wallet: better implementation of sweep_unmixable
This was still using the old transaction creation algorithm, coupled with a deterministic output selection scheme, which made it ill suited to the job, since it'd loop indefinitely in case the fee increased between the test tx and adding the fee.
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80c5de9fa0
commit
4e6d70808d
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@ -3662,23 +3662,8 @@ std::vector<wallet2::pending_tx> wallet2::create_transactions_all(const cryptono
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{
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{
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std::vector<size_t> unused_transfers_indices;
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std::vector<size_t> unused_transfers_indices;
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std::vector<size_t> unused_dust_indices;
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std::vector<size_t> unused_dust_indices;
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uint64_t accumulated_fee, accumulated_outputs, accumulated_change;
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struct TX {
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std::list<size_t> selected_transfers;
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std::vector<cryptonote::tx_destination_entry> dsts;
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cryptonote::transaction tx;
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pending_tx ptx;
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size_t bytes;
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};
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std::vector<TX> txes;
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uint64_t needed_fee, available_for_fee = 0;
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uint64_t upper_transaction_size_limit = get_upper_tranaction_size_limit();
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const bool use_rct = use_fork_rules(4, 0);
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const bool use_rct = use_fork_rules(4, 0);
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const bool use_new_fee = use_fork_rules(3, -720 * 14);
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const uint64_t fee_per_kb = use_new_fee ? FEE_PER_KB : FEE_PER_KB_OLD;
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const uint64_t fee_multiplier = get_fee_multiplier(priority, use_new_fee);
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// gather all our dust and non dust outputs
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// gather all our dust and non dust outputs
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for (size_t i = 0; i < m_transfers.size(); ++i)
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for (size_t i = 0; i < m_transfers.size(); ++i)
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{
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{
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@ -3691,6 +3676,29 @@ std::vector<wallet2::pending_tx> wallet2::create_transactions_all(const cryptono
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unused_dust_indices.push_back(i);
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unused_dust_indices.push_back(i);
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}
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}
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}
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}
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return create_transactions_from(address, unused_transfers_indices, unused_dust_indices, fake_outs_count, unlock_time, priority, extra, trusted_daemon);
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}
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std::vector<wallet2::pending_tx> wallet2::create_transactions_from(const cryptonote::account_public_address &address, std::vector<size_t> unused_transfers_indices, std::vector<size_t> unused_dust_indices, const size_t fake_outs_count, const uint64_t unlock_time, uint32_t priority, const std::vector<uint8_t> extra, bool trusted_daemon)
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{
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uint64_t accumulated_fee, accumulated_outputs, accumulated_change;
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struct TX {
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std::list<size_t> selected_transfers;
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std::vector<cryptonote::tx_destination_entry> dsts;
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cryptonote::transaction tx;
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pending_tx ptx;
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size_t bytes;
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};
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std::vector<TX> txes;
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uint64_t needed_fee, available_for_fee = 0;
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uint64_t upper_transaction_size_limit = get_upper_tranaction_size_limit();
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const bool use_rct = use_fork_rules(4, 0);
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const bool use_new_fee = use_fork_rules(3, -720 * 14);
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const uint64_t fee_per_kb = use_new_fee ? FEE_PER_KB : FEE_PER_KB_OLD;
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const uint64_t fee_multiplier = get_fee_multiplier(priority, use_new_fee);
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LOG_PRINT_L2("Starting with " << unused_transfers_indices.size() << " non-dust outputs and " << unused_dust_indices.size() << " dust outputs");
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LOG_PRINT_L2("Starting with " << unused_transfers_indices.size() << " non-dust outputs and " << unused_dust_indices.size() << " dust outputs");
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if (unused_dust_indices.empty() && unused_transfers_indices.empty())
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if (unused_dust_indices.empty() && unused_transfers_indices.empty())
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@ -3820,121 +3828,6 @@ uint64_t wallet2::unlocked_dust_balance(const tx_dust_policy &dust_policy) const
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}
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}
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return money;
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return money;
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}
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}
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template<typename T>
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void wallet2::transfer_from(const std::vector<size_t> &outs, size_t num_outputs, uint64_t unlock_time, uint64_t needed_fee, T destination_split_strategy, const tx_dust_policy& dust_policy, const std::vector<uint8_t> &extra, cryptonote::transaction& tx, pending_tx &ptx)
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{
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using namespace cryptonote;
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uint64_t upper_transaction_size_limit = get_upper_tranaction_size_limit();
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// select all dust inputs for transaction
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// throw if there are none
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uint64_t money = 0;
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std::list<size_t> selected_transfers;
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#if 1
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for (size_t n = 0; n < outs.size(); ++n)
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{
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const transfer_details& td = m_transfers[outs[n]];
