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https://github.com/monero-project/monero.git
synced 2024-10-01 11:49:47 -04:00
derive multisig tx secret keys from an entropy source plus the tx inputs' key images
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parent
cfdee9ba69
commit
edcc094558
@ -246,6 +246,8 @@ namespace config
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const unsigned char HASH_KEY_CLSAG_AGG_1[] = "CLSAG_agg_1";
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const char HASH_KEY_MESSAGE_SIGNING[] = "MoneroMessageSignature";
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const unsigned char HASH_KEY_MM_SLOT = 'm';
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const constexpr char HASH_KEY_MULTISIG_TX_PRIVKEYS_SEED[] = "multisig_tx_privkeys_seed";
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const constexpr char HASH_KEY_MULTISIG_TX_PRIVKEYS[] = "multisig_tx_privkeys";
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// Multisig
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const uint32_t MULTISIG_MAX_SIGNERS{16};
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@ -34,6 +34,7 @@
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#include "cryptonote_basic/cryptonote_basic.h"
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#include "cryptonote_basic/account.h"
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#include "cryptonote_basic/cryptonote_format_utils.h"
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#include "cryptonote_config.h"
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#include "cryptonote_core/cryptonote_tx_utils.h"
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#include "device/device.hpp"
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#include "multisig_clsag_context.h"
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@ -47,6 +48,7 @@
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#include <cstring>
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#include <limits>
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#include <set>
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#include <string>
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#include <unordered_map>
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#include <unordered_set>
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#include <vector>
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@ -242,6 +244,80 @@ static bool set_tx_extra(
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}
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//----------------------------------------------------------------------------------------------------------------------
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//----------------------------------------------------------------------------------------------------------------------
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static void make_tx_secret_key_seed(const crypto::secret_key& tx_secret_key_entropy,
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const std::vector<cryptonote::tx_source_entry>& sources,
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crypto::secret_key& tx_secret_key_seed)
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{
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// seed = H(H("domain separator"), entropy, {KI})
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static const std::string domain_separator{config::HASH_KEY_MULTISIG_TX_PRIVKEYS_SEED};
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rct::keyV hash_context;
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hash_context.reserve(2 + sources.size());
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auto hash_context_wiper = epee::misc_utils::create_scope_leave_handler([&]{
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memwipe(hash_context.data(), hash_context.size());
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});
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hash_context.emplace_back();
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rct::cn_fast_hash(hash_context.back(), domain_separator.data(), domain_separator.size()); //domain sep
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hash_context.emplace_back(rct::sk2rct(tx_secret_key_entropy)); //entropy
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for (const cryptonote::tx_source_entry& source : sources)
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hash_context.emplace_back(source.multisig_kLRki.ki); //{KI}
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// set the seed
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tx_secret_key_seed = rct::rct2sk(rct::cn_fast_hash(hash_context));
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}
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//----------------------------------------------------------------------------------------------------------------------
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//----------------------------------------------------------------------------------------------------------------------
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static void make_tx_secret_keys(const crypto::secret_key& tx_secret_key_seed,
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const std::size_t num_tx_keys,
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std::vector<crypto::secret_key>& tx_secret_keys)
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{
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// make tx secret keys as a hash chain of the seed
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// h1 = H_n(seed || H("domain separator"))
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// h2 = H_n(seed || h1)
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// h3 = H_n(seed || h2)
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// ...
