feat!: add block tracking to data model

Adds new `ZcashBlock` table to database to track block information and
creates a relationship between `ZcashTransaction` records and the block
they belong to.
Database getters and setters are updated to use the block record for
confirmations, height, time data.
This commit is contained in:
Rene Vergara 2024-09-23 13:04:36 -05:00
parent 7189ddcb2a
commit 0e14228a0e
Signed by: pitmutt
GPG key ID: 65122AD495A7F5B2
9 changed files with 570 additions and 203 deletions

View file

@ -230,6 +230,7 @@ main = do
"gui" -> runZenithGUI myConfig "gui" -> runZenithGUI myConfig
"tui" -> runZenithTUI myConfig "tui" -> runZenithTUI myConfig
"rescan" -> rescanZebra zebraHost zebraPort dbFilePath "rescan" -> rescanZebra zebraHost zebraPort dbFilePath
"resync" -> clearSync myConfig
_ -> printUsage _ -> printUsage
else printUsage else printUsage

View file

@ -91,6 +91,7 @@ import Zenith.DB
import Zenith.Scanner (processTx, rescanZebra, updateConfs) import Zenith.Scanner (processTx, rescanZebra, updateConfs)
import Zenith.Types import Zenith.Types
( Config(..) ( Config(..)
, HexStringDB(..)
, PhraseDB(..) , PhraseDB(..)
, UnifiedAddressDB(..) , UnifiedAddressDB(..)
, ZcashNetDB(..) , ZcashNetDB(..)
@ -765,16 +766,16 @@ scanZebra dbP zHost zPort b eChan znet = do
Left e2 -> liftIO $ BC.writeBChan eChan $ TickMsg e2 Left e2 -> liftIO $ BC.writeBChan eChan $ TickMsg e2
Right hb -> do Right hb -> do
let blockTime = getBlockTime hb let blockTime = getBlockTime hb
mapM_ (processTx zHost zPort blockTime pool (ZcashNetDB znet)) $ bi <-
bl_txs $ addTime blk blockTime saveBlock pool $
ZcashBlock
(fromIntegral $ bl_height blk)
(HexStringDB $ bl_hash blk)
(fromIntegral $ bl_confirmations blk)
blockTime
(ZcashNetDB znet)
mapM_ (processTx zHost zPort bi pool) $ bl_txs blk
liftIO $ BC.writeBChan eChan $ TickVal step liftIO $ BC.writeBChan eChan $ TickVal step
addTime :: BlockResponse -> Int -> BlockResponse
addTime bl t =
BlockResponse
(bl_confirmations bl)
(bl_height bl)
(fromIntegral t)
(bl_txs bl)
appEvent :: BT.BrickEvent Name Tick -> BT.EventM Name State () appEvent :: BT.BrickEvent Name Tick -> BT.EventM Name State ()
appEvent (BT.AppEvent t) = do appEvent (BT.AppEvent t) = do

