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{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedStrings #-}
module ParseMail (readMail) where
import qualified Data.Attoparsec.ByteString.Char8 as A8
import qualified Data.ByteString as BS
import qualified Data.ByteString.Char8 as BS8
import qualified Data.ByteString.Lazy as LBS
import qualified Data.CaseInsensitive as CI
import qualified Data.Text as T
import qualified Data.Text.Encoding as T
import qualified Data.Text.Lazy as LT
import qualified Data.Text.Lazy.Encoding as LT
import qualified Network.Email.Header.Parser as P
import qualified Network.Email.Header.Types as H
import qualified Network.Mail.Mime as M
import Codec.MIME.Parse
import qualified Codec.MIME.QuotedPrintable as QP
import Codec.MIME.Type
import Control.Applicative
import Data.Monoid
import Data.Char
-- TODO eventually we want our completely own Address, i.e. w/o M.Address
data Address = Mailbox M.Address | Group T.Text [M.Address]
deriving (Show)
readMail :: T.Text -> M.Mail
readMail =
fromMIMEValue . parseMIMEMessage
fromMIMEValue :: MIMEValue -> M.Mail
fromMIMEValue val0 =
let m = foldr f (M.emptyMail $ M.Address Nothing "anonymous@localhost")
$ fromMIMEParams
$ mime_val_headers val0
in m { M.mailParts = [part val0] }
where
part val =
case mime_val_content val of
Single content ->
(:[]) $
M.Part
-- TODO actually check if we're utf-8 or ascii(?)
{ M.partType = "text/plain; charset=utf-8"
, M.partEncoding = M.QuotedPrintableText
, M.partFilename = Nothing
, M.partHeaders = []
, M.partContent = LT.encodeUtf8 $ LT.fromStrict content
}
Multi vals ->
concatMap part vals
--f :: H.Header -> M.Mail -> M.Mail
f (k, v) m = case k of
"from" ->
m { M.mailFrom = case parseAddress (LBS.toStrict v) of
Left msg -> error msg
Right Nothing -> M.mailFrom m
Right (Just (Mailbox a)) -> a
Right (Just (Group _ _)) ->
error "cannot use group in from header"
}
"to" ->
m { M.mailTo =
mconcat $
map (\case
Mailbox a -> [a]
Group _ as -> as
) $
either error id $
parseAddresses $
LBS.toStrict v
}
"cc" ->
m { M.mailCc =
mconcat $
map (\case
Mailbox a -> [a]
Group _ as -> as
) $
either error id $
parseAddresses $
LBS.toStrict v
}
"bcc" ->
m { M.mailBcc =
mconcat $
map (\case
Mailbox a -> [a]
Group _ as -> as
) $
either error id $
parseAddresses $
LBS.toStrict v
}
_ ->
m { M.mailHeaders =
( CI.original k
, either
(const "I am made of stupid")
LT.toStrict
(LT.decodeUtf8' v)
) :
M.mailHeaders m
}
parseAddress :: BS.ByteString -> Either String (Maybe Address)
parseAddress =
A8.parseOnly (P.cfws *> (Just <$> address <|> return Nothing) <* A8.endOfInput)
parseAddresses :: BS.ByteString -> Either String [Address]
parseAddresses =
A8.parseOnly (P.cfws *> address `A8.sepBy1` A8.char ',' <* A8.endOfInput)
fromMIMEParams :: [MIMEParam] -> H.Headers
fromMIMEParams =
map $ \(MIMEParam k v) ->
(CI.mk $ T.encodeUtf8 $ CI.original k, LT.encodeUtf8 $ LT.fromStrict v)
-- TODO we should probably use email-header
-- address = mailbox ; one addressee
-- / group ; named list
address :: A8.Parser Address
address =
(A8.<?> "address") $
Mailbox <$> mailbox
<|>
group
-- group = phrase ":" [#mailbox] ";"
group :: A8.Parser Address
group =
(A8.<?> "group") $
Group
<$> T.intercalate "," <$> phrase
<* A8.char ':'
<*> mailbox `A8.sepBy` A8.many1 (A8.char ',')
<* A8.char ';'
-- mailbox = addr-spec ; simple address
-- / phrase route-addr ; name & addr-spec
mailbox :: A8.Parser M.Address
mailbox =
(A8.<?> "mailbox") $
M.Address Nothing <$> addrSpec <|>
M.Address . Just . T.intercalate " " <$> A8.option [] phrase <*> routeAddr
-- route-addr = "<" [route] addr-spec ">"
routeAddr :: A8.Parser T.Text
routeAddr =
(A8.<?> "routeAddr") $
P.cfws *>
A8.char '<' *>
-- TODO A8.option [] route <*>
addrSpec <*
A8.char '>'
---- route = 1#("@" domain) ":" ; path-relative
--route :: A8.Parser [T.Text]
--route =
-- (A8.<?> "route") $
-- A8.many1 (A8.char '@' *> domain) <* A8.char ':'
-- addr-spec = local-part "@" domain ; global address
addrSpec :: A8.Parser T.Text
addrSpec =
(A8.<?> "addrSpec") $ do
a <- localPart
b <- T.singleton <$> A8.char '@'
c <- domain
return $ a <> b <> c
-- local-part = word *("." word) ; uninterpreted
-- ; case-preserved
localPart :: A8.Parser T.Text
localPart =
(A8.<?> "localPart") $
T.intercalate "." <$> (word `A8.sepBy1` A8.char '.')
