2010-07-14 17:54:31 +02:00
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// Copyright (c) 2009-2010 Satoshi Nakamoto
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2013-05-01 06:52:05 +02:00
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// Copyright (c) 2009-2013 The Bitcoin developers
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2010-07-14 17:54:31 +02:00
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// Distributed under the MIT/X11 software license, see the accompanying
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2012-05-18 16:02:28 +02:00
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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2013-04-13 07:13:08 +02:00
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2011-05-15 09:11:04 +02:00
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#ifndef BITCOIN_KEY_H
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#define BITCOIN_KEY_H
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2010-07-14 17:54:31 +02:00
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2012-04-17 20:37:47 +02:00
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#include "allocators.h"
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2013-04-13 07:13:08 +02:00
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#include "hash.h"
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2012-05-14 19:07:52 +02:00
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#include "serialize.h"
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2011-06-26 16:11:56 +02:00
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#include "uint256.h"
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2013-04-13 07:13:08 +02:00
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#include <stdexcept>
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#include <vector>
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2011-06-26 16:11:56 +02:00
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2010-07-14 17:54:31 +02:00
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// secp256k1:
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// const unsigned int PRIVATE_KEY_SIZE = 279;
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// const unsigned int PUBLIC_KEY_SIZE = 65;
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// const unsigned int SIGNATURE_SIZE = 72;
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//
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// see www.keylength.com
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// script supports up to 75 for single byte push
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2012-05-14 23:44:52 +02:00
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/** A reference to a CKey: the Hash160 of its serialized public key */
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class CKeyID : public uint160
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{
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public:
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CKeyID() : uint160(0) { }
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CKeyID(const uint160 &in) : uint160(in) { }
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};
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/** A reference to a CScript: the Hash160 of its serialization (see script.h) */
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class CScriptID : public uint160
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{
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public:
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CScriptID() : uint160(0) { }
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CScriptID(const uint160 &in) : uint160(in) { }
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};
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/** An encapsulated public key. */
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2012-05-14 19:07:52 +02:00
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class CPubKey {
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private:
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// Just store the serialized data.
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// Its length can very cheaply be computed from the first byte.
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2013-04-30 21:56:04 +02:00
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unsigned char vch[65];
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2013-05-01 06:52:05 +02:00
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// Compute the length of a pubkey with a given first byte.
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unsigned int static GetLen(unsigned char chHeader) {
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if (chHeader == 2 || chHeader == 3)
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return 33;
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if (chHeader == 4 || chHeader == 6 || chHeader == 7)
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return 65;
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return 0;
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}
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2013-05-01 06:52:05 +02:00
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// Set this key data to be invalid
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void Invalidate() {
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vch[0] = 0xFF;
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}
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public:
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// Construct an invalid public key.
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CPubKey() {
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Invalidate();
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}
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2013-05-01 06:52:05 +02:00
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// Initialize a public key using begin/end iterators to byte data.
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template<typename T>
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void Set(const T pbegin, const T pend) {
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int len = pend == pbegin ? 0 : GetLen(pbegin[0]);
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if (len && len == (pend-pbegin))
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memcpy(vch, (unsigned char*)&pbegin[0], len);
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else
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Invalidate();
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}
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2013-05-01 06:52:05 +02:00
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// Construct a public key using begin/end iterators to byte data.
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template<typename T>
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CPubKey(const T pbegin, const T pend) {
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Set(pbegin, pend);
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}
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2012-05-14 19:07:52 +02:00
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2013-05-01 06:52:05 +02:00
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// Construct a public key from a byte vector.
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CPubKey(const std::vector<unsigned char> &vch) {
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Set(vch.begin(), vch.end());
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}
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2013-05-04 16:10:09 +02:00
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// Simple read-only vector-like interface to the pubkey data.
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unsigned int size() const { return GetLen(vch[0]); }
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const unsigned char *begin() const { return vch; }
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const unsigned char *end() const { return vch+size(); }
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const unsigned char &operator[](unsigned int pos) const { return vch[pos]; }
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// Comparator implementation.
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friend bool operator==(const CPubKey &a, const CPubKey &b) {
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return a.vch[0] == b.vch[0] &&
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memcmp(a.vch, b.vch, a.size()) == 0;
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}
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friend bool operator!=(const CPubKey &a, const CPubKey &b) {
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return !(a == b);
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}
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friend bool operator<(const CPubKey &a, const CPubKey &b) {
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return a.vch[0] < b.vch[0] ||
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(a.vch[0] == b.vch[0] && memcmp(a.vch, b.vch, a.size()) < 0);
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2013-04-30 21:56:04 +02:00
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}
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2013-05-01 06:52:05 +02:00
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// Implement serialization, as if this was a byte vector.