View file

@ -772,7 +772,11 @@ prepareTxV2 pool zebraHost zebraPort zn za bh amt va memo policy = do
{-firstPass <- liftIO $ selectUnspentNotes pool za zats-} {-firstPass <- liftIO $ selectUnspentNotes pool za zats-}
--let fee = calculateTxFee firstPass $ fst recipient --let fee = calculateTxFee firstPass $ fst recipient
--logDebugN $ T.pack $ "calculated fee " ++ show fee --logDebugN $ T.pack $ "calculated fee " ++ show fee
(tList, sList, oList) <- liftIO $ selectUnspentNotes pool za (zats + 5000) notePlan <-
liftIO $
selectUnspentNotesV2 pool za (zats + 10000) (fst recipient) policy
case notePlan of
Right (tList, sList, oList) -> do
logDebugN "selected notes" logDebugN "selected notes"
logDebugN $ T.pack $ show tList logDebugN $ T.pack $ show tList
logDebugN $ T.pack $ show sList logDebugN $ T.pack $ show sList
@ -780,18 +784,28 @@ prepareTxV2 pool zebraHost zebraPort zn za bh amt va memo policy = do
let noteTotal = getTotalAmount (tList, sList, oList) let noteTotal = getTotalAmount (tList, sList, oList)
tSpends <- tSpends <-
liftIO $ liftIO $
prepTSpends (getTranSK $ zcashAccountTPrivateKey $ entityVal acc) tList prepTSpends
(getTranSK $ zcashAccountTPrivateKey $ entityVal acc)
tList
--print tSpends --print tSpends
sSpends <- sSpends <-
liftIO $ liftIO $
prepSSpends (getSapSK $ zcashAccountSapSpendKey $ entityVal acc) sList prepSSpends
(getSapSK $ zcashAccountSapSpendKey $ entityVal acc)
sList
--print sSpends --print sSpends
oSpends <- oSpends <-
liftIO $ liftIO $
prepOSpends (getOrchSK $ zcashAccountOrchSpendKey $ entityVal acc) oList prepOSpends
(getOrchSK $ zcashAccountOrchSpendKey $ entityVal acc)
oList
--print oSpends --print oSpends
dummy <- dummy' <-
liftIO $ makeOutgoing acc recipient zats (noteTotal - 5000 - zats) liftIO $
makeOutgoing acc recipient zats (noteTotal - 5000 - zats) policy
case dummy' of
Left e -> return $ Left e
Right dummy -> do
logDebugN "Calculating fee" logDebugN "Calculating fee"
let feeResponse = let feeResponse =
createTransaction createTransaction
@ -808,62 +822,204 @@ prepareTxV2 pool zebraHost zebraPort zn za bh amt va memo policy = do
Left e1 -> return $ Left Fee Left e1 -> return $ Left Fee
Right fee -> do Right fee -> do
let feeAmt = let feeAmt =
fromIntegral (runGet getInt64le $ LBS.fromStrict $ toBytes fee) fromIntegral
(tList1, sList1, oList1) <- (runGet getInt64le $ LBS.fromStrict $ toBytes fee)
liftIO $ selectUnspentNotes pool za (zats + feeAmt) finalNotePlan <-
logDebugN $ T.pack $ "selected notes with fee" ++ show feeAmt liftIO $
logDebugN $ T.pack $ show tList selectUnspentNotesV2
logDebugN $ T.pack $ show sList pool
logDebugN $ T.pack $ show oList za
outgoing <- (zats + feeAmt)
liftIO $ makeOutgoing acc recipient zats (noteTotal - feeAmt - zats) (fst recipient)
logDebugN $ T.pack $ show outgoing policy
case finalNotePlan of
Right (tList1, sList1, oList1) -> do
logDebugN $
T.pack $ "selected notes with fee" ++ show feeAmt
logDebugN $ T.pack $ show tList1
logDebugN $ T.pack $ show sList1
logDebugN $ T.pack $ show oList1
tSpends1 <-
liftIO $
prepTSpends
(getTranSK $ zcashAccountTPrivateKey $ entityVal acc)
tList1
sSpends1 <-
liftIO $
prepSSpends
(getSapSK $ zcashAccountSapSpendKey $ entityVal acc)
sList1
oSpends1 <-
liftIO $
prepOSpends
(getOrchSK $ zcashAccountOrchSpendKey $ entityVal acc)
oList1
let noteTotal1 = getTotalAmount (tList1, sList1, oList1)
outgoing' <-
liftIO $
makeOutgoing
acc
recipient
zats
(noteTotal1 - feeAmt - zats)
policy
logDebugN $ T.pack $ show outgoing'
case outgoing' of
Left e -> return $ Left e
Right outgoing -> do
let tx = let tx =
createTransaction createTransaction
(Just sT) (Just sT)