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if (!td.m_spent)
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{
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selected_transfers.push_back (outs[n]);
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money += td.amount();
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if (selected_transfers.size() >= num_outputs)
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break;
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}
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}
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#else
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for (transfer_container::iterator i = m_transfers.begin(); i != m_transfers.end(); ++i)
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{
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const transfer_details& td = *i;
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if (!td.m_spent && (td.amount() < dust_policy.dust_threshold || !is_valid_decomposed_amount(td.amount())) && is_transfer_unlocked(td))
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{
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selected_transfers.push_back (i);
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money += td.amount();
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if (selected_transfers.size() >= num_outputs)
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break;
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}
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}
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#endif
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// we don't allow no output to self, easier, but one may want to burn the dust if = fee
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THROW_WALLET_EXCEPTION_IF(money <= needed_fee, error::not_enough_money, money, needed_fee, needed_fee);
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typedef cryptonote::tx_source_entry::output_entry tx_output_entry;
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//prepare inputs
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size_t i = 0;
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std::vector<cryptonote::tx_source_entry> sources;
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BOOST_FOREACH(size_t idx, selected_transfers)
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{
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sources.resize(sources.size()+1);
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cryptonote::tx_source_entry& src = sources.back();
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const transfer_details& td = m_transfers[idx];
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src.amount = td.amount();
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src.rct = td.is_rct();
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//paste real transaction to the random index
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auto it_to_insert = std::find_if(src.outputs.begin(), src.outputs.end(), [&](const tx_output_entry& a)
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{
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return a.first >= td.m_global_output_index;
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});
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tx_output_entry real_oe;
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real_oe.first = td.m_global_output_index;
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real_oe.second.dest = rct::pk2rct(boost::get<txout_to_key>(td.m_tx.vout[td.m_internal_output_index].target).key);
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real_oe.second.mask = rct::commit(td.amount(), td.m_mask);
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auto interted_it = src.outputs.insert(it_to_insert, real_oe);
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src.real_out_tx_key = get_tx_pub_key_from_extra(td.m_tx);
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src.real_output = interted_it - src.outputs.begin();
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src.real_output_in_tx_index = td.m_internal_output_index;
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detail::print_source_entry(src);
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++i;
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}
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cryptonote::tx_destination_entry change_dts = AUTO_VAL_INIT(change_dts);
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std::vector<cryptonote::tx_destination_entry> dsts;
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uint64_t money_back = money - needed_fee;
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if (dust_policy.dust_threshold > 0)
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money_back = money_back - money_back % dust_policy.dust_threshold;
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dsts.push_back(cryptonote::tx_destination_entry(money_back, m_account_public_address));
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std::vector<cryptonote::tx_destination_entry> splitted_dsts, dust;
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destination_split_strategy(dsts, change_dts, dust_policy.dust_threshold, splitted_dsts, dust);
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BOOST_FOREACH(auto& d, dust) {
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THROW_WALLET_EXCEPTION_IF(dust_policy.dust_threshold < d.amount, error::wallet_internal_error, "invalid dust value: dust = " +
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std::to_string(d.amount) + ", dust_threshold = " + std::to_string(dust_policy.dust_threshold));
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}
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crypto::secret_key tx_key;
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bool r = cryptonote::construct_tx_and_get_tx_key(m_account.get_keys(), sources, splitted_dsts, extra, tx, unlock_time, tx_key);
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THROW_WALLET_EXCEPTION_IF(!r, error::tx_not_constructed, sources, splitted_dsts, unlock_time, m_testnet);
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THROW_WALLET_EXCEPTION_IF(upper_transaction_size_limit <= get_object_blobsize(tx), error::tx_too_big, tx, upper_transaction_size_limit);
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std::string key_images;
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bool all_are_txin_to_key = std::all_of(tx.vin.begin(), tx.vin.end(), [&](const txin_v& s_e) -> bool
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{
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CHECKED_GET_SPECIFIC_VARIANT(s_e, const txin_to_key, in, false);
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key_images += boost::to_string(in.k_image) + " ";
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return true;
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});
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THROW_WALLET_EXCEPTION_IF(!all_are_txin_to_key, error::unexpected_txin_type, tx);
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ptx.key_images = key_images;
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ptx.fee = money - money_back;
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ptx.dust = 0;
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ptx.tx = tx;
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ptx.change_dts = change_dts;
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ptx.selected_transfers = selected_transfers;
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ptx.tx_key = tx_key;
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ptx.dests = dsts;
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ptx.construction_data.sources = sources;
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ptx.construction_data.destinations = dsts;
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ptx.construction_data.change_dts = change_dts;
