Trolli Schmittlauch
9bf7365a2c
- necessary for dispatching the request to a certain vserver - also refactored request sending to use a common `mkRequest` - contributes to #2
332 lines
18 KiB
Haskell
332 lines
18 KiB
Haskell
{-# LANGUAGE FlexibleInstances #-}
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{-# LANGUAGE MultiParamTypeClasses #-}
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{-# LANGUAGE OverloadedStrings #-}
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module FediChordSpec where
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import Control.Concurrent.STM.TVar
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import Control.Exception
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import Data.ASN1.Parse (runParseASN1)
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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 (fromJust, isJust)
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import qualified Data.Set as Set
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import Data.Time.Clock.POSIX
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import Network.Socket
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import Test.Hspec
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import Hash2Pub.ASN1Coding
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import Hash2Pub.DHTProtocol
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import Hash2Pub.FediChord
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import Hash2Pub.FediChordTypes
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spec :: Spec
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spec = do
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describe "NodeID" $ do
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it "can store a numeral ID" $
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getNodeID (toNodeID 2342) `shouldBe` 2342
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it "computes ID values within the modular bounds" $ do
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getNodeID ((maxBound :: NodeID) + toNodeID 2) < getNodeID (maxBound :: NodeID) `shouldBe` True
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3 * (maxBound :: NodeID) `shouldBe` fromInteger (-3)
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it "local comparison works in the context of preceding/ succeding nodes on a ring" $ do
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toNodeID 12 `localCompare` toNodeID 12 `shouldBe` EQ
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let
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a = toNodeID 3
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b = toNodeID 3 - toNodeID 10
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a `localCompare` b `shouldBe` GT
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b `localCompare` a `shouldBe` LT
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-- edge cases
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((toNodeID 5001 - toNodeID 2^(255::Integer)) `localCompare` 5001) `shouldBe` LT
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(toNodeID 5001 - toNodeID 2^(255::Integer) - 1) `localCompare` 5001 `shouldBe` GT
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it "throws an exception when @toNodeID@ on out-of-bound values"
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pending
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it "can be generated" $ do
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genNodeIDBS exampleIp exampleNodeDomain exampleVs `shouldBe` "\ACK\211\183&S\GS\214\247Xn8\216\232\195\247\162\182\253\210\SOHG7I\194\251\196\130\142RSx\219"
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genNodeID exampleIp exampleNodeDomain exampleVs `shouldBe` toNodeID 3087945874980469002564169693112490135217795916629034079089428181202645514459
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describe "ByteString to Integer conversion" $
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it "correctly interprets ByteStrings as unsigned big-endian integers" $ do
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byteStringToUInteger (BS.pack $ replicate 32 0xff) `shouldBe` 2^(256::Integer)-1
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byteStringToUInteger (BS.pack $ replicate 32 0x00) `shouldBe` 0
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byteStringToUInteger (BS.pack [0x00, 0x03, 0xf6, 0x78, 0x10, 0x00]) `shouldBe` 17019965440
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describe "key ID" $
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it "can be generated" $ do
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genKeyIDBS "#sometag" `shouldBe` "\178\239\146\131\166\SYN\ESC\209\205\&3\143\212\145@#\205T\219\152\191\229\ACK|\153<b\199p\147\182&l"
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genKeyIDBS "#ÄปӥicоdeTag" `shouldBe` "\f\159\165|D*\SUB\180\SO\202\&0\158\148\238\STX FZ/\184\SOH\188\169\153\154\164\229\&2Ix\SUB\169"
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genKeyID "#sometag" `shouldBe` 80934974700514031200587628522801847528706765451025022694022301350330549806700
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genKeyID "#ÄปӥicоdeTag" `shouldBe` 5709825004658123480531764908635278432808461265905814952223156184506818894505
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describe "NodeState" $ do
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it "can be initialised" $
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print exampleNodeState
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it "can be initialised partly and then modified later" $ do
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let ns = RemoteNodeState {
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nid = undefined
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, domain = exampleNodeDomain
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, ipAddr = exampleIp
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, dhtPort = 2342
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, servicePort = 513
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, vServerID = undefined
