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227 lines
9.0 KiB
227 lines
9.0 KiB
-- Copyright © 2010-2012 Jon Kristensen. See the LICENSE file in the |
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-- Pontarius distribution for more details. |
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{-# OPTIONS_HADDOCK hide #-} |
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-- TODO: When no longer using stringprep, do appropriate testing. |
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-- (Including testing addresses like a@b/c@d/e, a/b@c, a@/b, a/@b...) |
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-- Will we not be using stringprep? |
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-- TODO: Unicode 3.2 should be used. |
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-- This module deals with XMPP addresses, also known as JIDs. For more |
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-- information on JIDs, see RFC 6122: XMPP: Address Format. |
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-- |
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-- This module does not internationalize hostnames. |
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module Network.XMPP.JID |
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( JID(..) |
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, fromText |
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, fromStrings |
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, isBare |
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, isFull) where |
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import Control.Applicative ((<$>),(<|>)) |
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import Control.Monad(guard) |
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import qualified Data.Attoparsec.Text as AP |
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import Data.Maybe(fromJust) |
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import qualified Data.Set as Set |
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import Data.String (IsString(..)) |
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import Data.Text (Text) |
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import qualified Data.Text as Text |
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-- import Network.URI (isIPv4address, isIPv6address) |
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import qualified Text.NamePrep as SP |
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import qualified Text.StringPrep as SP |
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data JID = JID { |
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-- | The @localpart@ of a JID is an optional identifier |
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-- placed before the domainpart and separated from the |
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-- latter by a \'\@\' character. Typically a |
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-- localpart uniquely identifies the entity requesting |
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-- and using network access provided by a server |
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-- (i.e., a local account), although it can also |
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-- represent other kinds of entities (e.g., a chat |
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-- room associated with a multi-user chat service). |
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-- The entity represented by an XMPP localpart is |
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-- addressed within the context of a specific domain |
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-- (i.e., @localpart\@domainpart@). |
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localpart :: !(Maybe Text) |
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-- | The domainpart typically identifies the /home/ |
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-- server to which clients connect for XML routing and |
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-- data management functionality. However, it is not |
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-- necessary for an XMPP domainpart to identify an |
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-- entity that provides core XMPP server functionality |
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-- (e.g., a domainpart can identify an entity such as a |
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-- multi-user chat service, a publish-subscribe |
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-- service, or a user directory). |
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, domainpart :: !Text |
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-- | The resourcepart of a JID is an optional |
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-- identifier placed after the domainpart and |
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-- separated from the latter by the \'\/\' character. A |
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-- resourcepart can modify either a |
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-- @localpart\@domainpart@ address or a mere |
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-- @domainpart@ address. Typically a resourcepart |
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-- uniquely identifies a specific connection (e.g., a |
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-- device or location) or object (e.g., an occupant |
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-- in a multi-user chat room) belonging to the entity |
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-- associated with an XMPP localpart at a domain |
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-- (i.e., @localpart\@domainpart/resourcepart@). |
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, resourcepart :: !(Maybe Text) |
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} |
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instance Show JID where |
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show (JID nd dmn res) = |
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maybe "" ((++ "@") . Text.unpack) nd ++ |
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(Text.unpack dmn) ++ |
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maybe "" (('/' :) . Text.unpack) res |
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instance Read JID where |
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readsPrec _ x = case fromText (Text.pack x) of |
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Nothing -> [] |
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Just j -> [(j,"")] |
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instance IsString JID where |
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fromString = fromJust . fromText . Text.pack |
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-- | Converts a Text to a JID. |
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fromText :: Text -> Maybe JID |
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fromText t = do |
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(l, d, r) <- eitherToMaybe $ AP.parseOnly jidParts t |
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fromStrings l d r |
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where |
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eitherToMaybe = either (const Nothing) Just |
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-- | Converts localpart, domainpart, and resourcepart strings to a JID. |
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-- Runs the appropriate stringprep profiles and validates the parts. |
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fromStrings :: Maybe Text -> Text -> Maybe Text -> Maybe JID |
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fromStrings l d r = do |
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localPart <- case l of |
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Nothing -> return Nothing |
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Just l'-> do |
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l'' <- SP.runStringPrep nodeprepProfile l' |
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guard $ validPartLength l'' |
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let prohibMap = Set.fromList nodeprepExtraProhibitedCharacters |
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guard $ Text.all (`Set.notMember` prohibMap) l'' |
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return $ Just l'' |
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domainPart <- SP.runStringPrep (SP.namePrepProfile False) d |
