2013-07-04 20:56:19 +00:00
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/*
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* ZeroTier One - Global Peer to Peer Ethernet
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* Copyright (C) 2012-2013 ZeroTier Networks LLC
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*
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* This program 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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*
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* This program 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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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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* --
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*
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* ZeroTier may be used and distributed under the terms of the GPLv3, which
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* are available at: http://www.gnu.org/licenses/gpl-3.0.html
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*
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* If you would like to embed ZeroTier into a commercial application or
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* redistribute it in a modified binary form, please contact ZeroTier Networks
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* LLC. Start here: http://www.zerotier.com/
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*/
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#ifndef _ZT_IDENTITY_HPP
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#define _ZT_IDENTITY_HPP
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#include <stdio.h>
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#include <stdlib.h>
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#include <string>
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#include "EllipticCurveKey.hpp"
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#include "EllipticCurveKeyPair.hpp"
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#include "Array.hpp"
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#include "Utils.hpp"
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#include "Address.hpp"
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#include "Buffer.hpp"
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/**
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* Maximum length for a serialized identity
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*/
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#define IDENTITY_MAX_BINARY_SERIALIZED_LENGTH ((ZT_EC_MAX_BYTES * 2) + 256)
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namespace ZeroTier {
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/**
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* A ZeroTier identity
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*
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* An identity consists of a public key, a 40-bit ZeroTier address computed
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* from that key in a collision-resistant fashion, and a self-signature.
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*
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* The address derivation algorithm makes it computationally very expensive to
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* search for a different public key that duplicates an existing address. (See
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* code for deriveAddress() for this algorithm.)
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*
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* After derivation, the address must be checked against isReserved(). If the
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* address is reserved, generation is repeated until a valid address results.
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*
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* Serialization of an identity:
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*
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* <[5] address> - 40-bit ZeroTier network address
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* <[1] type> - Identity type ID (rest is type-dependent)
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* <[1] key length> - Length of public key
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* <[n] public key> - Elliptic curve public key
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* <[1] sig length> - Length of ECDSA self-signature
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* <[n] signature> - ECDSA signature of first four fields
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* [<[1] key length>] - [Optional] Length of private key
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* [<[n] private key>] - [Optional] Private key
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*
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* Local storage of an identity also requires storage of its private key.
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*/
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class Identity
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{
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public:
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/**
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* Identity types
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*/
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enum Type
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{
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/* Elliptic curve NIST-P-521 and ECDSA signature */
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IDENTITY_TYPE_NIST_P_521 = 1
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/* We won't need another identity type until quantum computers with
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* tens of thousands of qubits are a reality. */
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};
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Identity() :
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_keyPair((EllipticCurveKeyPair *)0)
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{
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}
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Identity(const Identity &id) :
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_keyPair((id._keyPair) ? new EllipticCurveKeyPair(*id._keyPair) : (EllipticCurveKeyPair *)0),
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_publicKey(id._publicKey),
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_address(id._address),
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_signature(id._signature)
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{
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}
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Identity(const char *str)
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throw(std::invalid_argument) :
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_keyPair((EllipticCurveKeyPair *)0)
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{
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if (!fromString(str))
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throw std::invalid_argument(std::string("invalid string-serialized identity: ") + str);
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2013-07-04 20:56:19 +00:00
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}
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Identity(const std::string &str)
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throw(std::invalid_argument) :
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_keyPair((EllipticCurveKeyPair *)0)
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{
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if (!fromString(str))
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2013-08-02 18:25:23 +00:00
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throw std::invalid_argument(std::string("invalid string-serialized identity: ") + str);
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2013-07-04 20:56:19 +00:00
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}
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template<unsigned int C>
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Identity(const Buffer<C> &b,unsigned int startAt = 0)
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throw(std::out_of_range,std::invalid_argument) :
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_keyPair((EllipticCurveKeyPair *)0)
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{
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deserialize(b,startAt);
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}
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~Identity()
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{
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delete _keyPair;
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}
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inline Identity &operator=(const Identity &id)
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{
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_keyPair = (id._keyPair) ? new EllipticCurveKeyPair(*id._keyPair) : (EllipticCurveKeyPair *)0;
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_publicKey = id._publicKey;
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_address = id._address;
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_signature = id._signature;
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return *this;
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}
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/**
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* Generate a new identity (address, key pair)
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*
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* This is a somewhat time consuming operation by design, as the address
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* is derived from the key using a purposefully expensive many-round
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* hash/encrypt/hash operation. This took about two seconds on a 2.4ghz
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* Intel Core i5 in 2013.