-- domain = sub-domain *("." sub-domain)
domain :: A8.Parser T.Text
domain =
(A8.<?> "domain") $
T.intercalate "." <$> (subDomain `A8.sepBy1` A8.char '.')
-- sub-domain = domain-ref / domain-literal
subDomain :: A8.Parser T.Text
subDomain =
(A8.<?> "subDomain") $
domainRef <|> domainLiteral
-- domain-ref = atom ; symbolic reference
domainRef :: A8.Parser T.Text
domainRef =
(A8.<?> "domainRef") $
atom
-- atom = 1*<any CHAR except specials, SPACE and CTLs>
atom :: A8.Parser T.Text
atom =
(A8.<?> "atom") $
P.cfws *>
(T.pack <$> A8.many1 (A8.satisfy $ A8.notInClass atomClass))
-- domain-literal = "[" *(dtext / quoted-pair) "]"
domainLiteral :: A8.Parser T.Text
domainLiteral =
(A8.<?> "domainLiteral") $
T.pack <$>
(A8.char '[' *> A8.many' (dtext <|> quotedPair) <* A8.char ']')
-- dtext = <any CHAR excluding "[", ; => may be folded
-- "]", "\" & CR, & including
-- linear-white-space>
dtext :: A8.Parser Char
dtext =
(A8.<?> "dtext") $
A8.satisfy (A8.notInClass "[]\\\CR")
-- phrase = 1*word
phrase :: A8.Parser [T.Text]
phrase =
(A8.<?> "phrase") $
A8.many1 word
-- qtext = <any CHAR excepting <">, ; => may be folded
-- "\" & CR, and including
-- linear-white-space>
qtext :: A8.Parser Char
qtext =
(A8.<?> "qtext") $
A8.satisfy (A8.notInClass "\"\\\CR")
-- quoted-pair = "\" CHAR
quotedPair :: A8.Parser Char
quotedPair =
(A8.<?> "quotedPair") $
A8.char '\\' *> A8.anyChar
-- quoted-string = <"> *(qtext/quoted-pair) <">; Regular qtext or
-- ; quoted chars.
quotedString :: A8.Parser T.Text
quotedString =
(A8.<?> "quotedString") $
T.pack <$> (A8.char '"' *> A8.many' (qtext <|> quotedPair) <* A8.char '"')
encodedWord :: A8.Parser T.Text
encodedWord =
(A8.<?> "encodedWord") $ do
_ <- A8.string "=?"
_ <- A8.string "utf-8" -- TODO 1. CI, 2. other encodings
_ <- A8.string "?Q?"
w <- A8.manyTill A8.anyChar (A8.string "?=") -- TODO all of them
return
$ T.decodeUtf8
$ BS8.pack
$ QP.decode
-- ^ TODO this current doesn't decode
-- underscore to space
$ map (\c -> if c == '_' then ' ' else c)
$ w
-- word = encoded-word / atom / quoted-string
-- ^ TODO what's the correct term for that?
word :: A8.Parser T.Text
word =
(A8.<?> "word") $
encodedWord <|> atom <|> quotedString
atomClass :: [Char]
atomClass = specialClass ++ spaceClass ++ ctlClass
specialClass :: [Char]
specialClass = "()<>@,;:\\\".[]"
spaceClass :: [Char]
spaceClass = " "
ctlClass :: [Char]
ctlClass = map chr $ [0..31] ++ [127]
|
