{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}

module Network.HTTP2.Server.Run where

import UnliftIO.Async (concurrently_)
import qualified UnliftIO.Exception as E

import Imports
import Network.HTTP2.Arch
import Network.HTTP2.Frame
import Network.HTTP2.Server.Types
import Network.HTTP2.Server.Worker

----------------------------------------------------------------

-- | Running HTTP/2 server.
run :: Config -> Server -> IO ()
run :: Config -> Server -> IO ()
run conf :: Config
conf@Config{BufferSize
Buffer
Manager
BufferSize -> IO ByteString
PositionReadMaker
ByteString -> IO ()
confTimeoutManager :: Config -> Manager
confPositionReadMaker :: Config -> PositionReadMaker
confReadN :: Config -> BufferSize -> IO ByteString
confSendAll :: Config -> ByteString -> IO ()
confBufferSize :: Config -> BufferSize
confWriteBuffer :: Config -> Buffer
confTimeoutManager :: Manager
confPositionReadMaker :: PositionReadMaker
confReadN :: BufferSize -> IO ByteString
confSendAll :: ByteString -> IO ()
confBufferSize :: BufferSize
confWriteBuffer :: Buffer
..} Server
server = do
    Bool
ok <- IO Bool
checkPreface
    forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when Bool
ok forall a b. (a -> b) -> a -> b
$ do
        RoleInfo
serverInfo <- IO RoleInfo
newServerInfo
        Context
ctx <- RoleInfo -> BufferSize -> IO Context
newContext RoleInfo
serverInfo BufferSize
confBufferSize
        -- Workers, worker manager and timer manager
        Manager
mgr <- Manager -> IO Manager
start Manager
confTimeoutManager
        let wc :: WorkerConf Stream
wc = Context -> WorkerConf Stream
fromContext Context
ctx
        Manager -> IO () -> IO ()
setAction Manager
mgr forall a b. (a -> b) -> a -> b
$ forall a. WorkerConf a -> Manager -> Server -> IO ()
worker WorkerConf Stream
wc Manager
mgr Server
server
        -- The number of workers is 3.
        -- This was carefully chosen based on a lot of benchmarks.
        -- If it is 1, we cannot avoid head-of-line blocking.
        -- If it is large, huge memory is consumed and many
        -- context switches happen.
        forall (m :: * -> *) a. Applicative m => BufferSize -> m a -> m ()
replicateM_ BufferSize
3 forall a b. (a -> b) -> a -> b
$ Manager -> IO ()
spawnAction Manager
mgr
        let runReceiver :: IO ()
runReceiver = Context -> Config -> IO ()
frameReceiver Context
ctx Config
conf
            runSender :: IO ()
runSender   = Context -> Config -> Manager -> IO ()
frameSender   Context
ctx Config
conf Manager
mgr
        forall (m :: * -> *) a b. MonadUnliftIO m => m a -> m b -> m ()
concurrently_ IO ()
runReceiver IO ()
runSender forall (m :: * -> *) a b. MonadUnliftIO m => m a -> m b -> m a
`E.finally` Manager -> IO ()
stop Manager
mgr
  where
    checkPreface :: IO Bool
checkPreface = do
        ByteString
preface <- BufferSize -> IO ByteString
confReadN BufferSize
connectionPrefaceLength
        if ByteString
connectionPreface forall a. Eq a => a -> a -> Bool
/= ByteString
preface then do
            Config -> ErrorCode -> ByteString -> IO ()
goaway Config
conf ErrorCode
ProtocolError ByteString
"Preface mismatch"
            forall (m :: * -> *) a. Monad m => a -> m a
return Bool
False
          else
            forall (m :: * -> *) a. Monad m => a -> m a
return Bool
True

-- connClose must not be called here since Run:fork calls it
goaway :: Config -> ErrorCode -> ByteString -> IO ()
goaway :: Config -> ErrorCode -> ByteString -> IO ()
goaway Config{BufferSize
Buffer
Manager
BufferSize -> IO ByteString
PositionReadMaker
ByteString -> IO ()
confTimeoutManager :: Manager
confPositionReadMaker :: PositionReadMaker
confReadN :: BufferSize -> IO ByteString
confSendAll :: ByteString -> IO ()
confBufferSize :: BufferSize
confWriteBuffer :: Buffer
confTimeoutManager :: Config -> Manager
confPositionReadMaker :: Config -> PositionReadMaker
confReadN :: Config -> BufferSize -> IO ByteString
confSendAll :: Config -> ByteString -> IO ()
confBufferSize :: Config -> BufferSize
confWriteBuffer :: Config -> Buffer
..} ErrorCode
etype ByteString
debugmsg = ByteString -> IO ()
confSendAll ByteString
bytestream
  where
    bytestream :: ByteString
bytestream = BufferSize -> ErrorCode -> ByteString -> ByteString
goawayFrame BufferSize
0 ErrorCode
etype ByteString
debugmsg