shrub/pkg/hs/urbit-king/lib/Urbit/Vere/Http/Client.hs
2020-09-09 18:20:21 -07:00

208 lines
7.0 KiB
Haskell

{-|
Http Client Driver
TODO When making a request, handle the case where the request id is
already in use.
-}
module Urbit.Vere.Http.Client where
import Urbit.Prelude hiding (Builder)
import Urbit.Vere.Http
import Urbit.Vere.Pier.Types
import Urbit.King.App
import Urbit.Arvo (BlipEv(..), Ev(..), HttpClientEf(..), HttpClientEv(..),
HttpClientReq(..), HttpEvent(..), KingId, ResponseHeader(..))
import qualified Data.Map as M
import qualified Network.HTTP.Client as H
import qualified Network.HTTP.Client.TLS as TLS
import qualified Network.HTTP.Types as HT
-- Types -----------------------------------------------------------------------
type ReqId = Word
data HttpClientDrv = HttpClientDrv
{ hcdManager :: H.Manager
, hcdLive :: TVar (Map ReqId (Async ()))
}
--------------------------------------------------------------------------------
cvtReq :: HttpClientReq -> Maybe H.Request
cvtReq r =
H.parseRequest (unpack (unCord $ url r)) <&> \init -> init
{ H.method = encodeUtf8 $ tshow (method r)
, H.requestHeaders = unconvertHeaders (headerList r)
, H.requestBody =
H.RequestBodyBS $ case body r of
Nothing -> ""
Just (Octs bs) -> bs
}
cvtRespHeaders :: H.Response a -> ResponseHeader
cvtRespHeaders resp =
ResponseHeader (fromIntegral $ HT.statusCode (H.responseStatus resp)) heads
where
heads = convertHeaders (H.responseHeaders resp)
bornEv :: KingId -> Ev
bornEv king =
EvBlip $ BlipEvHttpClient $ HttpClientEvBorn (king, ()) ()
--------------------------------------------------------------------------------
_bornFailed :: e -> WorkError -> IO ()
_bornFailed env _ = runRIO env $ do
pure () -- TODO What to do in this case?
client'
:: HasPierEnv e
=> RIO e ([Ev], RAcquire e (DriverApi HttpClientEf))
client' = do
ventQ :: TQueue EvErr <- newTQueueIO
env <- ask
let (bornEvs, startDriver) = client env (writeTQueue ventQ)
let runDriver = do
diOnEffect <- startDriver
let diEventSource = fmap RRWork <$> tryReadTQueue ventQ
pure (DriverApi {..})
pure (bornEvs, runDriver)
{-|
Iris -- HTTP Client Driver
Until born events succeeds, ignore effects.
Wait until born event callbacks invoked.
If success, signal success.
If failure, try again several times.
If still failure, bring down ship.
Once born event succeeds, hold on to effects.
Once all other drivers have booted:
- Execute stashed effects.
- Begin normal operation (start accepting requests)
-}
client
:: forall e
. (HasLogFunc e, HasKingId e)
=> e
-> (EvErr -> STM ())
-> ([Ev], RAcquire e (HttpClientEf -> IO ()))
client env plan = (initialEvents, runHttpClient)
where
kingId = view (kingIdL . to fromIntegral) env
initialEvents :: [Ev]
initialEvents = [bornEv kingId]
runHttpClient :: RAcquire e (HttpClientEf -> IO ())
runHttpClient = handleEffect <$> mkRAcquire start stop
start :: RIO e (HttpClientDrv)
start = HttpClientDrv <$>
(io $ H.newManager TLS.tlsManagerSettings) <*>
newTVarIO M.empty
stop :: HttpClientDrv -> RIO e ()
stop HttpClientDrv{..} = do
-- Cancel all the outstanding asyncs, ignoring any exceptions.
liveThreads <- atomically $ readTVar hcdLive
mapM_ cancel liveThreads
handleEffect :: HttpClientDrv -> HttpClientEf -> IO ()
handleEffect drv = \case
HCERequest _ id req -> runRIO env (newReq drv id req)
HCECancelRequest _ id -> runRIO env (cancelReq drv id)
newReq :: HttpClientDrv -> ReqId -> HttpClientReq -> RIO e ()
newReq drv id req = do
async <- runReq drv id req
atomically $ modifyTVar (hcdLive drv) (insertMap id async)
-- The problem with the original http client code was that it was written
-- to the idea of what the events "should have" been instead of what they
-- actually were. This means that this driver doesn't run like the vere
-- http client driver. The vere driver was written assuming that parts of
-- events could be compressed together: a Start might contain the only
-- chunk of data and immediately complete, where here the Start event, the
-- Continue (with File) event, and the Continue (completed) event are three
-- separate things.
runReq :: HttpClientDrv -> ReqId -> HttpClientReq -> RIO e (Async ())
runReq HttpClientDrv{..} id req = async $
case cvtReq req of
Nothing -> do
logInfo $ displayShow ("(malformed http client request)", id, req)
planEvent id (Cancel ())
Just r -> do
logDebug $ displayShow ("(http client request)", id, req)
withRunInIO $ \run ->
H.withResponse r hcdManager $ \x -> run (exec x)
where
recv :: H.BodyReader -> RIO e (Maybe ByteString)
recv read = io $ read <&> \case chunk | null chunk -> Nothing
| otherwise -> Just chunk
exec :: H.Response H.BodyReader -> RIO e ()
exec resp = do
let headers = cvtRespHeaders resp
getChunk = recv (H.responseBody resp)
loop = getChunk >>= \case
Nothing -> planEvent id (Continue Nothing True)
Just bs -> do
planEvent id $
Continue (Just $ File $ Octs bs) False
loop
planEvent id (Start headers Nothing False)
loop
planEvent :: ReqId -> HttpEvent -> RIO e ()
planEvent id ev = do
logDebug $ displayShow ("(http client response)", id, (describe ev))
let recvEv = EvBlip
$ BlipEvHttpClient
$ HttpClientEvReceive (kingId, ()) (fromIntegral id) ev
let recvFailed _ = pure ()
atomically $ plan (EvErr recvEv recvFailed)
-- show an HttpEvent with byte count instead of raw data
describe :: HttpEvent -> String
describe (Start header Nothing final) =
"(Start " ++ (show header) ++ " ~ " ++ (show final)
describe (Start header (Just (File (Octs bs))) final) =
"(Start " ++ (show header) ++ " (" ++ (show $ length bs) ++ " bytes) " ++
(show final)
describe (Continue Nothing final) =
"(Continue ~ " ++ (show final)
describe (Continue (Just (File (Octs bs))) final) =
"(Continue (" ++ (show $ length bs) ++ " bytes) " ++ (show final)
describe (Cancel ()) = "(Cancel ())"
waitCancel :: Async a -> RIO e (Either SomeException a)
waitCancel async = cancel async >> waitCatch async
cancelThread :: ReqId -> Async a -> RIO e ()
cancelThread id =
waitCancel >=> \case Left _ -> planEvent id $ Cancel ()
Right _ -> pure ()
cancelReq :: HttpClientDrv -> ReqId -> RIO e ()
cancelReq drv id =
join $ atomically $ do
tbl <- readTVar (hcdLive drv)
case lookup id tbl of
Nothing -> pure (pure ())
Just async -> do writeTVar (hcdLive drv) (deleteMap id tbl)
pure (cancelThread id async)