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// Copyright 2014 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.

package crypto

import (
    "crypto/aes"
    "crypto/cipher"
    "crypto/ecdsa"
    "crypto/elliptic"
    "crypto/rand"
    "crypto/sha256"
    "fmt"
    "io"
    "io/ioutil"
    "math/big"
    "os"

    "encoding/hex"
    "encoding/json"
    "errors"

    "github.com/ethereum/go-ethereum/common"
    "github.com/ethereum/go-ethereum/crypto/ecies"
    "github.com/ethereum/go-ethereum/crypto/secp256k1"
    "github.com/ethereum/go-ethereum/crypto/sha3"
    "github.com/ethereum/go-ethereum/rlp"
    "github.com/pborman/uuid"
    "golang.org/x/crypto/pbkdf2"
    "golang.org/x/crypto/ripemd160"
)

func Sha3(data ...[]byte) []byte {
    d := sha3.NewKeccak256()
    for _, b := range data {
        d.Write(b)
    }
    return d.Sum(nil)
}

func Sha3Hash(data ...[]byte) (h common.Hash) {
    d := sha3.NewKeccak256()
    for _, b := range data {
        d.Write(b)
    }
    d.Sum(h[:0])
    return h
}

// Creates an ethereum address given the bytes and the nonce
func CreateAddress(b common.Address, nonce uint64) common.Address {
    data, _ := rlp.EncodeToBytes([]interface{}{b, nonce})
    return common.BytesToAddress(Sha3(data)[12:])
    //return Sha3(common.NewValue([]interface{}{b, nonce}).Encode())[12:]
}

func Sha256(data []byte) []byte {
    hash := sha256.Sum256(data)

    return hash[:]
}

func Ripemd160(data []byte) []byte {
    ripemd := ripemd160.New()
    ripemd.Write(data)

    return ripemd.Sum(nil)
}

func Ecrecover(hash, sig []byte) ([]byte, error) {
    return secp256k1.RecoverPubkey(hash, sig)
}

// New methods using proper ecdsa keys from the stdlib
func ToECDSA(prv []byte) *ecdsa.PrivateKey {
    if len(prv) == 0 {
        return nil
    }

    priv := new(ecdsa.PrivateKey)
    priv.PublicKey.Curve = secp256k1.S256()
    priv.D = common.BigD(prv)
    priv.PublicKey.X, priv.PublicKey.Y = secp256k1.S256().ScalarBaseMult(prv)
    return priv
}

func FromECDSA(prv *ecdsa.PrivateKey) []byte {
    if prv == nil {
        return nil
    }
    return prv.D.Bytes()
}

func ToECDSAPub(pub []byte) *ecdsa.PublicKey {
    if len(pub) == 0 {
        return nil
    }
    x, y := elliptic.Unmarshal(secp256k1.S256(), pub)
    return &ecdsa.PublicKey{secp256k1.S256(), x, y}
}

func FromECDSAPub(pub *ecdsa.PublicKey) []byte {
    if pub == nil || pub.X == nil || pub.Y == nil {
        return nil
    }
    return elliptic.Marshal(secp256k1.S256(), pub.X, pub.Y)
}

// HexToECDSA parses a secp256k1 private key.
func HexToECDSA(hexkey string) (*ecdsa.PrivateKey, error) {
    b, err := hex.DecodeString(hexkey)
    if err != nil {
        return nil, errors.New("invalid hex string")
    }
    if len(b) != 32 {
        return nil, errors.New("invalid length, need 256 bits")
    }
    return ToECDSA(b), nil
}

// LoadECDSA loads a secp256k1 private key from the given file.
// The key data is expected to be hex-encoded.
func LoadECDSA(file string) (*ecdsa.PrivateKey, error) {
    buf := make([]byte, 64)
    fd, err := os.Open(file)
    if err != nil {
        return nil, err
    }
    defer fd.Close()
    if _, err := io.ReadFull(fd, buf); err != nil {
        return nil, err
    }

    key, err := hex.DecodeString(string(buf))
    if err != nil {
        return nil, err
    }

    return ToECDSA(key), nil
}

// SaveECDSA saves a secp256k1 private key to the given file with
// restrictive permissions. The key data is saved hex-encoded.
func SaveECDSA(file string, key *ecdsa.PrivateKey) error {
    k := hex.EncodeToString(FromECDSA(key))
    return ioutil.WriteFile(file, []byte(k), 0600)
}

func GenerateKey() (*ecdsa.PrivateKey, error) {
    return ecdsa.GenerateKey(secp256k1.S256(), rand.Reader)
}

func ValidateSignatureValues(v byte, r, s *big.Int, homestead bool) bool {
    if r.Cmp(common.Big1) < 0 || s.Cmp(common.Big1) < 0 {
        return false
    }
    vint := uint32(v)
    // reject upper range of s values (ECDSA malleability)
    // see discussion in secp256k1/libsecp256k1/include/secp256k1.h
    if homestead && s.Cmp(secp256k1.HalfN) > 0 {
        return false
    }
    // Frontier: allow s to be in full N range
    if s.Cmp(secp256k1.N) >= 0 {
        return false
    }
    if r.Cmp(secp256k1.N) < 0 && (vint == 27 || vint == 28) {
        return true
    } else {
        return false
    }
}

func SigToPub(hash, sig []byte) (*ecdsa.PublicKey, error) {
    s, err := Ecrecover(hash, sig)
    if err != nil {
        return nil, err
    }

