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/*
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This file is part of cpp-ethereum.
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cpp-ethereum is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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cpp-ethereum is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
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*/
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/** @file Common.h
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* @author Alex Leverington <nessence@gmail.com>
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* @author Gav Wood <i@gavwood.com>
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* @date 2014
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*
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* Ethereum-specific data structures & algorithms.
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*/
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#pragma once
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#include <mutex>
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#include <libdevcore/Common.h>
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#include <libdevcore/FixedHash.h>
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#include <libdevcore/Exceptions.h>
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#include <libdevcore/FileSystem.h>
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namespace dev
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{
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using Secret = SecureFixedHash<32>;
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/// A public key: 64 bytes.
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/// @NOTE This is not endian-specific; it's just a bunch of bytes.
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using Public = h512;
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/// A signature: 65 bytes: r: [0, 32), s: [32, 64), v: 64.
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/// @NOTE This is not endian-specific; it's just a bunch of bytes.
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using Signature = h520;
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struct SignatureStruct
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{
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SignatureStruct() = default;
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SignatureStruct(Signature const& _s) { *(h520*)this = _s; }
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SignatureStruct(h256 const& _r, h256 const& _s, byte _v): r(_r), s(_s), v(_v) {}
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operator Signature() const { return *(h520 const*)this; }
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/// @returns true if r,s,v values are valid, otherwise false
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bool isValid() const noexcept;
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/// @returns the public part of the key that signed @a _hash to give this sig.
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Public recover(h256 const& _hash) const;
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h256 r;
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h256 s;
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byte v = 0;
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};
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/// An Ethereum address: 20 bytes.
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/// @NOTE This is not endian-specific; it's just a bunch of bytes.
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using Address = h160;
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/// The zero address.
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extern Address ZeroAddress;
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/// A vector of Ethereum addresses.
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using Addresses = h160s;
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/// A hash set of Ethereum addresses.
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using AddressHash = std::unordered_set<h160>;
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/// A vector of secrets.
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using Secrets = std::vector<Secret>;
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/// Convert a secret key into the public key equivalent.
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Public toPublic(Secret const& _secret);
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/// Convert a public key to address.
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Address toAddress(Public const& _public);
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/// Convert a secret key into address of public key equivalent.
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/// @returns 0 if it's not a valid secret key.
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Address toAddress(Secret const& _secret);
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// Convert transaction from and nonce to address.
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Address toAddress(Address const& _from, u256 const& _nonce);
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/// Encrypts plain text using Public key.
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void encrypt(Public const& _k, bytesConstRef _plain, bytes& o_cipher);
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/// Decrypts cipher using Secret key.
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bool decrypt(Secret const& _k, bytesConstRef _cipher, bytes& o_plaintext);
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/// Symmetric encryption.
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void encryptSym(Secret const& _k, bytesConstRef _plain, bytes& o_cipher);
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/// Symmetric decryption.
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bool decryptSym(Secret const& _k, bytesConstRef _cipher, bytes& o_plaintext);
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/// Encrypt payload using ECIES standard with AES128-CTR.
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void encryptECIES(Public const& _k, bytesConstRef _plain, bytes& o_cipher);
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/// Decrypt payload using ECIES standard with AES128-CTR.
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bool decryptECIES(Secret const& _k, bytesConstRef _cipher, bytes& o_plaintext);
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/// Encrypts payload with random IV/ctr using AES128-CTR.
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std::pair<bytes, h128> encryptSymNoAuth(SecureFixedHash<16> const& _k, bytesConstRef _plain);
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/// Encrypts payload with specified IV/ctr using AES128-CTR.
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bytes encryptAES128CTR(bytesConstRef _k, h128 const& _iv, bytesConstRef _plain);
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/// Decrypts payload with specified IV/ctr using AES128-CTR.
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bytesSec decryptAES128CTR(bytesConstRef _k, h128 const& _iv, bytesConstRef _cipher);
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/// Encrypts payload with specified IV/ctr using AES128-CTR.
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inline bytes encryptSymNoAuth(SecureFixedHash<16> const& _k, h128 const& _iv, bytesConstRef _plain) { return encryptAES128CTR(_k.ref(), _iv, _plain); }
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inline bytes encryptSymNoAuth(SecureFixedHash<32> const& _k, h128 const& _iv, bytesConstRef _plain) { return encryptAES128CTR(_k.ref(), _iv, _plain); }
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/// Decrypts payload with specified IV/ctr using AES128-CTR.
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inline bytesSec decryptSymNoAuth(SecureFixedHash<16> const& _k, h128 const& _iv, bytesConstRef _cipher) { return decryptAES128CTR(_k.ref(), _iv, _cipher); }
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inline bytesSec decryptSymNoAuth(SecureFixedHash<32> const& _k, h128 const& _iv, bytesConstRef _cipher) { return decryptAES128CTR(_k.ref(), _iv, _cipher); }
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/// Recovers Public key from signed message hash.
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Public recover(Signature const& _sig, h256 const& _hash);
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/// Returns siganture of message hash.
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Signature sign(Secret const& _k, h256 const& _hash);
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/// Verify signature.
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bool verify(Public const& _k, Signature const& _s, h256 const& _hash);
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/// Derive key via PBKDF2.
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bytesSec pbkdf2(std::string const& _pass, bytes const& _salt, unsigned _iterations, unsigned _dkLen = 32);
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/// Derive key via Scrypt.
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bytesSec scrypt(std::string const& _pass, bytes const& _salt, uint64_t _n, uint32_t _r, uint32_t _p, unsigned _dkLen);
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/// Simple class that represents a "key pair".
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/// All of the data of the class can be regenerated from the secret key (m_secret) alone.
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/// Actually stores a tuplet of secret, public and address (the right 160-bits of the public).
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class KeyPair
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{
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public:
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/// Null constructor.
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KeyPair() {}
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/// Normal constructor - populates object from the given secret key.
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KeyPair(Secret const& _k) { populateFromSecret(_k); }
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/// Create a new, randomly generated object.
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static KeyPair create();
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/// Create from an encrypted seed.
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static KeyPair fromEncryptedSeed(bytesConstRef _seed, std::string const& _password);
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/// Retrieve the secret key.
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Secret const& secret() const { return m_secret; }
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/// Retrieve the secret key.
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Secret const& sec() const { return m_secret; }
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/// Retrieve the public key.
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Public const& pub() const { return m_public; }
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/// Retrieve the associated address of the public key.
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Address const& address() const { return m_address; }
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bool operator==(KeyPair const& _c) const { return m_public == _c.m_public; }
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bool operator!=(KeyPair const& _c) const { return m_public != _c.m_public; }
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private:
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void populateFromSecret(Secret const& _k);
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Secret m_secret;
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Public m_public;
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Address m_address;
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};
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namespace crypto
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{
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DEV_SIMPLE_EXCEPTION(InvalidState);
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/// Key derivation
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h256 kdf(Secret const& _priv, h256 const& _hash);
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/**
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* @brief Generator for non-repeating nonce material.
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* The Nonce class should only be used when a non-repeating nonce
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* is required and, in its current form, not recommended for signatures.
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* This is primarily because the key-material for signatures is
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* encrypted on disk whereas the seed for Nonce is not.
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* Thus, Nonce's primary intended use at this time is for networking
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* where the key is also stored in plaintext.
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*/
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class Nonce
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{
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public:
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/// Returns the next nonce (might be read from a file).
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static Secret get() { static Nonce s; return s.next(); }
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private:
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Nonce() = default;
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/// @returns the next nonce.
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Secret next();
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std::mutex x_value;
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Secret m_value;
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};
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}
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}
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