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ptx.construction_data.extra = tx.extra;
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ptx.construction_data.unlock_time = unlock_time;
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ptx.construction_data.use_rct = false;
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}
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//----------------------------------------------------------------------------------------------------
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//----------------------------------------------------------------------------------------------------
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void wallet2::get_hard_fork_info(uint8_t version, uint64_t &earliest_height)
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void wallet2::get_hard_fork_info(uint8_t version, uint64_t &earliest_height)
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{
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{
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@ -4114,100 +4007,17 @@ std::vector<wallet2::pending_tx> wallet2::create_unmixable_sweep_transactions(bo
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return std::vector<wallet2::pending_tx>();
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return std::vector<wallet2::pending_tx>();
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}
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}
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// failsafe split attempt counter
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// split in "dust" and "non dust" to make it easier to select outputs
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size_t attempt_count = 0;
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std::vector<size_t> unmixable_transfer_outputs, unmixable_dust_outputs;
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for (auto n: unmixable_outputs)
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for(attempt_count = 1; ;attempt_count++)
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{
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{
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size_t num_tx = 0.5 + pow(1.7,attempt_count-1);
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if (m_transfers[n].amount() < fee_per_kb)
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size_t num_outputs_per_tx = (num_dust_outputs + num_tx - 1) / num_tx;
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unmixable_dust_outputs.push_back(n);
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else
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std::vector<pending_tx> ptx_vector;
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unmixable_transfer_outputs.push_back(n);
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try
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{
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// for each new tx
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for (size_t i=0; i<num_tx;++i)
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{
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cryptonote::transaction tx;
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pending_tx ptx;
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std::vector<uint8_t> extra;
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// loop until fee is met without increasing tx size to next KB boundary.
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uint64_t needed_fee = 0;
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do
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{
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transfer_from(unmixable_outputs, num_outputs_per_tx, (uint64_t)0 /* unlock_time */, 0, detail::digit_split_strategy, dust_policy, extra, tx, ptx);
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auto txBlob = t_serializable_object_to_blob(ptx.tx);
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needed_fee = calculate_fee(fee_per_kb, txBlob, 1);
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// reroll the tx with the actual amount minus the fee
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// if there's not enough for the fee, it'll throw
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transfer_from(unmixable_outputs, num_outputs_per_tx, (uint64_t)0 /* unlock_time */, needed_fee, detail::digit_split_strategy, dust_policy, extra, tx, ptx);
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txBlob = t_serializable_object_to_blob(ptx.tx);
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needed_fee = calculate_fee(fee_per_kb, txBlob, 1);
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} while (ptx.fee < needed_fee);
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ptx_vector.push_back(ptx);
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// mark transfers to be used as "spent"
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BOOST_FOREACH(size_t idx, ptx.selected_transfers)
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{
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set_spent(idx, 0);
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}
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}
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}
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// if we made it this far, we've selected our transactions. committing them will mark them spent,
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return create_transactions_from(m_account_public_address, unmixable_transfer_outputs, unmixable_dust_outputs, 0 /*fake_outs_count */, 0 /* unlock_time */, 1 /*priority */, std::vector<uint8_t>(), trusted_daemon);
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// so this is a failsafe in case they don't go through
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// unmark pending tx transfers as spent
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for (auto & ptx : ptx_vector)
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{
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// mark transfers to be used as not spent
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BOOST_FOREACH(size_t idx2, ptx.selected_transfers)
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{
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set_unspent(idx2);
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}
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}
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// if we made it this far, we're OK to actually send the transactions
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return ptx_vector;
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}
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// only catch this here, other exceptions need to pass through to the calling function
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catch (const tools::error::tx_too_big& e)
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{
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// unmark pending tx transfers as spent
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for (auto & ptx : ptx_vector)
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{
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// mark transfers to be used as not spent
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BOOST_FOREACH(size_t idx2, ptx.selected_transfers)
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{
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set_unspent(idx2);
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}
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}
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if (attempt_count >= MAX_SPLIT_ATTEMPTS)
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{
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throw;
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}
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}
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catch (...)
