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{-# LANGUAGE ApplicativeDo #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DerivingStrategies #-}
{-# LANGUAGE DerivingVia #-}
{-# LANGUAGE GHC2021 #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedRecordDot #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE QuasiQuotes #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE NoFieldSelectors #-}
{-# OPTIONS_GHC -Wall #-}
module Main where
import Aeson (parseErrorTree)
import Control.Exception (try)
import Control.Monad (replicateM)
import Data.Aeson qualified as Json
import Data.Aeson.BetterErrors qualified as Json
import Data.Aeson.KeyMap qualified as KeyMap
import Data.ByteString qualified as ByteString
import Data.ByteString.Char8 qualified as Char8
import Data.Error.Tree
import Data.Functor.Compose
import Data.List qualified as List
import Data.Map.Strict qualified as Map
import Data.Text qualified as Text
import ExecHelpers
import GHC.Records (HasField (..))
import Label
import MyPrelude
import Netencode qualified
import Network.HTTP.Conduit qualified as Client
import Network.HTTP.Simple qualified as Client
import Pretty
import System.Directory qualified as File
import System.Environment qualified as Env
import System.Exit qualified as Exit
import System.FilePath ((</>))
import System.Process qualified as Proc
import System.Random qualified as Random
import System.Random.Stateful qualified as Random
import Prelude hiding (log)
import qualified Netencode.Parse as NetParse
secret :: IO (T2 "email" ByteString "password" ByteString)
secret = do
T2
(label @"email" "mail@profpatsch.de")
<$> (label @"password" <$> fromPass "email/mailbox.org")
where
fromPass name =
Proc.readProcess "pass" [name] ""
<&> stringToText
<&> textToBytesUtf8
<&> Char8.strip
progName :: CurrentProgramName
progName = "mailbox-org"
log :: Error -> IO ()
log err = do
putStderrLn (errorContext progName.unCurrentProgramName err & prettyError)
data Tools = Tools
{ sieveTest :: Tool
}
deriving stock (Show)
newtype Tool = Tool FilePath
deriving stock Show
parseTools :: Applicative m => (Text -> m (Either Error Tool)) -> m (Either ErrorTree Tools)
parseTools getTool = do
( do
sieveTest <- get "sieve-test"
pure Tools {..}
).getCompose <&> first (errorTree "Error reading tools") <&> validationToEither
where
get name = name & getTool <&> eitherToListValidation & Compose
-- | Parse the tools from the given arglib input, and check that the executables exist
parseToolsArglib :: Netencode.T -> IO Tools
parseToolsArglib t = do
let oneTool name =
NetParse.asText
<&> textToString
<&> ( \path ->
path
& File.getPermissions
<&> File.executable
<&> ( \case
False -> Left $ [fmt|Tool "{name}" is not an executable|]
True -> Right (Tool path)
)
)
let allTools =
parseTools (\name -> Compose $ NetParse.key name >>> oneTool name)
& getCompose
t
& NetParse.runParse
"test"
-- TODO: a proper ParseT for netencode values
( NetParse.asRecord
>>> NetParse.key "BINS"
>>> NetParse.asRecord
>>> allTools
)
& orDo diePanic'
& join @IO
>>= orDo (\errs -> errs & diePanic')
-- | Just assume the tools exist by name in the environment.
