x readGroup = do char '(' s <- readSequence char ')' spacing return s readNumber = do id <- getNextId num <- many1 $ oneOf "0123456789." return $ TA_Literal id (num) readBased = getArbitrary <|> getHex <|> getOct where getThing prefix litchars = try $ do id <- getNextId x <- prefix t <- readExpansion <|> (do i <- getNextId stuff <- many1 litchars return $ TA_Literal i stuff) return $ TA_Base id x t getArbitrary = getThing arbitrary variableChars getHex = getThing hex hexDigit getOct = getThing oct digit arbitrary = try $ do b <- many1 digit s <- char '#' return (b ++ [s]) hex = try $ do z <- char '0' x <- oneOf "xX" return (z:x:[]) oct = string "0" readArithTerm = readBased <|> readArithTermUnit readArithTermUnit = readGroup <|> readExpansion <|> readQuoted <|> readNumber <|> readVar readQuoted = readDoubleQuoted <|> readSingleQuoted readSequence = do spacing id <- getNextId l <- readAssignment `sepBy` (char ',' >> spacing) return $ TA_Sequence id l readAssignment = readTrinary `splitBy` ["=", "*=", "/=", "%=", "+=", "-=", "<<=", ">>=", "&=", "^=", "|="] readTrinary = do let part = readLogicalOr x <- part do id <- getNextId string "?" spacing y <- part string ":" spacing z <- part return $ TA_Trinary id x y z <|> return x readLogicalOr = readLogicalAnd `splitBy` ["||"] readLogicalAnd = readBitOr `splitBy` ["&&"] readBitOr = readBitXor `splitBy` ["|"] readBitXor = readBitAnd `splitBy` ["^"] readBitAnd = readEquated `splitBy` ["&"] readEquated = readCompared `splitBy` ["==", "!="] readCompared = readShift `splitBy` ["<=", ">=", "<", ">"] readShift = readAddition `splitBy` ["<<", ">>"] readAddition = readMultiplication `splitBy` ["+", "-"] readMultiplication = readExponential `splitBy` ["*", "/", "%"] readExponential = readAnyNegated `splitBy` ["**"] readAnyNegated = readNegated <|> readAnySigned readNegated = do id <- getNextId op <- oneOf "!~" spacing x <- readAnySigned return $ TA_Unary id [op] x readAnySigned = readSigned <|> readAnycremented readSigned = do id <- getNextId op <- choice (map readSignOp "+-") spacing x <- readAnycremented return $ TA_Unary id [op] x where readSignOp c = try $ do char c notFollowedBy2 $ char c spacing return c readAnycremented = readNormalOrPostfixIncremented <|> readPrefixIncremented readPrefixIncremented = do id <- getNextId op <- try $ string "++" <|> string "--" spacing x <- readArithTerm return $ TA_Unary id (op ++ "|") x readNormalOrPostfixIncremented = do x <- readArithTerm spacing do id <- getNextId op <- try $ string "++" <|> string "--" spacing return $ TA_Unary id ("|" ++ op) x <|> return x prop_readCondition = isOk readCondition "[ \\( a = b \\) -a \\( c = d \\) ]" prop_readCondition2 = isOk readCondition "[[ (a = b) || (c = d) ]]" prop_readCondition3 = isOk readCondition "[[ $c = [[:alpha:].~-] ]]" prop_readCondition4 = isOk readCondition "[[ $c =~ *foo* ]]" prop_readCondition5 = isOk readCondition "[[ $c =~ f( ]] )* ]]" prop_readCondition5a= isOk readCondition "[[ $c =~ a(b) ]]" prop_readCondition5b= isOk readCondition "[[ $c =~ f( ($var ]]) )* ]]" prop_readCondition6 = isOk readCondition "[[ $c =~ ^[yY]$ ]]" prop_readCondition7 = isOk readCondition "[[ ${line} =~ ^[[:space:]]*# ]]" prop_readCondition8 = isOk readCondition "[[ $l =~ ogg|flac ]]" prop_readCondition9 = isOk readCondition "[ foo -a -f bar ]" readCondition = called "test expression" $ do opos <- getPosition id <- getNextId open <- (try $ string "[[") <|> (string "[") let single = open == "[" condSpacingMsg False $ if single then "You need spaces after the opening [ and before the closing ]." else "You need spaces after the opening [[ and before the closing ]]." condition <- readConditionContents single cpos <- getPosition close <- (try $ string "]]") <|> (string "]") when (open == "[[" && close /= "]]") $ parseProblemAt cpos ErrorC 1033 "Did you mean ]] ?" when (open == "[" && close /= "]" ) $ parseProblemAt opos ErrorC 1034 "Did you mean [[ ?" spacing many readCmdWord -- Read and throw away remainders to get then/do warnings. Fixme? return $ T_Condition id (if single then SingleBracket else DoubleBracket) condition hardCondSpacing = condSpacingMsg False "You need a space here." softCondSpacing = condSpacingMsg True "You need a space here." condSpacingMsg soft msg = do pos <- getPosition space <- spacing when (null space) $ (if soft then parseNoteAt else parseProblemAt) pos ErrorC 1035 msg readAnnotationPrefix = do char '#' many linewhitespace string "shellcheck" prop_readAnnotation1 = isOk readAnnotation "# shellcheck disable=1234,5678\n" prop_readAnnotation2 = isOk readAnnotation "# shellcheck disable=SC1234 disable=SC5678\n" readAnnotation = called "shellcheck annotation" $ do try readAnnotationPrefix many1 linewhitespace values <- many1 (readDisable) linefeed many linewhitespace return $ concat values where readDisable = forKey "disable" $ do readCode `sepBy` char ',' where readCode = do optional $ string "SC" int <- many1 digit return $ DisableComment (read int) forKey s p = do try $ string s char '=' value <- p many linewhitespace return value readAnnotations = do annotations <- many (readAnnotation `thenSkip` allspacing) return $ concat annotations readComment = do unexpecting "shellcheck annotation" readAnnotationPrefix char '#' many $ noneOf "\r\n" prop_readNormalWord = isOk readNormalWord "'foo'\"bar\"{1..3}baz$(lol)" prop_readNormalWord2 = isOk readNormalWord "foo**(foo)!!!