Vergara_Tech/zenith
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zenith/test/Spec.hs
pitmutt 281682ac18
Milestone 3: RPC server, ZIP-320 (#104) 
This PR contains the following changes:

- New RPC server for programmatic access to the wallet.
- Support for ZIP-320, TEX addresses and shielding/de-shielding of funds
- Native Haskell implementation of the Zcash commitment trees

Co-authored-by: Rene Vergara A. <rvergara59@protonmail.com>
Reviewed-on: https://git.vergara.tech///Vergara_Tech/zenith/pulls/104
Co-authored-by: pitmutt <rene@vergara.network>
Co-committed-by: pitmutt <rene@vergara.network>
2024-11-21 15:39:18 +00:00

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{-# LANGUAGE OverloadedStrings #-}
import Codec.Borsh
import Control.Monad (when)
import Control.Monad.Logger (runFileLoggingT, runNoLoggingT)
import Data.Aeson
import qualified Data.ByteString as BS
import qualified Data.ByteString.Lazy as LBS
import Data.HexString
import Data.List (foldl')
import Data.Maybe (fromJust)
import qualified Data.Text.Encoding as E
import Database.Persist
import Database.Persist.Sqlite
import System.Directory
import Test.HUnit hiding (State(..))
import Test.Hspec
import ZcashHaskell.Orchard
( addOrchardNodeGetRoot
, getOrchardFrontier
, getOrchardNodeValue
, getOrchardPathAnchor
, getOrchardRootTest
, getOrchardTreeAnchor
, getOrchardTreeParts
, isValidUnifiedAddress
, parseAddress
)
import ZcashHaskell.Sapling
( decodeSaplingOutputEsk
, encodeSaplingAddress
, getSaplingFrontier
, getSaplingNotePosition
, getSaplingPathAnchor
, getSaplingRootTest
, getSaplingTreeAnchor
, getSaplingTreeParts
, getSaplingWitness
, isValidShieldedAddress
, updateSaplingCommitmentTree
)
import ZcashHaskell.Transparent
( decodeExchangeAddress
, decodeTransparentAddress
, encodeExchangeAddress
)
import ZcashHaskell.Types
( DecodedNote(..)
, MerklePath(..)
, OrchardCommitmentTree(..)
, OrchardFrontier(..)
, OrchardSpendingKey(..)
, OrchardTree(..)
, Phrase(..)
, SaplingCommitmentTree(..)
, SaplingFrontier(..)
, SaplingReceiver(..)
, SaplingSpendingKey(..)
, SaplingTree(..)
, Scope(..)
, ShieldedOutput(..)
, TxError(..)
, UnifiedAddress(..)
, ValidAddress(..)
, ZcashNet(..)
)
import ZcashHaskell.Utils (f4Jumble, makeZebraCall, readZebraTransaction)
import Zenith.Core
import Zenith.DB
import Zenith.Tree
import Zenith.Types
main :: IO ()
main = do
checkDbFile <- doesFileExist "test.db"
when checkDbFile $ removeFile "test.db"
hspec $ do
describe "Database tests" $ do
it "Create table" $ do
s <- runSqlite "test.db" $ do runMigration migrateAll
s `shouldBe` ()
describe "Wallet Table" $ do
it "insert wallet record" $ do
s <-
runSqlite "test.db" $ do
insert $
ZcashWallet
"Main Wallet"
(ZcashNetDB MainNet)
(PhraseDB $
Phrase
"one two three four five six seven eight nine ten eleven twelve")
2000000
0
fromSqlKey s `shouldBe` 1
it "read wallet record" $ do
s <-
runSqlite "test.db" $ do
selectList [ZcashWalletBirthdayHeight >. 0] []
length s `shouldBe` 1
it "modify wallet record" $ do
s <-
runSqlite "test.db" $ do
let recId = toSqlKey 1 :: ZcashWalletId
update recId [ZcashWalletName =. "New Wallet"]
get recId
"New Wallet" `shouldBe` maybe "None" zcashWalletName s
it "delete wallet record" $ do
s <-
runSqlite "test.db" $ do
let recId = toSqlKey 1 :: ZcashWalletId
delete recId
get recId
"None" `shouldBe` maybe "None" zcashWalletName s
describe "Wallet function tests:" $ do
it "Save Wallet:" $ do
pool <- runNoLoggingT $ initPool "test.db"