(Just oT) (Just oT)
tSpends tSpends1
sSpends sSpends1
oSpends oSpends1
outgoing outgoing
zn zn
(bh + 3) (bh + 3)
True True
logDebugN $ T.pack $ show tx logDebugN $ T.pack $ show tx
return tx return tx
Left e -> return $ Left e
Left e -> do
logErrorN $ T.pack $ show e
return $ Left e
where where
makeOutgoing :: makeOutgoing ::
Entity ZcashAccount Entity ZcashAccount
-> (Int, BS.ByteString) -> (Int, BS.ByteString)
-> Integer -> Integer
-> Integer -> Integer
-> IO [OutgoingNote] -> PrivacyPolicy
makeOutgoing acc (k, recvr) zats chg = do -> IO (Either TxError [OutgoingNote])
makeOutgoing acc (k, recvr) zats chg policy = do
chgAddr <- runNoLoggingT $ getInternalAddresses pool $ entityKey acc chgAddr <- runNoLoggingT $ getInternalAddresses pool $ entityKey acc
let internalUA = getUA $ walletAddressUAddress $ entityVal $ head chgAddr let internalUA = getUA $ walletAddressUAddress $ entityVal $ head chgAddr
case k of
4 ->
case policy of
None ->
return $
Left $
PrivacyPolicyError "Recipient not allowed by privacy policy"
_anyOther -> do
let chgRcvr = let chgRcvr =
fromJust $ o_rec =<< isValidUnifiedAddress (E.encodeUtf8 internalUA) fromJust $
return o_rec =<< isValidUnifiedAddress (E.encodeUtf8 internalUA)
return $
Right
[ OutgoingNote [ OutgoingNote
4 4
(getBytes $ getOrchSK $ zcashAccountOrchSpendKey $ entityVal acc) (getBytes $
getOrchSK $ zcashAccountOrchSpendKey $ entityVal acc)
(getBytes chgRcvr) (getBytes chgRcvr)
(fromIntegral chg) (fromIntegral chg)
"" ""
True True
, OutgoingNote , OutgoingNote
(fromIntegral k) 4
(case k of (getBytes $
4 -> getOrchSK $ zcashAccountOrchSpendKey $ entityVal acc)
getBytes $ getOrchSK $ zcashAccountOrchSpendKey $ entityVal acc
3 ->
getBytes $ getSapSK $ zcashAccountSapSpendKey $ entityVal acc
_ -> "")
recvr recvr
(fromIntegral zats) (fromIntegral zats)
(E.encodeUtf8 memo) (E.encodeUtf8 memo)
False False
] ]
3 ->
case policy of
None ->
return $
Left $
PrivacyPolicyError "Receiver not compatible with privacy policy"
Full -> do
let chgRcvr =
fromJust $
s_rec =<< isValidUnifiedAddress (E.encodeUtf8 internalUA)
return $
Right
[ OutgoingNote
3
(getBytes $
getSapSK $ zcashAccountSapSpendKey $ entityVal acc)
(getBytes chgRcvr)
(fromIntegral chg)
""
True
, OutgoingNote
3
(getBytes $
getSapSK $ zcashAccountSapSpendKey $ entityVal acc)
recvr
(fromIntegral zats)
(E.encodeUtf8 memo)
False
]
_anyOther -> do
let chgRcvr =
fromJust $
o_rec =<< isValidUnifiedAddress (E.encodeUtf8 internalUA)
return $
Right
[ OutgoingNote
4
(getBytes $
getOrchSK $ zcashAccountOrchSpendKey $ entityVal acc)
(getBytes chgRcvr)
(fromIntegral chg)
""
True
, OutgoingNote
3
(getBytes $
getSapSK $ zcashAccountSapSpendKey $ entityVal acc)
recvr
(fromIntegral zats)
(E.encodeUtf8 memo)
False
]
2 ->
if policy <= Low
then do
let chgRcvr =
fromJust $
t_rec =<< isValidUnifiedAddress (E.encodeUtf8 internalUA)
return $
Right
[ OutgoingNote
1
BS.empty
(toBytes $ tr_bytes chgRcvr)
(fromIntegral chg)
""
True
, OutgoingNote 2 BS.empty recvr (fromIntegral zats) "" False
]
else return $
Left $
PrivacyPolicyError
"Receiver not compatible with privacy policy"
1 ->
if policy <= Low
then do
let chgRcvr =
fromJust $
t_rec =<< isValidUnifiedAddress (E.encodeUtf8 internalUA)
return $
Right
[ OutgoingNote
1
BS.empty
(toBytes $ tr_bytes chgRcvr)
(fromIntegral chg)
""
True
, OutgoingNote 1 BS.empty recvr (fromIntegral zats) "" False
]
else return $
Left $
PrivacyPolicyError
"Receiver not compatible with privacy policy"
_anyOther -> return $ Left ZHError
getTotalAmount :: getTotalAmount ::
( [Entity WalletTrNote] ( [Entity WalletTrNote]
, [Entity WalletSapNote] , [Entity WalletSapNote]

