module Network.Mail.Mime
(
Boundary (..)
, Mail (..)
, emptyMail
, Address (..)
, Alternatives
, Part (..)
, Encoding (..)
, Headers
, renderMail
, renderMail'
, sendmail
, sendmailCustom
, renderSendMail
, renderSendMailCustom
, simpleMail
, simpleMail'
, simpleMailInMemory
, addPart
, addAttachment
, addAttachments
, addAttachmentBS
, addAttachmentsBS
, htmlPart
, plainPart
, randomString
, quotedPrintable
) where
import qualified Data.ByteString.Lazy as L
import Blaze.ByteString.Builder.Char.Utf8
import Blaze.ByteString.Builder
import Data.Monoid
import System.Random
import Control.Arrow
import System.Process
import System.IO
import System.Exit
import System.FilePath (takeFileName)
import qualified Data.ByteString.Base64 as Base64
import Control.Monad ((<=<), foldM)
import Control.Exception (throwIO, ErrorCall (ErrorCall))
import Data.List (intersperse)
import qualified Data.Text.Lazy as LT
import qualified Data.Text.Lazy.Encoding as LT
import Data.ByteString.Char8 ()
import Data.Bits ((.&.), shiftR)
import Data.Char (isAscii)
import Data.Word (Word8)
import qualified Data.ByteString as S
import Data.Text (Text)
import qualified Data.Text as T
import qualified Data.Text.Encoding as TE
randomString :: RandomGen d => Int -> d -> (String, d)
randomString len =
first (map toChar) . sequence' (replicate len (randomR (0, 61)))
where
sequence' [] g = ([], g)
sequence' (f:fs) g =
let (f', g') = f g
(fs', g'') = sequence' fs g'
in (f' : fs', g'')
toChar i
| i < 26 = toEnum $ i + fromEnum 'A'
| i < 52 = toEnum $ i + fromEnum 'a' 26
| otherwise = toEnum $ i + fromEnum '0' 52
newtype Boundary = Boundary { unBoundary :: Text }
deriving Show
instance Random Boundary where
randomR = const random
random = first (Boundary . T.pack) . randomString 10
data Mail = Mail
{ mailFrom :: Address
, mailTo :: [Address]
, mailCc :: [Address]
, mailBcc :: [Address]
, mailHeaders :: Headers
, mailParts :: [Alternatives]
}
deriving Show
emptyMail :: Address -> Mail
emptyMail from = Mail
{ mailFrom = from
, mailTo = []
, mailCc = []
, mailBcc = []
, mailHeaders = []
, mailParts = []
}
data Address = Address
{ addressName :: Maybe Text
, addressEmail :: Text
}
deriving Show
data Encoding = None | Base64 | QuotedPrintableText | QuotedPrintableBinary
deriving Show
type Alternatives = [Part]
data Part = Part
{ partType :: Text
, partEncoding :: Encoding
, partFilename :: Maybe Text
, partHeaders :: Headers
, partContent :: L.ByteString
}
deriving Show
type Headers = [(S.ByteString, Text)]
type Pair = (Headers, Builder)
partToPair :: Part -> Pair
partToPair (Part contentType encoding disposition headers content) =
(headers', builder)
where
headers' =
((:) ("Content-Type", contentType))
$ (case encoding of
None -> id
Base64 -> (:) ("Content-Transfer-Encoding", "base64")
QuotedPrintableText ->
(:) ("Content-Transfer-Encoding", "quoted-printable")
QuotedPrintableBinary ->
(:) ("Content-Transfer-Encoding", "quoted-printable"))
$ (case disposition of
Nothing -> id
Just fn ->
(:) ("Content-Disposition", "attachment; filename="
`T.append` fn))
$ headers
builder =
case encoding of
None -> fromWriteList writeByteString $ L.toChunks content
Base64 -> base64 content
QuotedPrintableText -> quotedPrintable True content
QuotedPrintableBinary -> quotedPrintable False content
showPairs :: RandomGen g
=> Text
-> [Pair]
-> g
-> (Pair, g)
showPairs _ [] _ = error "renderParts called with null parts"
showPairs _ [pair] gen = (pair, gen)
showPairs mtype parts gen =
((headers, builder), gen')
where
(Boundary b, gen') = random gen
headers =
[ ("Content-Type", T.concat
[ "multipart/"
, mtype
, "; boundary=\""
, b
, "\""
])
]
builder = mconcat
[ mconcat $ intersperse (fromByteString "\n")
$ map (showBoundPart $ Boundary b) parts
, showBoundEnd $ Boundary b
]
renderMail :: RandomGen g => g -> Mail -> (L.ByteString, g)
renderMail g0 (Mail from to cc bcc headers parts) =
(toLazyByteString builder, g'')