zw <-
saveWallet pool $
ZcashWallet
"Testing"
(ZcashNetDB MainNet)
(PhraseDB $
Phrase
"cloth swing left trap random tornado have great onion element until make shy dad success art tuition canvas thunder apple decade elegant struggle invest")
2200000
0
zw `shouldNotBe` Nothing
it "Save Account:" $ do
pool <- runNoLoggingT $ initPool "test.db"
s <-
runSqlite "test.db" $ do
selectList [ZcashWalletName ==. "Testing"] []
za <- saveAccount pool =<< createZcashAccount "TestAccount" 0 (head s)
za `shouldNotBe` Nothing
it "Save address:" $ do
pool <- runNoLoggingT $ initPool "test.db"
acList <-
runSqlite "test.db" $
selectList [ZcashAccountName ==. "TestAccount"] []
zAdd <-
saveAddress pool =<<
createWalletAddress "Personal123" 0 MainNet External (head acList)
addList <-
runSqlite "test.db" $
selectList
[ WalletAddressName ==. "Personal123"
, WalletAddressScope ==. ScopeDB External
]
[]
getUA (walletAddressUAddress (entityVal $ head addList)) `shouldBe`
"u1trd8cvc6265ywwj4mmvuznsye5ghe2dhhn3zy8kcuyg4vx3svskw9r2dedp5hu6m740vylkqc34t4w9eqkl9fyu5uyzn3af72jg235440ke6tu5cf994eq85n97x69x9824hqejmwz3d8qqthtesrd6gerjupdymldhl9xccejjwfj0dhh9mt4rw4kytp325twlutsxd20rfqhzxu3m"
it "Address components are correct" $ do
let ua =
"utest1mvlny48qd4x94w8vz5u2lrxx0enuquajt72yekgq24p6pjaky3czk6m7x358h7g900ex6gzvdehaekl96qnakjzw8yaasp8y0u3j5jnlfd33trduznh6k3fcn5ek9qc857fgz8ehm37etx94sj58nrkc0k5hurxnuxpcpms3j8uy2t8kt2vy6vetvsfxxdhtjq0yqulqprvh7mf2u3x"
isValidUnifiedAddress ua `shouldNotBe` Nothing
describe "Note selection for Tx" $ do
it "Value less than balance" $ do
pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
res <- selectUnspentNotes pool (toSqlKey 1) 14000000
res `shouldNotBe` ([], [], [])
it "Value greater than balance" $ do
pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
let res = selectUnspentNotes pool (toSqlKey 1) 84000000
res `shouldThrow` anyIOException
describe "Testing validation" $ do
it "Unified" $ do
let a =
"utest1zfnw84xuxg0ytzqc008gz0qntr8cvwu4qjsccgtxwdrjywra7uj85x8ldymjc2jd3jvvvhyj3xwsunyvwkr5084t6p5gmvzwdgvwpflrpd6a3squ2dp8vt7cxngmwk30l44wkmvyfegypqmezxfnqj572lr779gkqj5xekp66uv4jga58alnc5j7tuank758zd96ap4f09udg6y6pxu"
True `shouldBe`
(case isValidUnifiedAddress (E.encodeUtf8 a) of
Just _a1 -> True
Nothing ->
isValidShieldedAddress (E.encodeUtf8 a) ||
(case decodeTransparentAddress (E.encodeUtf8 a) of
Just _a3 -> True
Nothing ->
case decodeExchangeAddress (E.encodeUtf8 a) of
Just _a4 -> True
Nothing -> False))
it "Sapling" $ do
let a =
"ztestsapling1tgjr4zppwk4ne8xy6gdq4z2gwq7dmf5jq8z2ctpn8nlmtse0a74fa5z0m8z383gmpgqz6q6duu4"
True `shouldBe`
(case isValidUnifiedAddress (E.encodeUtf8 a) of
Just _a1 -> True
Nothing ->
isValidShieldedAddress (E.encodeUtf8 a) ||
(case decodeTransparentAddress (E.encodeUtf8 a) of
Just _a3 -> True
Nothing ->
case decodeExchangeAddress (E.encodeUtf8 a) of
Just _a4 -> True
Nothing -> False))
it "Transparent" $ do
let a = "tmGfVZHuGVJ5vcLAgBdkUU4w7fLTRE5nXm3"
True `shouldBe`
(case isValidUnifiedAddress (E.encodeUtf8 a) of
Just _a1 -> True
Nothing ->
isValidShieldedAddress (E.encodeUtf8 a) ||
(case decodeTransparentAddress (E.encodeUtf8 a) of
Just _a3 -> True
Nothing ->
case decodeExchangeAddress (E.encodeUtf8 a) of
Just _a4 -> True
Nothing -> False))
it "Check Sapling Address" $ do
let a =
encodeSaplingAddress TestNet $
SaplingReceiver
"Z$:\136!u\171<\156\196\210\SUB\n\137Hp<\221\166\146\SOH\196\172,3<\255\181\195/\239\170\158\208O\217\197\DC3\197\ESC\n\NUL-"
