{-# LANGUAGE Trustworthy #-} -- | -- Module : Data.ByteString.Short.Base32 -- Copyright : (c) 2019-2020 Emily Pillmore -- License : BSD-style -- -- Maintainer : Emily Pillmore -- Stability : stable -- Portability : non-portable -- -- This module contains 'Data.ByteString.Short.ShortByteString'-valued combinators for -- implementing the RFC 4648 specification of the Base32 -- encoding format. This includes strictly padded/unpadded decoding -- variants, as well as internal and external validation for canonicity. -- module Data.ByteString.Short.Base32 ( -- * Encoding encodeBase32 , encodeBase32' , encodeBase32Unpadded , encodeBase32Unpadded' -- * Decoding , decodeBase32 , decodeBase32Unpadded , decodeBase32Padded --, decodeBase32Lenient -- * Validation , isBase32 , isValidBase32 ) where import qualified Data.ByteString.Base32 as B32 import Data.ByteString.Short (ShortByteString, fromShort, toShort) import Data.Text (Text) import Data.Text.Short (ShortText) import Data.Text.Short.Unsafe (fromShortByteStringUnsafe) -- | Encode a 'ShortByteString' value as a Base32 'Text' value with padding. -- -- See: -- -- === __Examples__: -- -- >>> encodeBase32 "Sun" -- "KN2W4===" -- encodeBase32 :: ShortByteString -> ShortText encodeBase32 = fromShortByteStringUnsafe . encodeBase32' {-# INLINE encodeBase32 #-} -- | Encode a 'ShortByteString' as a Base32 'ShortByteString' value with padding. -- -- See: -- -- === __Examples__: -- -- >>> encodeBase32' "Sun" -- "KN2W4===" -- encodeBase32' :: ShortByteString -> ShortByteString encodeBase32' = toShort . B32.encodeBase32' . fromShort -- | Decode an arbitrarily padded Base32 encoded 'ShortByteString' 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 Base32-encoded values are optionally padded. -- -- See: -- -- === __Examples__: -- -- >>> decodeBase32 "KN2W4===" -- Right "Sun" -- -- >>> decodeBase32 "KN2W4" -- Right "Sun" -- -- >>> decodeBase32 "KN2W===" -- Left "Base32-encoded bytestring has invalid padding" -- decodeBase32 :: ShortByteString -> Either Text ShortByteString decodeBase32 = fmap toShort . B32.decodeBase32 . fromShort {-# INLINE decodeBase32 #-} -- | Encode a 'ShortByteString' value as Base32 'Text' without padding. Note that for Base32, -- padding is optional. If you call this function, you will simply be encoding -- as Base32 and stripping padding chars from the output. -- -- See: -- -- === __Examples__: -- -- >>> encodeBase32Unpadded "Sun" -- "KN2W4" -- encodeBase32Unpadded :: ShortByteString -> ShortText encodeBase32Unpadded = fromShortByteStringUnsafe . encodeBase32Unpadded' {-# INLINE encodeBase32Unpadded #-} -- | Encode a 'ShortByteString' value as Base32 without padding. Note that for Base32, -- padding is optional. If you call this function, you will simply be encoding -- as Base32 and stripping padding chars from the output. -- -- See: -- -- === __Examples__: -- -- >>> encodeBase32Unpadded' "Sun" -- "KN2W4" -- encodeBase32Unpadded' :: ShortByteString -> ShortByteString encodeBase32Unpadded' = toShort . B32.encodeBase32Unpadded' . fromShort -- | Decode an unpadded Base32-encoded 'ShortByteString' value. Input strings are -- required to be unpadded, and will undergo validation prior to decoding to -- confirm. -- -- In general, unless unpadded Base32 is explicitly required, it is -- safer to call 'decodeBase32'. -- -- See: -- -- === __Examples__: -- -- >>> decodeBase32Unpadded "KN2W4" -- Right "Sun" -- -- >>> decodeBase32Unpadded "KN2W4===" -- Left "Base32-encoded bytestring has invalid padding" -- decodeBase32Unpadded :: ShortByteString -> Either Text ShortByteString decodeBase32Unpadded = fmap toShort . B32.decodeBase32Unpadded . fromShort {-# INLINE decodeBase32Unpadded #-} -- | Decode a padded Base32-encoded 'ShortByteString' value. Input strings are -- required to be correctly padded, and will be validated prior to decoding -- to confirm. -- -- In general, unless padded Base32 is explicitly required, it is -- safer to call 'decodeBase32'. -- -- See: -- -- === __Examples__: -- -- >>> decodeBase32Padded "KN2W4===" -- Right "Sun" -- -- >>> decodeBase32Padded "KN2W4" -- Left "Base32-encoded bytestring requires padding" -- decodeBase32Padded :: ShortByteString -> Either Text ShortByteString decodeBase32Padded = fmap toShort . B32.decodeBase32Padded . fromShort {-# INLINE decodeBase32Padded #-} -- -- | Leniently decode an unpadded Base32-encoded 'ShortByteString'. 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__: -- -- -- -- >>> decodeBase32Lenient "PDw_Pj4=" -- -- "<>" -- -- -- -- >>> decodeBase32Lenient "PDw_%%%$}Pj4" -- -- "<>" -- -- -- decodeBase32Lenient :: ShortByteString -> ShortByteString -- decodeBase32Lenient = toShort . B32.decodeBase32Lenient . fromShort -- {-# INLINE decodeBase32Lenient #-} -- | Tell whether a 'ShortByteString' is Base32-encoded. -- -- === __Examples__: -- -- >>> isBase32 "KN2W4" -- True -- -- >>> isBase32 "KN2W4===" -- True -- -- >>> isBase32 "KN2W4==" -- False -- isBase32 :: ShortByteString -> Bool isBase32 = B32.isBase32 . fromShort {-# INLINE isBase32 #-} -- | Tell whether a 'ShortByteString' is a valid Base32 format. -- -- This will not tell you whether or not this is a correct Base32 representation, -- only that it conforms to the correct shape. To check whether it is a true -- Base32 encoded 'ShortByteString' value, use 'isBase32'. -- -- === __Examples__: -- -- >>> isValidBase32 "KN2W4" -- True -- -- >>> isValidBase32 "KN2W4=" -- False -- -- >>> isValidBase32 "KN2W4%" -- False -- isValidBase32 :: ShortByteString -> Bool isValidBase32 = B32.isValidBase32 . fromShort {-# INLINE isValidBase32 #-}