(@@(bar))" prop_readNormalWord3 = isOk readNormalWord "foo#" prop_readNormalWord4 = isOk readNormalWord "$\"foo\"$'foo\nbar'" readNormalWord = readNormalishWord "" readNormalishWord end = do id <- getNextId pos <- getPosition x <- many1 (readNormalWordPart end) checkPossibleTermination pos x return $ T_NormalWord id x checkPossibleTermination pos [T_Literal _ x] = if x `elem` ["do", "done", "then", "fi", "esac", "}"] then parseProblemAt pos WarningC 1010 $ "Use semicolon or linefeed before '" ++ x ++ "' (or quote to make it literal)." else return () checkPossibleTermination _ _ = return () readNormalWordPart end = do checkForParenthesis readSingleQuoted <|> readDoubleQuoted <|> readGlob <|> readNormalDollar <|> readBraced <|> readBackTicked <|> readProcSub <|> (readNormalLiteral end) where checkForParenthesis = do return () `attempting` do pos <- getPosition lookAhead $ char '(' parseProblemAt pos ErrorC 1036 "'(' is invalid here. Did you forget to escape it?" readSpacePart = do id <- getNextId x <- many1 whitespace return $ T_Literal id x readDollarBracedWord = do id <- getNextId list <- many readDollarBracedPart return $ T_NormalWord id list readDollarBracedPart = readSingleQuoted <|> readDoubleQuoted <|> readExtglob <|> readNormalDollar <|> readBackTicked <|> readDollarBracedLiteral readDollarBracedLiteral = do id <- getNextId vars <- (readBraceEscaped <|> (anyChar >>= \x -> return [x])) `reluctantlyTill1` bracedQuotable return $ T_Literal id $ concat vars prop_readProcSub1 = isOk readProcSub "<(echo test | wc -l)" prop_readProcSub2 = isOk readProcSub "<( if true; then true; fi )" readProcSub = called "process substitution" $ do id <- getNextId dir <- try $ do x <- oneOf "<>" char '(' return [x] allspacing list <- readCompoundList allspacing char ')' return $ T_ProcSub id dir list prop_readSingleQuoted = isOk readSingleQuoted "'foo bar'" prop_readSingleQuoted2 = isWarning readSingleQuoted "'foo bar\\'" prop_readsingleQuoted3 = isWarning readSingleQuoted "\x2018hello\x2019" readSingleQuoted = called "single quoted string" $ do id <- getNextId singleQuote s <- readSingleQuotedPart `reluctantlyTill` singleQuote pos <- getPosition singleQuote "end of single quoted string" let string = concat s return (T_SingleQuoted id string) `attempting` do x <- lookAhead anyChar when (isAlpha x && not (null string) && isAlpha (last string)) $ parseProblemAt pos WarningC 1011 "This apostrophe terminated the single quoted string!" readSingleQuotedLiteral = do singleQuote strs <- many1 readSingleQuotedPart singleQuote return $ concat strs readSingleQuotedPart = readSingleEscaped <|> (many1 $ noneOf "'\\\x2018\x2019") prop_readBackTicked = isOk readBackTicked "`ls *.mp3`" prop_readBackTicked2 = isOk readBackTicked "`grep \"\\\"\"`" readBackTicked = called "backtick expansion" $ do id <- getNextId pos <- getPosition char '`' subStart <- getPosition subString <- readGenericLiteral "`" char '`' -- Result positions may be off due to escapes result <- subParse subStart readCompoundList (unEscape subString) return $ T_Backticked id result where unEscape [] = [] unEscape ('\\':x:rest) | x `elem` "$`\\" = x : unEscape rest unEscape ('\\':'\n':rest) = unEscape rest unEscape (c:rest) = c : unEscape rest subParse pos parser input = do lastPosition <- getPosition lastInput <- getInput setPosition pos setInput input result <- parser setInput lastInput setPosition lastPosition return result prop_readDoubleQuoted = isOk readDoubleQuoted "\"Hello $FOO\"" prop_readDoubleQuoted2 = isOk readDoubleQuoted "\"$'\"" prop_readDoubleQuoted3 = isWarning readDoubleQuoted "\x201Chello\x201D" readDoubleQuoted = called "double quoted string" $ do id <- getNextId doubleQuote x <- many doubleQuotedPart doubleQuote "end of double quoted string" return $ T_DoubleQuoted id x doubleQuotedPart = readDoubleLiteral <|> readDoubleQuotedDollar <|> readBackTicked readDoubleQuotedLiteral = do doubleQuote x <- readDoubleLiteral doubleQuote return x readDoubleLiteral = do id <- getNextId s <- many1 readDoubleLiteralPart return $ T_Literal id (concat s) readDoubleLiteralPart = do x <- many1 $ (readDoubleEscaped <|> (many1 $ noneOf ('\\':doubleQuotableChars))) return $ concat x readNormalLiteral end = do id <- getNextId s <- many1 (readNormalLiteralPart end) return $ T_Literal id (concat s) prop_readGlob1 = isOk readGlob "*" prop_readGlob2 = isOk readGlob "[^0-9]" prop_readGlob3 = isOk readGlob "[a[:alpha:]]" prop_readGlob4 = isOk readGlob "[[:alnum:]]" prop_readGlob5 = isOk readGlob "[^[:alpha:]1-9]" readGlob = readExtglob <|> readSimple <|> readClass <|> readGlobbyLiteral where readSimple = do id <- getNextId c <- oneOf "*?" return $ T_Glob id [c] -- Doesn't handle weird things like [^]a] and [$foo]. fixme? readClass = try $ do id <- getNextId char '[' s <- many1 (predefined <|> (liftM return $ letter <|> digit <|> oneOf globchars)) char ']' return $ T_Glob id $ "[" ++ (concat s) ++ "]" where globchars = "^-_:?*.,!~@#$%=+{}/~" predefined = do try $ string "[:" s <- many1 letter string ":]" return $ "[:" ++ s ++ ":]" readGlobbyLiteral = do id <- getNextId c <- extglobStart <|> char '[' return $ T_Literal id [c] readNormalLiteralPart end = do readNormalEscaped <|> (many1 $ noneOf (end ++ quotableChars ++ extglobStartChars ++ "[")) readNormalEscaped = called "escaped char" $ do pos <- getPosition backslash do next <- (quotable <|> oneOf "?*@!