a `shouldBe`
Just
"ztestsapling1tgjr4zppwk4ne8xy6gdq4z2gwq7dmf5jq8z2ctpn8nlmtse0a74fa5z0m8z383gmpgqz6q6duu4"
describe "Tree loading" $ do
it "Sapling tree" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
case getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
pool <- runNoLoggingT $ initPool "test.db"
let newTree = mkSaplingTree t1
_ <- upsertSaplingTree pool 2000 newTree
readTree <- getSaplingTree pool
case readTree of
Nothing -> assertFailure "Couldn't retrieve tree from db"
Just (t1, x) -> t1 `shouldBe` newTree
it "Sapling tree update" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
let cmu1 =
hexString
"238a75ea513eb330cee527d3fa5000cd52620f116919a33afb9ac78ee1f91c17" :: SaplingCommitment
case getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
pool <- runNoLoggingT $ initPool "test.db"
let newTree = mkSaplingTree t1
_ <- upsertSaplingTree pool 2000 newTree
let updatedTree = append newTree (cmu1, 4)
_ <- upsertSaplingTree pool 2001 updatedTree
readTree <- getSaplingTree pool
case readTree of
Nothing -> assertFailure "Couldn't retrieve tree from db"
Just (t1, x) -> t1 `shouldBe` updatedTree
it "Orchard tree" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
let cmx1 =
hexString
"1712ead46028d4349e234abf59e94e0640fe7a0829e2e2e17e1a931631810400" :: OrchardCommitment
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
pool <- runNoLoggingT $ initPool "test.db"
let newTree = mkOrchardTree t1
_ <- upsertOrchardTree pool 2000 newTree
readTree <- getOrchardTree pool
case readTree of
Nothing -> assertFailure "Couldn't retrieve tree from db"
Just (t1, x) -> t1 `shouldBe` newTree
it "Orchard tree update" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
let cmx1 =
hexString
"1712ead46028d4349e234abf59e94e0640fe7a0829e2e2e17e1a931631810400" :: OrchardCommitment
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
pool <- runNoLoggingT $ initPool "test.db"
let newTree = mkOrchardTree t1
_ <- upsertOrchardTree pool 2000 newTree
let updatedTree = append newTree (cmx1, 4)
_ <- upsertOrchardTree pool 2001 updatedTree
readTree <- getOrchardTree pool
case readTree of
Nothing -> assertFailure "Couldn't retrieve tree from db"
Just (t1, x) -> t1 `shouldBe` updatedTree
describe "Tree tests" $ do
describe "Sapling" $ do
let cmx1 =
hexString
"238a75ea513eb330cee527d3fa5000cd52620f116919a33afb9ac78ee1f91c17"
let t0 = EmptyLeaf <> EmptyLeaf :: Tree SaplingNode
let t1 = t0 <> EmptyLeaf :: Tree SaplingNode
let t1a = t0 <> t0
it "Create leaf" $ do
let n = leaf cmx1 0 0 :: Tree SaplingNode
getLevel (value n) `shouldBe` 0
it "Create minimal tree" $ do
let t = leaf cmx1 0 0 <> EmptyLeaf :: Tree SaplingNode
getLevel (value t) `shouldBe` 1
it "Create minimal empty tree" $ do
getHash (value t0) `shouldNotBe` hexString "00"
it "Expand empty tree" $ do t1 `shouldBe` t1a
it "Create empty tree non-rec" $ getEmptyRoot 2 `shouldBe` t1
it "Validate empty tree" $ do
getHash (value (getEmptyRoot 32 :: Tree SaplingNode)) `shouldBe`
getSaplingRootTest 32
it "Validate size of tree from Zebra" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
case getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to get parts"
Just t1 -> do
case getSaplingFrontier tree of
Nothing -> assertFailure "Failed to get frontier"
Just f1 -> do
saplingSize t1 `shouldBe` 1 + fromIntegral (sf_pos f1)
it "Deserialize commitment tree from Zebra" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
case getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to get frontier"
Just t1 -> do
length (st_parents t1) `shouldBe` 31
it "Create commitment tree from Zebra" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
case getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkSaplingTree t1
getLevel (value newTree) `shouldBe` 32
it "Validate commitment tree from Zebra" $ do
let tree =
SaplingCommitmentTree $
hexString
"01b4a6049100dd1aa53fd850c388e0ed3782b039448aa43de5fd41d9e2419b375b0114abe3b473ac2dcd9ec3c62ff5cffb683f2e584d70ce4c1c118d67a8c34f1d691f00000000014278a19b3777ee0ceb48c4d469ab0a95217de56f27a4eaf9f19a90244bcff05301692acd3dd617e7cb44a17026211a31899cf27ef5960d59b8323ba105c754965800016f641fd51f68efae0cb742182483d97054bca8fcfb8036b1c165acdb0b27fc1b0000015965da8d105e2d412c7e13f920e607461c8cbb67a38b3a667898d1eaa064ba5701be82b8379a88cce7629153e0b3d1bf826782d3e0c367d615d362b479ead41d6401e1dbd43a62ac601d82de803fc3b6485182854056c6577bae231882b19184b03e000000018f624406b4ebda9ee13c062063e16f65ab5d725b80645037be7760e4ca7887730000000000000000000000000000"
case getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkSaplingTree t1
let ctAnchor = getSaplingTreeAnchor tree
{-
-getHash (value newTree) `shouldBe` ctAnchor
-isFull (value newTree) `shouldBe` False
-}
getPosition (value newTree) `shouldBe` 145761
it "Validate appending nodes to tree" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
let cmu1 =
hexString
"238a75ea513eb330cee527d3fa5000cd52620f116919a33afb9ac78ee1f91c17" :: SaplingCommitment
let finalTree =
SaplingCommitmentTree $
hexString
"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"
case getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkSaplingTree t1
let updatedTree1 = append newTree (cmu1, 4)
let finalAnchor = getSaplingTreeAnchor finalTree
getHash (value updatedTree1) `shouldBe` finalAnchor
it "Validate serializing tree to bytes" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
case mkSaplingTree <$> getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to build tree"
Just t1 -> do
let treeBytes = serialiseBorsh t1
LBS.length treeBytes `shouldNotBe` 0
it "Validate deserializing tree from bytes" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
case mkSaplingTree <$> getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to build tree"
Just t1 -> do
let treeBytes = serialiseBorsh t1
let rebuiltTree = deserialiseBorsh treeBytes
rebuiltTree `shouldBe` Right t1
it "Create merkle path" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
let cmu1 =
hexString
"238a75ea513eb330cee527d3fa5000cd52620f116919a33afb9ac78ee1f91c17" :: SaplingCommitment
case getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkSaplingTree t1
let updatedTree = append newTree (cmu1, 4)
case path 145762 updatedTree of
Nothing -> assertFailure "Failed to get Merkle path"
Just p1 -> p1 `shouldNotBe` MerklePath 0 []
it "Validate merkle path" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
let cmu1 =
hexString
"238a75ea513eb330cee527d3fa5000cd52620f116919a33afb9ac78ee1f91c17" :: SaplingCommitment
case getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkSaplingTree t1
let updatedTree = append newTree (cmu1, 4)
case path 145762 updatedTree of
Nothing -> assertFailure "Failed to get Merkle path"
Just p1 ->
getSaplingPathAnchor cmu1 p1 `shouldBe`
getHash (value updatedTree)
it "Find position by index" $ do
let tree =
SaplingCommitmentTree $
hexString