where
addressHeaders = map showAddressHeader [("From", [from]), ("To", to), ("Cc", cc), ("Bcc", bcc)]
pairs = map (map partToPair) parts
(pairs', g') = helper g0 $ map (showPairs "alternative") pairs
helper :: g -> [g -> (x, g)] -> ([x], g)
helper g [] = ([], g)
helper g (x:xs) =
let (b, g_) = x g
(bs, g__) = helper g_ xs
in (b : bs, g__)
((finalHeaders, finalBuilder), g'') = showPairs "mixed" pairs' g'
builder = mconcat
[ mconcat addressHeaders
, mconcat $ map showHeader headers
, showHeader ("MIME-Version", "1.0")
, mconcat $ map showHeader finalHeaders
, fromByteString "\n"
, finalBuilder
]
showHeader :: (S.ByteString, Text) -> Builder
showHeader (k, v) = mconcat
[ fromByteString k
, fromByteString ": "
, encodeIfNeeded v
, fromByteString "\n"
]
showAddressHeader :: (S.ByteString, [Address]) -> Builder
showAddressHeader (k, as) =
if null as
then mempty
else mconcat
[ fromByteString k
, fromByteString ": "
, mconcat (intersperse (fromByteString ", ") . map showAddress $ as)
, fromByteString "\n"
]
showAddress :: Address -> Builder
showAddress a = mconcat
[ maybe mempty ((`mappend` fromByteString " ") . encodedWord) (addressName a)
, fromByteString "<"
, fromText (addressEmail a)
, fromByteString ">"
]
showBoundPart :: Boundary -> (Headers, Builder) -> Builder
showBoundPart (Boundary b) (headers, content) = mconcat
[ fromByteString "--"
, fromText b
, fromByteString "\n"
, mconcat $ map showHeader headers
, fromByteString "\n"
, content
]
showBoundEnd :: Boundary -> Builder
showBoundEnd (Boundary b) = mconcat
[ fromByteString "\n--"
, fromText b
, fromByteString "--"
]
renderMail' :: Mail -> IO L.ByteString
renderMail' m = do
g <- getStdGen
let (lbs, g') = renderMail g m
setStdGen g'
return lbs
sendmail :: L.ByteString -> IO ()
sendmail = sendmailCustom sendmailPath ["-t"]
sendmailPath :: String
#ifdef MIME_MAIL_SENDMAIL_PATH
sendmailPath = MIME_MAIL_SENDMAIL_PATH
#else
sendmailPath = "/usr/sbin/sendmail"
#endif
renderSendMail :: Mail -> IO ()
renderSendMail = sendmail <=< renderMail'
sendmailCustom :: FilePath
-> [String]
-> L.ByteString
-> IO ()
sendmailCustom sm opts lbs = do
(Just hin, _, _, phandle) <- createProcess $
(proc sm opts) { std_in = CreatePipe }
L.hPut hin lbs
hClose hin
exitCode <- waitForProcess phandle
case exitCode of
ExitSuccess -> return ()
_ -> throwIO $ ErrorCall ("sendmail exited with error code " ++ show exitCode)
renderSendMailCustom :: FilePath
-> [String]
-> Mail
-> IO ()
renderSendMailCustom sm opts = sendmailCustom sm opts <=< renderMail'
simpleMail :: Address
-> Address
-> Text
-> LT.Text
-> LT.Text
-> [(Text, FilePath)]
-> IO Mail
simpleMail to from subject plainBody htmlBody attachments =
addAttachments attachments
. addPart [plainPart plainBody, htmlPart htmlBody]
$ mailFromToSubject from to subject
simpleMail' :: Address
-> Address
-> Text
-> LT.Text
-> Mail
simpleMail' to from subject body = addPart [plainPart body]
$ mailFromToSubject from to subject
simpleMailInMemory :: Address
-> Address
-> Text
-> LT.Text
-> LT.Text
-> [(Text, Text, L.ByteString)]
-> Mail
simpleMailInMemory to from subject plainBody htmlBody attachments =
addAttachmentsBS attachments
. addPart [plainPart plainBody, htmlPart htmlBody]
$ mailFromToSubject from to subject
mailFromToSubject :: Address
-> Address
-> Text
-> Mail
mailFromToSubject from to subject =
(emptyMail from) { mailTo = [to]
, mailHeaders = [("Subject", subject)]
}
addPart :: Alternatives -> Mail -> Mail
addPart alt mail = mail { mailParts = alt : mailParts mail }
plainPart :: LT.Text -> Part
plainPart body = Part cType QuotedPrintableText Nothing [] $ LT.encodeUtf8 body
where cType = "text/plain; charset=utf-8"
htmlPart :: LT.Text -> Part
htmlPart body = Part cType QuotedPrintableText Nothing [] $ LT.encodeUtf8 body
where cType = "text/html; charset=utf-8"
addAttachment :: Text -> FilePath -> Mail -> IO Mail
addAttachment ct fn mail = do
