{-# LANGUAGE OverloadedStrings #-} import Control.Monad (when) import Control.Monad.Logger (runNoLoggingT) import Data.HexString import qualified Data.Text.Encoding as E import Database.Persist import Database.Persist.Sqlite import System.Directory import Test.HUnit import Test.Hspec import ZcashHaskell.Orchard (isValidUnifiedAddress) import ZcashHaskell.Sapling ( decodeSaplingOutputEsk , encodeSaplingAddress , getSaplingNotePosition , getSaplingWitness , isValidShieldedAddress , updateSaplingCommitmentTree ) import ZcashHaskell.Transparent ( decodeExchangeAddress , decodeTransparentAddress ) import ZcashHaskell.Types ( DecodedNote(..) , OrchardSpendingKey(..) , Phrase(..) , SaplingCommitmentTree(..) , SaplingReceiver(..) , SaplingSpendingKey(..) , Scope(..) , ShieldedOutput(..) , ZcashNet(..) ) import Zenith.Core import Zenith.DB 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 "Function tests" $ do describe "Sapling Decoding" $ do let sk = SaplingSpendingKey "\ETX}\195.\SUB\NUL\NUL\NUL\128\NUL\203\"\229IL\CANJ*\209\EM\145\228m\172\&4\SYNNl\DC3\161\147\SO\157\238H\192\147eQ\143L\201\216\163\180\147\145\156Zs+\146>8\176`ta\161\223\SO\140\177\b;\161\SO\236\151W\148<\STX\171|\DC2\172U\195(I\140\146\214\182\137\211\228\159\128~bV\STXy{m'\224\175\221\219\180!\ENQ_\161\132\240?\255\236\"6\133\181\170t\181\139\143\207\170\211\ENQ\167a\184\163\243\246\140\158t\155\133\138X\a\241\200\140\EMT\GS~\175\249&z\250\214\231\239mi\223\206\STX\t\EM<{V~J\253FB" let tree = SaplingCommitmentTree $ hexString "01818f2bd58b1e392334d0565181cc7843ae09e3533b2a50a8f1131af657340a5c001001161f962245812ba5e1804fd0a336bc78fa4ee4441a8e0f1525ca5da1b285d35101120f45afa700b8c1854aa8b9c8fe8ed92118ef790584bfcb926078812a10c83a00000000012f4f72c03f8c937a94919a01a07f21165cc8394295291cb888ca91ed003810390107114fe4bb4cd08b47f6ae47477c182d5da9fe5c189061808c1091e9bf3b4524000001447d6b9100cddd5f80c8cf4ddee2b87eba053bd987465aec2293bd0514e68b0d015f6c95e75f4601a0a31670a7deb970fc8988c611685161d2e1629d0a1a0ebd07015f8b9205e0514fa235d75c150b87e23866b882b39786852d1ab42aab11d31a4a0117ddeb3a5f8d2f6b2d0a07f28f01ab25e03a05a9319275bb86d72fcaef6fc01501f08f39275112dd8905b854170b7f247cf2df18454d4fa94e6e4f9320cca05f24011f8322ef806eb2430dc4a7a41c1b344bea5be946efc7b4349c1c9edb14ff9d39" let nextTree = SaplingCommitmentTree $ hexString "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" it "Sapling is decoded correctly" $ do so <- runSqlite "zenith.db" $ selectList [ShieldOutputTx ==. toSqlKey 38318] [] let cmus = map (getHex . shieldOutputCmu . entityVal) so let pos = getSaplingNotePosition <$> (getSaplingWitness =<< updateSaplingCommitmentTree tree (head cmus)) let pos1 = getSaplingNotePosition <$> getSaplingWitness tree let pos2 = getSaplingNotePosition <$> getSaplingWitness nextTree case pos of Nothing -> assertFailure "couldn't get note position" Just p -> do print p print pos1 print pos2 let dn = decodeSaplingOutputEsk sk (ShieldedOutput (getHex $ shieldOutputCv $ entityVal $ head so) (getHex $ shieldOutputCmu $ entityVal $ head so) (getHex $ shieldOutputEphKey $ entityVal $ head so) (getHex $ shieldOutputEncCipher $ entityVal $ head so) (getHex $ shieldOutputOutCipher $ entityVal $ head so) (getHex $ shieldOutputProof $ entityVal $ head so)) TestNet External p case dn of Nothing -> assertFailure "couldn't decode Sap output" Just d -> a_nullifier d `shouldBe` hexString "6c5d1413c63a9a88db71c3f41dc12cd60197ee742fc75b217215e7144db48bd3" describe "Note selection for Tx" $ do it "Value less than balance" $ do pool <- runNoLoggingT $ initPool "zenith.db" res <- selectUnspentNotes pool (toSqlKey 1) 14000000 res `shouldNotBe` ([], [], []) it "Value greater than balance" $ do pool <- runNoLoggingT $ initPool "zenith.db" let res = selectUnspentNotes pool (toSqlKey 1) 84000000 res `shouldThrow` anyIOException it "Fee calculation" $ do pool <- runNoLoggingT $ initPool "zenith.db" res <- selectUnspentNotes pool (toSqlKey 1) 14000000 calculateTxFee res 3 `shouldBe` 20000 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 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 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 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 "Creating Tx" $ do-} {-xit "To Orchard" $ do-} {-let uaRead =-} {-isValidUnifiedAddress-} {-"utest1dl54utt6prjj5e0dnlknwumnxq9hycdjpkfr0sy6e6h522remqee8axe9zax0wsjrwpj76v555pdhvj9rnargpfyycs0vpkapq98xcdhem99gc4wchzn0ggepq3y6nz3a9sscwgqxgsh9vzhcad402y3x9szfregck5gslkya3c79d86xx0l33tpk8gnn7ew9vw37w43zh22u8dgdax"-} {-case uaRead of-} {-Nothing -> assertFailure "wrong address"-} {-Just ua -> do-} {-tx <--} {-prepareTx-} {-"zenith.db"-} {-TestNet-} {-(toSqlKey 1)-} {-2819811-} {-0.04-} {-ua-} {-"sent with Zenith, test"-} {-tx `shouldBe` Right (hexString "deadbeef")-}