"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"
let cmu1 =
hexString
"238a75ea513eb330cee527d3fa5000cd52620f116919a33afb9ac78ee1f91c17" :: SaplingCommitment
case getSaplingTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkSaplingTree t1
let updatedTree = append newTree (cmu1, 4)
getNotePosition updatedTree 4 `shouldBe` Just 145762
describe "Orchard" $ do
let cmx1 =
hexString
"1712ead46028d4349e234abf59e94e0640fe7a0829e2e2e17e1a931631810400"
let cmx2 =
hexString
"39f5ad39817fb432fa07c5feb3a957189fbe7662a4b5555ca95093b6d853cf07"
let t0 = EmptyLeaf <> EmptyLeaf :: Tree OrchardNode
let t1 = t0 <> EmptyLeaf :: Tree OrchardNode
let t1a = t0 <> t0
it "Create leaf" $ do
let n = leaf cmx1 0 0 :: Tree OrchardNode
getLevel (value n) `shouldBe` 0
it "Create minimal tree" $ do
let t = leaf cmx1 0 0 <> EmptyLeaf :: Tree OrchardNode
getLevel (value t) `shouldBe` 1
it "Create minimal empty tree" $ do
getHash (value t0) `shouldNotBe` hexString "00"
it "Expand empty tree" $ do t1 `shouldBe` t1a
it "Create empty tree non-rec" $ getEmptyRoot 2 `shouldBe` t1
it "Validate empty tree" $ do
getHash (value (getEmptyRoot 32 :: Tree OrchardNode)) `shouldBe`
getOrchardRootTest 32
it "Validate tree with one leaf" $ do
let n = leaf cmx1 0 1 :: Tree OrchardNode
let n1 = root n
getHash (value n1) `shouldBe` addOrchardNodeGetRoot 32 (hexBytes cmx1)
it "Validate size of tree from Zebra" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get parts"
Just t1 -> do
case getOrchardFrontier tree of
Nothing -> assertFailure "Failed to get frontier"
Just f1 -> do
orchardSize t1 `shouldBe` 1 + fromIntegral (of_pos f1)
it "Deserialize commitment tree from Zebra" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get frontier"
Just t1 -> do
length (ot_parents t1) `shouldBe` 31
it "Create commitment tree from Zebra" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkOrchardTree t1
getLevel (value newTree) `shouldBe` 32
it "Validate commitment tree from Zebra" $ do
let tree =
OrchardCommitmentTree $
hexString
"0136a7886d7d73bc1845223165fd9cb0cef02046c707e8f88a7f61564720bd0f3501dca1fbdd7b5ba92a0809af5e85874626ce0db14d0532a48e41dde6f0f81b46011f0001fb48c27bd07e68f27aba47cd6e93fa961e0ef8c63f993963a614e56855d2013c0001ea572db9c5c2d24c7ad9132ae32b27179466bf67a580d59901d13b281d3f530b01c160348f10b9ad893d9731317ebe36ac8665e01c52cbe15a56aa9b72e4e6c41e000001cd7695156de2debdc5b13ea84d32e4e3ac020fb0aa7cd372c57ce765103bd70401746e6bc066a10e7f80a9ff8993dcb25c819edd64f2ca10ac248ef7848d41450500011e6191f91b3fceb62dc881a156e1b9d2e88e09dca25093cf9c4936c8869fb41a013bf8b923e4187754e85175748d9cce4824a6787e4258977b5bfe1ba59012c032000001f3bbdc62260c4fca5c84bf3487246d4542da48eeeec8ec40c1029b6908eef83c00000000000000000000000000000000"
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkOrchardTree t1
let ctAnchor = getOrchardTreeAnchor tree
{-
-getHash (value newTree) `shouldBe` ctAnchor
-isFull (value newTree) `shouldBe` False
-}
getPosition (value newTree) `shouldBe` 39733
it "Validate appending nodes to tree" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
let cmx1 =
hexString
"1712ead46028d4349e234abf59e94e0640fe7a0829e2e2e17e1a931631810400" :: OrchardCommitment
let cmx2 =
hexString
"39f5ad39817fb432fa07c5feb3a957189fbe7662a4b5555ca95093b6d853cf07" :: OrchardCommitment
let cmx3 =
hexString
"84f7fbc4b9f87215c653078d7fdd90756c3ba370c745065167da9eb73a65a83f" :: OrchardCommitment
let cmx4 =
hexString
"e55ad64e1ea2b261893fdea6ad0509b66e5f62d3142f351298c7135c4498d429" :: OrchardCommitment