View file

@ -18,7 +18,7 @@
module Zenith.DB where module Zenith.DB where
import Control.Exception (SomeException(..), throwIO, try) import Control.Exception (SomeException(..), throw, throwIO, try)
import Control.Monad (when) import Control.Monad (when)
import Control.Monad.IO.Class (MonadIO, liftIO) import Control.Monad.IO.Class (MonadIO, liftIO)
import Control.Monad.Logger (NoLoggingT, runNoLoggingT) import Control.Monad.Logger (NoLoggingT, runNoLoggingT)
@ -69,6 +69,7 @@ import ZcashHaskell.Types
, TransparentAddress(..) , TransparentAddress(..)
, TransparentBundle(..) , TransparentBundle(..)
, TransparentReceiver(..) , TransparentReceiver(..)
, TxError(..)
, UnifiedAddress(..) , UnifiedAddress(..)
, ValidAddress(..) , ValidAddress(..)
, ZcashNet(..) , ZcashNet(..)
@ -78,6 +79,7 @@ import Zenith.Types
, HexStringDB(..) , HexStringDB(..)
, OrchardSpendingKeyDB(..) , OrchardSpendingKeyDB(..)
, PhraseDB(..) , PhraseDB(..)
, PrivacyPolicy(..)
, RseedDB(..) , RseedDB(..)
, SaplingSpendingKeyDB(..) , SaplingSpendingKeyDB(..)
, ScopeDB(..) , ScopeDB(..)
@ -202,13 +204,18 @@ share
value Int64 value Int64
UniqueOrchSpend tx accId UniqueOrchSpend tx accId
deriving Show Eq deriving Show Eq
ZcashTransaction ZcashBlock
block Int height Int
txId HexStringDB hash HexStringDB
conf Int conf Int
time Int time Int
network ZcashNetDB network ZcashNetDB
UniqueTx block txId network UniqueBlock height network
deriving Show Eq
ZcashTransaction
blockId ZcashBlockId OnDeleteCascade OnUpdateCascade
txId HexStringDB
UniqueTx blockId txId
deriving Show Eq deriving Show Eq
TransparentNote TransparentNote
tx ZcashTransactionId tx ZcashTransactionId
@ -579,14 +586,13 @@ getMaxBlock pool net = do
PS.retryOnBusy $ PS.retryOnBusy $
flip PS.runSqlPool pool $ do flip PS.runSqlPool pool $ do
selectOne $ do selectOne $ do
txs <- from $ table @ZcashTransaction bls <- from $ table @ZcashBlock
where_ (txs ^. ZcashTransactionBlock >. val 0) where_ (bls ^. ZcashBlockNetwork ==. val net)
where_ (txs ^. ZcashTransactionNetwork ==. val net) orderBy [desc $ bls ^. ZcashBlockHeight]
orderBy [desc $ txs ^. ZcashTransactionBlock] pure bls
pure txs
case b of case b of
Nothing -> return $ -1 Nothing -> return $ -1
Just x -> return $ zcashTransactionBlock $ entityVal x Just x -> return $ zcashBlockHeight $ entityVal x
-- | Returns a list of addresses associated with the given account -- | Returns a list of addresses associated with the given account
getAddresses :: getAddresses ::
@ -677,20 +683,22 @@ saveAddress pool w =
runNoLoggingT $ runNoLoggingT $
PS.retryOnBusy $ flip PS.runSqlPool pool $ insertUniqueEntity w PS.retryOnBusy $ flip PS.runSqlPool pool $ insertUniqueEntity w
-- | Save a block to the database
saveBlock :: ConnectionPool -> ZcashBlock -> IO (Key ZcashBlock)
saveBlock pool b =
runNoLoggingT $ PS.retryOnBusy $ flip PS.runSqlPool pool $ do insert b
-- | Save a transaction to the data model -- | Save a transaction to the data model
saveTransaction :: saveTransaction ::
ConnectionPool -- ^ the database path ConnectionPool -- ^ the database path
-> Int -- ^ block time -> ZcashBlockId -- ^ The block the transaction is in
-> ZcashNetDB -- ^ the network
-> Transaction -- ^ The transaction to save -> Transaction -- ^ The transaction to save
-> NoLoggingT IO (Key ZcashTransaction) -> NoLoggingT IO (Key ZcashTransaction)
saveTransaction pool t n wt = saveTransaction pool bi wt =
PS.retryOnBusy $ PS.retryOnBusy $
flip PS.runSqlPool pool $ do flip PS.runSqlPool pool $ do
let ix = [0 ..] let ix = [0 ..]
w <- w <- insert $ ZcashTransaction bi (HexStringDB $ tx_id wt)
insert $
ZcashTransaction (tx_height wt) (HexStringDB $ tx_id wt) (tx_conf wt) t n
when (isJust $ tx_transpBundle wt) $ do when (isJust $ tx_transpBundle wt) $ do
_ <- _ <-
insertMany_ $ insertMany_ $
@ -776,10 +784,13 @@ getZcashTransactions pool b net =
PS.retryOnBusy $ PS.retryOnBusy $
flip PS.runSqlPool pool $ do flip PS.runSqlPool pool $ do
select $ do select $ do
txs <- from $ table @ZcashTransaction (blks :& txs) <-
where_ (txs ^. ZcashTransactionBlock >. val b) from $ table @ZcashBlock `innerJoin` table @ZcashTransaction `on`
where_ (txs ^. ZcashTransactionNetwork ==. val (ZcashNetDB net)) (\(blks :& txs) ->
orderBy [asc $ txs ^. ZcashTransactionBlock] blks ^. ZcashBlockId ==. txs ^. ZcashTransactionBlockId)
where_ (blks ^. ZcashBlockHeight >. val b)
where_ (blks ^. ZcashBlockNetwork ==. val (ZcashNetDB net))
orderBy [asc $ blks ^. ZcashBlockHeight]
return txs return txs
-- ** QR codes -- ** QR codes
@ -876,14 +887,23 @@ saveWalletTransaction pool za zt = do
runNoLoggingT $ runNoLoggingT $
PS.retryOnBusy $ PS.retryOnBusy $
flip PS.runSqlPool pool $ do flip PS.runSqlPool pool $ do
b <-
selectOne $ do
blks <- from $ table @ZcashBlock
where_ (blks ^. ZcashBlockId ==. val (zcashTransactionBlockId zT'))
pure blks
case b of
Nothing ->
throw $ userError "invalid block for saving wallet transaction"
Just blk -> do
t <- t <-
upsert upsert
