12 Commits
Author SHA1 Message Date
jlamothe 84b6d0bcae version 0.1.0 2021-11-24 19:46:02 -05:00
jlamothe 43b76aa39c implemented encodeGemResponse 2021-11-24 19:44:17 -05:00
jlamothe 391ffd3eea implemented stripCRLF 2021-11-24 19:44:17 -05:00
jlamothe 05e83857a7 tests for runConnection 2021-11-24 18:56:12 -05:00
jlamothe 7126838eb0 fixed a bug in readLoop that would cause the server hang while reading the request 2021-11-23 11:10:34 -05:00
jlamothe 7b8a887b3c made failure reason ob readLoop more obvious 2021-11-22 23:25:43 -05:00
jlamothe 61fca70a5e refactored readLoop 2021-11-21 02:22:40 -05:00
jlamothe 440aee7536 System.IO.Streams should be a qualified import 2021-11-20 11:43:54 -05:00
jlamothe 63702be1e7 whitespace fix 2021-11-20 11:43:11 -05:00
jlamothe 64444bbc81 implemented readMax 2021-11-19 20:58:41 -05:00
jlamothe 4a99e5cb0b implemented high-level logic for strFromConn 2021-11-19 19:30:54 -05:00
jlamothe 489d0fdb78 linting of readURL function
I disagree with the use of `<$>` in place of `.`, but not enough to fight hlint on it.
2021-11-19 19:28:46 -05:00
7 changed files with 264 additions and 56 deletions
+3 -1
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@@ -5,7 +5,7 @@ cabal-version: 2.2
-- see: https://github.com/sol/hpack
name: gemcap
version: 0.0.0
version: 0.1.0
synopsis: a simple Gemini capsule (server)
description: a simple Gemini capsule (server) - see README.md for details
category: Gemini
@@ -40,6 +40,7 @@ library
, tcp-streams >=1.0.1.1 && <1.1
, text >=1.2.4.1 && <1.3
, tls
, transformers
, x509
default-language: Haskell2010
autogen-modules: Paths_gemcap
@@ -65,6 +66,7 @@ test-suite gemcap-test
, tcp-streams >=1.0.1.1 && <1.1
, text >=1.2.4.1 && <1.3
, tls
, transformers
, x509
default-language: Haskell2010
autogen-modules: Paths_gemcap
+2 -1
View File
@@ -1,5 +1,5 @@
name: gemcap
version: 0.0.0
version: 0.1.0
license: AGPL-3.0-or-later
author: "Jonathan Lamothe"
maintainer: "jonathan@jlamothe.net"
@@ -31,6 +31,7 @@ dependencies:
- io-streams
- network
- tls
- transformers
- x509
library:
-14
View File
@@ -97,18 +97,4 @@ adjustServerParams certRef params = let
hooks' = hooks { onClientCertificate = certHook' }
in params { serverHooks = hooks' }
runConnection
:: C.Connection a
-> GemHandler
-> Maybe Certificate
-> IO ()
runConnection conn handler mCert =
( readURL conn >>= \case
Nothing -> return $ newGemResponse
{ respStatus = 59
, respMeta = "bad request"
}
Just url -> handler (newGemRequest url) { reqCert = mCert }
) >>= sendResponse conn
--jl
+28 -3
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@@ -30,15 +30,21 @@ module Network.Gemini.Capsule.Encoding (
encodeGemURL,
decodeGemURL,
escapeString,
unescapeString
unescapeString,
encodeGemResponse
) where
import qualified Data.ByteString as BS
import Data.ByteString.Builder (charUtf8, stringUtf8, toLazyByteString)
import Data.ByteString.Builder (
charUtf8,
lazyByteString,
stringUtf8,
toLazyByteString,
word8Dec)
import qualified Data.ByteString.Lazy as BSL
import Data.Char (chr, ord, toLower)
import Data.List (find, intercalate)
import Data.Maybe (fromJust)
import Data.Maybe (fromJust, fromMaybe)
import qualified Data.Text as T
import Data.Text.Encoding (decodeUtf8')
@@ -137,6 +143,25 @@ unescapeString str = case decodeUtf8' $ BS.pack $ toBytes str of
toNum ch = fst $ fromJust $
find (\x -> snd x == ch) $ zip [0..] hexDigits
-- | encodes a 'GemResponse' into a lazy ByteString
encodeGemResponse :: GemResponse -> BSL.ByteString
encodeGemResponse resp = let
code = respStatus resp
high = code `div` 10
low = code `mod` 10
meta = respMeta resp
body = fromMaybe "" $ respBody resp
builder
= word8Dec high
<> word8Dec low
<> charUtf8 ' '
<> stringUtf8 meta
<> stringUtf8 "\r\n"
<> lazyByteString body
in toLazyByteString builder
hexDigits :: String
hexDigits = ['0'..'9'] ++ ['a'..'f']
+83 -13
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@@ -33,11 +33,24 @@ time.
