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5 changed files with 85 additions and 33 deletions

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@ -7,6 +7,13 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
## [0.5.5.3]
### Added
- Added unction to generate an ExchangeAddress in Human Readable Format Using a TransparentAddress in HRF
`encodeExchangeAddress` a function to create a ExchangeAddress in HRF
`decodeExchangeAddress` a function to obtaina a TransparentAddress object from an ExchangeAddress in HRF
- Added new type ExchangeAddress
### Fixed
- Orchard note nullifier calculation

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@ -43,25 +43,6 @@ import Foreign.Rust.Marshall.Variable
, withPureBorshVarBuffer
)
import ZcashHaskell.Types
--import ZcashHaskell.Types
-- ( AccountId
-- , CoinType
-- , DecodedNote(..)
-- , RawData(..)
-- , RawTxResponse(..)
-- , SaplingAddress(..)
-- , SaplingCommitmentTree(..)
-- , SaplingReceiver(..)
-- , SaplingSpendingKey(..)
-- , SaplingWitness(..)
-- , Scope(..)
-- , Seed(..)
-- , ShieldedOutput(..)
-- , ToBytes(..)
-- , ZcashNet(..)
-- , decodeHexText
-- , getValue
-- )
import ZcashHaskell.Utils (decodeBech32, encodeBech32, encodeBech32m)
-- | Check if given bytesting is a valid encoded shielded address

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@ -22,7 +22,8 @@ import qualified Data.ByteArray as BA
import qualified Data.ByteString as BS
import Data.ByteString.Base58 (bitcoinAlphabet, decodeBase58, encodeBase58)
import Data.Char (chr)
import Data.HexString
import qualified Data.ByteString.Char8 as BC
import Data.HexString
import qualified Data.Text as T
import qualified Data.Text.Encoding as E
import Data.Word
@ -30,19 +31,20 @@ import Haskoin.Address (Address(..))
import qualified Haskoin.Crypto.Hash as H
import Haskoin.Crypto.Keys.Extended
import ZcashHaskell.Types
( AccountId
, CoinType(..)
, Scope(..)
, Seed(..)
, ToBytes(..)
, TransparentAddress(..)
, TransparentReceiver(..)
, TransparentSpendingKey(..)
, TransparentType(..)
, ZcashNet(..)
, getTransparentPrefix
, getValue
)
-- ( AccountId
-- , CoinType(..)
-- , Scope(..)
-- , Seed(..)
-- , ToBytes(..)
-- , TransparentAddress(..)
-- , TransparentReceiver(..)
-- , TransparentSpendingKey(..)
-- , TransparentType(..)
-- , ZcashNet(..)
-- , getTransparentPrefix
-- , getValue
-- )
import ZcashHaskell.Utils( encodeBech32m, decodeBech32 )
-- | Required for `TransparentReceiver` encoding and decoding
sha256 :: BS.ByteString -> BS.ByteString
@ -142,3 +144,43 @@ decodeTransparentAddress taddress = do
TransparentReceiver P2PKH (fromRawBytes transparentReceiver)
else Nothing
_ -> Nothing
-- | Encode an Exchange Addresss into HRF from TransparentReceiver
encodeExchangeAddress:: ZcashNet -> TransparentReceiver -> Maybe T.Text
encodeExchangeAddress net tr = do
case (tr_type tr) of
P2PKH -> do
case net of
MainNet -> do
let vhash = encodeBech32m (BC.pack "tex") (toBytes (tr_bytes tr))
Just vhash
TestNet -> do
let vhash = encodeBech32m (BC.pack "textest") (toBytes (tr_bytes tr))
Just vhash
_ -> Nothing
-- | Decode an Exchange Address into a ExchangeAddress
decodeExchangeAddress:: T.Text-> Maybe ExchangeAddress
decodeExchangeAddress ex = do
if (T.length ex ) > 1
then do
let rawd = decodeBech32 (E.encodeUtf8 ex)
let tMain = BS.unpack (BC.pack "tex")
let tTest = BS.unpack (BC.pack "textest")
let tFail = BS.unpack (BC.pack "fail")
let hr = BS.unpack (hrp rawd)
if hr /= tFail
then do
let transparentReceiver = bytes rawd
if hr == tMain
then Just $
ExchangeAddress MainNet $
TransparentReceiver P2PKH (fromRawBytes transparentReceiver)
else do
if hr == tTest
then Just $
ExchangeAddress TestNet $
TransparentReceiver P2PKH (fromRawBytes transparentReceiver)
else Nothing
else Nothing
else Nothing

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@ -434,6 +434,12 @@ data TransparentAddress = TransparentAddress
, ta_receiver :: !TransparentReceiver
} deriving (Eq, Prelude.Show, Read)
-- | Type to represent a TEX Zcash addresses
data ExchangeAddress = ExchangeAddress
{ ex_network :: !ZcashNet
, ex_address :: !TransparentReceiver
} deriving (Eq, Prelude.Show, Read)
-- | Wrapper types for transparent elements
data RawTxIn = RawTxIn
{ rti_outpoint :: !RawOutPoint

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@ -1091,6 +1091,22 @@ main = do
p
dn `shouldNotBe` Nothing
describe "Generate an ExchangeAddress (MainNet) from transparent address" $ do
let ta = decodeTransparentAddress "t1dMjvesbzdG41xgKaGU3HgwYJwSgbCK54e"
it "Try to generate valid ExchangeAddress from Transparent Address" $ do
case ta of
Nothing -> assertFailure "Failed to decode transparent address"
Just t -> do
case (tr_type (ta_receiver t) ) of
P2SH -> assertFailure "P2SH not supported for ExchengeAddress generation"
P2PKH -> do
let exch = encodeExchangeAddress (ta_network t) (ta_receiver t)
case exch of
Nothing -> assertFailure "Failed to encode Exchange address"
Just addr -> do
let eadr = decodeExchangeAddress addr
eadr `shouldNotBe` Nothing
-- | Properties
prop_PhraseLength :: Property
prop_PhraseLength =