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*
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* In the very unlikely event that a reserved address is created, generate
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* will automatically run again.
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*/
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void generate();
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/**
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* Performs local validation, with two levels available
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*
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* With the parameter false, this performs self-signature verification
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* which checks the basic integrity of the key and identity. Setting the
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* parameter to true performs a fairly time consuming computation to
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* check that the address was properly derived from the key. This is
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* normally not done unless a conflicting identity is received, in
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* which case the invalid identity is thrown out.
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*
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* @param doAddressDerivationCheck If true, do the time-consuming address check
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* @return True if validation check passes
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*/
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bool locallyValidate(bool doAddressDerivationCheck) const;
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/**
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* @return Private key pair or NULL if not included with this identity
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*/
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inline const EllipticCurveKeyPair *privateKeyPair() const throw() { return _keyPair; }
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/**
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* @return True if this identity has its private portion
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*/
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inline bool hasPrivate() const throw() { return (_keyPair); }
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/**
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* Shortcut method to perform key agreement with another identity
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*
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* This identity must have its private portion.
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*
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* @param id Identity to agree with
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* @param key Result parameter to fill with key bytes
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* @param klen Length of key in bytes
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* @return Was agreement successful?
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*/
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inline bool agree(const Identity &id,void *key,unsigned int klen) const
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{
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if ((id)&&(_keyPair))
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return _keyPair->agree(id._publicKey,(unsigned char *)key,klen);
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return false;
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}
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/**
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* Sign a hash with this identity's private key
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*
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* @param sha256 32-byte hash to sign
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* @return ECDSA signature or empty string on failure or if identity has no private portion
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*/
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inline std::string sign(const void *sha256) const
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{
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if (_keyPair)
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return _keyPair->sign(sha256);
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return std::string();
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}
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/**
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* Sign a block of data with this identity's private key
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*
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* This is a shortcut to SHA-256 hashing then signing.
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*
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* @param sha256 32-byte hash to sign
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* @return ECDSA signature or empty string on failure or if identity has no private portion
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*/
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inline std::string sign(const void *data,unsigned int len) const
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{
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if (_keyPair)
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return _keyPair->sign(data,len);
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return std::string();
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}
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/**
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* Verify something signed with this identity's public key
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*
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* @param sha256 32-byte hash to verify
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* @param sigbytes Signature bytes
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* @param siglen Length of signature
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* @return True if signature is valid
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*/
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inline bool verifySignature(const void *sha256,const void *sigbytes,unsigned int siglen) const
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{
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return EllipticCurveKeyPair::verify(sha256,_publicKey,sigbytes,siglen);
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}
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/**
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* Verify something signed with this identity's public key
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*
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* @param data Data to verify
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* @param len Length of data to verify
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* @param sigbytes Signature bytes
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* @param siglen Length of signature
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* @return True if signature is valid
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*/
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inline bool verifySignature(const void *data,unsigned int len,const void *sigbytes,unsigned int siglen) const
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{
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return EllipticCurveKeyPair::verify(data,len,_publicKey,sigbytes,siglen);
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}
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/**
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* @return Public key (available in all identities)
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*/
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inline const EllipticCurveKey &publicKey() const throw() { return _publicKey; }
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/**
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* @return Identity type
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*/
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inline Type type() const throw() { return IDENTITY_TYPE_NIST_P_521; }
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/**
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* @return This identity's address
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*/
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inline const Address &address() const throw() { return _address; }
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/**
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* Serialize this identity (binary)
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*
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* @param b Destination buffer to append to
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* @param includePrivate If true, include private key component (if present) (default: false)
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* @throws std::out_of_range Buffer too small
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*/
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template<unsigned int C>
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inline void serialize(Buffer<C> &b,bool includePrivate = false) const
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throw(std::out_of_range)
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{
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2013-07-25 17:24:39 +00:00
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_address.appendTo(b);
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b.append((unsigned char)IDENTITY_TYPE_NIST_P_521);
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b.append((unsigned char)(_publicKey.size() & 0xff));
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b.append(_publicKey.data(),_publicKey.size());
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b.append((unsigned char)(_signature.length() & 0xff));
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b.append(_signature);
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if ((includePrivate)&&(_keyPair)) {
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b.append((unsigned char)(_keyPair->priv().size() & 0xff));
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b.append(_keyPair->priv().data(),_keyPair->priv().size());
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} else b.append((unsigned char)0);
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}
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/**
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* Deserialize a binary serialized identity
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*
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* If an exception is thrown, the Identity object is left in an undefined
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* state and should not be used.