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}
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nsReady = ns {
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nid = genNodeID (ipAddr ns) (domain ns) 3
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, vServerID = 1
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}
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print nsReady
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describe "IP address to ByteString conversion" $
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it "correctly converts HostAddress6 values back and forth" $
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(bsAsIpAddr . ipAddrAsBS $ ipAddr exampleNodeState) `shouldBe` ipAddr exampleNodeState
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describe "NodeCache" $ do
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let
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emptyCache = initCache
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anotherID = toNodeID 2^(230::Integer)+1
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anotherNode = exampleNodeState { nid = anotherID}
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maxNode = exampleNodeState { nid = maxBound}
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newCache = addCacheEntryPure 10 (RemoteCacheEntry exampleNodeState 10) (addCacheEntryPure 10 (RemoteCacheEntry anotherNode 10) emptyCache)
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exampleID = nid exampleNodeState
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it "entries can be added to a node cache and looked up again" $ do
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rMapSize emptyCache `shouldBe` 0
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rMapSize newCache `shouldBe` 2
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-- normal entry lookup
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nid . cacheGetNodeStateUnvalidated <$> cacheLookup anotherID newCache `shouldBe` Just anotherID
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nid . cacheGetNodeStateUnvalidated <$> cacheLookup (anotherID+1) newCache `shouldBe` Nothing
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-- initially, the proxy elements store nothing
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cacheLookup minBound emptyCache `shouldBe` Nothing
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cacheLookup maxBound emptyCache `shouldBe` Nothing
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-- now store a node at that ID
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let cacheWithMaxNode = addCacheEntryPure 10 (RemoteCacheEntry maxNode 10) newCache
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nid . cacheGetNodeStateUnvalidated <$> cacheLookup maxBound cacheWithMaxNode `shouldBe` Just maxBound
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it "looking up predecessor and successor works like on a modular ring" $ do
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-- ignore empty proxy elements in initial cache
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nid . cacheGetNodeStateUnvalidated <$> cacheLookupPred (exampleID + 10) emptyCache `shouldBe` Nothing
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nid . cacheGetNodeStateUnvalidated <$> cacheLookupSucc exampleID emptyCache `shouldBe` Nothing
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-- given situation: 0 < anotherNode < nid exampleLocalNode < maxBound
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-- first try non-modular queries between the 2 stored nodes
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nid . cacheGetNodeStateUnvalidated <$> cacheLookupPred (exampleID + 10) newCache `shouldBe` Just exampleID
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nid . cacheGetNodeStateUnvalidated <$> cacheLookupSucc exampleID newCache `shouldBe` Just exampleID
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nid . cacheGetNodeStateUnvalidated <$> cacheLookupSucc (exampleID + 10) newCache `shouldBe` Just anotherID
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-- queries that require a (pseudo)modular structure
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nid . cacheGetNodeStateUnvalidated <$> cacheLookupPred (exampleID - 2) newCache `shouldBe` Just anotherID
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nid . cacheGetNodeStateUnvalidated <$> cacheLookupSucc (anotherID + 2) newCache `shouldBe` Just exampleID
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-- now store a node in one of the ProxyEntries
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let cacheWithProxyNodeEntry = addCacheEntryPure 10 (RemoteCacheEntry maxNode 10) newCache
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nid . cacheGetNodeStateUnvalidated <$> cacheLookupPred (exampleID - 2) cacheWithProxyNodeEntry `shouldBe` Just maxBound
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nid . cacheGetNodeStateUnvalidated <$> cacheLookupSucc (anotherID + 2) cacheWithProxyNodeEntry `shouldBe` Just maxBound
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it "entries can be deleted" $ do
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let
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nC = addCacheEntryPure 10 (RemoteCacheEntry maxNode 10) newCache
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nc' = deleteCacheEntry maxBound . deleteCacheEntry anotherID $ nC
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cacheLookup anotherID nc' `shouldBe` Nothing
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cacheLookup maxBound nc' `shouldBe` Nothing
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describe "NodeCache query lookup" $ do
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let
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emptyCache = initCache
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nid1 = toNodeID 2^(23::Integer)+1
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node1 = setPredecessors [node4] . setNid nid1 <$> exampleLocalNode
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nid2 = toNodeID 2^(230::Integer)+12