+[]{}.,") return $ if next == '\n' then "" else [next] <|> do next <- anyChar case escapedChar next of Just name -> parseNoteAt pos WarningC 1012 $ "\\" ++ [next] ++ " is just literal '" ++ [next] ++ "' here. For " ++ name ++ ", use \"$(printf \"\\" ++ [next] ++ "\")\"." Nothing -> parseNoteAt pos InfoC 1001 $ "This \\" ++ [next] ++ " will be a regular '" ++ [next] ++ "' in this context." return [next] where escapedChar 'n' = Just "line feed" escapedChar 't' = Just "tab" escapedChar 'r' = Just "carriage return" escapedChar _ = Nothing prop_readExtglob1 = isOk readExtglob "!(*.mp3)" prop_readExtglob2 = isOk readExtglob "!(*.mp3|*.wmv)" prop_readExtglob4 = isOk readExtglob "+(foo \\) bar)" prop_readExtglob5 = isOk readExtglob "+(!(foo *(bar)))" prop_readExtglob6 = isOk readExtglob "*(((||))|())" prop_readExtglob7 = isOk readExtglob "*(<>)" prop_readExtglob8 = isOk readExtglob "@(|*())" readExtglob = called "extglob" $ do id <- getNextId c <- try $ do f <- extglobStart char '(' return f contents <- readExtglobPart `sepBy` (char '|') char ')' return $ T_Extglob id [c] contents readExtglobPart = do id <- getNextId x <- many (readExtglobGroup <|> readNormalWordPart "" <|> readSpacePart <|> readExtglobLiteral) return $ T_NormalWord id x where readExtglobGroup = do id <- getNextId char '(' contents <- readExtglobPart `sepBy` (char '|') char ')' return $ T_Extglob id "" contents readExtglobLiteral = do id <- getNextId str <- many1 (oneOf "<>#;&") return $ T_Literal id str readSingleEscaped = do s <- backslash let attempt level code p msg = do { try $ parseNote level code msg; x <- p; return [s,x]; } do { x <- lookAhead singleQuote; parseProblem InfoC 1003 "Are you trying to escape that single quote? echo 'You'\\''re doing it wrong'."; return [s]; } <|> attempt InfoC 1004 linefeed "You don't break lines with \\ in single quotes, it results in literal backslash-linefeed." <|> do x <- anyChar return [s,x] readDoubleEscaped = do bs <- backslash (linefeed >> return "") <|> (doubleQuotable >>= return . return) <|> (anyChar >>= (return . \x -> [bs, x])) readBraceEscaped = do bs <- backslash (linefeed >> return "") <|> (bracedQuotable >>= return . return) <|> (anyChar >>= (return . \x -> [bs, x])) readGenericLiteral endChars = do strings <- many (readGenericEscaped <|> (many1 $ noneOf ('\\':endChars))) return $ concat strings readGenericLiteral1 endExp = do strings <- (readGenericEscaped <|> (anyChar >>= \x -> return [x])) `reluctantlyTill1` endExp return $ concat strings readGenericEscaped = do backslash x <- anyChar return $ if x == '\n' then [] else ['\\', x] prop_readBraced = isOk readBraced "{1..4}" prop_readBraced2 = isOk readBraced "{foo,bar,\"baz lol\"}" readBraced = try $ do let strip (T_Literal _ s) = return ("\"" ++ s ++ "\"") id <- getNextId char '{' str <- many1 ((readDoubleQuotedLiteral >>= (strip)) <|> readGenericLiteral1 (oneOf "}\"" <|> whitespace)) char '}' return $ T_BraceExpansion id $ concat str readNormalDollar = readDollarExpression <|> readDollarDoubleQuote <|> readDollarSingleQuote <|> readDollarLonely readDoubleQuotedDollar = readDollarExpression <|> readDollarLonely readDollarExpression = readDollarArithmetic <|> readDollarBracket <|> readDollarBraced <|> readDollarExpansion <|> readDollarVariable prop_readDollarSingleQuote = isOk readDollarSingleQuote "$'foo\\\'lol'" readDollarSingleQuote = called "$'..' expression" $ do id <- getNextId try $ string "$'" str <- readGenericLiteral "'" char '\'' return $ T_DollarSingleQuoted id str prop_readDollarDoubleQuote = isOk readDollarDoubleQuote "$\"hello\"" readDollarDoubleQuote = do lookAhead . try $ string "$\"" id <- getNextId char '$' doubleQuote x <- many doubleQuotedPart doubleQuote "end of translated double quoted string" return $ T_DollarDoubleQuoted id x prop_readDollarArithmetic = isOk readDollarArithmetic "$(( 3 * 4 +5))" prop_readDollarArithmetic2 = isOk readDollarArithmetic "$(((3*4)+(1*2+(3-1))))" readDollarArithmetic = called "$((..)) expression" $ do id <- getNextId try (string "$((") c <- readArithmeticContents string "))" return (T_DollarArithmetic id c) readDollarBracket = called "$[..] expression" $ do id <- getNextId try (string "$[") c <- readArithmeticContents string "]" return (T_DollarBracket id c) readArithmeticExpression = called "((..)) command" $ do id <- getNextId try (string "((") c <- readArithmeticContents string "))" return (T_Arithmetic id c) prop_readDollarBraced1 = isOk readDollarBraced "${foo//bar/baz}" prop_readDollarBraced2 = isOk readDollarBraced "${foo/'{cow}'}" prop_readDollarBraced3 = isOk readDollarBraced "${foo%%$(echo cow})}" prop_readDollarBraced4 = isOk readDollarBraced "${foo#\\}}" readDollarBraced = called "parameter expansion" $ do id <- getNextId try (string "${") word <- readDollarBracedWord char '}' return $ T_DollarBraced id word prop_readDollarExpansion = isOk readDollarExpansion "$(echo foo; ls\n)" readDollarExpansion = called "command expansion" $ do id <- getNextId try (string "$(") cmds <- readCompoundList char ')' "end of $(..) expression" return $ (T_DollarExpansion id cmds) prop_readDollarVariable = isOk readDollarVariable "$@" readDollarVariable = do id <- getNextId let singleCharred p = do n <- p value <- wrap [n] return (T_DollarBraced id value) `attempting` do pos <- getPosition num <- lookAhead $ many1 p parseNoteAt pos ErrorC 1037 $ "$" ++ (n:num) ++ " is equivalent to ${" ++ [n] ++ "}"++ num ++"." let positional = singleCharred digit let special = singleCharred specialVariable let regular = do name <- readVariableName value <- wrap name return $ T_DollarBraced id value try $ char '$' >> (positional <|> special <|> regular) where wrap s = do x <- getNextId y <- getNextId return $ T_NormalWord x [T_Literal y s] readVariableName = do f <- variableStart rest <- many variableChars return (f:rest) readDollarLonely = do id <- getNextId pos <- getPosition char '$' n <- lookAhead (anyChar <|> (eof >> return '_')) when (n /= '\'') $ parseNoteAt pos StyleC 1000 "$ is not used specially and should therefore be escaped." return $ T_Literal id "$" prop_readHereDoc = isOk readHereDoc "<< foo\nlol\ncow\nfoo" prop_readHereDoc2 = isWarning readHereDoc "<<- EOF\n cow\n EOF" prop_readHereDoc3 = isOk readHereDoc "<< foo\n$\"\nfoo" prop_readHereDoc4 = isOk readHereDoc "<< foo\n`\nfoo" prop_readHereDoc5 = isOk readHereDoc "<<- !foo\nbar\n!foo" prop_readHereDoc6 = isOk readHereDoc "<< foo\\ bar\ncow\nfoo bar" readHereDoc = called "here document" $ do fid <- getNextId pos <- getPosition try $ string "<<" dashed <- (char '-' >> return Dashed) <|> return Undashed tokenPosition <- getPosition sp <- spacing optional $ do try . lookAhead $ char '(' let message = "Shells are space sensitive. Use '< <(cmd)', not '<<" ++ sp ++ "(cmd)'." parseProblemAt pos ErrorC 1038 message hid <- getNextId (quoted, endToken) <- (readDoubleQuotedLiteral >>= return . (\x -> (Quoted, stripLiteral x))) <|> (readSingleQuotedLiteral >>= return . (\x -> (Quoted, x))) <|> (readToken >>= (\x -> return (Unquoted, x))) spacing startPos <- getPosition hereData <- anyChar `reluctantlyTill` do linefeed spacing string endToken disregard linefeed <|> eof do linefeed spaces <- spacing verifyHereDoc dashed quoted spaces hereData string endToken parsedData <- parseHereData quoted startPos hereData return $ T_FdRedirect fid "" $ T_HereDoc hid dashed quoted endToken parsedData `attempting` (eof >> debugHereDoc tokenPosition endToken hereData) where stripLiteral (T_Literal _ x) = x stripLiteral (T_SingleQuoted _ x) = x readToken = do liftM concat $ many1 (escaped <|> quoted <|> normal) where quoted = liftM stripLiteral readDoubleQuotedLiteral <|> readSingleQuotedLiteral normal = anyChar `reluctantlyTill1` (whitespace <|> oneOf ";&)'\"\\") escaped = do -- surely the user must be doing something wrong at this point char '\\' c <- anyChar return [c] parseHereData Quoted startPos hereData = do id <- getNextIdAt startPos return $ [T_Literal id hereData] parseHereData Unquoted startPos hereData = do subParse startPos readHereData hereData readHereData = many $ try readNormalDollar <|> try readBackTicked <|> readHereLiteral readHereLiteral = do id <- getNextId chars <- many1 $ noneOf "`$" return $ T_Literal id chars verifyHereDoc dashed quoted spacing hereInfo = do when (dashed == Undashed && spacing /= "") $ parseNote ErrorC 1039 "Use <<- instead of << if you want to indent the end token." when (dashed == Dashed && filter (/= '\t') spacing /= "" ) $ parseNote ErrorC 1040 "When using <<-, you can only indent with tabs." return () debugHereDoc pos endToken doc = if endToken `isInfixOf` doc then let lookAt line = when (endToken `isInfixOf` line) $ parseProblemAt pos ErrorC 1041 ("Close matches include '" ++ line ++ "' (!= '" ++ endToken ++ "').") in do parseProblemAt pos ErrorC 1042 ("Found '" ++ endToken ++ "' further down, but not entirely by itself.") mapM_ lookAt (lines doc) else if (map toLower endToken) `isInfixOf` (map toLower doc) then parseProblemAt pos ErrorC 1043 ("Found " ++ endToken ++ " further down, but with wrong casing.") else parseProblemAt pos ErrorC 1044 ("Couldn't find end token `" ++ endToken ++ "' in the here document.") readFilename = readNormalWord readIoFileOp = choice [g_LESSAND, g_GREATAND, g_DGREAT, g_LESSGREAT, g_CLOBBER, redirToken '<' T_Less, redirToken '>' T_Greater ] prop_readIoFile = isOk readIoFile ">> \"$(date +%YYmmDD)\"" readIoFile = called "redirection" $ do id <- getNextId op <- readIoFileOp spacing file <- readFilename return $ T_FdRedirect id "" $ T_IoFile id op file readIoNumber = try $ do x <- many1 digit <|> string "&" lookAhead readIoFileOp return x prop_readIoNumberRedirect = isOk readIoNumberRedirect "3>&2" prop_readIoNumberRedirect2 = isOk readIoNumberRedirect "2> lol" prop_readIoNumberRedirect3 = isOk readIoNumberRedirect "4>&-" prop_readIoNumberRedirect4 = isOk readIoNumberRedirect "&> lol" readIoNumberRedirect = do id <- getNextId n <- readIoNumber op <- readHereString <|> readHereDoc <|> readIoFile let actualOp = case op of T_FdRedirect _ "" x -> x spacing return $ T_FdRedirect id n actualOp readIoRedirect = choice [ readIoNumberRedirect, readHereString, readHereDoc, readIoFile ] `thenSkip` spacing readRedirectList = many1 readIoRedirect prop_readHereString = isOk readHereString "<<< \"Hello $world\"" readHereString = called "here string" $ do id <- getNextId try $ string "<<<" spacing id2 <- getNextId word <- readNormalWord return $ T_FdRedirect id "" $ T_HereString id2 word readNewlineList = many1 ((newline <|> carriageReturn) `thenSkip` spacing) readLineBreak = optional readNewlineList prop_roflol = isWarning readScript "a &; b" prop_roflol2 = isOk readScript "a & b" readSeparatorOp = do notFollowedBy2 (g_AND_IF <|> g_DSEMI) notFollowedBy2 (string "&>") f <- (try $ do char '&' spacing pos <- getPosition char ';' parseProblemAt pos ErrorC 1045 "It's not 'foo &; bar', just 'foo & bar'." return '&' ) <|> char ';' <|> char '&' spacing return f readSequentialSep = (disregard $ g_Semi >> readLineBreak) <|> (disregard readNewlineList) readSeparator = do separator <- readSeparatorOp readLineBreak return separator <|> do readNewlineList return '\n' makeSimpleCommand id1 id2 prefix cmd suffix = let (preAssigned, preRest) = partition assignment prefix (preRedirected, preRest2) = partition redirection preRest (postRedirected, postRest) = partition redirection suffix redirs = preRedirected ++ postRedirected assigns = preAssigned args = cmd ++ preRest2 ++ postRest in T_Redirecting id1 redirs $ T_SimpleCommand id2 assigns args where assignment (T_Assignment _ _ _ _ _) = True assignment _ = False redirection (T_FdRedirect _ _ _) = True redirection _ = False prop_readSimpleCommand = isOk readSimpleCommand "echo test > file" prop_readSimpleCommand2 = isOk readSimpleCommand "cmd &> file" prop_readSimpleCommand3 = isOk readSimpleCommand "export foo=(bar baz)" prop_readSimpleCommand4 = isOk readSimpleCommand "typeset -a foo=(lol)" prop_readSimpleCommand5 = isOk readSimpleCommand "time if true; then echo foo; fi" prop_readSimpleCommand6 = isOk readSimpleCommand "time -p ( ls -l; )" readSimpleCommand = called "simple command" $ do id1 <- getNextId id2 <- getNextId prefix <- option [] readCmdPrefix cmd <- option Nothing $ do { f <- readCmdName; return $ Just f; } when (null prefix && isNothing cmd) $ fail "No command" case cmd of Nothing -> return $ makeSimpleCommand id1 id2 prefix [] [] Just cmd -> do suffix <- option [] $ if isModifierCommand cmd then readModifierSuffix else if isTimeCommand cmd then readTimeSuffix else readCmdSuffix return $ makeSimpleCommand id1 id2 prefix [cmd] suffix where isModifierCommand (T_NormalWord _ [T_Literal _ s]) = s `elem` ["declare", "export", "local", "readonly", "typeset"] isModifierCommand _ = False -- Might not belong in T_SimpleCommand. Fixme? isTimeCommand (T_NormalWord _ [T_Literal _ "time"]) = True isTimeCommand _ = False prop_readPipeline = isOk readPipeline "! cat /etc/issue | grep -i ubuntu" prop_readPipeline2 = isWarning readPipeline "!cat /etc/issue | grep -i ubuntu" prop_readPipeline3 = isOk readPipeline "for f; do :; done|cat" readPipeline = do unexpecting "keyword/token" readKeyword do (T_Bang id) <- g_Bang pipe <- readPipeSequence return $ T_Banged id pipe <|> do readPipeSequence prop_readAndOr = isOk readAndOr "grep -i lol foo || exit 1" prop_readAndOr1 = isOk readAndOr "# shellcheck disable=1\nfoo" prop_readAndOr2 = isOk readAndOr "# shellcheck disable=1\n# lol\n# shellcheck disable=3\nfoo" readAndOr = do aid <- getNextId annotations <- readAnnotations andOr <- withAnnotations annotations $ do chainr1 readPipeline $ do op <- g_AND_IF <|> g_OR_IF readLineBreak return $ case op of T_AND_IF id -> T_AndIf id T_OR_IF id -> T_OrIf id return $ if null annotations then andOr else T_Annotation aid annotations andOr readTerm = do allspacing m <- readAndOr readTerm' m readTerm' current = do id <- getNextId sep <- readSeparator more <- (option (T_EOF id) readAndOr) case more of (T_EOF _) -> return [transformWithSeparator id sep current] _ -> do list <- readTerm' more return $ (transformWithSeparator id sep current : list) <|> return [current] transformWithSeparator i '&' = T_Backgrounded i transformWithSeparator i _ = id readPipeSequence = do id <- getNextId list <- readCommand `sepBy1` (readPipe `thenSkip` (spacing >> readLineBreak)) spacing return $ T_Pipeline id list readPipe = do notFollowedBy2 g_OR_IF char '|' `thenSkip` spacing readCommand = (readCompoundCommand <|> readSimpleCommand) readCmdName = do f <- readNormalWord spacing return f readCmdWord = do f <- readNormalWord spacing return f prop_readIfClause = isOk readIfClause "if false; then foo; elif true; then stuff; more stuff; else cows; fi" prop_readIfClause2 = isWarning readIfClause "if false; then; echo oo; fi" prop_readIfClause3 = isWarning readIfClause "if false; then true; else; echo lol; fi" readIfClause = called "if expression" $ do id <- getNextId pos <- getPosition (condition, action) <- readIfPart elifs <- many readElifPart elses <- option [] readElsePart g_Fi `orFail` do parseProblemAt pos ErrorC 1046 "Couldn't find 'fi' for this 'if'." parseProblem ErrorC 1047 "Expected 'fi' matching previously mentioned 'if'." return $ T_IfExpression id ((condition, action):elifs) elses verifyNotEmptyIf s = optional (do emptyPos <- getPosition try . lookAhead $ (g_Fi <|> g_Elif <|> g_Else) parseProblemAt emptyPos ErrorC 1048 $ "Can't have empty " ++ s ++ " clauses (use 'true' as a no-op).") readIfPart = do pos <- getPosition g_If allspacing condition <- readTerm optional (do try . lookAhead $ g_Fi parseProblemAt pos ErrorC 1049 "Did you forget the 'then' for this 'if'?") called "then clause" $ do g_Then `orFail` parseProblem ErrorC 1050 "Expected 'then'." acceptButWarn g_Semi ErrorC 1051 "No semicolons directly after 'then'." allspacing verifyNotEmptyIf "then" action <- readTerm return (condition, action) readElifPart = called "elif clause" $ do pos <- getPosition g_Elif allspacing condition <- readTerm g_Then acceptButWarn g_Semi ErrorC 1052 "No semicolons directly after 'then'." allspacing verifyNotEmptyIf "then" action <- readTerm return (condition, action) readElsePart = called "else clause" $ do