forked from schmittlauch/Hash2Pub
Merge pull request 'Linting integration' (#17) from Hecate/Hash2Pub:hlint-configuration into master
Introduce some code formatting guidelines and enforce them with hlint and stylish: - End-of-line extra spaces removal; - Import lines ordering; - Redundant ($) removal; - Generalisation of (++) and map to (<>) and fmap; - Preferring pure over return; - Removing extraenous extensions.
This commit is contained in:
commit
b8eeb852da
8
.hlint.yaml
Normal file
8
.hlint.yaml
Normal file
|
@ -0,0 +1,8 @@
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- group: {name: generalise, enabled: true}
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- warn: { name: Use DerivingStrategies }
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- error: { lhs: return, rhs: pure }
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- ignore: {name: "Avoid lambda using `infix`"}
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|
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@ -1,9 +1,9 @@
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import Hash2Pub.FediChord
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import Data.Map.Internal.Debug (showTree)
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import qualified Data.Map.Strict as Map
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import Data.Map.Internal.Debug (showTree)
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import qualified Data.Map.Strict as Map
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import Hash2Pub.FediChord
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giebMalCache :: [Integer] -> Map.Map NodeID ()
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giebMalCache = Map.fromList . map (mkCacheEntry . fromInteger)
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giebMalCache = Map.fromList . fmap (mkCacheEntry . fromInteger)
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where
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mkCacheEntry nodeid = (nodeid, ())
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@ -22,7 +22,7 @@ edgeCase1 = do
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putStrLn "\nWhile (NodeID 2^255+2^254+3) > (NodeID 2^254 + 14) …"
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print $ toNodeID (2^255+2^254+3) > toNodeID (2^254+14)
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putStrLn "… and 2^255+2^254+3 is an element of the map…"
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print $ Map.member (fromInteger 2^255+2^254+3) testOverlap
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print $ Map.member (fromInteger (2^255+2^254+3)) testOverlap
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putStrLn "… looking for an element larger than 2^254 + 14 doesn't yield any."
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print $ nidLookupGT testOverlap (2^254+14)
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putStrLn "\nThat's the tree of the map:"
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@ -2,25 +2,25 @@
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module Hash2Pub.ASN1Coding where
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import Data.ASN1.Encoding -- asn1-encoding package
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import Data.ASN1.BinaryEncoding
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import Data.ASN1.Error()
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import Data.ASN1.Types -- asn1-types package
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import Data.ASN1.Parse
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import Data.Maybe (fromMaybe, mapMaybe, isNothing)
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import Data.Time.Clock.POSIX()
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import qualified Data.ByteString as BS
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import qualified Data.Set as Set
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import qualified Data.Map.Strict as Map
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import Data.Bifunctor (first)
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import Control.Exception (displayException)
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import Safe
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import Control.Exception (displayException)
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import Data.ASN1.BinaryEncoding
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import Data.ASN1.Encoding
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import Data.ASN1.Error ()
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import Data.ASN1.Parse
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import Data.ASN1.Types
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import Data.Bifunctor (first)
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import qualified Data.ByteString as BS
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import qualified Data.Map.Strict as Map
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import Data.Maybe (fromMaybe, isNothing, mapMaybe)
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import qualified Data.Set as Set
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import Data.Time.Clock.POSIX ()
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import Safe
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import Hash2Pub.FediChord
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import Hash2Pub.Utils
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import Hash2Pub.DHTProtocol
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import Hash2Pub.DHTProtocol
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import Hash2Pub.FediChord
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import Hash2Pub.Utils
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import Debug.Trace
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import Debug.Trace
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-- TODO: make this splitting function more intelligent, currently it creates many parts that are smaller than they could be, see #18
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-- | Try splitting a payload into multiple parts to be able to reduce size of
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@ -107,7 +107,7 @@ serialiseMessage maxBytesLength msg =
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payloadParts i = zip [1..] . splitPayload i <$> actionPayload
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actionPayload = payload msg
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encodedMsgs i = Map.map encodeMsg $ messageParts i
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maxMsgLength = maximum . map BS.length . Map.elems
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maxMsgLength = maximum . fmap BS.length . Map.elems
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-- | encode a 'FediChordMessage' to a bytestring without further modification
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encodeMsg :: FediChordMessage -> BS.ByteString
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@ -127,21 +127,21 @@ encodePayload LeaveResponsePayload = [Null]
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encodePayload payload'@LeaveRequestPayload{} =
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Start Sequence
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: Start Sequence
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: map (IntVal . getNodeID) (leaveSuccessors payload')
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++ [End Sequence
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: fmap (IntVal . getNodeID) (leaveSuccessors payload')
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<> [End Sequence
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, Start Sequence]
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++ map (IntVal . getNodeID) (leavePredecessors payload')
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++ [End Sequence
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<> fmap (IntVal . getNodeID) (leavePredecessors payload')
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<> [End Sequence
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, End Sequence]
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-- currently StabiliseResponsePayload and LeaveRequestPayload are equal
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encodePayload payload'@StabiliseResponsePayload{} =
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Start Sequence
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: Start Sequence
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: map (IntVal . getNodeID) (stabiliseSuccessors payload')
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++ [End Sequence
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: fmap (IntVal . getNodeID) (stabiliseSuccessors payload')
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<> [End Sequence
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, Start Sequence]
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++ map (IntVal . getNodeID) (stabilisePredecessors payload')
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++ [End Sequence
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<> fmap (IntVal . getNodeID) (stabilisePredecessors payload')
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<> [End Sequence
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, End Sequence]
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encodePayload payload'@StabiliseRequestPayload = [Null]
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encodePayload payload'@QueryIDResponsePayload{} =
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@ -151,12 +151,12 @@ encodePayload payload'@QueryIDResponsePayload{} =
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Start Sequence
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: encodeQueryResult resp
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: case resp of
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FOUND ns -> encodeNodeState $ ns
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FOUND ns -> encodeNodeState ns
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FORWARD entrySet ->
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Start Sequence
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: (concatMap encodeCacheEntry . Set.elems $ entrySet)
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++ [End Sequence]
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++ [End Sequence]
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<> [End Sequence]
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<> [End Sequence]
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encodePayload payload'@QueryIDRequestPayload{} = [
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Start Sequence
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, IntVal . getNodeID $ queryTargetID payload'
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@ -167,21 +167,21 @@ encodePayload payload'@QueryIDRequestPayload{} = [
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encodePayload payload'@JoinResponsePayload{} =
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Start Sequence
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: Start Sequence
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: map (IntVal . getNodeID) (joinSuccessors payload')
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++ [End Sequence
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: fmap (IntVal . getNodeID) (joinSuccessors payload')
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<> [End Sequence
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, Start Sequence]
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++ map (IntVal . getNodeID) (joinPredecessors payload')
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++ [End Sequence
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<> fmap (IntVal . getNodeID) (joinPredecessors payload')
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<> [End Sequence
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, Start Sequence]
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++ concatMap encodeCacheEntry (joinCache payload')
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++ [End Sequence
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<> concatMap encodeCacheEntry (joinCache payload')
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<> [End Sequence
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, End Sequence]
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encodePayload payload'@JoinRequestPayload{} = [Null]
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encodePayload PingRequestPayload{} = [Null]
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encodePayload payload'@PingResponsePayload{} =
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Start Sequence
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: concatMap encodeNodeState (pingNodeStates payload')
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++ [End Sequence]
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<> [End Sequence]
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encodeNodeState :: NodeState -> [ASN1]
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encodeNodeState ns = [
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@ -200,13 +200,13 @@ encodeCacheEntry (RemoteCacheEntry ns timestamp) =
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Start Sequence
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: encodeNodeState ns
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-- ToDo: possibly optimise this by using dlists
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++ [
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<> [
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IntVal . fromIntegral . fromEnum $ timestamp
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, End Sequence]
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encodeCacheEntry _ = []
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encodeQueryResult :: QueryResponse -> ASN1
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encodeQueryResult FOUND{} = Enumerated 0
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encodeQueryResult FOUND{} = Enumerated 0
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encodeQueryResult FORWARD{} = Enumerated 1
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-- | Encode a 'FediChordMessage' as ASN.1.