let finalTree =
OrchardCommitmentTree $
hexString
"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"
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkOrchardTree t1
let updatedTree1 = append newTree (cmx1, 4)
let updatedTree2 = append updatedTree1 (cmx2, 5)
let updatedTree3 = append updatedTree2 (cmx3, 6)
let updatedTree4 = append updatedTree3 (cmx4, 7)
let finalAnchor = getOrchardTreeAnchor finalTree
getHash (value updatedTree4) `shouldBe` finalAnchor
it "Validate serializing tree to bytes" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
case mkOrchardTree <$> getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to build tree"
Just t1 -> do
let treeBytes = serialiseBorsh t1
LBS.length treeBytes `shouldNotBe` 0
it "Validate deserializing tree from bytes" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
case mkOrchardTree <$> getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to build tree"
Just t1 -> do
let treeBytes = serialiseBorsh t1
let rebuiltTree = deserialiseBorsh treeBytes
rebuiltTree `shouldBe` Right t1
it "Create merkle path" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
let cmx1 =
hexString
"1712ead46028d4349e234abf59e94e0640fe7a0829e2e2e17e1a931631810400" :: OrchardCommitment
let cmx2 =
hexString
"39f5ad39817fb432fa07c5feb3a957189fbe7662a4b5555ca95093b6d853cf07" :: OrchardCommitment
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkOrchardTree t1
let updatedTree = foldl append newTree [(cmx1, 4), (cmx2, 5)]
case path 39735 updatedTree of
Nothing -> assertFailure "Failed to get Merkle path"
Just p1 -> p1 `shouldNotBe` MerklePath 0 []
it "Validate merkle path" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
let cmx1 =
hexString
"1712ead46028d4349e234abf59e94e0640fe7a0829e2e2e17e1a931631810400" :: OrchardCommitment
let cmx2 =
hexString
"39f5ad39817fb432fa07c5feb3a957189fbe7662a4b5555ca95093b6d853cf07" :: OrchardCommitment
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkOrchardTree t1
let updatedTree = foldl append newTree [(cmx1, 4), (cmx2, 5)]
case path 39735 updatedTree of
Nothing -> assertFailure "Failed to get Merkle path"
Just p1 -> do
getOrchardPathAnchor cmx2 p1 `shouldBe`
getHash (value updatedTree)
it "Find position by index" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
let cmx1 =
hexString
"1712ead46028d4349e234abf59e94e0640fe7a0829e2e2e17e1a931631810400" :: OrchardCommitment
let cmx2 =
hexString
"39f5ad39817fb432fa07c5feb3a957189fbe7662a4b5555ca95093b6d853cf07" :: OrchardCommitment
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkOrchardTree t1
let updatedTree = foldl append newTree [(cmx1, 4), (cmx2, 5)]
getNotePosition updatedTree 4 `shouldBe` Just 39734
it "Truncate tree" $ do
pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
maxBlock <- getMaxBlock pool $ ZcashNetDB TestNet
dbTree <- getOrchardTree pool
case dbTree of
Nothing -> assertFailure "failed to get tree from DB"
Just (oTree, oSync) -> do
let startBlock = oSync - 5
zebraTreesIn <-
getCommitmentTrees
pool
"localhost"
18232
(ZcashNetDB TestNet)
startBlock
ix <- getOrchardActionAtBlock pool (ZcashNetDB TestNet) startBlock
case ix of
Nothing -> assertFailure "couldn't find index at block"
Just i -> do
updatedTree <-
runFileLoggingT "test.log" $ truncateTree oTree i
let finalAnchor =
getOrchardTreeAnchor $
OrchardCommitmentTree $ ztiOrchard zebraTreesIn
getHash (value updatedTree) `shouldBe` finalAnchor