parseToolsToolname :: IO Tools
parseToolsToolname =
parseTools
( \name ->
checkInPath name <&> \case
False -> Left [fmt|"Cannot find "{name}" in PATH|]
True -> Right $ Tool (name & textToString)
)
>>= orDo diePanic'
checkInPath :: Text -> IO Bool
checkInPath name = do
Env.lookupEnv "PATH"
<&> annotate "No PATH set"
>>= orDo diePanic'
<&> stringToText
<&> Text.split (== ':')
<&> filter (/= "")
>>= traverse
( \p ->
File.getPermissions ((textToString p) </> (textToString name))
<&> File.executable
& try @IOError
>>= \case
Left _ioError -> pure False
Right isExe -> pure isExe
)
<&> or
diePanic' :: ErrorTree -> IO a
diePanic' errs = errs & prettyErrorTree & diePanic progName
orDo :: Applicative f => (t -> f a) -> Either t a -> f a
orDo f = \case
Left e -> f e
Right a -> pure a
main :: IO ()
main =
secret
>>= run applyFilters
run ::
( HasField "email" dat ByteString,
HasField "password" dat ByteString
) =>
(Session -> IO ()) ->
dat ->
IO ()
run act loginData = do
session <- login loginData
act session
listFilterConfig :: Session -> IO ()
listFilterConfig session = do
mailfilter
session
"config"
mempty
(Json.key "data" Json.asObject)
()
>>= printPretty
applyFilterRule ::
( HasField "folderId" dat Text,
HasField "rulename" dat Text
) =>
dat ->
Session ->
IO ()
applyFilterRule dat session = do
mailfilter
session
"apply"
( T2
(label @"extraQueryParams" [("folderId", Just (dat.folderId & textToBytesUtf8))])
mempty
)
(Json.key "data" Json.asArray >> pure ())
(Json.Object mempty)
data FilterRule = FilterRule
{ actioncmds :: NonEmpty Json.Object,
test :: NonEmpty Json.Object
}
data MailfilterList = MailfilterList
{ id_ :: Json.Value,
rulename :: Text
}
deriving stock (Show, Eq)
applyFilters :: Session -> IO ()
applyFilters session = do
filters <-
mailfilter
session
"list"
mempty
( Json.key "data" $ do
( Json.eachInArray $ asDat @"mailfilter" $ do
id_ <- Json.key "id" Json.asValue
rulename <- Json.key "rulename" Json.asText
pure MailfilterList {..}
)
<&> mapFromListOn (\dat -> getLabel @"rulename" dat.parsed)
)
([] :: [()])
let goal = Map.fromList [(label @"rulename" "another", 32), (label @"rulename" "xyz", 23)]
let actions = declarativeUpdate goal filters
log [fmt|To * create: {actions.toCreate & Map.keys & show}, * update: {actions.toUpdate & Map.keys & show}, * delete: {actions.toDelete & Map.keys & show}|]
where
-- filters
-- & Map.elems
-- & traverse_
-- ( updateIfDifferent
-- session
-- ( \el ->
-- pure $
-- el.original.mailfilter
-- & KeyMap.insert "active" (Json.Bool False)
-- )
-- (pure ())
-- )
mapFromListOn :: Ord k => (a -> k) -> [a] -> Map k a
mapFromListOn on xs = xs <&> (\x -> (on x, x)) & Map.fromList
updateIfDifferent ::
forall label parsed.
( HasField "id_" parsed Json.Value,
HasField "rulename" parsed Text
) =>
Session ->
(Dat label Json.Object parsed -> IO Json.Object) ->
Json.Parse Error () ->
Dat label Json.Object parsed ->
IO ()
updateIfDifferent session switcheroo parser dat = do
new <- switcheroo dat
if new /= getField @label dat.original
then do
log [fmt|Updating filter "{dat.parsed.rulename}" (id {dat.parsed.id_ & show @Json.Value})|]
mailfilter
session
"update"
mempty
parser
new
else do
log [fmt|Skipping updating filter "{dat.parsed.rulename}" (id {dat.parsed.id_ & show @Json.Value}) because nothing changed.|]
-- | https://oxpedia.org/wiki/index.php?title=HTTP_API_MailFilter
mailfilter ::
( Json.ToJSON a,
Show b
) =>
Session ->
ByteString ->
T2
"extraQueryParams"
Client.Query
"httpMethod"
(Maybe ByteString) ->
Json.Parse Error b ->
a ->
IO b
mailfilter session action opts parser body = do
req <-
Client.parseRequest "https://office.mailbox.org/appsuite/api/mailfilter/v2"
<&> Client.setQueryString
( [ ("action", Just action),
("colums", Just "1")
]
<> opts.extraQueryParams
)
<&> Client.setRequestMethod (opts.httpMethod & fromMaybe "PUT")
<&> Client.setRequestBodyJSON body
<&> addSession session
req
& httpJSON [fmt|Cannot parse result for {req & prettyRequestShort}|] parser
>>= okOrDie
-- >>= (\resp -> printPretty resp >> pure resp)
<&> Client.responseBody
where
prettyRequestShort :: Client.Request -> Text
prettyRequestShort req = [fmt|request {req & Client.method}: {req & Client.host}{req & Client.path}{req & Client.queryString}|]
-- | Given a goal and the actual state, return which elements to delete, update and create.