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@ -218,11 +218,11 @@ encodeMessage
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: (Enumerated . fromIntegral . fromEnum $ action)
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: IntVal requestID
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: encodeNodeState sender
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++ [
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<> [
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IntVal parts
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, IntVal part ]
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++ maybe [] encodePayload requestPayload
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++ [End Sequence]
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<> maybe [] encodePayload requestPayload
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<> [End Sequence]
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encodeMessage
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(Response responseTo senderID parts part action responsePayload) = [
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Start Sequence
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@ -231,8 +231,8 @@ encodeMessage
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, IntVal parts
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, IntVal part
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, Enumerated . fromIntegral . fromEnum $ action]
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++ maybe [] encodePayload responsePayload
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++ [End Sequence]
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<> maybe [] encodePayload responsePayload
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<> [End Sequence]
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-- ===== parser combinators =====
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@ -240,21 +240,21 @@ parseMessage :: ParseASN1 FediChordMessage
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parseMessage = do
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begin <- getNext
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case begin of
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Start Sequence -> return ()
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x -> throwParseError $ "unexpected ASN.1 element " ++ show x
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Start Sequence -> pure ()
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x -> throwParseError $ "unexpected ASN.1 element " <> show x
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-- request and response messages are distiguishable by their structure,
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-- see ASN.1 schema
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firstElem <- getNext
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message <- case firstElem of
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Enumerated a -> parseRequest . toEnum . fromIntegral $ a
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IntVal i -> parseResponse i
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other -> throwParseError $ "unexpected first ASN1 element: " ++ show other
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other -> throwParseError $ "unexpected first ASN1 element: " <> show other
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-- consume sequence end
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end <- getNext
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case end of
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End Sequence -> return ()
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x -> throwParseError $ "unexpected ASN.1 element " ++ show x
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return message
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End Sequence -> pure ()
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x -> throwParseError $ "unexpected ASN.1 element " <> show x
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pure message
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|
@ -265,14 +265,14 @@ parseRequest action = do
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parts <- parseInteger
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part <- parseInteger
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hasPayload <- hasNext
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payload <- if not hasPayload then return Nothing else Just <$> case action of
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QueryID -> parseQueryIDRequest
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Join -> parseJoinRequest
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Leave -> parseLeaveRequest
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payload <- if not hasPayload then pure Nothing else Just <$> case action of
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QueryID -> parseQueryIDRequest
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Join -> parseJoinRequest
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Leave -> parseLeaveRequest
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Stabilise -> parseStabiliseRequest
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Ping -> parsePingRequest
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Ping -> parsePingRequest
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return $ Request requestID sender parts part action payload
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pure $ Request requestID sender parts part action payload
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parseResponse :: Integer -> ParseASN1 FediChordMessage
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parseResponse responseTo = do
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|
@ -281,49 +281,49 @@ parseResponse responseTo = do
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part <- parseInteger
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action <- parseEnum :: ParseASN1 Action
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hasPayload <- hasNext
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payload <- if not hasPayload then return Nothing else Just <$> case action of
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QueryID -> parseQueryIDResponse
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Join -> parseJoinResponse
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Leave -> parseLeaveResponse
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payload <- if not hasPayload then pure Nothing else Just <$> case action of
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QueryID -> parseQueryIDResponse
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Join -> parseJoinResponse
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Leave -> parseLeaveResponse
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Stabilise -> parseStabiliseResponse
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Ping -> parsePingResponse
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Ping -> parsePingResponse
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return $ Response responseTo senderID parts part action payload
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pure $ Response responseTo senderID parts part action payload
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parseInteger :: ParseASN1 Integer
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parseInteger = do
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i <- getNext
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case i of
|