it "Counting leaves in tree" $ do
let tree =
OrchardCommitmentTree $
hexString
"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"
case getOrchardTreeParts tree of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkOrchardTree t1
countLeaves newTree `shouldBe`
fromIntegral (1 + getPosition (value newTree))
it "Validate large load" $ do
pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
maxBlock <- getMaxBlock pool $ ZcashNetDB TestNet
let startBlock = maxBlock - 310000
zebraTreesIn <-
getCommitmentTrees
pool
"localhost"
18232
(ZcashNetDB TestNet)
startBlock
zebraTreesOut <-
getCommitmentTrees
pool
"localhost"
18232
(ZcashNetDB TestNet)
maxBlock
case getOrchardTreeParts $
OrchardCommitmentTree $ ztiOrchard zebraTreesIn of
Nothing -> assertFailure "Failed to get tree parts"
Just t1 -> do
let newTree = mkOrchardTree t1
oAct <- getOrchardActions pool startBlock $ ZcashNetDB TestNet
let cmxs =
map
(\(_, y) ->
( getHex $ orchActionCmx $ entityVal y
, fromSqlKey $ entityKey y))
oAct
let posCmx = zip [(getPosition (value newTree) + 1) ..] cmxs
let updatedTree = batchAppend newTree posCmx
let finalAnchor =
getOrchardTreeAnchor $
OrchardCommitmentTree $ ztiOrchard zebraTreesOut
getHash (value updatedTree) `shouldBe` finalAnchor
it "Validate tree from DB" $ do
pool <- runNoLoggingT $ initPool "/home/rav/Zenith/zenith.db"
dbTree <- getOrchardTree pool
case dbTree of
Nothing -> assertFailure "failed to get tree from DB"
Just (oTree, oSync) -> do
zebraTrees <-
getCommitmentTrees
pool
"localhost"
18232
(ZcashNetDB TestNet)
oSync
let finalAnchor =
getOrchardTreeAnchor $
OrchardCommitmentTree $ ztiOrchard zebraTrees
getHash (value oTree) `shouldBe` finalAnchor
describe "TEX address" $ do
it "from UA" $ do
let addr =
parseAddress
"utest1fqtne08sdgmae0g0un7j3h6ss9gafguprv0yvkxv4trxxsdxx467pxkkc98cpsyk5r2enwwpn3p5c6aw537wyvlz20hs7vcqc4uhm22yfjnrsm8hy2hjjrscvhk2ac32rzndu94hh28gdl62wqgy3yev7w0gj9lmmz6yasghmle6tllx4yjv9sjt0xml66y9lyxc4rkk6q425nc5gxa"
case addr of
Nothing -> assertFailure "failed to parse address"
Just (Unified ua) ->
case (encodeExchangeAddress (ua_net ua) =<< (t_rec ua)) of
Nothing -> assertFailure "failed to encode TEX"
Just tex ->
tex `shouldBe` "textest1jze8c9jxxrpct34tpe4pvquz8nvxsxt6gawqqf"
Just _ -> assertFailure "no transparent receiver"
describe "Creating Tx" $ do
describe "Full" $ do
it "To Orchard" $ do
let uaRead =
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 3)
3026170
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
(Just "Sending memo to orchard")
]
Full
case tx of
Left e -> assertFailure $ show e
Right h -> h `shouldNotBe` 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 4)
3001331
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
(Just "Sending memo to sapling")
]
Full
case tx of
Left e -> assertFailure $ show e
Right h -> h `shouldNotBe` hexString "deadbeef"
it "To Transparent" $ do
let uaRead = parseAddress "tmAmSa4AauSFuJieeanRBjkfnah45ysGtgZ"
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 4)
3001331
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
Nothing
]
Full
tx `shouldBe`
Left (PrivacyPolicyError "Receiver not capable of Full privacy")
it "To mixed shielded receivers" $ do
let uaRead =
parseAddress
"utest1dl54utt6prjj5e0dnlknwumnxq9hycdjpkfr0sy6e6h522remqee8axe9zax0wsjrwpj76v555pdhvj9rnargpfyycs0vpkapq98xcdhem99gc4wchzn0ggepq3y6nz3a9sscwgqxgsh9vzhcad402y3x9szfregck5gslkya3c79d86xx0l33tpk8gnn7ew9vw37w43zh22u8dgdax"
let uaRead2 =
