{-# LANGUAGE DataKinds #-} -- | -- Module : Data.Text.Short.Encoding.Base64.URL -- Copyright : (c) 2019-2023 Emily Pillmore -- License : BSD-style -- -- Maintainer : Emily Pillmore -- Stability : stable -- Portability : non-portable -- -- This module contains 'Data.Text.Short.ShortText'-valued combinators -- implementing the RFC 4648 specification for the Base64url -- encoding format. This includes strictly padded/unpadded and lenient -- decoding variants, and external + internal validations for canonicity. -- module Data.Text.Short.Encoding.Base64.URL ( -- * Encoding encodeBase64 , encodeBase64Unpadded -- * Decoding , decodeBase64 , decodeBase64Untyped , decodeBase64UntypedWith , decodeBase64Unpadded , decodeBase64UnpaddedUntyped , decodeBase64UnpaddedUntypedWith , decodeBase64Padded , decodeBase64PaddedUntyped , decodeBase64PaddedUntypedWith , decodeBase64Lenient -- * Validation , isBase64Url , isValidBase64Url ) where import Data.Base64.Types import Data.Bifunctor (first) import qualified Data.ByteString.Base64.URL as B64U import Data.ByteString.Short (ShortByteString) import qualified Data.ByteString.Short.Base64.URL as BS64U import Data.Text (Text) import qualified Data.Text.Encoding.Base64.URL as B64TU import Data.Text.Encoding.Base64.Error import Data.Text.Short import Data.Text.Short.Unsafe -- $setup -- -- >>> import Data.Base64.Types -- >>> :set -XOverloadedStrings -- >>> :set -XTypeApplications -- >>> :set -XDataKinds -- -- | Encode a 'ShortText' value in Base64url with padding. -- -- See: -- -- === __Examples__: -- -- >>> encodeBase64 "<>" -- "PDw_Pj4=" -- encodeBase64 :: ShortText -> Base64 'UrlPadded ShortText encodeBase64 = fmap fromByteStringUnsafe . B64U.encodeBase64' . toByteString {-# INLINE encodeBase64 #-} -- | Decode an arbitrarily padded Base64url-encoded 'ShortText' value. -- -- For typed values: -- - If a padded value is required, use 'decodeBase64Padded' -- - If an unpadded value is required, use 'decodeBase64Unpadded' -- -- See: -- -- === __Examples__: -- -- >>> decodeBase64 $ assertBase64 @'UrlPadded "PDw_Pj4=" -- "<>" -- -- >>> decodeBase64 $ assertBase64 @'UrlUnpadded "PDw_Pj4" -- "<>" -- decodeBase64 :: UrlAlphabet k => Base64 k ShortText -> ShortText decodeBase64 = fromText . B64TU.decodeBase64 . fmap toText {-# INLINE decodeBase64 #-} -- | Decode an untyped padded Base64url-encoded 'ShortText' value. If its length is not a multiple -- of 4, then padding chars will be added to fill out the input to a multiple of -- 4 for safe decoding as base64url encodings are optionally padded. -- -- For a decoder that fails on unpadded input, use 'decodeBase64Unpadded'. -- -- /Note:/ This function makes sure that decoding is total by deferring to -- 'T.decodeUtf8'. This will always round trip for any valid Base64-encoded -- text value, but it may not round trip for bad inputs. The onus is on the -- caller to make sure inputs are valid. If unsure, defer to `decodeBase64With` -- and pass in a custom decode function. -- -- See: -- -- === __Examples__: -- -- >>> decodeBase64Untyped "PDw_Pj4=" -- Right "<>" -- -- >>> decodeBase64Untyped "PDw_Pj4" -- Right "<>" -- -- >>> decodeBase64Untyped "PDw-Pg=" -- Left "Base64-encoded bytestring has invalid padding" -- -- >>> decodeBase64Untyped "PDw-Pg" -- Right "<<>>" -- decodeBase64Untyped :: ShortText -> Either Text ShortText decodeBase64Untyped = fmap fromText . B64TU.decodeBase64Untyped . toText {-# INLINE decodeBase64Untyped #-} -- | Attempt to decode an untyped 'ShortByteString' value as Base64url, converting from -- 'ByteString' to 'ShortText' according to some encoding function. In practice, -- This is something like 'decodeUtf8'', which may produce an error. -- -- See: -- -- === __Examples__: -- -- @ -- 'decodeBase64With' 'T.decodeUtf8'' -- :: 'ShortByteString' -> 'Either' ('Base64Error' 'UnicodeException') 'ShortText' -- @ -- decodeBase64UntypedWith :: (ShortByteString -> Either err ShortText) -- ^ convert a bytestring to text (e.g. 'T.decodeUtf8'') -> ShortByteString -- ^ Input text to decode -> Either (Base64Error err) ShortText decodeBase64UntypedWith f t = case BS64U.decodeBase64Untyped t of Left de -> Left $ DecodeError de Right a -> first ConversionError (f a) {-# INLINE decodeBase64UntypedWith #-} -- | Encode a 'ShortText' value in Base64url without padding. -- -- See: -- -- === __Examples__: -- -- >>> encodeBase64Unpadded "<>" -- "PDw_Pj4" -- encodeBase64Unpadded :: ShortText -> Base64 'UrlUnpadded ShortText encodeBase64Unpadded = fmap fromByteStringUnsafe . B64U.encodeBase64Unpadded' . toByteString {-# INLINE encodeBase64Unpadded #-} -- | Decode an unpadded Base64url encoded 'ShortText' value. -- -- See: -- -- === __Examples__: -- -- >>> decodeBase64Unpadded $ assertBase64 @'UrlUnpadded "PDw_Pj4" -- "<>" -- decodeBase64Unpadded :: Base64 'UrlUnpadded ShortText -> ShortText decodeBase64Unpadded = fromText . B64TU.decodeBase64Unpadded . fmap toText {-# INLINE decodeBase64Unpadded #-} -- | Decode an untyped, unpadded Base64url encoded 'ShortText' value. -- -- See: -- -- === __Examples__: -- -- >>> decodeBase64UnpaddedUntyped "PDw_Pj4" -- Right "<>" -- -- >>> decodeBase64UnpaddedUntyped "PDw_Pj4=" -- Left "Base64-encoded bytestring has invalid padding" -- decodeBase64UnpaddedUntyped :: ShortText -> Either Text ShortText decodeBase64UnpaddedUntyped = fmap fromText . B64TU.decodeBase64UnpaddedUntyped . toText {-# INLINE decodeBase64UnpaddedUntyped #-} -- | Attempt to decode an untyped, unpadded 'ShortByteString' value as Base64url, converting from -- 'ShortByteString' to 'ShortText' according to some encoding function. In practice, -- This is something like 'decodeUtf8'', which may produce an error. -- -- See: -- -- === __Examples__: -- -- @ -- 'decodeBase64UnpaddedWith' 'T.decodeUtf8'' -- :: 'ShortByteString' -> 'Either' ('Base64Error' 'UnicodeException') 'ShortText' -- @ -- decodeBase64UnpaddedUntypedWith :: (ShortByteString -> Either err ShortText) -- ^ convert a bytestring to text (e.g. 'T.decodeUtf8'') -> ShortByteString -- ^ Input text to decode -> Either (Base64Error err) ShortText decodeBase64UnpaddedUntypedWith f t = case BS64U.decodeBase64UnpaddedUntyped t of Left de -> Left $ DecodeError de Right a -> first ConversionError (f a) {-# INLINE decodeBase64UnpaddedUntypedWith #-} -- | Decode a padded Base64url encoded 'ShortText' value -- -- See: -- -- === __Examples__: -- -- >>> decodeBase64Padded $ assertBase64 @'UrlPadded "PDw_Pj4=" -- "<>" -- decodeBase64Padded :: Base64 'UrlPadded ShortText -> ShortText decodeBase64Padded = fromText . B64TU.decodeBase64Padded . fmap toText {-# INLINE decodeBase64Padded #-} -- | Decode an untyped, padded Base64url encoded 'ShortText' value -- -- See: -- -- === __Examples__: -- -- >>> decodeBase64PaddedUntyped "PDw_Pj4=" -- Right "<>" -- -- >>> decodeBase64PaddedUntyped "PDw_Pj4" -- Left "Base64-encoded bytestring requires padding" -- decodeBase64PaddedUntyped :: ShortText -> Either Text ShortText decodeBase64PaddedUntyped = fmap fromText . B64TU.decodeBase64PaddedUntyped . toText {-# INLINE decodeBase64PaddedUntyped #-} -- | Attempt to decode an untyped, padded 'ShortByteString' value as Base64url, converting from -- 'ByteString' to 'ShortText' according to some encoding function. In practice, -- This is something like 'decodeUtf8'', which may produce an error. -- -- See: -- -- === __Examples__: -- -- @ -- 'decodeBase64With' 'T.decodeUtf8'' -- :: 'ShortByteString' -> 'Either' ('Base64Error' 'UnicodeException') 'ShortText' -- @ -- decodeBase64PaddedUntypedWith :: (ShortByteString -> Either err ShortText) -- ^ convert a bytestring to text (e.g. 'T.decodeUtf8'') -> ShortByteString -- ^ Input text to decode -> Either (Base64Error err) ShortText decodeBase64PaddedUntypedWith f t = case BS64U.decodeBase64PaddedUntyped t of Left de -> Left $ DecodeError de Right a -> first ConversionError (f a) {-# INLINE decodeBase64PaddedUntypedWith #-} -- | Leniently decode an untyped, unpadded Base64url-encoded 'ShortText'. This function -- will not generate parse errors. If input data contains padding chars, -- then the input will be parsed up until the first pad character. -- -- __Note:__ This is not RFC 4648-compliant. -- -- === __Examples__: -- -- >>> decodeBase64Lenient "PDw_Pj4=" -- "<>" -- -- >>> decodeBase64Lenient "PDw_%%%$}Pj4" -- "<>" -- decodeBase64Lenient :: ShortText -> ShortText decodeBase64Lenient = fromText . B64TU.decodeBase64Lenient . toText {-# INLINE decodeBase64Lenient #-} -- | Tell whether an untyped 'ShortText' value is Base64url-encoded. -- -- === __Examples__: -- -- >>> isBase64Url "PDw_Pj4=" -- True -- -- >>> isBase64Url "PDw_Pj4" -- True -- -- >>> isBase64Url "PDw_Pj" -- False -- isBase64Url :: ShortText -> Bool isBase64Url = B64U.isBase64Url . toByteString {-# INLINE isBase64Url #-} -- | Tell whether an untyped 'ShortText' value is a valid Base64url format. -- -- This will not tell you whether or not this is a correct Base64url representation, -- only that it conforms to the correct shape. To check whether it is a true -- Base64 encoded 'ShortText' value, use 'isBase64Url'. -- -- === __Examples__: -- -- >>> isValidBase64Url "PDw_Pj4=" -- True -- -- >>> isValidBase64Url "PDw_Pj" -- True -- -- >>> isValidBase64Url "%" -- False -- isValidBase64Url :: ShortText -> Bool isValidBase64Url = B64U.isValidBase64Url . toByteString {-# INLINE isValidBase64Url #-}