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IntVal parsed -> return parsed
|
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x -> throwParseError $ "Expected IntVal but got " ++ show x
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IntVal parsed -> pure parsed
|
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x -> throwParseError $ "Expected IntVal but got " <> show x
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parseEnum :: Enum a => ParseASN1 a
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parseEnum = do
|
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e <- getNext
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case e of
|
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Enumerated en -> return $ toEnum . fromIntegral $ en
|
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x -> throwParseError $ "Expected Enumerated but got " ++ show x
|
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Enumerated en -> pure $ toEnum . fromIntegral $ en
|
||||
x -> throwParseError $ "Expected Enumerated but got " <> show x
|
||||
|
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parseString :: ParseASN1 String
|
||||
parseString = do
|
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s <- getNext
|
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case s of
|
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ASN1String toBeParsed -> maybe (throwParseError "string parsing failed") return $ asn1CharacterToString toBeParsed
|
||||
x -> throwParseError $ "Expected a ASN1String but got " ++ show x
|
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ASN1String toBeParsed -> maybe (throwParseError "string parsing failed") pure $ asn1CharacterToString toBeParsed
|
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x -> throwParseError $ "Expected a ASN1String but got " <> show x
|
||||
|
||||
parseOctets :: ParseASN1 BS.ByteString
|
||||
parseOctets = do
|
||||
os <- getNext
|
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case os of
|
||||
OctetString bs -> return bs
|
||||
x -> throwParseError $ "Expected an OctetString but got " ++ show x
|
||||
OctetString bs -> pure bs
|
||||
x -> throwParseError $ "Expected an OctetString but got " <> show x
|
||||
|
||||
parseNull :: ParseASN1 ()
|
||||
parseNull = do
|
||||
n <- getNext
|
||||
case n of
|
||||
Null -> return ()
|
||||
x -> throwParseError $ "Expected Null but got " ++ show x
|
||||
Null -> pure ()
|
||||
x -> throwParseError $ "Expected Null but got " <> show x
|
||||
|
||||
parseNodeState :: ParseASN1 NodeState
|
||||
parseNodeState = onNextContainer Sequence $ do
|
||||
|
@ -333,7 +333,7 @@ parseNodeState = onNextContainer Sequence $ do
|
|||
dhtPort' <- fromInteger <$> parseInteger
|
||||
apPort' <- fromInteger <$> parseInteger
|
||||
vServer' <- parseInteger
|
||||
return NodeState {
|
||||
pure NodeState {
|
||||
nid = nid'
|
||||
, domain = domain'
|
||||
, dhtPort = dhtPort'
|
||||
|
@ -348,7 +348,7 @@ parseCacheEntry :: ParseASN1 RemoteCacheEntry
|
|||
parseCacheEntry = onNextContainer Sequence $ do
|
||||
node <- parseNodeState
|
||||
timestamp <- toEnum . fromIntegral <$> parseInteger
|
||||
return $ RemoteCacheEntry node timestamp
|
||||
pure $ RemoteCacheEntry node timestamp
|
||||
|
||||
parseNodeCache :: ParseASN1 [RemoteCacheEntry]
|
||||
parseNodeCache = onNextContainer Sequence $ getMany parseCacheEntry
|
||||
|
@ -356,14 +356,14 @@ parseNodeCache = onNextContainer Sequence $ getMany parseCacheEntry
|
|||
parseJoinRequest :: ParseASN1 ActionPayload
|
||||
parseJoinRequest = do
|
||||
parseNull
|
||||
return JoinRequestPayload
|
||||
pure JoinRequestPayload
|
||||
|
||||
parseJoinResponse :: ParseASN1 ActionPayload
|
||||
parseJoinResponse = onNextContainer Sequence $ do
|
||||
succ' <- map fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
pred' <- map fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
succ' <- fmap fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
pred' <- fmap fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
cache <- parseNodeCache
|
||||
return $ JoinResponsePayload {
|
||||
pure $ JoinResponsePayload {
|
||||
joinSuccessors = succ'
|
||||
, joinPredecessors = pred'
|
||||
, joinCache = cache
|
||||
|
@ -373,7 +373,7 @@ parseQueryIDRequest :: ParseASN1 ActionPayload
|
|||
parseQueryIDRequest = onNextContainer Sequence $ do
|
||||
targetID <- fromInteger <$> parseInteger
|
||||
lBestNodes <- parseInteger
|
||||
return $ QueryIDRequestPayload {
|
||||
pure $ QueryIDRequestPayload {
|
||||
queryTargetID = targetID
|
||||
, queryLBestNodes = lBestNodes
|
||||
}
|
||||
|
@ -385,29 +385,29 @@ parseQueryIDResponse = onNextContainer Sequence $ do
|
|||
0 -> FOUND <$> parseNodeState
|
||||
1 -> FORWARD . Set.fromList <$> parseNodeCache
|
||||
_ -> throwParseError "invalid QueryIDResponse type"
|
||||
return $ QueryIDResponsePayload {
|
||||
pure $ QueryIDResponsePayload {
|
||||
queryResult = result
|
||||
}
|
||||
|
||||
parseStabiliseRequest :: ParseASN1 ActionPayload
|
||||
parseStabiliseRequest = do
|
||||
parseNull
|
||||
return StabiliseRequestPayload
|
||||
pure StabiliseRequestPayload
|
||||
|
||||
parseStabiliseResponse :: ParseASN1 ActionPayload
|
||||
parseStabiliseResponse = onNextContainer Sequence $ do
|
||||
succ' <- map fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
pred' <- map fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
return $ StabiliseResponsePayload {
|
||||
succ' <- fmap fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
pred' <- fmap fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
pure $ StabiliseResponsePayload {
|
||||
stabiliseSuccessors = succ'
|
||||
, stabilisePredecessors = pred'
|
||||
}
|
||||
|
||||
parseLeaveRequest :: ParseASN1 ActionPayload
|
||||
parseLeaveRequest = onNextContainer Sequence $ do
|
||||
succ' <- map fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
pred' <- map fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
return $ LeaveRequestPayload {
|
||||
succ' <- fmap fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
pred' <- fmap fromInteger <$> onNextContainer Sequence (getMany parseInteger)
|
||||
pure $ LeaveRequestPayload {
|
||||
leaveSuccessors = succ'
|
||||
, leavePredecessors = pred'
|
||||
}
|
||||
|
@ -415,16 +415,16 @@ parseLeaveRequest = onNextContainer Sequence $ do
|
|||
parseLeaveResponse :: ParseASN1 ActionPayload
|
||||
parseLeaveResponse = do
|
||||
parseNull
|
||||
return LeaveResponsePayload
|
||||
pure LeaveResponsePayload
|
||||
|
||||
parsePingRequest :: ParseASN1 ActionPayload
|
||||
parsePingRequest = do
|
||||
parseNull
|
||||
return PingRequestPayload
|
||||
pure PingRequestPayload
|
||||
|
||||
parsePingResponse :: ParseASN1 ActionPayload
|
||||
parsePingResponse = onNextContainer Sequence $ do
|
||||
handledNodes <- getMany parseNodeState
|
||||
return $ PingResponsePayload {
|
||||
pure $ PingResponsePayload {
|
||||
pingNodeStates = handledNodes
|
||||
}
|
||||
|
|
|
@ -1,5 +1,3 @@
|
|||
{-# LANGUAGE OverloadedStrings #-}
|
||||
|
||||
module Hash2Pub.DHTProtocol
|
||||
( QueryResponse (..)
|
||||
, queryLocalCache
|
||||
|
@ -17,34 +15,26 @@ module Hash2Pub.DHTProtocol
|
|||
)
|
||||
where
|
||||
|
||||
import Data.Maybe (maybe, fromMaybe)
|
||||
import qualified Data.Set as Set
|
||||
import qualified Data.Map as Map
|
||||
import Data.Time.Clock.POSIX
|
||||
import Network.Socket hiding (send, sendTo, recv, recvFrom)
|
||||
import Network.Socket.ByteString
|
||||
import qualified Data.Map as Map
|
||||
import Data.Maybe (fromMaybe, maybe)
|
||||
import qualified Data.Set as Set
|
||||
import Data.Time.Clock.POSIX
|
||||
import Network.Socket hiding (recv, recvFrom, send, sendTo)
|
||||
import Network.Socket.ByteString
|
||||
|
||||
import Hash2Pub.FediChord
|
||||
( NodeID
|
||||
, NodeState (..)