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{
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// in case of some other exception, make sure any tx in queue are marked unspent again
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// unmark pending tx transfers as spent
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for (auto & ptx : ptx_vector)
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{
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// mark transfers to be used as not spent
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BOOST_FOREACH(size_t idx2, ptx.selected_transfers)
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{
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set_unspent(idx2);
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}
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}
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throw;
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}
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}
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}
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}
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bool wallet2::get_tx_key(const crypto::hash &txid, crypto::secret_key &tx_key) const
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bool wallet2::get_tx_key(const crypto::hash &txid, crypto::secret_key &tx_key) const
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@ -346,8 +346,6 @@ namespace tools
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void transfer(const std::vector<cryptonote::tx_destination_entry>& dsts, const size_t fake_outputs_count, const std::vector<size_t> &unused_transfers_indices, uint64_t unlock_time, uint64_t fee, const std::vector<uint8_t>& extra, bool trusted_daemon);
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void transfer(const std::vector<cryptonote::tx_destination_entry>& dsts, const size_t fake_outputs_count, const std::vector<size_t> &unused_transfers_indices, uint64_t unlock_time, uint64_t fee, const std::vector<uint8_t>& extra, bool trusted_daemon);
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void transfer(const std::vector<cryptonote::tx_destination_entry>& dsts, const size_t fake_outputs_count, const std::vector<size_t> &unused_transfers_indices, uint64_t unlock_time, uint64_t fee, const std::vector<uint8_t>& extra, cryptonote::transaction& tx, pending_tx& ptx, bool trusted_daemon);
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void transfer(const std::vector<cryptonote::tx_destination_entry>& dsts, const size_t fake_outputs_count, const std::vector<size_t> &unused_transfers_indices, uint64_t unlock_time, uint64_t fee, const std::vector<uint8_t>& extra, cryptonote::transaction& tx, pending_tx& ptx, bool trusted_daemon);
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template<typename T>
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template<typename T>
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void transfer_from(const std::vector<size_t> &outs, size_t num_outputs, uint64_t unlock_time, uint64_t needed_fee, T destination_split_strategy, const tx_dust_policy& dust_policy, const std::vector<uint8_t>& extra, cryptonote::transaction& tx, pending_tx &ptx);
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template<typename T>
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void transfer_selected(const std::vector<cryptonote::tx_destination_entry>& dsts, const std::list<size_t> selected_transfers, size_t fake_outputs_count,
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void transfer_selected(const std::vector<cryptonote::tx_destination_entry>& dsts, const std::list<size_t> selected_transfers, size_t fake_outputs_count,
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uint64_t unlock_time, uint64_t fee, const std::vector<uint8_t>& extra, T destination_split_strategy, const tx_dust_policy& dust_policy, cryptonote::transaction& tx, pending_tx &ptx);
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uint64_t unlock_time, uint64_t fee, const std::vector<uint8_t>& extra, T destination_split_strategy, const tx_dust_policy& dust_policy, cryptonote::transaction& tx, pending_tx &ptx);
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void transfer_selected_rct(std::vector<cryptonote::tx_destination_entry> dsts, const std::list<size_t> selected_transfers, size_t fake_outputs_count,
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void transfer_selected_rct(std::vector<cryptonote::tx_destination_entry> dsts, const std::list<size_t> selected_transfers, size_t fake_outputs_count,
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@ -361,6 +359,7 @@ namespace tools
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std::vector<pending_tx> create_transactions(std::vector<cryptonote::tx_destination_entry> dsts, const size_t fake_outs_count, const uint64_t unlock_time, uint32_t priority, const std::vector<uint8_t> extra, bool trusted_daemon);
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std::vector<pending_tx> create_transactions(std::vector<cryptonote::tx_destination_entry> dsts, const size_t fake_outs_count, const uint64_t unlock_time, uint32_t priority, const std::vector<uint8_t> extra, bool trusted_daemon);
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std::vector<wallet2::pending_tx> create_transactions_2(std::vector<cryptonote::tx_destination_entry> dsts, const size_t fake_outs_count, const uint64_t unlock_time, uint32_t priority, const std::vector<uint8_t> extra, bool trusted_daemon);
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std::vector<wallet2::pending_tx> create_transactions_2(std::vector<cryptonote::tx_destination_entry> dsts, const size_t fake_outs_count, const uint64_t unlock_time, uint32_t priority, const std::vector<uint8_t> extra, bool trusted_daemon);
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std::vector<wallet2::pending_tx> create_transactions_all(const cryptonote::account_public_address &address, const size_t fake_outs_count, const uint64_t unlock_time, uint32_t priority, const std::vector<uint8_t> extra, bool trusted_daemon);
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std::vector<wallet2::pending_tx> create_transactions_all(const cryptonote::account_public_address &address, const size_t fake_outs_count, const uint64_t unlock_time, uint32_t priority, const std::vector<uint8_t> extra, bool trusted_daemon);
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std::vector<wallet2::pending_tx> create_transactions_from(const cryptonote::account_public_address &address, std::vector<size_t> unused_transfers_indices, std::vector<size_t> unused_dust_indices, const size_t fake_outs_count, const uint64_t unlock_time, uint32_t priority, const std::vector<uint8_t> extra, bool trusted_daemon);
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std::vector<pending_tx> create_unmixable_sweep_transactions(bool trusted_daemon);
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std::vector<pending_tx> create_unmixable_sweep_transactions(bool trusted_daemon);
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bool check_connection(bool *same_version = NULL);
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bool check_connection(bool *same_version = NULL);
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void get_transfers(wallet2::transfer_container& incoming_transfers) const;
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void get_transfers(wallet2::transfer_container& incoming_transfers) const;
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||||||
|
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Loading…
Reference in New Issue