g_Else acceptButWarn g_Semi ErrorC 1053 "No semicolons directly after 'else'." allspacing verifyNotEmptyIf "else" readTerm prop_readSubshell = isOk readSubshell "( cd /foo; tar cf stuff.tar * )" readSubshell = called "explicit subshell" $ do id <- getNextId char '(' allspacing list <- readCompoundList allspacing char ')' return $ T_Subshell id list prop_readBraceGroup = isOk readBraceGroup "{ a; b | c | d; e; }" prop_readBraceGroup2 = isWarning readBraceGroup "{foo;}" readBraceGroup = called "brace group" $ do id <- getNextId char '{' allspacingOrFail <|> parseProblem ErrorC 1054 "You need a space after the '{'." optional $ do pos <- getPosition lookAhead $ char '}' parseProblemAt pos ErrorC 1055 "You need at least one command here. Use 'true;' as a no-op." list <- readTerm char '}' <|> do parseProblem ErrorC 1056 "Expected a '}'. If you have one, try a ; or \\n in front of it." fail "Unable to parse" return $ T_BraceGroup id list prop_readWhileClause = isOk readWhileClause "while [[ -e foo ]]; do sleep 1; done" readWhileClause = called "while loop" $ do pos <- getPosition (T_While id) <- g_While condition <- readTerm statements <- readDoGroup pos return $ T_WhileExpression id condition statements prop_readUntilClause = isOk readUntilClause "until kill -0 $PID; do sleep 1; done" readUntilClause = called "until loop" $ do pos <- getPosition (T_Until id) <- g_Until condition <- readTerm statements <- readDoGroup pos return $ T_UntilExpression id condition statements readDoGroup loopPos = do pos <- getPosition optional (do try . lookAhead $ g_Done parseProblemAt loopPos ErrorC 1057 "Did you forget the 'do' for this loop?") g_Do `orFail` parseProblem ErrorC 1058 "Expected 'do'." acceptButWarn g_Semi ErrorC 1059 "No semicolons directly after 'do'." allspacing optional (do try . lookAhead $ g_Done parseProblemAt loopPos ErrorC 1060 "Can't have empty do clauses (use 'true' as a no-op).") commands <- readCompoundList g_Done `orFail` do parseProblemAt pos ErrorC 1061 "Couldn't find 'done' for this 'do'." parseProblem ErrorC 1062 "Expected 'done' matching previously mentioned 'do'." return commands prop_readForClause = isOk readForClause "for f in *; do rm \"$f\"; done" prop_readForClause3 = isOk readForClause "for f; do foo; done" prop_readForClause4 = isOk readForClause "for((i=0; i<10; i++)); do echo $i; done" prop_readForClause5 = isOk readForClause "for ((i=0;i<10 && n>x;i++,--n))\ndo \necho $i\ndone" prop_readForClause6 = isOk readForClause "for ((;;))\ndo echo $i\ndone" prop_readForClause7 = isOk readForClause "for ((;;)) do echo $i\ndone" prop_readForClause8 = isOk readForClause "for ((;;)) ; do echo $i\ndone" prop_readForClause9 = isOk readForClause "for i do true; done" readForClause = called "for loop" $ do pos <- getPosition (T_For id) <- g_For spacing typ <- (readRegular <|> readArithmetic) group <- readDoGroup pos typ id group where readArithmetic = called "arithmetic for condition" $ do try $ string "((" x <- readArithmeticContents char ';' >> spacing y <- readArithmeticContents char ';' >> spacing z <- readArithmeticContents spacing string "))" spacing optional $ readSequentialSep >> spacing return $ \id group -> (return $ T_ForArithmetic id x y z group) readRegular = do name <- readVariableName spacing values <- readInClause <|> (optional readSequentialSep >> return []) return $ \id group -> (return $ T_ForIn id name values group) prop_readSelectClause1 = isOk readSelectClause "select foo in *; do echo $foo; done" prop_readSelectClause2 = isOk readSelectClause "select foo; do echo $foo; done" readSelectClause = called "select loop" $ do pos <- getPosition (T_Select id) <- g_Select spacing typ <- readRegular group <- readDoGroup pos typ id group where readRegular = do name <- readVariableName spacing values <- readInClause <|> (readSequentialSep >> return []) return $ \id group -> (return $ T_SelectIn id name values group) readInClause = do g_In things <- (readCmdWord) `reluctantlyTill` (disregard (g_Semi) <|> disregard linefeed <|> disregard g_Do) do { lookAhead (g_Do); parseNote ErrorC 1063 "You need a line feed or semicolon before the 'do'."; } <|> do { optional $ g_Semi; disregard allspacing; } return things prop_readCaseClause = isOk readCaseClause "case foo in a ) lol; cow;; b|d) fooo; esac" prop_readCaseClause2 = isOk readCaseClause "case foo\n in * ) echo bar;; esac" readCaseClause = called "case expression" $ do id <- getNextId g_Case word <- readNormalWord allspacing g_In readLineBreak list <- readCaseList g_Esac return $ T_CaseExpression id word list readCaseList = many readCaseItem readCaseItem = called "case item" $ do notFollowedBy2 g_Esac optional g_Lparen spacing pattern <- readPattern g_Rparen readLineBreak list <- ((lookAhead g_DSEMI >> return []) <|> readCompoundList) (g_DSEMI <|> lookAhead (readLineBreak >> g_Esac)) `attempting` do pos <- getPosition lookAhead g_Rparen parseProblemAt pos ErrorC 1074 "Did you forget the ;; after the previous case item?" readLineBreak return (pattern, list) prop_readFunctionDefinition = isOk readFunctionDefinition "foo() { command foo --lol \"$@\"; }" prop_readFunctionDefinition1 = isOk readFunctionDefinition "foo (){ command foo --lol \"$@\"; }" prop_readFunctionDefinition2 = isWarning readFunctionDefinition "function foo() { command foo --lol \"$@\"; }" prop_readFunctionDefinition3 = isWarning readFunctionDefinition "function foo { lol; }" prop_readFunctionDefinition4 = isWarning readFunctionDefinition "foo(a, b) { true; }" prop_readFunctionDefinition5 = isOk readFunctionDefinition ":(){ :|:;}" prop_readFunctionDefinition6 = isOk readFunctionDefinition "?