|
||||
, getSuccessors
|
||||
, putSuccessors
|
||||
, getPredecessors
|
||||
, putPredecessors
|
||||
, cacheGetNodeStateUnvalidated
|
||||
, NodeCache
|
||||
, CacheEntry(..)
|
||||
, cacheLookup
|
||||
, cacheLookupSucc
|
||||
, cacheLookupPred
|
||||
, localCompare
|
||||
)
|
||||
import Hash2Pub.FediChord (CacheEntry (..), NodeCache, NodeID,
|
||||
NodeState (..),
|
||||
cacheGetNodeStateUnvalidated,
|
||||
cacheLookup, cacheLookupPred,
|
||||
cacheLookupSucc, getPredecessors,
|
||||
getSuccessors, localCompare,
|
||||
putPredecessors, putSuccessors)
|
||||
|
||||
import Debug.Trace (trace)
|
||||
import Debug.Trace (trace)
|
||||
|
||||
-- === queries ===
|
||||
|
||||
data QueryResponse = FORWARD (Set.Set RemoteCacheEntry) -- ^return closest nodes from local cache.
|
||||
data QueryResponse = FORWARD (Set.Set RemoteCacheEntry) -- ^ return closest nodes from local cache.
|
||||
-- whole cache entry is returned for making
|
||||
-- the entry time stamp available to the
|
||||
-- protocol serialiser
|
||||
|
@ -92,21 +82,21 @@ data Action =
|
|||
|
||||
data FediChordMessage =
|
||||
Request {
|
||||
requestID :: Integer
|
||||
, sender :: NodeState
|
||||
, parts :: Integer
|
||||
, part :: Integer
|
||||
requestID :: Integer
|
||||
, sender :: NodeState
|
||||
, parts :: Integer
|
||||
, part :: Integer
|
||||
-- ^ part starts at 0
|
||||
, action :: Action
|
||||
, payload :: Maybe ActionPayload
|
||||
, action :: Action
|
||||
, payload :: Maybe ActionPayload
|
||||
}
|
||||
| Response {
|
||||
responseTo :: Integer
|
||||
, senderID :: NodeID
|
||||
, parts :: Integer
|
||||
, part :: Integer
|
||||
, action :: Action
|
||||
, payload :: Maybe ActionPayload
|
||||
responseTo :: Integer
|
||||
, senderID :: NodeID
|
||||
, parts :: Integer
|
||||
, part :: Integer
|
||||
, action :: Action
|
||||
, payload :: Maybe ActionPayload
|
||||
} deriving (Show, Eq)
|
||||
|
||||
data ActionPayload =
|
||||
|
@ -116,8 +106,8 @@ data ActionPayload =
|
|||
}
|
||||
| JoinRequestPayload
|
||||
| LeaveRequestPayload {
|
||||
leaveSuccessors :: [NodeID]
|
||||
, leavePredecessors :: [NodeID]
|
||||
leaveSuccessors :: [NodeID]
|
||||
, leavePredecessors :: [NodeID]
|
||||
}
|
||||
| StabiliseRequestPayload
|
||||
| PingRequestPayload
|
||||
|
@ -125,14 +115,14 @@ data ActionPayload =
|
|||
queryResult :: QueryResponse
|
||||
}
|
||||
| JoinResponsePayload {
|
||||
joinSuccessors :: [NodeID]
|
||||
, joinPredecessors :: [NodeID]
|
||||
, joinCache :: [RemoteCacheEntry]
|
||||
joinSuccessors :: [NodeID]
|
||||
, joinPredecessors :: [NodeID]
|
||||
, joinCache :: [RemoteCacheEntry]
|
||||
}
|
||||
| LeaveResponsePayload
|
||||
| StabiliseResponsePayload {
|
||||
stabiliseSuccessors :: [NodeID]
|
||||
, stabilisePredecessors :: [NodeID]
|
||||
stabiliseSuccessors :: [NodeID]
|
||||
, stabilisePredecessors :: [NodeID]
|
||||
}
|
||||
| PingResponsePayload {
|
||||
pingNodeStates :: [NodeState]
|
||||
|
@ -170,7 +160,7 @@ addCacheEntry :: RemoteCacheEntry -- ^ a remote cache entry received from netw
|
|||
-> IO NodeCache -- ^ new node cache with the element inserted
|
||||
addCacheEntry entry cache = do
|
||||
now <- getPOSIXTime
|
||||
return $ addCacheEntryPure now entry cache
|
||||
pure $ addCacheEntryPure now entry cache
|
||||
|
||||
-- | pure version of 'addCacheEntry' with current time explicitly specified as argument
|
||||
addCacheEntryPure :: POSIXTime -- ^ current time
|
||||
|
@ -196,7 +186,7 @@ deleteCacheEntry :: NodeID -- ^ID of the node to be deleted
|
|||
deleteCacheEntry = Map.update modifier
|
||||
where
|
||||
modifier (ProxyEntry idPointer _) = Just (ProxyEntry idPointer Nothing)
|
||||
modifier NodeEntry {} = Nothing
|
||||
modifier NodeEntry {} = Nothing
|
||||
|
||||
-- | Mark a cache entry as verified after pinging it, possibly bumping its timestamp.
|
||||
markCacheEntryAsVerified :: Maybe POSIXTime -- ^ the (current) timestamp to be
|
||||
|
@ -214,9 +204,9 @@ markCacheEntryAsVerified timestamp = Map.adjust adjustFunc
|
|||
attempts :: Int -- ^ number of retries *i*
|
||||
-> IO (Maybe a) -- ^ action to retry
|
||||
-> IO (Maybe a) -- ^ result after at most *i* retries
|
||||
attempts 0 _ = return Nothing
|
||||
attempts 0 _ = pure Nothing
|
||||
attempts i action = do
|
||||
actionResult <- action
|
||||
case actionResult of
|
||||
Nothing -> attempts (i-1) action
|
||||
Just res -> return $ Just res
|
||||
Nothing -> attempts (i-1) action
|
||||
Just res -> pure $ Just res
|
||||
|
|
|
@ -1,4 +1,6 @@
|
|||
{-# LANGUAGE GeneralizedNewtypeDeriving, DataKinds, OverloadedStrings #-}
|
||||
{-# LANGUAGE DataKinds #-}
|
||||
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
|
||||
{-# LANGUAGE OverloadedStrings #-}
|
||||
{- |
|
||||
Module : FediChord
|
||||
Description : An opinionated implementation of the EpiChord DHT by Leong et al.