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unsigned int GetSerializeSize(int nType, int nVersion) const {
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return size() + 1;
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}
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template<typename Stream> void Serialize(Stream &s, int nType, int nVersion) const {
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unsigned int len = size();
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::WriteCompactSize(s, len);
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s.write((char*)vch, len);
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}
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template<typename Stream> void Unserialize(Stream &s, int nType, int nVersion) {
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2013-05-04 16:10:09 +02:00
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unsigned int len = ::ReadCompactSize(s);
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2013-04-30 21:56:04 +02:00
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if (len <= 65) {
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s.read((char*)vch, len);
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} else {
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// invalid pubkey, skip available data
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char dummy;
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while (len--)
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s.read(&dummy, 1);
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Invalidate();
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2013-04-30 21:56:04 +02:00
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}
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}
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2012-05-14 19:07:52 +02:00
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2013-05-01 06:52:05 +02:00
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// Get the KeyID of this public key (hash of its serialization)
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2012-05-14 23:44:52 +02:00
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CKeyID GetID() const {
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return CKeyID(Hash160(vch, vch+size()));
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2012-05-14 19:07:52 +02:00
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}
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2013-05-01 06:52:05 +02:00
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// Get the 256-bit hash of this public key.
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2012-05-14 19:07:52 +02:00
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uint256 GetHash() const {
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return Hash(vch, vch+size());
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2012-05-14 19:07:52 +02:00
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}
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2014-02-25 15:31:43 +01:00
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// Check syntactic correctness.
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//
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// Note that this is consensus critical as CheckSig() calls it!
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bool IsValid() const {
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return size() > 0;
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}
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2013-05-01 06:52:05 +02:00
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// fully validate whether this is a valid public key (more expensive than IsValid())
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bool IsFullyValid() const;
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// Check whether this is a compressed public key.
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2012-05-14 23:44:52 +02:00
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bool IsCompressed() const {
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return size() == 33;
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2012-05-14 23:44:52 +02:00
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}
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2013-05-01 06:52:05 +02:00
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// Verify a DER signature (~72 bytes).
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// If this public key is not fully valid, the return value will be false.
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bool Verify(const uint256 &hash, const std::vector<unsigned char>& vchSig) const;
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// Recover a public key from a compact signature.
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bool RecoverCompact(const uint256 &hash, const std::vector<unsigned char>& vchSig);
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// Turn this public key into an uncompressed public key.
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bool Decompress();
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2013-07-15 01:05:25 +02:00
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// Derive BIP32 child pubkey.
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bool Derive(CPubKey& pubkeyChild, unsigned char ccChild[32], unsigned int nChild, const unsigned char cc[32]) const;
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2012-05-14 19:07:52 +02:00
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};
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2010-07-14 17:54:31 +02:00
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2012-09-15 12:10:00 +02:00
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// secure_allocator is defined in allocators.h
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2011-11-07 00:05:42 +01:00
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// CPrivKey is a serialized private key, with all parameters included (279 bytes)
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2011-05-15 09:11:04 +02:00
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typedef std::vector<unsigned char, secure_allocator<unsigned char> > CPrivKey;
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2010-07-14 17:54:31 +02:00
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2013-05-01 06:52:05 +02:00
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/** An encapsulated private key. */
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class CKey {
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private:
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// Whether this private key is valid. We check for correctness when modifying the key
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// data, so fValid should always correspond to the actual state.
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bool fValid;
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2011-11-21 02:46:28 +01:00
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2013-05-01 06:52:05 +02:00
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// Whether the public key corresponding to this private key is (to be) compressed.
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bool fCompressed;
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// The actual byte data
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unsigned char vch[32];
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// Check whether the 32-byte array pointed to be vch is valid keydata.
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bool static Check(const unsigned char *vch);
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2010-07-14 17:54:31 +02:00
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public:
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2011-11-21 02:46:28 +01:00
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2013-05-01 06:52:05 +02:00
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// Construct an invalid private key.
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CKey() : fValid(false) {
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LockObject(vch);
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}
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2010-07-14 17:54:31 +02:00
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2013-05-01 06:52:05 +02:00
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// Copy constructor. This is necessary because of memlocking.
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CKey(const CKey &secret) : fValid(secret.fValid), fCompressed(secret.fCompressed) {
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LockObject(vch);
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memcpy(vch, secret.vch, sizeof(vch));
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}
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2011-11-21 02:46:28 +01:00
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2013-05-01 06:52:05 +02:00
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// Destructor (again necessary because of memlocking).
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~CKey() {
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UnlockObject(vch);
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}
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2010-07-14 17:54:31 +02:00
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2013-07-15 01:05:25 +02:00
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friend bool operator==(const CKey &a, const CKey &b) {
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2013-10-28 11:20:26 +01:00
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return a.fCompressed == b.fCompressed && a.size() == b.size() &&
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memcmp(&a.vch[0], &b.vch[0], a.size()) == 0;
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2013-07-15 01:05:25 +02:00
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}
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2013-05-01 06:52:05 +02:00
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// Initialize using begin and end iterators to byte data.
