{-# LANGUAGE CPP #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE PackageImports #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE StandaloneDeriving #-} module Network.HTTP.Download.Verified ( verifiedDownload , recoveringHttp , DownloadRequest(..) , drRetryPolicyDefault , HashCheck(..) , CheckHexDigest(..) , LengthCheck , VerifiedDownloadException(..) ) where import qualified Data.List as List import qualified Data.ByteString as ByteString import qualified Data.ByteString.Base64 as B64 import qualified Data.Conduit.Binary as CB import qualified Data.Conduit.List as CL import qualified Data.Text as Text import qualified Data.Text.Encoding as Text import Control.Monad import Control.Monad.Catch import Control.Monad.IO.Class import Control.Monad.Reader import Control.Retry (recovering,limitRetries,RetryPolicy,constantDelay) import Control.Applicative import "cryptohash" Crypto.Hash import Crypto.Hash.Conduit (sinkHash) import Data.ByteString (ByteString) import Data.ByteString.Char8 (readInteger) import Data.Conduit import Data.Conduit.Binary (sourceHandle, sinkHandle) import Data.Foldable (traverse_,for_) import Data.Monoid import Data.String import Data.Typeable (Typeable) import GHC.IO.Exception (IOException(..),IOErrorType(..)) import Network.HTTP.Client.Conduit import Network.HTTP.Types.Header (hContentLength, hContentMD5) import Path import Prelude -- Fix AMP warning import System.FilePath((<.>)) import System.Directory import System.IO -- | A request together with some checks to perform. data DownloadRequest = DownloadRequest { drRequest :: Request , drHashChecks :: [HashCheck] , drLengthCheck :: Maybe LengthCheck , drRetryPolicy :: RetryPolicy } -- | Default to retrying thrice with a short constant delay. drRetryPolicyDefault :: RetryPolicy drRetryPolicyDefault = limitRetries 3 <> constantDelay onehundredMilliseconds where onehundredMilliseconds = 100000 data HashCheck = forall a. (Show a, HashAlgorithm a) => HashCheck { hashCheckAlgorithm :: a , hashCheckHexDigest :: CheckHexDigest } deriving instance Show HashCheck data CheckHexDigest = CheckHexDigestString String | CheckHexDigestByteString ByteString | CheckHexDigestHeader ByteString deriving Show instance IsString CheckHexDigest where fromString = CheckHexDigestString type LengthCheck = Int -- | An exception regarding verification of a download. data VerifiedDownloadException = WrongContentLength Request Int -- expected ByteString -- actual (as listed in the header) | WrongStreamLength Request Int -- expected Int -- actual | WrongDigest Request String -- algorithm CheckHexDigest -- expected String -- actual (shown) deriving (Typeable) instance Show VerifiedDownloadException where show (WrongContentLength req expected actual) = "Download expectation failure: ContentLength header\n" ++ "Expected: " ++ show expected ++ "\n" ++ "Actual: " ++ displayByteString actual ++ "\n" ++ "For: " ++ show (getUri req) show (WrongStreamLength req expected actual) = "Download expectation failure: download size\n" ++ "Expected: " ++ show expected ++ "\n" ++ "Actual: " ++ show actual ++ "\n" ++ "For: " ++ show (getUri req) show (WrongDigest req algo expected actual) = "Download expectation failure: content hash (" ++ algo ++ ")\n" ++ "Expected: " ++ displayCheckHexDigest expected ++ "\n" ++ "Actual: " ++ actual ++ "\n" ++ "For: " ++ show (getUri req) instance Exception VerifiedDownloadException -- This exception is always caught and never thrown outside of this module. data VerifyFileException = WrongFileSize Int -- expected Integer -- actual (as listed by hFileSize) deriving (Show, Typeable) instance Exception VerifyFileException -- Show a ByteString that is known to be UTF8 encoded. displayByteString :: ByteString -> String displayByteString = Text.unpack . Text.strip . Text.decodeUtf8 -- Show a CheckHexDigest in human-readable format. displayCheckHexDigest :: CheckHexDigest -> String displayCheckHexDigest (CheckHexDigestString s) = s ++ " (String)" displayCheckHexDigest (CheckHexDigestByteString s) = displayByteString s ++ " (ByteString)" displayCheckHexDigest (CheckHexDigestHeader h) = displayByteString (B64.decodeLenient h) ++ " (Header. unencoded: " ++ displayByteString h ++ ")" -- | Make sure that the hash digest for a finite stream of bytes -- is as expected. -- -- Throws WrongDigest (VerifiedDownloadException) sinkCheckHash :: MonadThrow m => Request -> HashCheck -> Consumer ByteString m () sinkCheckHash req HashCheck{..