{-# LANGUAGE LambdaCase #-}
module Network.Gemini.Capsule.Internal (
runConnection,
readURL,
sendResponse
strFromConn,
readMax,
stripCRLF
) where
import Data.Connection (Connection)
import Control.Monad (when)
import Control.Monad.Trans.Class (lift)
import Control.Monad.Trans.Maybe (MaybeT (..))
import qualified Data.ByteString as BS
import Data.ByteString.Builder (Builder, byteString, toLazyByteString)
import qualified Data.ByteString.Lazy as BSL
import Data.Connection (Connection, send, source)
import qualified Data.Text as T
import Data.Text.Encoding (decodeUtf8')
import Data.X509 (Certificate)
import qualified System.IO.Streams as S
import Network.Gemini.Capsule.Encoding
import Network.Gemini.Capsule.Types
@@ -48,25 +61,31 @@ import Network.Gemini.Capsule.Types
inBufSize :: Int
inBufSize = 1026
-- | process a request and return a response over a 'Connection'
runConnection
:: Connection a
-> GemHandler
-> Maybe Certificate
-> IO ()
runConnection conn handler mCert =
( readURL conn >>= \case
Nothing -> return $ newGemResponse
{ respStatus = 59
, respMeta = "bad request"
}
Just url -> handler (newGemRequest url) { reqCert = mCert }
) >>= sendResponse conn
-- | Reads a 'GemURL' from a 'Connection'
readURL
:: Connection a
-- ^ the connection
-> IO (Maybe GemURL)
readURL conn =
strFromConn inBufSize conn >>= return . \case
strFromConn inBufSize conn >>= return <$> \case
Nothing -> Nothing
Just str -> decodeGemURL str
-- | Sends a 'GemResponse' to a 'Connection'
sendResponse
:: Connection a
-- ^ the connection
-> GemResponse
-- ^ the response being sent
-> IO ()
sendResponse = undefined
-- | Reads up to a maxumum number of bytes from a 'Connection', UTF-8
-- decodes it, and returns the resulting string (if possible) without
-- the trailing CR/LF
@@ -76,6 +95,57 @@ strFromConn
-> Connection a
-- ^ The connection to read from
-> IO (Maybe String)
strFromConn = undefined
strFromConn maxLen conn = do
mbs <- readMax maxLen conn
return $ do
bs <- mbs
txt <- case decodeUtf8' bs of
Left _ -> Nothing
Right s -> Just s
stripCRLF $ T.unpack txt
-- | Reads from a connection up to a maximum number of bytes or a
-- newline character is encountered, returning 'Nothing' if the limit
-- is exceeded
readMax
:: Int
-- ^ the maximum number of bytes
-> Connection a
-- ^ the 'Connection' to read from
-> IO (Maybe BS.ByteString)
readMax maxLen conn = do
let src = source conn
runMaybeT $
BS.pack . BSL.unpack . toLazyByteString
<$> readLoop maxLen src
-- | Strips the CR/LF characters from the end of a string, retuning
-- Nothing if they are not present
stripCRLF :: String -> Maybe String
stripCRLF = \case
"" -> Nothing
"\r\n" -> Just ""
c:str -> (c:) <$> stripCRLF str
readLoop :: Int -> S.InputStream BS.ByteString -> MaybeT IO Builder
readLoop maxLen src = lift (S.read src) >>= \case
Nothing -> return mempty
Just bs -> do
let
len = BS.length bs
b = byteString bs
when (len > maxLen) $
fail "maximum length exceeded"
if BS.any (== 0xa) bs
then return b
else (b <>) <$> readLoop (maxLen - len) src
sendResponse
:: Connection a
-- ^ the connection
-> GemResponse
-- ^ the response being sent
-> IO ()
sendResponse conn resp = send conn $ encodeGemResponse resp
--jl
@@ -20,6 +20,8 @@ License along with this program. If not, see