|
||||
|
@ -45,29 +47,30 @@ module Hash2Pub.FediChord (
|
|||
, cacheWriter
|
||||
) where
|
||||
|
||||
import qualified Data.Map.Strict as Map
|
||||
import Network.Socket
|
||||
import Data.Time.Clock.POSIX
|
||||
import Control.Exception
|
||||
import Data.Maybe (isJust, fromMaybe, mapMaybe)
|
||||
import Control.Exception
|
||||
import qualified Data.Map.Strict as Map
|
||||
import Data.Maybe (fromMaybe, isJust, mapMaybe)
|
||||
import Data.Time.Clock.POSIX
|
||||
import Network.Socket
|
||||
|
||||
-- for hashing and ID conversion
|
||||
import Crypto.Hash
|
||||
import Data.Word
|
||||
import qualified Data.ByteString as BS
|
||||
import qualified Data.ByteString.UTF8 as BSU
|
||||
import qualified Data.ByteArray as BA
|
||||
import qualified Network.ByteOrder as NetworkBytes
|
||||
import Data.IP (IPv6, fromHostAddress6, toHostAddress6)
|
||||
import Data.IORef
|
||||
import Control.Concurrent.STM
|
||||
import Control.Concurrent.STM.TQueue
|
||||
import Control.Monad (forever)
|
||||
import Data.Typeable (Typeable(..), typeOf)
|
||||
import Control.Concurrent.STM
|
||||
import Control.Concurrent.STM.TQueue
|
||||
import Control.Monad (forever)
|
||||
import Crypto.Hash
|
||||
import qualified Data.ByteArray as BA
|
||||
import qualified Data.ByteString as BS
|
||||
import qualified Data.ByteString.UTF8 as BSU
|
||||
import Data.IORef
|
||||
import Data.IP (IPv6, fromHostAddress6,
|
||||
toHostAddress6)
|
||||
import Data.Typeable (Typeable (..), typeOf)
|
||||
import Data.Word
|
||||
import qualified Network.ByteOrder as NetworkBytes
|
||||
|
||||
import Hash2Pub.Utils
|
||||
import Hash2Pub.Utils
|
||||
|
||||
import Debug.Trace (trace)
|
||||
import Debug.Trace (trace)
|
||||
|
||||
-- define protocol constants
|
||||
-- | static definition of ID length in bits
|
||||
|
@ -120,14 +123,14 @@ a `localCompare` b
|
|||
|
||||
-- | represents a node and all its important state
|
||||
data NodeState = NodeState {
|
||||
nid :: NodeID
|
||||
, domain :: String
|
||||
nid :: NodeID
|
||||
, domain :: String
|
||||
-- ^ full public domain name the node is reachable under
|
||||
, ipAddr :: HostAddress6
|
||||
, ipAddr :: HostAddress6
|
||||
-- the node's public IPv6 address
|
||||
, dhtPort :: PortNumber
|
||||
, dhtPort :: PortNumber
|
||||
-- ^ port of the DHT itself
|
||||
, apPort :: Maybe PortNumber
|
||||
, apPort :: Maybe PortNumber
|
||||
-- ^ port of the ActivityPub relay and storage service
|
||||
-- might have to be queried first
|
||||
, vServerID :: Integer
|
||||
|
@ -142,32 +145,32 @@ data NodeState = NodeState {
|
|||
|
||||
-- | encapsulates all data and parameters that are not present for remote nodes
|
||||
data InternalNodeState = InternalNodeState {
|
||||
nodeCache :: IORef NodeCache
|
||||
nodeCache :: IORef NodeCache
|
||||
-- ^ EpiChord node cache with expiry times for nodes
|
||||
-- as the map is ordered, lookups for the closes preceding node can be done using @lookupLT@.
|
||||
-- encapsulated into an IORef for allowing concurrent reads without locking
|
||||
, cacheWriteQueue :: TQueue (NodeCache -> NodeCache)
|
||||
, cacheWriteQueue :: TQueue (NodeCache -> NodeCache)
|
||||
-- ^ cache updates are not written directly to the 'nodeCache' but queued and
|
||||
-- only processed by a single writer thread to prevent lost updates.
|
||||
-- All nodeCache modifying functions have to be partially applied enough before
|
||||
-- being put into the queue.
|
||||
--
|
||||
, successors :: [NodeID] -- could be a set instead as these are ordered as well
|
||||
, successors :: [NodeID] -- could be a set instead as these are ordered as well
|
||||
-- ^ successor nodes in ascending order by distance
|
||||
, predecessors :: [NodeID]
|
||||
, predecessors :: [NodeID]
|
||||
-- ^ predecessor nodes in ascending order by distance
|
||||
----- protocol parameters -----
|
||||
-- TODO: evaluate moving these somewhere else
|
||||
, kNeighbours :: Int
|
||||
, kNeighbours :: Int
|
||||
-- ^ desired length of predecessor and successor list
|
||||
-- needs to be parameterisable for simulation purposes
|
||||
, lNumBestNodes :: Int
|
||||
, lNumBestNodes :: Int
|
||||
-- ^ number of best next hops to provide
|
||||
-- needs to be parameterisable for simulation purposes
|
||||
, pNumParallelQueries :: Int
|
||||
-- ^ number of parallel sent queries
|
||||
-- needs to be parameterisable for simulation purposes
|
||||
, jEntriesPerSlice :: Int
|
||||
, jEntriesPerSlice :: Int
|
||||
-- ^ number of desired entries per cache slice
|
||||
-- needs to be parameterisable for simulation purposes
|
||||
} deriving (Show, Eq)
|
||||
|
@ -248,10 +251,10 @@ data ProxyDirection = Backwards | Forwards deriving (Show, Eq)
|
|||
|
||||
instance Enum ProxyDirection where
|
||||
toEnum (-1) = Backwards
|
||||
toEnum 1 = Forwards
|
||||
toEnum _ = error "no such ProxyDirection"
|
||||
toEnum 1 = Forwards
|
||||
toEnum _ = error "no such ProxyDirection"
|
||||
fromEnum Backwards = - 1
|
||||
fromEnum Forwards = 1
|
||||
fromEnum Forwards = 1
|
||||
|
||||
--- useful function for getting entries for a full cache transfer
|
||||
cacheEntries :: NodeCache -> [CacheEntry]
|
||||
|
@ -272,7 +275,7 @@ cacheLookup :: NodeID -- ^lookup key
|
|||
-> Maybe CacheEntry
|
||||
cacheLookup key cache = case Map.lookup key cache of
|
||||
Just (ProxyEntry _ result) -> result
|
||||
res -> res
|
||||
res -> res
|
||||
|
||||