content <- L.readFile fn
let part = Part ct Base64 (Just $ T.pack (takeFileName fn)) [] content
return $ addPart [part] mail
addAttachments :: [(Text, FilePath)] -> Mail -> IO Mail
addAttachments xs mail = foldM fun mail xs
where fun m (c, f) = addAttachment c f m
addAttachmentBS :: Text
-> Text
-> L.ByteString
-> Mail -> Mail
addAttachmentBS ct fn content mail =
let part = Part ct Base64 (Just fn) [] content
in addPart [part] mail
addAttachmentsBS :: [(Text, Text, L.ByteString)] -> Mail -> Mail
addAttachmentsBS xs mail = foldl fun mail xs
where fun m (ct, fn, content) = addAttachmentBS ct fn content m
data QP = QPPlain S.ByteString
| QPNewline
| QPTab
| QPSpace
| QPEscape S.ByteString
data QPC = QPCCR
| QPCLF
| QPCSpace
| QPCTab
| QPCPlain
| QPCEscape
deriving Eq
toQP :: Bool
-> L.ByteString
-> [QP]
toQP isText =
go
where
go lbs =
case L.uncons lbs of
Nothing -> []
Just (c, rest) ->
case toQPC c of
QPCCR -> go rest
QPCLF -> QPNewline : go rest
QPCSpace -> QPSpace : go rest
QPCTab -> QPTab : go rest
QPCPlain ->
let (x, y) = L.span ((== QPCPlain) . toQPC) lbs
in QPPlain (toStrict x) : go y
QPCEscape ->
let (x, y) = L.span ((== QPCEscape) . toQPC) lbs
in QPEscape (toStrict x) : go y
toStrict = S.concat . L.toChunks
toQPC :: Word8 -> QPC
toQPC 13 | isText = QPCCR
toQPC 10 | isText = QPCLF
toQPC 9 = QPCTab
toQPC 0x20 = QPCSpace
toQPC 61 = QPCEscape
toQPC w
| 33 <= w && w <= 126 = QPCPlain
| otherwise = QPCEscape
buildQPs :: [QP] -> Builder
buildQPs =
go (0 :: Int)
where
go _ [] = mempty
go currLine (qp:qps) =
case qp of
QPNewline -> copyByteString "\r\n" `mappend` go 0 qps
QPTab -> wsHelper (copyByteString "=09") (fromWord8 9)
QPSpace -> wsHelper (copyByteString "=20") (fromWord8 0x20)
QPPlain bs ->
let toTake = 75 currLine
(x, y) = S.splitAt toTake bs
rest
| S.null y = qps
| otherwise = QPPlain y : qps
in helper (S.length x) (copyByteString x) (S.null y) rest
QPEscape bs ->
let toTake = (75 currLine) `div` 3
(x, y) = S.splitAt toTake bs
rest
| S.null y = qps
| otherwise = QPEscape y : qps
in if toTake == 0
then copyByteString "=\r\n" `mappend` go 0 (qp:qps)
else helper (S.length x * 3) (escape x) (S.null y) rest
where
escape =
S.foldl' add mempty
where
add builder w =
builder `mappend` escaped
where
escaped = fromWord8 61 `mappend` hex (w `shiftR` 4)
`mappend` hex (w .&. 15)
helper added builder noMore rest =
builder' `mappend` go newLine rest
where
(newLine, builder')
| not noMore || (added + currLine) >= 75 =
(0, builder `mappend` copyByteString "=\r\n")
| otherwise = (added + currLine, builder)
wsHelper enc raw
| null qps =
if currLine <= 73
then enc
else copyByteString "\r\n=" `mappend` enc
| otherwise = helper 1 raw (currLine < 76) qps
quotedPrintable :: Bool -> L.ByteString -> Builder
quotedPrintable isText = buildQPs . toQP isText
hex :: Word8 -> Builder
hex x
| x < 10 = fromWord8 $ x + 48
| otherwise = fromWord8 $ x + 55
encodeIfNeeded :: Text -> Builder
encodeIfNeeded t =
if needsEncodedWord t
then encodedWord t
else fromText t
needsEncodedWord :: Text -> Bool
needsEncodedWord = not . T.all isAscii
encodedWord :: Text -> Builder
encodedWord t = mconcat
[ fromByteString "=?utf-8?Q?"
, S.foldl' go mempty $ TE.encodeUtf8 t
, fromByteString "?="
]
where
go front w = front `mappend` go' w
go' 32 = fromWord8 95
go' 95 = go'' 95
go' 63 = go'' 63
go' 61 = go'' 61
go' 34 = go'' 34
go' 40 = go'' 40
go' 41 = go'' 41
go' 44 = go'' 44
go' 46 = go'' 46
go' 58 = go'' 58
go' 59 = go'' 59
go' 60 = go'' 60
go' 62 = go'' 62
go' 64 = go'' 64
go' 91 = go'' 91
go' 92 = go'' 92
go' 93 = go'' 93
go' w
| 33 <= w && w <= 126 = fromWord8 w
| otherwise = go'' w
go'' w = fromWord8 61 `mappend` hex (w `shiftR` 4)
`mappend` hex (w .&. 15)
base64 :: L.ByteString -> Builder
base64 lbs
| L.null lbs = mempty
| otherwise = fromByteString x64 `mappend`
fromByteString "\r\n" `mappend`
base64 y
where
(x', y) = L.splitAt 57 lbs
x = S.concat $ L.toChunks x'
x64 = Base64.encode x