(){ foo; }" prop_readFunctionDefinition7 = isOk readFunctionDefinition "..(){ cd ..; }" prop_readFunctionDefinition8 = isOk readFunctionDefinition "foo() (ls)" readFunctionDefinition = called "function" $ do id <- getNextId name <- try readFunctionSignature allspacing (disregard (lookAhead $ oneOf "{(") <|> parseProblem ErrorC 1064 "Expected a { to open the function definition.") group <- readBraceGroup <|> readSubshell return $ T_Function id name group readFunctionSignature = do readWithFunction <|> readWithoutFunction where readWithFunction = do pos <- getPosition try $ do string "function" whitespace parseProblemAt pos InfoC 1005 "Drop the keyword 'function'. It's optional in Bash but invalid in other shells." spacing name <- readFunctionName optional spacing pos <- getPosition readParens <|> do parseProblemAt pos InfoC 1006 "Include '()' after the function name (in addition to dropping 'function')." return name readWithoutFunction = try $ do name <- readFunctionName optional spacing readParens return name readParens = do g_Lparen optional spacing g_Rparen <|> do parseProblem ErrorC 1065 "Trying to declare parameters? Don't. Use () and refer to params as $1, $2.." many $ noneOf "\n){" g_Rparen return () readFunctionName = many1 functionChars readPattern = (readNormalWord `thenSkip` spacing) `sepBy1` (char '|' `thenSkip` spacing) prop_readCompoundCommand = isOk readCompoundCommand "{ echo foo; }>/dev/null" readCompoundCommand = do id <- getNextId cmd <- choice [ readBraceGroup, readArithmeticExpression, readSubshell, readCondition, readWhileClause, readUntilClause, readIfClause, readForClause, readSelectClause, readCaseClause, readFunctionDefinition] optional spacing redirs <- many readIoRedirect when (not . null $ redirs) $ optional $ do lookAhead $ try (spacing >> needsSeparator) parseProblem WarningC 1013 "Bash requires ; or \\n here, after redirecting nested compound commands." return $ T_Redirecting id redirs $ cmd where needsSeparator = choice [ g_Then, g_Else, g_Elif, g_Fi, g_Do, g_Done, g_Esac, g_Rbrace ] readCompoundList = readTerm readCmdPrefix = many1 (readIoRedirect <|> readAssignmentWord) readCmdSuffix = many1 (readIoRedirect <|> readCmdWord) readModifierSuffix = many1 (readIoRedirect <|> readAssignmentWord <|> readCmdWord) readTimeSuffix = do flags <- many readFlag pipeline <- readPipeline return $ flags ++ [pipeline] where -- This fails for quoted variables and such. Fixme? readFlag = do lookAhead $ char '-' readCmdWord prop_readAssignmentWord = isOk readAssignmentWord "a=42" prop_readAssignmentWord2 = isOk readAssignmentWord "b=(1 2 3)" prop_readAssignmentWord3 = isWarning readAssignmentWord "$b = 13" prop_readAssignmentWord4 = isWarning readAssignmentWord "b = $(lol)" prop_readAssignmentWord5 = isOk readAssignmentWord "b+=lol" prop_readAssignmentWord6 = isWarning readAssignmentWord "b += (1 2 3)" prop_readAssignmentWord7 = isOk readAssignmentWord "a[3$n'']=42" prop_readAssignmentWord8 = isOk readAssignmentWord "a[4''$(cat foo)]=42" prop_readAssignmentWord9 = isOk readAssignmentWord "IFS= " prop_readAssignmentWord0 = isWarning readAssignmentWord "foo$n=42" readAssignmentWord = try $ do id <- getNextId pos <- getPosition optional (char '$' >> parseNote ErrorC 1066 "Don't use $ on the left side of assignments.") variable <- readVariableName optional (readNormalDollar >> parseNoteAt pos ErrorC 1067 "For indirection, use (associative) arrays or 'read \"var$n\" <<< \"value\"'") index <- optionMaybe readArrayIndex space <- spacing pos <- getPosition op <- readAssignmentOp space2 <- spacing if space == "" && space2 /= "" then do when (variable /= "IFS") $ parseNoteAt pos InfoC 1007 $ "Note that 'var= value' (with space after equals sign) is similar to 'var=\"\"; value'." value <- readEmptyLiteral return $ T_Assignment id op variable index value else do when (space /= "" || space2 /= "") $ parseNoteAt pos ErrorC 1068 "Don't put spaces around the = in assignments." value <- readArray <|> readNormalWord spacing return $ T_Assignment id op variable index value where readAssignmentOp = (string "+=" >> return Append) <|> (string "=" >> return Assign) readEmptyLiteral = do id <- getNextId return $ T_Literal id "" -- This is only approximate. Fixme? -- * Bash allows foo[' ' "" $(true) 2 ``]=var -- * foo[bar] dereferences bar readArrayIndex = do char '[' optional space x <- readNormalishWord "]" optional space char ']' return x readArray = called "array assignment" $ do id <- getNextId char '(' allspacing words <- (readNormalWord `thenSkip` allspacing) `reluctantlyTill` (char ')') char ')' return $ T_Array id words tryToken s t = try $ do id <- getNextId string s spacing return $ t id redirToken c t = try $ do id <- getNextId char c notFollowedBy2 $ char '(' return $ t id tryWordToken s t = tryParseWordToken (string s) t `thenSkip` spacing tryParseWordToken parser t = try $ do id <- getNextId parser optional (do try . lookAhead $ char '[' parseProblem ErrorC 1069 "You need a space before the [.") try $ lookAhead (keywordSeparator) return $ t id g_AND_IF = tryToken "&&" T_AND_IF g_OR_IF = tryToken "||" T_OR_IF g_DSEMI = tryToken ";;" T_DSEMI g_DLESS = tryToken "<<" T_DLESS