-- | a wrapper around lookup functions, making the lookup redirectable by a @ProxyEntry@
|
||||
-- to simulate a modular ring
|
||||
|
@ -280,12 +283,12 @@ lookupWrapper :: (NodeID -> NodeCache -> Maybe (NodeID, CacheEntry)) -> (NodeID
|
|||
lookupWrapper f fRepeat direction key cache =
|
||||
case f key cache of
|
||||
-- the proxy entry found holds a
|
||||
Just (_, (ProxyEntry _ (Just entry@NodeEntry{}))) -> Just entry
|
||||
Just (_, ProxyEntry _ (Just entry@NodeEntry{})) -> Just entry
|
||||
-- proxy entry holds another proxy entry, this should not happen
|
||||
Just (_, (ProxyEntry _ (Just (ProxyEntry _ _)))) -> Nothing
|
||||
Just (_, ProxyEntry _ (Just (ProxyEntry _ _))) -> Nothing
|
||||
-- proxy entry without own entry is a pointer on where to continue
|
||||
-- if lookup direction is the same as pointer direction: follow pointer
|
||||
Just (foundKey, (ProxyEntry (pointerID, pointerDirection) Nothing)) ->
|
||||
Just (foundKey, ProxyEntry (pointerID, pointerDirection) Nothing) ->
|
||||
let newKey = if pointerDirection == direction
|
||||
then pointerID
|
||||
else foundKey + (fromInteger . toInteger . fromEnum $ direction)
|
||||
|
@ -322,17 +325,17 @@ cacheLookupPred = lookupWrapper Map.lookupLT Map.lookupLE Backwards
|
|||
cacheGetNodeStateUnvalidated :: CacheEntry -> NodeState
|
||||
cacheGetNodeStateUnvalidated (NodeEntry _ nState _) = nState
|
||||
cacheGetNodeStateUnvalidated (ProxyEntry _ (Just entry)) = cacheGetNodeStateUnvalidated entry
|
||||
cacheGetNodeStateUnvalidated _ = error "trying to return empty node state, please report a bug"
|
||||
cacheGetNodeStateUnvalidated _ = error "trying to pure empty node state, please report a bug"
|
||||
|
||||
-- | converts a 'HostAddress6' IP address to a big-endian strict ByteString
|
||||
ipAddrAsBS :: HostAddress6 -> BS.ByteString
|
||||
ipAddrAsBS (a, b, c, d) = mconcat $ map NetworkBytes.bytestring32 [a, b, c, d]
|
||||
ipAddrAsBS (a, b, c, d) = mconcat $ fmap NetworkBytes.bytestring32 [a, b, c, d]
|
||||
|
||||
-- | converts a ByteString in big endian order to an IPv6 address 'HostAddress6'
|
||||
bsAsIpAddr :: BS.ByteString -> HostAddress6
|
||||
bsAsIpAddr bytes = (a,b,c,d)
|
||||
where
|
||||
a:b:c:d:_ = map NetworkBytes.word32 . chunkBytes 4 $ bytes
|
||||
a:b:c:d:_ = fmap NetworkBytes.word32 . chunkBytes 4 $ bytes
|
||||
|
||||
|
||||
-- | generates a 256 bit long NodeID using SHAKE128, represented as ByteString
|
||||
|
@ -344,7 +347,7 @@ genNodeIDBS ip nodeDomain vserver =
|
|||
hashIpaddrUpper `BS.append` hashID nodeDomain' `BS.append` hashIpaddLower
|
||||
where
|
||||
vsBS = BS.pack [vserver] -- attention: only works for vserver IDs up to 255
|
||||
ipaddrNet = (BS.take 8 $ ipAddrAsBS ip) `BS.append` vsBS
|
||||
ipaddrNet = BS.take 8 (ipAddrAsBS ip) `BS.append` vsBS
|
||||
nodeDomain' = BSU.fromString nodeDomain `BS.append` vsBS
|
||||
hashID bstr = BS.pack . BA.unpack $ (hash bstr :: Digest (SHAKE128 128))
|
||||
(hashIpaddrUpper, hashIpaddLower) = BS.splitAt 64 $ hashID ipaddrNet
|
||||
|
@ -379,7 +382,7 @@ byteStringToUInteger bs = sum $ parsedBytes 0 bs
|
|||
Just (bs', w) -> parseWithOffset offset w : parsedBytes (offset+1) bs'
|
||||
|
||||
parseWithOffset :: Integer -> Word8 -> Integer
|
||||
parseWithOffset 0 word = toInteger word -- a shift of 0 is always 0
|
||||
parseWithOffset 0 word = toInteger word -- a shift of 0 is always 0
|
||||
parseWithOffset offset word = toInteger word * 2^(8 * offset)
|
||||
|
||||
|
||||
|
@ -391,7 +394,7 @@ byteStringToUInteger bs = sum $ parsedBytes 0 bs
|
|||
--checkCacheSlices :: NodeState -> IO [()]
|
||||
--checkCacheSlices state = case getNodeCache state of
|
||||
-- -- don't do anything on nodes without a cache
|
||||
-- Nothing -> return [()]
|
||||
-- Nothing -> pure [()]
|
||||
-- Just cache' -> checkSlice jEntries (nid state) startBound lastSucc =<< readIORef cache'
|
||||
-- -- TODO: do the same for predecessors
|
||||
-- where
|
||||
|
@ -415,10 +418,10 @@ byteStringToUInteger bs = sum $ parsedBytes 0 bs
|
|||
-- -- TODO: replace empty IO actions with actual lookups to middle of slice
|
||||
-- -- TODO: validate ID before adding to cache
|
||||
-- case Map.lookupLT upperBound cache of
|
||||
-- Nothing -> return () : checkSlice j ownID lowerBound (Just lastSuccNode) cache
|
||||
-- Nothing -> pure () : checkSlice j ownID lowerBound (Just lastSuccNode) cache
|
||||
-- Just (matchID, _) ->
|
||||
-- if
|
||||
-- matchID <= lowerBound then return () : checkSlice j ownID lowerBound (Just lastSuccNode) cache
|
||||
-- matchID <= lowerBound then pure () : checkSlice j ownID lowerBound (Just lastSuccNode) cache
|
||||
-- else
|
||||
-- checkSlice j ownID lowerBound (Just lastSuccNode) cache
|
||||
|
||||
|
@ -428,8 +431,8 @@ byteStringToUInteger bs = sum $ parsedBytes 0 bs
|
|||
|
||||
-- | configuration values used for initialising the FediChord DHT
|
||||
data FediChordConf = FediChordConf {
|
||||
confDomain :: String
|
||||
, confIP :: HostAddress6
|
||||
confDomain :: String
|
||||
, confIP :: HostAddress6
|
||||
, confDhtPort :: Int
|
||||
} deriving (Show, Eq)
|
||||
|
||||
|
@ -439,7 +442,7 @@ fediChordInit :: FediChordConf -> IO (Socket, NodeState)
|
|||
fediChordInit conf = do
|
||||
initialState <- nodeStateInit conf
|
||||
serverSock <- mkServerSocket (ipAddr initialState) (dhtPort initialState)
|
||||
return (serverSock, initialState)
|
||||
pure (serverSock, initialState)
|
||||
|
||||
-- | initialises the 'NodeState' for this local node.
