// Copyright (c) 2021, The Monero Project // // All rights reserved. // // Redistribution and use in source and binary forms, with or without modification, are // permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, this list of // conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright notice, this list // of conditions and the following disclaimer in the documentation and/or other // materials provided with the distribution. // // 3. Neither the name of the copyright holder nor the names of its contributors may be // used to endorse or promote products derived from this software without specific // prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL // THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, // STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF // THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #pragma once #include "crypto/crypto.h" #include "multisig_kex_msg.h" #include #include #include #include #include namespace multisig { /** * multisig account: * * - handles account keys for an M-of-N multisig participant (M <= N; M >= 1; N >= 2) * - encapsulates multisig account construction process (via key exchange [kex]) * - TODO: encapsulates key preparation for aggregation-style signing * * :: multisig pubkey: the private key is split, M group participants are required to reassemble (e.g. to sign something) * - in cryptonote, this is the multisig spend key * :: multisig common pubkey: the private key is known to all participants (e.g. for authenticating as a group member) * - in cryptonote, this is the multisig view key * * * multisig key exchange: * * An 'M-of-N' (M <= N; M >= 1; N >= 2) multisignature key is a public key where at least 'M' out of 'N' * possible co-signers must collaborate in order to create a signature. * * Constructing a multisig key involves a series of Diffie-Hellman exchanges between participants. * At the end of key exchange (kex), each participant will hold a number of private keys. Each private * key is shared by a group of (N - M + 1) participants. This way if (N - M) co-signers are missing, every * private key will be held by at least one of the remaining M people. * * Note on MULTISIG_MAX_SIGNERS: During key exchange, participants will have up to '(N - 1) choose (N - M)' * key shares. If N is large, then the max number of key shares (when M = (N-1)/2) can be huge. A limit of N <= 16 was * arbitrarily chosen as a power of 2 that can accomodate the vast majority of practical use-cases. To increase the * limit, FROST-style key aggregation should be used instead (it is more efficient than DH-based key generation * when N - M > 1). * * - Further reading * - MRL-0009: https://www.getmonero.org/resources/research-lab/pubs/MRL-0009.pdf * - MuSig2: https://eprint.iacr.org/2020/1261 * - ZtM2: https://web.getmonero.org/library/Zero-to-Monero-2-0-0.pdf Ch. 9, especially Section 9.6.3 * - FROST: https://eprint.iacr.org/2018/417 */ class multisig_account final { public: //member types using kex_origins_map_t = std::unordered_map>; //constructors // default constructor multisig_account() = default; /** * construct from base privkeys * * - prepares a kex msg for the first round of multisig key construction. * - the local account's kex msgs are signed with the base_privkey * - the first kex msg transmits the local base_common_privkey to other participants, for creating the group's common_privkey */ multisig_account(const crypto::secret_key &base_privkey, const crypto::secret_key &base_common_privkey); // reconstruct from full account details (not recommended) multisig_account(const std::uint32_t threshold, std::vector signers, const crypto::secret_key &base_privkey, const crypto::secret_key &base_common_privkey, std::vector multisig_privkeys, const crypto::secret_key &common_privkey, const crypto::public_key &multisig_pubkey, const crypto::public_key &common_pubkey, const std::uint32_t kex_rounds_complete, kex_origins_map_t kex_origins_map, std::string next_round_kex_message); // copy constructor: default //destructor: default ~multisig_account() = default; //overloaded operators: none //getters // get threshold std::uint32_t get_threshold() const { return m_threshold; } // get signers const std::vector& get_signers() const { return m_signers; } // get base privkey const crypto::secret_key& get_base_privkey() const { return m_base_privkey; } // get base pubkey const crypto::public_key& get_base_pubkey() const { return m_base_pubkey; } // get base common privkey const crypto::secret_key& get_base_common_privkey() const { return m_base_common_privkey; } // get multisig privkeys const std::vector& get_multisig_privkeys() const { return m_multisig_privkeys; } // get common privkey const crypto::secret_key& get_common_privkey() const { return m_common_privkey; } // get multisig pubkey const crypto::public_key& get_multisig_pubkey() const { return m_multisig_pubkey; } // get common pubkey const crypto::public_key& get_common_pubkey() const { return m_common_pubkey; } // get kex rounds complete std::uint32_t get_kex_rounds_complete() const { return m_kex_rounds_complete; } // get kex keys to origins map const kex_origins_map_t& get_kex_keys_to_origins_map() const { return m_kex_keys_to_origins_map; } // get the kex msg for the next round const std::string& get_next_kex_round_msg() const { return m_next_round_kex_message; } //account status functions // account has been intialized, and the account holder can use the 'common' key bool account_is_active() const; // account is ready to make multisig signatures bool multisig_is_ready() const; //account helpers private: // set the threshold (M) and signers (N) void set_multisig_config(const std::size_t threshold, std::vector signers); //account mutators: key exchange to set up account public: /** * brief: initialize_kex - initialize key exchange * - Updates the account with a 'transactional' model. This account will only be mutated if the update succeeds. */ void initialize_kex(const std::uint32_t threshold, std::vector signers, const std::vector &expanded_msgs_rnd1); /** * brief: kex_update - Complete the 'in progress' kex round and set the kex message for the next round. * - Updates the account with a 'transactional' model. This account will only be mutated if the update succeeds. * - The main interface for multisig key exchange, this handles all the work of processing input messages, * creating new messages for new rounds, and finalizing the multisig shared public key when kex is complete. * param: expanded_msgs - kex messages corresponding to the account's 'in progress' round */ void kex_update(const std::vector &expanded_msgs); private: // implementation of kex_update() (non-transactional) void kex_update_impl(const std::vector &expanded_msgs); /** * brief: initialize_kex_update - Helper for kex_update_impl() * - Collect the local signer's shared keys to ignore in incoming messages, build the aggregate ancillary key * if appropriate. * param: expanded_msgs - set of multisig kex messages to process * param: rounds_required - number of rounds required for kex * outparam: exclude_pubkeys_out - keys held by the local account corresponding to round 'current_round' * - If 'current_round' is the final round, these are the local account's shares of the final aggregate key. */ void initialize_kex_update(const std::vector &expanded_msgs, const std::uint32_t rounds_required, std::vector &exclude_pubkeys_out); /** * brief: finalize_kex_update - Helper for kex_update_impl() * param: rounds_required - number of rounds required for kex * param: result_keys_to_origins_map - map between keys for the next round and the other participants they correspond to * inoutparam: temp_account_inout - account to perform last update steps on */ void finalize_kex_update(const std::uint32_t rounds_required, kex_origins_map_t result_keys_to_origins_map); //member variables private: /// misc. account details // [M] minimum number of co-signers to sign a message with the aggregate pubkey std::uint32_t m_threshold{0}; // [N] base keys of all participants in the multisig (used to initiate key exchange, and as participant ids for msg signing) std::vector m_signers; /// local participant's personal keys // base keypair of the participant // - used for signing messages, as the initial base key for key exchange, and to make DH derivations for key exchange crypto::secret_key m_base_privkey; crypto::public_key m_base_pubkey; // common base privkey, used to produce the aggregate common privkey crypto::secret_key m_base_common_privkey; /// core multisig account keys // the account's private key shares of the multisig address // TODO: also record which other signers have these privkeys, to enable aggregation signing (instead of round-robin) std::vector m_multisig_privkeys; // a privkey owned by all multisig participants (e.g. a cryptonote view key) crypto::secret_key m_common_privkey; // the multisig public key (e.g. a cryptonote spend key) crypto::public_key m_multisig_pubkey; // the common public key (e.g. a view spend key) crypto::public_key m_common_pubkey; /// kex variables // number of key exchange rounds that have been completed (all messages for the round collected and processed) std::uint32_t m_kex_rounds_complete{0}; // this account's pubkeys for the in-progress key exchange round // - either DH derivations (intermediate rounds), H(derivation)*G (final round), empty (when kex is done) kex_origins_map_t m_kex_keys_to_origins_map; // the account's message for the in-progress key exchange round std::string m_next_round_kex_message; }; /** * brief: multisig_kex_rounds_required - The number of key exchange rounds required to produce an M-of-N shared key. * - Key exchange (kex) is a synchronous series of 'rounds'. In an 'active round', participants send messages * to each other. * - A participant considers a round 'complete' when they have collected sufficient messages * from other participants, processed those messages, and updated their multisig account state. * - Typically (as implemented in this module), completing a round coincides with making a message for the next round. * param: num_signers - number of participants in multisig (N) * param: threshold - threshold of multisig (M) * return: number of kex rounds required */ std::uint32_t multisig_kex_rounds_required(const std::uint32_t num_signers, const std::uint32_t threshold); } //namespace multisig