-- Copyright 2022-2024 Vergara Technologies LLC
-- 
-- This file is part of Zcash-Haskell.
--
-- |
-- Module      :  ZcashHaskell.Transparent
-- Copyright   :  2022-2024 Vergara Technologies
-- License     :  MIT
--
-- Maintainer  :  pitmutt@vergara.tech
-- Stability   :  experimental
-- Portability :  unknown
--
-- Functions to interact with the transparent addresses in the Zcash blockchain
--
module ZcashHaskell.Transparent where

import Crypto.Hash
import qualified Data.ByteArray as BA
import qualified Data.ByteString as BS
import Data.ByteString.Base58 (bitcoinAlphabet, encodeBase58)
import qualified Data.Text as T
import qualified Data.Text.Encoding as E
import Data.Word
import ZcashHaskell.Types
  ( TransparentAddress(..)
  , TransparentType(..)
  , ZcashNet(..)
  )

encodeTransparent :: TransparentAddress -> T.Text
encodeTransparent t =
  case ta_type t of
    P2SH ->
      case ta_net t of
        MainNet -> encodeTransparent' (0x1c, 0xbd) $ ta_bytes t
        _ -> encodeTransparent' (0x1c, 0xba) $ ta_bytes t
    P2PKH ->
      case ta_net t of
        MainNet -> encodeTransparent' (0x1c, 0xb8) $ ta_bytes t
        _ -> encodeTransparent' (0x1d, 0x25) $ ta_bytes t
  where
    encodeTransparent' :: (Word8, Word8) -> BS.ByteString -> T.Text
    encodeTransparent' (a, b) h =
      E.decodeUtf8 $ encodeBase58 bitcoinAlphabet $ digest <> BS.take 4 checksum
      where
        sha256 :: BS.ByteString -> BS.ByteString
        sha256 bs = BA.convert (hash bs :: Digest SHA256)
        digest = BS.pack [a, b] <> h
        checksum = sha256 $ sha256 digest