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static const std::string domain_separator{config::HASH_KEY_MULTISIG_TX_PRIVKEYS};
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rct::keyV hash_context;
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hash_context.resize(2);
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auto hash_context_wiper = epee::misc_utils::create_scope_leave_handler([&]{
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memwipe(hash_context.data(), hash_context.size());
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});
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hash_context[0] = rct::sk2rct(tx_secret_key_seed);
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rct::cn_fast_hash(hash_context[1], domain_separator.data(), domain_separator.size());
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tx_secret_keys.clear();
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tx_secret_keys.resize(num_tx_keys);
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for (crypto::secret_key& tx_secret_key : tx_secret_keys)
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{
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// advance the hash chain
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hash_context[1] = rct::hash_to_scalar(hash_context);
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// set this key
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tx_secret_key = rct::rct2sk(hash_context[1]);
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}
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}
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//----------------------------------------------------------------------------------------------------------------------
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//----------------------------------------------------------------------------------------------------------------------
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static bool collect_tx_secret_keys(const std::vector<crypto::secret_key>& tx_secret_keys,
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crypto::secret_key& tx_secret_key,
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std::vector<crypto::secret_key>& tx_aux_secret_keys)
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{
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if (tx_secret_keys.size() == 0)
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return false;
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tx_secret_key = tx_secret_keys[0];
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tx_aux_secret_keys.clear();
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tx_aux_secret_keys.reserve(tx_secret_keys.size() - 1);
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for (std::size_t tx_key_index{1}; tx_key_index < tx_secret_keys.size(); ++tx_key_index)
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tx_aux_secret_keys.emplace_back(tx_secret_keys[tx_key_index]);
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return true;
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}
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//----------------------------------------------------------------------------------------------------------------------
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//----------------------------------------------------------------------------------------------------------------------
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static bool compute_keys_for_destinations(
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const cryptonote::account_keys& account_keys,
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const std::uint32_t subaddr_account,
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@ -250,6 +326,7 @@ static bool compute_keys_for_destinations(
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const std::vector<std::uint8_t>& extra,
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const bool use_view_tags,
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const bool reconstruction,
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const crypto::secret_key& tx_secret_key_seed,
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crypto::secret_key& tx_secret_key,
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std::vector<crypto::secret_key>& tx_aux_secret_keys,
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rct::keyV& output_public_keys,
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@ -288,8 +365,35 @@ static bool compute_keys_for_destinations(
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unique_std_recipients.insert(dst_entr.addr);
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}
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if (not reconstruction) {
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tx_secret_key = rct::rct2sk(rct::skGen());
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// figure out how many tx secret keys are needed
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// - tx aux keys: add if there are > 1 non-change recipients, with at least one to a subaddress
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const std::size_t num_destinations = destinations.size();
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const bool need_tx_aux_keys = unique_subbaddr_recipients.size() + bool(unique_std_recipients.size()) > 1;
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const std::size_t num_tx_keys = 1 + (need_tx_aux_keys ? num_destinations : 0);
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// make tx secret keys
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std::vector<crypto::secret_key> all_tx_secret_keys;
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make_tx_secret_keys(tx_secret_key_seed, num_tx_keys, all_tx_secret_keys);
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// split up tx secret keys
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crypto::secret_key tx_secret_key_temp;
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std::vector<crypto::secret_key> tx_aux_secret_keys_temp;
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if (not collect_tx_secret_keys(all_tx_secret_keys, tx_secret_key_temp, tx_aux_secret_keys_temp))
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return false;
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if (reconstruction)
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{
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// when reconstructing, the tx secret keys should be reproducible from input seed
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if (!(tx_secret_key == tx_secret_key_temp))
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return false;
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if (!(tx_aux_secret_keys == tx_aux_secret_keys_temp))
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return false;
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}
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else
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{
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tx_secret_key = tx_secret_key_temp;
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tx_aux_secret_keys = std::move(tx_aux_secret_keys_temp);
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}
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// tx pub key: R
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@ -312,17 +416,6 @@ static bool compute_keys_for_destinations(