-}
{-# LANGUAGE OverloadedStrings #-}
module Network.Gemini.Capsule.EncodingSpec (spec) where
import Test.Hspec (Spec, context, describe, it, shouldBe)
@@ -33,6 +35,7 @@ spec = describe "Encoding" $ do
decodeGemURLSpec
escapeStringSpec
unescapeStringSpec
encodeGemResponseSpec
encodeGemURLSpec :: Spec
encodeGemURLSpec = describe "encodeGemURL" $ mapM_
@@ -143,4 +146,12 @@ unescapeStringSpec = describe "unescapeString" $ mapM_
, ( "foo%ff", Nothing )
]
encodeGemResponseSpec :: Spec
encodeGemResponseSpec = describe "encodeGemResponse" $
it ("should be " ++ show expect) $
encodeGemResponse resp `shouldBe` expect
where
resp = newGemResponse { respBody = Just "Success!\r\n" }
expect = "20 text/gemini\r\nSuccess!\r\n"
--jl
+137 -24
View File
@@ -20,29 +20,75 @@ License along with this program. If not, see
-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE OverloadedStrings, RecordWildCards #-}
module Network.Gemini.Capsule.InternalSpec (spec) where
import qualified Data.ByteString as BS
import qualified Data.ByteString.Lazy as BSL
import Data.Char (ord)
import Data.Connection (Connection (..))
import Data.IORef (IORef, modifyIORef', newIORef, readIORef)
import Data.X509 (Certificate (..))
import System.IO.Streams (nullInput, unRead)
import Test.Hspec (Spec, context, describe, shouldReturn, xit)
import Test.Hspec (
Spec,
context,
describe,
it,
shouldBe,
shouldReturn)
import Network.Gemini.Capsule.Types
import Network.Gemini.Capsule.Internal
spec :: Spec
spec = describe "Internal" $ do
runConnectionSpec
readURLSpec
sendResponseSpec
strFromConnSpec
readMaxSpec
stripCRLFSpec
runConnectionSpec :: Spec
runConnectionSpec = describe "runConnection" $ mapM_
( \(desc, ioConnRef, handler, mCert, expect) -> context desc $
it ("should return " ++ show expect) $ do
(conn, outRef) <- ioConnRef
runConnection conn handler mCert
readIORef outRef `shouldReturn` expect
)
-- description, connection, handler, certificate, expectation
[ ( "basic connection", basicConn, basicH, Nothing, basicExp )
, ( "no certificate", basicConn, certH, Nothing, noCertExp )
, ( "with certificate", basicConn, certH, Just sampleCert, basicExp )
, ( "gibberish with CR/LF", gibConnCRLF, basicH, Nothing, gibExp )
, ( "gibberish w/o CR/LF", gibConn, basicH, Nothing, gibExp )
]
where
basicConn = mkIOConn ["gemini://example.com/\r\n"]
gibConnCRLF = mkIOConn ["aosidjgfoeribjeworifj\r\n"]
gibConn = mkIOConn ["sodifjboije"]
basicH _ = return newGemResponse { respBody = Just success }
certH req = return $ case reqCert req of
Nothing -> newGemResponse
{ respStatus = 60
, respMeta = "certificate required"
}
Just _ -> newGemResponse { respBody = Just success }
basicExp = ["20 text/gemini\r\nSuccess!\r\n"]
noCertExp = ["60 certificate required\r\n"]
gibExp = ["59 bad request\r\n"]
success = "Success!\r\n"
readURLSpec :: Spec
readURLSpec = describe "readURL" $ mapM_
( \(desc, ioConn, expect) -> context desc $
xit ("should return " ++ show expect) $
it ("should return " ++ show expect) $
do
conn <- ioConn
readURL conn `shouldReturn` expect
@@ -56,10 +102,10 @@ readURLSpec = describe "readURL" $ mapM_
]
where
validConn = mkConn "gemini://example.com/\r\n"
longConn = mkConn longBS
tooLongConn = mkConn tooLongBS