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)
3001331
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
(Just "Sending memo to orchard")
, ProposedNote
(ValidAddressAPI $ fromJust uaRead2)
0.004
Nothing
]
Full
tx `shouldBe`
Left
(PrivacyPolicyError
"Combination of receivers not allowed for Full privacy")
describe "Medium" $ do
it "To Orchard" $ do
let uaRead =
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)
3001372
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
(Just "Sending memo to orchard")
]
Medium
case tx of
Left e -> assertFailure $ show e
Right h -> h `shouldNotBe` 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)
3001372
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
(Just "Sending memo to sapling")
]
Medium
case tx of
Left e -> assertFailure $ show e
Right h -> h `shouldNotBe` (hexString "00")
it "To Transparent" $ do
let uaRead = parseAddress "tmAmSa4AauSFuJieeanRBjkfnah45ysGtgZ"
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 4)
3001331
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
Nothing
]
Medium
tx `shouldBe`
Left
(PrivacyPolicyError "Receiver not capable of Medium privacy")
it "To mixed shielded receivers" $ do
let uaRead =
parseAddress
"utest1dl54utt6prjj5e0dnlknwumnxq9hycdjpkfr0sy6e6h522remqee8axe9zax0wsjrwpj76v555pdhvj9rnargpfyycs0vpkapq98xcdhem99gc4wchzn0ggepq3y6nz3a9sscwgqxgsh9vzhcad402y3x9szfregck5gslkya3c79d86xx0l33tpk8gnn7ew9vw37w43zh22u8dgdax"
let uaRead2 =
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)
3001331
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
(Just "Sending memo to orchard")
, ProposedNote
(ValidAddressAPI $ fromJust uaRead2)
0.004
Nothing
]
Medium
case tx of
Left e -> assertFailure $ show e
Right h -> h `shouldNotBe` (hexString "deadbeef")
describe "Low" $ do
it "To Orchard" $ do
let uaRead =
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)
3001372
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
Nothing
]
Low
case tx of
Left e -> assertFailure $ show e
Right h -> h `shouldNotBe` (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)
3001372
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
Nothing
]
Low
case tx of
Left e -> assertFailure $ show e
Right h -> h `shouldNotBe` (hexString "deadbeef")
it "To Transparent" $ do
let uaRead = parseAddress "tmAmSa4AauSFuJieeanRBjkfnah45ysGtgZ"
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)
3001372
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
Nothing
]
Low
case tx of
Left e -> assertFailure $ show e
Right h -> h `shouldNotBe` (hexString "deadbeef")
describe "None" $ do
it "To Orchard" $ do
let uaRead =
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)
3001372
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
Nothing
]
None
tx `shouldBe`
Left
(PrivacyPolicyError
"Shielded recipients not compatible with privacy policy.")
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)
3001372
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
Nothing
]
None
tx `shouldBe`
Left
(PrivacyPolicyError
"Shielded recipients not compatible with privacy policy.")
it "To Transparent" $ do
let uaRead = parseAddress "tmAmSa4AauSFuJieeanRBjkfnah45ysGtgZ"
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)
3001372
[ ProposedNote
(ValidAddressAPI $ fromJust uaRead)
0.005
Nothing
]
None
case tx of
Left e -> assertFailure $ show e
Right h -> h `shouldNotBe` hexString "deadbeef"
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