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node2 = exampleNodeState { nid = nid2}
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nid3 = toNodeID 2^(25::Integer)+10
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node3 = exampleNodeState { nid = nid3}
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nid4 = toNodeID 2^(9::Integer)+100
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node4 = exampleNodeState { nid = nid4}
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nid5 = toNodeID 2^(25::Integer)+100
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node5 = exampleNodeState { nid = nid5}
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cacheWith2Entries :: NodeCache
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cacheWith2Entries = addCacheEntryPure 10 (RemoteCacheEntry node5 10) (addCacheEntryPure 10 (RemoteCacheEntry node2 10) emptyCache)
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cacheWith4Entries = addCacheEntryPure 10 (RemoteCacheEntry node3 10) (addCacheEntryPure 10 (RemoteCacheEntry node4 10) cacheWith2Entries)
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it "unjoined nodes should never return themselfs" $ do
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exampleLocalNodeAsRemote <- toRemoteNodeState <$> exampleLocalNode
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queryLocalCache <$> exampleLocalNode <*> pure emptyCache <*> pure 3 <*> pure (toNodeID 2^(9::Integer)+5) `shouldReturn` FORWARD Set.empty
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(FORWARD fwSet) <- queryLocalCache <$> exampleLocalNode <*> pure cacheWith4Entries <*> pure 1 <*> (getNid <$> exampleLocalNode)
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remoteNode (head $ Set.elems fwSet) `shouldBe` node4
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it "joined nodes do not fall back to the default" $
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queryLocalCache <$> node1 <*> pure emptyCache <*> pure 1 <*> pure (toNodeID 3) `shouldReturn` FORWARD Set.empty
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it "works on a cache with less entries than needed" $ do
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(FORWARD nodeset) <- queryLocalCache <$> node1 <*> pure cacheWith2Entries <*> pure 4 <*> pure (toNodeID 2^(9::Integer)+5)
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Set.map (nid . remoteNode) nodeset `shouldBe` Set.fromList [ nid5, nid2 ]
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it "works on a cache with sufficient entries" $ do
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(FORWARD nodeset1) <- queryLocalCache <$> node1 <*> pure cacheWith4Entries <*> pure 3 <*> pure (toNodeID 2^(9::Integer)+5)
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(FORWARD nodeset2) <- queryLocalCache <$> node1 <*> pure cacheWith4Entries <*> pure 1 <*> pure (toNodeID 2^(9::Integer)+5)
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Set.map (nid . remoteNode) nodeset1 `shouldBe` Set.fromList [nid4, nid2, nid5]
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Set.map (nid . remoteNode) nodeset2 `shouldBe` Set.fromList [nid4]
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it "recognises the node's own responsibility" $ do
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FOUND selfQueryRes <- queryLocalCache <$> node1 <*> pure cacheWith4Entries <*> pure 3 <*> pure nid1
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getNid <$> node1 `shouldReturn` getNid selfQueryRes
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FOUND responsibilityResult <- queryLocalCache <$> node1 <*> pure cacheWith4Entries <*> pure 3 <*> pure (toNodeID 2^(22::Integer))
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getNid <$> node1 `shouldReturn` getNid responsibilityResult
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describe "successors and predecessors do not disturb the ring characteristics of EpiChord operations (see #48)" $ do
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let
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emptyCache = initCache
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-- implicitly relies on kNeighbours to be <= 3
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thisNid = toNodeID 1000
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thisNode = setNid thisNid <$> exampleLocalNode
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nid2 = toNodeID 1003
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node2 = exampleNodeState { nid = nid2}
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nid3 = toNodeID 1010
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node3 = exampleNodeState { nid = nid3}
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nid4 = toNodeID 1020
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node4 = exampleNodeState { nid = nid4}
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nid5 = toNodeID 1025
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node5 = exampleNodeState { nid = nid5}
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allRemoteNodes = [node2, node3, node4, node5]
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it "lookups also work for slices larger than 1/2 key space" $ do
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node <- setSuccessors allRemoteNodes . setPredecessors allRemoteNodes <$> thisNode
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-- do lookup on empty cache but with successors for a key > 1/2 key space
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-- succeeding the node
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queryLocalCache node emptyCache 1 (nid5 + 10) `shouldBe` FOUND (toRemoteNodeState node)
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describe "Messages can be encoded to and decoded from ASN.1" $ do
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-- define test messages
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let
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someNodes = fmap (flip setNid exampleNodeState . fromInteger) [3..12]
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qidReqPayload = QueryIDRequestPayload {
