{-# LANGUAGE Safe #-} {- arch-tag: GZip file support in Haskell Copyright (c) 2004-2011 John Goerzen <jgoerzen@complete.org> All rights reserved. For license and copyright information, see the file LICENSE -} {- | Module : System.FileArchive.GZip Copyright : Copyright (C) 2004-2011 John Goerzen SPDX-License-Identifier: BSD-3-Clause Stability : provisional Portability: portable GZip file decompression Copyright (c) 2004 John Goerzen, jgoerzen\@complete.org The GZip format is described in RFC1952. -} module System.FileArchive.GZip ( -- * GZip Files -- $gzipfiles -- * Types Header(..), Section, GZipError(..), Footer(..), -- * Whole-File Processing decompress, hDecompress, read_sections, -- * Section Processing read_header, read_section ) where import Control.Monad.Error import Data.Bits ((.&.)) import Data.Bits.Utils (fromBytes) import Data.Char (ord) import Data.Compression.Inflate (inflate_string_remainder) import Data.Hash.CRC32.GZip (update_crc) import Data.Word (Word32) import System.IO (Handle, hGetContents, hPutStr) data GZipError = CRCError -- ^ CRC-32 check failed | NotGZIPFile -- ^ Couldn't find a GZip header | UnknownMethod -- ^ Compressed with something other than method 8 (deflate) | UnknownError String -- ^ Other problem arose deriving (Eq, Show) instance Error GZipError where noMsg = UnknownError "" strMsg = UnknownError -- | First two bytes of file magic :: String magic = "\x1f\x8b" -- | Flags fFHCRC, fFEXTRA, fFNAME, fFCOMMENT :: Int -- fFTEXT = 1 :: Int fFHCRC = 2 fFEXTRA = 4 fFNAME = 8 fFCOMMENT = 16 {- | The data structure representing the GZip header. This occurs at the beginning of each 'Section' on disk. -} data Header = Header { method :: Int, -- ^ Compression method. Only 8 is defined at present. flags :: Int, extra :: Maybe String, filename :: Maybe String, comment :: Maybe String, mtime :: Word32, -- ^ Modification time of the original file xfl :: Int, -- ^ Extra flags os :: Int -- ^ Creating operating system } deriving (Eq, Show) {- | Stored on-disk at the end of each section. -} data Footer = Footer { size :: Word32, -- ^ The size of the original, decompressed data crc32 :: Word32, -- ^ The stored GZip CRC-32 of the original, decompressed data crc32valid :: Bool -- ^ Whether or not the stored CRC-32 matches the calculated CRC-32 of the data } {- | A section represents a compressed component in a GZip file. Every GZip file has at least one. -} type Section = (Header, String, Footer) split1 :: String -> (Char, String) split1 s = (head s, tail s) {- | Read a GZip file, decompressing all sections found. Writes the decompressed data stream to the given output handle. Returns Nothing if the action was successful, or Just GZipError if there was a problem. If there was a problem, the data written to the output handle should be discarded. -} hDecompress :: Handle -- ^ Input handle -> Handle -- ^ Output handle -> IO (Maybe GZipError) hDecompress infd outfd = do inc <- hGetContents infd let (outstr, err) = decompress inc hPutStr outfd outstr return err {- | Read a GZip file, decompressing all sections that are found. Returns a decompresed data stream and Nothing, or an unreliable string and Just (error). If you get anything other than Nothing, the String returned should be discarded. -} decompress :: String -> (String, Maybe GZipError) {- decompress s = do x <- read_header s let rem = snd x return $ inflate_string rem -} decompress s = let procs :: [Section] -> (String, Bool) procs [] = ([], True) procs ((_, content, foot):xs) = let (nexth, nextb) = procs xs in (content ++ nexth, (crc32valid foot) && nextb) in case read_sections s of Left x -> ("", Just x) Right x -> let (decomp, iscrcok) = procs x in (decomp, if iscrcok then Nothing else Just CRCError) {- decompress s = do x <- read_sections s return $ concatMap (\(_, x, _) -> x) x -} -- | Read all sections. read_sections :: String -> Either GZipError [Section] read_sections [] = Right [] read_sections s = do x <- read_section s case x of (sect, remain) -> do next <- read_sections remain return $ sect : next parseword :: String -> Word32 parseword s = fromBytes $ map (fromIntegral . ord) $ reverse s -- | Read one section, returning (ThisSection, Remainder) read_section :: String -> Either GZipError (Section, String) read_section s = do x <- read_header s let headerrem = snd x let (decompressed, crc, remainder) = read_data headerrem let (crc32str, rm) = splitAt 4 remainder let (sizestr, rem2) = splitAt 4 rm let filecrc32 = parseword crc32str let filesize = parseword sizestr return ((fst x, decompressed, Footer {size = filesize, crc32 = filecrc32, crc32valid = filecrc32 == crc}) ,rem2) -- | Read the file's compressed data, returning -- (Decompressed, Calculated CRC32, Remainder) read_data :: String -> (String, Word32, String) read_data x = let (decompressed1, remainder) = inflate_string_remainder x (decompressed, crc32) = read_data_internal decompressed1 0 in (decompressed, crc32, remainder) where read_data_internal [] ck = ([], ck) read_data_internal (y:ys) ck = let newcrc = update_crc ck y n = newcrc `seq` read_data_internal ys newcrc in (y : fst n, snd n) {- | Read the GZip header. Return (Header, Remainder). -} read_header :: String -> Either GZipError (Header, String) read_header s = let ok = Right "ok" in do let (mag, rem) = splitAt 2 s if mag /= magic then throwError NotGZIPFile else ok let (method, rem2) = split1 rem if (ord(method) /= 8) then throwError UnknownMethod else ok let (flag_S, rem3) = split1 rem2 let flag = ord flag_S let (mtimea, rem3a) = splitAt 4 rem3 let mtime = parseword mtimea let (xfla, rem3b) = split1 rem3a let xfl = ord xfla let (osa, _) = split1 rem3b let os = ord osa -- skip modtime (4), extraflag (1), and os (1) let rem4 = drop 6 rem3 let (extra, rem5) = if (flag .&. fFEXTRA /= 0) -- Skip past the extra field if we have it. then let (xlen_S, _) = split1 rem4 (xlen2_S, rem4b) = split1 rem4 xlen = (ord xlen_S) + 256 * (ord xlen2_S) (ex, rrem) = splitAt xlen rem4b in (Just ex, rrem) else (Nothing, rem4) let (filename, rem6) = if (flag .&. fFNAME /= 0) -- Skip past the null-terminated filename then let fn = takeWhile (/= '\x00') rem5 in (Just fn, drop ((length fn) + 1) rem5) else (Nothing, rem5) let (comment, rem7) = if (flag .&. fFCOMMENT /= 0) -- Skip past the null-terminated comment then let cm = takeWhile (/= '\x00') rem6 in (Just cm, drop ((length cm) + 1) rem6) else (Nothing, rem6) rem8 <- if (flag .&. fFHCRC /= 0) -- Skip past the header CRC then return $ drop 2 rem7 else return rem7 return (Header {method = ord method, flags = flag, extra = extra, filename = filename, comment = comment, mtime = mtime, xfl = xfl, os = os}, rem8) ---------------------------------------------------------------------- -- Documentation ---------------------------------------------------------------------- {- $gzipfiles GZip files contain one or more 'Section's. Each 'Section', on disk, begins with a GZip 'Header', then stores the compressed data itself, and finally stores a GZip 'Footer'. The 'Header' identifies the file as a GZip file, records the original modification date and time, and, in some cases, also records the original filename and comments. The 'Footer' contains a GZip CRC32 checksum over the decompressed data as well as a 32-bit length of the decompressed data. The module 'Data.Hash.CRC32.GZip' is used to validate stored CRC32 values. The vast majority of GZip files contain only one 'Section'. Standard tools that work with GZip files create single-section files by default. Multi-section files can be created by simply concatenating two existing GZip files together. The standard gunzip and zcat tools will simply concatenate the decompressed data when reading these files back. The 'decompress' function in this module will do the same. When reading data from this module, please use caution regarding how you access it. For instance, if you are wanting to write the decompressed stream to disk and validate its CRC32 value, you could use the 'decompress' function. However, you should process the entire stream before you check the value of the Bool it returns. Otherwise, you will force Haskell to buffer the entire file in memory just so it can check the CRC32. -}