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template<typename T>
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void Set(const T pbegin, const T pend, bool fCompressedIn) {
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if (pend - pbegin != 32) {
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fValid = false;
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return;
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}
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if (Check(&pbegin[0])) {
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memcpy(vch, (unsigned char*)&pbegin[0], 32);
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fValid = true;
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fCompressed = fCompressedIn;
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} else {
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fValid = false;
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}
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}
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// Simple read-only vector-like interface.
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unsigned int size() const { return (fValid ? 32 : 0); }
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const unsigned char *begin() const { return vch; }
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const unsigned char *end() const { return vch + size(); }
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// Check whether this private key is valid.
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bool IsValid() const { return fValid; }
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2010-07-14 17:54:31 +02:00
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2013-05-01 06:52:05 +02:00
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// Check whether the public key corresponding to this private key is (to be) compressed.
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bool IsCompressed() const { return fCompressed; }
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2011-06-25 14:57:32 +02:00
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2013-05-01 06:52:05 +02:00
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// Initialize from a CPrivKey (serialized OpenSSL private key data).
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bool SetPrivKey(const CPrivKey &vchPrivKey, bool fCompressed);
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// Generate a new private key using a cryptographic PRNG.
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2012-05-16 18:36:38 +02:00
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void MakeNewKey(bool fCompressed);
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2013-05-01 06:52:05 +02:00
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// Convert the private key to a CPrivKey (serialized OpenSSL private key data).
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// This is expensive.
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2012-05-16 18:36:38 +02:00
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CPrivKey GetPrivKey() const;
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// Compute the public key from a private key.
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// This is expensive.
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2012-05-14 19:07:52 +02:00
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CPubKey GetPubKey() const;
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2011-06-25 14:57:32 +02:00
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2013-05-01 06:52:05 +02:00
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// Create a DER-serialized signature.
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bool Sign(const uint256 &hash, std::vector<unsigned char>& vchSig) const;
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2010-07-14 17:54:31 +02:00
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2013-05-01 06:52:05 +02:00
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// Create a compact signature (65 bytes), which allows reconstructing the used public key.
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2011-11-07 00:05:42 +01:00
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// The format is one header byte, followed by two times 32 bytes for the serialized r and s values.
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// The header byte: 0x1B = first key with even y, 0x1C = first key with odd y,
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2013-05-01 06:52:05 +02:00
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// 0x1D = second key with even y, 0x1E = second key with odd y,
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// add 0x04 for compressed keys.
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bool SignCompact(const uint256 &hash, std::vector<unsigned char>& vchSig) const;
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2013-07-15 01:05:25 +02:00
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// Derive BIP32 child key.
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bool Derive(CKey& keyChild, unsigned char ccChild[32], unsigned int nChild, const unsigned char cc[32]) const;
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2013-10-28 11:20:26 +01:00
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2013-08-29 08:53:26 +02:00
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// Load private key and check that public key matches.
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2013-10-28 11:20:26 +01:00
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bool Load(CPrivKey &privkey, CPubKey &vchPubKey, bool fSkipCheck);
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2014-02-07 02:19:48 +01:00
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// Check whether an element of a signature (r or s) is valid.
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static bool CheckSignatureElement(const unsigned char *vch, int len, bool half);
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2013-07-15 01:05:25 +02:00
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};
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struct CExtPubKey {
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unsigned char nDepth;
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unsigned char vchFingerprint[4];
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unsigned int nChild;
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unsigned char vchChainCode[32];
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CPubKey pubkey;
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friend bool operator==(const CExtPubKey &a, const CExtPubKey &b) {
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return a.nDepth == b.nDepth && memcmp(&a.vchFingerprint[0], &b.vchFingerprint[0], 4) == 0 && a.nChild == b.nChild &&
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memcmp(&a.vchChainCode[0], &b.vchChainCode[0], 32) == 0 && a.pubkey == b.pubkey;
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}
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void Encode(unsigned char code[74]) const;
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void Decode(const unsigned char code[74]);
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bool Derive(CExtPubKey &out, unsigned int nChild) const;
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};
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struct CExtKey {
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unsigned char nDepth;
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unsigned char vchFingerprint[4];
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unsigned int nChild;
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unsigned char vchChainCode[32];
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CKey key;
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friend bool operator==(const CExtKey &a, const CExtKey &b) {
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return a.nDepth == b.nDepth && memcmp(&a.vchFingerprint[0], &b.vchFingerprint[0], 4) == 0 && a.nChild == b.nChild &&
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memcmp(&a.vchChainCode[0], &b.vchChainCode[0], 32) == 0 && a.key == b.key;
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}
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void Encode(unsigned char code[74]) const;
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void Decode(const unsigned char code[74]);
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bool Derive(CExtKey &out, unsigned int nChild) const;
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CExtPubKey Neuter() const;
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void SetMaster(const unsigned char *seed, unsigned int nSeedLen);
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2010-07-14 17:54:31 +02:00
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};
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2011-05-15 09:11:04 +02:00
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#endif
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