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*
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* @param b Buffer containing serialized data
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* @param startAt Index within buffer of serialized data (default: 0)
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* @return Length of serialized data read from buffer
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* @throws std::out_of_range Buffer too small
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* @throws std::invalid_argument Serialized data invalid
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*/
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template<unsigned int C>
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inline unsigned int deserialize(const Buffer<C> &b,unsigned int startAt = 0)
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throw(std::out_of_range,std::invalid_argument)
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{
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delete _keyPair;
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_keyPair = (EllipticCurveKeyPair *)0;
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unsigned int p = startAt;
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2013-07-29 20:18:29 +00:00
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_address.setTo(b.field(p,ZT_ADDRESS_LENGTH),ZT_ADDRESS_LENGTH);
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p += ZT_ADDRESS_LENGTH;
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if (b[p++] != IDENTITY_TYPE_NIST_P_521)
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throw std::invalid_argument("Identity: deserialize(): unsupported identity type");
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unsigned int publicKeyLength = b[p++];
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if (!publicKeyLength)
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throw std::invalid_argument("Identity: deserialize(): no public key");
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_publicKey.set(b.field(p,publicKeyLength),publicKeyLength);
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p += publicKeyLength;
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unsigned int signatureLength = b[p++];
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if (!signatureLength)
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throw std::invalid_argument("Identity: deserialize(): no signature");
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_signature.assign((const char *)b.field(p,signatureLength),signatureLength);
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p += signatureLength;
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unsigned int privateKeyLength = b[p++];
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if (privateKeyLength) {
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_keyPair = new EllipticCurveKeyPair(_publicKey,EllipticCurveKey(b.field(p,privateKeyLength),privateKeyLength));
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p += privateKeyLength;
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}
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return (p - startAt);
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}
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/**
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* Serialize to a more human-friendly string
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*
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* @param includePrivate If true, include private key (if it exists)
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* @return ASCII string representation of identity
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*/
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std::string toString(bool includePrivate) const;
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/**
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* Deserialize a human-friendly string
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*
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* Note: validation is for the format only. The locallyValidate() method
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* must be used to check signature and address/key correspondence.
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*
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* @param str String to deserialize
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* @return True if deserialization appears successful
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*/
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bool fromString(const char *str);
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inline bool fromString(const std::string &str) { return fromString(str.c_str()); }
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/**
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* @return True if this identity contains something
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*/
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inline operator bool() const throw() { return (_publicKey.size()); }
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inline bool operator==(const Identity &id) const
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throw()
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{
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if (_address == id._address) {
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if ((_keyPair)&&(id._keyPair))
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return (*_keyPair == *id._keyPair);
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return (_publicKey == id._publicKey);
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}
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return false;
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}
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inline bool operator<(const Identity &id) const
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throw()
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{
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if (_address < id._address)
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return true;
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else if (_address == id._address)
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return (_publicKey < id._publicKey);
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return false;
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}
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inline bool operator!=(const Identity &id) const throw() { return !(*this == id); }
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inline bool operator>(const Identity &id) const throw() { return (id < *this); }
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inline bool operator<=(const Identity &id) const throw() { return !(id < *this); }
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inline bool operator>=(const Identity &id) const throw() { return !(*this < id); }
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private:
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// Compute an address from public key bytes
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static Address deriveAddress(const void *keyBytes,unsigned int keyLen);
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EllipticCurveKeyPair *_keyPair;
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EllipticCurveKey _publicKey;
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Address _address;
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std::string _signature;
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};
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} // namespace ZeroTier
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#endif
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