} = do digest <- sinkHashUsing hashCheckAlgorithm let actualDigestString = show digest let actualDigestHexByteString = digestToHexByteString digest let passedCheck = case hashCheckHexDigest of CheckHexDigestString s -> s == actualDigestString CheckHexDigestByteString b -> b == actualDigestHexByteString CheckHexDigestHeader b -> B64.decodeLenient b == actualDigestHexByteString -- A hack to allow hackage tarballs to download. -- They should really base64-encode their md5 header as per rfc2616#sec14.15. -- https://github.com/commercialhaskell/stack/issues/240 || b == actualDigestHexByteString unless passedCheck $ throwM $ WrongDigest req (show hashCheckAlgorithm) hashCheckHexDigest actualDigestString assertLengthSink :: MonadThrow m => Request -> LengthCheck -> ZipSink ByteString m () assertLengthSink req expectedStreamLength = ZipSink $ do Sum actualStreamLength <- CL.foldMap (Sum . ByteString.length) when (actualStreamLength /= expectedStreamLength) $ throwM $ WrongStreamLength req expectedStreamLength actualStreamLength -- | A more explicitly type-guided sinkHash. sinkHashUsing :: (Monad m, HashAlgorithm a) => a -> Consumer ByteString m (Digest a) sinkHashUsing _ = sinkHash -- | Turns a list of hash checks into a ZipSink that checks all of them. hashChecksToZipSink :: MonadThrow m => Request -> [HashCheck] -> ZipSink ByteString m () hashChecksToZipSink req = traverse_ (ZipSink . sinkCheckHash req) -- 'Control.Retry.recovering' customized for HTTP failures recoveringHttp :: (MonadMask m, MonadIO m) => RetryPolicy -> m a -> m a recoveringHttp retryPolicy = #if MIN_VERSION_retry(0,7,0) recovering retryPolicy handlers . const #else recovering retryPolicy handlers #endif where handlers = [const $ Handler alwaysRetryHttp,const $ Handler retrySomeIO] alwaysRetryHttp :: Monad m => HttpException -> m Bool alwaysRetryHttp _ = return True retrySomeIO :: Monad m => IOException -> m Bool retrySomeIO e = return $ case ioe_type e of -- hGetBuf: resource vanished (Connection reset by peer) ResourceVanished -> True -- conservatively exclude all others _ -> False -- | Copied and extended version of Network.HTTP.Download.download. -- -- Has the following additional features: -- * Verifies that response content-length header (if present) -- matches expected length -- * Limits the download to (close to) the expected # of bytes -- * Verifies that the expected # bytes were downloaded (not too few) -- * Verifies md5 if response includes content-md5 header -- * Verifies the expected hashes -- -- Throws VerifiedDownloadException. -- Throws IOExceptions related to file system operations. -- Throws HttpException. verifiedDownload :: (MonadReader env m, HasHttpManager env, MonadIO m) => DownloadRequest -> Path Abs File -- ^ destination -> (Maybe Integer -> Sink ByteString (ReaderT env IO) ()) -- ^ custom hook to observe progress -> m Bool -- ^ Whether a download was performed verifiedDownload DownloadRequest{..} destpath progressSink = do let req = drRequest env <- ask liftIO $ whenM' getShouldDownload $ do createDirectoryIfMissing True dir withBinaryFile fptmp WriteMode $ \h -> recoveringHttp drRetryPolicy $ flip runReaderT env $ withResponse req (go h) renameFile fptmp fp where whenM' mp m = do p <- mp if p then m >> return True else return False fp = toFilePath destpath fptmp = fp <.> "tmp" dir = toFilePath $ parent destpath getShouldDownload = do fileExists <- doesFileExist fp if fileExists -- only download if file does not match expectations then not <$> fileMatchesExpectations -- or if it doesn't exist yet else return True -- precondition: file exists -- TODO: add logging fileMatchesExpectations = ((checkExpectations >> return True) `catch` \(_ :: VerifyFileException) -> return False) `catch` \(_ :: VerifiedDownloadException) -> return False checkExpectations = bracket (openFile fp ReadMode) hClose $ \h -> do for_ drLengthCheck $ checkFileSizeExpectations h sourceHandle h $$ getZipSink (hashChecksToZipSink drRequest drHashChecks) -- doesn't move the handle checkFileSizeExpectations h expectedFileSize = do fileSizeInteger <- hFileSize h when (fileSizeInteger > toInteger (maxBound :: Int)) $ throwM $ WrongFileSize expectedFileSize fileSizeInteger let fileSize = fromInteger fileSizeInteger when (fileSize /= expectedFileSize) $ throwM $ WrongFileSize expectedFileSize fileSizeInteger checkContentLengthHeader headers expectedContentLength = case List.lookup hContentLength headers of Just lengthBS -> do let lengthStr = displayByteString lengthBS when (lengthStr /= show expectedContentLength) $ throwM $ WrongContentLength drRequest expectedContentLength lengthBS _ -> return () go h res = do let headers = responseHeaders res mcontentLength = do hLength <- List.lookup hContentLength headers (i,_) <- readInteger hLength return i for_ drLengthCheck $ checkContentLengthHeader headers let hashChecks = (case List.lookup hContentMD5 headers of Just md5BS -> [ HashCheck { hashCheckAlgorithm = MD5 , hashCheckHexDigest = CheckHexDigestHeader md5BS } ] Nothing -> [] ) ++ drHashChecks responseBody res $= maybe (awaitForever yield) CB.isolate drLengthCheck $$ getZipSink ( hashChecksToZipSink drRequest hashChecks *> maybe (pure ()) (assertLengthSink drRequest) drLengthCheck *> ZipSink (sinkHandle h) *> ZipSink (progressSink mcontentLength))