(WalletTransaction (WalletTransaction
(zcashTransactionTxId zT') (zcashTransactionTxId zT')
za za
(zcashTransactionBlock zT') (zcashBlockHeight $ entityVal blk)
(zcashTransactionConf zT') (zcashBlockConf $ entityVal blk)
(zcashTransactionTime zT')) (zcashBlockTime $ entityVal blk))
[] []
return $ entityKey t return $ entityKey t
@ -976,14 +996,17 @@ findTransparentNotes pool b net t = do
PS.retryOnBusy $ PS.retryOnBusy $
flip PS.runSqlPool pool $ do flip PS.runSqlPool pool $ do
select $ do select $ do
(txs :& tNotes) <- (blks :& txs :& tNotes) <-
from $ table @ZcashTransaction `innerJoin` table @TransparentNote `on` from $ table @ZcashBlock `innerJoin` table @ZcashTransaction `on`
(\(txs :& tNotes) -> (\(blks :& txs) ->
blks ^. ZcashBlockId ==. txs ^. ZcashTransactionBlockId) `innerJoin`
table @TransparentNote `on`
(\(_ :& txs :& tNotes) ->
txs ^. ZcashTransactionId ==. tNotes ^. TransparentNoteTx) txs ^. ZcashTransactionId ==. tNotes ^. TransparentNoteTx)
where_ (txs ^. ZcashTransactionBlock >. val b) where_ (blks ^. ZcashBlockHeight >. val b)
where_ (txs ^. ZcashTransactionNetwork ==. val net) where_ (blks ^. ZcashBlockNetwork ==. val net)
where_ (tNotes ^. TransparentNoteScript ==. val s) where_ (tNotes ^. TransparentNoteScript ==. val s)
pure (txs, tNotes) pure (blks, txs, tNotes)
mapM_ mapM_
(saveWalletTrNote (saveWalletTrNote
pool pool
@ -999,10 +1022,11 @@ saveWalletTrNote ::
-> Scope -> Scope
-> ZcashAccountId -> ZcashAccountId
-> WalletAddressId -> WalletAddressId
-> (Entity ZcashTransaction, Entity TransparentNote) -> (Entity ZcashBlock, Entity ZcashTransaction, Entity TransparentNote)
-> IO () -> IO ()
saveWalletTrNote pool ch za wa (zt, tn) = do saveWalletTrNote pool ch za wa (blk, zt, tn) = do
let zT' = entityVal zt let zT' = entityVal zt
let b = entityVal blk
runNoLoggingT $ runNoLoggingT $
PS.retryOnBusy $ PS.retryOnBusy $
flip PS.runSqlPool pool $ do flip PS.runSqlPool pool $ do
@ -1011,9 +1035,9 @@ saveWalletTrNote pool ch za wa (zt, tn) = do
(WalletTransaction (WalletTransaction
(zcashTransactionTxId zT') (zcashTransactionTxId zT')
za za
(zcashTransactionBlock zT') (zcashBlockHeight b)
(zcashTransactionConf zT') (zcashBlockConf b)
(zcashTransactionTime zT')) (zcashBlockTime b))
[] []
insert_ $ insert_ $
WalletTrNote WalletTrNote
@ -1042,12 +1066,15 @@ getShieldedOutputs pool b net =
PS.retryOnBusy $ PS.retryOnBusy $
flip PS.runSqlPool pool $ do flip PS.runSqlPool pool $ do
select $ do select $ do
(txs :& sOutputs) <- (blks :& txs :& sOutputs) <-
from $ table @ZcashTransaction `innerJoin` table @ShieldOutput `on` from $ table @ZcashBlock `innerJoin` table @ZcashTransaction `on`
(\(txs :& sOutputs) -> (\(blks :& txs) ->
blks ^. ZcashBlockId ==. txs ^. ZcashTransactionBlockId) `innerJoin`
table @ShieldOutput `on`
(\(_ :& txs :& sOutputs) ->
txs ^. ZcashTransactionId ==. sOutputs ^. ShieldOutputTx) txs ^. ZcashTransactionId ==. sOutputs ^. ShieldOutputTx)
where_ (txs ^. ZcashTransactionBlock >=. val b) where_ (blks ^. ZcashBlockHeight >=. val b)
where_ (txs ^. ZcashTransactionNetwork ==. val net) where_ (blks ^. ZcashBlockNetwork ==. val net)
orderBy orderBy
[ asc $ txs ^. ZcashTransactionId [ asc $ txs ^. ZcashTransactionId
, asc $ sOutputs ^. ShieldOutputPosition , asc $ sOutputs ^. ShieldOutputPosition
@ -1065,12 +1092,15 @@ getOrchardActions pool b net =
PS.retryOnBusy $ PS.retryOnBusy $
flip PS.runSqlPool pool $ do flip PS.runSqlPool pool $ do
select $ do select $ do
(txs :& oActions) <- (blks :& txs :& oActions) <-
from $ table @ZcashTransaction `innerJoin` table @OrchAction `on` from $ table @ZcashBlock `innerJoin` table @ZcashTransaction `on`
(\(txs :& oActions) -> (\(blks :& txs) ->
blks ^. ZcashBlockId ==. txs ^. ZcashTransactionBlockId) `innerJoin`
table @OrchAction `on`
(\(_ :& txs :& oActions) ->
txs ^. ZcashTransactionId ==. oActions ^. OrchActionTx) txs ^. ZcashTransactionId ==. oActions ^. OrchActionTx)
where_ (txs ^. ZcashTransactionBlock >=. val b) where_ (blks ^. ZcashBlockHeight >=. val b)
where_ (txs ^. ZcashTransactionNetwork ==. val net) where_ (blks ^. ZcashBlockNetwork ==. val net)
orderBy orderBy
[asc $ txs ^. ZcashTransactionId, asc $ oActions ^. OrchActionPosition] [asc $ txs ^. ZcashTransactionId, asc $ oActions ^. OrchActionPosition]
pure (txs, oActions) pure (txs, oActions)
@ -1640,14 +1670,22 @@ upsertWalTx ::
=> ZcashTransaction => ZcashTransaction
-> ZcashAccountId -> ZcashAccountId
-> SqlPersistT m (Entity WalletTransaction) -> SqlPersistT m (Entity WalletTransaction)
upsertWalTx zt za = upsertWalTx zt za = do
blk <-
selectOne $ do
blks <- from $ table @ZcashBlock
where_ (blks ^. ZcashBlockId ==. val (zcashTransactionBlockId zt))
pure blks
case blk of
Nothing -> throw $ userError "Invalid block for transaction"
Just b ->
upsert upsert
(WalletTransaction (WalletTransaction
(zcashTransactionTxId zt) (zcashTransactionTxId zt)
za za
(zcashTransactionBlock zt) (zcashBlockHeight $ entityVal b)