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queryTargetID = nid exampleNodeState
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, queryLBestNodes = 3
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}
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jReqPayload = JoinRequestPayload
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lReqPayload = LeaveRequestPayload {
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leaveSuccessors = someNodes
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, leavePredecessors = someNodes
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, leaveDoMigration = True
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}
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stabReqPayload = StabiliseRequestPayload
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pingReqPayload = PingRequestPayload
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qidResPayload1 = QueryIDResponsePayload {
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queryResult = FOUND exampleNodeState
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}
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qidResPayload2 = QueryIDResponsePayload {
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queryResult = FORWARD $ Set.fromList [
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RemoteCacheEntry exampleNodeState (toEnum 23420001)
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, RemoteCacheEntry (exampleNodeState {nid = fromInteger (-5)}) (toEnum 0)
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]
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}
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jResPayload = JoinResponsePayload {
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joinSuccessors = someNodes
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, joinPredecessors = someNodes
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, joinCache = [
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RemoteCacheEntry exampleNodeState (toEnum 23420001)
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, RemoteCacheEntry (exampleNodeState {nid = fromInteger (-5)}) (toEnum 0)
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]
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}
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lResPayload = LeaveResponsePayload
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stabResPayload = StabiliseResponsePayload {
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stabiliseSuccessors = someNodes
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, stabilisePredecessors = []
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}
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pingResPayload = PingResponsePayload {
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pingNodeStates = [
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exampleNodeState
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, exampleNodeState {nid = fromInteger (-5)}
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]
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}
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qLoadReqPayload = LoadRequestPayload
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{ loadSegmentUpperBound = 1025
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}
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qLoadResPayload = LoadResponsePayload
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{ loadSum = 3.141
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, loadRemainingTarget = -1.337
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, loadSegmentLowerBound = 12
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}
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responseTemplate = Response {
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requestID = 2342
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, senderID = nid exampleNodeState
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, part = 1
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, isFinalPart = True
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, action = undefined
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, payload = undefined
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}
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requestWith senderNode a pa = mkRequest senderNode 4545 a (Just pa) $ 2342
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responseWith a pa = responseTemplate {action = a, payload = Just pa}
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encodeDecodeAndCheck msg = runParseASN1 parseMessage (encodeMessage msg) `shouldBe` pure msg
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largeMessage = responseWith Join $ JoinResponsePayload {
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joinSuccessors = flip setNid exampleNodeState . fromInteger <$> [-20..150]
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, joinPredecessors = flip setNid exampleNodeState . fromInteger <$> [5..11]
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, joinCache = [ RemoteCacheEntry (exampleNodeState {nid = node}) 290001 | node <- [50602,506011..60000]]
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}
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it "messages are encoded and decoded correctly from and to ASN1" $ do
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localNS <- exampleLocalNode
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encodeDecodeAndCheck $ requestWith localNS QueryID qidReqPayload
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encodeDecodeAndCheck $ requestWith localNS Join jReqPayload
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encodeDecodeAndCheck $ requestWith localNS Leave lReqPayload
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encodeDecodeAndCheck $ requestWith localNS Stabilise stabReqPayload
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encodeDecodeAndCheck $ requestWith localNS Ping pingReqPayload
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encodeDecodeAndCheck $ requestWith localNS QueryLoad qLoadReqPayload