|
||||
-- Separated from 'fediChordInit' to be usable in tests.
|
||||
|
@ -467,7 +470,7 @@ nodeStateInit conf = do
|
|||
, pNumParallelQueries = 2
|
||||
, jEntriesPerSlice = 2
|
||||
}
|
||||
return initialState
|
||||
pure initialState
|
||||
|
||||
--fediChordJoin :: NodeState -- ^ the local 'NodeState'
|
||||
-- -> (String, PortNumber) -- ^ domain and port of a bootstrapping node
|
||||
|
@ -486,13 +489,13 @@ cacheWriter :: NodeState -> IO ()
|
|||
cacheWriter ns = do
|
||||
let writeQueue' = getCacheWriteQueue ns
|
||||
case writeQueue' of
|
||||
Nothing -> return ()
|
||||
Nothing -> pure ()
|
||||
Just writeQueue -> forever $ do
|
||||
f <- atomically $ readTQueue writeQueue
|
||||
let
|
||||
refModifier :: NodeCache -> (NodeCache, ())
|
||||
refModifier nc = (f nc, ())
|
||||
maybe (return ()) (
|
||||
maybe (pure ()) (
|
||||
\ref -> atomicModifyIORef' ref refModifier
|
||||
) $ getNodeCacheRef ns
|
||||
|
||||
|
@ -518,7 +521,7 @@ mkServerSocket ip port = do
|
|||
sock <- socket AF_INET6 Datagram defaultProtocol
|
||||
setSocketOption sock IPv6Only 1
|
||||
bind sock sockAddr
|
||||
return sock
|
||||
pure sock
|
||||
|
||||
-- | create a UDP datagram socket, connected to a destination.
|
||||
-- The socket gets an arbitrary free local port assigned.
|
||||
|
@ -529,4 +532,4 @@ mkSendSocket dest destPort = do
|
|||
destAddr <- addrAddress <$> resolve (Just dest) (Just destPort)
|
||||
sendSock <- socket AF_INET6 Datagram defaultProtocol
|
||||
setSocketOption sendSock IPv6Only 1
|
||||
return sendSock
|
||||
pure sendSock
|
||||
|
|
|
@ -1,10 +1,10 @@
|
|||
module Main where
|
||||
|
||||
import System.Environment
|
||||
import Data.IP (IPv6, toHostAddress6) -- iproute, just for IPv6 string parsing
|
||||
import Control.Concurrent
|
||||
import Control.Concurrent
|
||||
import Data.IP (IPv6, toHostAddress6)
|
||||
import System.Environment
|
||||
|
||||
import Hash2Pub.FediChord
|
||||
import Hash2Pub.FediChord
|
||||
|
||||
main :: IO ()
|
||||
main = do
|
||||
|
@ -20,12 +20,12 @@ main = do
|
|||
-- idea: list of bootstrapping nodes, try joining within a timeout
|
||||
-- stop main thread from terminating during development
|
||||
getChar
|
||||
return ()
|
||||
pure ()
|
||||
|
||||
readConfig :: IO FediChordConf
|
||||
readConfig = do
|
||||
confDomainString : ipString : portString : _ <- getArgs
|
||||
return $ FediChordConf {
|
||||
pure $ FediChordConf {
|
||||
confDomain = confDomainString
|
||||
, confIP = toHostAddress6 . read $ ipString
|
||||
, confDhtPort = read portString
|
||||
|
|
|
@ -2,11 +2,11 @@
|
|||
module Hash2Pub.Utils where
|
||||
|
||||
import qualified Data.ByteString as BS
|
||||
import qualified Data.Set as Set
|
||||
import qualified Data.Set as Set
|
||||
|
||||
-- |wraps a list into a Maybe, by replacing empty lists with Nothing
|
||||
maybeEmpty :: [a] -> Maybe [a]
|
||||
maybeEmpty [] = Nothing
|
||||
maybeEmpty [] = Nothing
|
||||
maybeEmpty nonemptyList = Just nonemptyList
|
||||
|
||||
-- | Chop a list into sublists of i elements. The last sublist might contain
|
||||
|
@ -15,7 +15,7 @@ chunksOf :: Int -> [a] -> [[a]]
|
|||
chunksOf i xs =
|
||||
case splitAt i xs of
|
||||
(a, []) -> [a]
|
||||
(a, b) -> a : chunksOf i b
|
||||
(a, b) -> a : chunksOf i b
|
||||
|
||||
|
||||
-- | Chop a 'BS.ByteString' into list of substrings of i elements. The last
|
||||
|
@ -24,7 +24,7 @@ chunkBytes :: Int -> BS.ByteString -> [BS.ByteString]
|
|||
chunkBytes i xs =
|
||||
case BS.splitAt i xs of
|
||||
(a, "") -> [a]
|
||||
(a, b) -> a : chunkBytes i b
|
||||
(a, b) -> a : chunkBytes i b
|
||||
|
||||
-- | Chop a 'Set.Set' into a list of disjuct subsets of i elements. The last
|
||||
-- subset might contain less than i elements.