(zcashTransactionConf zt) (zcashBlockConf $ entityVal b)
(zcashTransactionTime zt)) (zcashBlockTime $ entityVal b))
[] []
getSaplingOutIndex :: ConnectionPool -> ShieldOutputId -> IO Int getSaplingOutIndex :: ConnectionPool -> ShieldOutputId -> IO Int
@ -1982,6 +2020,130 @@ selectUnspentNotes pool za amt = do
, n : snd (checkOrchard (x - walletOrchNoteValue (entityVal n)) ns)) , n : snd (checkOrchard (x - walletOrchNoteValue (entityVal n)) ns))
else (0, [n]) else (0, [n])
selectUnspentNotesV2 ::
ConnectionPool
-> ZcashAccountId
-> Integer
-> Int
-> PrivacyPolicy
-> IO
(Either
TxError
( [Entity WalletTrNote]
, [Entity WalletSapNote]
, [Entity WalletOrchNote]))
selectUnspentNotesV2 pool za amt recv policy = do
case policy of
Full ->
case recv of
4 -> do
orchNotes <- getWalletUnspentOrchNotes pool za
let (a1, oList) = checkOrchard (fromIntegral amt) orchNotes
if a1 > 0
then return $
Left $ PrivacyPolicyError "Not enough notes for Full privacy"
else return $ Right ([], [], oList)
3 -> do
sapNotes <- getWalletUnspentSapNotes pool za
let (a2, sList) = checkSapling (fromIntegral amt) sapNotes
if a2 > 0
then return $
Left $ PrivacyPolicyError "Not enough notes for Full privacy"
else return $ Right ([], sList, [])
_anyOther ->
return $
Left $ PrivacyPolicyError "Receiver not capable of Full privacy"
Medium ->
if recv > 2
then do
orchNotes <- getWalletUnspentOrchNotes pool za
let (a1, oList) = checkOrchard (fromIntegral amt) orchNotes
if a1 > 0
then do
sapNotes <- getWalletUnspentSapNotes pool za
let (a2, sList) = checkSapling a1 sapNotes
if a2 > 0
then return $
Left $
PrivacyPolicyError "Not enough notes for Medium privacy"
else return $ Right ([], sList, oList)
else return $ Right ([], [], oList)
else return $
Left $ PrivacyPolicyError "Receiver not capable of Medium privacy"
Low ->
if recv == 0
then return $ Left ZHError
else do
case recv of
3 -> do
sapNotes <- getWalletUnspentSapNotes pool za
let (a1, sList) = checkSapling (fromIntegral amt) sapNotes
if a1 > 0
then do
orchNotes <- getWalletUnspentOrchNotes pool za
let (a2, oList) = checkOrchard a1 orchNotes
if a2 > 0
then return $
Left $
PrivacyPolicyError "Not enough notes for Low privacy"
else return $ Right ([], sList, oList)
else return $ Right ([], sList, [])
_anyOther -> do
orchNotes <- getWalletUnspentOrchNotes pool za
let (a1, oList) = checkOrchard (fromIntegral amt) orchNotes
if a1 > 0
then do
sapNotes <- getWalletUnspentSapNotes pool za
let (a2, sList) = checkSapling a1 sapNotes
if a2 > 0
then return $
Left $
PrivacyPolicyError "Not enough notes for Low privacy"
else return $ Right ([], sList, oList)
else return $ Right ([], [], oList)
None -> do
orchNotes <- getWalletUnspentOrchNotes pool za
let (a1, oList) = checkOrchard (fromIntegral amt) orchNotes
if a1 > 0
then do
sapNotes <- getWalletUnspentSapNotes pool za
let (a2, sList) = checkSapling a1 sapNotes
if a2 > 0
then do
trNotes <- getWalletUnspentTrNotes pool za
let (a3, tList) = checkTransparent a2 trNotes
if a3 > 0
then return $ Left InsufficientFunds
else return $ Right (tList, sList, oList)
else return $ Right ([], sList, oList)
else return $ Right ([], [], oList)
where
checkTransparent ::
Int64 -> [Entity WalletTrNote] -> (Int64, [Entity WalletTrNote])
checkTransparent x [] = (x, [])
checkTransparent x (n:ns) =
if walletTrNoteValue (entityVal n) < x
then ( fst (checkTransparent (x - walletTrNoteValue (entityVal n)) ns)
, n :
snd (checkTransparent (x - walletTrNoteValue (entityVal n)) ns))
else (0, [n])
checkSapling ::
Int64 -> [Entity WalletSapNote] -> (Int64, [Entity WalletSapNote])
checkSapling x [] = (x, [])
checkSapling x (n:ns) =
if walletSapNoteValue (entityVal n) < x
then ( fst (checkSapling (x - walletSapNoteValue (entityVal n)) ns)
, n : snd (checkSapling (x - walletSapNoteValue (entityVal n)) ns))
else (0, [n])
checkOrchard ::
Int64 -> [Entity WalletOrchNote] -> (Int64, [Entity WalletOrchNote])
checkOrchard x [] = (x, [])
checkOrchard x (n:ns) =
if walletOrchNoteValue (entityVal n) < x
then ( fst (checkOrchard (x - walletOrchNoteValue (entityVal n)) ns)
, n : snd (checkOrchard (x - walletOrchNoteValue (entityVal n)) ns))
else (0, [n])
getWalletTxId :: getWalletTxId ::
ConnectionPool -> WalletTransactionId -> IO (Maybe (Value HexStringDB)) ConnectionPool -> WalletTransactionId -> IO (Maybe (Value HexStringDB))
getWalletTxId pool wId = do getWalletTxId pool wId = do
@ -2013,6 +2175,9 @@ saveConfs pool b c = do
update $ \t -> do update $ \t -> do
set t [WalletTransactionConf =. val c] set t [WalletTransactionConf =. val c]
where_ $ t ^. WalletTransactionBlock ==. val b where_ $ t ^. WalletTransactionBlock ==. val b
update $ \bl -> do
set bl [ZcashBlockConf =. val c]
where_ $ bl ^. ZcashBlockHeight ==. val b
-- | Helper function to extract a Unified Address from the database -- | Helper function to extract a Unified Address from the database
readUnifiedAddressDB :: WalletAddress -> Maybe UnifiedAddress readUnifiedAddressDB :: WalletAddress -> Maybe UnifiedAddress