g_DGREAT = tryToken ">>" T_DGREAT g_LESSAND = tryToken "<&" T_LESSAND g_GREATAND = tryToken ">&" T_GREATAND g_LESSGREAT = tryToken "<>" T_LESSGREAT g_DLESSDASH = tryToken "<<-" T_DLESSDASH g_CLOBBER = tryToken ">|" T_CLOBBER g_OPERATOR = g_AND_IF <|> g_OR_IF <|> g_DSEMI <|> g_DLESSDASH <|> g_DLESS <|> g_DGREAT <|> g_LESSAND <|> g_GREATAND <|> g_LESSGREAT g_If = tryWordToken "if" T_If g_Then = tryWordToken "then" T_Then g_Else = tryWordToken "else" T_Else g_Elif = tryWordToken "elif" T_Elif g_Fi = tryWordToken "fi" T_Fi g_Do = tryWordToken "do" T_Do g_Done = tryWordToken "done" T_Done g_Case = tryWordToken "case" T_Case g_Esac = tryWordToken "esac" T_Esac g_While = tryWordToken "while" T_While g_Until = tryWordToken "until" T_Until g_For = tryWordToken "for" T_For g_Select = tryWordToken "select" T_Select g_In = tryWordToken "in" T_In g_Lbrace = tryWordToken "{" T_Lbrace g_Rbrace = tryWordToken "}" T_Rbrace g_Lparen = tryToken "(" T_Lparen g_Rparen = tryToken ")" T_Rparen g_Bang = do id <- getNextId char '!' softCondSpacing return $ T_Bang id g_Semi = do notFollowedBy2 g_DSEMI tryToken ";" T_Semi keywordSeparator = eof <|> disregard whitespace <|> (disregard $ oneOf ";()[<>&|") readKeyword = choice [ g_Then, g_Else, g_Elif, g_Fi, g_Do, g_Done, g_Esac, g_Rbrace, g_Rparen, g_DSEMI ] ifParse p t f = do (lookAhead (try p) >> t) <|> f readShebang = do try $ string "#!" str <- many $ noneOf "\r\n" optional carriageReturn optional linefeed return str prop_readScript1 = isOk readScript "#!/bin/bash\necho hello world\n" prop_readScript2 = isWarning readScript "#!/bin/bash\r\necho hello world\n" prop_readScript3 = isWarning readScript "#!/bin/bash\necho hello\xA0world" prop_readScript4 = isWarning readScript "#!/usr/bin/perl\nfoo=(" readScript = do id <- getNextId pos <- getPosition sb <- option "" readShebang verifyShell pos (getShell sb) if (isValidShell $ getShell sb) /= Just False then do { allspacing; commands <- readTerm; eof <|> (parseProblem ErrorC 1070 "Parsing stopped here because of parsing errors."); return $ T_Script id sb commands; } <|> do { parseProblem WarningC 1014 "Couldn't read any commands."; return $ T_Script id sb $ [T_EOF id]; } else do many anyChar return $ T_Script id sb $ [T_EOF id]; where basename s = reverse . takeWhile (/= '/') . reverse $ s getShell sb = case words sb of [] -> "" [x] -> basename x (first:second:_) -> if basename first == "env" then second else basename first verifyShell pos s = case isValidShell s of Just True -> return () Just False -> parseProblemAt pos ErrorC 1071 "ShellCheck only supports Bourne based shell scripts, sorry!" Nothing -> parseProblemAt pos InfoC 1008 "This shebang was unrecognized. Note that ShellCheck only handles Bourne based shells." isValidShell s = let good = s == "" || any (`isPrefixOf` s) goodShells bad = any (`isPrefixOf` s) badShells in if good then Just True else if bad then Just False else Nothing goodShells = [ "sh", "bash", "ksh", "zsh" ] badShells = [ "awk", "csh", "perl", "python", "ruby", "tcsh" ] rp p filename contents = Ms.runState (runParserT p initialState filename contents) ([], []) isWarning p s = (fst cs) && (not . null . snd $ cs) where cs = checkString p s isOk p s = (fst cs) && (null . snd $ cs) where cs = checkString p s checkString parser string = case rp (parser >> eof >> getState) "-" string of (Right (tree, map, notes), (problems, _)) -> (True, (notesFromMap map) ++ notes ++ problems) (Left _, (n, _)) -> (False, n) parseWithNotes parser = do item <- parser map <- getMap parseNotes <- getParseNotes return (item, map, nub . sortNotes $ parseNotes) toParseNotes (Metadata pos list) = map (\(Note level code note) -> ParseNote pos level code note) list notesFromMap map = Map.fold (\x -> (++) (toParseNotes x)) [] map getAllNotes result = (concatMap (notesFromMap . snd) (maybeToList . parseResult $ result)) ++ (parseNotes result) compareNotes (ParseNote pos1 level1 _ s1) (ParseNote pos2 level2 _ s2) = compare (pos1, level1) (pos2, level2) sortNotes = sortBy compareNotes data ParseResult = ParseResult { parseResult :: Maybe (Token, Map.Map Id Metadata), parseNotes :: [ParseNote] } deriving (Show) makeErrorFor parsecError = ParseNote (errorPos parsecError) ErrorC 1072 $ getStringFromParsec $ errorMessages parsecError getStringFromParsec errors = case map snd $ sortWith fst $ map f errors of r -> (intercalate " " $ take 1 $ nub r) ++ " Fix any mentioned problems and try again." where f err = case err of UnExpect s -> (1, unexpected s) SysUnExpect s -> (2, unexpected s) Expect s -> (3, "Expected " ++ s ++ ".") Message s -> (4, s ++ ".") wut "" = "eof" wut x = x unexpected s = "Unexpected " ++ (wut s) ++ "." parseShell filename contents = do case rp (parseWithNotes readScript) filename contents of (Right (script, map, notes), (parsenotes, _)) -> ParseResult (Just (script, map)) (nub $ sortNotes $ notes ++ parsenotes) (Left err, (p, context)) -> ParseResult Nothing (nub $ sortNotes $ p ++ (notesForContext context) ++ ([makeErrorFor err])) where isName (ContextName _ _) = True isName _ = False notesForContext list = zipWith ($) [first, second] $ filter isName list first (ContextName pos str) = ParseNote pos ErrorC 1073 $ "Couldn't parse this " ++ str ++ "." second (ContextName pos str) = ParseNote pos InfoC 1009 $ "The mentioned parser error was in this " ++ str ++ "." lt x = trace (show x) x ltt t x = trace (show t) x