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}
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// additional tx pubkeys: R_t
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// - add if there are > 1 non-change recipients, with at least one to a subaddress
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const std::size_t num_destinations = destinations.size();
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const bool need_tx_aux_keys = unique_subbaddr_recipients.size() + bool(unique_std_recipients.size()) > 1;
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if (not reconstruction and need_tx_aux_keys) {
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tx_aux_secret_keys.clear();
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tx_aux_secret_keys.reserve(num_destinations);
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for(std::size_t i = 0; i < num_destinations; ++i)
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tx_aux_secret_keys.push_back(rct::rct2sk(rct::skGen()));
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}
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output_public_keys.resize(num_destinations);
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view_tags.resize(num_destinations);
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std::vector<crypto::public_key> tx_aux_public_keys;
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@ -738,6 +831,7 @@ bool tx_builder_ringct_t::init(
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const bool reconstruction,
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crypto::secret_key& tx_secret_key,
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std::vector<crypto::secret_key>& tx_aux_secret_keys,
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crypto::secret_key& tx_secret_key_entropy,
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cryptonote::transaction& unsigned_tx
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)
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{
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@ -765,6 +859,23 @@ bool tx_builder_ringct_t::init(
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// sort inputs
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sort_sources(sources);
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// prepare tx secret key seed (must be AFTER sorting sources)
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// - deriving the seed from sources plus entropy ensures uniqueness for every new tx attempt
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// - the goal is that two multisig txs added to the chain will never have outputs with the same onetime addresses,
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// which would burn funds (embedding the inputs' key images guarantees this)
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// - it is acceptable if two tx attempts use the same input set and entropy (only a malicious tx proposer will do
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// that, but all it can accomplish is leaking information about the recipients - which a malicious proposer can
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// easily do outside the signing ritual anyway)
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if (not reconstruction)
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tx_secret_key_entropy = rct::rct2sk(rct::skGen());
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// expect not null (note: wallet serialization code may set this to null if handling an old partial tx)
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if (tx_secret_key_entropy == crypto::null_skey)
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return false;
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crypto::secret_key tx_secret_key_seed;
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make_tx_secret_key_seed(tx_secret_key_entropy, sources, tx_secret_key_seed);
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// get secret keys for signing input CLSAGs (multisig: or for the initial partial signature)
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rct::keyV input_secret_keys;
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auto input_secret_keys_wiper = epee::misc_utils::create_scope_leave_handler([&]{
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@ -791,6 +902,7 @@ bool tx_builder_ringct_t::init(
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extra,
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use_view_tags,
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reconstruction,
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tx_secret_key_seed,
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tx_secret_key,
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tx_aux_secret_keys,
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output_public_keys,
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@ -921,6 +1033,7 @@ bool tx_builder_ringct_t::finalize_tx(
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cryptonote::transaction& unsigned_tx
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)
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{
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// checks
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const std::size_t num_sources = sources.size();
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if (num_sources != unsigned_tx.rct_signatures.p.CLSAGs.size())
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return false;
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@ -928,6 +1041,8 @@ bool tx_builder_ringct_t::finalize_tx(
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return false;
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if (num_sources != s.size())
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return false;
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// finalize tx signatures
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for (std::size_t i = 0; i < num_sources; ++i) {
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const std::size_t ring_size = unsigned_tx.rct_signatures.p.CLSAGs[i].s.size();
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if (sources[i].real_output >= ring_size)
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@ -935,6 +1050,7 @@ bool tx_builder_ringct_t::finalize_tx(
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unsigned_tx.rct_signatures.p.CLSAGs[i].s[sources[i].real_output] = s[i];
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unsigned_tx.rct_signatures.p.CLSAGs[i].c1 = c_0[i];
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}
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return true;
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}
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//----------------------------------------------------------------------------------------------------------------------
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@ -82,6 +82,7 @@ public:
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const bool reconstruction,
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crypto::secret_key& tx_secret_key,
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std::vector<crypto::secret_key>& tx_aux_secret_keys,
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crypto::secret_key& tx_secret_key_entropy,
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cryptonote::transaction& unsigned_tx