|
||||
|
|
|
@ -1,20 +1,20 @@
|
|||
{-# LANGUAGE OverloadedStrings #-}
|
||||
module Main where
|
||||
|
||||
import qualified Data.ASN1.Encoding as ASN1 -- asn1-encoding package
|
||||
import qualified Data.ASN1.BinaryEncoding as ASN1
|
||||
import qualified Data.ASN1.Error as ASN1
|
||||
import qualified Data.ASN1.Types as ASN1 -- asn1-types package
|
||||
import qualified Data.ASN1.Parse as ASN1P
|
||||
import qualified Data.ByteString as BS
|
||||
import Data.Maybe (fromMaybe)
|
||||
import Debug.Trace (trace)
|
||||
import qualified Data.ASN1.Encoding as ASN1
|
||||
import qualified Data.ASN1.Error as ASN1
|
||||
import qualified Data.ASN1.Parse as ASN1P
|
||||
import qualified Data.ASN1.Types as ASN1
|
||||
import qualified Data.ByteString as BS
|
||||
import Data.Maybe (fromMaybe)
|
||||
import Debug.Trace (trace)
|
||||
|
||||
-- import Hash2Pub.Fedichord
|
||||
|
||||
-- encoding values as ASN.1 types is done using Data.ASN1.Prim
|
||||
someASN1 :: [ASN1.ASN1]
|
||||
someASN1 = ASN1.Start ASN1.Sequence : ASN1.ASN1String (ASN1.asn1CharacterString ASN1.Visible domain) : ASN1.ASN1String (ASN1.asn1CharacterString ASN1.UTF8 unicode) : map ASN1.IntVal xs ++ [ASN1.End ASN1.Sequence]
|
||||
someASN1 = ASN1.Start ASN1.Sequence : ASN1.ASN1String (ASN1.asn1CharacterString ASN1.Visible domain) : ASN1.ASN1String (ASN1.asn1CharacterString ASN1.UTF8 unicode) : fmap ASN1.IntVal xs <> [ASN1.End ASN1.Sequence]
|
||||
where
|
||||
domain = "domains.are.ascii.on.ly"
|
||||
unicode = "Hähä, but unicode string!"
|
||||
|
@ -27,12 +27,12 @@ derToAsn1 :: BS.ByteString -> Either ASN1.ASN1Error [ASN1.ASN1]
|
|||
derToAsn1 = ASN1.decodeASN1' ASN1.DER
|
||||
|
||||
getUnicodeField :: [ASN1.ASN1] -> String
|
||||
getUnicodeField ((ASN1.Start ASN1.Sequence) : _ : (ASN1.ASN1String strASN1) : _) = fromMaybe "" $ ASN1.asn1CharacterToString strASN1
|
||||
getUnicodeField (ASN1.Start ASN1.Sequence : _ : ASN1.ASN1String strASN1 : _) = fromMaybe "" $ ASN1.asn1CharacterToString strASN1
|
||||
|
||||
testParser :: ASN1P.ParseASN1 String
|
||||
testParser = do
|
||||
foo <- ASN1P.onNextContainer ASN1.Sequence getAll
|
||||
return $ show foo
|
||||
pure $ show foo
|
||||
|
||||
getAll :: ASN1P.ParseASN1 [ASN1.ASN1]
|
||||
getAll = ASN1P.getMany ASN1P.getNext
|
||||
|
|
32
stylish.sh
Executable file
32
stylish.sh
Executable file
|
@ -0,0 +1,32 @@
|
|||
#!/usr/bin/env bash
|
||||
|
||||
set -euo pipefail
|
||||
|
||||
function ls-source-files {
|
||||
git ls-files "app/*.hs" "src/*.hs" "test/*.hs"
|
||||
}
|
||||
|
||||
function check-git-status {
|
||||
[ "$(git status -s '*.hs' | wc -l)" == "0" ]
|
||||
}
|
||||
|
||||
function stylish {
|
||||
stylish-haskell -i $(ls-source-files)
|
||||
}
|
||||
|
||||
if check-git-status
|
||||
then
|
||||
echo "Running stylish-haskell..."
|
||||
stylish
|
||||
echo "Done."
|
||||
if check-git-status
|
||||
then
|
||||
echo "OK, impeccable style."
|
||||
else
|
||||
echo "KO! Lack of style on those files:"
|
||||
git status -sb
|
||||
exit 1
|
||||
fi
|
||||
else
|
||||
echo "git status not clean, aborting"
|
||||
fi
|
|
@ -1,20 +1,20 @@
|
|||
{-# LANGUAGE OverloadedStrings #-}
|
||||
module FediChordSpec where
|
||||
|
||||
import Test.Hspec
|
||||
import Control.Exception
|
||||
import Network.Socket
|
||||
import Data.Maybe (fromJust)
|
||||
import qualified Data.Map.Strict as Map
|
||||
import qualified Data.ByteString as BS
|
||||
import qualified Data.Set as Set
|
||||
import Data.ASN1.Parse (runParseASN1)
|
||||
import Data.Time.Clock.POSIX
|
||||
import Data.IORef
|
||||
import Control.Exception
|
||||
import Data.ASN1.Parse (runParseASN1)
|
||||
import qualified Data.ByteString as BS
|
||||
import Data.IORef
|
||||
import qualified Data.Map.Strict as Map
|
||||
import Data.Maybe (fromJust)
|
||||
import qualified Data.Set as Set
|
||||
import Data.Time.Clock.POSIX
|
||||
import Network.Socket
|
||||
import Test.Hspec
|
||||
|
||||
import Hash2Pub.FediChord
|
||||
import Hash2Pub.DHTProtocol
|
||||
import Hash2Pub.ASN1Coding
|
||||
import Hash2Pub.ASN1Coding
|
||||
import Hash2Pub.DHTProtocol
|
||||
import Hash2Pub.FediChord
|
||||
|
||||
spec :: Spec
|
||||
spec = do
|
||||
|
@ -123,7 +123,7 @@ spec = do
|
|||
nid1 = toNodeID 2^(23::Integer)+1
|
||||
node1 = do
|
||||
eln <- exampleLocalNode -- is at 2^23.00000017198264 = 8388609
|
||||
return $ putPredecessors [nid4] $ eln {nid = nid1}
|
||||
pure $ putPredecessors [nid4] $ eln {nid = nid1}
|
||||
nid2 = toNodeID 2^(230::Integer)+12
|
||||
node2 = exampleNodeState { nid = nid2}
|
||||
nid3 = toNodeID 2^(25::Integer)+10
|
||||
|
@ -156,7 +156,7 @@ spec = do
|
|||
describe "Messages can be encoded to and decoded from ASN.1" $ do
|
||||
-- define test messages
|
||||
let
|
||||
someNodeIDs = map fromInteger [3..12]
|
||||
someNodeIDs = fmap fromInteger [3..12]
|
||||
qidReqPayload = QueryIDRequestPayload {
|
||||
queryTargetID = nid exampleNodeState
|
||||
, queryLBestNodes = 3
|
||||
|
|
|
@ -1,8 +1,8 @@
|
|||
module Main (main) where
|
||||
|
||||
import Test.Hspec
|
||||
import qualified FediChordSpec
|
||||
import Test.Hspec
|
||||
|
||||
main :: IO ()
|
||||
main = hspec $ do
|
||||
main = hspec $
|
||||
describe "FediChord tests" FediChordSpec.spec
|
||||
|
|
Loading…
Reference in a new issue