View file

@ -1481,16 +1481,16 @@ scanZebra dbPath zHost zPort net sendMsg = do
Left e2 -> sendMsg (ShowError $ showt e2) Left e2 -> sendMsg (ShowError $ showt e2)
Right hb -> do Right hb -> do
let blockTime = getBlockTime hb let blockTime = getBlockTime hb
mapM_ (processTx zHost zPort blockTime pool (ZcashNetDB net)) $ bi <-
bl_txs $ addTime blk blockTime saveBlock pool $
ZcashBlock
(fromIntegral $ bl_height blk)
(HexStringDB $ bl_hash blk)
(fromIntegral $ bl_confirmations blk)
blockTime
(ZcashNetDB net)
mapM_ (processTx zHost zPort bi pool) $ bl_txs blk
sendMsg (SyncVal step) sendMsg (SyncVal step)
addTime :: BlockResponse -> Int -> BlockResponse
addTime bl t =
BlockResponse
(bl_confirmations bl)
(bl_height bl)
(fromIntegral t)
(bl_txs bl)
sendTransaction :: sendTransaction ::
Config Config

View file

@ -27,7 +27,9 @@ import ZcashHaskell.Types
import ZcashHaskell.Utils (getBlockTime, makeZebraCall, readZebraTransaction) import ZcashHaskell.Utils (getBlockTime, makeZebraCall, readZebraTransaction)
import Zenith.Core (checkBlockChain, syncWallet) import Zenith.Core (checkBlockChain, syncWallet)
import Zenith.DB import Zenith.DB
( clearWalletData ( ZcashBlock(..)
, ZcashBlockId
, clearWalletData
, clearWalletTransactions , clearWalletTransactions
, getMaxBlock , getMaxBlock
, getMinBirthdayHeight , getMinBirthdayHeight
@ -35,11 +37,12 @@ import Zenith.DB
, getWallets , getWallets
, initDb , initDb
, initPool , initPool
, saveBlock
, saveConfs , saveConfs
, saveTransaction , saveTransaction
, updateWalletSync , updateWalletSync
) )
import Zenith.Types (Config(..), ZcashNetDB(..)) import Zenith.Types (Config(..), HexStringDB(..), ZcashNetDB(..))
import Zenith.Utils (jsonNumber) import Zenith.Utils (jsonNumber)
-- | Function to scan the Zcash blockchain through the Zebra node and populate the Zenith database -- | Function to scan the Zcash blockchain through the Zebra node and populate the Zenith database
@ -119,28 +122,26 @@ processBlock host port pool pg net b = do
Left e2 -> liftIO $ throwIO $ userError e2 Left e2 -> liftIO $ throwIO $ userError e2
Right hb -> do Right hb -> do
let blockTime = getBlockTime hb let blockTime = getBlockTime hb
mapM_ (processTx host port blockTime pool net) $ bi <-
bl_txs $ addTime blk blockTime saveBlock pool $
ZcashBlock
(fromIntegral $ bl_height blk)
(HexStringDB $ bl_hash blk)
(fromIntegral $ bl_confirmations blk)
blockTime
net
mapM_ (processTx host port bi pool) $ bl_txs blk
liftIO $ tick pg liftIO $ tick pg
where
addTime :: BlockResponse -> Int -> BlockResponse
addTime bl t =
BlockResponse
(bl_confirmations bl)
(bl_height bl)
(fromIntegral t)
(bl_txs bl)
-- | Function to process a raw transaction -- | Function to process a raw transaction
processTx :: processTx ::
T.Text -- ^ Host name for `zebrad` T.Text -- ^ Host name for `zebrad`
-> Int -- ^ Port for `zebrad` -> Int -- ^ Port for `zebrad`
-> Int -- ^ Block time -> ZcashBlockId -- ^ Block ID
-> ConnectionPool -- ^ DB file path -> ConnectionPool -- ^ DB file path
-> ZcashNetDB -- ^ the network
-> HexString -- ^ transaction id -> HexString -- ^ transaction id
-> IO () -> IO ()
processTx host port bt pool net t = do processTx host port bt pool t = do
r <- r <-
liftIO $ liftIO $
makeZebraCall makeZebraCall
@ -156,7 +157,7 @@ processTx host port bt pool net t = do
Just rzt -> do Just rzt -> do
_ <- _ <-
runNoLoggingT $ runNoLoggingT $
saveTransaction pool bt net $ saveTransaction pool bt $
Transaction Transaction
t t
(ztr_blockheight rawTx) (ztr_blockheight rawTx)

View file

@ -199,10 +199,11 @@ $(deriveJSON defaultOptions ''ZenithStatus)
derivePersistField "ZenithStatus" derivePersistField "ZenithStatus"
data PrivacyPolicy data PrivacyPolicy
= Full = None
| Medium
| Low | Low
| None | Medium
| Full
deriving (Eq, Show, Read, Ord)
$(deriveJSON defaultOptions ''PrivacyPolicy) $(deriveJSON defaultOptions ''PrivacyPolicy)