    x, y := elliptic.Unmarshal(secp256k1.S256(), s)
    return &ecdsa.PublicKey{secp256k1.S256(), x, y}, nil
}

func Sign(hash []byte, prv *ecdsa.PrivateKey) (sig []byte, err error) {
    if len(hash) != 32 {
        return nil, fmt.Errorf("hash is required to be exactly 32 bytes (%d)", len(hash))
    }

    seckey := common.LeftPadBytes(prv.D.Bytes(), prv.Params().BitSize/8)
    defer zeroBytes(seckey)
    sig, err = secp256k1.Sign(hash, seckey)
    return
}

func Encrypt(pub *ecdsa.PublicKey, message []byte) ([]byte, error) {
    return ecies.Encrypt(rand.Reader, ecies.ImportECDSAPublic(pub), message, nil, nil)
}

func Decrypt(prv *ecdsa.PrivateKey, ct []byte) ([]byte, error) {
    key := ecies.ImportECDSA(prv)
    return key.Decrypt(rand.Reader, ct, nil, nil)
}

// Used only by block tests.
func ImportBlockTestKey(privKeyBytes []byte) error {
    ks := NewKeyStorePassphrase(common.DefaultDataDir()+"/keystore", LightScryptN, LightScryptP)
    ecKey := ToECDSA(privKeyBytes)
    key := &Key{
        Id:         uuid.NewRandom(),
        Address:    PubkeyToAddress(ecKey.PublicKey),
        PrivateKey: ecKey,
    }
    err := ks.StoreKey(key, "")
    return err
}

// creates a Key and stores that in the given KeyStore by decrypting a presale key JSON
func ImportPreSaleKey(keyStore KeyStore, keyJSON []byte, password string) (*Key, error) {
    key, err := decryptPreSaleKey(keyJSON, password)
    if err != nil {
        return nil, err
    }
    key.Id = uuid.NewRandom()
    err = keyStore.StoreKey(key, password)
    return key, err
}

func decryptPreSaleKey(fileContent []byte, password string) (key *Key, err error) {
    preSaleKeyStruct := struct {
        EncSeed string
        EthAddr string
        Email   string
        BtcAddr string
    }{}
    err = json.Unmarshal(fileContent, &preSaleKeyStruct)
    if err != nil {
        return nil, err
    }
    encSeedBytes, err := hex.DecodeString(preSaleKeyStruct.EncSeed)
    iv := encSeedBytes[:16]
    cipherText := encSeedBytes[16:]
    /*
        See https://github.com/ethereum/pyethsaletool

        pyethsaletool generates the encryption key from password by
        2000 rounds of PBKDF2 with HMAC-SHA-256 using password as salt (:().
        16 byte key length within PBKDF2 and resulting key is used as AES key
    */
    passBytes := []byte(password)
    derivedKey := pbkdf2.Key(passBytes, passBytes, 2000, 16, sha256.New)
    plainText, err := aesCBCDecrypt(derivedKey, cipherText, iv)
    if err != nil {
        return nil, err
    }
    ethPriv := Sha3(plainText)
    ecKey := ToECDSA(ethPriv)
    key = &Key{
        Id:         nil,
        Address:    PubkeyToAddress(ecKey.PublicKey),
        PrivateKey: ecKey,
    }
    derivedAddr := hex.EncodeToString(key.Address.Bytes()) // needed because .Hex() gives leading "0x"
    expectedAddr := preSaleKeyStruct.EthAddr
    if derivedAddr != expectedAddr {
        err = fmt.Errorf("decrypted addr '%s' not equal to expected addr '%s'", derivedAddr, expectedAddr)
    }
    return key, err
}

// AES-128 is selected due to size of encryptKey
func aesCTRXOR(key, inText, iv []byte) ([]byte, error) {
    aesBlock, err := aes.NewCipher(key)
    if err != nil {
        return nil, err
    }
    stream := cipher.NewCTR(aesBlock, iv)
    outText := make([]byte, len(inText))
    stream.XORKeyStream(outText, inText)
    return outText, err
}

func aesCBCDecrypt(key, cipherText, iv []byte) ([]byte, error) {
    aesBlock, err := aes.NewCipher(key)
    if err != nil {
        return nil, err
    }
    decrypter := cipher.NewCBCDecrypter(aesBlock, iv)
    paddedPlaintext := make([]byte, len(cipherText))
    decrypter.CryptBlocks(paddedPlaintext, cipherText)
    plaintext := PKCS7Unpad(paddedPlaintext)
    if plaintext == nil {
        err = errors.New("Decryption failed: PKCS7Unpad failed after AES decryption")
    }
    return plaintext, err
}

// From https://leanpub.com/gocrypto/read#leanpub-auto-block-cipher-modes
func PKCS7Unpad(in []byte) []byte {
    if len(in) == 0 {
        return nil
    }

    padding := in[len(in)-1]
    if int(padding) > len(in) || padding > aes.BlockSize {
        return nil
    } else if padding == 0 {
        return nil
    }

    for i := len(in) - 1; i > len(in)-int(padding)-1; i-- {
        if in[i] != padding {
            return nil
        }
    }
    return in[:len(in)-int(padding)]
}

func PubkeyToAddress(p ecdsa.PublicKey) common.Address {
    pubBytes := FromECDSAPub(&p)
    return common.BytesToAddress(Sha3(pubBytes[1:])[12:])
}

func zeroBytes(bytes []byte) {
    for i := range bytes {
        bytes[i] = 0
    }
}