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guard $ validDomainPart domainPart |
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resourcePart <- case r of |
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Nothing -> return Nothing |
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Just r' -> do |
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r'' <- SP.runStringPrep resourceprepProfile r' |
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guard $ validPartLength r'' |
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return $ Just r'' |
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return $ JID localPart domainPart resourcePart |
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where |
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-- Returns the domainpart if it was a valid IP or if the toASCII |
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-- function was successful, or Nothing otherwise. |
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validDomainPart _s = True -- TODO |
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-- isIPv4address s || isIPv6address s || validHostname s |
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validPartLength :: Text -> Bool |
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validPartLength p = Text.length p > 0 && Text.length p < 1024 |
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-- Validates a host name |
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-- validHostname :: Text -> Bool |
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-- validHostname _ = True -- TODO |
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-- | Returns True if the JID is /bare/, and False otherwise. |
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isBare :: JID -> Bool |
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isBare j | resourcepart j == Nothing = True |
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| otherwise = False |
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-- | Returns True if the JID is `full', and False otherwise. |
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isFull :: JID -> Bool |
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isFull jid = not $ isBare jid |
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-- Parses an JID string and returns its three parts. It performs no |
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-- validation or transformations. We are using Parsec to parse the |
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-- JIDs. There is no input for which 'jidParts' fails. |
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jidParts = do |
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-- Read until we reach an '@', a '/', or EOF. |
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a <- AP.takeWhile1 (AP.notInClass ['@', '/']) |
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-- Case 1: We found an '@', and thus the localpart. At least the |
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-- domainpart is remaining. Read the '@' and until a '/' or EOF. |
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do |
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b <- domainPartP |
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-- Case 1A: We found a '/' and thus have all the JID parts. Read |
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-- the '/' and until EOF. |
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do |
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c <- resourcePartP -- Parse resourcepart |
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return (Just a, b, Just c) |
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-- Case 1B: We have reached EOF; the JID is in the form |
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-- localpart@domainpart. |
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<|> do |
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AP.endOfInput |
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return (Just a, b, Nothing) |
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-- Case 2: We found a '/'; the JID is in the form |
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-- domainpart/resourcepart. |
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<|> do |
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b <- resourcePartP |
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AP.endOfInput |
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return (Nothing, a, Just b) |
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-- Case 3: We have reached EOF; we have an JID consisting of only |
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-- a domainpart. |
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<|> do |
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AP.endOfInput |
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return (Nothing, a, Nothing) |
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where |
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domainPartP = do |
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_ <- AP.char '@' |
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AP.takeWhile1 (/= '/') |
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resourcePartP = do |
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_ <- AP.char '/' |
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AP.takeText |
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nodeprepProfile :: SP.StringPrepProfile |
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nodeprepProfile = SP.Profile |
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{ SP.maps = [SP.b1, SP.b2] |
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, SP.shouldNormalize = True |
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, SP.prohibited = [SP.a1 |
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, SP.c11 |
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, SP.c12 |
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, SP.c21 |
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, SP.c22 |
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, SP.c3 |
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, SP.c4 |
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, SP.c5 |
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, SP.c6 |
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, SP.c7 |
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, SP.c8 |
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, SP.c9 |
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] |
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, SP.shouldCheckBidi = True |
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} |
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-- These needs to be checked for after normalization. We could also |
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-- look up the Unicode mappings and include a list of characters in |
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-- the prohibited field above. Let's defer that until we know that we |
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-- are going to use stringprep. |
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nodeprepExtraProhibitedCharacters :: [Char] |
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nodeprepExtraProhibitedCharacters = ['\x22', '\x26', '\x27', '\x2F', |
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'\x3A', '\x3C', '\x3E', '\x40'] |
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resourceprepProfile :: SP.StringPrepProfile |
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resourceprepProfile = SP.Profile |
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{ SP.maps = [SP.b1] |
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, SP.shouldNormalize = True |
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, SP.prohibited = [ SP.a1 |
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, SP.c12 |
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, SP.c21 |
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, SP.c22 |
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, SP.c3 |
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, SP.c4 |
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, SP.c5 |
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, SP.c6 |
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, SP.c7 |
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, SP.c8 |
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, SP.c9 |
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] |
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, SP.shouldCheckBidi = True |
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}
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