View file

@ -1,15 +1,16 @@
{-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE OverloadedStrings #-}
import Control.Monad (when) import Control.Monad (when)
import Control.Monad.Logger (runNoLoggingT) import Control.Monad.Logger (runFileLoggingT, runNoLoggingT)
import Data.HexString import Data.HexString
import Data.Maybe (fromJust)
import qualified Data.Text.Encoding as E import qualified Data.Text.Encoding as E
import Database.Persist import Database.Persist
import Database.Persist.Sqlite import Database.Persist.Sqlite
import System.Directory import System.Directory
import Test.HUnit import Test.HUnit
import Test.Hspec import Test.Hspec
import ZcashHaskell.Orchard (isValidUnifiedAddress) import ZcashHaskell.Orchard (isValidUnifiedAddress, parseAddress)
import ZcashHaskell.Sapling import ZcashHaskell.Sapling
( decodeSaplingOutputEsk ( decodeSaplingOutputEsk
, encodeSaplingAddress , encodeSaplingAddress
@ -172,15 +173,15 @@ main = do
"6c5d1413c63a9a88db71c3f41dc12cd60197ee742fc75b217215e7144db48bd3" "6c5d1413c63a9a88db71c3f41dc12cd60197ee742fc75b217215e7144db48bd3"
describe "Note selection for Tx" $ do describe "Note selection for Tx" $ do
it "Value less than balance" $ do it "Value less than balance" $ do
pool <- runNoLoggingT $ initPool "zenith.db" pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
res <- selectUnspentNotes pool (toSqlKey 1) 14000000 res <- selectUnspentNotes pool (toSqlKey 1) 14000000
res `shouldNotBe` ([], [], []) res `shouldNotBe` ([], [], [])
it "Value greater than balance" $ do it "Value greater than balance" $ do
pool <- runNoLoggingT $ initPool "zenith.db" pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
let res = selectUnspentNotes pool (toSqlKey 1) 84000000 let res = selectUnspentNotes pool (toSqlKey 1) 84000000
res `shouldThrow` anyIOException res `shouldThrow` anyIOException
it "Fee calculation" $ do it "Fee calculation" $ do
pool <- runNoLoggingT $ initPool "zenith.db" pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
res <- selectUnspentNotes pool (toSqlKey 1) 14000000 res <- selectUnspentNotes pool (toSqlKey 1) 14000000
calculateTxFee res 3 `shouldBe` 20000 calculateTxFee res 3 `shouldBe` 20000
describe "Testing validation" $ do describe "Testing validation" $ do
@ -209,7 +210,7 @@ main = do
(case decodeTransparentAddress (E.encodeUtf8 a) of (case decodeTransparentAddress (E.encodeUtf8 a) of
Just _a3 -> True Just _a3 -> True
Nothing -> Nothing ->
case decodeExchangeAddress (En.encodeUtf8 a) of case decodeExchangeAddress (E.encodeUtf8 a) of
Just _a4 -> True Just _a4 -> True
Nothing -> False)) Nothing -> False))
it "Transparent" $ do it "Transparent" $ do
@ -233,21 +234,62 @@ main = do
a `shouldBe` a `shouldBe`
Just Just
"ztestsapling1tgjr4zppwk4ne8xy6gdq4z2gwq7dmf5jq8z2ctpn8nlmtse0a74fa5z0m8z383gmpgqz6q6duu4" "ztestsapling1tgjr4zppwk4ne8xy6gdq4z2gwq7dmf5jq8z2ctpn8nlmtse0a74fa5z0m8z383gmpgqz6q6duu4"
{-describe "Creating Tx" $ do-} describe "Notes" $ do
{-xit "To Orchard" $ do-} it "Check Orchard notes" $ do
{-let uaRead =-} pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
{-isValidUnifiedAddress-} oNotes <- getWalletUnspentOrchNotes pool (toSqlKey 1)
{-"utest1dl54utt6prjj5e0dnlknwumnxq9hycdjpkfr0sy6e6h522remqee8axe9zax0wsjrwpj76v555pdhvj9rnargpfyycs0vpkapq98xcdhem99gc4wchzn0ggepq3y6nz3a9sscwgqxgsh9vzhcad402y3x9szfregck5gslkya3c79d86xx0l33tpk8gnn7ew9vw37w43zh22u8dgdax"-} oNotes `shouldBe` []
{-case uaRead of-} it "Check Sapling notes" $ do
{-Nothing -> assertFailure "wrong address"-} pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
{-Just ua -> do-} oNotes <- getWalletUnspentSapNotes pool (toSqlKey 1)
{-tx <--} oNotes `shouldBe` []
{-prepareTx-} it "Check transparent notes" $ do
{-"zenith.db"-} pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
{-TestNet-} oNotes <- getWalletUnspentTrNotes pool (toSqlKey 1)
{-(toSqlKey 1)-} oNotes `shouldBe` []
{-2819811-} describe "Creating Tx" $ do
{-0.04-} describe "Full" $ do
{-ua-} it "To Orchard" $ do
{-"sent with Zenith, test"-} let uaRead =
{-tx `shouldBe` Right (hexString "deadbeef")-} parseAddress
"utest1dl54utt6prjj5e0dnlknwumnxq9hycdjpkfr0sy6e6h522remqee8axe9zax0wsjrwpj76v555pdhvj9rnargpfyycs0vpkapq98xcdhem99gc4wchzn0ggepq3y6nz3a9sscwgqxgsh9vzhcad402y3x9szfregck5gslkya3c79d86xx0l33tpk8gnn7ew9vw37w43zh22u8dgdax"
case uaRead of
Nothing -> assertFailure "wrong address"
Just ua -> do
pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
tx <-
runFileLoggingT "zenith.log" $
prepareTxV2
pool
"localhost"
18232
TestNet
(toSqlKey 1)
2999946
0.005
(fromJust uaRead)
"Sending memo to orchard"
Full
tx `shouldBe` Right (hexString "deadbeef")
it "To Sapling" $ do
let uaRead =
parseAddress
"ztestsapling136jp8z89v2jh6kqd5rs4dtvlxym90m43svzdwzxaplyvc5ttzppytpvx80ncllcsqzpmukxjl3y"
case uaRead of
Nothing -> assertFailure "wrong address"
Just ua -> do
pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
tx <-
runFileLoggingT "zenith.log" $
prepareTxV2
pool
"localhost"
18232
TestNet
(toSqlKey 1)
2999396
0.005
(fromJust uaRead)
"Sending memo to orchard"
Full
tx `shouldBe` Right (hexString "deadbeef")

@ -1 +1 @@
Subproject commit 7965dc38c48da348f503a52ee10042fffc43f32c Subproject commit 63a97b880cb32d8e008650f0efef2fdadc7d3d4a