declarativeUpdate ::
Ord k =>
-- | goal map
Map k a ->
-- | actual map
Map k b ->
T3
"toCreate"
(Map k a)
"toDelete"
(Map k b)
"toUpdate"
(Map k a)
declarativeUpdate goal actual =
T3
(label @"toCreate" $ goal `Map.difference` actual)
(label @"toDelete" $ actual `Map.difference` goal)
(label @"toUpdate" $ goal `Map.intersection` actual)
newtype Session = Session Client.CookieJar
httpJSON ::
Error ->
Json.Parse Error b ->
Client.Request ->
IO (Client.Response b)
httpJSON errMsg parser req = do
req
& Client.httpJSON @_ @Json.Value
>>= traverse
( \val -> do
case val of
Json.Object obj
| "error" `KeyMap.member` obj
&& "error_desc" `KeyMap.member` obj -> do
printPretty obj
diePanic' "Server returned above inline error"
_ -> pure ()
val & Json.parseValue parser & \case
Left errs ->
errs
& parseErrorTree errMsg
& diePanic'
Right a -> pure a
)
data Dat label orig parsed = Dat
{ original :: Label label orig,
parsed :: parsed
}
deriving stock (Show, Eq)
asDat ::
forall label err m a.
Monad m =>
Json.ParseT err m a ->
Json.ParseT err m (Dat label Json.Object a)
asDat parser = do
original <- label @label <$> Json.asObject
parsed <- parser
pure Dat {..}
addSession :: Session -> Client.Request -> Client.Request
addSession (Session jar) req = do
let sessionId =
jar
& Client.destroyCookieJar
& List.find (\c -> "open-xchange-session-" `ByteString.isPrefixOf` c.cookie_name)
& annotate "The cookie jar did not contain an open-exchange-session-*"
& unwrapError
& (.cookie_value)
let req' = req & Client.addToRequestQueryString [("session", Just sessionId)]
req' {Client.cookieJar = Just jar}
-- | Log into the mailbox.org service, and return the session secret cookies.
login :: (HasField "email" dat ByteString, HasField "password" dat ByteString) => dat -> IO Session
login dat = do
rnd <- randomString
req <-
Client.parseRequest "https://office.mailbox.org/ajax/login"
<&> Client.setQueryString
[ ("action", Just "formlogin"),
("authId", Just $ ("mbo-" <> rnd) & stringToText & textToBytesUtf8)
]
<&> Client.urlEncodedBody
[ ("version", "Form+Login"),
("autologin", "true"),
("client", "open-xchange-appsuite"),
("uiWebPath", "/appsuite/"),
("login", dat.email),
("password", dat.password)
]
Client.httpNoBody req
>>= okOrDie
<&> Client.responseCookieJar
<&> Session
where
-- For some reason they want the client to pass a random string
-- which is used for the session?‽!?
randomString = do
gen <- Random.newIOGenM =<< Random.newStdGen
let chars = ['a' .. 'z'] <> ['A' .. 'Z'] <> ['0' .. '9']
let len = 11
Random.uniformRM (0, List.length chars - 1) gen
& replicateM len
<&> map (\index -> chars !! index)
okOrDie :: Show a => Client.Response a -> IO (Client.Response a)
okOrDie resp =
case resp & Client.getResponseStatusCode of
200 -> pure resp
_ -> do
printPretty resp
Exit.die "non-200 result"
|