gibConn = mkConn "aosidjfwoeinboijwefr"
validConn = mkInConn ["gemini://example.com/\r\n"]
longConn = mkInConn [longBS]
tooLongConn = mkInConn [tooLongBS]
gibConn = mkInConn ["aosidjfwoeinboijwefr"]
longBS = BS.pack (take 1024 bytes) <> "\r\n"
tooLongBS = BS.pack (take 1025 bytes) <> "\r\n"
bytes = BS.unpack prefix ++ repeat (fromIntegral $ ord 'A')
@@ -67,23 +113,90 @@ readURLSpec = describe "readURL" $ mapM_
longExp = validExp { gemPath = [longDir] }
longDir = replicate (1024 - BS.length prefix) 'A'
prefix = "gemini://example.com/"
mkConn bs = do
s <- nullInput
unRead bs s
return sampleConnection { source = s }
sendResponseSpec :: Spec
sendResponseSpec = describe "sendResponse" $ return ()
sampleConnection :: Connection a
sampleConnection = Connection
{ source = undefined
, send = const $ return ()
, close = return ()
, connExtraInfo = undefined
}
strFromConnSpec :: Spec
strFromConnSpec = describe "strFromConn" $ return ()
strFromConnSpec = describe "strFromConn" $ mapM_
( \(desc, maxLen, ioConn, expect) -> context desc $
it ("should return " ++ show expect) $ do
conn <- ioConn
strFromConn maxLen conn `shouldReturn` expect
)
-- description, max size, connection, expected
[ ( "valid string", 100, mkInConn ["foo\r\n"], Just "foo" )
, ( "long string", 5, mkInConn ["too long\r\n"], Nothing )
, ( "no CR/LF", 100, mkInConn ["foo"], Nothing )
, ( "bad UTF-8", 100, mkInConn ["foo\xff\r\n"], Nothing )
, ( "non-ASCII", 100, mkInConn ["\xc3\xa9\r\n"], Just "\xe9" )
]
readMaxSpec :: Spec
readMaxSpec = describe "readMax" $ mapM_
( \(desc, maxLen, ioConn, expect) -> context desc $
it ("should return " ++ show expect) $ do
conn <- ioConn
readMax maxLen conn `shouldReturn` expect
)
-- description, max length, connection, expected
[ ( "single input", 1024, singleConn, Just singleBS )
, ( "multi input", 1024, multiConn, Just multiBS )
, ( "long input", longLen, longConn, Just longBS )
, ( "too long", pred longLen, longConn, Nothing )
, ( "empty input", 1024, mkInConn [], Just "" )
]
where
singleConn = mkInConn ["foo"]
multiConn = mkInConn ["foo", "bar", "baz"]
longConn = mkInConn [longBS]
longLen = BS.length longBS
singleBS = "foo"
multiBS = "foobarbaz"
longBS = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
stripCRLFSpec :: Spec
stripCRLFSpec = describe "stripCRLF" $ mapM_
( \(input, expected) -> context (show input) $
it ("should be" ++ show expected) $
stripCRLF input `shouldBe` expected
)
-- input, expectation
[ ( "foo\r\n", Just "foo" )
, ( "foo\n", Nothing )
, ( "foo", Nothing )
, ( "\r\n", Just "" )
]
mkIOConn :: [BS.ByteString] -> IO (Connection (), IORef [BSL.ByteString])
mkIOConn input = do
ref <- newIORef []
conn <-
( \c -> c { send = \bs -> modifyIORef' ref (++[bs]) }
) <$> mkInConn input
return (conn, ref)
mkInConn :: [BS.ByteString] -> IO (Connection ())
mkInConn bss = do
source <- nullInput
mapM_ (`unRead` source) (reverse bss)
let
send = const $ return ()
close = return ()
connExtraInfo = ()
return Connection {..}
sampleCert :: Certificate
sampleCert = Certificate
{ certVersion = undefined
, certSerial = undefined
, certSignatureAlg = undefined
, certIssuerDN = undefined
, certValidity = undefined
, certSubjectDN = undefined
, certPubKey = undefined
, certExtensions = undefined
}
--jl