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encodeDecodeAndCheck $ responseWith QueryID qidResPayload1
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encodeDecodeAndCheck $ responseWith QueryID qidResPayload2
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encodeDecodeAndCheck $ responseWith Join jResPayload
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encodeDecodeAndCheck $ responseWith Leave lResPayload
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encodeDecodeAndCheck $ responseWith Stabilise stabResPayload
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encodeDecodeAndCheck $ responseWith Ping pingResPayload
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encodeDecodeAndCheck $ responseWith QueryLoad qLoadResPayload
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it "messages are encoded and decoded to ASN.1 DER properly" $
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deserialiseMessage (fromJust $ Map.lookup 1 (serialiseMessage 652 $ responseWith Ping pingResPayload)) `shouldBe` Right (responseWith Ping pingResPayload)
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it "messages too large for a single packet can (often) be split into multiple parts" $ do
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-- TODO: once splitting works more efficient, test for exact number or payload, see #18
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length (serialiseMessage 600 largeMessage) > 1 `shouldBe` True
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length (serialiseMessage 60000 largeMessage) `shouldBe` 1
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it "message part numbering starts at the submitted part number" $ do
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isJust (Map.lookup 1 (serialiseMessage 600 largeMessage)) `shouldBe` True
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let startAt5 = serialiseMessage 600 (largeMessage {part = 5})
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Map.lookup 1 startAt5 `shouldBe` Nothing
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part <$> (deserialiseMessage . fromJust) (Map.lookup 5 startAt5) `shouldBe` Right 5
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describe "join cache lookup" $
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it "A bootstrap cache initialised with just one node returns that one." $ do
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let
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bootstrapNid = toNodeID 34804191837661041451755206127000721433747285589603756490902196113256157045194
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bootstrapNode = setNid bootstrapNid exampleNodeState
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bootstrapCache = addCacheEntryPure 10 (RemoteCacheEntry bootstrapNode 19) initCache
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ownId = toNodeID 34804191837661041451755206127000721433707928516052624394829818586723613390165
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ownNode <- setNid ownId <$> exampleLocalNode
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let (FORWARD qResult) = queryLocalCache ownNode bootstrapCache 2 ownId
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remoteNode (head $ Set.elems qResult) `shouldBe` bootstrapNode
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-- some example data
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exampleNodeState :: RemoteNodeState
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exampleNodeState = RemoteNodeState {
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nid = toNodeID 12
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, domain = exampleNodeDomain
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, ipAddr = exampleIp
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, dhtPort = 2342
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, servicePort = 513
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, vServerID = 0
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}
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exampleLocalNode :: IO (LocalNodeState MockService)
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exampleLocalNode = do
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realNode <- newTVarIO $ RealNode {
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vservers = []
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, nodeConfig = exampleFediConf
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, bootstrapNodes = confBootstrapNodes exampleFediConf
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, nodeService = MockService
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}
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nodeStateInit realNode
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exampleFediConf :: FediChordConf
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exampleFediConf = FediChordConf {
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confDomain = "example.social"
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, confIP = exampleIp
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, confDhtPort = 2342
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}
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exampleNodeDomain :: String
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exampleNodeDomain = "example.social"
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exampleVs :: (Integral i) => i
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exampleVs = 4
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exampleIp :: HostAddress6
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exampleIp = tupleToHostAddress6 (0x2001, 0x16b8, 0x755a, 0xb110, 0x7d6a, 0x12ab, 0xf0c5, 0x386e)
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data MockService d = MockService
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instance DHT d => Service MockService d where
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runService _ _ = pure MockService
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getListeningPortFromService = const 1337
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