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);
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@ -7157,6 +7157,7 @@ bool wallet2::sign_multisig_tx(multisig_tx_set &exported_txs, std::vector<crypto
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true, //true = we are reconstructing the tx (it was first constructed by the tx proposer)
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ptx.tx_key,
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ptx.additional_tx_keys,
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ptx.multisig_tx_key_entropy,
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ptx.tx
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),
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error::wallet_internal_error,
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@ -9006,6 +9007,7 @@ void wallet2::transfer_selected_rct(std::vector<cryptonote::tx_destination_entry
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crypto::secret_key tx_key;
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std::vector<crypto::secret_key> additional_tx_keys;
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crypto::secret_key multisig_tx_key_entropy;
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LOG_PRINT_L2("constructing tx");
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auto sources_copy = sources;
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multisig::signing::tx_builder_ringct_t multisig_tx_builder;
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@ -9029,6 +9031,7 @@ void wallet2::transfer_selected_rct(std::vector<cryptonote::tx_destination_entry
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false,
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tx_key,
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additional_tx_keys,
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multisig_tx_key_entropy,
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tx
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),
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error::wallet_internal_error,
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@ -9155,6 +9158,7 @@ void wallet2::transfer_selected_rct(std::vector<cryptonote::tx_destination_entry
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ptx.additional_tx_keys = additional_tx_keys;
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ptx.dests = dsts;
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ptx.multisig_sigs = multisig_sigs;
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ptx.multisig_tx_key_entropy = multisig_tx_key_entropy;
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ptx.construction_data.sources = sources_copy;
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ptx.construction_data.change_dts = change_dts;
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ptx.construction_data.splitted_dsts = splitted_dsts;
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@ -632,10 +632,12 @@ private:
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std::vector<crypto::secret_key> additional_tx_keys;
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std::vector<cryptonote::tx_destination_entry> dests;
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std::vector<multisig_sig> multisig_sigs;
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crypto::secret_key multisig_tx_key_entropy;
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tx_construction_data construction_data;
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BEGIN_SERIALIZE_OBJECT()
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VERSION_FIELD(1)
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FIELD(tx)
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FIELD(dust)
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FIELD(fee)
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@ -648,6 +650,12 @@ private:
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FIELD(dests)
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FIELD(construction_data)
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FIELD(multisig_sigs)
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if (version < 1)
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{
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multisig_tx_key_entropy = crypto::null_skey;
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return true;
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}
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FIELD(multisig_tx_key_entropy)
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END_SERIALIZE()
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};
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@ -307,9 +307,10 @@ bool gen_multisig_tx_validation_base::generate_with(std::vector<test_event_entry
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transaction tx;
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crypto::secret_key tx_key;
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std::vector<crypto::secret_key> additional_tx_secret_keys;
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crypto::secret_key multisig_tx_key_entropy;
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auto sources_copy = sources;
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multisig::signing::tx_builder_ringct_t tx_builder;
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CHECK_AND_ASSERT_MES(tx_builder.init(miner_account[creator].get_keys(), {}, 0, 0, {0}, sources, destinations, {}, {rct::RangeProofPaddedBulletproof, 4}, true, false, tx_key, additional_tx_secret_keys, tx), false, "error: multisig::signing::tx_builder_t::init");
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CHECK_AND_ASSERT_MES(tx_builder.init(miner_account[creator].get_keys(), {}, 0, 0, {0}, sources, destinations, {}, {rct::RangeProofPaddedBulletproof, 4}, true, false, tx_key, additional_tx_secret_keys, multisig_tx_key_entropy, tx), false, "error: multisig::signing::tx_builder_ringct_t::init");
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// work out the permutation done on sources
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std::vector<size_t> ins_order;
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@ -398,7 +399,7 @@ bool gen_multisig_tx_validation_base::generate_with(std::vector<test_event_entry
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}
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tools::apply_permutation(ins_order, k);
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multisig::signing::tx_builder_ringct_t signer_tx_builder;
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CHECK_AND_ASSERT_MES(signer_tx_builder.init(miner_account[signer].get_keys(), {}, 0, 0, {0}, sources, destinations, {}, {rct::RangeProofPaddedBulletproof, 4}, true, true, tx_key, additional_tx_secret_keys, tx), false, "error: multisig::signing::tx_builder_t::init");
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CHECK_AND_ASSERT_MES(signer_tx_builder.init(miner_account[signer].get_keys(), {}, 0, 0, {0}, sources, destinations, {}, {rct::RangeProofPaddedBulletproof, 4}, true, true, tx_key, additional_tx_secret_keys, multisig_tx_key_entropy, tx), false, "error: multisig::signing::tx_builder_ringct_t::init");
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MDEBUG("signing with k size " << k.size());
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for (size_t n = 0; n < multisig::signing::kAlphaComponents; ++n)
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